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Nom-d-utilisateur-et-mot-de-passe-par-defaut-pour-Cisco-Transport-Controller
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Nom d'utilisateur et mot de passe par défaut pour Cisco Transport
Controller
Contenu
Introduction
Conditions préalables
Conditions requises
Composants utilisés
Conventions
Nom d'utilisateur par défaut et mot de passe
Versions 4.1.x et 4.5 ONS 15454
Version 4.6.x et ultérieures ONS 15454
Problème
Solution
Informations connexes
Introduction
Ce document fournit le nom d'utilisateur et le mot de passe par défaut que vous pouvez employer pour se connecter dans le contrôleur de
transport de Cisco (CTC) pendant la première installation sur le Cisco ONS 15454.
Conditions préalables
Conditions requises
Cisco vous recommande de prendre connaissance des rubriques suivantes :
Cisco ONS 15454
CTC
Composants utilisés
Les informations contenues dans ce document sont basées sur les versions de matériel et de logiciel suivantes :
Version 4.1.x et ultérieures du Cisco ONS 15454
Les informations contenues dans ce document ont été créées à partir des périphériques d'un environnement de laboratoire spécifique. Tous les
périphériques utilisés dans ce document ont démarré avec une configuration effacée (par défaut). Si votre réseau est opérationnel, assurez-vous
que vous comprenez l'effet potentiel de toute commande.
Conventions
Pour plus d'informations sur les conventions utilisées dans ce document, reportez-vous à Conventions relatives aux conseils techniques Cisco.
Nom d'utilisateur par défaut et mot de passe
Cette section fournit les valeurs par défaut de procédure de connexion pour des différentes versions d'ONS 15454.
Versions 4.1.x et 4.5 ONS 15454
Employez ces valeurs par défaut de procédure de connexion pour se connecter dans le CTC pour des versions 4.1.x et 4.5 ONS 15454 :
Nom d'utilisateur = CISCO15
Mot de passe =
CISCO15 est livré sans mot de passe dans des versions 4.1.x et 4.5 ONS 15454.
Version 4.6.x et ultérieures ONS 15454
Employez ces valeurs par défaut de procédure de connexion pour se connecter dans le CTC pour la version 4.6.x et ultérieures ONS 15454 :
Nom d'utilisateur = CISCO15
Mot de passe = otbu+1
Les valeurs par défaut de procédure de connexion distinguent les majuscules et minuscules dans toutes les versions d'ONS 15454. Le nom
d'utilisateur CISCO15 a des privilèges de super utilisateur. Vous pouvez employer CISCO15 pour créer d'autres utilisateurs. Vous devez créer
un autre super utilisateur avant que vous puissiez supprimer CISCO15.
Problème
Bien que CISCO15 doive être livré sans mot de passe dans des versions 4.1.x et 4.5 ONS 15454, quelques cartes TCC2 livrées avec la version
4.1.x ou 4.5 ONS 15454 sont chargées avec otbu+1 comme mot de passe par défaut. Ceci contredit les informations fournies à la page 3-27 du
guide de procédure du Cisco ONS 15454, du R4.1.x et du R4.5.
Solution
Quand vous vous connectez dans le CTC pour l'installation initiale sur la version 4.1.x ou 4.5.x ONS 15454, utilisez CISCO15 sans mot de passe
d'abord. Si votre procédure de connexion échoue, utilisez otbu+1 comme mot de passe pour CISCO15. Si vous ne pouvez pas encore ouvrir une
session, satisfaire entrez en contact avec le centre d'assistance technique Cisco (TAC) pour l'assistance.
Informations connexes
Notes techniques de dépannage
© 1992-2010 Cisco Systems Inc. Tous droits réservés.
Date du fichier PDF généré: 16 décembre 2015
http://www.cisco.com/cisco/web/support/CA/fr/109/1096/1096300_defaultpass.html
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User Guide for the Cisco Application
Networking Manager 5.2
February 2012
Text Part Number: OL-26572-01
THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE. ALL
STATEMENTS, INFORMATION, AND RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT
WARRANTY OF ANY KIND, EXPRESS OR IMPLIED. USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS.
THE SOFTWARE LICENSE AND LIMITED WARRANTY FOR THE ACCOMPANYING PRODUCT ARE SET FORTH IN THE INFORMATION PACKET THAT
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OR LIMITED WARRANTY, CONTACT YOUR CISCO REPRESENTATIVE FOR A COPY.
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NOTWITHSTANDING ANY OTHER WARRANTY HEREIN, ALL DOCUMENT FILES AND SOFTWARE OF THESE SUPPLIERS ARE PROVIDED “AS IS” WITH
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IN NO EVENT SHALL CISCO OR ITS SUPPLIERS BE LIABLE FOR ANY INDIRECT, SPECIAL, CONSEQUENTIAL, OR INCIDENTAL DAMAGES, INCLUDING,
WITHOUT LIMITATION, LOST PROFITS OR LOSS OR DAMAGE TO DATA ARISING OUT OF THE USE OR INABILITY TO USE THIS MANUAL, EVEN IF CISCO
OR ITS SUPPLIERS HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
Cisco and the Cisco Logo are trademarks of Cisco Systems, Inc. and/or its affiliates in the U.S. and other countries. A listing of Cisco's trademarks can be found at
www.cisco.com/go/trademarks. Third party trademarks mentioned are the property of their respective owners. The use of the word partner does not imply a partnership
relationship between Cisco and any other company. (1005R)
Any Internet Protocol (IP) addresses used in this document are not intended to be actual addresses. Any examples, command display output, and figures included in the
document are shown for illustrative purposes only. Any use of actual IP addresses in illustrative content is unintentional and coincidental.
User Guide for the Cisco Application Networking Manager 5.2
© 2011 Cisco Systems, Inc. All rights reserved.
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CONTENTS
Preface ix
Audience ix
Organization ix
Conventions xi
Open-Source Software Included in the Cisco Application Networking Manager xi
Obtaining Documentation and Submitting a Service Request xii
CHAPTER 1 Overview 1-1
ANM Overview 1-1
IPv6 Considerations 1-3
Logging In To the Cisco Application Networking Manager 1-5
Changing Your Account Password 1-6
ANM Licenses 1-7
ANM Interface Components 1-8
ANM Windows and Menus 1-9
ANM Buttons 1-11
Table Conventions 1-14
Filtering Entries 1-14
Customizing Tables 1-15
Using the Advanced Editing Option 1-16
ANM Screen Conventions 1-17
CHAPTER 2 Using Homepage 2-1
Information About Homepage 2-1
Customizing the Default ANM Page 2-4
CHAPTER 3 Using ANM Guided Setup 3-1
Information About Guided Setup 3-1
Guidelines and Limitations 3-4
Using Import Devices 3-4
Using ACE Hardware Setup 3-5
Using Virtual Context Setup 3-10
Using Application Setup 3-12
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ACE Network Topology Overview 3-12
Using Application Setup 3-14
CHAPTER 4 Using Application Template Definitions 4-1
Information About Application Template Definitions and Instances 4-1
Managing Application Template Instances 4-3
Creating an Application Template Instance 4-4
Deploying a Staged Application Template Instance 4-7
Editing an Application Template Instance 4-9
Duplicating an Application Template Instance 4-10
Viewing and Editing Application Template Instance Details 4-12
Deleting an Application Template Instance 4-13
Managing Application Template Definitions 4-15
Editing an Application Template Definition 4-15
Editing an Application Template Definition Using the ANM Template Editor 4-18
Editing an Application Template Definition Using an External Editor 4-19
Creating an Application Template Definition 4-20
Creating an Application Template Definition Using the ANM Template Editor 4-21
Creating an Application Template Definition Using an External XML Editor 4-23
Exporting an Application Template Definition 4-26
Importing an Application Template Definition 4-26
Testing an Application Template Definition 4-28
Deleting an Application Template Definition 4-29
Using the ANM Template Editor 4-29
CHAPTER 5 Importing and Managing Devices 5-1
Information About Device Management 5-2
Information About Importing Devices 5-4
Preparing Devices for Import 5-4
Enabling SSH or Telnet Access on Catalyst 6500 Series Switches and Cisco 7600 Series Routers 5-5
Enabling SSH Access and the HTTPS Interface on the ACE Module and Appliance 5-6
Enabling SNMP Polling from ANM 5-7
ANM Requirements for ACE High Availability 5-8
Modifying the ANM Timeout Setting to Compensate for Network Latency 5-9
Importing Network Devices into ANM 5-10
Importing Cisco IOS Host Chassis and Chassis Modules 5-11
Importing Cisco IOS Devices with Installed Modules 5-12
Importing ACE Modules after the Host Chassis has been Imported 5-16
Importing CSM Devices after the Host Chassis has been Imported 5-19
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Importing VSS 1440 Devices after the Host Chassis has been Imported 5-20
Importing ACE Appliances 5-21
Importing CSS Devices 5-22
Importing GSS Devices 5-23
Importing VMware vCenter Servers 5-24
Enabling a Setup Syslog for Autosync for Use With an ACE 5-27
Discovering Large Numbers of Devices Using IP Discovery 5-27
Preparing Devices for IP Discovery 5-28
Configuring Device Access Credentials 5-29
Modifying Credential Pools 5-30
Running IP Discovery to Identify Devices 5-31
Monitoring IP Discovery Status 5-33
Configuring Devices 5-34
Configuring Device System Attributes 5-34
Configuring CSM Primary Attributes 5-34
Configuring CSS Primary Attributes 5-35
Configuring GSS Primary Attributes 5-36
Configuring Catalyst 6500 VSS 1440 Primary Attributes 5-38
Configuring Catalyst 6500 Series Chassis and Cisco 7600 Series Router Primary Attributes 5-38
Configuring Catalyst 6500 Series Chassis, Catalyst 6500 Virtual Switching System 1440 Devices,
and Cisco 7600 Series Routers Static Routes 5-39
Configuring VMware vCenter Server Primary Attributes 5-41
Configuring Catalyst 6500 Series Chassis or Cisco 7600 Series Router Interfaces 5-41
Displaying Chassis Interfaces and Configuring High-Level Interface Attributes 5-42
Configuring Access Ports 5-43
Configuring Trunk Ports 5-44
Configuring Switch Virtual Interfaces 5-45
Configuring Routed Ports 5-46
Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs 5-48
Adding Device VLANs 5-48
Displaying All Device VLANs 5-49
Configuring Device Layer 2 VLANs 5-50
Configuring Device Layer 3 VLANs 5-51
Modifying Device VLANs 5-51
Creating VLAN Groups 5-52
Configuring ACE Module and Appliance Role-Based Access Controls 5-53
Configuring Device RBAC Users 5-53
Guidelines for Managing Users 5-53
Displaying a List of Device Users 5-54
Configuring Device User Accounts 5-54
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Modifying Device User Accounts 5-55
Deleting Device User Accounts 5-56
Configuring Device RBAC Roles 5-56
Guidelines for Managing User Roles 5-57
Role Mapping in Device RBAC 5-57
Configuring Device User Roles 5-58
Modifying Device User Roles 5-60
Deleting Device User Roles 5-60
Adding, Editing, or Deleting Rules 5-61
Configuring Device RBAC Domains 5-61
Guidelines for Managing Domains 5-62
Displaying Domains for a Device 5-62
Configuring Device Domains 5-63
Modifying Device Domains 5-65
Deleting Device Domains 5-65
Managing Devices 5-66
Synchronizing Device Configurations 5-66
Synchronizing Chassis Configurations 5-67
Synchronizing Module Configurations 5-67
Mapping Real Servers to VMware Virtual Machines 5-68
Instructing ANM to Recognize an ACE Module Software Upgrade 5-71
Configuring User-Defined Groups 5-72
Adding a User-Defined Group 5-72
Modifying a User-Defined Group 5-73
Duplicating a User-Defined Group 5-74
Deleting a User-Defined Group 5-75
Changing Device Credentials 5-75
Changing ACE Module Passwords 5-77
Restarting Device Polling 5-78
Displaying All Devices 5-78
Displaying Modules by Chassis 5-79
Removing Modules from the ANM Database 5-80
Replacing an ACE Module Managed by ANM 5-82
Using the Preferred Method to Replace an ACE Module 5-82
Using the Alternate Method to Replace an ACE Module 5-84
CHAPTER 6 Configuring Virtual Contexts 6-1
Information About Virtual Contexts 6-2
Creating Virtual Contexts 6-2
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Configuring Virtual Contexts 6-8
Configuring Virtual Context System Attributes 6-13
Configuring Virtual Context Primary Attributes 6-14
Configuring Virtual Context Syslog Settings 6-19
Configuring Syslog Log Hosts 6-23
Configuring Syslog Log Messages 6-24
Configuring Syslog Log Rate Limits 6-26
Configuring SNMP for Virtual Contexts 6-27
Configuring Basic SNMP Attributes 6-27
Configuring SNMPv2c Communities 6-28
Configuring SNMPv3 Users 6-29
Configuring SNMP Trap Destination Hosts 6-32
Configuring SNMP Notification 6-33
Applying a Policy Map Globally to All VLAN Interfaces 6-35
Managing ACE Licenses 6-36
Viewing ACE Licenses 6-36
Installing ACE Licenses 6-37
Uninstalling ACE Licenses 6-39
Updating ACE Licenses 6-40
Displaying the File Contents of a License 6-42
Using Resource Classes 6-43
Global and Local Resource Classes 6-44
Resource Allocation Constraints 6-44
Using Global Resource Classes 6-46
Configuring Global Resource Classes 6-46
Deploying Global Resource Classes 6-48
Auditing Resource Classes 6-49
Modifying Global Resource Classes 6-50
Deleting Global Resource Classes 6-51
Using Local Resource Classes 6-51
Configuring Local Resource Classes 6-52
Deleting Local Resource Classes 6-53
Displaying Local Resource Class Use on Virtual Contexts 6-54
Using the Configuration Checkpoint and Rollback Service 6-54
Creating a Configuration Checkpoint 6-55
Deleting a Configuration Checkpoint 6-56
Rolling Back a Running Configuration 6-56
Displaying Checkpoint Information 6-57
Comparing a Checkpoint to the Running Configuration 6-58
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Performing Device Backup and Restore Functions 6-59
Backing Up Device Configuration and Dependencies 6-62
Restoring Device Configuration and Dependencies 6-66
Performing Global Device Backup and Copy Functions 6-68
Backing Up Multiple Device Configuration and SSL Files 6-69
Associating a Global Backup Schedule with a Device 6-71
Managing Global Backup Schedules 6-73
Creating a Backup Schedule 6-73
Updating an Existing Backup Schedule 6-76
Deleting a Backup Schedule 6-76
Copying Existing Tarred Backup Files to a Remote Server 6-77
Configuring Security with ACLs 6-78
Creating ACLs 6-79
Setting Extended ACL Attributes 6-82
Resequencing Extended ACLs 6-87
Setting EtherType ACL Attributes 6-87
Displaying ACL Information and Statistics 6-89
Configuring Object Groups 6-89
Creating or Editing an Object Group 6-90
Configuring IP Addresses for Object Groups 6-91
Configuring Subnet Objects for Object Groups 6-92
Configuring Protocols for Object Groups 6-93
Configuring TCP/UDP Service Parameters for Object Groups 6-94
Configuring ICMP Service Parameters for an Object Group 6-97
Managing ACLs 6-99
Viewing All ACLs by Context 6-99
Editing or Deleting ACLs 6-100
Configuring Virtual Context Expert Options 6-101
Comparing Context and Building Block Configurations 6-101
Managing Virtual Contexts 6-103
Displaying All Virtual Contexts 6-103
Synchronizing Virtual Context Configurations 6-105
Managing Syslog Settings for Autosynchronization 6-105
Editing Virtual Contexts 6-106
Deleting Virtual Contexts 6-107
Upgrading Virtual Contexts 6-107
Restarting Virtual Context Polling 6-108
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CHAPTER 7 Configuring Virtual Servers 7-1
Information About Load Balancing 7-1
Configuring Virtual Servers 7-2
Virtual Server Configuration and ANM 7-2
Information About Using ANM to Configure Virtual Servers 7-4
Virtual Server Usage Guidelines 7-5
Virtual Server Testing and Troubleshooting 7-6
Virtual Server Configuration Procedure 7-7
Shared Objects and Virtual Servers 7-9
Virtual Server Protocols by Device Type 7-11
Configuring Virtual Server Properties 7-11
Configuring Virtual Server SSL Termination 7-17
Configuring Virtual Server Protocol Inspection 7-18
Configuring Virtual Server Layer 7 Load Balancing 7-30
Configuring Virtual Server Default Layer 7 Load Balancing 7-50
Configuring Application Acceleration and Optimization 7-53
Configuring Virtual Server NAT 7-63
Displaying Virtual Servers by Context 7-65
Displaying Virtual Server Statistics and Status Information 7-65
Managing Virtual Servers 7-66
Managing Virtual Server Groups 7-67
Creating a Virtual Server Group 7-68
Editing or Copying a Virtual Server Group 7-69
Displaying a Virtual Server Group 7-70
Deleting a Virtual Server Group 7-70
Activating Virtual Servers 7-71
Suspending Virtual Servers 7-72
Managing GSS VIP Answers 7-73
Activating and Suspending DNS Rules Governing GSS Load Balancing 7-75
Managing GSS VIP Answer and DNS Rule Groups 7-76
Creating a VIP Answer or DNS Rule Group 7-77
Editing or Copying a VIP Answer or DNS Rule Group 7-78
Displaying a VIP Answer or DNS Rule Group 7-79
Deleting a VIP Answer or DNS Rule Group 7-80
Displaying Detailed Virtual Server Information 7-81
Displaying Virtual Servers 7-81
Using the Virtual Server Connection Statistics Graph 7-84
Using the Virtual Server Topology Map 7-85
Understanding CLI Commands Sent from Virtual Server Table 7-86
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Deploying Virtual Servers 7-86
Deploying a Virtual Server 7-87
Displaying All Staged Virtual Servers 7-87
Modifying Deployed Virtual Servers 7-88
Modifying Staged Virtual Servers 7-88
CHAPTER 8 Configuring Real Servers and Server Farms 8-1
Information About Server Load Balancing 8-1
Load-Balancing Predictors 8-2
Real Servers 8-3
Dynamic Workload Scaling Overview 8-4
Server Farms 8-5
Configuring Real Servers 8-5
Configuring Load Balancing on Real Servers 8-6
Displaying Real Server Statistics and Status Information 8-9
Managing Real Servers 8-9
Managing Real Server Groups 8-10
Creating a Real Server Group 8-11
Editing or Copying a Real Server Group 8-12
Displaying a Real Server Group 8-13
Deleting a Real Server Group 8-13
Activating Real Servers 8-14
Suspending Real Servers 8-15
Modifying Real Server Weight Value 8-17
Displaying Real Servers 8-18
Using the Real Server Connection Statistics Graph 8-22
Using the Real Server Topology Map 8-23
CLI Commands Sent from the Real Server Table 8-23
Server Weight Ranges 8-25
Configuring Dynamic Workload Scaling 8-26
Configuring and Verifying a Cisco Nexus 7000 Series Switch Connection 8-27
Configuring and Verifying a VM Controller Connection 8-29
Configuring Server Farms 8-30
Configuring Load Balancing Using Server Farms 8-31
Adding Real Servers to a Server Farm 8-37
Configuring the Predictor Method for Server Farms 8-39
Configuring Server Farm HTTP Return Error-Code Checking 8-46
Displaying All Server Farms 8-48
Displaying Server Farm Statistics and Status Information 8-48
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Configuring Health Monitoring 8-49
TCL Scripts 8-50
Configuring Health Monitoring for Real Servers 8-51
Configuring Probe Attributes 8-56
DNS Probe Attributes 8-57
Echo-TCP Probe Attributes 8-58
Echo-UDP Probe Attributes 8-58
Finger Probe Attributes 8-58
FTP Probe Attributes 8-59
HTTP Probe Attributes 8-60
HTTPS Probe Attributes 8-61
IMAP Probe Attributes 8-63
POP Probe Attributes 8-64
RADIUS Probe Attributes 8-65
RTSP Probe Attributes 8-65
Scripted Probe Attributes 8-66
SIP-TCP Probe Attributes 8-67
SIP-UDP Probe Attributes 8-68
SMTP Probe Attributes 8-69
SNMP Probe Attributes 8-69
TCP Probe Attributes 8-70
Telnet Probe Attributes 8-70
UDP Probe Attributes 8-71
VM Probe Attributes 8-72
Configuring DNS Probe Expect Addresses 8-73
Configuring Headers for HTTP and HTTPS Probes 8-74
Configuring Health Monitoring Expect Status 8-74
Configuring an OID for SNMP Probes 8-76
Displaying Health Monitoring Statistics and Status Information 8-77
Configuring Secure KAL-AP 8-77
CHAPTER 9 Configuring Stickiness 9-1
Information About Stickiness 9-1
Sticky Types 9-2
HTTP Content Stickiness 9-3
HTTP Cookie Stickiness 9-3
HTTP Header Stickiness 9-4
IP Netmask and IPv6 Prefix Stickiness 9-4
Layer 4 Payload Stickiness 9-4
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RADIUS Stickiness 9-5
RTSP Header Stickiness 9-5
SIP Header Stickiness 9-5
Sticky Groups 9-6
Sticky Table 9-6
Configuring Sticky Groups 9-7
Sticky Group Attribute Tables 9-11
HTTP Content Sticky Group Attributes 9-11
HTTP Cookie Sticky Group Attributes 9-12
HTTP Header Sticky Group Attributes 9-13
IP Netmask Sticky Group Attributes 9-13
V6 Prefix Sticky Group Attributes 9-13
Layer 4 Payload Sticky Group Attributes 9-14
RADIUS Sticky Group Attributes 9-14
RTSP Header Sticky Group Attributes 9-15
Displaying All Sticky Groups by Context 9-15
Configuring Sticky Statics 9-15
CHAPTER 10 Configuring Parameter Maps 10-1
Information About Parameter Maps 10-1
Configuring Connection Parameter Maps 10-3
Configuring Generic Parameter Maps 10-8
Configuring HTTP Parameter Maps 10-9
Configuring Optimization Parameter Maps 10-12
Configuring RTSP Parameter Maps 10-20
Configuring SIP Parameter Maps 10-21
Configuring Skinny Parameter Maps 10-23
Configuring DNS Parameter Maps 10-25
Supported MIME Types 10-26
CHAPTER 11 Configuring SSL 11-1
SSL Overview 11-2
SSL Configuration Prerequisites 11-2
Summary of SSL Configuration Tasks 11-3
SSL Setup Sequence 11-4
Using SSL Certificates 11-5
Importing SSL Certificates 11-7
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Using SSL Keys 11-10
Importing SSL Key Pairs 11-11
Generating SSL Key Pairs 11-14
Exporting SSL Certificates 11-15
Exporting SSL Key Pairs 11-16
Configuring SSL Parameter Maps 11-18
Configuring SSL Chain Group Parameters 11-23
Configuring SSL CSR Parameters 11-24
Generating CSRs 11-26
Configuring SSL Proxy Service 11-27
Configuring SSL OCSP Service 11-29
Enabling Client Authentication 11-31
Configuring SSL Authentication Groups 11-31
Configuring CRLs for Client Authentication 11-33
CHAPTER 12 Configuring Network Access 12-1
Information About VLANs 12-2
ACE Module VLANs 12-2
ACE Appliance VLANs 12-2
Configuring VLANs Using Cisco IOS Software (ACE Module) 12-3
Creating VLAN Groups Using Cisco IOS Software 12-3
Assigning VLAN Groups to the ACE Module Through Cisco IOS Software 12-4
Adding Switched Virtual Interfaces to the MSFC 12-5
Configuring Virtual Context VLAN Interfaces 12-6
Displaying All VLAN Interfaces 12-18
Displaying VLAN Interface Statistics and Status Information 12-18
Configuring Virtual Context BVI Interfaces 12-19
Configuring BVI Interfaces for a Virtual Context 12-19
Displaying All BVI Interfaces by Context 12-25
Displaying BVI Interface Statistics and Status Information 12-26
Configuring VLAN Interface NAT Pools 12-26
Configuring Virtual Context Static Routes 12-28
Configuring Global IP DHCP 12-29
Configuring Static VLANs for Over 8000 Static NAT Configurations 12-31
Configuring Gigabit Ethernet Interfaces on the ACE Appliance 12-32
Configuring Gigabit Ethernet Interfaces 12-32
Displaying Gigabit Ethernet Interface Statistics and Status Information 12-35
Configuring Port-Channel Interfaces for the ACE Appliance 12-35
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Why Use Port Channels? 12-35
Configuring a Port-Channel Interface 12-36
Configuring a Catalyst 6500 Series Switch for an ACE Appliance Port-Channel Interface
Connection 12-38
Creating the Port Channel Interface on the Catalyst 6500 12-38
Adding Interfaces to the Port Channel 12-39
Displaying Port Channel Interface Statistics and Status Information 12-40
CHAPTER 13 Configuring High Availability 13-1
Understanding ANM High Availability 13-2
Understanding ANM High Availability Processes 13-3
Configuring ANM High Availability Overview 13-3
CLI Commands for ANM High Availability Processes 13-4
Recovering From an HA Database Replication Failure 13-6
Understanding ACE Redundancy 13-6
ACE High Availability Polling 13-7
ACE Redundancy Protocol 13-8
ACE Stateful Failover 13-9
ACE Fault-Tolerant VLAN 13-10
ACE Configuration Synchronization 13-11
ACE Redundancy Configuration Requirements and Restrictions 13-12
ACE High Availability Troubleshooting Guidelines 13-12
Configuring ACE High Availability 13-14
Configuring ACE High Availability Peers 13-15
Clearing ACE High Availability Pairs 13-17
Configuring ACE High Availability Groups 13-17
Editing High Availability Groups 13-19
Taking a High Availability Group Out of Service 13-20
Enabling a High Availability Group 13-21
Displaying High Availability Group Statistics and Status 13-21
Switching Over an ACE High Availability Group 13-22
Deleting ACE High Availability Groups 13-23
ACE High Availability Tracking and Failure Detection Overview 13-23
Tracking ACE VLAN Interfaces for High Availability 13-24
Tracking Hosts for High Availability 13-25
Configuring Host Tracking Probes 13-26
Deleting Host Tracking Probes 13-27
Configuring ACE Peer Host Tracking Probes 13-28
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Deleting Peer Host Tracking Probes 13-29
Configuring ACE HSRP Groups 13-29
Synchronizing ACE High Availability Configurations 13-30
Synchronizing Virtual Context Configurations in High Availability Mode 13-31
Synchronizing SSL Certificate and Key Pairs on Both ACE Peers 13-32
CHAPTER 14 Configuring Traffic Policies 14-1
Traffic Policy Overview 14-1
Class Map and Policy Map Overview 14-2
Class Maps 14-3
Policy Maps 14-4
Parameter Maps and Their Use in Layer 3 and Layer 4 Policy Maps 14-5
Protocol Inspection Overview 14-6
Configuring Virtual Context Class Maps 14-6
Deleting Class Maps 14-8
Setting Match Conditions for Class Maps 14-8
Setting Match Conditions for Layer 3/Layer 4 Network Traffic Class Maps 14-9
Setting Match Conditions for Layer 3/Layer 4 Management Traffic Class Maps 14-12
Setting Match Conditions for Layer 7 Server Load Balancing Class Maps 14-14
Setting Match Conditions for Layer 7 HTTP Deep Packet Inspection Class Maps 14-17
Setting Match Conditions for Layer 7 FTP Command Inspection Class Maps 14-22
Setting Match Conditions for Generic Server Load Balancing Class Maps 14-23
Setting Match Conditions for RADIUS Server Load Balancing Class Maps 14-25
Setting Match Conditions for RTSP Server Load Balancing Class Maps 14-26
Setting Match Conditions for SIP Server Load Balancing Class Maps 14-27
Setting Match Conditions for Layer 7 SIP Deep Packet Inspection Class Maps 14-30
Configuring Virtual Context Policy Maps 14-32
Configuring Rules and Actions for Policy Maps 14-34
Setting Policy Map Rules and Actions for Generic Server Load Balancing 14-35
Setting Policy Map Rules and Actions for Layer 3/Layer 4 Management Traffic 14-39
Setting Policy Map Rules and Actions for Layer 3/Layer 4 Network Traffic 14-41
Setting Policy Map Rules and Actions for Layer 7 FTP Command Inspection 14-48
Setting Policy Map Rules and Actions for Layer 7 HTTP Deep Packet Inspection 14-51
Setting Policy Map Rules and Actions for Layer 7 HTTP Optimization 14-57
Setting Policy Map Rules and Actions for Layer 7 Server Load-Balancing Traffic 14-61
Setting Policy Map Rules and Actions for Layer 7 SIP Deep Packet Inspection 14-68
Setting Policy Map Rules and Actions for Layer 7 Skinny Deep Packet Inspection 14-71
Setting Policy Map Rules and Actions for RADIUS Server Load Balancing 14-73
Setting Policy Map Rules and Actions for RDP Server Load Balancing 14-75
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Setting Policy Map Rules and Actions for RTSP Server Load Balancing 14-76
Setting Policy Map Rules and Actions for SIP Server Load Balancing 14-79
Special Characters for Matching String Expressions 14-84
Configuring Actions Lists 14-85
Configuring an HTTP Header Modify Action List 14-85
Configuring HTTP Header Insertion, Deletion, and Rewrite 14-85
Configuring SSL URL Rewrite 14-88
Configuring SSL Header Insertion 14-89
CHAPTER 15 Configuring Application Acceleration and Optimization 15-1
Optimization Overview 15-2
Optimization Traffic Policies and Typical Configuration Flow 15-2
Configuring an HTTP Optimization Action List 15-3
Configuring Optimization Parameter Maps 15-6
Configuring Traffic Policies for HTTP Optimization 15-6
Enabling HTTP Optimization Using Virtual Servers 15-9
Configuring Global Application Acceleration and Optimization 15-9
CHAPTER 16 Using Configuration Building Blocks 16-1
Information About Building Block Versions and Tagging 16-4
Enabling the Building Block Feature 16-5
Creating Building Blocks 16-5
Extracting Building Blocks from Virtual Contexts 16-6
Configuring Building Blocks 16-7
Configuring Building Block Primary Attributes 16-8
Tagging Building Blocks 16-9
Applying Building Blocks 16-9
Applying a Building Block to a Single Virtual Context 16-10
Applying a Building Block to Multiple Virtual Contexts 16-10
Displaying Building Block Use 16-11
CHAPTER 17 Monitoring Your Network 17-1
Setting Up Devices for Monitoring 17-2
Device Monitoring Features 17-3
Using Dashboards to Monitor Devices and Virtual Contexts 17-4
ACE Dashboard 17-5
Device Information Table 17-6
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License Status Table 17-6
High Availability Table 17-7
ACE Device Configuration Summary Table 17-7
Context With Denied Resource Usage Detected Table 17-8
Device Resource Usage Graph 17-9
Top 10 Current Resources Table 17-10
Control Plane CPU/Memory Graphs 17-11
ACE Virtual Context Dashboard 17-12
ACE Virtual Context Device Configuration Summary Table 17-13
Context With Denied Resource Usage Detected Table 17-14
Context Resource Usage Graph 17-15
Load Balancing Servers Performance Graphs 17-15
ANM Group Dashboard 17-16
Managed Devices Table 17-17
Context With Denied Resource Usage Detected Table 17-18
ANM Group Device Configuration Summary Table 17-18
Top 10 Current Resources Table 17-20
Latest 5 Alarms Notifications Table 17-21
Latest 5 Critical Events Table 17-21
Contexts Performance Overview Graph 17-22
Monitoring Device Groups 17-23
Monitoring Devices 17-24
Monitoring the System 17-25
Monitoring Resource Usage 17-26
Monitoring Virtual Context Resource Usage 17-26
Monitoring System Traffic Resource Usage 17-27
Monitoring System Non-Connection Based Resource Usage 17-29
Monitoring Traffic 17-30
Displaying Device-Specific Traffic Data 17-31
Monitoring Load Balancing 17-33
Monitoring Load Balancing on Virtual Servers 17-33
Monitoring Load Balancing on Real Servers 17-37
Monitoring Load Balancing on Probes 17-40
Monitoring Load Balancing Statistics 17-41
Monitoring Application Acceleration 17-43
Displaying the Polling Status of All Managed Objects 17-44
Setting Polling Parameters 17-46
Enabling Polling on Specific Devices 17-46
Disabling Polling on Specific Devices 17-47
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Enabling Polling on All Devices 17-47
Disabling Polling on All Devices 17-48
Configuring Historical Trend and Real Time Graphs for Devices 17-48
Exporting Historical Data 17-52
Monitoring Events 17-55
Configuring Alarm Notifications on ANM 17-57
Displaying Alarm Notifications 17-65
Displaying Alarms in ANM 17-65
Displaying Email Notifications 17-66
Displaying Traps 17-67
Configuring SMTP for Email Notifications 17-68
Displaying Network Topology Maps 17-68
Testing Connectivity 17-71
CHAPTER 18 Administering the Cisco Application Networking Manager 18-1
Overview of the Admin Function 18-2
Controlling Access to Cisco ANM 18-3
Types of Users 18-5
Understanding Roles 18-6
Understanding Operations Privileges 18-6
Understanding Domains 18-7
Understanding Organizations 18-7
How ANM Handles Role-Based Access Control 18-8
Configuring User Authentication and Authorization 18-9
Adding a New Organization 18-10
Changing Authentication Server Passwords 18-14
Changing the Admin Password 18-14
Modifying Organizations 18-14
Duplicating an Organization 18-15
Displaying Authentication Server Organizations 18-16
Deleting Organizations 18-16
Managing User Accounts 18-17
Guidelines for Managing User Accounts 18-17
Displaying a List of Users 18-18
Creating User Accounts 18-19
Duplicating a User Account 18-20
Modifying User Accounts 18-21
Resetting Another User’s Password 18-22
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Deleting User Accounts 18-23
Displaying or Terminating Current User Sessions 18-24
Managing User Roles 18-25
Guidelines for Managing User Roles 18-25
Understanding Predefined Roles 18-26
Displaying User Role Relationships 18-27
Displaying User Roles and Associated Tasks and ANM Menu Privileges 18-28
Creating User Roles 18-29
Duplicating a User Role 18-31
Modifying User Roles 18-31
Deleting User Roles 18-32
Managing Domains 18-32
Guidelines for Managing Domains 18-33
Displaying Network Domains 18-33
Creating a Domain 18-34
Duplicating a Domain 18-35
Modifying a Domain 18-36
Deleting a Domain 18-37
Using an AAA Server for Remote User Authentication and Authorization 18-38
Information About Using AD/LDAPS for Remote User Authentication 18-38
Configuring Remote User Authentication Using a TACACS+ Server 18-39
Configuring Remote User Authorization Using a TACACS+ Server 18-45
Configuring Remote User Authorization Using Cisco Secure ACS Version 5.1 18-46
Configuring Remote User Authorization Using Cisco Secure ACS Version 4.2 18-48
Disabling the ANM Login Window Change Password Feature 18-50
Managing ANM 18-51
Checking the Status of the ANM Server 18-52
Using ANM License Manager to Manage ANM Server or Demo Licenses 18-54
Displaying and Adding ANM Licenses to License Management 18-54
Removing an ANM License File 18-55
Displaying ANM Server Statistics 18-56
Configuring ANM Statistics Collection 18-57
Configuring Audit Log Settings 18-58
Performing Device Audit Trail Logging 18-59
Displaying Change Audit Logs 18-61
Configuring Auto Sync Settings 18-61
Configuring Advanced Settings 18-62
Configuring the Overwrite ACE Logging device-id for the Syslog Option 18-62
Configuring the Enable Write Mem on the Config > Operations Option 18-63
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Enabling the ACE Real Server Details Popup Window Option 18-64
Enabling the ACE Server Farm Details Popup Window Option for Virtual Servers 18-65
Enable Mobile Notifications from ANM 18-66
Managing the Syslog Buffer Display in the All Devices Dashboard 18-66
Managing the Display of Virtual Servers in the Operations and Monitoring Windows 18-66
Administering the ANM Mobile Feature 18-67
Configuring ANM with a Proxy Server for ANM Mobile Push Notifications 18-67
Enabling Mobile Device Notifications for Remotely Authorized Users 18-69
Globally Enabling or Disabling Mobile Device Notifications 18-69
Displaying Mobile Device Notifications and Testing the Notification Channel 18-70
Lifeline Management 18-72
CHAPTER 19 Using ANM Mobile 19-1
Information About ANM Mobile 19-2
ANM Mobile Prerequisites and Supported Devices 19-4
Guidelines and Restrictions 19-5
Using ANM Mobile 19-5
Logging In and Out of ANM Mobile 19-6
Using the Favorites Feature 19-6
Monitoring Managed Object Status 19-7
Modifying an Object’s Operating State or Weight 19-10
Displaying Real Time Charts 19-12
Using the ANM Mobile Setting Feature 19-12
Setting Up and Viewing Mobile Device Alarm Notifications 19-13
Enabling Alarm Notifications on ANM Mobile 19-15
Viewing Alarm Notifications from ANM Mobile 19-15
Managing iPod Alarm Notification Sound and Alerts 19-16
CHAPTER 20 Troubleshooting Cisco Application Networking Manager Problems 20-1
Changing ANM Software Configuration Attributes 20-1
Changing ANM Configuration Properties 20-2
Example ANM Standalone Configuration 20-4
Example ANM HA Configuration 20-5
Example ANM Advanced Options Configuration Session 20-6
Discovering and Adding a Device Does Not Work 20-7
Cisco License Manager Server Not Receiving Syslog Messages 20-7
Using Lifeline 20-7
Guidelines for Using Lifeline 20-8
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Creating a Lifeline Package 20-8
Downloading a Lifeline Package 20-9
Adding a Lifeline Package 20-10
Deleting a Lifeline Package 20-11
Backing Up and Restoring Your ANM Configuration 20-11
APPENDIX A ANM Ports Reference A-1
APPENDIX B Using the ANM Plug-In With Virtual Data Centers B-1
Information About Using ANM With VMware vCenter Server B-2
Information About the Cisco ACE SLB Tab in vSphere Client B-3
Prerequisites for Using ANM With VMware vSphere Client B-4
Guidelines and Restrictions B-5
Registering or Unregistering the ANM Plug-in B-5
Logging In To ANM from VMware vSphere Client B-7
Using the Cisco ACE SLB Tab B-8
Managing ACE Real Servers From vSphere Client B-12
Adding a Real Server B-13
Deleting a Real Server Using vSphere Client B-14
Activating Real Servers Using vSphere Client B-15
Suspending Real Servers Using vSphere Client B-16
Modifying Real Server Weight Value Using vSphere Client B-18
Monitoring Real Server Details Using vSphere Client B-19
Refreshing the Displayed Real Server Information B-20
Using the VMware vSphere Plug-in Manager B-22
GLOSSARY
I NDEX
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Preface
Date: 3/28/12
This guide describes the Cisco Application Networking Manager and explains how to use it to manage
your network.
This preface provides information about using this guide and includes the following topics:
• Audience, page ix
• Organization, page ix
• Conventions, page xi
• Open-Source Software Included in the Cisco Application Networking Manager, page xi
• Obtaining Documentation and Submitting a Service Request, page xii
Audience
This guide is intended for experienced system and network administrators. Depending on the
configuration required, readers should have specific knowledge in the following areas:
• Networking and data communications
• Network security
• Router configuration
Organization
This documentation contains the following sections:
• Chapter 1, “Overview” summaries key features and provides an look into some general topics such
as the interface.
• Chapter 2, “Using Homepage” describes ANM Homepage, a launching point for quick access to
selected areas within ANM.
• Chapter 3, “Using ANM Guided Setup” describes how to use the guided setup pages to simplify
configuration of ANM.
• Chapter 4, “Using Application Template Definitions” describes how to use the application templates
to simplify configuration of ACE devices (or virtual contexts).
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• Chapter 5, “Importing and Managing Devices” describes how to add and manage your supported
network devices.
• Chapter 6, “Configuring Virtual Contexts” describes how to configure virtual contexts on the ACE
so that you can effectively and efficiently manage and allocate resources, users, and services.
• Chapter 7, “Configuring Virtual Servers” contains procedures for configuring virtual servers for
load balancing on the ACE.
• Chapter 8, “Configuring Real Servers and Server Farms” provides an overview of server load
balancing and procedures for configuring real servers and server farms for load balancing on the
ACE.
• Chapter 9, “Configuring Stickiness” provides information about sticky behavior and procedures for
configuring stickiness with the ANM.
• Chapter 10, “Configuring Parameter Maps” describes how to configure parameter maps so that the
ACE can perform actions on incoming traffic based on certain criteria, such as protocol or
connection attributes.
• Chapter 11, “Configuring SSL” describes how to configure your ACE (both the ACE module and
the ACE appliance) as a virtual Secure Sockets Layer (SSL) server for SSL initiation or termination.
• Chapter 12, “Configuring Network Access” describes how to configure network access using ANM.
• Chapter 13, “Configuring High Availability” describes how to configure redundancy to ensure that
your network remains operational even if one of the ACE devices becomes unresponsive.
• Chapter 14, “Configuring Traffic Policies” describes how to configure class maps and policy maps
to provide a global level of filtering traffic received by or passing through the ACE.
• Chapter 15, “Configuring Application Acceleration and Optimization” describes how to configure
application acceleration and optimization options on the ACE.
• Chapter 16, “Using Configuration Building Blocks” provides an overview of configuration building
blocks and describes how to configure them, tag them for version control, and apply them to virtual
contexts.
• Chapter 17, “Monitoring Your Network” describes the ANM monitoring functions, including the
various ANM dashboards, and explains how to configure thresholds and configure alarm
notifications.
• Chapter 18, “Administering the Cisco Application Networking Manager” describes how to
administer, maintain, and manage the ANM management system.
• Chapter 19, “Using ANM Mobile” describes how to use the Cisco ANM Mobile app to access your
ANM server to remotely manage your network from your mobile device.
• Chapter 20, “Troubleshooting Cisco Application Networking Manager Problems” describes some
procedures and tips on common troubleshooting scenarios.
• Appendix A, “ANM Ports Reference” identifies the TCP and UDP ports used by the ANM as well
as well-known TCP and UDP port numbers and key words.
• Appendix B, “Using the ANM Plug-In With Virtual Data Centers” describes how to integrate ANM
with VMware vCenter Server and VMware vSphere Client.
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Conventions
This document uses the following conventions:
Note Means reader take note. Notes contain helpful suggestions or references to material not covered in the
publication.
Caution Means reader be careful. In this situation, you might do something that could result in equipment
damage or loss of data.
Open-Source Software Included in the Cisco Application
Networking Manager
• The Cisco Application Networking Manager includes the following open-source software, which is
covered by the Apache 2.0 license (http://www.apache.org/): Ant, Avalon Logkit, Commons,
Ehcache, Jetty, Log4J, Oro, Commons_Logging, Xmlrpc.
• The Cisco Application Networking Manager includes the following open-source software, which is
covered by The Legion of the Bouncy Castle (http://www.bouncycastle.org/licence.html) license:
BouncyCastle.
• The Cisco Application Networking Manager includes the following open-source software, which is
covered by the GNU Lesser General Public License Version 2.1
(http://www.gnu.org/licenses/lgpl.html): c3p0-0.9.0.2.jar, Enterprise DT, Jasperreports 1.2,
Jcommon 1.2, Jfreechart 1.0.1
• The Cisco Application Networking Manager includes the following open-source software, which is
covered by the Mozilla Public License Version 1.1 (http://www.mozilla.org/MPL/MPL-1.1.html):
Itext 1.4.
Item Convention
Commands and keywords boldface font
Variables for which you supply values italic font
Displayed session and system information screen font
Information you enter boldface screen font
Variables you enter italic screen font
Menu items and button names boldface font
Choosing a menu item in paragraphs Option > Network Preferences
Choosing a menu item in tables Option > Network Preferences
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Obtaining Documentation and Submitting a Service Request
For information on obtaining documentation, submitting a service request, and gathering additional
information, see the monthly What’s New in Cisco Product Documentation, which also lists all new and
revised Cisco technical documentation, at:
http://www.cisco.com/en/US/docs/general/whatsnew/whatsnew.html
Subscribe to the What’s New in Cisco Product Documentation as a Really Simple Syndication (RSS) feed
and set content to be delivered directly to your desktop using a reader application. The RSS feeds are a free
service and Cisco currently supports RSS version 2.0.
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1
Overview
Date: 3/28/12
This chapter provides an overview of Cisco Application Networking Manager (ANM), which is a
networking management application.
This chapter includes the following sections:
• ANM Overview, page 1-1
• IPv6 Considerations, page 1-3
• Logging In To the Cisco Application Networking Manager, page 1-5
• Changing Your Account Password, page 1-6
• ANM Licenses, page 1-7
• ANM Interface Components, page 1-8
ANM Overview
ANM is a client server application that enables you to perform the following functions:
• Configure, monitor, and troubleshoot the functions of supported data center devices.
• Create policies for operations, applications owners, and server administration staff to activate and
suspend network-based services without knowledge of, or ability to, change network configuration
or topology.
• Manage the following product types:
– Cisco Application Control Engine (ACE) module or appliance
– Cisco Global Site Selector (GSS)
– Cisco Content Services Switch (CSS)
– Cisco Catalyst 6500 Virtual Switching System (VSS) 1440
– Cisco Catalyst 6500 series switch
– Cisco 7600 series router
– Cisco Content Switching Module (CSM)
– Cisco Content Switching Module with SSL (CSM-S)
– VMware vCenter Server
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Chapter 1 Overview
ANM Overview
You can install the ANM server software on a standalone server or on a VMware virtual machine as
shown in Figure 1-1. The capabilities and functions of the ANM software are the same regardless of
which application you use. This guide uses the following terms to reference the two ANM applications:
ANM server
Dedicated server with ANM server software and Red Hat Enterprise Linux (RHEL) operating
system installed on it. For information about installing this type of ANM application, see the
Installation Guide for the Cisco Application Networking Manager 5.2.
ANM Virtual Appliance
VMware virtual appliance with ANM server software and Cisco Application Delivery Engine
Operating System (ADE OS) installed on it. Cisco distributes ANM Virtual Appliance (ANM VA)
in Open Virtual Appliance (.OVA) format. For information about installing this type of ANM
application, see the Installation Guide for the Cisco Application Networking Manager 5.2 Virtual
Appliance.
Figure 1-1 Sample ANM Network Deployment
The sample network application in Figure 1-1 illustrates the following ANM and ACE features:
• VMware integration—Feature that enables ANM and the ACE to be integrated with VMware,
allowing you to create and manage server farms for application delivery that consist of real servers
that are a combination of physical servers and VMware virtual machines (VMs).
VM VM VM
VMware
ESX (i) Host
VM VM VM
VMware
ESX (i) Host
VMware
vCenter
VMware
vSphere
Client
Cisco
ACE
Virtual
Machines
Virtual
Machines
Physical
Servers
OTV/DCI Link
(Dynamic
Workload
Scaling)
Cisco
Nexus 7000
Client
Client
Client
Local
Data Center
Remote
Data Center
Cisco
ANM
Standalone Server or
Virtual Appliance
330796
VM VM VM
VMware
ESX (i) Host
Cisco
Nexus 7000
ANM Mobile
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Chapter 1 Overview
IPv6 Considerations
• Dynamic Workload Scaling—ACE feature that permits on-demand access to remote resources, such
as VMs, that you own or lease from an Internet service provider (or cloud service provider). This
feature uses Cisco’s Nexus 7000 series switches with Cisco’s Overlay Transport Virtualization
(OTV), which is a Data Center Interconnect (DCI) technology used to create a Layer 2 link over an
existing IP network between geographically distributed data centers.
For more information, see the “Dynamic Workload Scaling Overview” section on page 8-4.
Note Dynamic Workload Scaling requires ACE module or appliance software Version A4(2.0) or
later and the Cisco Nexus 7000 Series switch.
• ANM plug-in for vCenter Server—Enabling the plug-in on an ANM server or ANM Virtual
Appliance permits access to ANM’s ACE server load-balancing functions from a VMware vSphere
Client.
For more information, see Appendix B, “Using the ANM Plug-In With Virtual Data Centers.”
• ANM Mobile—Feature that enables supported mobile devices to access to your ANM server or
ANM Virtual Appliance, allowing you to manage the network objects in much the same way you do
from an ANM client. Using a mobile device, you can run ANM Mobile as a native application or
inside the mobile device’s browser.
For more information, see Chapter 19, “Using ANM Mobile.”
IPv6 Considerations
Beginning with ACE software Version 5.1, the ACE supports IPv6 configurations, which you can
configure using ANM beginning with ANM software Version 5.1.
The ACE supports IPv6 configurations with the following considerations:
• All the management traffic used by ANM is required to send over IPv4 protocol. IPv6 is not
supported.
• By default, IPv6 is disabled on an interface. You must enable IPv6 on the interface to enable its
configured IPv6 addresses. The interface cannot be in bridged mode. The interface may or may not
have IPv4 addresses configured on it.
• When you enable IPv6 or configure a global IPv6 address on an interface, the ACE automatically
does the following:
– Configures a link-local address (if it is not already configured)
– Performs duplicate address detection (DAD) on both addresses
You must enable IPv6 on the interface to enable global IPv6 address.
• IPv6 on interface can be individually enabled or disabled. IPv6 cannot be enabled or disabled
globally.
• A link-local address is an IPv6 unicast address that has a scope of the local link only and is required
on every interface. Every link-local address has a predefined prefix of FE80::/10. You can configure
a link-local address manually. If you do not configure a link-local address before enabling an IPV6
address on the interface, the ACE automatically generates a link-local address with a prefix of
FE80::/64. Only one IPv6 link-local address can be configured on an interface.
In a redundant configuration, you can configure an IPv6 peer link-local address for the standby ACE.
You can configure only one peer link-local address on an interface.
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Chapter 1 Overview
IPv6 Considerations
• A unique-local address is an optional IPv6 unicast address that is used for local communication
within an organization and it is similar to a private IPv4 address (for example, 10.10.2.1).
unique-local addresses have a global scope, but they are not routable on the Internet, and they are
assigned by a central authority. All unique-local addresses have a predefined prefix of FC00::/7. You
can configure only one IPv6 unique-local address on an interface.
In a redundant configuration, you can configure an IPv6 peer unique-local address on the active that
is synchronized to the standby ACE. You can configure only one peer unique-local IPv6 address on
an interface.
• A global address is an IPv6 unicast address that is used for general IPv6 communication. Each
global address is unique across the entire Internet. Therefore, its scope is global. The low order 64
bits can be assigned in several ways, including autoconfiguration using the EUI-64 format. You can
configure only one globally unique IPv6 address on an interface.
In a redundant configuration, you can configure an IPv6 peer global address that is synchronized to
the standby ACE.
When you configure redundancy with active and standby ACEs, you can configure a VLAN
interface that has an alias global IPv6 address that is shared between the active and standby ACEs.
The alias IPv6 address serves as a shared gateway for the two ACEs in a redundant configuration.
You can configure only one alias global IPv6 address on an interface.
• A multicast address is used for communications from one source to many destinations. IPv6
multicast addresses function in a manner that is similar to IPv4 multicast addresses. All multicast
addresses have a predefined prefix of FF00::/8.
• The ACE supports abbreviated IPv6 addresses. When using double colons (::) for leading zeros in a
contiguous block, they can only be used once in an address. Leading zeros can be omitted. Trailing
zeros cannot be omitted. The DM will abbreviate an IPv6 address after you finish typing it. If you
enter the entire address with a block of contiguous zeros, the DM collapses it into the double colons.
For example: FF01:0000:0000:0000:0000:0000:0000:101 becomes FF01::101.
• The ACE uses the Neighbor Discovery (ND) protocol to manage and learn the mapping of IPv6 to
Media Access Control (MAC) addresses of nodes attached to the local link. The ACE uses this
information to forward and transmit IPv6 packets. The neighbor discovery protocol enables IPv6
nodes and routers to:
– Determine the link-layer address of a neighbor on the same link
– Find neighboring routers
– Keep track of neighbors
The IPv6 neighbor discovery process uses ICMPv6 messages and solicited-node multicast addresses
to determine the link-layer address of a neighbor on the same network (local link), verify the
reachability of a neighbor, and keep track of neighbor routers. The IPv6 neighbor discovery process
uses the following mechanisms for its operation:
– Neighbor Solicitation
– Neighbor Advertisement
– Router Solicitation
– Router Advertisement
– Duplicate Address Detection
• The ACE supports IPv6-to-IPv6 L4/L7 SLB, including support for IPv6 VIP, predictor, probe,
serverfarm, sticky, access-list, object-group, interface, source NAT, OCSP, and CRL.
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Chapter 1 Overview
Logging In To the Cisco Application Networking Manager
• The probe must have the same IP address type (IPv6 or IPv4) as the real server. For example, you
cannot configure an IPv6 probe to an IPv4 real server.
• A server farm can support a mix of IPv6 and IPv4 real servers, and can be associated with both IPv6
and IPv4 probes.
• Only the following Layer 7 protocols support IPv6:
– Layer 7 HTTP/HTTPS/DNS
– Layer 4 TCP/UDP
• The ACE supports the following:
– IPv6-to-IPv4 SLB and IPv4-to-IPv6 SLB for L7 HTTP/HTTP/TCP/UDP
– Source NAT support of IPv6
– IPv6 access-list and object group
– DHCPv6 relay
• ICMPv6 traffic is not automatically allowed. You must configure the corresponding management
traffic policy to allow the ping request to ACE. However, the necessary Neighbor Discovery (ND)
messages for ARP, duplication address detection are automatically permitted.
• Copying files over IPv6 to or from devices are not supported.
• The ACE supports IPv6 HA:
– All the FT transport (ft vlan) is still on IPv4.
– Track IPv6 host /peer will be supported
Logging In To the Cisco Application Networking Manager
You access ANM features and functions through a web-based interface. The following sections describe
logging in, the interface, and terms used in ANM.
The ANM login window allows you to do the following tasks:
• Log into the ANM server.
• Change the password for your account (see the “Changing Your Account Password” section on
page 1-6).
• Obtain online help by clicking Help.
Procedure
Step 1 Choose one the following:
• To log in after a new install, which uses the default web ports of 443 and 80, enter https://host.
Note You do not have to explicitly enter the default ports 443 and 80.
Caution If you log in using HTTP, you must change the properties file. See the “Changing ANM Software
Configuration Attributes” section on page 20-1 for details. If you enable HTTP, you make your
connection to ANM less secure.
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Chapter 1 Overview
Changing Your Account Password
• To log in after an upgrade, enter https://:10443 or https://:10080.
Note You must explicitly enter the nondefault ports 10443 and 10080.
Note All browsers require that cookies, Javascript/scripting, and popup windows are enabled. If you
reinstall a subsequent ANM release, you must delete the cookies and clear the browser cache.
For example, enter https://192.168.10.10:10443. The login window appears.
Step 2 In the User Name field, enter admin, which is the predefined user account that comes with a new
installation.
Note If you are logging in using ACS authentication (TACACS or RADIUS), you must add
'@ to the username on the login page, or you will not be able to log in.
Once you are logged in using this account, you can create additional user accounts. For information on
changing account passwords, see the “Modifying User Accounts” section on page 18-21.
Step 3 In the Password field, enter the password that you configured the admin account with when installing
ANM.
Step 4 Press Enter or click Login.
When you log in, the default page that appears is the ANM Homepage (see the “ANM Windows and
Menus” section on page 1-9). You can change your default page by making a different selection from the
Homepage. See the “Customizing the Default ANM Page” section on page 2-4 for details.
For a description of the user interface, see Figure 1-2 on page 1-8. The interface will not contain data
until you add devices by one of the methods described in the “Importing Network Devices into ANM”
section on page 5-10.
.
Related Topics
• Changing Your Account Password, page 1-6
• ANM Interface Components, page 1-8
Changing Your Account Password
You can change your account password when you log into ANM.
Guidelines and Restrictions
By default, the feature that allows you to change your password when logging into ANM is enabled;
however, this feature can be disabled. When disabled, the ANM login window no longer displays the
Change Password hyperlink. For more information, see the “Disabling the ANM Login Window Change
Password Feature” section on page 18-50.
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Procedure
Step 1 Using a web browser, navigate to the ANM login window by typing the IP address or hostname where
ANM is installed. For example, enter https://192.168.10.10. The login window appears.
Step 2 In the User Name field, enter your account username.
Step 3 Click Change Password. The Change password configuration window appears.
Step 4 In the User Name field, enter the username of the account that you want to modify.
Step 5 In the Old Password field, enter the current password for this account.
Step 6 In the New Password field, enter the new password for this account.
Password attributes such as minimum and maximum length or accepted characters are defined at the
organizational level. For more information on configuring passwords, see the “Configuring User
Authentication and Authorization” section on page 18-9.
Step 7 In the Confirm New Password field, reenter the new password for this account.
Step 8 Do one of the following:
• Click OK to save your entries and to return to the login window.
• Click Cancel to exit this procedure without saving your entries and to return to the login window.
Related Topics
• Logging In To the Cisco Application Networking Manager, page 1-5
• ANM Interface Components, page 1-8
• Disabling the ANM Login Window Change Password Feature, page 18-50
ANM Licenses
Beginning with ANM software Version 5.2, ANM includes a 90-day evaluation period that begins when
you install the software image. During this time, you can use all the functions of ANM without installing
a license, including managing any number of supported devices and any number of ACE virtual contexts.
However, to continue using ANM beyond the evaluation period, you must install the ANM server
license, which is available at no charge.
The ANM demo license is also available, which allows ANM to perform all the functions associated with
the ANM server license; however, the demo license has an expiration date associated with it. You can
order a demo license if you do not know the PAK number required to order the ANM server license.
For more information about the 90-day evaluation period, available ANM licenses, and installing a
license, see the “Using ANM License Manager to Manage ANM Server or Demo Licenses” section on
page 18-54
Related Topics
Using ANM License Manager to Manage ANM Server or Demo Licenses, page 18-54
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ANM Interface Components
This section includes the following topics:
• ANM Windows and Menus, page 1-9
• ANM Buttons, page 1-11
• Table Conventions, page 1-14
• ANM Screen Conventions, page 1-17
When you log in to ANM, the default window that appears is the Homepage from which you can access
the operational and monitoring features of ANM. For details about using Homepage, see the
“Information About Homepage” section on page 2-1).
Figure 1-2 shows the Devices window (Config > Devices), which is an example ANM work window
where you view the network device tree and perform network management tasks. Table 1-1 describes the
numbered fields.
Note The ANM software version that displays across the top of the window varies depending on your version
of ANM.
Figure 1-2 ANM Interface Components
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Related Topics
• ANM Windows and Menus, page 1-9
• ANM Interface Components, page 1-8
• Using Homepage, page 2-1
ANM Windows and Menus
Figure 1-3 contains many common window elements found in ANM and described in Table 1-2. Not all
windows contain all buttons.
Note The ANM software version that displays across the top of the window varies depending on your version
of ANM.
Table 1-1 ANM Interface Components Descriptions
Field Description
1 Navigation pane, which contains the following components:
• High-level navigation path within the ANM interface, which includes Config, Monitor, and Admin. You can
click an item in the navigation path to view that window.
• Logout hyperlink.
• About hyperlink that provides ANM version information.
• Feedback hyperlink that opens a new browser window containing the ANM user feedback form hosted on
www.ciscofeedback.vovici.com.
• Help hyperlink that provides context-sensitive help and a PDF version of the ANM user guide.
2 Second-level Navigation pane, which contains another level of navigation. Clicking an option in this pane displays
the associated window in the content area.
3 Content area, which contains the display and input area of the window. It can include tables, configuration items,
buttons, or combinations of these items.
4 Status bar, which indicates the date and time of the ANM server machine. ANM frequently updates the status bar.
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Figure 1-3 Example ANM Window
Table 1-2 Example ANM Window Descriptions
Number Description
1 Device tree that appears when you click Config or Monitor. The device tree includes All Devices and Groups
folders:
• The All Devices folder expands to show the names of imported Cisco devices and their associated modules or
virtual contexts. When you click the plus sign (+) in front of a chassis icon, you can see a list of the modules
in the chassis. When you expand an ACE appliance or ACE module, you can see the list of existing virtual
contexts for that device. For more information about adding devices, see the “Importing Network Devices into
ANM” section on page 5-10.
• The Groups folder contains the list of user-defined groups. For more information about user-defined groups,
see the “Configuring User-Defined Groups” section on page 5-72.
The Organization tree displays when you click Admin > Role-Based Access Control. The organization tree includes
all organizations in ANM. Choosing an organization name displays its details.
To expand folders in the device tree, click the plus sign (+) to the right of an option. To collapse the structure, click
the minus sign (-).
At the top of the tree are the following buttons:
• Refresh—Refreshes the device tree after you have imported devices or made changes to the User Groups.
• Plus sign (+) —Allows you to add an item to the selected option in the device tree.
• Garbage can—Deletes the selected entry.
Note Menus are based on device types. Although menu labels are the same for different device types, the actual
menu definition is different. For example, you cannot preserve the menu state while traversing back an forth
from a module to a virtual context in the device tree.
2 Option menus, which appear in Config windows. Click the icon on the bar to show or hide the options.
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Related Topics
• ANM Buttons, page 1-11
• ANM Screen Conventions, page 1-17
ANM Buttons
Table 1-3 describes the buttons that appear in some of the Config, Monitor, and Admin windows.
3 Object selector. Use this field to choose a device, context, building block, or other object that you want to view
information on or configure.
4 Command buttons. Use these buttons to perform the action identified by the button label.
5 Input fields. Use these fields to make selections and provide information. When there are more than three choices
for any field, the field displays as a drop-down list. Otherwise, selections display with radio buttons.
6 Feature panel that contains functions that correspond to what is selected in the device or organization tree. Click on
a command to expand the list of options that correspond to that command.
Table 1-2 Example ANM Window Descriptions
Number Description
Table 1-3 Button Descriptions
Button Name Description
ACL table (expand) Allows you to expand all ACL table entries.
ACL table (collapse) Allows you to collapse all ACL table entries.
ACL table (resequence) Allows you to open the resequence popup window that allows you to
reorder the ACL table entries.
Add Allows you to add an entry to the displayed table.
Add another Saves the current entries and refreshes the window so that you can add
another entry.
Advanced editing mode Allows you to view or enter advanced arguments for the chosen display.
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Auto refresh (pause) Allows you to interrupt the table data autorefresh process.
Auto refresh (resume) Indicates that the table data autorefresh process is on pause and allows you
to resume.
Customize Allows you to customize the table to suit your needs. (See the
“Customizing Tables” section on page 1-15.)
Delete Deletes the chosen entry in the table.
Duplicate Duplicates the chosen entry in the table.
Edit Opens the configuration window of a chosen entry in the table.
Groups Allows you to create groups of the following objects:
• Real servers (see the “Managing Real Server Groups” section on
page 8-10)
• Virtual servers (see the “Managing Virtual Server Groups” section on
page 7-67)
• GSS VIP answers or DVS rules (see the “Creating a VIP Answer or
DNS Rule Group” section on page 7-77)
Filter Filters the displayed list of items according to the criteria that you specify.
(See the “Filtering Entries” section on page 1-14.) Also displays a filter
text box where strings can be entered.
Go Appears when filtering is enabled; updates the table with the filtering
criteria.
Key Indicates that the associated field is a foreign key field. This field takes its
values from another table.
Plus Displays a table with information related to the field where Plus appears.
For example, if Plus appears next to the field label VLAN Group, clicking
Plus displays a list of all VLAN groups in a separate window.
Table 1-3 Button Descriptions (continued)
Button Name Description
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Refresh Refreshes the content area.
Save Displays the current information in a new window in either raw data or
Microsoft Excel format so you can save it to a file or print it.
Full window view Allows you to adopt a larger (full) window view for a table or dashboard
window.
Reduced window view
(normal)
Allows you to adopt a smaller window view for a table or dashboard
window.
Sort Sorts a column alphabetically up or down.
Stop Stops the current process. If a process is only partially complete, it will
finish its current operation and exit. For example, when stop is used during
the import of two modules, it will complete only the first of two module
imports.
Switch between
configure and browse
modes
Displays the subtables for those items that have additional sets of
parameters that can be configured, such as Config > Devices > Network >
VLAN Interfaces.
Note This button is not available on single-row tables such as Config >
Devices > System > Syslog or Config > Devices > System > SNMP.
To switch between these modes, navigate to another window where
the button appears (for example, Config > Devices > Load
Balancing > Server Farms), click the button to enter desired mode,
then return to the window on which the button was missing. You
will remain in the mode you chose.
View Excel Displays the raw data in Microsoft Excel format in a separate browser
window.
View raw data Displays the raw data in table format.
Show as image Displays the historical data object graph in a separate browser window.
Table 1-3 Button Descriptions (continued)
Button Name Description
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Related Topics
• ANM Windows and Menus, page 1-9
• ANM Screen Conventions, page 1-17
Table Conventions
This section describes the ANM GUI table conventions, including how to filter the information displayed
and how to customize a table’s appearance.
This section includes the following topics:
• Filtering Entries, page 1-14
• Customizing Tables, page 1-15
• Using the Advanced Editing Option, page 1-16
Filtering Entries
You can filter the information that a table displays. Click Filter to view table entries using the criteria
that you chose. When filtering is enabled, a filter row appears above the first table entry that allows you
to filter entries in the following ways:
• In fields with drop-down lists, choose one of the ANM-identified categories (see Figure 1-4). The
table refreshes automatically with the entries that match the chosen criterion.
• In fields without drop-down lists, enter the string that you want to match, and then click Go above
the first table entry. The table refreshes with the entries that match your input.
• Enter the string in the filter box. For example, by entering the string gold and clicking Go, only the
gold Resource Class virtual contexts appear (see Figure 1-4).
Figure 1-4 Example Table with Filtering Enabled
View as chart Toggles the display of a historical data object as a graph in the monitoring
window.
View as grid Toggles the display of a historical data object as a numerical grid in the
monitoring window. From this display, you can export the data in
Microsoft Excel format.
Table 1-3 Button Descriptions (continued)
Button Name Description
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Related Topics
• ANM Interface Components, page 1-8
• Customizing Tables, page 1-15
• Using the Advanced Editing Option, page 1-16
Customizing Tables
You can customize a table for your use. Click Customize in a table to configure the table to suit your
needs.
When you place the cursor over Customize, the following items appear:
• Default—When chosen with a check mark, this item indicates that the ANM default table format is
being used by the current table.
• Configure—When chosen, this item opens a dialog box that allows you to create a new customized
table format or to modify the table format currently in use.
Procedure
Step 1 When viewing a table, choose Customize > Configure.
The List Configuration dialog box appears.
Step 2 In the List Configuration dialog box, enter the information in Table 1-4.
Note Depending on the table that you chose, the available fields in the configuration table differ.
Table 1-4 includes sample fields that might appear.
Note You can be as inclusive or as restrictive as you like when setting table configuration options.
Table 1-4 Table Configuration Attributes
Field Description
List Customization Name Unique name for a new table configuration.
Fields Fields that you can include in the table, choose the fields from the Available Items list, and click
Add. To remove fields from the table, choose the fields from the Selected Items list, and then
click Remove.
Up/Down Location of a column in the table that you can change. Choose its name in the column on the
right, then click Up or Down to place it in the desired location.
Group By Field that you want to group entries by.
When you choose a field for grouping, one or more entries appears in the table with + at the
beginning of the entry, the name of the field, the grouping criteria, and the number of items in
the group. Click + to view all entries in the group.
Descending Descending check box to sort the groups in reverse order. Clear the Descending check box to
sort the groups in ascending order.
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Step 3 Do one of the following:
• Click Save to save your entries under a new name and to close the List Configuration dialog box. If
a table using this format is displayed, the table is updated automatically.
• Click Cancel to exit the procedure without saving your entries and to close the List Configuration
dialog box.
• Click Apply to apply your current entries to the table that you are viewing, to save your entries, and
to close the List Configuration dialog box.
• Click Delete to delete the currently selected customized table format. It no longer appears as an
option when you click Customize.
Related Topics
• ANM Interface Components, page 1-8
• Filtering Entries, page 1-14
• Using the Advanced Editing Option, page 1-16
Using the Advanced Editing Option
By default, tables include columns that contain configured attributes or a subset of columns related to a
key field.
To view all configurable attributes in table format, click Advanced Editing Mode (the highlighted
button in Figure 1-5). When advanced editing mode is enabled, all columns appear for your review (see
Figure 1-5).
Sort By Field that you want to sort entries by.
When you choose a field for sorting, all entries in the table are sorted according to the values in
the selected field.
Name Filter Name that represents the name of each field in the table.
Enter the string or value that you want to filter the results by.
You can enter complete or partial strings or values to be matched. Do not include wildcard
characters.
Version Filter Version that represents the name of each field in the table.
Enter the string or value that you want to filter the results by.
You can enter complete or partial strings or values to be matched. Do not include wildcard
characters.
Table 1-4 Table Configuration Attributes (continued)
Field Description
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Figure 1-5 Advanced Editing Enabled Window
Related Topics
• ANM Interface Components, page 1-8
• Filtering Entries, page 1-14
• Customizing Tables, page 1-15
ANM Screen Conventions
Table 1-5 describes other conventions used in ANM screens.
Related Topics
• Table Conventions, page 1-14
Table 1-5 ANM Window Conventions
Convention Example Description
Dimmed field If no items are selected, buttons are dimmed. If an item is selected, only
operational buttons appear.
Red asterisk A red asterisk indicates a required field.
Yellow field with
red font
Incorrect, invalid, or incomplete entries appear as red font against a yellow
background with the reason for that error. In the example, an IP address
cannot begin with four digits, which results in this display.
Drop-down lists When there are more than three choices for any field, the field displays as
a drop-down list. Otherwise, selections display with radio buttons.
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• ANM Interface Components, page 1-8
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2
Using Homepage
This section describes how to use Homepage, which is a launching point for quick access to selected
areas within Cisco Application Networking Manager (ANM).
This chapter includes the following sections:
• Information About Homepage, page 2-1
• Customizing the Default ANM Page, page 2-4
Information About Homepage
Homepage allows you to have quick access to the following operations and guided setup tasks in ANM:
• Operational tasks that you can access:
– The Real Servers table to view information for each configured real server, activate or suspend
real servers listed in the table, or modify server weight and connection limits.
– The Virtual Servers table to view information for each configured virtual server and to activate
or suspend virtual servers listed in the table.
– The Cisco Global Site Selector (GSS) Answer table to manage GSS VIP answers (resources that
respond to content queries) by specifying virtual IP (VIP) addresses associated with a server
load balancer (SLB) such as the Cisco Content Services Switch (CSS), Cisco Content Switching
Module (CSM), Cisco IOS-compliant SLB, LocalDirector, or a web server.
– The DNS Rules table to specify actions in the DNS rules table for the GSS to take when it
receives a request from a known source (a member of a source address list) for a known hosted
domain (a member of a domain list).
• Monitoring—Connect to the central Device Dashboard where you can quickly view device and
virtual context monitoring results and track potential issues; view detailed context-level resource
usage information; and monitor load balancing statistics for virtual servers.
• Guided setup tasks that you can launch:
– The Import Devices guided setup task to establish communication between ANM and hardware
devices.
– The Cisco Application Control Engine (ACE) Hardware Setup task to configure ACE devices
that are new to the network by establishing network connectivity in either standalone or
high-availability (HA) deployments.
– The Virtual Context Setup task to create and connect an ACE virtual context.
– The Application Setup task to configure end-to-end load-balancing for your application.
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Information About Homepage
• Configuration—Tasks that allow you to configure system attributes for a virtual context, control a
user’s access to ANM, and display configuration and deployment changes logged in the ANM
database.
• Documentation—Quick links to ANM, ACE module, and ACE appliance user documentation on
www.cisco.com.
• System Summary—Tasks that allow you to display critical alarm notifications when the value for a
specific statistic rises above the specified setting or display all critical events received from an ACE
device for syslog and SNMP traps from all virtual contexts.
By default, the ANM Homepage (see Figure 2-1) is the first page that appears in ANM after you log in.
To access the Homepage from other locations within ANM, click the Home menu option at the top of
the window. From the Homepage, you can customize which page you want to display for subsequent
logins into ANM. See the “Customizing the Default ANM Page” section on page 2-4 for details.
Note All menu options on the Homepage are under Role-Based Access Control (RBAC). Menu options will
be grayed if proper permission has not been granted to the logged in user by the administrator. See the
“How ANM Handles Role-Based Access Control” section on page 18-8 for more information about
RBAC in ANM.
Note The ANM software version that displays across the top of the window varies depending on your version
of ANM.
Figure 2-1 Homepage Window
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Information About Homepage
Table 2-1 identifies the Homepage links, associated pages in ANM, and related topics that can be found
in this document.
Table 2-1 Homepage Links
Homepage Link ANM Page Related Topics
Operational Tasks
Manage Real Servers Config > Operations > Real Servers Managing Real Servers, page 8-9
Manage Virtual Servers Config > Operations > Virtual Servers Managing Virtual Servers, page 7-66
Manage GSS VIP Answers Config > Operations > GSS VIP Answers Managing GSS VIP Answers, page 7-73
Manage GSS DNS Rules Config > Operations > DNS Rules Activating and Suspending DNS Rules
Governing GSS Load Balancing, page 7-75
Monitoring
Dashboard Monitor > Devices > Dashboard Using Dashboards to Monitor Devices and
Virtual Contexts, page 17-4
Resource Usage Summary Monitor > Devices > Resource Usage >
Connections
Monitoring System Traffic Resource Usage,
page 17-27
Application Performance
Summary
Monitor > Devices > Load Balancing >
Virtual Servers
Monitoring Load Balancing, page 17-33
Guided Setup
Import a Device Config > Guided Setup > Import Devices Using Import Devices, page 3-4
Configure ACE Hardware Config > Guided Setup > ACE Hardware
Setup
Using ACE Hardware Setup, page 3-5
Create a Virtual Context Config > Guided Setup > Virtual Context
Setup
Using Virtual Context Setup, page 3-10
Provision an Application Config > Guided Setup > Application Setup Using Application Setup, page 3-12
Configuration
Configure Devices Config > Devices > System > Primary
Attributes
Configuring Virtual Context Primary
Attributes, page 6-14
ANM Role-Based Access
Control
Admin > Role-Based Access Control >
Users
Managing User Accounts, page 18-17
Device Audit Config > Device Audit Performing Device Audit Trail Logging,
page 18-59
Application Configs Config > Global > Application Configs Managing Application Template Instances,
page 4-3
Application Config Templates Config > Global > Application Config
Templates
Managing Application Template Definitions,
page 4-15
System Summary
Critical Alarms Monitor > Alarm Notifications > Alarms Displaying Alarms in ANM, page 17-65
High Priority Syslogs Monitor > Events > Events Monitoring Events, page 17-55
Documentation
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Customizing the Default ANM Page
Note For information about the navigational tabs and hyperlinks located at the top of the Homepage window,
see the “ANM Interface Components” section on page 1-8.
Customizing the Default ANM Page
You can choose the default page that you access after logging in to ANM. By default, the ANM
Homepage is the first page that appears after you log in. From the ANM Homepage, you can specify a
different page that appears as the default page after you log in.
Procedure
Step 1 If the Homepage is not active in ANM, click the Home tab. The Homepage appears.
Step 2 From the Default Login Page drop-down list, choose one of the following pages that you want to appear
after you log in to ANM:
• Home > Welcome
• Config > Guided Setup
• Config > Devices
• Config > Operations > Real Servers
• Config > Operations > Virtual Servers
• Config > Operations > GSS VIP Answers
• Config > Operations > GSS DNS Rules
Cisco ANM Documentation
(link to documentation set on
www.cisco.com)
N/A N/A
Cisco ACE Appliance
Documentation
(link to documentation set on
www.cisco.com)
N/A N/A
Cisco ACE Module
Documentation
(link to documentation set on
www.cisco.com)
N/A N/A
Cisco ACE Troubleshooting
Guide
(link to DocWiki)
N/A N/A
What is New in this ANM
Release (link to release notes
on www.cisco.com)
Table 2-1 Homepage Links (continued)
Homepage Link ANM Page Related Topics
Operational Tasks
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• Config > Deploy
• Config > Device Audit
• Monitor > Devices > Dashboard
• Monitor > Devices > Resource Usage
• Monitor > Devices > Traffic Summary
• Monitor > Devices > Load Balancing > Real Servers
• Monitor > Devices > Load Balancing > Probes
• Monitor > Devices > Load Balancing > Statistics
• Monitor > Devices > Load Balancing > Application Acceleration (ACE appliance only)
• Monitor > Events
• Monitor > Alarm Notifications > Alarms
Step 3 Click Save to save your new selection as the default page the next time that you log in to ANM.
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Using ANM Guided Setup
Date: 3/28/12
This chapter describes how to use Cisco Application Networking Manager (ANM) Guided Setup.
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Information About Guided Setup, page 3-1
• Guidelines and Limitations, page 3-4
• Using Import Devices, page 3-4
• Using ACE Hardware Setup, page 3-5
• Using Virtual Context Setup, page 3-10
• Using Application Setup, page 3-12
Information About Guided Setup
ANM Guided Setup provides a series of setup sequences that offer GUI window guidance and
networking diagrams to simplify the configuration of ANM and the network devices that it mananges.
Guided Setup allows you to quickly perform the following tasks:
• Establish communication between ANM and Application Control Engine (ACE) hardware devices.
• Configure ACE devices that are new to the network by establishing network connectivity in either
standalone or high-availability (HA) deployments.
• Create and connect to an ACE virtual context.
• Set up load balancing application from an ACE to a group of back-end servers.
To access Guided Setup, click the Config tab located at the top of the window, then click Guided Setup.
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Information About Guided Setup
Note The available menu and button options on the Guided Setup tasks are under Role-Based Access Control
(RBAC). Menu and button options will be grayed if proper permission has not been granted to the logged
in user by the administrator. See the “How ANM Handles Role-Based Access Control” section on
page 18-8 for more information about RBAC in ANM.
Table 3-1 identifies the individual guided setup tasks and related topics.
Table 3-1 Guided Setup Tasks and Related Topics
Guided Setup Tasks Purpose Related Topics
Import devices Launch the Import Devices setup task
to establish communication between
ANM and hardware devices. Imported
devices can include: ACE modules,
ACE appliances, Catalyst 6500 series
chassis, Catalyst 6500 Virtual
Switching System (VSS) 1440, Cisco
7600 series routers, Content Services
Switches (CSS) devices, Content
Switching Module (CSM) devices, or
Global Site Selector (GSS) devices.
• Using Import Devices, page 3-4
• Information About Importing Devices, page 5-4
• Preparing Devices for Import, page 5-4
• Importing Network Devices into ANM, page 5-10
• Discovering Large Numbers of Devices Using IP
Discovery, page 5-27
ACE hardware setup Launch the ACE Hardware Setup task
to help you configure ACE devices
that are new to the network by
establishing network connectivity in
either standalone or high-availability
(HA) deployments.
• Using ACE Hardware Setup, page 3-5
• Configuring Devices, page 5-34
• Configuring ACE Module and Appliance
Role-Based Access Controls, page 5-53
• Managing Devices, page 5-66
• Configuring ACE High Availability Peers,
page 13-15
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Information About Guided Setup
Virtual context setup Launch the Virtual Context Setup task
to create and connect an ACE virtual
context.
• Using Virtual Context Setup, page 3-10
• Using Resource Classes, page 6-43
• Creating Virtual Contexts, page 6-2
• Configuring Virtual Contexts, page 6-8
• Configuring VLANs Using Cisco IOS Software
(ACE Module), page 12-3
Application setup Launch the Application Setup task to
configure load balancing for your
application. This task guides you
through a complete end-to-end
configuration of the ACE for many
common server load-balancing
situations.
• Using Application Setup, page 3-12
• Creating an Application Template Instance,
page 4-4
• Configuring Virtual Context VLAN Interfaces,
page 12-6
• Configuring Virtual Context BVI Interfaces,
page 12-19
• Configuring Virtual Context Static Routes,
page 12-28
• Configuring Virtual Context BVI Interfaces,
page 12-19
• Configuring Security with ACLs, page 6-78
• SSL Setup Sequence, page 11-4
Table 3-1 Guided Setup Tasks and Related Topics
Guided Setup Tasks Purpose Related Topics
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Guidelines and Limitations
Guidelines and Limitations
As you perform a Guided Setup task, use the following operating conventions:
• To move between steps, click the name of the step in the menu to the left.
• The steps for each task are listed in an order that is designed to prevent problems during later steps;
however, you can skip steps if you know they are not applicable to your application.
• Depending on your user privileges, ANM may prevent you from making changes on certain steps.
• You must save and deploy any changes you want to keep before leaving each page.
• Each task can be run as many times as you like.
Using Import Devices
You can use the Import Device task to import ACE modules, ACE appliances, Catalyst 6500 series
chassis, Catalyst 6500 Virtual Switching System (VSS) 1440, Cisco 7600 series routers, CSS devices,
CSM devices, or GSS devices into ANM. You must import the hardware devices before ANM can
manage them.
Before You Begin
• Because ANM communicates with network devices through Secure Shell (SSH) and other protocols,
you must set up your devices to allow ANM to collect data from them. See the “Preparing Devices
for Import” section on page 5-4.
• Before ANM can import a device, you must ensure that the device has a management interface that
ANM can access. Also, you need the IP address and credentials for the device's management
interface in order to import it.
• If the ACE module is new and retains its factory settings, you can configure basic management
during the import process by using the Bare Blade option.
Procedure
Step 1 Choose Config > Guided Setup > Import Devices.
The Import Devices window appears, which includes the All Devices table.
Step 2 At the top of the All Devices table, click Add (+) to import a new device.
The New Device window appears.
Step 3 Enter the information for the specific device and complete the import devices procedure as described in
“Importing Network Devices into ANM” section on page 5-10.
Note To manage modules inside a Catalyst 6500 series switch, you must first import the Catalyst into
the All Devices table.
To import modules from a Catalyst that is already imported, choose the Catalyst switch from the
All Devices table and click Modules below the All Devices table.
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Using ACE Hardware Setup
Note The time required to import depends on the size of the existing configuration on each device.
The process can range from a few minutes to 30 minutes or more for a very large configuration.
Step 4 After you finish importing the ACE devices (module or appliance) into ANM, continue to the ACE
Hardware Setup task to guide you through the basic device setup and network configuration. See the
“Using ACE Hardware Setup” section on page 3-5.
Related Topics
• Information About Importing Devices, page 5-4
• Preparing Devices for Import, page 5-4
• Importing Network Devices into ANM, page 5-10
• Discovering Large Numbers of Devices Using IP Discovery, page 5-27
• Using ACE Hardware Setup, page 3-5
Using ACE Hardware Setup
You can use the ACE Hardware Setup task to configure ACE devices that are new to the network by
establishing network connectivity in either standalone or high-availability (HA) deployments.
Before You Begin
Before you can set up the ACE hardware using ANM, you must use the Import Devices task to import
the ACE into ANM if you have not already. See the “Using Import Devices” section on page 3-4.
Assumptions
• You can extend the functionality of the ACE by installing licenses. If you plan to extend the ACE
functionality, ensure that you have received the proper software license key for the ACE, that ACE
licenses are available on a remote server for importing to the ACE, or you have received the software
license key and have copied the license file to the disk0: file system on the ACE using the copy
path/]filename1 disk0: CLI command.
Note See either the Cisco Application Control Engine Module Administration Guide or Cisco 4700
Series Application Control Engine Appliance Administration Guide for details on the copy
path/]filename1 disk0: CLI command.
• You must be in the Admin virtual context on an ACE device (ACE module or ACE appliance) to
configure ACE devices that are new to the network.
• When importing an ACE HA pair into ANM, you should follow one of the following configuration
requirements so that ANM can uniquely identify the ACE HA pair:
– Use a unique combination of FT interface VLAN and FT IP address/peer IP address for every
ACE HA pair imported into ANM. For HA, it is critical that the combination of FT interface
VLAN and IP address/peer IP address is always unique across every pair of ACE peer devices.
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Using ACE Hardware Setup
– Define a peer IP address in the management interface using the management IP address of the
peer ACE (module or appliance). The management IP address and management peer IP address
used for this definition should be the management IP address used to import both ACE devices
into ANM.
Note For more information about the use of HA pairs imported into ANM, see the “ANM
Requirements for ACE High Availability” section on page 5-8.
• When you are configuring the ACE, changes to the physical interfaces (including Gigabit Ethernet
ports or port channels) can result in a loss of connectivity between ANM and the ACE. Use caution
when following the ACE Hardware Setup task if you are modifying the interface that management
traffic is traversing.
Procedure
Step 1 Choose Config > Guided Setup > ACE Hardware Setup.
The ACE Hardware Setup window appears, which includes the ACE Device and Configuration Type
drop-down lists.
Step 2 From the ACE Device drop-down list, choose an ACE device (module or appliance).
Step 3 From the Configuration Type drop-down list, choose whether to set up the ACE as a standalone device
or as a member of a high-availability (HA) ACE pair:
• Standalone—The ACE is not to be used in an HA configuration.
• HA Secondary—The ACE is to be the secondary peer in an HA configuration.
• HA Primary—The ACE is to be the primary peer in an HA configuration.
Note Ensure that you complete the ACE hardware setup task for the secondary device before you set
up the primary device.
Step 4 Click Start Setup.
The License window appears (Config > Guided Setup > ACE Hardware Setup > Licenses). Cisco offers
licenses for ACE modules and appliances that allows you to increase the number of default contexts,
bandwidth, and SSL TPS (transactions per second). For more information, see either the Cisco
Application Control Engine Module Administration Guide or the Cisco 4700 Series Application Control
Engine Appliance Administration Guide on cisco.com.
If you need to install licenses at this point, go to Step 5.
If you do not need to install licenses at this point, go to Step 6.
Step 5 Install one or more ACE licenses (see the “Managing ACE Licenses” section on page 6-36).
Note For an ACE primary and secondary HA pair, because each ACE license is only valid on a single
hardware device, licenses are not synchronized between HA peer devices. You must install an
appropriate version of each license independently on both the primary and secondary ACE
devices.
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Using ACE Hardware Setup
Step 6 Click SNMP v2c Read-Only Community String under ACE Hardware Setup (Config > Guided Setup
> ACE Hardware Setup > SNMP v2c Read-Only Community String).
The SNMP v2c Read-Only Community String window appears.
Perform the following actions to configure an SNMP community string (a requirement for an ACE to be
monitored by ANM):
a. Click Add (+) at the top of the SNMP v2c Read-Only Community String table to create an SNMP
community string. The New SNMP v2c Community window appears.
Note For ANM to monitor an ACE, you must configure an SNMPv2c community string in the
Admin virtual context.
b. In the Read-Only Community field, enter the SNMP read-only community string name. Valid entries
are unquoted text strings with no spaces and a maximum of 32 characters.
Additional SNMP configuration selections are available under Config > Devices > context > System >
SNMP. See the “Configuring SNMP for Virtual Contexts” section on page 6-27.
Step 7 If you are configuring an ACE appliance, to group physical ports together on the ACE appliance to form
a logical Layer 2 interface called the port-channel (sometimes known as EtherChannels), click Port
Channel Interfaces under ACE Hardware Setup.
The Port Channel Interfaces window appears (Config > Guided Setup > ACE Hardware Setup > Port
Channel Interfaces).
Note You must configure port channels on both the ACE appliance and the switch that the ACE is
connected to.
Perform the following actions to configure a port channel interface:
a. If you want to poll the devices and display the current values, click Poll Now, and then OK when
prompted if you want to poll the devices for data now.
b. At the top of the Port Channel Interfaces table, click Add (+) to add a port channel interface, or
choose an existing port channel interface and click Edit to modify it. The New Port Channel
Interface window appears.
Note If you click Edit, not all of the fields can be modified.
c. Enter the port channel interface attributes as described in the “Configuring Port-Channel Interfaces
for the ACE Appliance” section on page 12-35.
d. Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
e. To display statistics and status information for a port-channel interface, choose the interface from
the Port Channel Interfaces table and click Details. The show interface port-channel CLI
command output appears. See the “Displaying Port Channel Interface Statistics and Status
Information” section on page 12-40 for details.
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Using ACE Hardware Setup
Step 8 If you are configuring an ACE appliance, to configure one or more of the Gigabit Ethernet ports on the
appliance, click GigabitEthernet Interfaces under ACE Hardware Setup. The GigabitEthernet
Interfaces window appears (Config > Guided Setup > ACE Hardware Setup > GigabitEthernet
Interfaces).
a. If you want to poll the devices and display the current values, click Poll Now, and then OK when
prompted if you want to poll the devices for data now.
b. Choose an existing Gigabit Ethernet interface and click Edit to modify it.
c. Enter the Gigabit Ethernet physical interface attributes as described in the “Configuring Gigabit
Ethernet Interfaces on the ACE Appliance” section on page 12-32.
d. Click Deploy Now when completed to deploy this configuration on the ACE and save your entries
to the running-configuration and startup-configuration files.
e. Repeat Steps a through c for each Gigabit Ethernet interface that you want to configure.
f. To display statistics and status information for a particular Gigabit Ethernet interface, choose the
interface from the GigabitEthernet Interfaces table, then click Details. The show interface
gigabitEthernet CLI command output appears. See the “Displaying Gigabit Ethernet Interface
Statistics and Status Information” section on page 12-35 for details.
Step 9 If the ACE is a member of an HA ACE pair, click VLAN Interfaces under ACE Hardware Setup.
The VLAN Interfaces window appears (Config > Guided Setup > ACE Hardware Setup > VLAN
Interfaces).
Note To prevent loss of management connectivity during an HA configuration, you must configure the
IP addresses of the management VLAN interface correctly for your HA setup. During this
procedure, choose the management VLAN interface (and click the Edit button) and make sure
its IP address, alias IP address, and peer IP address are all set correctly. You can repeat this
process for any VLAN interfaces that you want. If the management VLAN is properly
configured before establishing HA, you will be able to return later to reconfigure other VLANs.
a. If you want to poll the devices and display the current values, click Poll Now, and then OK when
prompted if you want to poll the devices for data now.
b. Click Add to add a new VLAN interface, or choose an existing VLAN interface and click Edit to
modify it.
Note If you click Edit, not all of the fields can be modified.
c. Enter the VLAN interface attributes as described in the “Configuring Virtual Context VLAN
Interfaces” section on page 12-6. Click More Settings to access the additional VLAN interface
attributes. By default, ANM hides the default VLAN interface attributes and the VLAN interface
attributes which are not commonly used.
d. Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
e. To display statistics and status information for a VLAN interface, choose the VLAN interface from
the VLAN Interface table, then click Details. The output of the show interface vlan, show ipv6
interface vlan, and show ipv6 neighbor CLI commands appears. The IPv6 commands require ACE
module and ACE appliance software Version A5(1.0) or later. See the “Displaying VLAN Interface
Statistics and Status Information” section on page 12-18 for details.
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Using ACE Hardware Setup
Step 10 If the ACE is the primary peer in a high availability (HA) configuration, click HA Peering under ACE
Hardware Setup (Config > Guided Setup > ACE Hardware Setup > HA Peering).
a. Click Edit below the HA Management section to configure the primary ACE and the secondary ACE
as described in the “Configuring ACE High Availability Peers” section on page 13-15. There are two
columns, one for the selected ACE and another for a peer ACE.
You can specify the following information:
– Identify the two members of a HA pair.
– Assign IP addresses to the peer ACEs.
– Assign an HA VLAN to HA peers and bind a physical Gigabit Ethernet interface to the FT
VLAN.
– Configure the heartbeat frequency and count on the peer ACEs in a fault-tolerant VLAN.
When completed, click Deploy Now to deploy this configuration on the ACE and save your entries
to the running-configuration and startup-configuration files.
Note For ACE modules, the HA VLAN specified for ACE HA Groups must also be set up on the
Catalyst 6500 series switch using the svclc command. See the “Configuring VLANs Using
Cisco IOS Software (ACE Module)” section on page 12-3 for details.
b. Click Add below the ACE HA group table to add a new high availability group. Enter the
information in the configurable fields as described in the “Configuring ACE High Availability
Peers” section on page 13-15. When completed, click Deploy Now to deploy this configuration on
the ACE and save your entries to the running-configuration and startup-configuration files.
The HA State field displays FT VLAN Compatible once HA setup has been successfully completed.
Note To display statistics and status information for a particular HA group, choose the group from
the ACE HA Groups table and click Details. The show ft group group_id detail CLI
command output appears. See the “Displaying High Availability Group Statistics and
Status” section on page 13-21 for details.
Step 11 Once the HA State field in the ACE HA Groups table shows a successful state, the ACE is ready for
further configuration as follows:
• To set up additional virtual contexts, continue to the Virtual Context Setup task to create and connect
an ACE virtual context. See the “Using Virtual Context Setup” section on page 3-10.
• To set up an application in an existing virtual context, continue to the Application Setup task to set
up load-balancing for an application from an ACE to a group of back-end servers. See the “Using
Application Setup” section on page 3-12.
Related Topics
• Using Import Devices, page 3-4
• Configuring Devices, page 5-34
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
• Managing Devices, page 5-66
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Using Virtual Context Setup
Using Virtual Context Setup
You can use the Virtual Context Setup task to create and connect an ACE virtual context. Virtual contexts
use virtualization to partition your ACE appliance or module into multiple virtual devices, or contexts.
Each context contains its own set of policies, interfaces, resources, and administrators.
Before You Begin
You must be in the Admin context on the ACE to create a new user context.
Procedure
Step 1 Choose Config > Guided Setup > Virtual Context Setup.
The Virtual Context Setup window appears.
Step 2 From the ACE Device drop-down list, choose an ACE.
Step 3 Click Start Setup.
The Resource Classes window appears (Config > Guided Setup > Virtual Context Setup > Resource
Classes).
Perform the following tasks to create or modify a resource class:
a. If you want to create a resource class, click Add (+). The New Resource Class configuration window
appears. Enter the resource information as described in the “Configuring Global Resource Classes”
section on page 6-46.
b. If you want to modify an existing resource, choose the resource class that you want to modify, then
click Edit. The Edit Resource Class configuration window appears. Enter the resource information
as described in the “Modifying Global Resource Classes” section on page 6-50.
c. Click OK to save your entries and to return to the Resource Classes table.
Make note of the resource class that you want to use because you will need it in Step 5.
Step 4 Click Virtual Context Management under Virtual Context Setup.
The Virtual Context window appears (Config > Guided Setup > Virtual Context Setup > Virtual Context
Management).
Perform the following actions to create or modify a virtual context:
a. If you want to create a virtual context, click Add (+). The New Virtual Context window appears.
Configure the virtual context as described in the “Configuring Virtual Contexts” section on
page 6-8.
b. If you want to modify an existing virtual context, choose the virtual context that you want to modify
and click Edit. The Edit Resource Class configuration window appears. Enter the resource
information as described in the “Modifying Global Resource Classes” section on page 6-50.
Step 5 To create or modify the attributes of a virtual context, configure the virtual context as described in the
“Configuring Virtual Contexts” section on page 6-8.
When completed, click Deploy Now to deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. Follow these guidelines when creating or
modifying the virtual context:
• To connect the virtual context to the available VLANs, specify one or more VLANs in the Allocated
VLANs field. You can specify multiple VLAN values and ranges (for example, “10, 14, 70-79”).
• For virtual contexts configured for an ACE, do the following:
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– For an ACE appliance, you must set up all VLANs used in this step as trunk or access VLANs
on the port channel or Gigabit Ethernet interfaces. If you did not set up these VLANs during the
ACE Hardware Setup task, you can return to the ACE Hardware Setup window to configure the
required VLANs. See the “Using ACE Hardware Setup” section on page 3-5.
– For an ACE module, you must set up all VLANs used in this step as trunk or access VLANs on
the Catalyst 6500 series switch using the svclc command. See the “Configuring VLANs Using
Cisco IOS Software (ACE Module)” section on page 12-3 for details.
• When specifying the resource class for the virtual context, choose the resource class that you created
or specified in Step 3.
Note If you are unsure of the resource class to use for this virtual context, choose default. You
can change the resource class setting at a later time.
• If HA has been correctly configured for this ACE device, the High Availability checkbox will be
checked. If the checkbox is unchecked, check it to instruct ANM to automatically configure
synchronization for this virtual context.
Note The High Availability checkbox is available only if HA Peering has previously been
completed for the ACE hardware.
• If you want to set up a separate management VLAN interface for the virtual context, under
Management Settings, configure the management interface for this virtual context and create an
admin user. Each context also has its own management VLAN that you can access using the ANM
GUI. In this case, you would assign an independent VLAN and IP address for management traffic
to access the virtual context.
Step 6 To edit the load-balancing configuration for a virtual context, continue to the Application Setup task. See
the “Using Application Setup” section on page 3-12.
Related Topics
• Using Import Devices, page 3-4
• Using ACE Hardware Setup, page 3-5
• Information About Virtual Contexts, page 6-2
• Using Resource Classes, page 6-43
• Creating Virtual Contexts, page 6-2
• Configuring Virtual Contexts, page 6-8
• Configuring VLANs Using Cisco IOS Software (ACE Module), page 12-3
• Using Application Setup, page 3-12
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Using Application Setup
Using Application Setup
This section includes the following topics on application setup:
• ACE Network Topology Overview, page 3-12
• Using Application Setup, page 3-14
ACE Network Topology Overview
With respect to ACE configuration, the network topology describes where—which VLAN or
subnet—client traffic comes into the ACE and where this traffic is sent to real servers. Network
configuration for ACE load balancing depends on the surrounding topology. By specifying to ANM the
topology that is appropriate for your networking application, ANM can present more relevant options
and guidance.
The network topology is often determined solely by your existing network; however, the goals for your
ACE deployment can also play a role. For example, when ACE acts as a router between clients and
servers, it provides a level of protection by effectively hiding the servers from the clients. On the other
hand, for a routed topology to work, each of those servers must be configured to route back through the
ACE, which can be a significant change to the network routing.
The ACE is also capable of bridging the client and server VLANs, which does not affect server routing.
However, it does require the network to have VLANs set up appropriately.
If you are not sure what topology to use, or do not want to make topology decisions immediately, use
the “one-armed” topology. The one-armed topology does not typically require any changes to an existing
network and can be set up with minimal knowledge of the network. You can then expand your ACE
network topology to routed mode or bridged mode to better suit your networking requirements.
Figure 3-1 illustrates the one-armed network topology.
Figure 3-1 Example of a One-Armed Network Topology
247750
ACE Virtual
Context
Real
Servers
Router/
Switch
Client to ACE Request
Client IP (src):
VIP (dst): 172.16.5.10
Client to ACE Request
Nat Pool IP (src): 172.16.5.101
Server IP (dst): 192.168.1.11
ACE VLAN
e.g. 172.16.5.0/16
Server VLAN
e.g. 192.168.1.0/16
Client Network
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Using Application Setup
Figure 3-2 illustrates the routed mode network topology.
Figure 3-2 Example of a Routed Mode Network Topology
Figure 3-3 illustrates the bridged mode network topology.
Figure 3-3 Example of a Bridged Mode Network Topology
247751
ACE Virtual
Context
Real
Servers
Router/
Switch
Real Server
Default Routes
Client VLAN
e.g. 172.16.5.0/16
Server VLAN
e.g. 192.168.1.0/16
Client Network
247752
ACE Virtual
Context
Real
Servers
Router/
Switch
Real Server
Default Routes
Client VLAN Server VLAN
BVI
e.g. 192.168.1.0/16
Client Network
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Using Application Setup
Using Application Setup
You use the Application Setup task to set up load balancing for an application in which you choose an
application type, virtual context to configure, and network topology (see Figure 3-4). ANM Guided
Setup displays a list of configuration attributes to define that is based on your choice of application type
and network topology.
Figure 3-4 Guided Setup: Application Setup
Guidelines and Restrictions
The Application Type drop down list (see Figure 3-4) includes both non-template and template-based
options. The template-based options are application definition templates that allow you to quickly
configure one or more ACE virtual contexts (or devices) with a complex configuration for well known
or custom in-house applications. A template can be a Cisco-defined system template or it can be
user-defined. The number of system templates that display in the drop-down list increases as more of
these templates become available during ANM upgrades or you import them into ANM from the Cisco
Developers Network. For more information, see the “Information About Application Template
Definitions and Instances” section on page 4-1.
By default, all system templates display in the Application Type drop down list. You can edit a template
so that it does not display in this list. For more information, see the “Editing an Application Template
Definition” section on page 4-15.
Procedure
Step 1 Choose Config > Guided Setup > Application Setup.
The Application Setup window appears.
Step 2 From the Application Type drop-down list, choose an application as follows:
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Using Application Setup
• Non-template options—Choose one of the following application types if you do not want to create
an application that is not based on a system or user-defined template:
– Generic-SSL-HTTP—Choose this application type if your ACE is to use HTTPS when
communicating with either the client or with real servers.
– Generic-Non-SSL—Choose this application type if your ACE is to use HTTP when
communicating with either the client or with real servers.
These applications allow you to create an application that is more granular in terms of the number
of attributes that you can configure using Guided Setup compared to an application based on a
system or user template.
• Template-based options—Choose one of the application types that are based on a system template
provided with ANM or a user-defined template. Examples of system templates include the
following:
– Microsoft Exchange
– Microsoft SharePoint
For more informtion, see “Guidelines and Restrictions.”
Step 3 From the Select Virtual Context drop-down list, choose an existing ACE virtual context.
Step 4 Choose the network topology that reflects the relationship of the selected ACE virtual context to the real
servers in the network.
Topology choices include one-armed, routed, or bridged. See the “ACE Network Topology Overview”
section on page 3-12 for background details on networking topology.
Step 5 Click Start Setup.
Step 6 Configure the attributes that are associated with the selected application type and topology and listed
under Application Setup (see Figure 3-5) and described in Table 3-2, which includes all possible
attributes.
Figure 3-5 Navigating Application Setup Configuration Attributes
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Using Application Setup
Note As you complete and deploy an attribute configuration, go to the next one by clicking on the
attribute listed under Application Setup (see Figure 3-5).
Table 3-2 Guide Setup Configuration Attributes
Attribute Description
VLAN
Interfaces
To communicate with the client and real servers, a VLAN interface must be specified for client and server
traffic to be sent and received.
Perform the following actions to configure a VLAN interface:
a. If you want to poll the devices and display the current values, click Poll Now, and then click OK when
prompted to poll the devices for data.
b. Click Add to add a new VLAN interface, or choose an existing VLAN interface and click Edit to modify
it.
c. Enter the VLAN interface attributes. Click More Settings to access the additional VLAN interface
attributes. By default, ANM hides the default VLAN interface attributes and the VLAN interface
attributes that are not commonly used. For configuration details, see the “Configuring Virtual Context
VLAN Interfaces” section on page 12-6.
Note After you define the VLAN, write down the VLAN number. You need this number when
configuring the ACLs and Virtual Server attributes.
d. Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
e. To display statistics and status information for a VLAN interface, choose the VLAN interface from the
VLAN Interface table, then click Details. The output of the show interface vlan, show ipv6 interface
vlan, and show ipv6 neighbor CLI commands appears. The IPv6 commands require ACE module and
ACE appliance software Version A5(1.0) or later. See the “Displaying VLAN Interface Statistics and
Status Information” section on page 12-18 for details.
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Using Application Setup
BVI
Interfaces
Perform the following actions to configure a BVI interface:
a. If you want to poll the devices and display the current values, click Poll Now, and then OK when
prompted if you want to poll the devices for data now.
b. Click Add to add a new BVI interface, or choose an existing BVI interface, then click Edit to modify it.
c. Enter the BVI interface attributes. For configuration details, see the “Configuring Virtual Context BVI
Interfaces” section on page 12-19.
Note After you define the BVI, write down the client-side VLAN number. You need this number when
configuring the ACLs and Virtual Server attributes.
d. Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
e. To display statistics and status information for a BVI interface, choose the BVI interface from the BVI
Interface table, then click Details. The show interface bvi, show ipv6 interface bvi, and show ipv6
neighbors CLI commands output appears. The IPv6 commands require ACE module and ACE appliance
software Version A5(1.0) or later. See the “Displaying BVI Interface Statistics and Status Information”
section on page 12-26 for details.
NAT Pools To set up a one-armed topology, you need a NAT pool to provide the set of IP addresses that ACE can use as
source addresses when sending requests to the real servers.
Note You must configure the NAT pool on the same VLAN interface that you configured in Step 6.
Perform the following actions to create or modify a NAT pool for a VLAN:
a. Click Add to add a new NAT pool entry, or choose an existing NAT pool entry and click Edit to modify
it. The NAT Pool configuration window appears.
b. Configure the NAT pool attributes. For configuration details, see the “Configuring VLAN Interface NAT
Pools” section on page 12-26.
Note After you define the NAT pool, write down the NAT pool ID. You specify the NAT pool ID when
configuring the Virtual Server attributes.
c. Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
Table 3-2 Guide Setup Configuration Attributes (continued)
Attribute Description
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Using Application Setup
ACLs An ACL applies to one or more VLAN interfaces. Each ACL consists of a list of entries, each of which defines
a source, a destination, and whether to permit or deny traffic between those locations.
Perform the following actions to create or modify an ACL:
a. Click Add to add a new ACL entry, or choose an existing ACL entry and click Edit to modify it. The
Access List configuration window appears.
b. Add or edit the required fields. For configuration details, see the “Configuring Security with ACLs”
section on page 6-78.
c. Click Deploy to save this configuration.
d. To display statistics and status information for an ACL, choose an ACL from the ACLs table, then click
Details. The show access-list access-list detail CLI command output appears. See the “Displaying ACL
Information and Statistics” section on page 6-89 for details.
SSL Proxy
Note To terminate or initiate HTTPS connections with ACE, the virtual context must have at least one SSL
proxy service. An SSL proxy contains the certificate and key information needed to terminate HTTPS
connections from the client or initiate them to the servers.
Perform the following actions to create or modify an SSL proxy service:
a. To create an SSL proxy service, click SSL Proxy Setup.
Note To edit an existing SSL proxy service, choose it from the SSL Proxy table, and click Edit to
modify the SSL proxy service. The SSL Proxy Service configuration window appears. Edit the
required fields as described in the “Configuring SSL Proxy Service” section on page 11-27.
b. Add required fields. For configuration details, see the “Configuring SSL Proxy Service” section on
page 11-27.
c. Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
Table 3-2 Guide Setup Configuration Attributes (continued)
Attribute Description
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Using Application Setup
Virtual
Server
The virtual server defines the load-balancing configuration for an application. Perform the following actions
to create or modify a virtual server:
a. If you want to poll the devices and display the current values, click Poll Now, and then OK when
prompted if you want to poll the devices for data now.
b. Click Add to add a new virtual server, or choose an existing virtual server, and click Edit to modify it.
The Virtual Server configuration window appears with a number of configuration subsets. The subsets
that you see depend on whether you use the Basic View or the Advanced View and entries you make in
the Properties subset. Change views by using the View object selector at the top of the configuration pane.
c. Add or edit required fields. For configuration details, see the “Virtual Server Configuration Procedure”
section on page 7-7. Table 7-1 identifies and describes virtual server configuration subsets with links to
related topics for configuration information. Virtual servers have many configuration options. At a
minimum, you need to configure the following attributes:
– Set the VIP, port number (TCP or UDP), and application protocol for your application.
Note If the ACE is to terminate the client HTTPS connections, choose HTTPS as the Application
Protocol.
– (One-Armed Topology) For VLAN, choose the VLAN defined in VLAN Interfaces.
– (Routed Topology) For VLAN, choose the client-side VLAN defined VLAN Interfaces.
– (Bridged Topology) For VLAN, choose the client-side VLAN defined in VLAN Interfaces.
– If the ACE is to terminate client HTTPS connections, then under the SSL Termination header,
specify the SSL proxy defined in SSL Proxy.
– Under the Default L7 Loadbalancing Action, set Primary Action to Loadbalance.
– Create a server farm that contains one or more real servers for this application (see Table 7-13 in the
“Configuring Virtual Server Layer 7 Load Balancing” section for details on setting server farm
attributes).
– If the ACE is to initiate HTTPS connections to the real servers, choose the desired SSL proxy for
initiation to this application from the menu next to SSL Initiation.
– (One-Armed Topology) Under NAT, enter the NAT pool ID from Step 8.
After you set up a base virtual server, you can test it to validate your configuration and isolate any issues
in your networking application. You can then add these more advanced load balancing options to your
networking application:
– Additional real servers to a server farm. See Table 7-13 in the “Configuring Virtual Server Layer 7
Load Balancing” section for details.
– Health monitoring probes and attributes for the specific probe type. See Table 7-14 in the
“Configuring Virtual Server Layer 7 Load Balancing” section for details.
– Stickiness, where client requests for content are to be handled by a sticky group when match
conditions are met. See Table 7-15 in the “Configuring Virtual Server Layer 7 Load Balancing”
section for details.
Table 3-2 Guide Setup Configuration Attributes (continued)
Attribute Description
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Using Application Setup
Related Topics
• Using Import Devices, page 3-4
• Using ACE Hardware Setup, page 3-5
• Using Virtual Context Setup, page 3-10
• Configuring Virtual Context VLAN Interfaces, page 12-6
• Configuring Virtual Context BVI Interfaces, page 12-19
• Configuring Virtual Context Static Routes, page 12-28
• Configuring Virtual Context BVI Interfaces, page 12-19
• Configuring Security with ACLs, page 6-78
• SSL Setup Sequence, page 11-4
Virtual
Server
(continued)
– Application protocol inspection, where the ACE allows the virtual server to verify protocol behavior
and identify unwanted or malicious traffic passing through the ACE. See the “Configuring Virtual
Server Protocol Inspection” section for details.
d. Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
e. To display statistics and status information for an existing virtual server, choose a virtual server from the
Virtual Servers table, then click Details. The show service-policy global detail CLI command output
appears. See the “Displaying Virtual Server Statistics and Status Information” section on page 7-65 for
details.
Application
Config
You can create an application configuration or modify one that is staged (not deployed). Perform the
following actions to create or modify an application configuration:
a. Click Add to add a new application config, or choose an existing application config with a Type of
Staged, and click Edit to modify it. The Application Configuration window appears.
b. Configure or edit the required fields. For configuration details, see the “Creating an Application Template
Instance” section on page 4-4.
c. Do one of the following:
- Click Deploy Now to deploy this application config on the ACE and save your entries to the
running-configuration and startup-configuration files.
- Click Save to save the information but not deploy the application config to the ACE. Use this option if
you want to deploy or complete the configuration at a later time.
Table 3-2 Guide Setup Configuration Attributes (continued)
Attribute Description
CHAPTER
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4
Using Application Template Definitions
Date: 3/28/12
This chapter describes how to use Cisco Application Networking Manager (ANM) application template
definitions for configuring ACE virtual contexts.
Note This chapter uses the terms “virtual context” and “device” interchangeably.
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Information About Application Template Definitions and Instances, page 4-1
• Managing Application Template Instances, page 4-3
• Managing Application Template Definitions, page 4-15
Information About Application Template Definitions and
Instances
The ANM application template definitions allow you to quickly configure one or more ACE virtual
contexts (or devices) with a complex configuration for well-known or custom in-house applications. A
template is defined by an XML template definition file, which contains the configuration that is deployed
to a device with place holders for variable replacement. The template variables are presented to the user
in the ANM GUI.
The two types of application template definitions are as follows:
• System templates—Defined by Cisco and included in ANM for major applications. You can edit a
system file to customize it if needed.
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Information About Application Template Definitions and Instances
Examples of system templates are as follows:
– Basic HTTP
– DNS
– DWS with Cisco Nexus 7000 OTV
– FTP
– Java Application Server
– Layer 3 LB
– Layer 4 LB
– Microsoft Exchange 2010
– Microsoft SharePoint 2010
– RDP
– Secure Webserver
• User-defined templates—User defined for custom applications. You can create a user-defined
template that is based on an existing template or you can create a template using the base code
provided in this chapter.
The template file follows a specific schema that is defined by ANM. All user-defined templates must
follow this schema before ANM can deploy it to an ACE. You can create or edit a template using the
internal ANM template editor or you can use the template export and import feature that allows you to
use an external XML editor.
Using application template definitions, you create application template instances, which are based on
the template that you choose. You can display and manage application template instances on a global or
device-specific level.
Guidelines and Restrictions
The variable fields of an application template definition are role-based access controlled (RBAC), which
means that when you use a template to create an application template instance, your user account must
be configured with the required roles that will allow you to enter the variable information. ANM does
not allow you to enter variable information for those fields that you are not permitted to fill in. If you
are not permitted to enter all the variable information, you can save the incomplete template instance
with the information that you are allowed to input, and then have a user with the required roles complete
the template instance so that it can be deployed.
Related Topics
• Managing Application Template Instances, page 4-3
• Managing Application Template Definitions, page 4-15
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Managing Application Template Instances
Application template instances are ACE configurations that you create based on a specific application
template definition. ANM maintains a table of the template instances that you create using ANM, which
you can view by doing one of the following:
• To display the template instances of all devices, display the global view by doing one of the
following:
– Choose Home and from the Configuration category, choose Application Template Instances.
– Choose Config > Global > Application Template Instances.
• To display only the template instances associated with a specific device, choose Config > Devices
> context > Load Balancing > Application Template Instances.
The Application Template Instances window appears, displaying the information described in Table 4-1.
From the Application Template Instances window, you can perform such tasks as creating, editing,
deploying, or deleting a template instance.
Note ANM tracks only application template instances that you create and deploy using ANM. It does not
discover template instances that may reside on an ACE. For example, if you use the CLI to configure an
ACE with a configuration that matches an installed application template configuration, you will not see
this configuration listed as a template instance in the ANM GUI (Config > Global > Application
Template Instances).
This section includes the following topics:
• Creating an Application Template Instance, page 4-4
• Deploying a Staged Application Template Instance, page 4-7
Table 4-1 Application Template Instances Window
Field Description
Name Application template instance name.
Application Type Name of the application template definition used to create the template
instance.
Device Virtual context associated with the template instance.
Type Template instance type as follows:
• Staged—Template instance is saved but has not been deployed.
• Deployed—Template instance is saved and deployed to the device.
Status Current status of the template instance as follows:
• Complete—Template instance attributes have all been defined and the
template instance can be deployed if the Type field displays Staged (see the
“Deploying a Staged Application Template Instance” section on page 4-7).
• Incomplete—Template instance attributes have not all been defined so it
cannot be deployed. This status is possible only when the Type field
displays Staged.
Last Updated Time Last time that ANM retrieved the status information.
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• Editing an Application Template Instance, page 4-9
• Duplicating an Application Template Instance, page 4-10
• Viewing and Editing Application Template Instance Details, page 4-12
• Deleting an Application Template Instance, page 4-13
Creating an Application Template Instance
You can create an application template instance by configuring a virtual context using an application
template definition.
Prerequisites
You must have a user account with the following RBAC tasks assigned to it:
ace_interface=modify, ace_access-list=modify, ace_ssl=modify, ace_vip=modify
Procedure
Step 1 Display the Application Template Instances window by doing one of the following:
• Choose Home and from the Configuration category, choose Application Template Instances.
• Choose Config > Devices > context > Load Balancing > Application Template Instances.
• Choose Config > Global > Application Template Instances.
For information about the information that is displayed, see Table 4-1.
Note You can also create a template instance using Application Setup (see the “Using Application
Setup” section on page 3-12).
Step 2 From the Application Template Instances window, click the Add icon (+).
The New Application Template Instance dialog box appears.
Step 3 In the dialog box, do the following:
a. From the Application Type drop-down list, choose one of the system templates provided with ANM
or a user-defined template.
The number of system templates that display in the drop-down list will increase as more templates
become available and you import them into ANM.
b. Click OK. The dialog box closes and the template configuration attributes appear in the Application
Template Instances window.
Step 4 (Optional) From the Application Template Instances window, choose one of the following view settings
from the drop-down list located at the top of the window:
• Basic View—Displays only the variable fields that require user input. Variable fields that are
optional or are configured with default values are hidden.
• Advanced View—Displays all available variable fields.
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Note The Basic/Advanced display option appears only when a variable field in the application
template definition file uses the “advanced” attribute (see the “Creating an Application Template
Definition Using the ANM Template Editor” section on page 4-21). The DWS with Nexus 7000
OTV system template is an example of a template that uses the advanced attribute.
Step 5 From the Application Template Instances window, configure the variable attributes.
Table 4-2 describes some variable attributes that are associated with the system templates included with
ANM. Use the information provided here to define the variables.
Table 4-2 System Template Attributes
Field Description
Application Configuration Visual grouping of application-specific options.
Application Config Name Name of the application that is used as a base name for many ACE objects, such as class
maps, policy maps, stickies, or server farms.
VIP Address/Exchange VIP
Address
Application server VIP address, which is generally the IP address that appears in DNS for
the application. You can enter an IPv4 or IPv6 formatted address here; however, IPv6
requires ACE software Version A5(1.0) or later. Optionally, an IPv4 can include a prefix of
/32 or less, and an IPv6 address can include a prefix of /128 or less.
Real Server IP/
Client Access Servers (CAS)/
SharePoint Web Front End
Servers Addresses
IP addresses of the servers that are being load balanced. You can enter an IPv4 or IPv6
formatted address here; however, IPv6 requires ACE software Version A5(1.0) or later.
Relative Probe URL File location that the ACE health check probes.
FQDN Fully qualified domain name that is used for web host redirection. The %H string redirects
based on the hostname in the header of the client HTTP requests.
Web Front End Port Real server port on which the service is running.
Secure communications
between Load Balancers and
Servers
Check box option that when checked, instructs the ACE to use SSL to encrypt the traffic
between it and the real servers.
Key Type SSL key type. Choose one of the following from the drop-down list:
• PKCS12
• DER
• PEM
SSL Key URL Field that appears only when the Key Type field is set to PKCS12 or DER. The TFTP, FTP,
or SFTP URL including a key server IP address. You must use two forward slashes (//) to do
absolute references; otherwise, the user home directory is used as the base path.
Key Server Username Field that appears only when the Key Type field is set to PKCS12 or DER. The username to
use for SFTP or FTP with the SSL key URL.
Key Server Password Field that appears only when the Key Type field is set to PKCS12 or DER. The password to
use for SFTP or FTP with the SSL key URL.
SSL Key Field that appears only when the Key Type field is set to PEM. The SSL key that the ACE
uses to decrypt and encrypt traffic from the client.
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Step 6 Do one of the following:
• Click Deploy to deploy the template instance to the device. The deployment verification popup
window appears. Go to Step 7.
Note The Deploy option requires a user account with the following RBAC task assigned to it:
ace_virtualcontext=create.
• Click Stage to save the template instance without deploying it to the specified virtual context.
• Click Cancel to exit the configuration window without saving your changes.
Step 7 From the popup window, do one of the following:
• Click OK to deploy the template instance. The Deploy dialog box appears, which displays the list
of configuration attributes to be deployed. Go to Step 8.
• Click Cancel to exit this procedure without deploying the template instance.
Step 8 In the dialog box, do the following:
a. (Optional) Check the Create Named Checkpoint check box to create a checkpoint that ANM does
not delete after a successful deployment.
This check box works as follows:
SSL Certificate Field that appears only when the Key Type field is set to PEM. The SSL certificate that the
ACE presents to the client.
Cert/Key Passphrase Optional passphrase that the key and certificate are encrypted.
Session Persistence Check box option that when checked, enables session persistence. Depending on the type of
template, the persistence type is generally either IP Netmask or HTTP Cookie.
Redirect from 80 to 443 Check box option that when checked, configures an automatic HTTP redirect.
Note When you enable this option, you must specify a FQDN.
Network Configuration Visual grouping of network-specific options.
Load Balancer (Device: Virtual
Context)
Virtual context to which the template is deployed. When you access the Application
Template Instances window through device configurations (Config > Devices > context >
Load Balancing > Application Template Instances), this field is already populated with the
specified virtual context. When you access the Application Template Instances window
through the Home page or global configuration, choose the virtual context from the
drop-down device tree.
Client VLANs VLANs on which client traffic originates.
Enable Source NAT Check box option that when checked, specifies that traffic from the servers must have source
NAT applied in order to return to the ACE. In general, you do not want to enable this feature
if your ACE is installed in a one-armed network topology (see the “ACE Network Topology
Overview” section on page 3-12).
Note You must define NAT pools on the server interfaces before you select this option.
Table 4-2 System Template Attributes (continued)
Field Description
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– Unchecked—ANM creates a checkpoint that you can revert back to if the deployment of the
staged application template is unsuccessful. ANM assigns a random name to the checkpoint and
deletes the checkpoint after a successful deployment.
– Checked—ANM creates a checkpoint that you name and can revert back to at any time because
ANM does not delete it even after a successful deployment.
Note ACE virtual contexts have a limit of 10 checkpoints. If you attempt to exceed this limit,
ANM does not deploy the template instance.
b. Do one of the following:
– Click Deploy Now. The template instance is applied to the device running-configuration and
startup-configuration files. The Results window appears with the deployment status as follows:
- Deployment Successful
- Error in deploying template: error_details
– Click Cancel to cancel the deployment.
Related Topics
• Information About Application Template Definitions and Instances, page 4-1
• Managing Application Template Instances, page 4-3
• Deploying a Staged Application Template Instance, page 4-7
• Editing an Application Template Instance, page 4-9
• Duplicating an Application Template Instance, page 4-10
• Viewing and Editing Application Template Instance Details, page 4-12
• Deleting an Application Template Instance, page 4-13
Deploying a Staged Application Template Instance
You can deploy an application template instance that has been saved (or staged) but not yet deployed to
the device.
Prerequisites
You must have a user account with the following RBAC task assigned to it: ace_virtualcontext=create.
Procedure
Step 1 Display the Application Template Instances window by doing one of the following:
• Choose Home and from the Configuration category, choose Application Template Instances.
• Choose Config > Devices > context > Load Balancing > Application Template Instances.
• Choose Config > Global > Application Template Instances.
For information about the information that is displayed, see Table 4-1.
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Step 2 From the Application Template Instances window, choose the staged template instance to deploy and
click Deploy.
The deployment verification popup window appears.
Step 3 From the popup window, do one of the following:
• Click OK to deploy the template instance. One of the following popups appear depending on the
template instance status:
– Complete template instance—The Deploy dialog box appears, which displays the list of
configuration attributes to be deployed. Go to Step 4.
– Incomplete template instance—A popup window appears with the following message:
The selected instance is not completely filled. Do you want to proceed to edit
screen?
Do one of the following:
- Click OK to proceed to the edit window where you can complete the template instance as
described in the “Editing an Application Template Instance” section on page 4-9.
- Click Cancel to return to the Application Template Instances window.
• Click Cancel to exit this procedure without deploying the template instance.
Step 4 In the dialog box, do the following:
a. (Optional) Check the Create Named Checkpoint check box to create a checkpoint that ANM does
not delete after a successful deployment.
This check box works as follows:
– Unchecked—ANM creates a checkpoint that you can revert back to if the deployment of the
staged application template is unsuccessful. ANM assigns a random name to the checkpoint and
deletes the checkpoint after a successful deployment.
– Checked—ANM creates a checkpoint that you name and can revert back to at any time because
ANM does not delete it even after a successful deployment.
Note ACE virtual contexts have a limit of 10 checkpoints. If you attempt to exceed this limit,
ANM does not deploy the template instance.
b. Do one of the following:
– Click Deploy Now. The template instance is applied to the device running-configuration and
startup-configuration files. The Results window appears with the deployment status as follows:
- Deployment Successful
- Error in deploying template: error_details
– Click Cancel to cancel the deployment.
Related Topics
• Information About Application Template Definitions and Instances, page 4-1
• Managing Application Template Instances, page 4-3
• Creating an Application Template Instance, page 4-4
• Editing an Application Template Instance, page 4-9
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• Duplicating an Application Template Instance, page 4-10
• Viewing and Editing Application Template Instance Details, page 4-12
• Deleting an Application Template Instance, page 4-13
Editing an Application Template Instance
You can edit a staged application template instance.
Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
• To edit an application template instance, it must display as the type Staged. You cannot edit a
template instance that displays as the type Deployed.
• To retain the original template instance and make changes to a copy of it, go to the “Duplicating an
Application Template Instance” section on page 4-10.
Prerequisites
You must have a user account with the following RBAC tasks assigned to it:
ace_interface=modify, ace_access-list=modify, ace_ssl=modify, ace_vip=modify
Procedure
Step 1 View the list of application template instances by doing one of the following:
• To display the template instances of all devices, display the global view by doing one of the
following:
– Choose Home and from the Configuration category, choose Application Template Instances.
– Choose Config > Global > Application Template Instances.
• To display only the template instances associated with a specific device, choose Config > Devices
> context > Load Balancing > Application Template Instances.
The Application Template Instances window appears, displaying the information described in Table 4-2.
Step 2 From the Application Template Instances window, choose a staged template instance to edit and click
the Edit icon ( ).
The Application Configuration window appears, displaying the configured variable attributes.
Step 3 From the Application Configuration window, edit the configuration as needed.
For information about configuring the attributes, see Table 4-2.
Step 4 When your edits are complete, do one of the following:
• Click Deploy to deploy the template instance to the device. The deployment verification popup
window appears. Go to Step 5.
• Click Stage to save the template instance without deploying it to the specified virtual context.
• Click Cancel to exit the configuration window without saving your changes.
Step 5 From the popup window, do one of the following:
• Click OK to deploy the template instance. The Deploy dialog box appears, which displays the list
of configuration attributes to be deployed. Go to Step 6.
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• Click Cancel to exit this procedure without deploying the template instance.
Step 6 From the Deploy dialog box, do the following:
a. (Optional) Check the Create Named Checkpoint check box to create a checkpoint that ANM does
not delete after a successful deployment.
This check box works as follows:
– Unchecked—ANM creates a checkpoint that you can revert back to if the deployment of the
staged application template is unsuccessful. ANM assigns a random name to the checkpoint and
deletes the checkpoint after a successful deployment.
– Checked—ANM creates a checkpoint that you name and can revert back to at any time because
ANM does not delete it even after a successful deployment.
Note ACE virtual contexts have a limit of 10 checkpoints. If you attempt to exceed this limit,
ANM does not deploy the template instance.
b. Do one of the following:
– Click Deploy Now. The template instance is applied to the device running-configuration and
startup-configuration files. The Results window appears with the deployment status as follows:
- Deployment Successful
- Error in deploying template: error_details
– Click Cancel to cancel the deployment.
Related Topics
• Information About Application Template Definitions and Instances, page 4-1
• Managing Application Template Instances, page 4-3
• Creating an Application Template Instance, page 4-4
• Deploying a Staged Application Template Instance, page 4-7
• Duplicating an Application Template Instance, page 4-10
• Viewing and Editing Application Template Instance Details, page 4-12
• Deleting an Application Template Instance, page 4-13
Duplicating an Application Template Instance
You can duplicate an existing application template instance, which allows you to create a new template
instance based on the original one.
Procedure
Step 1 View the list of application template instances by doing one of the following:
• To display the template instances of all devices, display the global view by doing one of the
following:
– Choose Home and from the Configuration category, choose Application Template Instances.
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– Choose Config > Global > Application Template Instances.
• To display only the application configurations associated with a specific device, choose Config >
Devices > context > Load Balancing > Application Template Instances.
The Application Template Instances window appears, displaying the information described in Table 4-1.
Step 2 From the Application Template Instances window, choose the template instance to duplicate and click
the Duplicate icon ( ).
The Duplicate Application Config dialog box appears.
Step 3 In the dialog box, enter the prefix to use for the duplicate and click OK.
The dialog box closes and the Application Template Instances window appears, displaying the
configuration attributes of the original template instance.
Step 4 (Optional) From the Application Template Instances window, edit the variable attributes if needed.
For information about configuring the attributes, see Table 4-2.
Step 5 Do one of the following:
• Click Deploy to deploy the template instance to the device. The deployment verification popup
window appears. Go to Step 6.
• Click Stage to save the template instance without deploying it to the specified virtual context.
• Click Cancel to exit the configuration window without saving your changes.
Step 6 From the popup window, do one of the following:
• Click OK to deploy the template instance. The Deploy dialog box appears, which displays the list
of configuration attributes to be deployed. Go to Step 6.
• Click Cancel to exit this procedure without deploying the template instance.
Step 7 In the dialog box, do the following:
a. (Optional) Check the Create Named Checkpoint check box to create a checkpoint that ANM does
not delete after a successful deployment.
This check box works as follows:
– Unchecked—ANM creates a checkpoint that you can revert back to if the deployment of the
staged application template is unsuccessful. ANM assigns a random name to the checkpoint and
deletes the checkpoint after a successful deployment.
– Checked—ANM creates a checkpoint that you name and can revert back to at any time because
ANM does not delete it even after a successful deployment.
Note ACE virtual contexts have a limit of 10 checkpoints. If you attempt to exceed this limit,
ANM does not deploy the template instance.
b. Do one of the following:
– Click Deploy Now. The template instance is applied to the device running-configuration and
startup-configuration files. The Results window appears with the deployment status as follows:
- Deployment Successful
- Error in deploying template: error_details
– Click Cancel to cancel the deployment.
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Related Topics
• Information About Application Template Definitions and Instances, page 4-1
• Creating an Application Template Instance, page 4-4
• Deploying a Staged Application Template Instance, page 4-7
• Editing an Application Template Instance, page 4-9
• Viewing and Editing Application Template Instance Details, page 4-12
• Deleting an Application Template Instance, page 4-13
Viewing and Editing Application Template Instance Details
You can view the configuration details of an application template instance, such as the real servers and
server farms associated with the template instance. The view details feature also allows you to open the
configuration window of a specific attribute to make changes if needed.
Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
• You can view the details of deployed template instance but you cannot view the details of a staged
template instance.
• ANM tracks only application template instances that you create and deploy using ANM. It does not
discover template instances that may reside on an ACE. For example, if you use the CLI to configure
an ACE with a configuration that matches an installed application template configuration, you will
not see this configuration listed as a template instance in the ANM GUI (Config > Global >
Application Template Instances).
Procedure
Step 1 View the list of application template instances by doing one of the following:
• To display the template instances of all devices, display the global view by doing one of the
following:
– Choose Home and from the Configuration category, choose Application Template Instances.
– Choose Config > Global > Application Template Instances.
• To display only the application template instances associated with a specific device, choose Config
> Devices > context > Load Balancing > Application Template Instances.
The Application Template Instances window appears, displaying the information described in Table 4-1.
Step 2 From the Application Template Instances window, view the details of a configuration by choosing a
template instance name and clicking Details.
The Application Template Instance - Detail window appears, displaying details about the configuration
objects. The information that displays varies depending on the template instance and user input.
Configuration objects that can appear include the following:
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Step 3 To view and edit one of the objects, click the Go To Config Page link.
The associated attribute window opens, such as the Virtual Server, Real Server, or Server Farm window,
where all the objects associated with the attribute display. For example, if you click the Go To Config
Page link associated with a real server, the Real Servers window appears, displaying the complete table
of real servers. You must locate the real server in the table to view its details and make changes to it if
needed.
Related Topics
• Information About Application Template Definitions and Instances, page 4-1
• Managing Application Template Instances, page 4-3
• Creating an Application Template Instance, page 4-4
• Deploying a Staged Application Template Instance, page 4-7
• Editing an Application Template Instance, page 4-9
• Duplicating an Application Template Instance, page 4-10
• Deleting an Application Template Instance, page 4-13
Deleting an Application Template Instance
You can delete an application template instance.
Guidelines and Restrictions
When you delete a deployed template instance, the virtual context configuration attributes that were
added or modified as a result of deploying the application configuration are changed back to what they
were prior to deploying the template instance, which means that if the virtual context was configured
and operating prior to deploying the template instance, it reverts to operating with the previous
configuration after you delete the template instance.
• Virtual Servers • Probe • SSL Chain Group Parameters
• Server Farms • SSL Proxy Service • SSL Parameter Maps
• Real Servers • SSL Keys • HTTP Parameter Maps
• Redirect Real Servers • SSL Certificates • TCP Parameter Maps
• Sticky • SSL Auth Group Parameters • HTTP Header Modify Action Lists
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Prerequisites
You must have a user account with the following RBAC task assigned to it: ace_virtualcontext=create.
Procedure
Step 1 View the list of application configurations by doing one of the following:
• To display the template instances of all devices, display the global view by doing one of the
following:
– Choose Home and from the Configuration category, choose Application Template Instances.
– Choose Config > Global > Application Template Instances.
• To display only the application template instances associated with a specific device, choose Config
> Devices > context > Load Balancing > Application Template Instances.
The Application Template Instances window appears, displaying the information described in Table 4-1.
Step 2 From the Application Template Instances window, choose the template instance to delete and click the
Delete icon ( ).
ANM removes the template instance from the table. If the template instance was of the type Saved, no
virtual context operations are affected. If the template instance was of the type Deployed, the associated
virtual context operations are affected as described in “Guidelines and Restrictions” section on
page 4-13.
Related Topics
• Information About Application Template Definitions and Instances, page 4-1
• Managing Application Template Instances, page 4-3
• Creating an Application Template Instance, page 4-4
• Deploying a Staged Application Template Instance, page 4-7
• Editing an Application Template Instance, page 4-9
• Duplicating an Application Template Instance, page 4-10
• Viewing and Editing Application Template Instance Details, page 4-12
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Managing Application Template Definitions
ANM maintains a table of the application template definitions, which you can view by choosing Config
> Global > Application Template Definitions. The Application Template Definitions window appears,
displaying the information described in Table 4-3.
From the Application Template Definitions window, you can create, edit, export, import, and test
application template definitions.
This section includes the following topics:
• Editing an Application Template Definition, page 4-15
• Creating an Application Template Definition, page 4-20
• Exporting an Application Template Definition, page 4-26
• Importing an Application Template Definition, page 4-26
• Testing an Application Template Definition, page 4-28
• Deleting an Application Template Definition, page 4-29
• Using the ANM Template Editor, page 4-29
Editing an Application Template Definition
You can edit the XML code of an application template definition file from within ANM using the
template editor that comes with ANM, or you can export the template definition file and edit it outside
of ANM using an XML editor or text editor such as WordPad.
To help you understand how a template can be edited to suit your particular requirements, this section
includes an example that involves editing the probe information in the Basic HTTP system template. In
the code editing example, the probe interval value is changed from a set value of 60 seconds to a variable
with a default of 60 seconds. This change allows you to configure the interval value when you use the
template to create an application template instance (see the “Creating an Application Template Instance”
section on page 4-4).
Table 4-3 Application Template Definitions Window Fields
Field Description
Application Type Template name.
Version Template version.
Template Type Template type: User-defined or System (Cisco defined).
Description Template description that indicates the type of network application in which the
template configures the ACE.
Validity Icons that indicate the validity of a template as follows:
• Check mark—Template conforms to the XML schema and can be deployed
to an ACE.
• Error icon (!)—Template does not conform to the XML schema and cannot
be deployed to an ACE.
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Figure 4-1 highlights the XML code for the probe URI variable and its set interval value. The figure also
shows the GUI window that the code produces, including the variable field for inputting the relative
probe URI.
Figure 4-1 Basic HTTP Template: Probe with Set Interval Value
You can modify a template to fit your particular requirements. Figure 4-2 highlights the probe code that
was added or modified to produce a variable field in the GUI that allows you to set the probe interval if
you do not want to use the default value of 60 seconds.
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Figure 4-2 Modified Basic HTTP Template: Probe with Variable Interval Setting
Table 4-4 describes the XML code and ANM GUI changes called out in Figure 4-2.
Table 4-4 Example XML Code and ANM GUI Changes
Item Description
Code Changes
1 Modified code that changes the template version number from 1 to 1.1.
2 New code that defines a probe interval variable (probe_interval) that has a default value of 60.
3 Modified code that changes the set probe interval value (60) to a variable ($probe_interval).
GUI Changes
4 Modified template identification bar that includes the new version number (1.1).
5 New user field that allows the user to specify a probe interval other than the default of 60.
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Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
• You can edit the template definition within ANM using the ANM template editor or you can export
the template file, edit the code using a text editor such as WordPad, and then import the modified
template file.
• When editing a system template file, in the XML code you must change the template type or version
number (or both).
• By default, templates that you created using the ANM template editor display as options when using
Application Setup in Guided Setup (see the “Using Application Setup” section on page 3-14). To
configure a template not to display in Application Setup, either change the following code in the
template root element from true to false or remove this piece of code from the root element:
showsInGuidedSetup=”false”
This section includes the following topics:
• Editing an Application Template Definition Using the ANM Template Editor, page 4-18
• Editing an Application Template Definition Using an External Editor, page 4-19
Editing an Application Template Definition Using the ANM Template Editor
You can use the template editor that comes with ANM to modify an application template definition from
within ANM.
Procedure
Step 1 Choose Config > Global > Application Template Definitions.
The Application Template Definitions window appears, displaying the information described in
Table 4-3.
Step 2 From the Application Template Definitions window, choose the template to edit and click the Edit icon
( ).
The template editor window appears, displaying the template code.
Step 3 Edit the code as needed.
For information about using the ANM template editor to make your edits, see the “Using the ANM
Template Editor” section on page 4-29.
Step 4 When your edits are complete, do one of the following:
• Click Validate to have ANM validate the application template definition file, which means that
ANM checks to see that it is a well-formed XML document that follows the rules defined by the
ANM Template XML schema. ANM highlights any errors in the code.
• Click Save to save your changes using the same filename. This button is not available when you edit
a system template (you must use the Save As option).
• Click Save As to open the Save As New Template Definition popup window and save your changes
under a new application type or version. The popup window text fields are populated with the
attributes of the original file opened with the exception of the Version field, which ANM increments
by one. If the version is not a number, the “-next” suffix is added to the version. From the popup
window, modify the file attributes if needed and click Save.
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Note When using the Save As feature, ANM does not allow you to save a template using the same
application type and version number as the original template file. You must change either
the application type or the version number.
• Click Exit to exit the template editor and return to the Application Template Definitions window.
Related Topics
• Information About Application Template Definitions and Instances, page 4-1
• Editing an Application Template Instance, page 4-9
• Managing Application Template Definitions, page 4-15
• Editing an Application Template Definition Using an External Editor, page 4-19
• Testing an Application Template Definition, page 4-28
• Deleting an Application Template Definition, page 4-29
• Using the ANM Template Editor, page 4-29
Editing an Application Template Definition Using an External Editor
You can export an application template definition file, modify it using a text editor, and then import it
back into ANM.
Prerequisites
You must have a text editor (minimum) such as WordPad or an XML editor (preferred).
Procedure
Step 1 Choose Config > Global > Application Template Definitions and export the template to edit from the
list of available templates.
For details, see the “Exporting an Application Template Definition” section on page 4-26.
Step 2 Using a text editor such as WordPad, open the template XML file that you exported in Step 1.
Step 3 Modify the template identification by doing one or both of the following in the header code:
• Assign a new value to the applicationType attribute.
• Change the version number attribute.
In the example (see Figure 4-2), the template version number is changed from 1 to 1.1.
version=”1.1”
Note When you change the template name or version number and import the template, ANM displays
the template as a new line item in the Application Template Definitions window even if you save
the file under the same name (see Step 5).
Step 4 Modify the operation of the template as needed.
In the example (see Figure 4-2), the following changes are made:
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• The template version number is changed from 1 to 1.1.
version=”1.1”
• The input variable name probe_interval is added and defined as having a default value of 60
(seconds).
Note ANM does not display the drop-down list for Basic and Advanced viewing options when
the advanced attribute is not used in the XML code.
Procedure
Step 1 Choose Config > Global > Application Template Definitions.
The Application Template Definitions window appears, displaying the list of existing templates.
Step 2 Click Add (+) to begin creating a new template.
The Create New Template Definition dialog box appears.
Step 3 From the dialog box, do the following:
a. In the Application Type field, enter a brief description of the intended application.
b. In the Version field, enter the template version number. By default, this field is set to 1.0.
c. In the Description field, describe the intended use of the template.
d. Check the Load Balance check box if the configuration is to perform load balancing (it is checked
by default).
If you uncheck the check box, go to Step e.
If you check the check box, do the following:
– From the vserver type drop-down list, choose the virtual server type: http, dns, ftp, rdp,
terminated-https, or other.
– Check the Sticky check box to enable sticky (it is unchecked by default).
If you check the check box, choose one of the following from the sticky type drop-down list:
ip-sticky, http-cookie-sticky, or http-header-sticky.
– Check the SSL check box to include in the template a configuration block with an SSL
termination proxy (it is unchecked by default).
e. Do one of the following:
– Click Go to Editor to open the template editor and the template base code, which is configured
with the information that you provided. Go to Step 4.
– Click Cancel to return to the The Application Template Definitions window.
Step 4 Edit the code as needed.
For information about using the ANM template editor to make your edits, see the “Using the ANM
Template Editor” section on page 4-29.
Step 5 (Optional) Tag specific variable fields or variable arrays with the advanced attribute, which enables the
Basic/Advanced display feature when creating a template instance that uses this application template
definition.
When creating an application template instance, the Basic/Advanced display feature allows the user to
set the view to Basic, which displays only the variable fields that require their input. For more
information about configuring this feature, see the “Guidelines and Restrictions” section on page 4-21.
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Step 6 When your edits are complete, do one of the following:
• Click Validate to have ANM validate the application template definition file, which means that
ANM checks to see that it is a well-formed XML document that follows the rules defined by the
ANM Template XML schema. ANM highlights any errors in the code.
• Click Save to save your changes.
Related Topics
• Managing Application Template Definitions, page 4-15
• Editing an Application Template Definition, page 4-15
• Creating an Application Template Definition, page 4-20
• Using the ANM Template Editor, page 4-29
• Testing an Application Template Definition, page 4-28
• Deleting an Application Template Definition, page 4-29
• Creating an Application Template Instance, page 4-4
Creating an Application Template Definition Using an External XML Editor
You can create a basic ACE application template definition using an external XML editor rather than the
template editor that comes with ANM. The procedure shows how to create a base XML file with which
to base your template on and then use the free form XML tag to encapsulate ACE CLI commands that
you copy from a known working configuration and paste into the template. The example template that
you create during the procedure will initialize a virtual context by doing the following:
• Specify a variable message of the day (MOTD) field.
• Enable logging.
• Specify a number of SNMP attributes, some of which are variables.
Guidelines and Restrictions
The ability to create a complex template requires a knowledge of XML programming and the ACE CLI
and is beyond the scope of this guide. For information about creating complex templates for configuring
your ACEs, go to the Cisco Developer Network (CDN) site at the following URL:
http://developer.cisco.com/web/anm/application-templates
Prerequisites
This topic has the following requirements:
• Basic knowledge of XML programming and the ACE CLI.
• Text editor (minimum), such as WordPad, or an XML editor (preferred).
• The application template definition XML schema. You can obtain a copy of this file from the CDN
site at the following URL:
http://developer.cisco.com/web/anm/docs
From this site, use the schemas hyperlink located under the “Application Template Schemas”
heading to download the XML schema.
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• Access to an ACE CLI and the output of the show running config command from which you copy
the commands that you need and paste them into the template.
Procedure
Step 1 From the ACE CLI, enter the show running config command.
Step 2 Create a folder in which to work while creating a template and place the application template definition
XML schema file in it.
Step 3 Using a text editor or XML editor, create an XML template file, save it to your work folder, and copy in
the following base code:
Step 4 Do the following (shown in bold text in the example):
a. Assign values to the application type and provide a brief description.
b. Within the input tags, add the required variable tags.
c. Within the free form tags, paste the required ACE CLI commands that you copy from the show
running config command output.
In the following example, the modified code is shown in bold text:
banner motd #{$motd}#
logging host {$syslog}
logging enable
snmp-server host {$traphost} traps {$community}
snmp-server enable traps
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d. (Optional) Tag specific variable fields or variable arrays with the advanced attribute, which enables
the Basic/Advanced display feature when creating a template instance that uses this application
template definition.
When creating an application template instance, the Basic/Advanced display feature allows the user
to set the view to Basic, which displays only the variable fields that require their input. For more
information about configuring this feature, see the “Guidelines and Restrictions” section on
page 4-21.
e. To configure a template not to display in Application Setup, change the following code in the
template root element from true to false:
showsInGuidedSetup=”false”
By default, templates that you create using the base code in Step 3 display as options when using
Application Setup in Guided Setup (see the “Using Application Setup” section on page 3-14).
Step 5 Save the template file as an .xml file.
Step 6 (Optional) Do the following:
a. Import the template into ANM (see the “Importing an Application Template Definition” section on
page 4-26).
b. From ANM, test the template (see the “Testing an Application Template Definition” section on
page 4-28).
c. From ANM, create an application template instance using the new template and deploy it (see the
“Creating an Application Template Instance” section on page 4-4).
Related Topics
• Managing Application Template Definitions, page 4-15
• Editing an Application Template Definition, page 4-15
• Creating an Application Template Definition, page 4-20
• Exporting an Application Template Definition, page 4-26
• Importing an Application Template Definition, page 4-26
• Testing an Application Template Definition, page 4-28
• Deleting an Application Template Definition, page 4-29
• Creating an Application Template Instance, page 4-4
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Exporting an Application Template Definition
You can export an application template definition for editing or to create a backup that you can import
into another ANM server.
Procedure
Step 1 Choose Config > Global > Application Template Definitions.
The Application Template Definitions window appears, displaying the information described in
Table 4-3.
Step 2 From the Application Template Definitions window, choose the template to export and click Export.
The File Download dialog box opens.
Step 3 From the File Download dialog box, click Save.
The Save As dialog box window appears.
Step 4 From the Save As dialog box, navigate to where you want to save the template definitions file.
Rename the file if you want.
Step 5 Click Save.
The template definitions file is saved to the specified location.
Related Topics
• Information About Application Template Definitions and Instances, page 4-1
• Managing Application Template Definitions, page 4-15
• Editing an Application Template Definition, page 4-15
• Creating an Application Template Definition, page 4-20
• Importing an Application Template Definition, page 4-26
• Testing an Application Template Definition, page 4-28
• Deleting an Application Template Definition, page 4-29
Importing an Application Template Definition
You can import an application template definition. The import process checks the file to ensure that the
XML conforms to the application template schema, using valid tags and attributes.
Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
• ANM allows you to import files that do not conform to the XML schema and does the following:
– Issues an error message when importing the file that indicates the detected issues.
– Places an error icon in the Validity column of the template listing in the Application Template
Definitions window (Config > Global > Application Template Definitions).
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This feature allows you import a template file that is not complete and that you may want to edit
further using the ANM template editor (see the “Editing an Application Template Definition Using
the ANM Template Editor” section on page 4-18).
• The import process does not check the file to ensure that the ACE configuration attributes are
structured correctly. To test the ACE configuration attributes, use the template test feature (see the
“Testing an Application Template Definition” section on page 4-28).
• You can import application template definitions that you created for use with ANM 5.1, which used
an earlier version of the XML schema. When you import the template, ANM modifies the template
root element as required by the current version of the XML schema. This modification does not
affect the ACE configuration.
Procedure
Step 1 Choose Config > Global > Application Template Definitions.
The Application Template Definitions window appears, displaying the information described in
Table 4-3.
Step 2 From the Application Template Definitions window, click Import.
The Select a Template Definition File to Upload dialog box appears.
Step 3 In the dialog box, click Browse to navigate to and choose the template file to upload.
Step 4 Click Upload.
The upload status box appears and displays one of the following messages:
• “Template is imported”—The template definition conforms to the XML schema. Click OK to close
the popup window and complete the upload process.
• “Template is not imported because its XML structure is not valid”—ANM detected that the file does
not contain properly structured XML code and cannot import the file.
• “Template is not imported because upload error was found”—A system or network error has
occurred that prevented the upload. This message is not an indication that a problem exists with the
template.
• “Template is imported, but the following errors were found”—The template contains properly
structure XML code; however, the code does not conform to the XML schema. The message
includes the errors found in the code.
ANM displays the template in the Application Template Definitions window.
Related Topics
• Information About Application Template Definitions and Instances, page 4-1
• Managing Application Template Definitions, page 4-15
• Editing an Application Template Definition, page 4-15
• Creating an Application Template Definition, page 4-20
• Exporting an Application Template Definition, page 4-26
• Testing an Application Template Definition, page 4-28
• Deleting an Application Template Definition, page 4-29
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Testing an Application Template Definition
You can test an application template definition. The test performs the following tasks:
• Displays the application configuration window to verify that the variable information the user is
expected to fill in displays correctly.
• Performs a test deployment and displays the configuration attributes that will be deployed for a live
application configuration deployment. If there is a problem with the template definition, an error
message displays that indicates what the problem is with the source code.
Note The test deployment is done locally on ANM only. No commands are sent to an ACE.
Procedure
Step 1 Choose Config > Global > Application Template Definitions.
The Application Template Definitions window appears, displaying the information described in
Table 4-3.
Step 2 From the Application Template Definitions window, choose a template to test and click Test.
The Application Configuration window appears.
Step 3 From the Application Configuration window, enter the required variable information and click Test
Deploy.
The Test popup window appears displaying the application configuration attributes that the template
generates.
Note If the template contains a boolean statement that allows you to choose one of two values, be sure
to test both values. For example, if the template includes the Secure Backend Servers checkbox
option, test the template with the check box checked (enabled) and unchecked (disabled).
Step 4 Click Cancel to close the Test popup window and return to the Application Template Definitions
window.
Related Topics
• Information About Application Template Definitions and Instances, page 4-1
• Managing Application Template Definitions, page 4-15
• Editing an Application Template Definition, page 4-15
• Creating an Application Template Definition, page 4-20
• Exporting an Application Template Definition, page 4-26
• Importing an Application Template Definition, page 4-26
• Deleting an Application Template Definition, page 4-29
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Deleting an Application Template Definition
You can delete a user-defined application template definition.
Guidelines and Restrictions
You cannot delete a system template.
Caution When you delete an application template definition and you have staged application template instances
that were created using the template, you cannot edit or deploy the template instances.
Procedure
Step 1 Choose Config > Global > Application Template Definitions.
The Application Template Definitions window appears, displaying the information described in
Table 4-3.
Step 2 From the Application Template Definitions window, choose a user-defined template to delete and click
the Delete icon ( ).
The Delete Verification popup window appears.
Step 3 From the popup window, do one of the following:
• Click OK to delete the template.
• Click Cancel to ignore the template delete request.
Related Topics
• Information About Application Template Definitions and Instances, page 4-1
• Managing Application Template Definitions, page 4-15
• Editing an Application Template Definition, page 4-15
• Creating an Application Template Definition, page 4-20
• Importing an Application Template Definition, page 4-26
• Exporting an Application Template Definition, page 4-26
• Testing an Application Template Definition, page 4-28
Using the ANM Template Editor
ANM includes a template editor that you can use to create or edit application template definitions from
within the ANM GUI. This section describes the editor components and how to use them.
You access the ANM template editor by doing one of the following:
• Create a new template (see the “Creating an Application Template Definition Using the ANM
Template Editor” section on page 4-21).
• Edit an existing template (see the “Editing an Application Template Definition Using the ANM
Template Editor” section on page 4-18).
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Figure 4-3 shows a sample view of the ANM template editor. The sample code includes invalid code in
line 6 to show how the editor highlights problem code.
Figure 4-3 ANM Template Editor Components
Table 4-5 describes the editor GUI components called out in Figure 4-3.
Table 4-5 ANM Template Editor Component Descriptions
Item Description
1 Template Identifier
Template type and version number. ANM displays an asterisk (*) next to the template type to indicate that a change
to the template has been made but not saved.
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2 Tool Bar
Editing tools that work as follows:
• Undo button—With each click, undoes the changes that you made but did not save, beginning with the most recent
change made.
• Redo button—With each click, redoes the changes reversed by the Undo button, beginning with the most recent
undo operation.
• Fix Indentation button—Corrects any indentation errors in the code.
• Wrap with:
– If button—Wraps the code that you highlight with the “if” opening and closing tags to create an if block.
– For button—Wraps the code that you highlight with the “foreach” opening and closing tags to create a foreach
block.
If you do not highlight the code to wrap, ANM places the If or For block at the location of the cursor.
• Toggle Comments button—Makes the code that you highlighted a comment. You can use this feature to add
description comments to sections of the code. You can also tag incomplete code as a comment until you are ready
to complete it. At that time, you would highlight the commented code and click Toggle Comments again.
• Search text box—String to locate in the code. The template editor highlights all instances of the string. Use the
following associated tools:
– Up button—Moves to the next instance of the search string above the currently highlighted instance.
– Down button—Moves to the next instance of the search string below the currently highlighted instance.
• Replace text box—String that is to replace the search string as follows:
– Replace button—Replaces only the currently highlighted occurrence of the search string.
– Replace All button—Replaces all occurrences of the search string.
3 Work Area
Area where the code is displayed and modified. The work area includes the following editing tools:
• Code folding—Allows you to expand or collapse sections of code as follows:
– —Collapses code group.
– —Expands code group.
ANM hides these icons and expands the code when an error exists.
• Code auto complete—ANM completes the code tag being entered or displays a list of possible options that match
what has been entered so far. This feature works for a predefined set of elements only and is not available with
every element type.
To use this feature, begin entering the start-tag and then press Ctrl + Space. Enter at least one character after the
open character (<) before pressing Ctrl + Space. For example:
Press Ctrl + Space
Table 4-5 ANM Template Editor Component Descriptions (continued)
Item Description
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Managing Application Template Definitions
4 Error and Warning Indicators
Icons that appear when the code that does not conform to the XML schema as follows:
• —Warning indicator: Error exists; however, the error will not prevent deployment of the template.
• —Error indicator: Error exists that will prevent deployment of the template.
For details about the indicated error, see the Error Description Pane located at the bottom of the window or hover over
the icon to open the popup error message display.
5 Error Description Pane
Descriptions of the detected errors in the code, which are also highlighted with Error and Warning Indicators. Because
the error description text does not wrap, it can extend beyond the display. To view the entire description, hover over
the message to open the popup error message display.
Displayed errors remain in this pane until you fix the issue and validate the fix by clicking Validate.
6 Function Buttons
Buttons that work as follows:
• Validate—ANM validates the application template definition file, which means that ANM checks to see that it is
a well-formed XML document that follows the rules defined by the ANM Template XML schema. When ANM
detects errors in the code, it highlights the errors with Error and Warning Indicators and displays the Error
Description Pane. If you correct the code and click Validate again, ANM removes the error indicators and closes
the error description pane if no other errors exist.
• Save—Saves your changes using the same filename.
Note the following when using this button:
– If any errors exist in the code, ANM displays a verification popup window, asking you to verify that you want
to save the information regardless of the detected errors.
– If the code is not properly structured, ANM displays an error message stating that the template cannot be
saved because the XML structure is not valid. For example, if you enter a tag and do not close it, this error
occurs. You must correct the code error before ANM allows you to save the template.
– The Save button is not available when editing a system template, which requires that you use the Save As
button.
• Save As—Saves the file to a different filename. This option opens the Save As New Template Definition popup
window to save your changes under a new application type name or version. From the popup window, modify the
file attributes if needed and click Save.
Note the following when using this button:
– ANM populates the popup window text fields with the attributes of the original file opened with the exception
of the Version field, which ANM increments by one. If the version is not a number, ANM adds the “-next”
suffix to the version.
– ANM does not allow you to save a template using the same application type and version number as the
original template file. You must change either the application type or version number (or both).
• Exit—Exits the editor without saving your changes.
Table 4-5 ANM Template Editor Component Descriptions (continued)
Item Description
CHAPTER
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5
Importing and Managing Devices
Date: 3/28/12
This chapter describes how to import and manage Cisco Application Networking Manager (ANM)
devices. You can import the following Cisco devices to ANM:
• Application Control Engine (ACE) module or appliance
• Global Site Selector (GSS)
• Content Services Switch (CSS)
• Catalyst 6500 Virtual Switching System (VSS) 1440
• Catalyst 6500 series switch
• Cisco 7600 series router
• Cisco Content Switching Module (CSM)
• Cisco Content Switching Module with SSL (CSM-S)
• VMware vCenter Server
Note The terms add and import are interchangeable in this document.
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Information About Device Management, page 5-2
• Information About Importing Devices, page 5-4
• Preparing Devices for Import, page 5-4
• Modifying the ANM Timeout Setting to Compensate for Network Latency, page 5-9
• Importing Network Devices into ANM, page 5-10
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Information About Device Management
• Discovering Large Numbers of Devices Using IP Discovery, page 5-27
• Configuring Devices, page 5-34
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
• Managing Devices, page 5-66
• Replacing an ACE Module Managed by ANM, page 5-82
Information About Device Management
ANM includes many device management features. You can import devices and then configure them for
use in your network. In addition to configuring ports, VLANs, and routes, you can modify device
configurations, and manage them.
Table 5-1 identifies common management categories and related topics.
Table 5-1 Device Management Options
Device Management Activities Related Topics
Importing devices • Information About Importing Devices, page 5-4
• Preparing Devices for Import, page 5-4
• Enabling SSH or Telnet Access on Catalyst 6500 Series Switches and
Cisco 7600 Series Routers, page 5-5
• Modifying the ANM Timeout Setting to Compensate for Network Latency,
page 5-9
• Importing Network Devices into ANM, page 5-10
• Importing Cisco IOS Host Chassis and Chassis Modules, page 5-11
• Importing ACE Appliances, page 5-21
• Importing CSS Devices, page 5-22
• Importing GSS Devices, page 5-23
• Importing VMware vCenter Servers, page 5-24
• Discovering Large Numbers of Devices Using IP Discovery, page 5-27
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Information About Device Management
Configuring device attributes • Configuring Devices, page 5-34
• Configuring CSM Primary Attributes, page 5-34
• Configuring CSS Primary Attributes, page 5-35
• Configuring GSS Primary Attributes, page 5-36
• Configuring Catalyst 6500 Series Chassis and Cisco 7600 Series Router
Primary Attributes, page 5-38
• Configuring Catalyst 6500 Series Chassis, Catalyst 6500 Virtual Switching
System 1440 Devices, and Cisco 7600 Series Routers Static Routes,
page 5-39
• Configuring VMware vCenter Server Primary Attributes, page 5-41
• Displaying Chassis Interfaces and Configuring High-Level Interface
Attributes, page 5-42
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs,
page 5-48
• Creating VLAN Groups, page 5-52
Configuring device role-based access
control (RBAC)
• Configuring Device RBAC Users, page 5-53
• Configuring Device RBAC Roles, page 5-56
• Configuring Device RBAC Domains, page 5-61
Managing devices • Synchronizing Device Configurations, page 5-66
• Mapping Real Servers to VMware Virtual Machines, page 5-68
• Instructing ANM to Recognize an ACE Module Software Upgrade, page 5-71
• Configuring User-Defined Groups, page 5-72
• Changing Device Credentials, page 5-75
• Changing ACE Module Passwords, page 5-77
• Restarting Device Polling, page 5-78
• Displaying All Devices, page 5-78
• Displaying Modules by Chassis, page 5-79
• Removing Modules from the ANM Database, page 5-80
Table 5-1 Device Management Options (continued)
Device Management Activities Related Topics
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Information About Importing Devices
Information About Importing Devices
The quickest and easiest way to add devices to ANM is to import them individually using the Add
function available at Config > Devices. If you already know the device IP address, you can use this
procedure to add your devices to ANM.
Before you begin importing, you need to set up your network devices so that ANM can communicate
and monitor them.
In the sections that follow, you will perform the following steps to prepare and import devices:
1. Enable SSH access (see the “Preparing Devices for Import” section on page 5-4).
2. Modifying the ANM timeout setting (see the “Modifying the ANM Timeout Setting to Compensate
for Network Latency” section on page 5-9).
Note This step is required only when network latency is causing a timeout issue that prevents
ANM from establishing a communication link with the device to be imported.
3. Import devices (see the “Importing Network Devices into ANM” section on page 5-10).
To add large numbers of devices, you can use IP Discovery before you import your devices. This process
is not as efficient as using the Add function. IP Discovery shows where devices are but does not add the
devices to ANM. We recommend that you use the Config > Devices > Device Management > Add
function. For details on IP Discovery, see the “Discovering Large Numbers of Devices Using IP
Discovery” section on page 5-27.
Note Before importing a device, the ANM server pings the IP address of the device. If you have a firewall
between the ANM server and the device that you want to import, your network administrator needs to
modify the firewall to allow the ping traffic to reach the device or ACE.
Preparing Devices for Import
This section describes how to set up your devices to allow ANM to communicate with them and also
describes the requirements for adding ACE devices that are high availability peers.
ANM uses the following protocols for communication:
• For communication to an ACE module or appliance:
– XML over HTTPS
– SSHv2 (read and write)
– SNMP V2C (read-only)
– Syslog over User Datagram Protocol (UDP) (inbound notifications only)
• For communication to the Catalyst 6500 Virtual Switching System (VSS) 1440:
– SSHv2 and Telnet (read and write)
– SNMP V2C (read-only)
– Syslog over UDP (inbound notifications only)
• For communication to a Catalyst 6500 series switch, Cisco 7600 series router, CSM, or CSM-S:
– SSHv2 and Telnet (read and write)
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– SNMP V2C (read-only)
– Syslog over UDP (inbound notifications only)
• For communication to the CSS:
– Telnet (read and write)
– SNMP V2C (read-only)
– Syslog over UDP (inbound notifications only)
• For communication to the GSS:
– SSHv2
– Remote Method Invocation (RMI) over SSL
Note Before you import a GSS device into ANM, you need to set the GSS communication on the
GSS Ethernet interface that will be used to import the GSS into ANM. See the Cisco Global
Site Selector Command Reference on Cisco.com for instructions on using the
gss-communications command.
• For communication to a VMware vCenter Server, HTTPS is used.
Note For more information about communication between ANM and a VMware vCenter Server,
see the “Prerequisites for Using ANM With VMware vSphere Client” section on page B-4
and “Guidelines and Restrictions” section on page B-5.
This section includes the following topics:
• Enabling SSH or Telnet Access on Catalyst 6500 Series Switches and Cisco 7600 Series Routers,
page 5-5
• Enabling SSH Access and the HTTPS Interface on the ACE Module and Appliance, page 5-6
• Enabling SNMP Polling from ANM, page 5-7
• ANM Requirements for ACE High Availability, page 5-8
Enabling SSH or Telnet Access on Catalyst 6500 Series Switches and
Cisco 7600 Series Routers
You can choose to use Telnet or SSH to import a Catalyst 6500 series switch or Cisco 7600 series router
in ANM. Telnet is enabled by default on the Catalyst 6500 series chassis. If you have disabled Telnet on
the device, you need to enable it to perform the initial setup and import of an ACE module. If you plan
to directly import an ACE module into ANM, Telnet is not mandatory on a Catalyst 6500 series switch.
Note If you choose Telnet, the Use Telnet checkbox will be checked in the Primary Attributes window (see
the “Configuring Catalyst 6500 Series Chassis and Cisco 7600 Series Router Primary Attributes” section
on page 5-38).
If you use SSH to communicate with the device, you must do the following:
• SSHv2 must be enabled on the chassis, as well as the ACE, in order for ANM to add device
information about the chassis.
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Preparing Devices for Import
• Ensure that the chassis has a K9 (Triple Data Encryption Standard [3DES]) software image in order
to enable the SSH server. The ANM requires SSHv2 to be enabled on the chassis.
To enable SSH or Telnet access on Catalyst 6500 series switches or Cisco 7600 series routers, use the
following commands:
Enabling SSH Access and the HTTPS Interface on the ACE Module and
Appliance
You can enable SSH access and the HTTPS interface on the ACE modules and appliances. ANM uses
SSH and XML over HTTPS to communicate with the ACE devices. You need to enable both SSH access
and HTTPS as explained in this section. These settings can be enabled during device import as described
in the “Importing Network Devices into ANM” section on page 5-10 or in the CLI.
Note If the ACE module or appliance is new and still has its factory settings, you do not need to perform the
procedure in this section because SSH is enabled by default.
Note Ensure that the management policy applied on the management interface permits SSH.
To enable SSH access and the HTTPS interface on an ACE module or appliance, enter the following
commands in config mode in the Admin context:
Command Purpose
Step 1 ip ssh version 2 Enables SSHv2.
Step 2 ip domain-name abc.com
Step 3 crypto key generate rsa general-keys modulus 1024 Generates the key.
Step 4 username username password password Enters the username and password.
Step 5 line vty 0 4
Step 6 session-timeout 60
Step 7 login local This is an example only. This commands works for
Cisco IOS 12.2.18SXF(10), but not for
12.2.18SXF(8).
Step 8 transport input telnet ssh Allows SSH and Telnet to the chassis.
Step 9 transport output telnet ssh Allows SSH and Telnet from the chassis to the ACE
module.
Command Purpose
Step 1 ssh key rsa 1024 force Configures SSH access on the ACE.
Step 2 access-list acl line 10 extended permit ip any any
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Preparing Devices for Import
For more information about configuring SSH access on the ACE, see either the Cisco Application
Control Engine Module Administration Guide or the Cisco 4700 Series Appliance Administration Guide
on Cisco.com.
Enabling SNMP Polling from ANM
You can enable SNMP polling from ANM, which uses SNMPv2 for polling ACE, CSS, CSM, or CSM-S
devices. To receive traps from these devices, ANM supports use of SNMPv2 traps.
Note To send SNMP traps to ANM, configure the SNMP trap host to the ANM server so that it can receive
traps from ANM.
For alarm condition notifications, ANM uses SNMPv1 EPM-Notificaton-MIB based SNMP traps.
For the ACE, in order for ANM to successfully perform SNMP polling, you must configure the ACE
Admin context with a management IP with a suitable management policy that permits SNMP traffic. All
other contexts can be polled using this Admin context management IP.
For each device type (ACE, CSS, CSM, or CSM-S), see the corresponding configuration guide to
configure the device to permit SNMP traffic.
Step 3 class-map type management match-any ANM_management
2 match protocol ssh any
3 match protocol telnet any
4 match protocol https any
5 match protocol snmp any
6 match protocol icmp any
7 match protocol xml-https
Configures discovery for ANM.
The following comments apply to the line number
specified before the command text in the left column:
• Line 2 classifies the SSH traffic.
• Line 4 is needed by ANM for making configuration
changes on the ACE.
• Line 5 is needed by ANM for periodic statistics.
• Line 6 is not mandatory but useful for network and
route validation.
• Line 7 is needed only for ACE 4710 devices.
Step 4 policy-map type management first-match
ANM_management
class ANM_management
permit
Allows protocols matched in the management class
map.
Step 5 interface vlan 30
ip address 192.168.65.131 255.255.255.0
access-group input acl
service-policy input ANM_management
no shutdown
Configures a management interface with the ACL and
specifies the management service policy. This
configuration is not recommended for a client or server
interface.
Step 6 username admin password 5
$1$faXJEFBj$TJR1Nx7sLPTi5BZ97v08c/ role Admin
domain default-domain
Defined by the administrator.
Step 7 ip route 0.0.0.0 0.0.0.0 192.168.0.1 Specifies the default route (or appropriate route) for
traffic to reach ANM using the management interface if
ANM is not on the same subnet.
Command Purpose
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ANM Requirements for ACE High Availability
ANM automatically identifies ACE high availability (HA) peers if both peers are imported into ANM.
For ANM to identify two ACE devices (ACE modules or ACE appliances) as high availability peers,
ANM looks for two ACE devices with the same fault-tolerant (FT) interface VLAN configuration and
whose peer IP addresses are reversed.
For example, ANM would consider Peer 1 with the following configuration:
ft interface vlan 4000
ip address 10.10.10.1 255.255.255.0
peer ip address 10.10.10.4 255.255.255.0
and Peer 2 with the following configuration:
ft interface vlan 4000
ip address 10.10.10.4 255.255.255.0
peer ip address 10.10.10.1 255.255.255.0
as HA peers because they both use FT interface VLAN 4000 and their IP and peer IP addresses are
reversed.
However, it is possible that multiple ACE devices imported into ANM have the same FT interface VLAN
and IP address/peer IP address combinations. In this case, ANM is not able to identify the ACE HA pair
correctly. To resolve this issue, ANM uses the following logic to determine that two ACE devices are an
HA pair:
1. Two ACE devices could be identified as a HA pair if their FT interface VLAN IDs match and their
FT interface IP and peer IP addresses are reversed.
2. If the Admin context management interface peer IP address is already defined, ANM will
conclusively identify its HA peer if the other Admin context management interface reversely
matches the management IP and peer IP addresses.
3. If both ACE Admin context management interface peer IP addresses are not defined, and their FT
interface configuration combination is unique across all ACE devices, ANM will then identify them
as an HA pair.
4. An ACE HA peer is identified as Inconclusive if there is a non unique FT interface configuration
combination across all ACE devices and its Admin context management interface peer IP is not
defined.
When importing an ACE HA pair into ANM, you should follow one of the following configuration
requirements so that ANM can uniquely identify the ACE HA pair:
• Use a unique combination of FT interface VLAN and FT IP address/peer IP address for every ACE
HA pair imported into ANM. For HA, it is critical that the combination of FT interface VLAN and
IP address/peer IP address is always unique across every pair of ACE peer devices.
• Define a peer IP address in the management interface using the management IP address of the peer
ACE (module or appliance). The management IP address and management peer IP address used for
this definition should be the management IP address used to import both ACE devices into ANM.
An example is as follows:
• ACE1 is imported into ANM with management IP 10.10.10.10.
• ACE2 is imported into ANM with management IP 10.10.10.12.
In this case, you would perform the following actions for both ACE1 and ACE2:
• Update the management interface on ACE1 with IP address 10.10.10.10. to have 10.10.10.12 as the
peer IP address.
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Modifying the ANM Timeout Setting to Compensate for Network Latency
• Update the management interface on ACE2 with IP address 10.10.10.12 to have 10.10.10.10 as the
peer IP address.
An ACE module or appliance may have many other management interfaces defined, but ANM is
particularly interested only in the management interface whose IP address is used for importing into
ANM.
When ANM is unable to determine a unique ACE HA peer pair, it displays an Inconclusive state in the
ACE HA State column of the All Virtual Contexts table (Config > Devices > Virtual Context
Management) or the Virtual Contexts listing page. The Inconclusive state indicates that ANM was able
to determine that the given ACE was configured in HA; however, ANM was able to find more than one
ACE module or ACE appliance that appeared to be a peer. In this case, ANM was unable to conclusively
find a unique HA peer for the given ACE module or ACE appliance. You must then perform the actions
outlined in this section to fix the ACE that is in this state.
More information will appear in the tooltip for the Inconclusive state to specify whether this state was
reached because the FT interface VLAN and the IP address/peer IP address was not unique, or because
the peer IP address on the management interface was not unique.
Based on the information provided to you in the tooltip for the Inconclusive state, you must update the
ACE configuration as described in the configuration requirements outlined above. After you make these
configuration changes, resynchronize the affected ACE devices in ANM to update the configuration and
HA mapping. For more information about synchronizing virtual contexts, see the “Creating Virtual
Contexts” procedure on page 6-2.
Modifying the ANM Timeout Setting to Compensate for Network
Latency
You can adjust the amount of time that ANM waits for a response from a device that you want ANM to
import. You may need to adjust the timeout value when network latency prevents ANM from establishing
a communication link with the device to be imported.
To establish communications between ANM and the device during the device import process, the device
sends requests to ANM for the required device username and password information. After ANM
provides the device username, it waits two seconds for the device to make the next request for the
password. If network latency prevents the password request from arriving within two seconds of
providing the username, the connection times out, preventing ANM from importing the device.
This type of issue can occur when importing devices that are Telnet-managed or require remote user
authentication. To compensate for the resulting network latency, you can modify the default two-second
timeout value by editing the ANM cs-config.properties file.
Procedure
Step 1 Modify the timeout value to 20000 milliseconds (20 seconds) as follows:
• ANM Server—Open the /opt/CSCOanm/etc/cs-config.properties file in a text editor and add the
following line to the end of the file:
telnet.transport.login.timeout=20000
• ANM Virtual Appliance—Enter the following command:
anm-property set telnet.transport.login.timeout 20000
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Importing Network Devices into ANM
Step 2 Restart ANM as follows:
• ANM Server—Enter the following command:
/opt/CSCOanm/bin/anm-tool restart
• ANM Virtual Appliance—Enter the following command:
anm-tool restart
Step 3 Import the device.
See one of the following sections:
• Importing Network Devices into ANM, page 5-10
• Discovering Large Numbers of Devices Using IP Discovery, page 5-27
Step 4 (Optional) If the timeout issue persists, slowly increase the timeout value by repeating this procedure.
Do not increase the timeout value beyond 60000 milliseconds.
Related Topics
• Importing Network Devices into ANM, page 5-10
• Discovering Large Numbers of Devices Using IP Discovery, page 5-27
Importing Network Devices into ANM
ANM allows you to add the following devices individually to its database:
• ACE appliances
• ACE modules
• Catalyst 6500 series chassis
• Catalyst 6500 Virtual Switching System (VSS) 1440
• Cisco 7600 series routers
• Cisco Content Services Switch (CSS) devices
• Cisco Content Switching Module (CSM) devices
• Cisco Global Site Selector (GSS) devices
• VMware vCenter Servers
We recommend that you use the procedures in this section to add your devices to ANM because they are
faster and more efficient than running IP Discovery (see the “Discovering Large Numbers of Devices
Using IP Discovery” section on page 5-27).
Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
• When adding a module device, such as an ACE module or a CSM, you must first import the host
chassis device, such as a Cisco Catalyst 6500 series switch chassis, and then you add the installed
modules. The chassis device is referred to as a Cisco IOS device during the device import process.
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• The time required to import devices depends on the number of appliances, chassis, modules, and
contexts that you are importing. For example, an ACE appliance with 20 virtual contexts takes
longer than an ACE appliance with 5 contexts. While ANM imports devices, you cannot perform
other activities in the same session. You can, however, establish a new session with the ANM server
and perform activities on other appliances, chassis, modules, or virtual contexts.
• Network latency can prevent ANM from establishing a communication link with a device that you
want to import. When ANM is providing the device with the device credentials (username and
password), by default it waits two seconds after providing the device username for the password
prompt to appear. The link times out when it takes longer than two seconds for the next prompt to
appear. For information about possible causes of network latency that can create this issue and how
to adjust the ANM timeout value, see the “Modifying the ANM Timeout Setting to Compensate for
Network Latency” section on page 5-9.
Prerequisites
This topic includes the following prerequisites:
• Before adding a device or ACE module, the ANM server pings the IP address of the device or ACE
module. If you have a firewall between the ANM server and the device you want to import, your
network administrator needs to modify the firewall to allow the ping traffic to reach the device or
ACE module.
• To import your devices successfully, ensure the following:
– The ACE module or CSM has booted successfully and is in the OK/Pass state (enter the show
module supervisor Cisco IOS CLI command to verify this action).
– The ACE appliance or the CSS state is up and running. There is no command to validate whether
these devices are up and running.
This section includes the following topics:
• Importing Cisco IOS Host Chassis and Chassis Modules, page 5-11
• Importing ACE Appliances, page 5-21
• Importing CSS Devices, page 5-22
• Importing GSS Devices, page 5-23
• Importing VMware vCenter Servers, page 5-24
Importing Cisco IOS Host Chassis and Chassis Modules
This section shows how to import a Cisco IOS host chassis into ANM, such as the Catalyst 6500 series
chassis or the Cisco 7600 series router. After you define the Cisco IOS device during the import process,
you import the ACE or CSM modules that currently reside in the chassis and are detected by ANM.
When you add additional modules to the Cisco IOS device, you import the new modules into ANM
without having to redefine the host chassis.
This section includes the following topics:
• Importing Cisco IOS Devices with Installed Modules, page 5-12
• Importing ACE Modules after the Host Chassis has been Imported, page 5-16
• Importing CSM Devices after the Host Chassis has been Imported, page 5-19
• Importing VSS 1440 Devices after the Host Chassis has been Imported, page 5-20‘
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Importing Network Devices into ANM
Importing Cisco IOS Devices with Installed Modules
This section shows how to import the following Cisco IOS chassis devices into ANM along with any
installed ACE modules or CSMs that ANM detects in the chassis:
• Catalyst 6500 series chassis
• Catalyst 6500 Virtual Switching System (VSS) 1440
• Cisco 7600 series routers
Procedure
Step 1 Choose Config > Devices > All Devices.
The Device Management window appears.
Step 2 In the device tree or in the All Devices table, click Add.
The New Device window appears.
Step 3 Enter the information for the device using the information in Table 5-2.
Table 5-2 New Device Attributes
Field Description
Name Unique name for the device. Valid entries are unquoted text strings with no spaces and a maximum of
26 alphanumeric characters.
Model Type of device to import. From the Model drop-down list, choose Cisco IOS Device.
Primary IP IP address for the device in dotted-decimal format.
Access Protocol Protocol to use for communication with the device. Choose Secure/SSH2 (default setting) or Telnet as
the protocol that ANM uses to access the Cisco IOS devices.
User Name Account name for device access.
Note If you did not configure an account on the chassis before starting this procedure, you can enter
an alphanumeric string with no spaces to complete this procedure. However, we recommend
that you configure an account on the device to prevent unauthorized access.
Password Password for the account.
Enable Password Provides an extra level of security.
SNMP v2c Enabled Check the SNMP v2c Enabled checkbox to configure SNMP access.
Description Field that appears if you check the SNMP v2c Enabled checkbox.
Enter the community string for the device.
Note If you are adding a Catalyst 6500 series chassis, in the Community field, enter the SNMP
community string already configured on the Catalyst 6500 series chassis. ANM uses this string
to query device status information such as VLAN and interface status. This SNMP community
string is also used for any CSM devices contained in the specified Catalyst 6500 series chassis.
For Catalyst 6500 series chassis, CSS, and CSM devices, the SNMP community string already
configured on the device is used by ANM for polling. For ACE modules and ACE appliances, the
SNMP community string entered into ANM is configured on the ACE module/appliance and is used
for polling the devices.
Custom Prompt Settings
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Step 4 Do one of the following:
• Click Next to save your entries and import device information. A progress bar displays while ANM
establishes a session with the chassis and collects information about the installed modules. When
the information has been collected, ANM displays one of the following windows:
– If no CSM devices or ACE or modules are associated with the chassis device, the All Devices
table refreshes with the chassis information.
– If CSM devices or ACE modules are associated with the chassis device, the Modules
configuration window appears and displays information about the first detected module. To
view the detected modules, continue to Step 5.
• Click Cancel to exit the procedure without saving your entries and to return to the All Devices table.
Clicking Cancel prevents device information from being imported and prevents ACE module
discovery.
Step 5 In the Modules window, verify the information of the first detected chassis module as described in
Table 5-3 and use the Next and Previous buttons to navigate through the list of detected chassis modules.
Custom Username
Prompt
Optional field for use with the Cisco Catalyst 6500 series switch and Cisco 7600 series router only.
With either device, if you have it configured to use a TACACS+ server for remote authentication, you
can also configure it to display a custom username prompt during the login process rather than the
default username prompt. If you have the device configured to use a custom username prompt, enter
the custom prompt in this field.
Custom Password
Prompt
Optional field for use with the Cisco Catalyst 6500 series switch and Cisco 7600 series router only.
With either device, if you have it configured to use a TACACS+ server for remote authentication, you
can also configure it to display a custom password prompt during the login process rather than the
default password prompt. If you have the device configured to use a custom password prompt, enter
the custom prompt in this field.
Table 5-2 New Device Attributes (continued)
Field Description
Table 5-3 Detected Modules in Imported Chassis Device
Item Description
Card Slot Chassis IP address, detected module type, and chassis slot number. For example,
10.10.10.1:ACE:2.
Card Type Version information about the detected module. For example, ACE v2.3. This field displays major
release information only. For example, 8.2x might be supported by a module, but only 8.2 displays.
Module Has Been
Imported Into ANM
Read only information to indicate that the module has already been imported (checked) or that it
has not been imported (unchecked).
Operation To Perform Drop down list to specify the action to take as follows:
• Do Not Import (default setting)
• Import
• Perform Initial Setup and Import
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Step 6 To import a displayed module, in the Operation to Perform field, choose one of the following:
• Import—ANM is to import the CSM device or ACE module. For the ACE module, ANM displays
additional configuration fields when the Import option is selected. For both modules types, skip to
Step 7 after selecting Import.
• Perform Initial Setup And Import—(ACE module only) Allows you to perform initial setup
manually required for ANM to communicate with the ACE module and imports ACE module
configuration. Skip to Step 8.
Note We recommend that you choose this option for ACE modules that are configured only with
factory defaults.
Step 7 If you chose Import for a CSM device or ACE module, do one of the following:
• To import a CSM device, no further device information is required. Click Next or Previous to
navigate to the next module to specify to import or click Finish to import the specified modules.
• To import an ACE module, perform the following steps:
a. In the Admin Context IP field, enter the module IP address.
b. In the User Name field, enter the username for accessing this module. Valid entries are unquoted
text strings with a maximum of 24 characters. The default admin credentials are admin/admin.
Note For security reasons, we recommend that you change the username and password on your
ACE device (and modules) after you import them. The security on your ACE module can be
compromised because the administrative username and password are configured to be the
same for every ACE module shipped from Cisco. See the “Changing ACE Module
Passwords” procedure on page 5-77.
c. In the Password field, enter the password for accessing this module. Reenter the password in the
Confirm field. Valid entries are unquoted text strings with a maximum of 64 characters. The
default admin credentials are admin/admin.
d. Click Next or Previous to navigate to the next module to specify to import or click Finish to
import the specified modules.
Skip to Step 10.
Step 8 If you chose Perform Initial Setup And Import for an ACE module, perform the following steps:
a. In the Host Name field, enter a unique name for this ACE module. Valid entries are alphanumeric
strings with no spaces and a maximum of 32 characters.
b. In the Admin Context IP field, enter the IP address for this ACE module.
c. In the Netmask field, from the drop-down list, choose the subnet mask to apply to this IP address.
d. In the Gateway field, enter the IP address of the gateway router to use.
e. In the VLAN field, choose the VLAN to which this module belongs.
f. Check the Blade Is Configured With Factory Default Admin Credentials check box if the ACE
module is currently configured with the default admin credentials (admin/admin).
g. In the User Name field, enter the username for accessing this module. Valid entries are unquoted
text strings with a maximum of 24 characters. The default admin credentials are admin/admin.
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Note For security reasons, we recommend that you change the username and password on your ACE
after you import it. The security on your ACE module can be compromised because the
administrative username and password are configured to be the same for every ACE shipped
from Cisco. See the “Changing ACE Module Passwords” procedure on page 5-77.
h. In the Password field, enter the password for accessing this module. Reenter the password in the
Confirm field. Valid entries are unquoted text strings with a maximum of 64 characters. The default
admin credentials are admin/admin.
Step 9 Do one of the following:
• Click OK to save your entries and to continue with the device configuration. A progress bar reports
status and the Device configuration window appears.
• Click Cancel to exit the procedure without importing ACE modules and to return to the All Devices
table.
Note Clicking Cancel in this window does not cancel the chassis importing process.
Step 10 (Optional) To confirm that the virtual contexts on the ACE module were successfully imported into
ANM, do the following:
a. Choose Config > Devices. The device tree appears.
b. In the device tree, choose the chassis device and ACE module that you just imported. The Virtual
Contexts table appears, listing the contexts for that device.
c. Confirm that the contexts imported successfully:
– If OK appears in the Config Status column, it means that the context imported successfully.
– If Import Failed appears in the Config Status column, it means that the context did not import
successfully.
d. To synchronize the configurations for the context import that failed, choose the context, and then
click Sync. ANM will synchronize the context by uploading it from the ACE device.
For more information on synchronizing virtual contexts, see the “Creating Virtual Contexts”
procedure on page 6-2.
Note If you receive authentication errors or incorrect username/password errors when trying to import ACE
devices, refer to the ACE documentation regarding username and password settings and limitations.
Tip After you add an ACE module, see the “Enabling a Setup Syslog for Autosync for Use With an ACE”
section on page 5-27 to enable auto sync, which allows ANM to synchronization with the ACE CLI when
ANM receives a syslog message from the ACE rather wait the default polling period.
Relate Topics
• Importing ACE Modules after the Host Chassis has been Imported, page 5-16
• Importing CSM Devices after the Host Chassis has been Imported, page 5-19
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• Importing ACE Appliances, page 5-21
• Importing CSS Devices, page 5-22
• Importing GSS Devices, page 5-23
• Importing VMware vCenter Servers, page 5-24
• Removing Modules from the ANM Database, page 5-80
• Synchronizing Module Configurations, page 5-67
Importing ACE Modules after the Host Chassis has been Imported
You can add ACE modules into the ANM database at any time after the host chassis been added.
Before You Begin
• Ensure that the module to be imported has booted successfully and is in OK/Pass state. To check the
module state, enter the show module supervisor Cisco IOS CLI command.
• Note that time needed to import ACE modules depends on the number of modules and contexts that
you are importing. For example, an ACE module with 20 virtual contexts takes longer than an ACE
module with 5 contexts. While ANM imports the module, you cannot perform other activities in the
same session. You can, however, establish a new session with the ANM server and perform activities
on other devices, modules, or virtual contexts.
• If you receive authentication errors or incorrect username/password errors when you try to import
an ACE module, see the ACE documentation regarding username and password settings and
limitations.
• If you physically replace an ACE module in a chassis, you need to synchronize the chassis in ANM.
We recommend you start by adjusting syslog settings to facilitate the ANM auto synchronization
process as described in the “Enabling a Setup Syslog for Autosync for Use With an ACE” section
on page 5-27.
Guidelines and Restrictions
ANM 3.0 and greater releases do not support the importing of an ACE module that contains an A1(6.x)
software release or an ACE appliance that contains an A1(7.x) or A1(8.x) software release. If you
attempt to import an ACE that supports one of these releases, ANM displays a message to instruct you
that it failed to import the unrecognized ACE configuration and that device discovery failed.
However, if you perform an ANM upgrade (for example, from ANM 2.2 to ANM 3.0), and the earlier
ANM release contained an inventory with an ACE module that supported the A1(6x) software release or
an ACE appliance that supported the A1(7.x) or A1(8.x) software release, ANM 3.0 (and greater) allows
the A1(x) software release to reside in the ANM database and will support operations for the release.
ANM prevents a new import of an ACE module or ACE appliance that contains the unsupported software
version.
We strongly recommend that you upgrade your ACE module or ACE appliance to a supported ACE
software release, and that you instruct ANM to recognize the updated release. See the “Instructing ANM
to Recognize an ACE Module Software Upgrade” section on page 5-71.
See the Supported Device Tables for the Cisco Application Networking Manager for a complete list of
supported ACE module and ACE appliance software releases.
Prerequisites
The host chassis of the ACE module that you are adding has been imported (see the “Importing Cisco
IOS Host Chassis and Chassis Modules” section on page 5-11).
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Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the host device that contains the ACE module you want to import and
click Modules.
The Modules table appears, which displays a list of the installed modules.
Step 3 In the Modules table, choose the module that you want to import and click Import.
The Modules configuration window appears.
Step 4 In the Modules window, verify the information of the selected module as described in Table 5-4.
Step 5 To import a displayed module, in the Operation to Perform field, choose one of the following:
• Import—ANM is to import the ACE module. ANM displays additional configuration fields when
the Import option is selected. For both modules types, skip to Step 6 after selecting Import.
• Perform Initial Setup And Import—Allows you to perform initial setup manually required for
ANM to communicate with the ACE module and imports ACE module configuration. Skip to Step 7.
Note We recommend that you choose this option for ACE modules that are configured only with
factory defaults.
Step 6 If you chose Import, perform the following steps:
a. In the Admin Context IP field, enter the module IP address.
b. In the User Name field, enter the username for accessing this module. Valid entries are unquoted
text strings with a maximum of 24 characters. The default admin credentials are admin/admin.
Table 5-4 Importing ACE Modules
Item Description
Card Slot Chassis IP address, detected module type, and chassis slot number. For example,
10.10.10.1:ACE:2.
Card Type Version information about the detected module. For example, ACE v2.3. This field displays major
release information only. For example, 8.2x might be supported by a module, but only 8.2 displays.
Module Has Been
Imported Into ANM
Read only information to indicate that the module has already been imported (checked) or that it
has not been imported (unchecked).
Operation To Perform Drop down list to specify the action to take as follows:
• Do Not Import (default setting)
• Import
• Perform Initial Setup and Import
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Note For security reasons, we recommend that you change the username and password on your ACE
device (and modules) after you import them. The security on your ACE module can be
compromised because the administrative username and password are configured to be the same
for every ACE module shipped from Cisco. See the “Changing ACE Module Passwords”
procedure on page 5-77.
c. In the Password field, enter the password for accessing this module. Reenter the password in the
Confirm field. Valid entries are unquoted text strings with a maximum of 64 characters. The default
admin credentials are admin/admin.
d. Click Next or Previous to navigate to the next module to specify to import or click Finish to import
the specified modules.
Skip to Step 9.
Step 7 If you chose Perform Initial Setup And Import, perform the following steps:
a. In the Host Name field, enter a unique name for this ACE module. Valid entries are alphanumeric
strings with no spaces and a maximum of 32 characters.
b. In the Admin Context IP field, enter the IP address for this ACE module.
c. In the Netmask field, from the drop-down list, choose the subnet mask to apply to this IP address.
d. In the Gateway field, enter the IP address of the gateway router to use.
e. In the VLAN field, choose the VLAN to which this module belongs.
f. Check the Blade Is Configured With Factory Default Admin Credentials check box if the ACE
module is currently configured with the default admin credentials (admin/admin).
g. In the User Name field, enter the username for accessing this module. Valid entries are unquoted
text strings with a maximum of 24 characters. The default admin credentials are admin/admin.
Note For security reasons, we recommend that you change the username and password on your ACE
after you import it. The security on your ACE module can be compromised because the
administrative username and password are configured to be the same for every ACE shipped
from Cisco. See the “Changing ACE Module Passwords” procedure on page 5-77.
h. In the Password field, enter the password for accessing this module. Reenter the password in the
Confirm field. Valid entries are unquoted text strings with a maximum of 64 characters. The default
admin credentials are admin/admin.
Step 8 Do one of the following:
• Click OK to save your entries and to continue with the device configuration. A progress bar reports
status and the Device configuration window appears.
• Click Cancel to exit the procedure without importing ACE modules and to return to the All Devices
table.
Note Clicking Cancel in this window does not cancel the chassis importing process.
Step 9 (Optional) To confirm that the virtual contexts on the ACE module were successfully imported into
ANM, do the following:
a. Choose Config > Devices. The device tree appears.
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b. In the device tree, choose the chassis device and ACE module that you just imported. The Virtual
Contexts table appears, listing the contexts for that device.
c. Confirm that the contexts imported successfully:
– If OK appears in the Config Status column, it means that the context imported successfully.
– If Import Failed appears in the Config Status column, it means that the context did not import
successfully.
d. To synchronize the configurations for the context import that failed, choose the context, and then
click Sync. ANM will synchronize the context by uploading it from the ACE device.
For more information on synchronizing virtual contexts, see the “Creating Virtual Contexts”
procedure on page 6-2.
Note If you receive authentication errors or incorrect username/password errors when trying to import ACE
devices, refer to the ACE documentation regarding username and password settings and limitations.
Tip After you add ACE devices, see the “Enabling a Setup Syslog for Autosync for Use With an ACE”
section on page 5-27 to enable auto sync, which allows ANM to synchronization with the ACE CLI when
ANM receives a syslog message from the ACE rather wait the default polling period.
Related Topics
• Importing Cisco IOS Host Chassis and Chassis Modules, page 5-11
• Importing ACE Appliances, page 5-21
• Importing CSS Devices, page 5-22
• Importing GSS Devices, page 5-23
• Importing VMware vCenter Servers, page 5-24
• Removing Modules from the ANM Database, page 5-80
• Synchronizing Module Configurations, page 5-67
Importing CSM Devices after the Host Chassis has been Imported
You can import CSM devices into the ANM database at any time after the host chassis or router has been
imported.
Note ANM assigns the device type CSM to both CSM and CSM-S devices. This assignment has to do with
how ANM collects and assigns the information that it receives from the device and does not affect
functionality. To differentiate between these devices, see the description information in the user
interface.
Prerequisites
The host chassis of the CSM that you are adding has been imported (see the “Importing Cisco IOS Host
Chassis and Chassis Modules” section on page 5-11).
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Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the host device that contains the CSM that you want to import, and then
click Modules.
The Modules table appears.
Step 3 In the Modules table, choose the CSM that you want to import, and then click Import.
The Modules configuration window appears.
Step 4 Verify that the information is correct in the following read-only fields:
• Card Slot—The slot in the chassis in which the module resides.
• Card Type—The device type; in this instance, CSM.
• Module Has Been Imported Into ANM—The checkbox is checked to indicate that the module has
already been imported or cleared to indicate that it has not been imported.
Step 5 In the Operation to Perform field, choose Import.
Step 6 Do one of the following:
• Click OK to save your entries. A progress bar reports status and the Modules table refreshes with
updated information.
• Click Cancel to exit the procedure without importing the device and to return to the Modules table.
Related Topics
• Importing Cisco IOS Host Chassis and Chassis Modules, page 5-11
• Importing ACE Appliances, page 5-21
• Importing CSS Devices, page 5-22
• Importing GSS Devices, page 5-23
• Importing VMware vCenter Servers, page 5-24
• Removing Modules from the ANM Database, page 5-80
• Synchronizing Module Configurations, page 5-67
Importing VSS 1440 Devices after the Host Chassis has been Imported
Catalyst 6500 Virtual Switching Systems (VSS) 1440 devices allow for the combination of two switches
into a single, logical network entity from the network control plane and management perspectives. To
the neighboring devices, the Cisco Virtual Switching System appears as a single, logical switch or router.
VSS devices will be discovered as normal Cisco IOS devices in ANM if the devices are already
converted to virtual switch mode.
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Note ANM does not recognize failure scenarios as discussed in the “Configuring Virtual Switching System”
section of the “Catalyst 6500 Release 12.2SXH and Later Software Configuration Guide” on Cisco.com
at
http://www.cisco.com/en/US/docs/switches/lan/catalyst6500/ios/12.2SX/configuration/guide/vss.html#
wp1062314.
Related Topics
Importing Cisco IOS Host Chassis and Chassis Modules, page 5-11
Importing ACE Appliances
This section shows how to import an ACE appliance into ANM.
Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the Add button.
The New Device window appears.
Step 3 In New Device window, define the ACE appliance to import using the information in Table 5-5.
Step 4 Do one of the following:
• Click OK to save your entries. After ANM adds the specified device, the Primary Attributes window
for the device appears.
• Click Cancel to exit the procedure without importing the device and to return to the Modules table.
Related Topics
• Importing Network Devices into ANM, page 5-10
• Importing Cisco IOS Host Chassis and Chassis Modules, page 5-11
Table 5-5 ACE Appliance Configuration Options
Field Description
Name Name assigned to the ACE appliance.
Model Drop-down list to specify the device type. From the Model drop-down list, choose ACE 4710
(appliance).
Primary IP ACE appliance IP address.
User Name Username that has the administrator role.
Password Password that corresponds to the username.
Confirm Confirmation of the password.
Description Brief device description.
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• Importing CSS Devices, page 5-22
• Importing GSS Devices, page 5-23
• Importing VMware vCenter Servers, page 5-24
Importing CSS Devices
This section shows how to import CSS devices into ANM.
Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the Add button.
The New Device window appears.
Step 3 In New Device window, define the CSS device to import using the information in Table 5-6.
Step 4 Do one of the following:
• Click OK to save your entries. After ANM adds the specified device, the Primary Attributes window
for the device appears (see the “Configuring CSS Primary Attributes” section on page 5-35).
• Click Cancel to exit the procedure without importing the device and to return to the Modules table.
Related Topics
• Importing Network Devices into ANM, page 5-10
• Importing Cisco IOS Host Chassis and Chassis Modules, page 5-11
• Importing ACE Appliances, page 5-21
Table 5-6 CSS Configuration Options
Field Description
Name Name assigned to the device.
Model Drop-down list to specify the device type. From the Model drop-down list, choose CSS.
Primary IP Device IP address.
Access Protocol Protocol that ANM is to use when communicating with the CSS. Choose one of the following:
• Secure/SSH (default setting)
• Telnet
User Name Username that has the administrator role.
Password Password that corresponds to the username.
Confirm Confirmation of the password.
SNMP v2c Enabled Checkbox to enable SNMP v2c.
Description Brief device description.
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• Importing GSS Devices, page 5-23
• Importing VMware vCenter Servers, page 5-24
Importing GSS Devices
This section shows how to import GSS devices into ANM.
Guidelines and Restrictions
Follow these guidelines for importing GSS devices into ANM:
• You only need to import the primary GSSM into ANM—You are not required or permitted to add
either the standby GSSM or GSS device. ANM communicates only with the primary GSSM for
activation and suspension of DNS rules and virtual IP (VIP) answers and for collecting statistics.
• GSS graphical user interface (GUI) and CLI must have matching passwords—The username that
you configure while adding a GSS device to ANM must be the same on both the GSS GUI and GSS
CLI.
• Communication between ANM and the primary GSSM is accomplished using the GSS
Communication Ethernet Interface—This interface is used for internal communication between the
primary GSSM and the other GSS devices in the GSS cluster. Beginning with ANM 4.3, ANM uses
Java Remote Method Invocation (RMI) only to communicate with GSS devices using software
Version 3.3 or later versions. If the GSS device is using an earlier version of software and ANM
cannot communicate with it using RMI, ANM uses Secure Shell (SSH).
Table 5-7 lists the TCP ports that ANM uses to communicate with GSS devices.
Note When ANM uses SSH for GSS communication, terminal length settings are set to 0 during import,
synchronization, and background polling. The previous terminal length settings that you had before
import, synchronization, and background polling is performed are not preserved.
Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the Add button.
The New Device window appears.
Step 3 In New Device window, define the GSS device to import using the information in Table 5-8.
Table 5-7 TCP Ports Used by ANM for GSS
Port Description
22 SSH
2001 Java RMI
3009 Secure RMI
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Step 4 Do one of the following:
• Click OK to save your entries. After ANM adds the specified device, the Primary Attributes window
for the device appears (see the “Configuring GSS Primary Attributes” section on page 5-36).
• Click Cancel to exit the procedure without importing the device and to return to the Modules table.
Related Topics
• Importing Network Devices into ANM, page 5-10
• Importing Cisco IOS Host Chassis and Chassis Modules, page 5-11
• Importing ACE Appliances, page 5-21
• Importing CSS Devices, page 5-22
• Importing VMware vCenter Servers, page 5-24
Importing VMware vCenter Servers
This section shows how to import VMware vCenter Servers that are part of a VMware virtual datacenter
containing virtual machines (VM). When you import a VMware vCenter Server, ANM discovers the
following network entities associated with the server: datacenters, VMs, and hosts (VMware ESX
servers).
During the VMware vCenter Server import process, you can enable the ANM plug-in that allows you to
access ANM ACE real server functionality from a VMware vSphere Client. Registering the plug-in
provides the client with a URL to access ANM and retrieve the required XML definition file. ANM uses
HTTPS for communication with VMware vCenter Server.
Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
Table 5-8 GSS Configuration Options
Field Description
Name Name assigned to the device.
Model Drop-down list to specify the device type. From the Model drop-down list, choose GSS.
Primary IP Device IP address.
User Name Username that has the administrator role.
Password Password that corresponds to the username.
Confirm Confirmation of the password.
Enable Password Password for remote authorization. When the GSS is configured for remote authorization with the
enable command in the user privilege, then the enable password is not used.
Confirm Confirmation of the enable password.
Description Brief description for this device.
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• ANM does not recognize all the special characters that VMware allows you to use in a VM name.
If you import a VMware vCenter Server containing VM names that use certain special characters,
ANM encounters issues that affect the VM Mappings window (Config > Devices > vCenter >
System > VM Mappings). This window shows how VMs map to real servers.
The issues associated with certain special characters in VM names are as follows:
– When a VM name contains a double quote (“), ANM is not able to display the VM Mappings
window (a blank window displays).
– When a VM name contains a percent sign (%), backslash (\), or forward slash (/), ANM displays
the VM name in the VM Mappings window; however, these special characters display as hex
values (%25 for %, %5c for \, and %2f for /).
To avoid these issues, remove these special characters from the VM name before you use the
following procedure to import the VMware vCenter Server in to ANM.
• ANM supports importing a VMware vCenter Server operating in standard mode only. You cannot
import a vCenter Server operating in linked mode.
Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the Add button.
The New Device window appears.
Step 3 In New Device window, configure the VMware vCenter Server using the information in Table 5-9.
Table 5-9 VMware vCenter Server Configuration Options
Field Description
Name Name assigned to the device.
Model Drop-down list of available device types. From the Model drop-down list, choose vCenter.
Primary IP VMware vCenter Server IP address.
HTTPS Port Port that the VMware vCenter Server uses to communicate with ANM using HTTPS.
User Name VMware vCenter Server username that has the administrator role or an equivalent role that has
privilege on “Extension,” “Global->Manage custom attribute,” and “Global->Set custom attribute.”
Password Password that corresponds to the VMware vCenter Server username.
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Step 4 Do one of the following:
• Click OK to save your entries. After ANM adds the VMware vCenter Server, the Primary Attributes
window for the VMware vCenter Server appears (see the “Configuring VMware vCenter Server
Primary Attributes” section on page 5-41).
• Click Cancel to exit the procedure without importing the device and to return to the Modules table.
Related Topics
• Configuring VMware vCenter Server Primary Attributes, page 5-41
• Using the ANM Plug-In With Virtual Data Centers, page B-1
• Mapping Real Servers to VMware Virtual Machines, page 5-68
• Importing Network Devices into ANM, page 5-10
• Importing Cisco IOS Host Chassis and Chassis Modules, page 5-11
• Importing ACE Appliances, page 5-21
• Importing CSS Devices, page 5-22
• Importing GSS Devices, page 5-23
ANM vCenter
Plug-in
Registers the ANM plug-in when adding the VMware vCenter Server. Registering the plug-in provides
the VMware vCenter Server and associated VMware vSphere Clients with a URL to access ANM and
retrieve the required XML definition file. ANM uses HTTPS for communication with the VMware
vCenter Server and vSphere Clients. When the plug-in is registered, you can access ANM ACE real
server functionality from a VMware vSphere Client.
Choose one of the following options:
• Import vCenter and register plug-in
• Import vCenter and but do not register plug-in (default setting)
To register or unregister the ANM plug-in at a later time, see the “Registering or Unregistering the
ANM Plug-in” section on page B-5.
ANM Server DNS name or IP address of the ANM server that will be used by the VMware vCenter Server and
vSphere Client. By default, ANM populates this field with the virtual IP address or hostname or all of
the available IP addresses. If you enter a DNS name, make sure that the name can be resolved on the
VMware vSphere Client side of the network.
Note For ANM servers operating in an HA configuration, choose the shared alias IP address or VIP
address for the HA pair so that the plug-in can still be used after an HA failover occurs.
Table 5-9 VMware vCenter Server Configuration Options (continued)
Field Description
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Enabling a Setup Syslog for Autosync for Use With an ACE
You can set up auto synchronization to occur when ANM receives a syslog message from ACE devices.
This feature allows a faster, more streamlined synchronization process between ANM and any
out-of-band configuration changes. Rather than wait the default polling period, ANM will synchronize
when a syslog message is received if you enable the Autosync feature.
Note ANM does not support Autosync for GSS devices.
Procedure
Step 1 Choose Config > Devices. From the device tree, select either an ACE module or an ACE appliance.
Step 2 Choose Setup Syslog for Autosync.
The Setup Syslog for Autosync window appears.
Step 3 Choose one or more virtual contexts for which you want to receive Autosync syslog messages.
Step 4 Click the Setup Syslog button.
A progress bar window appears.
The following CLI commands are sent to the enabled ACE devices:
logging enable
logging trap 2
logging device-id string /Admin
logging host udp/514
logging message 111008 level 2
Step 5 If the setup is successful, a checkbox with check mark will appear in the Setup Syslog for Autosync?
column for each virtual context that you selected. If there are any errors, the errors will be shown in a
popup window.
Discovering Large Numbers of Devices Using IP Discovery
The IP Discovery feature allows you to discover and import Cisco chassis and ACEs into the ANM
database as follows:
1. Preparing devices for discovery. This process involves enabling SSH and XML over HTTPS and
adding device credentials. See the “Preparing Devices for IP Discovery” section on page 5-28.
2. Discovering devices residing on your network. The ANM uses SSH, XML over HTTPS, and Telnet
to discover its supported devices. When you run IP Discovery, you locate IP addresses of ACE
chassis and appliances. See the “Running IP Discovery to Identify Devices” section on page 5-31.
After discovery, devices do not appear in the Devices table until device import is completed. To
import a specific chassis into the ANM database, you need to enter IP and credentials information
for the chassis and then import it and any associated modules. While this discovery method requires
you to add more information initially, it provides more control over the discovery process.
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3. Importing the device information into the ANM database to add the device into the Devices table.
See the “Importing Network Devices into ANM” section on page 5-10.
4. After importing a module host device, such as a Catalyst 6500 series chassis, you can add ACE
modules and CSMs into the ANM database. See the “Importing ACE Modules after the Host Chassis
has been Imported” section on page 5-16 or the “Importing CSM Devices after the Host Chassis has
been Imported” section on page 5-19.
5. After you start a discovery job, you can monitor its status. See the “Monitoring IP Discovery Status”
section on page 5-33.
ANM offers multiple ways to accomplish some of these steps. For example, you can either run a
discovery job to identify the available chassis, and then choose the ones to import, or you can import a
specific chassis into the ANM database.
To add a chassis without running discovery, see the “Importing Cisco IOS Host Chassis and Chassis
Modules” section on page 5-11.
See the Supported Devices Table for Cisco Application Networking Manager for more information about
the devices that ANM supports.
This section includes the following topics:
• Preparing Devices for IP Discovery, page 5-28
• Running IP Discovery to Identify Devices, page 5-31
• Monitoring IP Discovery Status, page 5-33
Preparing Devices for IP Discovery
This section describes how to prepare your Cisco devices for IP Discovery by enabling SSH and Telnet
on each device and by configuring device SSH and Telnet credentials though ANM. These tasks enable
ANM to communicate with the devices and collect data from them.
Caution IP Discovery sends unencrpyted credentials (Telnet and SNMP) to all devices on the specified subnet
who respond to the associated ports. This is a potential security risk because credentials are broadcast
out to one or more networks. IP Discovery may also find devices that cannot be imported or may not be
able to locate devices that could be imported.
Guidelines and Restrictions
Network latency can prevent ANM from establishing a communication link with a device that you want
to import. When ANM is providing the device with the device credentials (username and password), by
default it waits two seconds after providing the device username for the password prompt to appear. The
link times out when it takes longer than two seconds for the next prompt to appear. For information about
possible causes of network latency that can create this issue and how to adjust the ANM timeout value,
see the “Modifying the ANM Timeout Setting to Compensate for Network Latency” section on page 5-9.
Before You Begin
Ensure that you have enabled SSH and Telnet in your Cisco network devices by performing the tasks
described in the following sections:
• Enabling SSH or Telnet Access on Catalyst 6500 Series Switches and Cisco 7600 Series Routers,
page 5-5
• Enabling SSH Access and the HTTPS Interface on the ACE Module and Appliance, page 5-6
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This section includes the following topics:
• Configuring Device Access Credentials, page 5-29
• Modifying Credential Pools, page 5-30
Configuring Device Access Credentials
You can add device credentials to ANM before running IP Discovery.
Procedure
Step 1 Choose Config > Tools > Credential Pool Management.
The New Credential Pool window appears.
Step 2 In the Name field, enter the name of the new credential pool.
Step 3 Click Save to save this entry and to proceed with credentials configuration.
The configuration window appears.
Step 4 Set the Telnet credentials as follows:
a. Choose Configuration > Telnet Credentials. The Telnet Credentials table appears.
b. In the table, click Add to add a set of credentials to this credential pool, or choose an existing set of
credentials, and click Edit to modify it.
c. Enter the credentials (see Table 5-10).
d. Do one of the following:
– Click OK to save your entries and to return to the Telnet Credentials table.
– Click Cancel to exit this procedure without saving your entries and to return to the Telnet
Credentials table.
– Click Next to deploy your entries and to add another set of Telnet credentials.
Step 5 Set the SNMP credentials as follows:
a. Choose Configuration > SNMP Credentials. The SNMP Credentials table appears.
b. Click Add to add a set of credentials to this credential pool, or choose an existing set of credentials,
and click Edit to modify it.
Table 5-10 Telnet Credentials
Field Description
IP Address Specific IP address in dotted-decimal notation or use an asterisk (*) as a wildcard character to
identify a number of devices, such as 192.168.11.*.
User Name Telnet username for the specified devices.
Password Telnet password for the specified devices.
Confirm Telnet password that you reenter.
Enable Password Telnet enable password for the specified devices. ANM uses this password during the Catalyst 6500
series chassis and Catalyst 6500 Virtual Switching System (VSS) 1440 import process.
Confirm Telnet enable password that you reeenter.
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c. Enter the SNMP credentials (see Table 5-11).
Step 6 Do one of the following:
• Click OK to save your entries and to return to the SNMP Credentials table.
• Click Cancel to exit without saving your entries and to return to the SNMP Credentials table.
• Click Next to deploy your entries and to configure another set of SNMP credentials.
After establishing the Telnet and SNMP credentials, you are ready to run IP Discovery. See the “Running
IP Discovery to Identify Devices” section on page 5-31.
Related Topics
• Running IP Discovery to Identify Devices, page 5-31
• Configuring Device Access Credentials, page 5-29
• Discovering Large Numbers of Devices Using IP Discovery, page 5-27
Modifying Credential Pools
You can modify existing Telnet or SNMP credentials.
Procedure
Step 1 Choose Config > Tools > Credential Pool Management.
The Credential Pools configuration window appears.
Step 2 Choose the credential pool that you want to modify.
The Edit Credential Pool configuration window appears.
Step 3 Click Edit.
Step 4 To modify the existing Telnet credentials, do the following:
a. Choose Configuration > Telnet Credentials. The Telnet Credentials table appears.
b. In the table, click Add to add a set of credentials to this credential pool, or choose an existing set of
credentials, and click Edit to modify it.
Table 5-11 SNMP Credentials
Field Description
IP Address Specific IP address in dotted-decimal notation is used or an asterisk (*) is used as a wildcard
character to identify a number of devices, such as 192.168.11.*.
Mode Default version of SNMP is selected for this credential pool. Snmpv2 indicates that SNMP version
2 is to be used for this credential pool for the specified devices.
RO Community SNMP read-only string for the specified devices. This entry is case sensitive.
Timeout Time, in seconds, that the ANM is to wait for response from a device before performing the first
retry.
Retries Number of times that the ANM is to attempt to communicate with a device before declaring that
the device has timed out.
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c. Enter the Telnet credentials (see Table 5-10).
d. Do one of the following:
– Click OK to save your entries and to return to the Telnet Credentials table.
– Click Cancel to exit this procedure without saving your entries and to return to the Telnet
Credentials table.
– Click Next to deploy your entries and to add another set of Telnet credentials.
Step 5 To modify the existing SNMP credentials, do the following:
a. Choose Configuration > SNMP Credentials. The SNMP Credentials table appears.
b. Click Add to add a set of credentials to this credential pool, or choose an existing set of credentials,
and click Edit to modify it.
c. Enter the SNMP credentials (see Table 5-11).
d. Do one of the following:
– Click OK to save your entries and to return to the SNMP Credentials table.
– Click Cancel to exit without saving your entries and to return to the SNMP Credentials table.
– Click Next to deploy your entries and to configure another set of SNMP credentials.
Related Topics
• Running IP Discovery to Identify Devices, page 5-31
• Configuring Device Access Credentials, page 5-29
• Discovering Large Numbers of Devices Using IP Discovery, page 5-27
Running IP Discovery to Identify Devices
You can run IP Discovery to locate IP addresses of the Catalyst 6500 series chassis (hosting the ACE
module), ACE appliance, and Catalyst 6500 Virtual Switching System (VSS) devices.
After establishing Telnet and SNMP credentials (see the “Configuring Device Access Credentials”
section on page 5-29), use this procedure to identify chassis and ACEs on your network.
Caution IP Discovery sends unencrpyted credentials (Telnet and SNMP) to all devices on the specified subnet
that respond to the associated ports. This is a potential security risk because credentials are broadcast
out to one or more networks. IP Discovery may also find devices that cannot be imported or be unable
to find devices that could be imported.
Before You Begin
For this procedure, you need the follow items:
• IP address for the discovery process.
• Applicable subnet mask.
• Valid credentials for this discovery (see the “Configuring Device Access Credentials” section on
page 5-29).
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• Verification that the devices have SSH enabled (see the “Preparing Devices for IP Discovery”
section on page 5-28).
Procedure
Step 1 Choose Config > Tools > IP Discovery.
The Discovery Jobs table appears.
Tip If you already know the IP address of your devices, use the Config > Devices > Add function.
See the “Importing Network Devices into ANM” section on page 5-10.
Step 2 To create a discovery job, click Add.
The Discovery Jobs window appears.
Step 3 In the IP Address field, enter the IP address of a specific device in dotted-decimal notation such as
192.168.11.1.
Step 4 In the Netmask field, choose the subnet mask to be used. When you specify a subnet mask, the discovery
process discovers all devices in the range of the IP address and its subnet mask. The default netmask is
255.255.255.0.
Note Choose a higher subnet mask only if you are certain that it is appropriate for your network and
you understand the impact. If you choose the subnet mask for a class A or class B network, the
discovery process becomes extensive and can take a substantial amount of time to complete.
Step 5 In the Credential Pool field, choose the credential pool to be used for this discovery.
Step 6 Click Discover to run discovery now or Cancel to exit this procedure without running discovery.
When you run IP Discovery, the Discovery Jobs table reflects the state of the discovery as it runs. The
amount of time to finish a discovery job depends on the size of your network and network activity.
If necessary, click Stop to stop the discovery process. When the process has stopped, the Discovery Jobs
table appears with the discovery job in the table with the state Aborted.
Tip Click Refresh during IP Discovery to see the number of devices found as the discovery process
progresses.
Step 7 (Optional) View the discovery process status (see the “Monitoring IP Discovery Status” section on
page 5-33).
Step 8 (Optional) Import ACE devices into the ANM when the discovery process is complete (see the
“Importing Network Devices into ANM” section on page 5-10).
Related Topics
• Creating Virtual Contexts, page 6-2
• Importing Network Devices into ANM, page 5-10
• Using Configuration Building Blocks, page 16-1
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Monitoring IP Discovery Status
You can monitor device discovery status after starting a discovery job.
Procedure
Step 1 Click Config > Tools > IP Discovery.
The Discovery Jobs table appears with the following information for each discovery job:
• IP address
• Subnet mask
• Start Time in the format hh:mm:ss.nnn
• End Time, if available, in the format hh:mm:ss.nnn
• Credential Pool being used
• State of the discovery job, such as Running or Completed
• Number of devices found
Step 2 Locate your discovery job to see its current status.
If necessary, click Stop to stop the discovery process. When the process has stopped, the Discovery Jobs
table appears with the discovery job in the table with the state Aborted.
Step 3 When discovery is complete, choose the discovery job in the table. A list of the discovered devices
appears below the Discovery Jobs table.
You can now populate the ANM with chassis and ACEs. See the “Importing Network Devices into
ANM” section on page 5-10.
Related Topics
• Importing Network Devices into ANM, page 5-10
• Running IP Discovery to Identify Devices, page 5-31
• Information About Importing Devices, page 5-4
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Configuring Devices
This section describes how to configure the devices that you add to ANM and includes the following
topics:
• Configuring Device System Attributes, page 5-34
• Configuring Catalyst 6500 Series Chassis or Cisco 7600 Series Router Interfaces, page 5-41
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
Note The ANM does not detect changes made to a chassis device though the CLI. Be sure to synchronize
chassis configurations whenever chassis configuration has been modified via the CLI.
Configuring Device System Attributes
This section shows how to configure the device system attributes. For the CSM, CSS, and GSS devices,
the system attributes consist of the primary attributes only. For the Catalyst 6500 series chassis, Catalyst
6500 Virtual Switching System (VSS) 1440 devices, and Cisco 7600 series routers, the system attributes
also include the static route attributes.
This section includes the following topics:
• Configuring CSM Primary Attributes
• Configuring CSS Primary Attributes
• Configuring GSS Primary Attributes
• Configuring Catalyst 6500 VSS 1440 Primary Attributes
• Configuring Catalyst 6500 Series Chassis and Cisco 7600 Series Router Primary Attributes
• Configuring Catalyst 6500 Series Chassis, Catalyst 6500 Virtual Switching System 1440 Devices,
and Cisco 7600 Series Routers Static Routes
• Configuring VMware vCenter Server Primary Attributes
Configuring CSM Primary Attributes
You can configure primary attributes for CSM devices.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the CSM that you want to configure, and then choose System > Primary
Attributes.
The Primary Attributes window appears.
Step 3 In the Description field, enter a brief description of the module.
Step 4 Choose another CSM for high availability pairing from the Redundant Device field, which displays any
other CSM devices that have been imported into ANM.
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Step 5 Click Deploy Now to deploy this configuration on the CSM and save your entries to the
running-configuration and startup-configuration files.
To exit this procedure without deploying your entries, choose another device in the device tree or in the
object selector above the configuration pane.
Related Topics
• Configuring Devices, page 5-34
• Importing ACE Modules after the Host Chassis has been Imported, page 5-16
Configuring CSS Primary Attributes
You can configure primary attributes for CSS devices.
Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the CSS that you want to configure, and then choose System > Primary
Attributes.
The Primary Attributes window appears with information about the device.
Step 3 Configure the CSS using the information in Table 5-12.
Note Most of the information is read directly from the device during the import process and cannot be
changed using the ANM interface.
Table 5-12 CSS Primary Attributes Configuration Options
Field Description
Description Brief description for this device.
Device Type Read-only field that has the device type in gray.
Use Telnet Read-only field that will be checked if the device was imported using Telnet.
IP Address Read-only field with the device IP address.
Redundant Device Field that displays any other CSS devices that have been imported into the ANM database.
Choose another CSS for high availability pairing.
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Step 4 Click Deploy Now to deploy this configuration on the CSS and to save your entries to the
running-configuration and startup-configuration files.
To exit this procedure without deploying your entries, choose another device in the device tree or in the
object selector above the configuration pane.
Related Topics
• Configuring Devices, page 5-34
• Importing Network Devices into ANM, page 5-10
Configuring GSS Primary Attributes
You can configure primary attributes for Cisco Global Site Selector devices.
Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the GSS that you want to configure, and then choose System > Primary
Attributes.
The Primary Attributes window appears with information about the device.
Step 3 Configure the GSS using the information in Table 5-13.
SNMP v2c Enabled Checkbox to enable SNMP version 2c access. Uncheck the checkbox to disable this feature.
If you enable this feature, in the SNMP Trap Community string field, enter the SNMP community
string.
SNMP v3 Enabled Checkbox to enable SNMP Version 3 access. Uncheck the checkbox to disable this feature.
If you enable this feature, do the following:
1. In the SNMP V3 User Name field, enter the SNMP username.
2. In the SNMP V3 Mode field, choose the level of security to be used when accessing the chassis:
• NoAuthNoPriv—SNMP uses neither authentication nor encryption in its communications.
• AuthNoPriv—SNMP uses authentication, but the data is not encrypted.
3. If you choose AuthNoPriv, do the following:
a. In the SNMP V3 Auth Proto field, choose MD5 or DES to specify the authentication
mechanism.
b. In the SNMP V3 Auth Pass field, enter the user authentication password. Valid entries are
unquoted text strings with no spaces and a maximum of 130 characters.
c. In the Confirm field, reenter the user authentication password.
Table 5-12 CSS Primary Attributes Configuration Options (continued)
Field Description
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Step 4 (Optional) To update the IP address and/or password for the GSS on the ANM server only, click Update
IP Address/Password.
The Update IP Address/Password window appears.
Note The password changes are for the ANM server only. The Password/Enable password on the
device will not be changed.
Enter new credentials in the Update IP Address/Password window using the information in Table 5-14.
Step 5 Do one of the following:
• Click OK to save any changes made to GSS server IP address or password to the ANM server.
• Click Cancel.
You return to the Primary Attributes Page.
Step 6 Click Deploy Now to deploy this configuration save your entries to the gslb-configuration file.
To exit this procedure without deploying your entries, choose another device in the device tree or in the
object selector above the configuration pane.
Table 5-13 GSS Primary Attributes Configuration Options
Field Description
Description Brief description for this device.
Device Type Read-only field that has the device type, in this case GSS, in gray.
IP Address Device IP address.
Table 5-14 GSS Change IP Address and Password Options
Field Description
Old Primary IP Address Read-only field displaying the device IP address.
New Primary IP Address IP address that you wish to have GSS associated with on the server.
Update Available password update choices are as follows:
• Both—Update both the password and enable passwords.
• Enable Password Only—Update only the enable password.
• Password Only—Update only the password.
New Password New password.
Confirm New Password New password that you reenter.
New Enable Password New enable password.
Confirm New Enable
Password
New enable password that you reenter.
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Related Topics
• Configuring Devices, page 5-34
• Importing ACE Appliances, page 5-21
Configuring Catalyst 6500 VSS 1440 Primary Attributes
You can configure primary attributes for VSS devices.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device you want to configure, then choose System > Primary Attributes.
The Primary Attributes window appears with information about the chassis.
Most of the information is read directly from the device during the import process and cannot be changed
using the ANM interface. For example, a VSS-enabled checkbox will display as a read-only field. You
can, however, add a description and configure the device for SNMPv2 or SNMPv3 access.
Note For the ACE devices in VSS, the slot number is represented in the format switch number/slot
number.
Step 3 In the Description field, enter a brief description for the device.
Step 4 To enable SNMPv2c access, do the following:
a. Check the SNMPv2c Enabled checkbox.
b. In the SNMP Trap Community string field, enter the SNMP community string.
Step 5 Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the All Devices table.
Related Topics
• Displaying Chassis Interfaces and Configuring High-Level Interface Attributes, page 5-42
• Displaying Modules by Chassis, page 5-79
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
Configuring Catalyst 6500 Series Chassis and Cisco 7600 Series Router Primary Attributes
You can configure primary attributes for Catalyst 6500 series chassis and Cisco 7600 series routers.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device that you want to configure, and choose System > Primary
Attributes.
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The Primary Attributes window appears.
Most of the information is read directly from the device during the import process and cannot be changed
using the ANM interface. However, you can add a description and configure the device for SNMPv2 or
SNMPv3 access.
Step 3 In the Description field, enter a brief description for the device.
Step 4 To enable SNMPv2c access, do the following:
a. Check the SNMPv2c Enabled checkbox.
b. In the SNMP Trap Community string field, enter the SNMP community string.
Step 5 Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the All Devices table.
Related Topics
• Displaying Chassis Interfaces and Configuring High-Level Interface Attributes, page 5-42
• Displaying Modules by Chassis, page 5-79
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
Configuring Catalyst 6500 Series Chassis, Catalyst 6500 Virtual Switching System 1440 Devices, and
Cisco 7600 Series Routers Static Routes
You can configure static routes for the Catalyst 6500 Series Chassis, Catalyst 6500 Virtual Switching
System 1440 Devices, and Cisco 7600 Series Routers. Though interfaces can be shared across contexts,
the ACE supports only static routes for virtual contexts. You can configure static routes for Catalyst 6500
series chassis, Catalyst 6500 Virtual Switching System (VSS) 1440 devices, and Cisco 7600 series
routers.
Note After a device static route has been created, you can modify only its administrative distance.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device that you want to configure, and choose Network > Static Routes.
The Static Routes table appears.
Step 3 In the Static Routes table, click Add to configure a new static route for the device, or choose an existing
static route, and click Edit to modify it.
The Static Routes configuration window appears.
Step 4 In the Destination Prefix field, enter the IP address for the route.
The address that you specify for the static route is the address that is in the packet before entering the
ACE and performing network address translation.
Step 5 In the Destination Prefix Mask field, choose the subnet for the static route.
Step 6 In the Next Hop field, enter the IP address of the gateway router for the route.
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The gateway address must be on the same network as a VLAN interface for the device.
Step 7 In the Admin Distance field, enter the administrative distance value of the route.
The administrative distance is the first criterion that a router uses to determine which routing protocol
to use if two protocols provide route information for the same destination. The administrative distance
is a measure of the trustworthiness of the source of the routing information.
A lower administrative distance value indicates that the protocol is more reliable. Valid entries are from
0 to 255, with lower numbers indicating greater reliability. For example, a static route has an
administrative distance value of 1 while an unknown protocol has an administrative distance value of
255.
Table 5-15 lists default distance values of the protocols that Cisco supports.
Step 8 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Static Route table.
• Click Cancel to exit the procedure without saving your entries and to return to the Static Route table.
• Click Next to deploy your entries and to add another static route.
Related Topics
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
• Displaying All Device VLANs, page 5-49
• Importing Network Devices into ANM, page 5-10
Table 5-15 Cisco Default Distance Value Table
Route Source Administrative Distance Value
Connected interface 0
Static route 1
Enhanced Interior Gateway Routing Protocol (EIGRP) summary
route
5
External Border Gateway Protocol (BGP) 20
Internal EIGRP 90
IGRP 100
OSPF (Open Shortest Path First) 110
Intermediate System-to-Intermediate System (IS-IS) 115
Routing Information Protocol (RIP) 120
Exterior Gateway Protocol (EGP) 140
On-Demand Routing (ODR) 160
External EIGRP 170
Internal BGP 200
Unknown 255
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Configuring Devices
Configuring VMware vCenter Server Primary Attributes
You can configure the primary attributes for a selected VMware vCenter Server.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the VMware vCenter Server that you want to configure, and choose System >
Primary Attributes.
The Primary Attributes window appears.
Step 3 In the Primary Attributes window, configure the VMware vCenter Server primary attributes as described
in Table 5-16.
Step 4 Click Deploy Now to deploy this configuration on the VMware vCenter Server and return to the All
Devices table.
Related Topics
• Importing VMware vCenter Servers, page 5-24
Configuring Catalyst 6500 Series Chassis or Cisco 7600 Series Router Interfaces
This section shows how to configure the interface attributes for the Catalyst 6500 series chassis or Cisco
7600 series router.
This section includes the following topics:
• Displaying Chassis Interfaces and Configuring High-Level Interface Attributes, page 5-42
• Configuring Access Ports, page 5-43
Table 5-16 VMware vCenter Server Primary Attributes
Item Description
Description Brief description for the VMware vCenter Server.
Version VMware vCenter Server version number.
IP Address IP address of the VMware vCenter Server.
HTTPS Port Port number used by the VMware vCenter Server.
ANM vCenter Plug-in Registration Status Current status of the ANM plug-in:
• Registered
• Not Registered
For more information about ANM plug-in registration or to change the plug-in
registration status, see the “Registering or Unregistering the ANM Plug-in”
section on page B-5.
ANM IP Address IP address of the ANM server.
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Configuring Devices
• Configuring Trunk Ports, page 5-44
• Configuring Switch Virtual Interfaces, page 5-45
• Configuring Routed Ports, page 5-46
Displaying Chassis Interfaces and Configuring High-Level Interface Attributes
You can display a complete list of interfaces on a selected Catalyst 6500 series chassis or Cisco 7600
series router. From this display, you can configure the following high-level attributes for a specified
interface: interface description, operating mode, and administrative state.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device, and choose Interfaces > Summary.
The Interfaces table appears, listing all interfaces on the device and related information as follows:
• Interface name
• Description, if available
• Configured state, such as Up or Down
• Current operational state, if known
• Mode of operation, such as Access, Routed, or Trunk
• Interface hardware type
Step 3 Choose the interface to configure, and click Edit.
The configuration window appears.
Step 4 Enter the following:
a. In the Description field, enter a brief description of the interface.
b. In the Administrative State field, choose Up or Down to indicate whether the port should be up or
down.
c. In the Mode field, choose the operational mode of the interface: Trunk, Access, or Routed.
d. Click Apply to save your changes or Cancel to exit the procedure without saving your changes.
The Interfaces table appears.
Related Topics
• Configuring Access Ports, page 5-43
• Configuring Trunk Ports, page 5-44
• Configuring Routed Ports, page 5-46
• Configuring Switch Virtual Interfaces, page 5-45
• Creating VLAN Groups, page 5-52
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
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Configuring Devices
Configuring Access Ports
You can configure access port attributes for a selected device. An access port receives and sends traffic
in native formats with no VLAN tagging. Traffic that arrives on an access port is assumed to belong to
the VLAN assigned to the port. If an access port receives a tagged packet (Inter-Switch Link [ISL] or
802.1Q tagged), the packet is dropped, and the source address is not learned.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device that you want to configure an access port for, and choose
Interfaces > Access Ports.
The Interfaces table appears.
Step 3 From the Interfaces table, choose the port that you want to configure, and click Edit.
The Access Ports configuration window appears.
Step 4 In the Description field, enter a description for the port.
Valid entries are unquoted text strings with a maximum of 240 characters including spaces.
Step 5 In the Administrative State field, choose Up or Down to indicate whether the port should be up or down.
Step 6 In the Speed field, either specify the speed at which the interface is to operate or that the interface is to
automatically negotiate its speed:
• Auto—The interface is to automatically negotiate speed with the connected device.
• 10 Mbps—The interface is to operate at 10 Mbps.
• 100 Mbps—The interface is to operate at 100 Mbps.
• 1000 Mbps—The interface is to operate at 1000 Mbps.
Step 7 In the Duplex Mode field, specify whether the interface is to automatically negotiate its duplex mode or
use full- or half-duplex mode:
• Auto—The interface is to automatically negotiate duplex mode with the connected device.
• Full—The interface is to operate in full-duplex mode. In this mode, two connected devices can send
and receive traffic at the same time.
• Half—The interface is to operate in half-duplex mode. In this mode, two connected devices can
either send or receive traffic.
Step 8 In the VLANs field, enter individual names for each VLAN to which the interface belongs.
The allowable range is 1 to 4094.
Step 9 Do one of the following:
• Click Apply to save your entries and to return to the Interfaces table.
• Click Cancel to exit the procedure without saving your entries and to return to the Interfaces table.
Related Topics
• Configuring Trunk Ports, page 5-44
• Configuring Switch Virtual Interfaces, page 5-45
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Configuring Devices
• Configuring Routed Ports, page 5-46
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
Configuring Trunk Ports
You can configure trunk ports for a selected device. A trunk port carries the traffic of multiple VLANs
and by default is a member of all VLANs in the VLAN database. Two types of trunk ports are as follows:
• In an Inter-Switch Link (ISL) trunk port, all received packets are expected to be encapsulated with
an ISL header, and all transmitted packets are sent with an ISL header. Native (nontagged) frames
received from an ISL trunk port are dropped.
• An IEEE 802.1Q trunk port supports simultaneous tagged and untagged traffic. An 802.1Q trunk
port is assigned a default port VLAN ID or native VLAN, and all untagged traffic travels on the
native VLAN. All untagged traffic and tagged traffic with a NULL VLAN ID are assumed to belong
to the native VLAN. A packet with a VLAN ID that is equal to the outgoing port native VLAN is
sent untagged. All other traffic is sent with a VLAN tag.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device that you want to configure, and choose Interfaces > Trunk Ports.
The Interfaces table appears.
Step 3 In the Interfaces table, choose the port that you want to configure, and click Edit.
The Trunk Port configuration window appears.
Step 4 Configure the port using the information in Table 5-17.
Table 5-17 Trunk Port Configuration Attributes
Field Description
Description Description for the port. Valid entries are unquoted text strings with a maximum of 240 characters
including spaces.
Administrative State Up or Down to indicate whether the port should be up or down.
Speed Speed at which the interface is to operate or that the interface is to automatically negotiate its speed:
• Auto—The interface is to automatically negotiate speed with the connected device.
• 10 Mbps—The interface is to operate at 10 Mbps.
• 100 Mbps—The interface is to operate at 100 Mbps.
• 1000 Mbps—The interface is to operate at 1000 Mbps.
Duplex Mode Whether the interface is to automatically negotiate its duplex mode or use full-duplex or half-duplex
mode:
• Auto—The interface is to automatically negotiate duplex mode with the connected device.
• Full—The interface is to operate in full-duplex mode. In this mode, two connected devices can
send and receive traffic at the same time.
• Half—The interface is to operate in half-duplex mode. In this mode, two connected devices can
either send or receive traffic.
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Configuring Devices
Step 5 Do one of the following:
• Click Apply to save your entries and to return to the Interfaces table.
• Click Cancel to exit the procedure without saving your entries and to return to the Interfaces table.
Related Topics
• Configuring Access Ports, page 5-43
• Configuring Switch Virtual Interfaces, page 5-45
• Configuring Routed Ports, page 5-46
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
Configuring Switch Virtual Interfaces
You can configure a switch virtual interface on a Multilayer Switch Feature Card. A VLAN defined on
the Multilayer Switch Feature Card (MSFC) is called a switch virtual interface (SVI). If you assign the
VLAN used for the SVI to an ACE, then the MSFC routes between the ACE and other Layer 3 VLANs.
By default, only one SVI can exist between an MSFC and an ACE. However, for multiple contexts, you
might need to configure multiple SVIs for unique VLANs on each context.
Trunk Mode How the interface is to interact with neighboring interfaces:
• Dynamic—The interface is to convert a link to a trunk link if the neighboring interface is set
to trunk or desirable mode.
• Dynamic Desirable—The interface is to actively attempt to convert a link to a trunk link. The
interface becomes a trunk interface if the neighboring interface is set to trunk, desirable, or auto
mode.
• Static—The interface is to enter permanent trunking mode and to negotiate converting a link
into a trunk link. The interface becomes a trunk interface even if the neighboring interface does
not change.
Desired Encapsulation Type of encapsulation to be used on the trunk port:
• Dot1Q—The interface is to use 802.1Q encapsulation.
• Negotiate—The interface is to negotiate with the neighboring interface to use ISL
(Inter-Switch Link) (preferred) or 802.1Q encapsulation, depending on the configuration and
capabilities of the neighboring interface.
• ISL—The interface is to use ISL encapsulation.
Native VLAN VLAN to use as the native VLAN for the trunk in 802.1Q trunking mode. VLAN 1 (1) is the default
native VLAN.
VLANs VLANs to which the interface belongs (allowable range is 1-4094). You can also enter ranges of
VLANs, such as 101-120, 130.
Prune VLANs VLANs that can be pruned (allowable range is 1-4094). VTP pruning blocks unneeded flooded
traffic to VLANs on trunk ports that are included in this field. Only VLANs included in this field
can be pruned. You can also specify ranges of VLANs that can be pruned, such as 75, 121-250, 351.
Table 5-17 Trunk Port Configuration Attributes (continued)
Field Description
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Chapter 5 Importing and Managing Devices
Configuring Devices
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device that you want to configure, and choose Interfaces > Switched
Virtual Interfaces.
The Interfaces table appears.
Step 3 In the Interfaces table, click Add to add a new SVI, or choose the interface you want to configure, and
click Edit.
The Switched Virtual Interfaces configuration window appears.
Step 4 In the VLANs field, specify the VLAN to use in one of the following ways:
• To specify a new VLAN, choose the first radio button, and then enter a new VLAN.
• To choose an existing VLAN, choose the second radio button, and choose one of the existing
VLANs.
Note You cannot modify a VLAN for an existing SVI.
Step 5 In the Description field, enter a description for the SVI. Valid entries are unquoted text strings with a
maximum of 240 characters including spaces.
Step 6 In the Administrative State field, choose Up or Down to indicate whether the SVI should be up or down.
Step 7 In the IP Address field, enter the IP address to be used for the interface on the MSFC in dotted-decimal
format.
Step 8 In the Netmask field, choose the subnet mask to be used for the IP address.
Step 9 Do one of the following:
• Click Apply to save your entries and to return to the Interfaces table.
• Click Cancel to exit the procedure without saving your entries and to return to the Interfaces table.
Related Topics
• Configuring Access Ports, page 5-43
• Configuring Trunk Ports, page 5-44
• Configuring Routed Ports, page 5-46
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
Configuring Routed Ports
You can configure routed ports on a specified device. A routed port is a physical port that acts like a port
on a router; however, it does not have to be connected to a router. A routed port is not associated with a
particular VLAN, as is an access port. A routed port behaves like a regular router interface, except that
it does not support VLAN subinterfaces. Routed ports can be configured with a Layer 3 routing protocol.
A routed port is a Layer 3 interface only and does not support Layer 2 protocols, such as Dynamic
Trunking Protocol (DTP) and Spanning Tree Protocol (STP).
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Configuring Devices
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device that you want to configure, and choose Interfaces > Routed Ports.
The Interfaces table appears.
Step 3 In the Interfaces table, choose the interface that you want to configure, and click Edit.
The Routed Ports configuration window appears.
Step 4 In the Description field, enter a description for the interface. Valid entries are unquoted text strings with
a maximum of 240 characters including spaces.
Step 5 In the Administrative State field, choose Up or Down to indicate whether the interface should be up or
down.
Step 6 In the Speed field, either specify the speed at which the interface is to operate or that the interface is to
automatically negotiate its speed:
• Auto—The interface is to automatically negotiate speed with the connected device.
• 10 Mbps—The interface is to operate at 10 Mbps.
• 100 Mbps—The interface is to operate at 100 Mbps.
• 1000 Mbps—The interface is to operate at 1000 Mbps.
Step 7 In the Duplex Mode field, specify whether the interface is to automatically negotiate its duplex mode,
or use full- or half-duplex mode:
• Auto—The interface is to automatically negotiate duplex mode with the connected device.
• Full—The interface is to operate in full-duplex mode. In this mode, two connected devices can send
and receive traffic at the same time.
• Half—The interface is to operate in half-duplex mode. In this mode, two connected devices can
either send or receive traffic.
Step 8 In the IP Address field, enter the IP address to be used for the interface in dotted-decimal format.
Step 9 In the Netmask field, choose the subnet mask to be used for the IP address.
Step 10 Do one of the following:
• Click Apply to apply your entries and to return to the Interfaces table.
• Click Cancel to exit the procedure without saving your entries and to return to the Interfaces table.
Related Topics
• Configuring Trunk Ports, page 5-44
• Configuring Switch Virtual Interfaces, page 5-45
• Configuring Access Ports, page 5-43
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
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Configuring Devices
Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs
You can add a VLANs and VLAN groups to a Catalyst 6500 series chassis or Cisco 7600 series router
that you use when configuring the interfaces for an installed ACE module, which does not have any
external physical interfaces. Instead, the ACE module uses internal VLAN interfaces. For information
about configuring VLANs for use with virtual contexts, see the “Configuring Virtual Context VLAN
Interfaces” section on page 12-6. For more information about VLANs and their use with ACE modules,
see the Cisco Application Control Engine Module Routing and Bridging Configuration Guide.
This section includes the following topics:
• Adding Device VLANs, page 5-48
• Displaying All Device VLANs, page 5-49
• Configuring Device Layer 3 VLANs, page 5-51
• Configuring Device Layer 2 VLANs, page 5-50
• Displaying All Device VLANs, page 5-49
• Creating VLAN Groups, page 5-52
Adding Device VLANs
You can add a VLAN to a Catalyst 6500 series chassis or Cisco 7600 series router.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device that you want to configure, and choose VLANs > Layer 2 or
VLANs > Layer 3.
The VLANs table appears.
Step 3 From the VLANs table, click Add.
The VLAN configuration window appears.
Step 4 Configure the VLAN using the information in Table 5-18.
Table 5-18 Device VLAN Configuration Attributes
Field Description
VLAN Unique identifier for the VLAN. Valid entries are from 1 to 4094.
Name Name for the VLAN.
Description Description for the VLAN. Valid entries are unquoted text strings with a maximum of 240 characters
including spaces.
Access Ports Access ports. From the Available Items list, click Add.To remove a port that you do not want to use,
choose the port from the Selected Items list, and click Remove.
Trunk Ports Trunk ports. From the Available Items list, click Add.To remove a port that you do not want to use,
choose the port from the Selected Items list, and click Remove.
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Configuring Devices
Step 5 Do one of the following:
• Click Apply to apply your entries and to return to the VLAN Management table.
• Click Cancel to exit the procedure without saving your entries and to return to the VLAN
Management table.
Related Topics
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
• Configuring Device Layer 2 VLANs, page 5-50
• Configuring Device Layer 3 VLANs, page 5-51
• Displaying All Device VLANs, page 5-49
• Creating VLAN Groups, page 5-52
Displaying All Device VLANs
You can display all configured VLANs on a Catalyst 6500 series chassis or Cisco 7600 series router.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device with VLANs that you want to display, and choose VLANs >
Summary.
The VLANs table appears, listing all VLANs on the selected chassis and related information:
• VLAN number
• Name given to the VLAN
• VLAN type, such as Layer 2 or Layer 3
• Number of access ports
• Number of trunk ports
VTP Domain Name of the VTP domain to which the VLAN belongs.
A VTP domain is made up of one or more interconnected network devices that share the same VTP
domain name. A network device can be configured to be in one and only one VTP domain.
IP Address Field that appears for Layer 3 VLANs only.
Enter the IP address to be used for the VLAN interface. Enter the IP address in dotted-decimal
notation, such as 192.168.1.1.
Mask Field that appears for Layer 3 VLANs only.
Choose the subnet mask to apply to the IP address.
Table 5-18 Device VLAN Configuration Attributes (continued)
Field Description
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Configuring Devices
• VLAN Trunking Protocol (VTP) domain to which the VLAN belongs
Related Topics
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
• Configuring Device Layer 2 VLANs, page 5-50
• Configuring Device Layer 3 VLANs, page 5-51
• Displaying All Device VLANs, page 5-49
• Creating VLAN Groups, page 5-52
Configuring Device Layer 2 VLANs
You can add or modify a Layer 2 VLAN on a Catalyst 6500 series chassis or Cisco 7600 series router.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device that you want to configure a Layer 2 VLAN for, and choose
VLANs > Layer 2.
The VLANs table appears, listing all Layer 2 VLANs associated with the chassis.
Step 3 Click Add to add a new VLAN, or choose an existing VLAN, and then click Edit to modify it.
The VLAN configuration window appears.
Step 4 Configure the VLAN using the information in Table 5-18.
Step 5 Do one of the following:
• Click Apply to apply your entries and to return to the VLAN Management table.
• Click Cancel to exit the procedure without saving your entries and to return to the VLAN
Management table.
Related Topics
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
• Adding Device VLANs, page 5-48
• Configuring Device Layer 3 VLANs, page 5-51
• Displaying All Device VLANs, page 5-49
• Creating VLAN Groups, page 5-52
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Configuring Devices
Configuring Device Layer 3 VLANs
You can add or modify a Layer 3 VLAN on a Catalyst 6500 series chassis or Cisco 7600 series router.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device that you want to configure a Layer 3 VLAN for, and choose
VLANs > Layer 3.
The VLANs table appears, listing all Layer 3 VLANs associated with the chassis.
Step 3 In the VLANs table, click Add to add a new VLAN, or choose an existing VLAN, and click Edit to
modify it.
The VLAN configuration window appears.
Step 4 Configure the VLAN using the information in Table 5-18.
Step 5 Do one of the following:
• Click Apply to apply your entries and to return to the VLAN Management table.
• Click Cancel to exit the procedure without saving your entries and to return to the VLAN
Management table.
Related Topics
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
• Information About Virtual Contexts, page 6-2
Modifying Device VLANs
You can modify VLANs for a specific device.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device with the VLAN that you want to modify, and choose VLANs >
Layer 2 or VLANs > Layer 3.
The VLANs table appears.
Step 3 Choose the VLAN you want to modify, and then click Edit.
The VLAN configuration window appears.
Step 4 Modify the VLAN configuration using the information in Table 5-18.
Step 5 Do one of the following:
• Click Apply to save your entries and to return to the VLANs table.
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• Click Cancel to exit the procedure without saving your entries and to return to the VLANs table.
Related Topics
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
• Displaying All Device VLANs, page 5-49
• Adding Device VLANs, page 5-48
• Creating VLAN Groups, page 5-52
Creating VLAN Groups
You can create VLAN groups on a Catalyst 6500 series chassis or Cisco 7600 series router and assign
each group an ACE module. For an ACE module to receive traffic from the Catalyst supervisor module
and VSS devices, you must create VLAN groups on the supervisor module, and then assign the groups
to the ACE module. When the VLANs are configured on the supervisor module to the ACE module, you
can configure the VLANs on the ACE module.
You cannot assign the same VLAN to multiple groups; however, you can assign multiple groups to an
ACE module. VLANs that you want to assign to multiple ACE modules, for example, can reside in a
separate group from VLANs that are unique to each ACE module.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the device that you want to create a VLAN group for, and choose VLANs >
Groups.
The Groups table appears.
Step 3 Click Add to add a new VLAN group, or choose an existing VLAN group, and click Edit to modify it.
The Groups configuration window appears.
Step 4 In the VLAN Group Id field, enter a unique numerical identifier for the VLAN group.
Valid entries are unquoted number strings with any value between 1-65535. Available Module Slot
numbers will appear underneath this field.
Step 5 In the Module Slot Numbers field, select the ACE module(s) that you want to associate with the VLAN
group.
Step 6 Double click or the number, or single click the arrow to the right of the Available Modules field for the
slot numbers to the Selected field.
Step 7 In the VLANs field, enter the VLANs to be included in the VLAN group. Valid entries are individual
names for each VLAN or ranges of VLANs (allowable range is 1-4094), such as 10, 50-110.
Step 8 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Groups table.
• Click Cancel to exit the procedure without saving your entries and to return to the Groups table.
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Configuring ACE Module and Appliance Role-Based Access Controls
• Click Next to deploy your entries and to add another VLAN group.
Related Topics
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
• Configuring Device Layer 3 VLANs, page 5-51
• Configuring Device Layer 2 VLANs, page 5-50
• Displaying All Device VLANs, page 5-49
Configuring ACE Module and Appliance Role-Based Access
Controls
ANM provides an interface to allow you to configure device Role-Based Access Control (RBAC) on the
device only. The RBAC feature applies to ACE modules and appliances only and is applicable only on
the device and is not enforced by ANM. If you want to set up authorization in ANM, go to Admin >
Role-Based Access Control.
This section includes the following topics:
• Configuring Device RBAC Users, page 5-53
• Configuring Device RBAC Roles, page 5-56
• Configuring Device RBAC Domains, page 5-61
Configuring Device RBAC Users
ANM provides an interface that allows you to configure user access to your device through role-based
access controls on the device only. This configuration is applicable only on the device and will not be
enforced by ANM.
Use the Role-Based Access Control feature to specify the people that are allowed to log onto a device.
This section includes the following topics:
• Guidelines for Managing Users, page 5-53
• Displaying a List of Device Users, page 5-54
• Configuring Device User Accounts, page 5-54
• Modifying Device User Accounts, page 5-55
• Deleting Device User Accounts, page 5-56
Guidelines for Managing Users
Follow these guidelines for managing users:
• For users that you create in the Admin context, the default scope of access is for the entire ACE.
• If you do not assign a role to a new user, the default user role is Network-Monitor. For users that
you create in other contexts, the default scope of access is the entire context.
• Users cannot log in until they are associated with a domain and a user role.
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• You cannot delete roles and domains that are associated with an existing user.
Related Topics
• Configuring Device RBAC Users, page 5-53
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Displaying a List of Device Users
You can display of list of users that can access an ACE context.
Procedure
Step 1 Choose Config > Devices > context > Role-Based Access Control > Users.
The Users table appears with the following fields:
• User Name
• Expiry Date
• Role
• Domains
Step 2 (Optional) You can use the options in this window to create a new user or modify or delete any existing
user to which you have access (see Table 5-19).
Related Topics
• Configuring Device RBAC Users, page 5-53
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Configuring Device User Accounts
You can add or modify a user account in a selected ACE context.
Note This configuration is applicable only on the device or building block and is not enforced by ANM. To
manipulate ANM RBAC, go to Admin > Role-Based Access Control.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Device RBAC > Users.
• To configure a configuration building block, choose Config > Global > Building Blocks >
building_block > Role-Based Access Control > Users.
A list of users appears.
Step 2 In the Users table, click Add to add a new user, or choose the user that you want to configure and click
Edit.
The Users configuration window appears.
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Step 3 Configure the user attributes using the information in Table 5-19.
Step 4 Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
The Users table appears.
Related Topics
• Configuring Device RBAC Users, page 5-53
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Modifying Device User Accounts
You can modify an existing user account in a selected ACE context.
Note This configuration is applicable only on the device or building block and will not be enforced by ANM.
To manipulate ANM RBAC, go to Admin > Role-Based Access Control.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Device RBAC > Users.
• To configure a configuration building block, choose Config > Global > Building Blocks >
building_block > Role-Based Access Control > Users.
A table of users, expiration dates, roles, and domains appears.
Step 2 Choose the user account that you want to modify.
Step 3 Click Edit.
Step 4 Modify any of the attributes in the table (see Table 5-19).
Table 5-19 User Attributes
Field Description
User Name Name by which the user is to be identified (up to 24 characters). Only letters, numbers, and an
underscore can be used. The field is case sensitive.
Expiry Date Date that user account expires (optional).
Password Entered As Password for this user account. You can choose Clear Text or Encrypted Text.
Password Password for the user account.
Confirm Password Password for this account that you reenter.
Encryption Password in either clear or encrypted text.
Role Role that you customize or accept as an existing role. To enter the Role for this user, see the
“Configuring Device User Roles” section on page 5-58. See Table 5-20 for details about setting up
new roles.
Domains Domains to which this user belongs. Use the Add and Remove buttons.
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Step 5 Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
The Users table appears.
Related Topics
• Configuring Device RBAC Users, page 5-53
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Deleting Device User Accounts
You can delete an existing device RBAC user account in a selected ACE context.
Note This configuration is applicable only on the device or building block and will not be enforced by ANM.
To manipulate ANM RBAC, go to Admin > Role-Based Access Control.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Device RBAC > Users.
• To configure a configuration building block, choose Config > Global > Building Blocks >
building_block > Role-Based Access Control > Users.
A table of users, roles, and domains appears.
Step 2 In the table, choose the user account to delete, and click Delete.
A confirmation window appears.
Step 3 In the confirmation window, do one of the following:
• Click OK to remove the user account from the ANM database and return to the Users table.
• Click Cancel to return to the Users table without deleting the user account.
Related Topics
• Configuring Device RBAC Users, page 5-53
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Configuring Device RBAC Roles
This section shows how to configure RBAC roles and includes the following topics:
• Guidelines for Managing User Roles, page 5-57
• Role Mapping in Device RBAC, page 5-57
• Configuring Device User Roles, page 5-58
• Modifying Device User Roles, page 5-60
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• Deleting Device User Roles, page 5-60
Guidelines for Managing User Roles
Follow these guidelines to manage user roles:
• Administrators can view and modify all roles.
• Other users can view only the roles assigned to them.
• You cannot change the default roles.
• Role permissions are different based on whether they were created in either an Admin context or in
a user context. If you want to allow users to switch between contexts, ensure that they have a
predefined role. If you want to restrict a user to only their home context, assign them a customized
user role.
• Certain role features are available only to default roles, for example, an Admin role in the Admin
context would have changeto and system permissions to perform tasks such as license management,
resource class management, HA setup, and so on. User-created roles cannot use these features.
Related Topics
• Role Mapping in Device RBAC, page 5-57
• Controlling Access to Cisco ANM, page 18-3
• Configuring Device RBAC Users, page 5-53
• Configuring Device RBAC Roles, page 5-56
• Configuring Device RBAC Domains, page 5-61
• How ANM Handles Role-Based Access Control, page 18-8
Role Mapping in Device RBAC
When you are logged into a specific device RBAC, you see the tasks that you have been given permission
to access. Features and menus that are not applicable for your role will not display.
Since the predefined roles encompass all the role types you may need, we encourage you to use them. If
you choose to define your own roles, be aware that rules features are not a one-to-one mapping from a
CLI feature to ANM menu task.
Defining the proper rules for your user-defined role will require you to create a mapping between the
features in Device RBAC and the ANM menu tasks. For example, in order to manage virtual servers, you
must choose the following six menu features (Real Servers, Server Farms, VIP, Probes, Loadbalance,
NAT, and Interface) in your role.
Note Certain features in ANM do not have a corresponding feature mapping on the CLI. For example, class
maps and SNMP do not have a corresponding feature mapping. To modify these features, you need to
choose a predefined role that a contains at least one feature with the Modify permission on it.
Related Topics
• How ANM Handles Role-Based Access Control, page 18-8
• Understanding Roles, page 18-6
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Configuring Device User Roles
You can edit the predefined roles, or you can create or edit user-defined roles. When you create a new
role, you specify a name and description of the new role, and then choose the operations privileges for
each task. You can also assign this role to one or more users.
Note This configuration is applicable only on the device or building block and will not be enforced by the
ANM. To manipulate the ANM RBAC, go to Admin > Role-Based Access Control.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Device RBAC > Roles.
• To configure a configuration building block, choose Config > Global > Building Blocks >
building_block > Role-Based Access Control > Roles.
A table of the defined roles and their settings appears.
Step 2 In the table, choose the type of configuration that you want to perform as follows:
• To add a new role, click Add, enter the attributes described in Table 5-20, and then click Deploy
Now to deploy this configuration on the ACE and save your entries to the running-configuration and
startup-configuration files.
• To edit an existing role, choose the role, and click Edit.
The Roles configuration window appears.
Step 3 Click Edit.
The Rule table appears.
Step 4 In the Rule table, click Add to create rules for this role, or choose the rule that you want to configure,
and click Edit.
See Table 5-21 for rule attribute descriptions.
Table 5-20 Role Attributes
Attribute Description
Name Name of the role.
Description Brief description of the role.
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Step 5 Click Deploy Now to update the rule for this role or click Next to deploy this rule and move to another
rule.
Step 6 Click Deploy Now to update this role and save this configuration to the running-configuration and
startup-configuration files.
Related Topics
• Configuring Device RBAC Roles, page 5-56
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Table 5-21 Rule Attributes
Attribute Description
Rule Number Number assigned to this rule.
Permission Permit or deny the specified operation.
Operation Create, debug, modify1
, and monitor the specified feature.
1. Certain features are not available for certain operations. For modify, the following features cannot be used: Changeto, config-copy, DHCP,
Exec-commands, NAT, real-inservice, routing, and syslog.
Feature AAA, Access List, Change To Context, Config Copy, Connection, DHCP, Exec-Commands, Fault
Tolerant, Inspect, Interface, Load Balance, NAT, PKI, Probe, Real Inservice, Routing, Real Server, Server
Farm, SSL2
, Sticky, Syslog, and VIP.
The Changeto feature allows you to move from the Admin context to another virtual context and maintain
the same role with the same privileges in the new context that you had in the Admin context. This feature
applies only to the Admin context and to the following ACE software versions:
• ACE module software Version A2(1.3) and later releases.
• ACE appliance software Version A3(2.2) and later releases.
The Exec-commands feature enables all default custom role commands in the ACE. The default custom
role commands are capture, debug, gunzip, mkdir, move, rmkdir, tac-pac, untar, write, and undebug. This
feature applies to both Admin and user contexts and to the following ACE software versions:
• ACE module software Version A2(1.3) and later releases.
• ACE appliance software Version A3(2.2) and later releases.
2. For all SSL-related operations, a user with a custom role should include the following two rules: A rule that includes the SSL feature, and a rule that
includes the PKI feature.
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Modifying Device User Roles
You can modify any user-defined role.
Note This configuration is applicable only on the device or building block and will not be enforced by ANM.
To manipulate ANM RBAC, go to Admin > Role-Based Access Control.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Device RBAC > Roles.
• To configure a configuration building block, choose Config > Global > Building Blocks >
building_block > Role-Based Access Control > Roles.
A table of the defined roles and their settings appears.
Step 2 In the table, choose the role that you want to modify.
Step 3 Click Edit. For details on updating role rules, see Table 5-21.
Step 4 Make the changes.
For details on updating role rules, see the “Adding, Editing, or Deleting Rules” section on page 5-61.
Step 5 Click Deploy Now to update the rules for this role and save this configuration to the
running-configuration and startup-configuration files.
Related Topics
• Configuring Device RBAC Roles, page 5-56
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Deleting Device User Roles
You can delete any user-defined roles.
Note This configuration is applicable only on the device or building block and will not be enforced by ANM.
To manipulate ANM RBAC, go to Admin > Role-Based Access Control.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Device RBAC > Roles.
• To configure a configuration building block, choose Config > Global > Building Blocks >
building_block > Role-Based Access Control > Roles.
The Roles table appears.
Step 2 In the Roles table, choose the role to delete, and click Delete.
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Step 3 Click OK to confirm the deletion.
Users that have the deleted role no longer have that access.
Related Topics
• Configuring Device RBAC Roles, page 5-56
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Adding, Editing, or Deleting Rules
You can change or delete rules to redefine what feature access a specific role contains.
Note This configuration is applicable only on the device or building block and will not be enforced by ANM.
To manipulate ANM RBAC, go to Admin > Role-Based Access Control.
Procedure
Step 1 After selecting the user-defined role, click Edit.
The Rule window appears.
Step 2 Do one of the following:
• To create a new rule, click Add. Enter the rule information (see Table 5-21 on page 5-59), and then
click Deploy Now to add the rule or Next to deploy this rule and add another rule.
• To change an existing rule, choose a rule and click Edit. Click Deploy Now to save this rule to the
running-configuration and startup-configuration files.
• To remove rules from a role, choose the rules to remove, and click Delete. Click OK to confirm its
deletion.
Step 3 Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
Related Topics
• Configuring Device RBAC Roles, page 5-56
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Configuring Device RBAC Domains
You can configure device RBAC domains.
This section includes the following topics:
• Guidelines for Managing Domains, page 5-62
• Displaying Domains for a Device, page 5-62
• Configuring Device Domains, page 5-63
• Modifying Device Domains, page 5-65
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• Deleting Device Domains, page 5-65
Related Topics
• Information About Device Management, page 5-2
• How ANM Handles Role-Based Access Control, page 18-8
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Guidelines for Managing Domains
Follow these guidelines for managing domains:
• Devices and their components must already be configured in order for them to be added to a domain.
• Domains are logical concepts. You do not delete a member of a domain when you delete the domain.
• The predefined default domain cannot be modified or deleted.
• Normally, a user is associated with the default domain, which allows the user to see all
configurations within the context. When a user is configured with a customized domain, then the
user can see only what is in the domain.
Related Topics
• Configuring Device RBAC Domains, page 5-61
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Displaying Domains for a Device
You can display domains for a device.
Note Your user role determines whether you can use this option.
Procedure
Step 1 Choose the item to view:
• To view a domain for the device’s virtual context, choose Config > Devices > context > Device
RBAC > Domains.
• To view a domain for a configuration building block, choose Config > Global > Building Blocks >
building block > Role-Based Access Control > Domains.
The Domains table appears.
Step 2 Expand the Domains table until you can see all the network domains.
Step 3 Choose a domain to display the settings for that domain.
You can also perform these tasks from this window:
• Configuring Device Domains, page 5-63
• Modifying Device Domains, page 5-65
• Deleting Device Domains, page 5-65
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Related Topics
• Configuring Device RBAC Domains, page 5-61
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Configuring Device Domains
You can add or modify domains on a selected device, such as a Catalyst 6500 series chassis.
Note This configuration is applicable only on the device or building block and will not be enforced by ANM.
To manipulate ANM RBAC, go to Admin > Role-Based Access Control.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Device RBAC > Domains.
• To configure a configuration building block, choose Config > Global > Building Blocks >
building_block > Role-Based Access Control > Domains.
The Domains table appears.
Step 2 In the Domains table, choose the type of configuration that you want to perform:
• To add a new domain, click Add, enter the Domain Name, and then click Deploy Now to deploy this
configuration on the ACE and save your entries to the running-configuration and
startup-configuration files.
• To edit a domain, choose the domain that you want to configure, and then click Edit.
The Domain Object field appears below the Domain Name in the content area.
Step 3 Click Edit to enter the Domain Object table.
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Step 4 In the Domain Object table, choose the type of configuration that you want to perform:
• Click Add to create domain objects for this domain. See Table 5-22 for Domain Object attributes.
• To remove an object, choose the object that you want to remove, and then click Delete.
Step 5 Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
The Domains Edit window updates and displays the total object number next to the object name.
Related Topics
• Configuring Device RBAC Domains, page 5-61
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Table 5-22 Domain Attributes
Field Description
Name Field that appears when any specific object type is selected. Name of an existing object defined.
All Objects Collection of objects in this domain. The following options may be available depending on your virtual
context:
• All
• Access List EtherType
• Access List Extended
• Class Map
• Interface VLAN
• Interface BVI
• Parameter Map
• Policy Map
• Probe
• Real Server
• Script
• Server Farm
• Sticky
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Modifying Device Domains
You can change the settings in a domain.
Note This configuration is applicable only on the device or building block and will not be enforced by ANM.
To manipulate ANM RBAC, go to Admin > Role-Based Access Control.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Device RBAC > Domains.
• To configure a configuration building block, choose Config > Global > Building Blocks >
building_block > Role-Based Access Control > Domains.
Step 2 Choose the domain that you want to edit.
Step 3 Click Edit.
The Edit Domain window appears.
Step 4 Edit the object fields (see Table 5-22).
Step 5 Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
Related Topics
• Configuring Device RBAC Domains, page 5-61
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Deleting Device Domains
You can delete a network domain from ANM, and all the devices and subdomains that it contains.
Note This configuration is applicable only on the device or building block and will not be enforced by ANM.
To manipulate ANM RBAC, go to Admin > Role-Based Access Control.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Device RBAC > Domains.
• To configure a configuration building block, choose Config > Global > Building Blocks >
building_block > Role-Based Access Control > Domains.
The Domains table appears.
Step 2 In the Domains table, choose the domain that you want to delete.
Step 3 Click Delete.
A prompt asks you to confirm this action.
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Step 4 Click OK.
The domain is removed from the ANM database.
Related Topics
• Configuring Device RBAC Domains, page 5-61
• Configuring ACE Module and Appliance Role-Based Access Controls, page 5-53
Managing Devices
This section describes how to manage devices.
This section includes the following topics:
• Synchronizing Device Configurations, page 5-66
• Mapping Real Servers to VMware Virtual Machines, page 5-68
• Instructing ANM to Recognize an ACE Module Software Upgrade, page 5-71
• Configuring User-Defined Groups, page 5-72
• Changing Device Credentials, page 5-75
• Changing ACE Module Passwords, page 5-77
• Restarting Device Polling, page 5-78
• Displaying All Devices, page 5-78
• Displaying Modules by Chassis, page 5-79
• Removing Modules from the ANM Database, page 5-80
Synchronizing Device Configurations
ANM provides three levels of synchronization. You can choose to synchronize from the device to ANM
as follows:
• From the chassis level—Use this level when you want to synchronize Catalyst 6500 series chassis
and module updates. See the “Synchronizing Chassis Configurations” section on page 5-67.
• From the ACE module level—Use this level when you want to synchronize changes to your ACE or
CSM modules, such as new virtual contexts. See the “Synchronizing Module Configurations”
section on page 5-67.
• From the virtual context level —Use this level in the Admin context to synchronize all current and
new virtual contexts or at the user context level to synchronize a specific user context. See the
“Synchronizing Virtual Context Configurations” section on page 6-105.
Caution If you see a difference in device information between what ANM displays and what you see by directly
accessing the device through the CLI, ANM displays the data that is the least accurate. This condition
can occur when the device is modified outside of ANM by using the CLI. We recommend that you
synchronize the network devices up to the ANM using the synchronization option, which makes the
ANM data more accurate.
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Synchronizing Chassis Configurations
You can manually synchronize the configuration for Catalyst 6500 series switches, CSS devices, GSS
devices and ACE appliances when there have been changes to a device that are not tracked in ANM.
Note ANM does not support auto synchronization for the Catalyst 6500 series switches, Cisco 7600 series
routers, CSM, CSS, GSS, or VSS devices. Be sure to synchronize configurations on these devices after
import, and whenever their configurations have been modified through the CLI.
The following require synchronization:
• Upgrading chassis hardware or software
• Adding new modules to the chassis
• Removing a module from a chassis
• Rearranging modules within the chassis
• Upgrading module software
• Changing the chassis configuration using the CLI instead of the ANM
Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the device with the configuration that you want to synchronize, and click
CLI Sync.
A popup confirmation window appears asking you to confirm the synchronization.
Step 3 In the confirmation window, click OK to synchronize the configuration or Cancel to cancel the
synchronization.
ANM displays the status while synchronization is in progress and returns to the All Devices table when
synchronization is complete.
Related Topics
• Configuring Devices, page 5-34
• Synchronizing Module Configurations, page 5-67
• Restarting Device Polling, page 5-78
Synchronizing Module Configurations
You can synchronize configurations for ACE modules or CSM modules when changes are made that
have not been tracked in ANM.
The following module changes require synchronization:
• Upgrading module software
• Changing the module configuration using the CLI instead of the ANM
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Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the chassis that contains the module with the configuration that you want
to synchronize, and click Modules.
The Modules table appears.
Step 3 In the Modules table, choose the module with the configuration you want to synchronize, and click Sync.
A popup confirmation window appears asking you to confirm the synchronization.
Step 4 In the confirmation window, click OK to synchronize the configuration or Cancel to cancel the
synchronization.
ANM displays the status while synchronization is in progress and returns to the Modules table when
synchronization is complete.
Related Topics
• Configuring Devices, page 5-34
• Managing Devices, page 5-66
• Synchronizing Device Configurations, page 5-66
Mapping Real Servers to VMware Virtual Machines
This section describes how ANM maps ACE, CSS, CSM, or CSM-S real servers to VMware vCenter
Server VMs when you integrate ANM with a VMware virtual data center. This section also shows how
you can display and manage the mappings associated with a VMware vCenter Server.
Note To map a real server to a VM, the real server must be associated with a server farm (see the “Configuring
Server Farms” section on page 8-30).
ANM uses the following methods to map a real server to a VM:
• IP Match—ANM matching the real server IP addresses to the VM IP address. This is the default
mapping method that ANM uses and requires the following items:
– Before you import a VMware vCenter Server into ANM along with its associated VMs,
configure a real server in ANM for each VM about to be imported with the vCenter Server.
Configure each real server with the IP address of a VM. For more information, see the
“Configuring Real Servers” section on page 8-5 and the “Importing VMware vCenter Servers”
section on page 5-24.
– ANM must be able to determine the IP address of a VM, which is accomplished by installing
VMware Tools on the guest operating system (OS) of the VM.
• Name Match—ANM matches the real server name to the VM name. This is the backup mapping
method that ANM uses if it cannot match any IP address for the VM. This method requires
consistent use of the device names throughout the network.
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Note For the CSM and CSM-S, the VM name must be in uppercase because the CSM and CSM-S
real server names are always in upper case and the mapping is case sensitive though the CSM
and CSM-S is case insensitive. From vSphere Client, you can change a VM name to
uppercase by right-clicking on the VM in the VM tree and choosing Rename.
• Override—You specify the real server-to-VM mapping.
• Ignore—ANM ignores any mapping method.
ANM can detect when VMs are added or deleted to a VMware vCenter Server by listening to the server
events or by polling the server. When a new VM is detected, ANM uses the IP match method to try and
match the new VM with a real server.
Prerequisites
This topic includes the following prerequisites:
• Import the VMware vCenter Server into ANM (see the “Importing VMware vCenter Servers”
section on page 5-24).
• Register the ANM plug-in with the VMware vCenter Servers that you want to view and manage.
Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the VMware vCenter Server that contains the VMs that you want to
display and map.
The Primary Attribute table appears.
Step 3 Click VM Mappings.
The VM Mappings table appears. Table 5-3 describes the information that displays in the VM Mappings
table.
Table 5-23 VM Mappings Table
Item Description
VM Name Name of the VM associated with the selected VMware vCenter Server.
IP Address(es) IP address of the VM.
Full Path Path of the VM on the VMware vCenter Server.
Rule Currently Applied Mapping rule applied: IP Match, Name Match, Override, or Ignore. This field is blank
if ANM is unable to find a real server match for the VM. You can manually map a real
server to the VM using the Edit Mapping feature (see Step 5).
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Note If the VM Mappings window does not display or a VM name contains hex values rather than
certain special characters, these conditions indicate that VM names associated with a vCenter
Server that you imported in to ANM contain special characters that ANM does not recognize.
For example, a VM name that contains a double quote (“) prevents ANM from displaying the
VM Mappings window. If a VM name contains a percent sign (%), backslash (\), or forward slash
(/), ANM displays the VM name in the VM Mappings window; however, these special characters
display as hex values (%25 for %, %5c for \, and %2f for /).
To correct these issues, remove the special characters from the VM names and then manually
perform a CLI synchronization (see Step 4).
Step 4 (Optional) To update the displayed real server to VM mapping information, manually perform a CLI
synchronization with the vCenter Server as follows:
a. Choose Config > Devices > All Devices. The All Devices table appears.
b. From the All Devices table, click the radio button associated with the desired vCenter Server.
c. Click CLI Sync.
Note You must perform this step to update the display if you import a Cisco device after you import
an associated vCenter Server.
Step 5 (Optional) To change the mapping rule applied to a VM, in the VM Mappings window, check the
checkbox next to the VM names to edit and click Edit Mappings.
The VM Mappings edit window appears, providing a list of the selected VMs and the mapping rule
options.
Step 6 From the VM Mappings edit window, choose one of the following options from the Mapping Rule
drop-down list:
• IP Match—Map the VMs to ACE real servers based on matching IP addresses. Skip to Step 8.
• Name Match—Map the VMs to ACE real servers based on matching device names. Skip to Step 8.
• Ignore—Ignore any mapping rule and do not map the VM to an ACE real server. Skip to Step 8.
ACE Real Server(s) ACE real server that the VM maps to on ANM.
Note the following:
• This field is blank if ANM is unable to find a real server match for the VM. You
can manually map a real server to the VM using the Edit Mapping feature (see
Step 5).
• If the VM has been deleted in the vCenter Server but ANM still has the mapping,
a delete icon (red circle with an “x”) appears at the end of the real server ID. Click
the icon to remove the mapping from the table.
Last Updated Time Timestamp when the mapping information was obtained.
Table 5-23 VM Mappings Table (continued)
Item Description
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• Override—Map the VMs the specified ACE real servers. This option is available only when you
have one VM selected from the All Devices table (see Step 2). When you choose Override, ANM
displays the Select Real Server(s) table of available ACE real servers that includes the device
information, real server name, IP address, port number, and server farm to which the real server
belongs.
Step 7 If you chose the Override mapping rule, do one or both of the following:
• Check the checkbox next to the real servers to map the selected real servers to the VM. To select all
of the available real servers, check the Device checkbox located at the top of the table.
• Click Add to add a new real server. The Add a Real Server popup window appears. Define the new
real server as described in Table 5-24 and click Deploy Now.
Step 8 In the VM Mappings window, click OK to save the new mapping rule or Cancel to cancel the change.
Related Topics
• Configuring Real Servers, page 8-5
• Importing VMware vCenter Servers, page 5-24
• Configuring VMware vCenter Server Primary Attributes, page 5-41
Instructing ANM to Recognize an ACE Module Software Upgrade
When you upgrade the software of an ACE module that has been imported to the ANM database, perform
the procedure outlined in this section to enable ANM to recognize the updated release and display
features and functions in the ANM GUI that are appropriate for the ACE module software upgrade.
For example, if an imported ACE module contains software Version A2(2.1), and you wish to upgrade
to software Version A2(3.0) to take advantage of features such as backup and restore, you must perform
the steps outlined below to instruct ANM to recognize the upgraded ACE module software version and
Table 5-24 Adding a Real Server for VM Mapping
Item Description
Real Server Name Unique name for this server or accept the automatically incremented value in this field. Valid
entries are unquoted text strings with no spaces and a maximum of 64 characters.
Real Server IP Address Unique IP address in dotted-decimal format (such as 192.168.11.1). The IP address cannot be an
existing virtual IP address (VIP).
Real Server Port Port used for communication with the real server.
Real Server Weight Weight to be assigned to this real server in a server farm. Valid entries are from 1 to 100, and the
default is 8.
Real Server State State of the real server when deployed:
• In Service—The real server is in service.
• Out Of Service—The real server is out of service.
ACE Virtual Context Virtual context that is associated with the real server.
Serverfarm Server farm to which the real server belongs.
Virtual Servers Virtual server that is associated with the real server.
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display the features and functions associated with this release. If you do not instruct ANM to recognize
an ACE module software upgrade, the ACE module import will occur without issue but the new features
and functions associated a specific ACE module software release will not appear in the ANM GUI.
Procedure
Step 1 After you upgrade an ACE module software image, perform a CLI sync on the module’s host device (see
the “Synchronizing Chassis Configurations” section on page 5-67).
Step 2 After you complete the CLI sync, whenever ANM detects an upgrade on an imported ACE module,
ANM issues a warning to instruct you to perform a CLI sync on the ACE module to recognize the
upgrade. Perform the procedure described in the “Synchronizing Module Configurations” section on
page 5-67.
The ACE software upgrade sequence is completed.
Configuring User-Defined Groups
You can create logical groupings of virtual contexts or chassis for ease of management. These logical
groups are known as user-defined groups and appear in the device tree (Config > Devices) in the folder
named Groups for quick access.
Users can create their own groups, add and remove members, and assign group names that suit their
environment and are meaningful to them.
This section includes the following topics:
• Adding a User-Defined Group, page 5-72
• Modifying a User-Defined Group, page 5-73
• Duplicating a User-Defined Group, page 5-74
• Deleting a User-Defined Group, page 5-75
Note Device groups continue to display device information even after you remove that device from ANM,
which allows the device group information to be easily reassociated if you reimport the device. The
device name must remain the same.
Adding a User-Defined Group
You can add a user-defined group.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose Groups.
The Groups table appears.
Step 3 Click Add to add a new group, or choose an existing group, and click Edit to modify it.
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The Group configuration window appears.
Step 4 In the Name field of the Group configuration window, enter a unique name for this group.
Valid entries are unquoted text strings with no spaces and a maximum of 26 alphanumeric characters.
The window identifies the objects by type and provides a search field for each:
• Virtual Context Members
• Device Members
• Module Members
• CSM Members
Step 5 To add objects to the group, for each object type, choose the object in the Available Items list, and click
Add.
The selected objects appear in the Selected Items list.
To remove objects that you do not want to include, choose the objects in the Selected Items list, and click
Remove. The items then appear in the Available Items list.
To search for specific objects, enter a search string that contains the object name or part of the object
name in the Search field, and then click Search. The Available Items list refreshes with the objects that
meet the search criteria.
Step 6 In the Description field, enter a description for this group.
Step 7 Do one of the following:
• Click Save to accept your entries and to return to the Groups table.
• Click Cancel to exit this procedure without saving your entries and to return to the Groups table.
Related Topics
• Configuring User-Defined Groups, page 5-72
• Modifying a User-Defined Group, page 5-73
• Duplicating a User-Defined Group, page 5-74
• Deleting a User-Defined Group, page 5-75
Modifying a User-Defined Group
You can change the members or the description of a user-defined group. You cannot change the name of
an existing user-defined group.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, click Groups.
The Groups table appears.
Step 3 In the Groups table, choose the group that you want to modify, and click Edit.
The Group configuration window appears.
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Step 4 In each Members field of the Group configuration window, add or remove group members as follows:
• Choose the items that you want to add to this group in the Available Items list, and click Add.
• Choose the items that you want to remove from this group in the Selected Items list, and click
Remove.
Step 5 In the Description field, modify the description as needed.
Step 6 Do one of the following:
• Click Save to accept your entries and to return to the Groups table.
• Click Cancel to exit this procedure without saving your entries and to return to the Groups table.
Related Topics
• Configuring User-Defined Groups, page 5-72
• Adding a User-Defined Group, page 5-72
• Duplicating a User-Defined Group, page 5-74
• Deleting a User-Defined Group, page 5-75
Duplicating a User-Defined Group
You can duplicate a user-defined group.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, click Groups.
The Groups table appears.
Step 3 In the Groups table, choose the user-defined group that you want to duplicate, and click Duplicate.
A popup window appears asking you to enter a new name.
Step 4 In the popup window, type the new group name, and click OK.
The Groups table refreshes and the duplicated group name appears in the list.
Related Topics
• Configuring User-Defined Groups, page 5-72
• Adding a User-Defined Group, page 5-72
• Modifying a User-Defined Group, page 5-73
• Deleting a User-Defined Group, page 5-75
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Deleting a User-Defined Group
You can delete a user-defined group.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, click Groups.
The Groups table appears.
Step 3 In the Groups table, choose the user-defined group that you want to remove, and click Delete.
A popup confirmation window appears asking you to confirm the deletion.
Step 4 In the popup confirmation window, do one of the following:
• Click OK to delete the selected user-defined group.
The Groups table refreshes and the deleted group no longer appears.
• Click Cancel to exit this procedure without deleting the group.
The Groups table refreshes.
Related Topics
• Configuring User-Defined Groups, page 5-72
• Adding a User-Defined Group, page 5-72
• Modifying a User-Defined Group, page 5-73
• Duplicating a User-Defined Group, page 5-74
Changing Device Credentials
You can change the credentials associated with a device managed by ANM. Each device that you import
into ANM has a device username and password associated with it that ANM uses to access the device.
Some device types, such as the GSS, also have a device enable password associated with them. From
ANM, you can change the device credentials in the ANM database to match a change made to the
credentials on a device using the CLI. This feature allows you to change the device credentials without
having to rediscover or reimport the device.
This procedure applies to the following device types that have been imported into ANM:
• ACE appliance
• Global Site Selector (GSS)
• Content Services Switch (CSS)
• Catalyst 6500 Virtual Switching System (VSS) 1440
• Catalyst 6500 series switch
• Cisco 7600 series router
• VMware vCenter Server
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Note To change the credentials of an ACE module, see the “Changing ACE Module Passwords” section on
page 5-77.
Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
• You can change a device username, password, or both.
• We recommend changing the device credentials on the device before changing the credentials on
ANM.
Caution To maintain communication between ANM and the device, it is important that whatever
device credential change you make on the device, you make the same change on ANM.
Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the device with the passwords that you want to update in ANM, and
click Update Credentials.
The Update Credentials popup window appears.
Step 3 From the popup window, update the device credential using the information in Table 5-25.
Note All credential fields are mandatory, so even if you are updating the device password only, you
must enter the current device username.
Step 4 Do one of the following:
• Click OK to save your changes to ANM. Do the following:
a. If you have not already made a similar change to the device credentials on the device, use the
device CLI to make the changes now.
b. Perform a CLI synchronization to test communications between ANM and the device with
the new credentials (see the “Synchronizing Device Configurations” section on page 5-66).
Table 5-25 Update Device Credentials
Field Description
Username Existing or new device username.
New Password Existing or new device password.
Confirm New Password Confirmation of the device password.
New Enable Password1
1. GSS and Catalyst 6500 series switch only.
Existing or new device enable password.
Confirm Enable Password1 Confirmation of the device enable password.
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• Click Cancel to ignore any changes that you made and close the popup window.
Related Topics
• Configuring Devices, page 5-34
• Managing Devices, page 5-66
• Changing ACE Module Passwords, page 5-77
Changing ACE Module Passwords
You can change the ACE module username and password. All ACE modules shipped from Cisco are
configured with the same administrative username and password. Because changing the module
credentials can compromise network security, we recommend that you change the username and
passwords after you import the module into the ANM database.
Note This functionality is available only in Admin contexts.
Before You Begin
Import the ACE module into ANM and ensure that it is operational (see the “Importing ACE Modules
after the Host Chassis has been Imported” section on page 5-16).
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 In the device tree, choose the chassis device containing the ACE module with the password that you want
to change.
The Primary Attributes window appears.
Step 3 From the side menu, choose System > Module/Slots.
The Modules table appears.
Step 4 In the Modules table, choose the module with the password that you want to change and click Update
Credentials.
The Modules configuration window appears.
Step 5 In the Card Slot field, confirm that the correct module is selected.
Step 6 In the Card Type field, confirm that the correct version appears.
Step 7 In the Module Has Been Imported Into ANM field, confirm that the checkbox is checked to indicate that
the module has been imported. This is a read-only field.
Step 8 From the Operation To Perform drop-down list, choose Update Credentials.
Step 9 In the User Name field, enter the existing module username or enter a new username.
Step 10 In the New Password field, enter the existing device password or enter a new password.
Valid passwords are unquoted text strings with a maximum of 64 characters.
Step 11 In the Confirm field, verify the password that you entered in the New Password field.
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Step 12 Do one of the following:
• Click OK to save your changes to ANM. Do the following:
a. If you have not already made a similar change to the device credentials on the device, use the
device CLI to make the changes now.
b. Perform a CLI synchronization to test communications between ANM and the device with
the new credentials (see the “Synchronizing Device Configurations” section on page 5-66).
• Click Cancel to exit the procedure without saving your entries and to return to the Modules table.
Related Topics
• Importing ACE Modules after the Host Chassis has been Imported, page 5-16
• Configuring Devices, page 5-34
• Managing Devices, page 5-66
• Changing Device Credentials, page 5-75
Restarting Device Polling
You can restart monitoring on a device that has stopped or failed to start.
Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the device whose monitoring has stopped or failed, and click Restart
Polling.
The All Devices table refreshes with updated polling status. For a description of the various polling
status variables, see Table 5-26 on page 5-79.
If ANM cannot monitor the selected device, it displays an error message stating the reason.
Related Topics
• Configuring Devices, page 5-34
Displaying All Devices
You can display all devices that have been imported into the ANM database.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
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Step 2 In the device tree, choose All Devices.
The All Devices table displays information for the devices being managed by the ANM (see Table 5-26).
Related Topics
• Importing Network Devices into ANM, page 5-10
• Configuring Catalyst 6500 Series Chassis and Cisco 7600 Series Router Primary Attributes,
page 5-38
• Displaying Chassis Interfaces and Configuring High-Level Interface Attributes, page 5-42
Displaying Modules by Chassis
You can display all modules on a specific chassis.
Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Table 5-26 All Devices Table Attributes
Field Description
Name Name assigned to the device.
Type Type of the device, such as Chassis, ACE 4710, or CSS.
Version Version of the software running on the device, if available.
IP Address Device IP address.
Polling Status Current polling status of the device:
• Missing SNMP Credentials—SNMP credentials are not configured for this device; therefore, statistics
are not collected. Add SNMPv2C credentials to fix this error.
• Not Polled—SNMP polling has not started. Add SNMP V2C credentials to fix this error.
• Monitoring Not Supported—This status appears at the device level only and applies to Catalyst 6500
series chassis, Cisco 7600 series routers, and ACE appliances.
• Polling Failed—SNMP polling failed due to some internal error. Try enabling the SNMP collection
again.
• Polling Started—No action is required; everything is working properly. Polling states will display the
activity.
• Polling Timed Out—SNMP polling has timed out. This situation might occur if the wrong credentials
were configured or an internal error exists, such as the SNMP protocol is configured incorrectly or the
destination is not reachable. Verify that SNMP credentials are correct. If the problem persists, enable
SNMP collection again.
• Unknown—SNMP polling is not working due to one of the above-mentioned conditions. Check the
SNMPv2C credential configuration.
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Step 2 In the All Devices table, choose the chassis containing the modules that you want to view, and click
Modules.
The Modules table appears, listing all modules on that chassis with the following information:
• Slot number
• Service module model
• Module type, such as Cisco Content Switching Module (CSM), ACE module and version, or other
modules, such as supervisor modules
• Serial number
• Module operational state, such as Up, Powered Off, or Not Imported
• Version of software the module is running
• Brief description
• For ACE modules, the number of virtual contexts configured on the module
• For VSS devices, a Virtual Switch number column indicating the switch, slot, and port number. For
example, command interface 1/5/4 specifies port 4 of the switching module in slot 5 of switch 1.
Depending on the type of module selected, such as CSM or ACE modules, the following options are
available from this window:
• Import—Imports a CSM or ACE module that resides in the selected chassis but has not been
imported into the ANM database. For more information, see the “Importing ACE Modules after the
Host Chassis has been Imported” section on page 5-16 or the “Importing CSM Devices after the
Host Chassis has been Imported” section on page 5-19.
• Change Card Password—Changes the administrative password on an ACE module that has been
imported into the ANM database. For more information, see the “Changing ACE Module
Passwords” section on page 5-77.
• Do Not Manage—Removes a selected ACE module from the ANM database. For more information,
see the “Removing Modules from the ANM Database” section on page 5-80.
Step 3 (Optional) To display the modules of another chassis, choose another chassis in the device tree or use
the chassis selector field at the top of the window.
Related Topics
• Importing ACE Modules after the Host Chassis has been Imported, page 5-16
• Importing CSM Devices after the Host Chassis has been Imported, page 5-19
• Displaying Chassis Interfaces and Configuring High-Level Interface Attributes, page 5-42
• Managing Catalyst 6500 Series Chassis or Cisco 7600 Series Router VLANs, page 5-48
Removing Modules from the ANM Database
You can remove a module from the ANM database.
Note If you physically replace an ACE module in a chassis, you need to synchronize the chassis in the ANM.
See the “Synchronizing Chassis Configurations” section on page 5-67 for more information.
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Procedure
Step 1 Choose Config > Devices > All Devices.
The All Devices table appears.
Step 2 In the All Devices table, choose the device containing the module that you want to remove, and click
Modules.
The Modules table appears.
Step 3 In the Modules table, choose the module that you want to remove from ANM management, and click Do
Not Manage.
The Modules configuration window appears.
Step 4 In the Modules configuration window, confirm the information in the following fields:
• Card Slot
• Card Type
• Module Has Been Imported Into ANM
Step 5 In the Operation To Perform field, choose Do Not Manage.
Step 6 Do one of the following:
• Click OK to confirm removal of the module.
The Modules table refreshes and the removed module appears with the state Not Imported.
You can import the module again when desired (see the “Importing ACE Modules after the Host
Chassis has been Imported” section on page 5-16).
• Click Cancel to exit the procedure without removing the ACE module and to return to the Modules
table.
Related Topics
• Importing Network Devices into ANM, page 5-10
• Changing ACE Module Passwords, page 5-77
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Replacing an ACE Module Managed by ANM
Replacing an ACE Module Managed by ANM
This section describes the process that you must follow when replacing an ACE module that is currently
managed by ANM.You may need to replace an ACE module to perform a hardware upgrade or replace
a device associated with a Return Materials Authorization (RMA).
The procedures in this section show how to replace an ACE module using either the preferred method,
which uses the ANM GUI, or the alternate method, which uses a combination of the ACE CLI and the
ANM GUI.
Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
• The replacement process includes creating a backup of the ACE module being removed and
installing the backup on the replacement module. The final step is to run a script that maps the
domain attributes that were mapped to the old ACE module serial number to the new module serial
number. These domain attributes include items such as real servers, virtual servers, user groups,
custom groups, mobile favorites, and so forth.
Caution When replacing your ACE module, it is important that you complete the entire replacement procedure
before attempting to edit the properties of any domain. Editing the domains before running the script that
remaps existing domain attributes to the new ACE module serial number can result in the attributes being
removed.
• If you currently use an ACE10 or ACE20 module, you must upgrade to the ACE30 module with ACE
software Version A5(1.0) to use the new features associated with the A5(1.0) release in ANM 5.1.
For more information about a module upgrade, see the Cisco Application Control Engine (ACE30)
Module Installation Note.
Caution When replacing an ACE module that is part of a redundant pair providing high availability, be sure that
the ACE module being replaced is operating in the standby state and not in the active state. Replacing
an active redundant ACE module is a service-affecting operation.
The state information is displayed in the HA State and HA Autosync fields when you choose Config >
Devices > virtual_context. Force a switchover if needed to place the ACE module in the standby state
before you replace it.
Prerequisites
To perform the procedures in this section, you need a copy of the Cisco Application Control Engine
(ACE30) Module Installation Note which you can obtain on Cisco.com.
This section includes the following topics:
• Using the Preferred Method to Replace an ACE Module, page 5-82
• Using the Alternate Method to Replace an ACE Module, page 5-84
Using the Preferred Method to Replace an ACE Module
You can replace an ACE module currently managed by ANM by using the ANM GUI-based method.
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Note For details about any of the ANM GUI functions discussed in the following procedure, click Help to
display the context-sensitive help associated with the current GUI window.
Procedure
Step 1 From the ANM GUI, create a backup the ACE module that you are replacing using one of the following
methods:
• Choose Config > Devices > context > System > Backup / Restore. The Backup/Restore window
appears.
• Choose Config > Global > All Backups. The Backup window appears.
Note The Backup/Restore feature requires ACE module software Version A2(3.0) or later.
Save or copy the backup to a network location.
Step 2 Record the module serial number of the ACE module being replaced, which you will need in Step 11.
To obtain the module serial number, choose Config > Devices > All Devices, click the chassis that
contains the module being replaced, and click Modules.
Step 3 From the Cisco IOS host chassis, remove the ACE module that you want to replace (see the Cisco
Application Control Engine (ACE30) Module Installation Note).
Step 4 From the ANM GUI, perform a CLI synchronization with the Cisco IOS host chassis.
Note When you perform the CLI synchronization, all the threshold groups associated with the
removed ACE module are deleted.
Do the following:
a. Choose Config > Devices > All Devices. The Device Management window appears.
b. From the Device Management window, click the radio button associated with the host chassis.
c. Click CLI Sync.
A message similar to the following appears:
Warning: The module has been removed: serial#=SAL1413E2YK
Step 5 From the Cisco IOS host chassis, insert the replacement (new) ACE module into the chassis (see the
Cisco Application Control Engine (ACE30) Module Installation Note).
Step 6 Using the CLI, verify that the software on the replacement ACE is equal to or greater than the software
version used in the original ACE.
Upgrade the ACE software on the new device if needed. After the upgrade, reboot the ACE module and
verify that it is running with the correct software image to ensure that ANM can recognize it.
Step 7 From the ANM GUI, do the following to perform a CLI synchronization with the Cisco IOS host chassis
by doing the following:
a. Choose Config > Devices > All Devices. The Device Management window appears.
b. From the Device Management window, click the radio button associated with the host chassis.
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c. Click CLI Sync.
A message similar to the following appears:
The module has been added: serial#=SAD140102XR
Record the new ACE module serial number, which you will need for Step 11.
Step 8 From the Device Management window, import the replacement module in to ANM as follows:
a. Click the radio button associated with the host chassis and click Modules. The Modules window
appears.
b. From the Modules window, click the radio button associated with the replacement module and click
Import. The Module configuration window appears.
c. From the configuration window, choose Perform Initial Setup and Import from the Operation To
Perform drop-down list and enter the module configuration information that you recorded in Step 2.
d. Click OK to save the module configuration information.
Step 9 Install a license in the replacement module that is consistent with the removed module by choosing
Config > Devices > chassis > module > Admin > System > Licenses. The Licenses window appears.
Step 10 Copy and restore the saved ACE configuration to the replacement module by choosing Config > Devices
> chassis > module > Admin > System > Backup / Restore.
Note The Backup/Restore feature requires ACE module software Version A2(3.0) or later.
Step 11 Remap the ANM objects mapped to the old ACE module serial number to the new ACE module serial
number as follows:
a. Enter the following command to list the module serial numbers that are unassociated with a device
in ANM:
anm-RMA-helper-query
Verify that the list includes the serial number of the old ACE module that you recorded in Step 2.
b. Enter the following command to map the objects to the new ACE module serial number:
anm-RMA-helper-replace
c. Follow the prompts that appear to log in to ANM and specify the old ACE module serial number
recorded in Step 2 and the new module serial number recorded in Step 7.
t
Related Topics
• Importing ACE Modules after the Host Chassis has been Imported, page 5-16
Using the Alternate Method to Replace an ACE Module
This procedure describes the alternate method for replacing an ACE module currently managed by
ANM. This method uses a combination of the ACE CLI and ANM GUI during the replacement process.
To see the preferred method for replacing an ACE module, see the “Using the Preferred Method to
Replace an ACE Module” section on page 5-82.
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Note For details about using the ACE CLI to perform the procedures discussed in the following procedure,
see the Cisco Application Control Engine (ACE30) Module Installation Note).
For details about any ANM GUI function discussed in the following procedure, click Help to display the
context-sensitive help associated with the current GUI window.
Procedure
Step 1 Referring to the Cisco Application Control Engine (ACE30) Module Installation Note, do the following:
a. SSH in to the ACE and backup all contexts from the Admin context (requires ACE module software
Version A2(3.0) or later).
b. Copy the backup to a network location (requires ACE module software Version A2(3.0) or later).
c. Obtain and record the old module serial number using the show hardware command. You will need
the serial number in Step 4.
d. From the Cisco IOS host chassis, remove the ACE module that you want to replace.
e. From the Cisco IOS host chassis, insert the replacement ACE module into the chassis.
f. Verify that the software on the replacement ACE is equal to or greater than the software version used
in the original ACE. Upgrade the ACE software on the new device if needed.
g. SSH in to the chassis and session in to the new ACE module.
h. Configure basic ACE module connectivity.
i. Obtain and record the new module serial number using the show hardware command.
j. Copy and install necessary licenses.
k. Copy and restore the ACE backup.
Step 2 From the ANM GUI, delete the Cisco IOS host chassis that hosts the replacement ACE module as
follows:
a. Choose Config > Devices > All Devices. The Device Management window appears.
b. Click the radio button associated with the chassis in which the module was replaced.
c. Click Delete.
Step 3 From the Device Management window, import the Cisco IOS host chassis and associated chassis
modules, including the replacement ACE module by clicking Add. The Add New Device window
appears; complete the required chassis and module information.
Step 4 Remap the ANM objects mapped to the old ACE module serial number to the new ACE module serial
number as follows:
a. Enter the following command to list the module serial numbers that are unassociated with a device
in ANM:
anm-RMA-helper-query
Verify that the list includes the serial number of the old ACE module that you recorded in Step 1c.
b. Enter the following command to map the objects to the new ACE module serial number:
anm-RMA-helper-replace
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Replacing an ACE Module Managed by ANM
c. Follow the prompts that appear to log in to ANM and specify the old ACE module serial number
recorded in Step 1c and the new module serial number.
Related Topics
• Importing ACE Modules after the Host Chassis has been Imported, page 5-16
CHAPTER
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6
Configuring Virtual Contexts
Date: 3/28/12
This chapter describes how to configure and manage the Cisco Application Control Engine (ACE) using
Cisco Application Networking Manager (ANM).
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Information About Virtual Contexts, page 6-2
• Creating Virtual Contexts, page 6-2
• Configuring Virtual Contexts, page 6-8
• Configuring Virtual Context System Attributes, page 6-13
• Configuring Virtual Context Primary Attributes, page 6-14
• Configuring Virtual Context Syslog Settings, page 6-19
• Configuring SNMP for Virtual Contexts, page 6-27
• Applying a Policy Map Globally to All VLAN Interfaces, page 6-35
• Managing ACE Licenses, page 6-36
• Using Resource Classes, page 6-43
• Using Global Resource Classes, page 6-46
• Using Local Resource Classes, page 6-51
• Using the Configuration Checkpoint and Rollback Service, page 6-54
• Performing Device Backup and Restore Functions, page 6-59
• Performing Global Device Backup and Copy Functions, page 6-68
• Configuring Security with ACLs, page 6-78
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Information About Virtual Contexts
• Configuring Object Groups, page 6-89
• Managing ACLs, page 6-99
• Configuring Virtual Context Expert Options, page 6-101
• Comparing Context and Building Block Configurations, page 6-101
• Managing Virtual Contexts, page 6-103
Information About Virtual Contexts
Virtual contexts use the concept of virtualization to partition your ACE into multiple virtual devices or
contexts. Each context contains its own set of policies, interfaces, resources, and administrators. This
feature enables you to more closely and efficiently manage resources, users, and the services you provide
to your customers.
There are two types of virtual contexts; the admin context and the user context. The ACE comes
preconfigured with the default Admin context, which you can modify but you cannot delete. From the
Admin context, you can create user contexts. You also use the Admin context to configure High
Availability (HA or fault tolerance between ACE devices), configure resource classes, and manage ACE
licenses.
Note If you restore the ANM database from a backup repository and if a virtual context that is in the repository
has been removed from the device, ANM removes that context from the database and the context does
not appear in the ANM interface.
Related Topics
• Creating Virtual Contexts, page 6-2
• Configuring Virtual Contexts, page 6-8
• Deleting Virtual Contexts, page 6-107
• Comparing Context and Building Block Configurations, page 6-101
• Restarting Virtual Context Polling, page 6-108
• Managing Virtual Contexts, page 6-103
Creating Virtual Contexts
You can create virtual contexts.
Note You must have the ability to create virtual contexts in your role and an Admin context in your domain
before you can create virtual contexts. For more information about configuring roles and domains, see
the “Managing User Roles” section on page 18-25 and the “Managing Domains” section on page 18-32.
Procedure
Step 1 Choose Config > Devices, and choose the ACE to which you want to add a virtual context.
The Virtual Contexts table appears.
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Creating Virtual Contexts
Step 2 In the Virtual Contexts table, click Add.
The New Virtual Context window appears.
Step 3 Configure the virtual context using the information in Table 6-1.
Click Basic Settings, Management Settings, or More Setting to access the additional configuration
attributes. By default, ANM hides the Management Settings and More Settings groups of configuration
attributes until you specify a VLAN identifier in the Management Settings group.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Table 6-1 Virtual Context Configuration Attributes
Field Description
Basic Settings
Name Unique name for the virtual context. Valid entries are unquoted text strings with no spaces and
a maximum of 64 alphanumeric characters.
This field is read-only for existing contexts.
Device Device to associate with this context.
This field appears for new contexts only.
Description Brief description of the virtual context. Enter a description as an unquoted text string with a
maximum of 240 alphanumeric characters.
Module Field that appears when a chassis contains multiple ACE modules and for new contexts only.
Choose the module to associate with this context.
Resource Class Resource class that this virtual context is to use.
Allocated VLANs Number of a VLAN or a range of VLANs used by the traffic that the context is to receive. You
can specify VLANs in any of the following ways:
• For a single VLAN, enter an integer from 2 to 4096.
• For multiple, nonsequential VLANs, use comma-separated entries, such as 101, 201, 302.
• For a range of VLANs, use the format -, such as
101-150.
Note VLANs cannot be modified in an Admin context.
Default Gateway IP for IPv4 IPv4 address of the default gateway. Use a comma-separated list to specify multiple IP
addresses, such as 192.168.65.1, 192.168.64.2.
Default static routes with a netmask and IP address of 0.0.0.0 previously configured on the
ACE appear in this field.
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Default Gateway IP for IPv6 Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
IPv6 address of the default gateway or choose the forward VLAN interface or BVI, as follows:
• IPv6 Address field—Enter the address of the gateway router (the next-hop address for this
route). Then, use the right arrow to move it to the Selected field. You can enter a maximum
of eight addresses including a selected VLAN or BVI through the Outgoing Interfaces
setting.
Default static routes with a prefix and IP address of ::0 previously configured on the ACE
appear in the Selected field.
• Outgoing Interfaces—Select either VLAN or BVI used for the link-local address only.
And then select the Interface Number for the VLAN or BVI.
Enable High Availability Context to be used in a high availability (HA) group.
Note This field is unavailable if the associated FT interface is not configured or if the ACE
peer is not known. See Chapter 13, “Configuring High Availability” for details on
ACE HA groups.
Management Settings
VLAN Id VLAN number that you want to assign to the management interface. Valid values are from 2
to 4094. The VLAN ID should be available in the allocated VLAN interface list. By default,
all devices are assigned to VLAN1, known as the default VLAN.
Note You must enter a VLAN ID before the other Management Settings attribute fields are
enabled for configuring.
VLAN Description Description for the management interface. Enter an unquoted text string that contains a
maximum of 240 alphanumeric characters including spaces.
Interface Mode Topology that reflects the relationship of the selected ACE virtual context to the real servers
in the network:
• Routed—The ACE virtual context acts as a router between the client-side network and
the server-side network. In this topology, every real server for the application must be
routed through the ACE virtual context, either by setting the default gateway on each real
server to the virtual context server-side VLAN interface address, or by using a separate
router with appropriate routes configured between the ACE virtual context and the real
servers.
• Bridged—The virtual ACE bridges two VLANs—a client-side VLAN and a real-server
VLAN—on the same subnet using a bridged virtual interface (BVI). The real server
routing does not change to accommodate the ACE virtual context. Instead the virtual ACE
transparently handles traffic to and from the real servers.
Management IP IPv4 address that is to be used for remote management of the context.
Note ANM considers an interface as a management interface if it has a management policy
map associated with the VLAN interface. See the “Configuring Virtual Context VLAN
Interfaces” section on page 12-6.
Management Netmask Subnet mask to apply to this IP address.
Alias IP Address IP address of the alias this interface is associated with.
Peer IP Address IP address of the remote peer.
Table 6-1 Virtual Context Configuration Attributes (continued)
Field Description
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Access Permission List of source IP addresses that are allowed on the management interface:
• Allow All—Allows all configured client source IP addresses on the management interface
as the network traffic matching criteria.
• Deny All—Denies all configured client source IP addresses on the management interface
as the network traffic matching criteria.
• Match—Displays the Match Conditions table, where you specify the match criteria that
the ACE is to use for traffic on the management interface.
Table 6-1 Virtual Context Configuration Attributes (continued)
Field Description
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Match Conditions Match Conditions table that appears when you choose Match as the Access Permission
selection.
To add or modify the protocols allowed on this management VLAN, do the following:
1. Click Add to choose a protocol for the management interface, or choose an existing
protocol entry listed in the Match Conditions table and click Edit to modify it.
2. In the Protocol drop-down list, choose a protocol:
– HTTP—Specifies the Hypertext Transfer Protocol (HTTP).
– HTTPS—Specifies the secure (SSL) Hypertext Transfer Protocol (HTTP) for
connectivity with the ANM interface using port 443.
– ICMP— Specifies the Internet Control Message Protocol (ICMP) for Internet
Protocol version 4 (IPv4).
– ICMPv6—Option that appears only for ACE module and ACE appliance software
Version A5(1.0) or later. Specifies the Internet Control Message Protocol version 6
(ICMPv6) for Internet Protocol version 6 (IPv6).
–
– KALAP-UDP—Specifies the Keepalive Appliance Protocol over UDP.
– SNMP—Specifies the Simple Network Management Protocol (SNMP).
Note If SNMP is not selected, ANM will not be able to poll the context.
– SSH—Specifies a Secure Shell (SSH) connection to the ACE.
– TELNET—Specifies a Telnet connection to the ACE.
– XML-HTTPS—Specifies HTTPS as the transfer protocol for sending and receiving
XML documents between the ACE appliance and a Network Management System
(NMS) using port 10443. This option is available for ACE appliances only.
3. In the Allowed From field, specify the matching criteria for the client source IP address:
– Any—Specifies any client source address for the management traffic classification.
– Source Address—Specifies a client source host IP address and subnet mask as the
network traffic matching criteria. An ICMPv6 source address only accepts an IPv6
address. IPv6 requires ACE module and ACE appliance software Version A5(1.0) or
later.
– Source Netmask—Select a subnet mask. This field is not applicable for ICMPv6.
– Source Prefix Length—(ICMPv6 only) Enter the prefix length, a value from 1 to
128.
4. Click OK to accept the protocol selection (or click Cancel to exit without accepting your
entries).
Note To remove a protocol from the management VLAN, choose the entry in the Match
Conditions table, and click Delete.
Enable SNMP Get Check box that you can check to add an SNMP Get community string to enable SNMP polling
on this context.
Table 6-1 Virtual Context Configuration Attributes (continued)
Field Description
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Creating Virtual Contexts
Step 4 Do one of the following:
• Click Deploy Now to deploy this context and save this configuration to the running-configuration
and startup-configuration files. The window refreshes and you can continue with virtual context
configuration (see the “Configuring Virtual Contexts” section on page 6-8).
• Click Cancel to exit this procedure without saving your entries. The Virtual Contexts table appears.
SNMP v2c Read-Only
Community String
Field that appears when you check the Enable SNMP Get check box.
Enter the SNMPv2c read-only community string to be used as the SNMP Get community
string.
Enable SNMP Trap Check box that you can check to add an SNMP community string for ANM to receive traps
from this context.
SNMP Community Field that appears when you check the Enable SNMP Trap check box.
Enter the SNMP version 1 or 2c read-only community string or the SNMP version 3 user name
that is to be used as the SNMP trap.
Enable Syslog Notification Check box that you can check to enable syslog logging or uncheck to disable syslog logging.
Add Admin User Check box that you can check to add a user with an administrator role and default-domain
access.
User Name Field that appears when you check the Add Admin User check box.
Specifies the name by which the user is to be identified (up to 24 characters). Only letters,
numbers, and underscore can be used. The field is case sensitive.
Password Field that appears when you check the Add Admin User check box.
Enter the password for the Admin user account.
Confirm Password Field that appears when you check the Add Admin User check box.
Renter the password for the Admin user account.
More Settings
Switch Mode Feature that applies only to the ACE module A2(1.1), ACE appliance A4(1.0), or later releases
of either device type. Choose Switch Mode to change the way that the ACE processes TCP
connections that are not destined to a VIP or that do not have any policies associated with their
traffic. For such traffic, the ACE still creates connection objects, but processes the connections
as stateless connections, which means that they do not undergo any TCP normalization
checks. With this option enabled, the ACE also creates stateless connections for non-SYN
TCP packets if they satisfy all other configured requirements. This process ensures that a
long-lived persistent connection passes through the ACE successfully (even if it times out) by
being reestablished by any incoming packet related to the connection.
By default, these stateless connections time out after 2 hours and 15 minutes unless you
configure the inactivity timeout otherwise in a parameter map. When a stateless connection
times out, the ACE does not send a TCP RST packet but silently closes the connection. Even
though these connections are stateless, the TCP RST and FIN-ACK flags are honored and the
connections are closed when the ACE sees these flags in the received packets.
Building Block To Apply Configuration building block to apply to this context.
Table 6-1 Virtual Context Configuration Attributes (continued)
Field Description
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Related Topics
• Information About Virtual Contexts, page 6-2
• Configuring Virtual Contexts, page 6-8
Configuring Virtual Contexts
After creating a virtual context, you can configure it. Configuring a virtual context involves configuring
a number of attributes, grouped into configuration subsets.
The options that appear when you choose Config > Devices > context depend on the following:
• Type of ACE device associated with the context: ACE module or ACE appliance.
• Role associated with your account, such as Admin, Network-Admin, or SSL-Admin.
• Context that you are configuring; an Admin context or a user context.
Table 6-2 describes configuration options for Admin contexts for ACE modules and ACE appliances
although not all options are available for both types of devices.
Table 6-3 identifies the configuration options that are available for each ACE device type.
Note You cannot modify a virtual context when its CLI Sync Status is in the Import Failed state. You must
synchronize the context before you can make changes to it. You can view CLI Sync Status and
synchronize contexts from the Virtual Contexts table (Config > Devices > ACE).
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Table 6-2 Virtual Context Configuration Options
Configuration Subset Description Related Topics
System The System configuration subset includes the
following:
• Primary attributes such as building block,
resource class, and VLAN options
• Syslog attributes that allow you to identify the
type and severity of syslog messages that are
to be logged, the syslog log host, log
messages, and log rate limits
• SNMP attributes
• Global policy maps for all VLANs on a virtual
context
• ACE license attributes that allow you to view,
install, remove, update, and copy licenses for
ACE hardware
• Resource classes that allow you to manage
virtual context access to individual ACE
devices
• Checkpoint (snapshot in time) of a known
stable running configuration
• Back up or restore the configuration and
dependencies of an entire ACE or of a
particular virtual context
Note ACE licenses and resource classes can be
configured in an Admin context only.
• Configuring Virtual Context Primary
Attributes, page 6-14
• Configuring Virtual Context Syslog Settings,
page 6-19
• Configuring SNMP for Virtual Contexts,
page 6-27
• Applying a Policy Map Globally to All VLAN
Interfaces, page 6-35
• Managing ACE Licenses, page 6-36
• Using Resource Classes, page 6-43
• Using the Configuration Checkpoint and
Rollback Service, page 6-54
• Performing Device Backup and Restore
Functions, page 6-59
• Performing Global Device Backup and Copy
Functions, page 6-68
Load Balancing Load-balancing attributes allow you to do the
following:
• Configure virtual servers, real servers, and
server farms for load balancing
• Establish the predictor method and return
code checking
• Implement sticky groups for session
persistence
• Configure parameter maps to combine related
actions for policy maps
• Configure NAT so that only one address for
the entire network to the outside world is
advertised
• Configure a secure keepalive-appliance
protocol (KAL-AP) associated with a virtual
context to enable communication between the
ACE and a Global Site Selector (GSS)
• Information About Load Balancing, page 7-1
• Configuring Virtual Servers, page 7-2
• Configuring Server Farms, page 8-30
• Configuring Health Monitoring for Real
Servers, page 8-51
• Configuring Sticky Groups, page 9-7
• Configuring Parameter Maps, page 10-1
• Configuring VLAN Interface NAT Pools,
page 12-26
• Configuring Secure KAL-AP, page 8-77
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SSL Secure Sockets Layer (SSL) configuration options
allow you to import and export SSL certificates
and keys, set up SSL parameter maps and chain
group parameters, generate certificate signing
requests for submission to a certificate authority,
authenticate peer certificates, and configure
certificate revocation lists for use during client
authentication.
Note You cannot configure all SSL options in a
building block. Instead, configure them in
an Admin virtual context.
• Configuring SSL, page 11-1
• Using SSL Certificates, page 11-5
• Using SSL Keys, page 11-10
• Generating CSRs, page 11-26
• Configuring SSL Parameter Maps,
page 11-18
• Configuring SSL Chain Group Parameters,
page 11-23
• Configuring SSL Proxy Service, page 11-27
• Configuring SSL Authentication Groups,
page 11-31
• Configuring CRLs for Client Authentication,
page 11-33
Security Security configuration options enable you to
create access control lists, set access control list
(ACL) attributes, resequence ACLs, delete ACLs,
and configure object groups.
• Configuring Security with ACLs, page 6-78
• Creating ACLs, page 6-79
• Configuring Object Groups, page 6-89
Network Network configuration options allow you to
configure the following:
• VLAN interfaces
• Bridged-group virtual interfaces (BVI)
• Network Address Translation (NAT) pools for
a VLAN interface
• Static routes
• Dynamic host configuration protocol (DHCP)
relay agents
• Port channel interfaces
• Gigabit Ethernet interfaces
• Over 8,000 static network address translation
(NAT) configurations
• Configuring Virtual Context VLAN
Interfaces, page 12-6
• Configuring Virtual Context BVI Interfaces,
page 12-19
• Configuring VLAN Interface NAT Pools,
page 12-26
• Configuring Virtual Context Static Routes,
page 12-28
• Configuring Virtual Context BVI Interfaces,
page 12-19
• Configuring Port-Channel Interfaces for the
ACE Appliance, page 12-35
• Configuring Gigabit Ethernet Interfaces on
the ACE Appliance, page 12-32
• Configuring Static VLANs for Over 8000
Static NAT Configurations, page 12-31
High Availability High availability (HA) attributes allow you to
configure two ACE devices for fault-tolerant
redundancy and the tracking and detection of
failures for timely switchover.
Note You can set up high availability in an
Admin context only.
• Configuring ACE High Availability,
page 13-14
• Configuring ACE High Availability Peers,
page 13-15
• Configuring ACE High Availability Groups,
page 13-17
Table 6-2 Virtual Context Configuration Options (continued)
Configuration Subset Description Related Topics
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HA Tracking and
Failure Detection
HA tracking and failure detection attributes allow
you to configure tracking processes that can help
ensure reliable fault tolerance.
• ACE High Availability Tracking and Failure
Detection Overview, page 13-23
• Tracking ACE VLAN Interfaces for High
Availability, page 13-24
• Tracking Hosts for High Availability,
page 13-25
• Configuring ACE HSRP Groups, page 13-29
Role-Based Access
Control
Role-based access control (RBAC) attributes
allow you to configure RBAC for individual
virtual contexts.
Note Virtual context RBAC is separate from
ANM RBAC. For information about ANM
RBAC, see the “How ANM Handles
Role-Based Access Control” section on
page 18-8.
• Configuring Device RBAC Users, page 5-53
• Configuring Device RBAC Roles, page 5-56
• Configuring Device RBAC Domains,
page 5-61
Expert Expert attributes allow you to configure traffic
policies and configure optimization action lists.
• Configuring Virtual Context Class Maps,
page 14-6
• Configuring Virtual Context Policy Maps,
page 14-32
• Configuring an HTTP Optimization Action
List, page 15-3
Table 6-3 Configuration Options by Device Type
Menu Option
ACE Device Type
Related Topic
ACE
Module
ACE 4710
Appliance
System
Primary Attributes X X Configuring Virtual Context Primary Attributes, page 6-14
Syslog X X Configuring Virtual Context Syslog Settings, page 6-19
SNMP X X Configuring SNMP for Virtual Contexts, page 6-27
Global Policies X X Applying a Policy Map Globally to All VLAN Interfaces,
page 6-35
Licenses X X Managing ACE Licenses, page 6-36
Application Acceleration and
Optimization
– X Configuring Global Application Acceleration and Optimization,
page 15-9
Resource Classes X X Using Resource Classes, page 6-43
Checkpoints X X Using the Configuration Checkpoint and Rollback Service,
page 6-54
Backup/Restore X X Performing Device Backup and Restore Functions, page 6-59
Table 6-2 Virtual Context Configuration Options (continued)
Configuration Subset Description Related Topics
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Load Balancing
Virtual Servers X X Configuring Virtual Servers, page 7-2
Real Servers X X Configuring Real Servers, page 8-5
Server Farms X X Configuring Server Farms, page 8-30
Health Monitoring X X Configuring Health Monitoring for Real Servers, page 8-51
Stickiness X X Configuring Sticky Groups, page 9-7
HTTP Parameter Maps X X Configuring HTTP Parameter Maps, page 10-9
Connection Parameter Maps X X Configuring Connection Parameter Maps, page 10-3
Optimization Parameter Maps – X Configuring Optimization Parameter Maps, page 10-12
Generic Parameter Maps X X Configuring Generic Parameter Maps, page 10-8
RTSP Parameter Maps X X Configuring RTSP Parameter Maps, page 10-20
SIP Parameter Maps X X Configuring SIP Parameter Maps, page 10-21
Skinny Parameter Maps X X Configuring Skinny Parameter Maps, page 10-23
Secure KAL-AP X X Configuring Secure KAL-AP, page 8-77
SSL
Setup Sequence X X SSL Setup Sequence, page 11-4
Certificates X X Using SSL Certificates, page 11-5
Keys X X Using SSL Keys, page 11-10
Parameter Map X X Configuring SSL Parameter Maps, page 11-18
Chain Group Parameters X X Configuring SSL Chain Group Parameters, page 11-23
CSR Parameters X X Configuring SSL CSR Parameters, page 11-24
Proxy Service X X Configuring SSL Proxy Service, page 11-27
Auth Group Parameters X X Configuring SSL Authentication Groups, page 11-31
Certificate Revocation Lists
(CRLs)
X X Configuring CRLs for Client Authentication, page 11-33
Security
ACLs X X Creating ACLs, page 6-79
Object Groups X X Configuring Object Groups, page 6-89
Network
Port Channel Interfaces – X Configuring Port-Channel Interfaces for the ACE Appliance,
page 12-35
Gigabit Ethernet Interfaces – X Configuring Gigabit Ethernet Interfaces on the ACE Appliance,
page 12-32
VLAN Interfaces X X Configuring Virtual Context VLAN Interfaces, page 12-6
BVI Interfaces X X Configuring Virtual Context BVI Interfaces, page 12-19
Table 6-3 Configuration Options by Device Type (continued)
Menu Option
ACE Device Type
Related Topic
ACE
Module
ACE 4710
Appliance
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Configuring Virtual Context System Attributes
Configuring Virtual Context System Attributes
This section shows how to configure the ACE virtual context system attributes, which are as follows:
• Virtual context primary attributes—See Configuring Virtual Context Primary Attributes, page 6-14.
• Syslog
– Configuring Virtual Context Syslog Settings, page 6-19
– Configuring Syslog Log Hosts, page 6-23
– Configuring Syslog Log Messages, page 6-24
– Configuring Syslog Log Rate Limits, page 6-26
• SNMP
– Configuring SNMP for Virtual Contexts, page 6-27
– Configuring SNMPv2c Communities, page 6-28
NAT Pools X X Configuring VLAN Interface NAT Pools, page 12-26
Static Routes X X Configuring Virtual Context Static Routes, page 12-28
Global IP DHCP X X Configuring Global IP DHCP, page 12-29
Static NAT Overwrite X – Configuring Static VLANs for Over 8000 Static NAT
Configurations, page 12-31
NAT Pools X X Configuring VLAN Interface NAT Pools, page 12-26
High Availability
Setup X X Configuring ACE High Availability Peers, page 13-15
HA Tracking And Failure Detection
Interfaces X X Tracking ACE VLAN Interfaces for High Availability,
page 13-24
Hosts X X Tracking Hosts for High Availability, page 13-25
HSRP Groups X X Configuring ACE HSRP Groups, page 13-29
Role-Based Access Control
Users X X Configuring Device RBAC Users, page 5-53
Roles X X Configuring Device RBAC Roles, page 5-56
Domains X X Configuring Device RBAC Domains, page 5-61
Expert
Class Maps X X Configuring Virtual Context Class Maps, page 14-6
Policy Maps X X Configuring Virtual Context Policy Maps, page 14-32
Action List X X Configuring an HTTP Header Modify Action List, page 14-85
Configuring an HTTP Optimization Action List, page 15-3
Table 6-3 Configuration Options by Device Type (continued)
Menu Option
ACE Device Type
Related Topic
ACE
Module
ACE 4710
Appliance
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Configuring Virtual Context Primary Attributes
– Configuring SNMPv3 Users, page 6-29
– Configuring SNMP Trap Destination Hosts, page 6-32
– Configuring SNMP Notification, page 6-33
• Global policy maps for all VLANs on a virtual context—See Applying a Policy Map Globally to All
VLAN Interfaces, page 6-35.
• ACE licenses—See Managing ACE Licenses, page 6-36.
• ACE resource classes—See Using Resource Classes, page 6-43.
For ACE appliances, you can also configure global application acceleration and optimization. See the
“Configuring Global Application Acceleration and Optimization” section on page 15-9.
Configuring Virtual Context Primary Attributes
Primary attributes allow you to configure essential information for each virtual context including a
name, VLANs, a management IP address, and allowed protocols. After providing this information, you
can configure other attributes, such as interfaces, load-balancing, or SSL. For a complete list of the
configurable items, see the “Configuring Virtual Contexts” section on page 6-8.
Procedure
Step 1 Choose Config > Devices > context > System > Primary Attributes.
The Primary Attributes configuration window appears.
Step 2 In the Primary Attributes configuration window, enter the primary attributes for this virtual context using
the information in Table 6-4.
Certain attribute fields are read-only for existing contexts.
Click Basic Settings, Management Settings, or More Setting to access the additional configuration
attributes. By default, ANM hides these groups of configuration attributes.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Table 6-4 Primary Attributes Configuration Attributes
Field Description
Basic Settings
Name Unique name for the virtual context.
This field is read-only for existing contexts.
Description Brief description of the virtual context. Enter a description as an unquoted text string with a
maximum of 240 alphanumeric characters.
Resource Class Resource class that this virtual context is to use. Click View to see the details of the selected
resource class (Resource, Minimum, and Maximum).
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Allocated VLANs Number of a VLAN or a range of VLANs that contain traffic for the context to receive. You
can specify VLANs in any of the following ways:
• For a single VLAN, enter an integer from 2 to 4096.
• For multiple, nonsequential VLANs, use comma-separated entries, such as 101, 201, 302.
• For a range of VLANs, use the format -, such as
101-150.
Note VLANs cannot be modified in an Admin context.
This field is read-only if configured for existing contexts.
Default Gateway IP for IPv4 IPv4 address of the default gateway. Use a comma-separated list to specify multiple IP
addresses, such as192.168.65.1, 192.168.64.2.
Default static routes with a netmask and IP address of 0.0.0.0 previously configured on the
ACE appear in this field.
Default Gateway IP for IPv6 Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
IPv6 address of the default gateway or choose the forward VLAN interface or BVI, as follows:
• IPv6 Address field—Enter the address of the gateway router (the next-hop address for this
route). Then, use the right arrow to move it to the Selected field. You can enter a maximum
of eight addresses including a selected VLAN or BVI through the Outgoing Interfaces
setting.
Default static routes with a prefix and IP address of ::0 previously configured on the ACE
appear in the Selected field.
• Outgoing Interfaces—Select either VLAN or BVI used for the link-local address only.
And then select the Interface Number for the VLAN or BVI.
Enable High Availability Context for use in a high availability (HA) group.
Note This field is unavailable if the associated FT interface is not configured or if the ACE
peer is not known. See Chapter 13, “Configuring High Availability” for details on
ACE HA groups.
Management Settings
VLAN Id VLAN number that you want to assign to the management interface. Valid values are from 2
to 4094. By default, all devices are assigned to VLAN1, known as the default VLAN.
ANM identifies the management class maps and policy maps associated with the selected
VLAN ID assigned to the management interface.
This field is read-only if configured for existing contexts.
VLAN Description Description for the management interface. Enter an unquoted text string that contains a
maximum of 240 alphanumeric characters including spaces.
Table 6-4 Primary Attributes Configuration Attributes (continued)
Field Description
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Interface Mode Topology that reflects the relationship of the selected ACE virtual context to the real servers
in the network:
• Routed—The ACE virtual context acts as a router between the client-side network and
the server-side network. In this topology, every real server for the application must be
routed through the ACE virtual context, either by setting the default gateway on each real
server to the virtual context server-side VLAN interface address, or by using a separate
router with appropriate routes configured between the ACE virtual context and the real
servers.
• Bridged—The virtual ACE bridges two VLANs—a client-side VLAN and a real-server
VLAN—on the same subnet using a bridged virtual interface (BVI). In this case, the real
server routing does not change to accommodate the ACE virtual context. Instead, the
virtual ACE transparently handles traffic to and from the real servers.
This field is read-only if configured for existing contexts.
Management IP IPv4 address that is to be used for remote management of the context.
Note ANM considers an interface as a management interface if it has a management policy
map associated with the VLAN interface. See the “Configuring Virtual Context VLAN
Interfaces” section on page 12-6.
Management Netmask Subnet mask to apply to this IP address.
Alias IP Address IP address of the alias this interface is associated with.
Peer IP Address IP address of the remote peer.
Access Permission List of source IP addresses that are allowed on the management interface:
• Allow All—Allows all configured client source IP addresses on the management interface
as the network traffic matching criteria.
• Deny All—Denies all configured client source IP addresses on the management interface
as the network traffic matching criteria.
• Match—Displays the Match Conditions table, where you specify the match criteria that
the ACE is to use for traffic on the management interface.
Table 6-4 Primary Attributes Configuration Attributes (continued)
Field Description
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Match Conditions Match Conditions table that appears when you choose Match as the Access Permission
selection.
To add or modify the protocols allowed on this management VLAN, do the following:
1. Click Add to choose a protocol for the management interface, or choose an existing
protocol entry listed in the Match Conditions table and click Edit to modify it.
2. In the Protocol drop-down list, choose a protocol:
– HTTP—Specifies the Hypertext Transfer Protocol (HTTP).
– HTTPS—Specifies the secure (SSL) Hypertext Transfer Protocol (HTTP) for
connectivity with the ANM interface using port 443.
– ICMP—Specifies the Internet Control Message Protocol (ICMP) for Internet
Protocol version 4 (IPv4)
– ICMPv6—Option that appears only for ACE module and ACE appliance software
Version A5(1.0) or later. Specifies the Internet Control Message Protocol version 6
(ICMPv6) for Internet Protocol version 6 (IPv6).
– KALAP-UDP—Specifies the Keepalive Appliance Protocol over UDP.
– SNMP—Specifies the Simple Network Management Protocol (SNMP).
Note If SNMP is not selected, ANM cannot poll the context.
– SSH—Specifies a Secure Shell (SSH) connection to the ACE.
– TELNET—Specifies a Telnet connection to the ACE.
– XML-HTTPS—Specifies HTTPS as the transfer protocol for sending and receiving
XML documents between the ACE appliance and a Network Management System
(NMS) using port 10443. This option is available for ACE appliances only.
3. In the Allowed From field, specify the matching criteria for the client source IP address:
– Any—Specifies any client source address for the management traffic classification.
– Source Address—Specifies a client source host IP address and subnet mask as the
network traffic matching criteria.
4. Click OK to accept the protocol selection (or click Cancel to exit without accepting your
entries).
Note To remove a protocol from the management VLAN, choose the entry in the Match
Conditions table, and click Delete.
Enable SNMP Get Check box to add an SNMP Get community string to enable SNMP polling on this context.
This field is read-only if configured for existing contexts.
SNMP v2c Read-Only
Community String
Field that appears when you check the Enable SNMP Get check box.
Enter the SNMPv2c read-only community string to be used as the SNMP Get community
string.
This field is read-only if configured for existing contexts.
Table 6-4 Primary Attributes Configuration Attributes (continued)
Field Description
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Configuring Virtual Context Primary Attributes
Step 3 Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Virtual Contexts table.
Related Topics
• Information About Virtual Contexts, page 6-2
• Configuring Virtual Context VLAN Interfaces, page 12-6
• Configuring Virtual Context BVI Interfaces, page 12-19
• Configuring Virtual Context Syslog Settings, page 6-19
• Configuring Traffic Policies, page 14-1
Enable SNMP Trap Check box to add an SNMP community string for ANM to receive traps from this context.
This field is read-only if configured for existing contexts.
SNMP Community Field that appears when you check the Enable SNMP Trap check box.
Enter the SNMPv1 or SNMPv2c read-only community string or the SNMPv3 user name that
is to be used as the SNMP trap.
This field is read-only if configured for existing contexts.
Enable Syslog Notification Check box to either enable or disable syslog logging.
More Settings
Switch Mode Feature that applies only to the ACE module A2(1.1), ACE appliance A4(1.0), or later releases
of either device type. Choose Switch Mode to change the way that the ACE processes TCP
connections that are not destined to a VIP or that do not have any policies associated with their
traffic. For such traffic, the ACE still creates connection objects but processes the connections
as stateless connections, which means that they do not undergo any TCP normalization
checks. With this option enabled, the ACE also creates stateless connections for non-SYN
TCP packets if they satisfy all other configured requirements. This process ensures that a
long-lived persistent connection passes through the ACE successfully (even if it times out) by
being reestablished by any incoming packet related to the connection.
By default, these stateless connections time out after 2 hours and 15 minutes unless you
configure the inactivity timeout otherwise in a parameter map. When a stateless connection
times out, the ACE does not send a TCP RST packet but silently closes the connection. Even
though these connections are stateless, the TCP RST and FIN-ACK flags are honored and the
connections are closed when the ACE sees these flags in the received packets.
Shared VLAN Host Id Field that is available in the Admin context only.Specific bank of MAC addresses that the ACE
uses. Enter a number from 1 to 16. Be sure to configure different bank numbers for multiple
ACEs.
Regex Compilation Timeout
(minutes)
Timeout setting for regular expression (regex) compilation. When you configure a regex and
its compilation is longer than the configured timeout, the ACE stops the regex
compilation.Enter a value from 1 to 500 minutes. The default timeout is 60 minutes. This
option is available only in the Admin context.
Building Block To Apply Configuration building block to apply to this context. For information about building blocks,
see Chapter 16, “Using Configuration Building Blocks.”
Table 6-4 Primary Attributes Configuration Attributes (continued)
Field Description
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Configuring Virtual Context Syslog Settings
Configuring Virtual Context Syslog Settings
ANM uses syslog logging to send log messages to a process that logs messages to designated locations
asynchronously to the processes that generated the messages.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > System > Syslog.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > System > Syslog.
The Syslog configuration window appears.
Step 2 In the Syslog configuration window, enter the syslog logging attributes in the displayed fields (see
Table 6-6).
All fields that require you to choose syslog severity levels use the values in Table 6-5.
The severity level that you specify indicates that you want syslog messages at that level and the more
severe levels. For example, if you specify Error, syslog displays Error, Critical, Alert, and Emergency
messages.
Note Setting all syslog levels to Debug during normal operations can degrade overall performance.
Table 6-5 Syslog Logging Levels
Severity Description
0-Emergency Unusable system
1-Critical Critical condition
2-Warning Warning condition
3-Alert Immediate action required
4-Error Error condition
5-Notification Normal but significant condition
6-Information Informational message only
7-Debug Appears only during debugging
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Configuring Virtual Context Syslog Settings
Table 6-6 Virtual Context Syslog Configuration Attributes
Field Description Action
Enable Syslog Option that determines whether syslog
logging is enabled or disabled.
Check the check box to enable syslog logging or clear
the check box to disable syslog logging.
Facility Syslog daemon that uses the specified
syslog facility to determine how to
process the messages it receives. Syslog
servers file or direct messages based on
the facility number in the message.
For more information on the syslog
daemon and facility levels, see your
syslog daemon documentation.
Enter the facility appropriate for your network.
Valid entries are 0 (LOCAL0) through 23 (LOCAL7).
The default for ACE is 20 (LOCAL4).
Buffered Level Option that enables system logging to a
local buffer and limits the messages sent
to the buffer based on severity.
Choose the desired level for sending system log
messages to a local buffer.
By default, logging to a buffer is disabled on the ACE.
Console Level Option that specifies the maximum level
for system log messages sent to the
console.
Choose the desired level for sending system log
messages to the console.
By default, ACE does not display syslog messages
during console sessions.
Note Logging to the console can degrade system
performance. We recommend that you log
messages to the console only when you are
testing or debugging problems. Do not use this
option when the network is busy, because it can
reduce ACE performance.
History Level Option that specifies the maximum level
for system log messages sent as traps to
an SNMP network management station.
Choose the desired level for sending system log
messages as traps to an SNMP network management
station.
By default, the ACE does not send traps and inform
requests to an SNMP network management station.
Monitor Level Option that specifies the maximum level
for system log messages sent to a remote
connection using Secure Shell (SSH) or
Telnet on the ACE.
Choose the desired level for sending system log
messages to a remote connection using SSH or Telnet
on the ACE.
By default, logging to a remote connection using SSH
or Telnet is disabled on the ACE.
Note You must enable remote access on the ACE and
establish a remote connection using the SSH or
Telnet protocol from a PC for this option to
work.
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Persistence Level Option that specifies the maximum level
for system log messages sent to Flash
memory.
Choose the desired level for sending system log
messages to Flash memory.
By default, logging to Flash memory is disabled on the
ACE.
Note We recommend that you use a lower severity
level, such as 3, because logging at a high rate
to Flash memory on the ACE might impact
performance.
Trap Level Option that specifies the maximum level
for system log messages sent to a syslog
server.
Choose the desired level for sending system log
messages to a syslog server.
By default, logging to a syslog server is disabled on the
ACE.
Supervisor Level Option that specifies the maximum level
for system log messages sent to the
supervisor module on the Catalyst 6500
series chassis.
Note This option does not appear for
ACE appliances or ACE
4710-type configuration building
blocks.
Choose the desired level for sending system log
messages to the supervisor module on the Catalyst
6500 series chassis.
Note We recommend that you use a lower severity
level, such as 3, because logging at a high rate
to the supervisor module might impact
performance of the Catalyst 6500 series
chassis.
Queue Size Option that specifies the size of the queue
for storing syslog messages in the
message queue while they await
processing.
Enter the desired queue size.
Valid entries are from 0 to 8192 messages.
The default is 80 messages.
Enable Timestamp Option that determines whether syslog
messages should include the date and
time that the message was generated.
Choose the check box to enable time stamps on syslog
messages or clear the check box to disable time stamps
on syslog messages.
By default, time stamps are not included on syslog
messages.
Enable Standby Option that determines whether or not
logging is enabled or disabled on the
failover standby ACE. When enabled:
• This feature causes twice the
message traffic on the syslog server.
• The standby ACE syslog messages
remain synchronized if failover
occurs.
Choose the check box to enable logging on the failover
standby ACE or clear the check box to disable logging
on the failover standby ACE.
Enable Fastpath
Logging
Option that determines whether or not
connection setup and teardown messages
are logged.
Check the check box to enable the logging of setup and
teardown messages or clear the check box to disable
the logging of setup and teardown messages.
By default, the ACE does not log connection startup
and teardown messages.
Table 6-6 Virtual Context Syslog Configuration Attributes (continued)
Field Description Action
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Reject New Connection
When TCP Queue Full
Option that indicates whether or not the
ACE rejects new connections when the
TCP queue is full.
This option is not applicable to ACE 4710 appliances
running image A3(x.x).
Check the check box to reject new connections when
the syslog daemon can no longer reach the TCP syslog
server.
Clear the check box to disable this feature.
This option is enabled by default.
Reject New Connection
When Rate Limit
Reached
Option that indicates whether or not the
ACE rejects new connections when the
syslog message rate is reached.
This option is not applicable to ACE 4710 appliances
running image A3(x.x).
Check the check box to reject new connections when
the syslog message rate is reached.
Clear the check box to disable this feature.
This option is disabled by default.
Reject New Connection
When Control Plane
Buffer Full
Option that indicates whether or not the
ACE rejects new connections when the
syslog daemon buffer is full.
This option is not applicable to ACE 4710 appliances
running image A3(x.x).
Check the check box to reject new connections when
the syslog daemon buffer is full.
This option is disabled by default.
Device Id Type Option that specifies the type of unique
device identifier to be included in syslog
messages sent to the syslog server.
The device identifier does not appear in
EMBLEM-formatted messages, SNMP
traps, or on the ACE console,
management session, or buffer.
Choose the type of device identifier to use:
• Any String—Text string that you specify to
uniquely identify the syslog messages sent from
the ACE. If you choose this option, enter the text
string to use in the Logging Device Id field.
• Context Name—Name of the current virtual
context used to uniquely identify the syslog
messages sent from the ACE.
• Host Name—Hostname of the ACE used to
uniquely identify the syslog messages sent from
the ACE.
• Interface—IP address of the interface used to
uniquely identify the syslog messages sent from
the ACE. If you choose this option, enter the name
of the interface in the Device Interface Name field.
• Undefined—No identifier is used.
Table 6-6 Virtual Context Syslog Configuration Attributes (continued)
Field Description Action
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Step 3 Do the following:
• For virtual contexts, click Deploy Now to deploy this configuration on the ACE and save your
entries to the running-configuration and startup-configuration files, or choose another option to exit
the procedure without saving your entries.
• For configuration building blocks, click Save to save your entries or Cancel to exit the procedure
without saving your entries.
Related Topics
• Configuring Syslog Log Hosts, page 6-23
• Configuring Syslog Log Messages, page 6-24
• Configuring Syslog Log Rate Limits, page 6-26
Configuring Syslog Log Hosts
You can configure syslog log hosts. After configuring basic syslog characteristics (see the “Configuring
Virtual Context Syslog Settings” section on page 6-19), you can configure the log host, log messages,
and log rate limits.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > System > Syslog.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > System > Syslog.
The Syslog configuration window appears.
Step 2 In the Syslog configuration window, click the Log Host tab.
The Log Host table appears.
Device Interface Name Field that appears when the Device ID
Type is Interface.
This option specifies the interface to be
used to uniquely identify syslog messages
sent from the ACE.
Enter the device interface name to use to uniquely
identify syslog messages sent from the ACE. Valid
entries are 1 to 64 characters with no spaces.
Syslog messages sent to an external server contain the
IP address of the interface specified, regardless of
which interface that the ACE uses to send the log data
to the external server.
Logging Device Id Field that appears when the Device ID
Type is Any String.
This option specifies the text string to use
to uniquely identify syslog messages sent
from the ACE.
Enter a text string that uniquely identifies the syslog
messages sent from the ACE. The maximum string
length is 64 characters without spaces. Do not use the
following characters: & (ampersand), ‘ (single quote),
“ (double quote), < (less than), > (greater than), or ?
(question mark).
Table 6-6 Virtual Context Syslog Configuration Attributes (continued)
Field Description Action
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Step 3 In the Log Host table, click Add to add a new log host, or choose an existing log host, and click Edit to
modify it.
The New Log Host configuration window appears.
Step 4 In the New Log Host configuration window IP Address field, enter the IP address of the host to use as
the syslog server.
Step 5 In the Protocol field, choose TCP or UDP as the protocol to use.
Step 6 In the Protocol Port field, enter the number of the port that the syslog server listens to for syslog
messages.
Valid entries are from 1 to 65535. The default port for TCP is 1470 and for UDP it is 514.
Step 7 Check the Default UDP check box, which appears if TCP is selected in the Protocol field (Step 5), to
specify that the ACE is to default to UDP if the TCP transport fails to communicate with the syslog
server.
Uncheck this check box to prevent the ACE from defaulting to UDP if the TCP transport fails.
Step 8 In the Format field, choose one of the following:
• N/A if you do not want to use EMBLEM-format logging.
• Emblem to enable EMBLEM-format logging for each syslog server.
If you use Cisco Resource Manager Essentials (RME) software to collect and process syslog
messages on your network, enable EMBLEM-format logging so that RME can handle them.
Similarly, UDP needs to be enabled because the Cisco Resource Manager Essentials (RME) syslog
analyzer supports only UDP syslog messages.
Step 9 Do one of the following:
• Deploy Now to immediately deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. This option appears for virtual contexts.
• OK to save your entry. This option appears for configuration building blocks.
• Cancel to exit the procedure without saving your entries and to return to the Log Host table.
• Next to configure another syslog host.
Related Topics
• Configuring Virtual Context Syslog Settings, page 6-19
• Configuring Syslog Log Messages, page 6-24
• Configuring Syslog Log Rate Limits, page 6-26
Configuring Syslog Log Messages
You can configure syslog log messages. After configuring basic syslog characteristics (see the
“Configuring Virtual Context Syslog Settings” section on page 6-19), you can configure the log host, log
messages, and log rate limits.
Procedure
Step 1 Choose the item to configure:
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Configuring Virtual Context Syslog Settings
• To configure a virtual context, choose Config > Devices > context > System > Syslog.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > System > Syslog.
The Syslog configuration window appears.
Step 2 In the Syslog configuration window, click the Log Message tab.
The Log Message table appears.
Step 3 In the Log Message table, click Add to add a new entry to this table, or choose an existing entry, and
click Edit to modify it.
The Log Message configuration window appears.
Step 4 In the Message Id field, choose the system log message ID of the syslog messages that are to be sent to
the syslog server or that are not to be sent to the syslog server.
Step 5 Check the Enable State check box to enable logging for the specified message ID or uncheck it to
disable logging for the specified message ID.
If you check the Enable State check box, the Log Level field appears.
Step 6 In the Log Level field, choose the desired level of syslog messages to be sent to the syslog server, using
the levels identified in Table 6-5.
Step 7 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click OK to save your entry. This option appears for configuration building blocks.
• Click Cancel to exit the procedure without saving your entries and to return to the Log Message
table.
• Click Next to deploy your entries and to configure additional syslog message entries for this virtual
context.
Related Topics
• Configuring Virtual Contexts, page 6-8
• Configuring Virtual Context Syslog Settings, page 6-19
• Configuring Syslog Log Hosts, page 6-23
• Configuring Syslog Log Rate Limits, page 6-26
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Configuring Virtual Context Syslog Settings
Configuring Syslog Log Rate Limits
You can configure syslog log rate limits after configuring basic syslog characteristics (see the
“Configuring Virtual Context Syslog Settings” section on page 6-19).
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > System > Syslog.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > System > Syslog.
The Syslog configuration window appears.
Step 2 Click the Log Rate Limit tab.
The Log Rate Limit table appears.
Step 3 In the Log Rate Limit table, click Add to add a new entry to this table, or choose an existing entry, and
click Edit to modify it.
The Log Rate Limit configuration window appears.
Step 4 In the Type field of the Log Rate Limit configuration window, choose the method by which syslog
messages are to be limited:
• Level—Syslog messages are limited by syslog level. In the Level field, choose the level of syslog
messages to be sent to the syslog server, using the levels identified in Table 6-5.
• Message—Syslog messages are limited by message identification number. In the Message Id field,
choose the syslog message ID for those messages you want to suppress reporting.
Step 5 Check the Unlimited check box to apply no limits to system message logging or uncheck it to apply
limits to system message logging.
If you uncheck the Unlimited check box, the Rate and Time Interval fields appear.
Step 6 (Optional) If you uncheck the Unlimited check box, specify the limits to apply to system message
logging as follows:
a. In the Rate field, enter the number at which the system log messages are to be limited. When this limit
is reached, the ACE rejects new syslog messages. Valid entries are from 0 to 2147483647.
b. In the Time Interval (Seconds) field, enter the length of time (in seconds) over which the system
message logs are to be limited. For example, if you enter 42 in the Rate field and 60 in the Time Interval
field, the ACE rejects any syslog messages that arrive after the first 42 messages in that 60-second period.
Valid entries are from 0 to 2147483647 seconds.
Step 7 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click OK to save your entry. This option appears for configuration building blocks.
• Click Cancel to exit the procedure without saving your entries and to return to the Log Rate Limit
table.
• Click Next to deploy your entries and to add another entry to the Log Rate Limit table.
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Configuring SNMP for Virtual Contexts
Related Topics
• Configuring Virtual Contexts, page 6-8
• Configuring Virtual Context Syslog Settings, page 6-19
• Configuring Syslog Log Hosts, page 6-23
• Configuring Syslog Log Messages, page 6-24
Configuring SNMP for Virtual Contexts
This section describes how to configure the SNMP attributes for a virtual context and contains the
following topics:
• Configuring Basic SNMP Attributes, page 6-27
• Configuring SNMPv2c Communities, page 6-28
• Configuring SNMPv3 Users, page 6-29
• Configuring SNMP Trap Destination Hosts, page 6-32
• Configuring SNMP Notification, page 6-33
Configuring Basic SNMP Attributes
You can configure the basic SNMP attributes for use with a virtual context.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > System > SNMP.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > System > SNMP.
The SNMP configuration window appears.
Step 2 In the SNMP configuration window, configure the basic SNMP attributes using the information in
Table 6-7.
Table 6-7 SNMP Attributes
Field Description
Contact Information Contact information for the SNMP server as a text string with a maximum of 240 characters
including spaces. In addition to a name, you might want to include a phone number or email
address. If spaces are included, add quotation marks at the beginning and end of the entry.
Location Physical location of the system as a text string with a maximum of 240 characters including
spaces. If spaces are included, add quotation marks at the beginning and end of the entry.
Unmask Community Checkbox that allows you to unmask the snmpCommunityName and
snmpCommunitySecurityName OIDs of the SNMP-COMMUNITY-MIB. By default, they are
masked (check box is unchecked). Check the checkbox to unmask them.
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Step 3 Do one of the following:
• For virtual contexts, click Deploy Now to deploy this configuration on the ACE and save your
entries to the running-configuration and startup-configuration files, or choose another configuration
option to exit the procedure without saving your entries.
• For configuration building blocks, click OK to save your entries or choose another configuration
option to exit the procedure without saving your entries.
Step 4 If you chose Deploy Now in Step 3, configure the SNMP device access credentials as described in the
“Configuring Device Access Credentials” section on page 5-29.
Related Topics
• Configuring Virtual Contexts, page 6-8
• Configuring SNMPv2c Communities, page 6-28
• Configuring SNMPv3 Users, page 6-29
• Configuring SNMP Trap Destination Hosts, page 6-32
• Configuring SNMP Notification, page 6-33
Configuring SNMPv2c Communities
You can configure SNMP communities for a virtual context or configuration building block after
configuring basic SNMP information for a virtual context (see the “Configuring Basic SNMP Attributes”
section on page 6-27).
Note All SNMP communities in ANM are read-only communities and all communities belong to the group
network monitors.
Assumption
You have configured at least one SNMP contact (see the “Configuring Basic SNMP Attributes” section
on page 6-27).
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > System > SNMP.
Trap Source Interface VLAN that identifies the interface from which SNMP traps originate.
IETF Trap Check box to enable the ACE to send linkUp and linkDown traps with the IETF standard
IF-MIB (RFC 2863) variable bindings, consisting of ifIndex, ifAdminStatus, and ifOperStatus.
Uncheck the check box to not allow the ACE to send linkUp and linkDown traps with the IETF
standard IF-MIB (RFC 2863) variable bindings. Instead, the ACE sends Cisco var-binds by
default.
Table 6-7 SNMP Attributes (continued)
Field Description
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• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > System > SNMP.
The SNMP configuration window appears.
Step 2 In the SNMP configuration window, click the SNMPv2c Configuration tab.
The SNMPv2c Configuration table appears.
Step 3 From the SNMPv2c Configuration table, configure a read-only community string as follows:
• To make “public” the read-only community string, click the associated radio button and click
Deploy Now. By default, this radio button is selected.
• To create a read-only community string, do the following:
a. In the SNMPv2c Configuration table, click Add to add an SNMPv2c read-only community string.
The New SNMPv2c Configuration window appears.
Note You cannot modify an existing SNMPv2c community string. Instead, delete the existing
SNMP v2c community string, and then add a new one.
b. In the Read-Only Community field of the New SNMPv2c Configuration window, enter the
SNMPv2c read-only community name.
Valid entries are unquoted text strings with no spaces and a maximum of 32 characters.
c. Do one of the following:
– Click Deploy Now to immediately deploy this configuration on the ACE and save your entries
to the running-configuration and startup-configuration files. This option appears for virtual
contexts.
– Click OK to save your entry. This option appears for configuration building blocks.
– Click Cancel to exit this procedure without saving your entry and to return to the SNMP v2c
Community String table.
– Click Next to deploy your entry and to configure another SNMP community string. The window
refreshes and you can enter another community string.
Related Topics
• Configuring Virtual Contexts, page 6-8
• Configuring Basic SNMP Attributes, page 6-27
• Configuring SNMPv3 Users, page 6-29
• Configuring SNMP Trap Destination Hosts, page 6-32
• Configuring SNMP Notification, page 6-33
Configuring SNMPv3 Users
You can configure SNMP version 3 users for a virtual context or configuration building block after
configuring basic SNMP information for a virtual context (see the “Configuring Basic SNMP Attributes”
section on page 6-27).
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Assumption
You have configured at least one SNMP contact (see the “Configuring Basic SNMP Attributes” section
on page 6-27).
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > System > SNMP.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > System > SNMP.
The SNMP configuration window appears.
Step 2 In the SNMP configuration window, click the SNMPv3 Configuration tab.
The SNMP v3 Configuration table appears.
Step 3 In the SNMP v3 Configuration table, click Add to add users, or choose an existing entry in the SNMPv3
Configuration table, and click Edit to modify it.
The SNMP v3 Configuration window appears.
Step 4 In the SNMP v3 Configuration window, enter SNMP user attributes using the information in Table 6-8.
Table 6-8 SNMP User Configuration Attributes
Field Description
User Name SNMP username. Valid entries are unquoted text strings with no spaces and a maximum of 24
characters.
Authentication
Algorithm
Authentication algorithm to be used for this user:
• N/A—No authentication algorithm is used.
• Message Digest 5 (MD5)—Message Digest 5 is used as the authentication mechanism.
• Secure Hash Algorithm (SHA)—Secure Hash Algorithm is used as the authentication
mechanism.
Authentication
Password
Field that appears if you choose an authentication algorithm.
Enter the authentication password for this user. Valid entries are unquoted text strings with no
spaces. This password can have a minimum of 8 characters. If use of a localized key is
disabled or N/A, you can enter a maximum of 64 characters. If use of a localized key is
enabled, you can enter a maximum of 130 characters.
The ACE automatically updates the password for the CLI user with the SNMP authentication
password.
Confirm Field that appears if you choose an authentication algorithm.
Reenter the authentication password.
Localized Field that appears if you choose an authentication algorithm.
Specify whether or not the password is in localized key format for security encryption:
• N/A—This option is not configured.
• False—The password is not in localized key format for encryption.
• True—The password is in localized key format for encryption.
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Step 5 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click OK to save your entries. This option appears for configuration building blocks.
• Click Cancel to exit this procedure without saving your entries and to return to the SNMP v3
Configuration table.
• Click Next to deploy your entries and to add another entry to the SNMP v3 Configuration table. The
window refreshes and you can enter another SNMP v3 user.
Related Topics
• Configuring Virtual Contexts, page 6-8
• Configuring Basic SNMP Attributes, page 6-27
• Configuring SNMPv2c Communities, page 6-28
• Configuring SNMP Trap Destination Hosts, page 6-32
• Configuring SNMP Notification, page 6-33
Privacy Field that appears if you choose an authentication algorithm.
Specify whether or not encryption attributes are to be configured for this user:
• N/A—This option is not configured.
• False—Encryption parameters are not to be configured for this user.
• True—Encryption parameters are to be configured for this user.
AES 128 Field that appears if you set Privacy to True.
Indicate whether the 128-byte Advanced Encryption standard (AES) algorithm is to be used
for privacy. AES is a symmetric cipher algorithm and is one of the privacy protocols for SNMP
message encryption. Choices are as follows:
• N/A—This option is not configured.
• False—AES 128 is not used for privacy.
• True—AES 128 is used for privacy.
Privacy Password Field that appears if you set Privacy to True.
Enter the user encryption password. This password can have a minimum of 8 characters. If the
passphrases are specified in clear text, you can enter a maximum of 64 characters. If use of a
localized key is enabled, you can enter a maximum of 130 characters. Spaces are not allowed.
Confirm Field that appears if you set Privacy to True.
Reenter the privacy password.
Table 6-8 SNMP User Configuration Attributes (continued)
Field Description
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Configuring SNMP for Virtual Contexts
Configuring SNMP Trap Destination Hosts
You can configure SNMP trap destination hosts for a virtual context after configuring basic SNMP
information for a virtual context (see the “Configuring Basic SNMP Attributes” section on page 6-27).
To receive SNMP notifications you must configure the following attributes:
• At least one SNMP trap destination host.
• At least one type of notification (see the “Configuring SNMP Notification” section on page 6-33).
Assumption
You have configured at least one SNMP contact (see the “Configuring Basic SNMP Attributes” section
on page 6-27).
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > System > SNMP.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > System > SNMP.
The SNMP configuration window appears.
Step 2 In the SNMP configuration window, click the Trap Destination Host tab.
The Trap Destination Host table appears.
Step 3 In the Trap Destination Host table, click Add to add a host, or choose an existing entry in the table, and
Edit to modify it.
The Trap Destination Host configuration window appears.
Step 4 In the IP Address field of the Trap Destination Host configuration window, enter the IP address of the
server that is to receive SNMP notifications.
Enter the address in dotted-decimal format, such as 192.168.11.1.
Step 5 In the Port field, enter the port to use.
The default port is 162.
Step 6 In the Version field, choose the version of SNMP used to send traps:
• V1—SNMPv1 is used to send traps. This option is not available for use with SNMP inform requests.
• V2c—SNMPv2c is used to send traps.
• V3—SNMPv3 is used to send traps. This version is the most secure model because it allows packet
encryption.
Step 7 In the Community field, enter the SNMP community string or username to be sent with the notification
operation.
Valid entries are unquoted text strings with no spaces and a maximum of 32 characters.
Step 8 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click OK to save your entries. This option appears for configuration building blocks.
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• Click Cancel to exit this procedure without saving your entries and to return to the Trap Destination
Host table.
• Click Next to deploy your entries and to add another entry to the Trap Destination Host table. The
window refreshes and you can add another trap destination host.
Related Topics
• Configuring Virtual Contexts, page 6-8
• Configuring Basic SNMP Attributes, page 6-27
• Configuring SNMPv2c Communities, page 6-28
• Configuring SNMPv3 Users, page 6-29
• Configuring SNMP Notification, page 6-33
Configuring SNMP Notification
You can configure SNMP notification for a virtual context after configuring basic SNMP information for
a virtual context (see the “Configuring Basic SNMP Attributes” section on page 6-27).
To receive SNMP notifications you must configure the following attributes:
• At least one SNMP trap destination host (see the “Configuring SNMP Trap Destination Hosts”
section on page 6-32).
• At least one type of notification.
Assumptions
• You have configured at least one SNMP contact (see the “Configuring Basic SNMP Attributes”
section on page 6-27).
• At least one SNMP server host has been configured (see the “Configuring SNMP Trap Destination
Hosts” section on page 6-32).
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > System > SNMP.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > System > SNMP.
The SNMP configuration window appears.
Step 2 In the SNMP configuration window, click the SNMP Notification tab.
The SNMP Notification table appears.
Step 3 In the SNMP Notification table, click Add to add a new entry, or choose an existing entry in the table,
and click Edit to modify it.
The SNMP Notification configuration window appears.
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Step 4 In the Options field of the SNMP Notification configuration window, choose the type of notifications to
be sent to the SNMP host.
Some options are available only in the Admin context.
Note When configuring SNMP notification for ACE appliances, we recommend that you choose the
more specific options. For example, choose Slb real or Slb vserver instead of Slb to ensure that
the correct commands are issued on the ACE appliance.
Choices are as follows:
• License—SNMP license notifications are to be sent. This option is available only in the Admin
context.
• SLB—Server load-balancing notifications are to be sent.
• SLB Real Server—Notifications of real server state changes are to sent.
• SLB Virtual Server—Notifications of virtual server state changes are to be sent.
• SNMP—SNMP notifications are to be sent.
• SNMP Authentication—Notifications of incorrect community strings in SNMP requests are to be
sent.
• SNMP Cold-Start—SNMP agent restart notifications are to be sent after a cold restart (full power
cycle) of the ACE. This option is available only in the Admin context.
• SNMP Link-Down—Notifications are to be sent when a VLAN interface is down.
• SNMP Link-Up—Notifications are to be sent when a VLAN interface is up.
• Syslog—Error message notifications (Cisco Syslog MIB) are to be sent.
• Virtual Context—Virtual context notifications are to be sent.
Step 5 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click OK to save your entries. This option appears for configuration building blocks.
• Click Cancel to exit this procedure without saving your selection and to return to the SNMP
Notification table.
• Click Next to deploy your entries and to add another entry to the SNMP Notification table. The
window refreshes and you can choose another SNMP notification option.
Related Topics
• Configuring Virtual Contexts, page 6-8
• Configuring Basic SNMP Attributes, page 6-27
• Configuring SNMPv2c Communities, page 6-28
• Configuring SNMPv3 Users, page 6-29
• Configuring SNMP Trap Destination Hosts, page 6-32
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Applying a Policy Map Globally to All VLAN Interfaces
Applying a Policy Map Globally to All VLAN Interfaces
You can apply a policy map globally to all VLAN interfaces in a selected context or configuration
building block.
To apply a policy map to a specific context VLAN interface only, see the Input Policies attribute in the
“Configuring Virtual Context VLAN Interfaces” section on page 12-6.
Note You cannot modify a policy map that is currently applied to an interface. To modify an applied
policy map, you must first remove (delete) it from the interface, make the required
modifications, and then apply it to the interface again.
Assumption
A Layer 3/Layer 4 or Management policy map has been configured for the selected context or building
block. For more information, see the “Configuring Virtual Context Policy Maps” section on page 14-32.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > System > Global Policies.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > System > Global Policies.
The Global Policies table appears.
Step 2 In the Global Policies table, click Add to add a new global policy.
The New Global Policy window appears.
Step 3 In the Policy Map field of the New Global Policy window, choose an existing policy map that you want
to apply to all VLANs in this context.
Note The Direction field displays the value “input” and cannot be modified.
Step 4 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click OK to save your entries. This option appears for configuration building blocks.
• Click Cancel to exit the procedure without saving your entries and to return to the Global Policies
table.
• Click Next to deploy your entries and to configure another global policy.
Related Topics
• Information About Virtual Contexts, page 6-2
• Configuring Virtual Context Primary Attributes, page 6-14
• Configuring Virtual Context VLAN Interfaces, page 12-6
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Managing ACE Licenses
• Configuring Virtual Context Syslog Settings, page 6-19
• Configuring Traffic Policies, page 14-1
Managing ACE Licenses
Note This functionality is available for only Admin contexts.
Cisco offers licenses for ACE modules and appliances that allow you to increase the number of default
contexts, bandwidth, and SSL transactions per second (TPS). For more information about these licenses,
see the Cisco Application Control Engine documentation on Cisco.com.
If you install ACE licenses to increase the number of virtual contexts that you can create and manage on
a device, you need to ensure that the installed ANM licenses support the increased number of virtual
contexts. For example, if you install an upgrade ACE device license that allows you to create and manage
20 virtual contexts on the device, you must purchase and install the appropriate ANM license before you
can manage the additional contexts using ANM. For more information about using and managing ANM
licenses, see the “Using ANM License Manager to Manage ANM Server or Demo Licenses” section on
page 18-54.
You can view, install, remove, or update ACE device licenses using ANM.
This section includes the following topics:
• Viewing ACE Licenses, page 6-36
• Installing ACE Licenses, page 6-37
• Uninstalling ACE Licenses, page 6-39
• Updating ACE Licenses, page 6-40
• Displaying the File Contents of a License, page 6-42
Viewing ACE Licenses
Note This functionality is available for only Admin contexts.
You can view the licenses that are currently installed on an ACE.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 In the device tree, choose the Admin context with the ACE licenses that you want to view, and click
System > Licenses.
The following license tables appear:
• License Status Table—Provides a summary of the license status for the ACE, including:
– SSL transactions per second
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– Number of supported virtual contexts
– ACE bandwidth in gigabits per second
For ACE appliances (all versions) and ACE module version A4(1.0) and later, it also displays the
following:
– Compression performance in megabits or gigabits per second
– Web optimization in the number of connections per second
• Installed License Files Table—Lists all installed licenses with their filenames, vendors, and
expiration dates.
Related Topics
• Managing ACE Licenses, page 6-36
• Installing ACE Licenses, page 6-37
• Uninstalling ACE Licenses, page 6-39
• Updating ACE Licenses, page 6-40
• Displaying the File Contents of a License, page 6-42
Installing ACE Licenses
Note This functionality is available for only Admin contexts.
You can install an ACE license on the device after you copy the license from a remote network server to
the disk0: file system in Flash memory on the ACE. You can use the ANM to perform both processes
from a single dialog box. If you previously copied the license to disk0: on the ACE by using the copy
disk0: CLI command, you can use this dialog box to install the new license or upgrade license on your
ACE.
Assumption
This topic assumes the following:
• You have received the proper software license key for the ACE.
• ACE licenses are available on a remote server for importing to the ACE, or you have received the
software license key and have copied the license file to the disk0: filesystem on the ACE using the
copy disk0: CLI command. See either the Cisco Application Control Engine Module Administration
Guide or Cisco 4700 Series Application Control Engine Appliance Administration Guide for details.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 In the device tree, choose the Admin context that you want to import and install a license for, and click
System > Licenses.
The following license tables appear:
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• License Status Table—Provides a summary of the license status for the ACE, including:
– SSL transactions per second
– Number of supported virtual contexts
– ACE bandwidth in gigabits per second
For ACE appliances (all versions) and ACE module version A4(1.0) and later, it also displays the
following:
– Compression performance in megabits or gigabits per second
– Web optimization in the number of connections per second
• Installed License Files Table—Lists all installed licenses with their filenames, vendors, and
expiration dates.
Step 3 Click Install.
The Install an ACE License dialog box appears.
Step 4 (Optional) If the license currently exists on the ACE disk0: file system in Flash memory, do the
following:
a. In the Select an Option to Locate a License File section of the dialog box, click the Select a license
file on the ACE option.
b. In the Select a License File on the Device (disk0) section of the dialog box, from the drop-down list,
choose the name of the license file.
c. Go to Step 10.
Step 5 (Optional) If the license must be copied to the disk0: file system in Flash memory, in the Select an Option
to Locate a License File section of the dialog box, click the Import a license file from remote system
option. Go to Step 6.
Step 6 In the Protocol To Connect To Remote System field, choose the protocol to be used to import the license
file from the remote server to the ACE as follows:
• If you choose FTP, the User Name and Password fields appear. Go to Step 7.
• If you choose SFTP, the User Name and Password fields appear. Go to Step 7.
• If you choose TFTP, go to Step 8.
Step 7 (Optional) If you choose FTP or SFTP, do the following:
a. In the User Name field, enter the username of the account on the network server.
b. In the Password field, enter the password for the user account.
Step 8 In the Remote System IP Address field, enter the host IP address of the remote server.
For example, your entry might be 192.168.11.2.
Step 9 In the License Path In Remote System field, enter the host path and filename of the license file on the
remote server in the format /path/filename where:
• path represents the directory path of the license file on the remote server.
• filename represents the filename of the license file on the remote server.
For example, your entry might resemble /usr/bin/ACE-VIRT-020.lic.
Step 10 Do one of the following:
• Click Install to accept your entries and to install the license file.
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• Click Cancel to exit this procedure without installing the license file and to return to the Licenses
table.
Step 11 (Optional) After installing an ACE license, we recommend that you manually synchronize the ACE
Admin context with the CLI to ensure that ANM accurately displays the monitored resource usage
information (Monitor > Devices > ACE > Resource Usage > Connections).
For information about synchronizing the Admin context, see the “Synchronizing Virtual Context
Configurations” section on page 6-105.
Related Topics
• Managing ACE Licenses, page 6-36
• Viewing ACE Licenses, page 6-36
• Uninstalling ACE Licenses, page 6-39
• Updating ACE Licenses, page 6-40
• Displaying the File Contents of a License, page 6-42
Uninstalling ACE Licenses
Note This functionality is available for Admin contexts only.
You can remove ACE licenses.
Caution Removing licenses can affect the ACE bandwidth or performance. For detailed information on the effect
of license removal on the ACE, see the Cisco Application Control Engine documentation on Cisco.com.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 In the device tree, choose the Admin context with the license that you want to remove, and click
System > Licenses.
Step 3 In the Installed License Files table, choose the license to be removed.
Step 4 Click Uninstall.
A dialog box appears, asking you to confirm the license removal process.
Note Before continuing, confirm that you have selected the correct license to be removed. When you
click OK in the confirmation window, you cannot stop the removal process.
Note Removing licenses can affect the number of contexts, ACE bandwidth, or SSL TPS (transactions
per second). Be sure you understand the effect on your environment before removing the license.
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Step 5 Click OK to confirm the removal or Cancel to stop the removal process.
If you click OK, a status window appears with the status of license removal. When the license has been
removed, the License table refreshes without the deleted license.
Step 6 (Optional) After uninstalling an ACE license, we recommend that you manually synchronize the ACE
Admin context with the CLI to ensure that ANM accurately displays the monitored resource usage
information (Monitor > Devices > ACE > Resource Usage > Connections).
For information about synchronizing the Admin context, see the “Synchronizing Virtual Context
Configurations” section on page 6-105.
Related Topics
• Managing ACE Licenses, page 6-36
• Installing ACE Licenses, page 6-37
• Viewing ACE Licenses, page 6-36
• Updating ACE Licenses, page 6-40
• Displaying the File Contents of a License, page 6-42
Updating ACE Licenses
Note This functionality is available for Admin contexts only.
You can convert demonstration licenses to permanent licenses and to upgrade permanent licenses to
increase the number of virtual contexts.
Assumption
This topic assumes the following:
• You have received the updated software license key for the ACE.
• ACE licenses are available on a remote server for importing to the ACE, or you have received the
updated software license key and have copied the license file to the disk0: filesystem on the ACE
using the copy disk0: CLI command. See either the Cisco Application Control Engine Module
Administration Guide or Cisco 4700 Series Application Control Engine Appliance Administration
Guide for details.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 In the device tree, choose the Admin context with the license that you want to update, and click System >
Licenses.
The following license tables appear:
• License Status Table—Provides a summary of the license status for the ACE, including:
– SSL transactions per second
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– Number of supported virtual contexts
– ACE bandwidth in gigabits per second
For ACE appliances (all versions) and ACE module version A4(1.0) and later, it also displays the
following:
– Compression performance in megabits or gigabits per second
– Web optimization in the number of connections per second
• Installed License Files Table—Lists all installed licenses with their filenames, vendors, and
expiration dates.
Step 3 Choose the license to be updated, and click Update.
The Update License dialog box appears.
Step 4 (Optional) If the update license currently exists on the ACE disk0: file system in Flash memory, do the
following:
a. In the Select an Option to Locate a License File section of the dialog box, click the Select a license
file on the ACE option.
b. In the Select a License File on the Device (disk0) section of the dialog box, choose the name of the
update license file from the drop-down list.
c. Go to Step 10.
Step 5 (Optional) If the update license must be copied to the disk0: file system in Flash memory, in the Select
an Option to Locate a License File section of the dialog box, click the Import a license file from remote
system option. Go to Step 6.
Step 6 In the Protocol To Connect To Remote System field, choose the protocol to be used to import the update
license file from the remote server to the ACE as follows:
• If you choose FTP, the User Name and Password fields appear. Go to Step 7.
• If you choose SFTP, the User Name and Password fields appear. Go to Step 7.
• If you choose TFTP, go to Step 8.
Step 7 (Optional) If you choose FTP or SFTP, do the following:
a. In the User Name field, enter the username of the account on the network server.
b. In the Password field, enter the password for the user account.
Step 8 In the Remote System IP Address field, enter the host IP address of the remote server.
For example, your entry might be 192.168.11.2.
Step 9 In the Licence Path In Remote System field, enter the host path and filename of the license file on the
remote server in the format /path/filename where:
• path represents the directory path of the license file on the remote server.
• filename represents the filename of the license file on the remote server.
For example, your entry might be /usr/bin/ACE-VIRT-020.lic.
Step 10 Do one of the following:
• Click Update to update the license and to return to the License table. The License table displays the
updated information.
• Click Cancel to exit this procedure without updating the license and to return to the License table.
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Managing ACE Licenses
Step 11 (Optional) After updating an ACE license, recommend that you manually synchronize the ACE Admin
context with the CLI to ensure that ANM accurately displays the monitored resource usage information
(Monitor > Devices > ACE > Resource Usage > Connections).
For information about synchronizing the Admin context, see the “Synchronizing Virtual Context
Configurations” section on page 6-105.
Related Topics
• Managing ACE Licenses, page 6-36
• Installing ACE Licenses, page 6-37
• Viewing ACE Licenses, page 6-36
• Uninstalling ACE Licenses, page 6-39
• Displaying the File Contents of a License, page 6-42
Displaying the File Contents of a License
Note This functionality is available for only Admin contexts.
You can display file content information about ACE licenses.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 Choose the Admin context with the license information that you want to view, and choose System >
Licenses.
The following two license tables appear:
• License Status Table—Provides a summary of the license status for the ACE, including the
supported features and capabilities.
• Installed License Files Table—Lists all installed licenses with their filenames, vendors, and
expiration dates.
Step 3 Choose the installed license file with the information that you want to display, and click View.
ANM displays the output of the show license file CLI command.
For example:
SERVER this_host ANY
VENDOR cisco
INCREMENT ACE-AP-C-2000-LIC cisco 1.0 permanent 1 \
NOTICE="lic.conf 0 \
dummyPak " SIGN=BBBDC344EAE8
Step 4 Click Close when you finish viewing the license file information.
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Using Resource Classes
Related Topics
• Managing ACE Licenses, page 6-36
• Installing ACE Licenses, page 6-37
• Viewing ACE Licenses, page 6-36
• Uninstalling ACE Licenses, page 6-39
Using Resource Classes
Resource classes are the means by which you manage virtual context access to ACE resources, such as
concurrent connections or bandwidth rate. ACE devices are preconfigured with a default resource class
that is applied to the Admin context and any user context upon creation. The default resource class is
configured to allow a context to operate within a range that can vary from no resource access (0%) to
complete resource access (100%). When you use the default resource class with multiple contexts, you
run the risk of oversubscribing ACE resources. This means that the ACE permits all contexts to have full
access to all resources on a first-come, first-served basis. When a resource is utilized to its maximum
limit, the ACE denies additional requests made by any context for that resource.
To avoid oversubscribing resources and to help guarantee access to a resource by any context, you can
create customized resource classes that you associate with one or more contexts. A context becomes a
member of the resource class when you make the association. Creating a resource class allows you to set
limits on the minimum and maximum amounts of each ACE resource that a member context is entitled
to use. You define the minimum and maximum values as a percentage of the whole. For example, you
can create a resource class that allows its member contexts access to no less that 25% of the total number
of SSL connections that the ACE supports.
You can limit and manage the allocation of the following ACE resources:
• ACL memory
• Buffers for syslog messages and TCP out-of-order (OOO) segments
• Concurrent connections (through-the-ACE traffic)
• Management connections (to-the-ACE traffic)
• Proxy connections
• Set resource limit as a rate (number per second)
• Regular expression (regexp) memory
• SSL connections
• Sticky entries
• Static or dynamic network address translations (Xlates)
When you discover ACE devices, the ANM detects the resource class information and imports it with
other device information. If an ACE is not configured for a resource class, it inherits the resource class
configuration of the virtual context it is associated with. If an ACE does have a resource class
configuration but it differs from one configured in the ANM, the discrepancy is logged as an anomaly
but otherwise has no impact on the import process or the ACE.
Table 6-9 on page 6-45 identifies and defines the resources that you can establish for resource classes.
Related Topics
• Global and Local Resource Classes, page 6-44
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Using Resource Classes
• Resource Allocation Constraints, page 6-44
• Using Global Resource Classes, page 6-46
• Displaying Local Resource Class Use on Virtual Contexts, page 6-54
Global and Local Resource Classes
ANM provides two levels of resource classes for ACE devices that operate independently of each other:
• Local or device-specific resource classes
• Global resource classes
Local resource classes are initially imported from the ACE during the import process and appear in the
ANM interface in the Admin virtual context where they can be managed, modified, or deleted by an
Admin user. An Admin user can also create new, local resources classes by using ANM. Choose
Config > Devices > Admin_context > System > Resource Classes to add, view, or modify local resource
classes.
Global resource classes are managed separately from local resource classes and require manual
deployment to a specific ACE using the Admin virtual context before they take effect. If you deploy a
global resource class to an ACE that does not have a resource class with the same name, ANM creates a
new local resource class with the same name and properties as the global resource class. If you deploy
a global resource class to an ACE that already has a resource class with the same name, ANM replaces
the properties of the local resource class with the properties from the global resource class. Choose
Config > Global > All Resource Classes to add, view, modify, audit, or delete global resource classes.
Related Topics
• Using Resource Classes, page 6-43
• Resource Allocation Constraints, page 6-44
• Using Global Resource Classes, page 6-46
• Using Local Resource Classes, page 6-51
• Auditing Resource Classes, page 6-49
Resource Allocation Constraints
The following resources are critical for maintaining connectivity to the Admin context:
• Rate Bandwidth
• Rate Management Traffic
• Rate SSL Connections
• Rate Connections
• Management Connections
• Concurrent Connections
Caution If you allocate 100 percent of these resources to a resource class and then apply the resource class to
virtual contexts, connectivity to the Admin context can be lost.
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We recommend that you create a resource class specifically for the Admin context and apply it to the
context so that you can maintain IP connectivity.
Table 6-9 Resource Class Attributes
Resource Definition
Default Default percentage used for any resource parameter not explicitly set.
Acceleration
Connections
Option that is available ACE appliances only.
Percentage of application acceleration connections.
ACL Memory Percentage of memory allocated for ACLs.
Concurrent
Connections
Percentage of simultaneous connections.
Note If you consume all Concurrent Connections by allocating 100 percent to virtual contexts, IP
connectivity to the Admin context can be lost.
HTTP Compression Percentage of compression for HTTP data.
Note This option appears for ACE appliances (all versions) and ACE module version A4(1.0) and
later only.
Management
Connections
Percentage of management connections.
Note If you consume all Management Connections by allocating 100 percent to virtual contexts,
IP connectivity to the Admin context can be lost.
Proxy Connections Percentage of proxy connections.
Regular Expression Percentage of regular expression memory.
Sticky Percentage of entries in the sticky table.
Note (Pre ACE version A4(1.0) module or appliance only) You must configure a minimum value
for sticky to allocate resources for sticky entries; the sticky software receives no resources
under the unlimited setting.
Xlates Percentage of network and port address translations entries.
Buffer Syslog Percentage of the syslog buffer.
Rate Inspect
Connection
Percentage of application protocol inspection connections.
Rate Bandwidth Percentage of context throughput. This attribute limits the total ACE throughput in bytes per second
for one or more contexts.
Note If you consume all Rate Bandwidth by allocating 100 percent to virtual contexts, IP
connectivity to the Admin context can be lost.
The maximum bandwidth rate per context is determined by your ACE bandwidth license.
Rate Connections Percentage of connections of any kind.
Note If you consume all Rate Connections by allocating 100 percent to virtual contexts, IP
connectivity to the Admin context can be lost.
Rate Management
Traffic
Percentage of management traffic connections.
Note If you consume all Rate Management Traffic by allocating 100 percent to virtual contexts, IP
connectivity to the Admin context can be lost.
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Related Topics
• Using Global Resource Classes, page 6-46
• Configuring Global Resource Classes, page 6-46
• Configuring Local Resource Classes, page 6-52
• Auditing Resource Classes, page 6-49
• Deploying Global Resource Classes, page 6-48
Using Global Resource Classes
Resource classes are used when provisioning services, establishing virtual contexts, managing devices,
and monitoring virtual context resource consumption.
Defining a new global resource class does not automatically update all configurations. A global resource
class is applied only when the resource class is deployed to a specific Admin virtual context on an ACE.
This section includes the following topics:
• Configuring Global Resource Classes, page 6-46
• Deploying Global Resource Classes, page 6-48
• Auditing Resource Classes, page 6-49
• Modifying Global Resource Classes, page 6-50
• Deleting Global Resource Classes, page 6-51
Configuring Global Resource Classes
You can create a new global resource class and optionally deploy it on an ACE by using the Admin
virtual context.
Caution If you allocate 100 percent of these resources to a resource class and then apply the resource class to
virtual contexts, connectivity to the Admin context can be lost. For more information, see the “Resource
Allocation Constraints” section on page 6-44.
Rate SSL Connections Percentage of SSL connections.
Note If you consume all Rate SSL Connections by allocating 100percent to virtual contexts, IP
connectivity to the Admin context can be lost.
Rate Syslog Percentage of syslog messages per second.
Rate MAC Miss Percentage of messages destined for the ACE that are sent to the control plane when the encapsulation
is not correct in packets.
Table 6-9 Resource Class Attributes (continued)
Resource Definition
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Using Global Resource Classes
Procedure
Step 1 Choose Config > Global > All Resource Classes.
The Resource Classes table appears.
Step 2 In the Resource Classes table, click Add to create a new resource class.
The New Resource Class configuration window appears.
Step 3 In the Name field of the New Resource Class configuration window, enter a unique name for this
resource class.
Valid entries are unquoted text strings with no spaces and a maximum of 64 characters.
Step 4 In the Description field, enter a brief description for this resource class.
Valid entries are unquoted text strings with a maximum of 240 alphanumeric characters.
Step 5 To use the same values for each resource, in the All row, enter the following information (see Table 6-9
for a description of the resources):
a. In the Min. field, enter the minimum percentage of each resource that you want to allocate to this
resource class. Valid entries are numbers from 0 to 100 including those numbers with decimals.
b. In the Max. field, choose the maximum percentage of each resource that you want to allocate to this
resource class as follows:
– Equal To Min—The maximum percentage allocated for each resource is equal to the minimum
specified in the Min. field.
– Unlimited—There is no upper limit on the percentage of each resource that can be allocated for
this resource class.
Step 6 To use different values for the resources, for each resource, choose the method for allocating resources:
• Choose Default to use the values specified in Step 5.
• Choose Min to enter a specific minimum value for the resource.
Step 7 If you chose Min, do the following:
a. In the Min. field, enter the minimum percentage of this resource you want to allocate to this resource
class. For example, for ACL memory, enter 10 in the Min. field to indicate that you want to allocate
a minimum of 10 percent of the available ACL memory to this resource class.
b. In the Max. field, choose the maximum percentage of the resource that you want to allocate to this
resource class:
– Equal To Min—The maximum percentage allocated for this resource is equal to the minimum
specified in the Min. field.
– Unlimited—There is no upper limit on the percentage of the resource that can be allocated for
this resource class.
Step 8 To deploy the resource class to an Admin context, do the following:
a. Click Admin VCs To Deploy To to expand the configuration subset.
b. In the Available Items list, choose the desired Admin context, and click Add. The items appear in
the Selected Items list.
In the Selected Items list, choose a context to remove and click Remove. The items appear in the
Available Items list.
Step 9 Do one of the following:
• Click OK to save your entries and to return to the Resource Classes table.
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• Click Cancel to exit this procedure without saving your entries and to return to the Resource Classes
table.
Related Topics
• Using Resource Classes, page 6-43
• Modifying Global Resource Classes, page 6-50
• Deleting Global Resource Classes, page 6-51
• Auditing Resource Classes, page 6-49
Deploying Global Resource Classes
You can apply a global resource class to Admin contexts on selected ACE devices. If you deploy a global
resource class to an ACE that already has a resource class with the same name, ANM replaces the
properties of the local resource class with the properties from the global resource class. If you deploy a
global resource class to an ACE that does not have a resource class with the same name, ANM creates a
new local resource class with the same name and properties as the global resource class.
Assumptions
This topic assumes the following:
• At least one global resource class exists.
• At least one ACE has been imported into the ANM.
Procedure
Step 1 Choose Config > Global > All Resource Classes.
The Resource Classes table appears.
Step 2 In the Resource Classes table, choose the global resource class that you want to apply to an ACE, and
click Edit.
The Edit Resource Class configuration window appears.
Step 3 In the Available Items list of the Edit Resource Class configuration window, choose the context that you
want to apply this global resource class to, and click Add.
The item appears in the Selected Items list.
To remove contexts, choose them in the Selected Items list, and click Remove. The items appear in the
Available Items list.
Step 4 Do one of the following:
• Click OK to save your entries and to return to the Resource Classes table. The context is updated
with the resource class configuration.
• Click Cancel to exit this procedure without saving your entries and to return to the Resource Classes
table.
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Related Topics
• Using Resource Classes, page 6-43
• Modifying Global Resource Classes, page 6-50
• Using Local Resource Classes, page 6-51
• Configuring Local Resource Classes, page 6-52
Auditing Resource Classes
You can display any discrepancies that exist between the global resource class and the local resource
class on the context after you apply a global resource class to an Admin context. Discrepancies occur
when either global or context resource class attributes are modified independently of one another after
the global resource class has been applied.
Procedure
Step 1 Choose Config > Global > All Resource Classes.
The Resource Classes table appears.
Step 2 In the Resource Classes table, choose the resource class that you want to audit, and click Audit.
ANM identifies the differences between the selected resource class and the Admin contexts being
managed by ANM and displays the results in the Audit Differences table in a separate window. The table
uses the following conventions:
• If the selected resource class has not been applied to an Admin context, the Admin context is listed
with the comment “Resource class not defined.”
• If the selected resource class has been applied to an Admin context, but there are no differences
between the global and local resource classes, the context does not appear in the table.
• If the selected resource class has been applied to an Admin context and there are differences between
the global and local resource classes, the context appears in the table with the following information:
– The resource attribute that has different values in the global and local resource classes.
– The settings for the resource attribute in the local resource class.
– The settings for the resource attribute in the global resource class.
The values displayed use the format min - max where min represents the minimum percentage
configured for this attribute and max represents the maximum percentage configured for this
attribute, such as 8% - 8% or 5% - 100%.
Step 3 Do one of the following:
• Click Close to close this window and return to the Resource Classes table.
• Click Refresh to update the information in the Audit Differences table.
Related Topics
• Using Global Resource Classes, page 6-46
• Using Local Resource Classes, page 6-51
• Configuring Global Resource Classes, page 6-46
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• Configuring Local Resource Classes, page 6-52
Modifying Global Resource Classes
You can modify an existing global resource class. The changes are not applied to virtual contexts
previously associated with the resource class. ANM only applies updated resource class properties to
virtual contexts that are associated with the resource class going forward.
Caution If you allocate 100 percent of these resources to a resource class and then apply the resource class to
virtual contexts, connectivity to the Admin context can be lost. For more information, see the “Resource
Allocation Constraints” section on page 6-44.
Procedure
Step 1 Choose Config > Global > All Resource Classes.
The Resource Classes table appears.
Step 2 Choose the resource class that you want to modify, and click Edit.
The Edit Resource Class configuration window appears.
Step 3 In the Edit Resource Class configuration window, modify the values as desired.
For details on setting values, see the “Configuring Global Resource Classes” section on page 6-46. For
descriptions of the resources, see Table 6-9.
Step 4 To deploy the modified resource class to an Admin context, do the following:
a. Click Admin VCs To Deploy To to expand the configuration subset.
b. Choose the desired context in the Available Items list, and click Add. The item appears in the
Selected Items list.
Note ANM only applies the updated resource class to contexts that you choose and add to the
Selected Items list. It does not apply the modified resource class to contexts previously
associated with the resource class.
Step 5 Do one of the following:
• Click OK to save your entries, apply them to the selected contexts, and return to the Resource
Classes table.
• Click Cancel to exit this procedure without saving your entries and to return to the Resource Classes
table.
Related Topics
• Using Resource Classes, page 6-43
• Using Global Resource Classes, page 6-46
• Modifying Global Resource Classes, page 6-50
• Auditing Resource Classes, page 6-49
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Using Local Resource Classes
• Deleting Global Resource Classes, page 6-51
Deleting Global Resource Classes
You can remove global resource classes from the ANM database. Because global resource classes are
managed separately from local resource classes, deleting a global resource class does not affect local
resource classes deployed on individual contexts.
Procedure
Step 1 Choose Config > Global > All Resource Classes.
The Resource Classes table appears.
Step 2 In the Resource Classes table, choose the resource class that you want to remove, and click Delete.
A confirmation popup window appears, asking you to confirm the deletion.
Step 3 Click OK to delete the resource class or Cancel to retain the resource class.
The Resource Classes table refreshes with the updated information.
Related Topics
• Using Resource Classes, page 6-43
• Using Global Resource Classes, page 6-46
• Modifying Global Resource Classes, page 6-50
• Auditing Resource Classes, page 6-49
Using Local Resource Classes
You can create local resource classes in ANM as follows:
• During the import process, from any ACE with a previously configured resource class. These
resource classes appear in the ANM in the Admin virtual context associated with the imported ACE.
• By an Admin user in ANM using the local Resource Class configuration option (Config > Devices >
Admin_context > System > Resource Classes).
• By creating a global resource class (Config > Global > All Resource Classes) and applying it to an
Admin context.
Note Local resource class configuration options are available in Admin contexts only.
This section includes the following topics:
• Configuring Local Resource Classes, page 6-52
• Deleting Local Resource Classes, page 6-53
• Displaying Local Resource Class Use on Virtual Contexts, page 6-54
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Configuring Local Resource Classes
Note This functionality is available in Admin contexts only.
You can create or modify a local resource class for use within the selected Admin context.
Procedure
Step 1 Choose Config > Devices > Admin_context > System > Resource Classes.
The Resource Classes table appears.
Step 2 In the Resource Classes table, click Add to create a new local resource class or choose an existing
resource class, and click Edit to modify it.
The Resource Class configuration window appears.
Step 3 In the Name field of the Resource Class configuration window, enter a unique name for this resource
class.
Valid entries are unquoted text strings with no spaces and a maximum of 64 characters.
Step 4 To use the same values for each resource, in the All row, enter the following information (see Table 6-9
for a description of the resources):
a. In the Min. field, enter the minimum percentage of each resource that you want to allocate to this
resource class. Valid entries are numbers from 0 to 100 including those numbers with decimals.
b. In the Max. field, choose the maximum percentage of each resource that you want to allocate to this
resource class:
– Equal To Min—The maximum percentage allocated for each resource is equal to the minimum
specified in the Min. field.
– Unlimited—There is no upper limit on the percentage of each resource that can be allocated for
this resource class.
Step 5 To use different values for the resources, for each resource, choose one of the following methods for
allocating resources:
• Choose Default to use the values specified in Step 5.
• Choose Min to enter a specific minimum value for the resource.
Step 6 (Optional) If you chose Min, do the following:
a. In the Min. field, enter the minimum percentage of this resource you want to allocate to this resource
class. For example, for ACL memory, enter 10 in the Min. field to indicate that you want to allocate
a minimum of 10 percent of the available ACL memory to this resource class.
b. In the Max. field, choose the maximum percentage of the resource that you want to allocate to this
resource class:
– Equal To Min—The maximum percentage allocated for this resource is equal to the minimum
specified in the Min. field.
– Unlimited—There is no upper limit on the percentage of the resource that can be allocated for
this resource class.
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Step 7 When you finish allocating resources for this resource class, do one of the following:
• Click OK to save your entries and to return to the Resource Classes table. The resource class can
now be applied to other virtual contexts on the same ACE.
• Click Cancel to exit this procedure without saving your entries and to return to the Resource Classes
table.
Related Topics
• Using Resource Classes, page 6-43
• Using Local Resource Classes, page 6-51
• Displaying Local Resource Class Use on Virtual Contexts, page 6-54
• Deleting Local Resource Classes, page 6-53
Deleting Local Resource Classes
You can delete a local resource class. Because of the possible impact on virtual contexts of deleting a
local resource class, you cannot delete a resource class that is associated with a virtual context. To
display a resource class’s current deployment, see the “Displaying Local Resource Class Use on Virtual
Contexts” section on page 6-54.
Procedure
Step 1 Choose Config > Devices > Admin_context > System > Resource Classes.
The Resource Classes table lists all local resource classes and the number of virtual contexts using each
resource class.
Step 2 Confirm that the resource class that you want to delete is not deployed on any virtual contexts.
You cannot delete a resource class that is deployed on a context.
To identify the contexts using a specific resource class, see the “Displaying Local Resource Class Use
on Virtual Contexts” section on page 6-54.
Step 3 Choose the resource class that you want to remove, and click Delete.
A confirmation popup window appears, asking you to confirm the deletion.
Step 4 Click OK to delete the resource class or Cancel to retain the resource class.
The Resource Classes table refreshes with the updated information.
Related Topics
• Using Resource Classes, page 6-43
• Configuring Local Resource Classes, page 6-52
• Displaying Local Resource Class Use on Virtual Contexts, page 6-54
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Using the Configuration Checkpoint and Rollback Service
Displaying Local Resource Class Use on Virtual Contexts
You can display local resource class usage on all virtual contexts on an ACE.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 In the device tree, choose the ACE with the resource class usage that you want to display.
The Virtual Contexts table appears, listing all contexts on the selected ACE and the resource class in use
for each context.
Step 3 (Optional) In the Virtual Contexts table, click the Resource Class column heading to sort the table by
resource class.
Related Topics
• Using Resource Classes, page 6-43
• Configuring Local Resource Classes, page 6-52
• Deleting Local Resource Classes, page 6-53
Using the Configuration Checkpoint and Rollback Service
At some point, you may want to modify your ACE running configuration. If you run into a problem with
the modified configuration, you may need to reboot your ACE. To prevent having to reboot your ACE
after unsuccessfully modifying a running configuration, you can create a checkpoint (a snapshot in time)
of a known stable running configuration before you begin to modify it. If you encounter a problem with
the modifications to the running configuration, you can roll back the configuration to the previous stable
configuration checkpoint.
Note Before you upgrade your ACE software, we strongly recommend that you create a checkpoint in your
running configuration. For ACE module A2(3.0) and later releases only, use the backup function to
create a backup of the running configuration (see the “Performing Device Backup and Restore
Functions” section on page 6-59).
The ACE allows you to make a checkpoint configuration at the context level. The ACE stores the
checkpoint for each context in a hidden directory in Flash memory. If, after you make configuration
changes that modify the current running configuration, when you roll back the checkpoint, the ACE
causes the running configuration to revert to the checkpointed configuration.
This section includes the following topics:
• Creating a Configuration Checkpoint, page 6-55
• Deleting a Configuration Checkpoint, page 6-56
• Rolling Back a Running Configuration, page 6-56
• Displaying Checkpoint Information, page 6-57
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Using the Configuration Checkpoint and Rollback Service
• Comparing a Checkpoint to the Running Configuration, page 6-58
Creating a Configuration Checkpoint
You can create a configuration checkpoint for a specific context. The ACE supports a maximum of 10
checkpoints for each context.
Assumption
This topic assumes the following:
• Make sure that the current running configuration is stable and is the configuration that you want to
make as a checkpoint. If you change your mind after creating the checkpoint, you can delete it (see
the “Deleting a Configuration Checkpoint” section on page 6-56).
• The ACE-Admin, ANM-Admin, and Org-Admin predefined roles have access to the configuration
checkpoint function.
• A custom role defined with the task ANM Inventory > Virtual Context/Create or ANM Inventory >
Virtual Context/Modify has the required privileges to create a configuration checkpoint.
• A checkpoint will not include the SSL keys/certificates, probe scripts, and licenses.
• Adding a checkpoint from an ACE context directly will not trigger an autosynchronzation on ANM
for that context.
Procedure
Step 1 Choose Config > Devices > context > System > Checkpoints.
The Checkpoints table appears.
For descriptions of the checkpoints, see Table 6-10.
Step 2 In the Checkpoints table, click the Create Checkpoint button.
The Create Checkpoint dialog box appears.
Step 3 In the Checkpoint Name field of the Create Checkpoint dialog box, specify a unique identifier for the
checkpoint.
Enter a text string with no spaces and a maximum of 25 alphanumeric characters.
If the checkpoint already exists, you are prompted to use a different name.
Step 4 Do one of the following:
• Click OK to save your configuration checkpoint. You return to the Checkpoints table and the new
checkpoint appears in the table.
Table 6-10 Checkpoints Table
Field Description
Name Unique identifier of the checkpoint.
Size (In Bytes) Size of the configuration checkpoint, shown in bytes.
Date (Created On) Date that the configuration checkpoint was created.
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• Click Cancel to exit the procedure without saving the configuration checkpoint and to return to the
Checkpoints table.
Related Topics
• Using the Configuration Checkpoint and Rollback Service, page 6-54
• Deleting a Configuration Checkpoint, page 6-56
• Rolling Back a Running Configuration, page 6-56
• Displaying Checkpoint Information, page 6-57
• Comparing a Checkpoint to the Running Configuration, page 6-58
Deleting a Configuration Checkpoint
You can delete a checkpoint. Deleting a checkpoint from an ACE context directly will not trigger an
autosynchronzation to occur on ANM for that context.
Prerequisite
Before you perform this procedure, make sure that you want to delete the checkpoint. Once you click
the Trash icon, the ACE removes the checkpoint from Flash memory.
Procedure
Step 1 To choose a virtual context that you want to create a configuration checkpoint, choose Config > Devices
> context > System > Checkpoints.
The Checkpoints table appears.
Step 2 In the Checkpoints table, choose the radio button to the left of any table entry, and click the Trash icon
to delete the checkpoint.
Related Topics
• Using the Configuration Checkpoint and Rollback Service, page 6-54
• Creating a Configuration Checkpoint, page 6-55
• Rolling Back a Running Configuration, page 6-56
• Displaying Checkpoint Information, page 6-57
• Comparing a Checkpoint to the Running Configuration, page 6-58
Rolling Back a Running Configuration
You can roll back the current running configuration of a context to the previously checkpointed running
configuration.
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Procedure
Step 1 Choose Config > Devices > context > System > Checkpoints.
The Checkpoints table appears.
Step 2 Choose the radio button to the left of the checkpoint that you wish to roll back, and click Rollback.
ANM displays a confirmation popup window to warn you about this change and to instruct you that the
rollback operation may take longer depending on the differences detected between the two
configurations.
Note ANM synchronizes the device after performing a rollback. This synchronzation may take some time.
Related Topics
• Using the Configuration Checkpoint and Rollback Service, page 6-54
• Creating a Configuration Checkpoint, page 6-55
• Deleting a Configuration Checkpoint, page 6-56
• Displaying Checkpoint Information, page 6-57
• Comparing a Checkpoint to the Running Configuration, page 6-58
Displaying Checkpoint Information
You can display checkpoint configuration information.
Procedure
Step 1 Choose Config > Devices > context > System > Checkpoints.
The Checkpoints table appears.
Step 2 In the Checkpoints table, choose the radio button of the checkpoint that you want to display, and click
Details.
A popup window appears in which ANM uses the ACE s how checkpoint detail name CLI command to
display the configuration of the specified checkpoint (see Figure 6-1).
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Figure 6-1 show checkpoint detail CLI Command Dialog Box
Step 3 From the popup window, click Close to exit the window and return to the Checkpoints table.
Related Topics
• Using the Configuration Checkpoint and Rollback Service, page 6-54
• Creating a Configuration Checkpoint, page 6-55
• Deleting a Configuration Checkpoint, page 6-56
• Rolling Back a Running Configuration, page 6-56
• Comparing a Checkpoint to the Running Configuration, page 6-58
Comparing a Checkpoint to the Running Configuration
Note This feature requires ACE module and ACE appliance software Version A4(1.0) or later.
You can have ANM compare and display the differences between a specified checkpoint and the ACE’s
current running configuration.
Procedure
Step 1 Choose Config > Devices > context > System > Checkpoints.
The Checkpoints table appears.
Step 2 In the Checkpoints table, choose the radio button of the checkpoint that you want to compare to the
current running configuration, and click Compare.
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A popup window appears in which ANM uses the ACE compare name CLI command to display the
differences between the running configuration and the specified checkpoint. The items that display in
red are in the current running configuration and will be removed if you roll back to the checkpoint. The
items that display in green are not in the current running configuration and will be added during the
rollback.
Step 3 From the popup window, click Close to the window and return to the Checkpoints table.
Related Topics
• Using the Configuration Checkpoint and Rollback Service, page 6-54
• Creating a Configuration Checkpoint, page 6-55
• Deleting a Configuration Checkpoint, page 6-56
• Rolling Back a Running Configuration, page 6-56
• Displaying Checkpoint Information, page 6-57
Performing Device Backup and Restore Functions
Note The backup and restore functions are available only for the ACE module A2(3.0), ACE appliance 4(1.0),
and later releases of either device type.
The backup and restore functions allow you to back up or restore the configuration and dependencies of
an entire ACE or of a particular virtual context. Configuration dependencies are those files that are
required to exist on the ACE so that a configuration can be applied to it. Such files include
health-monitoring scripts, SSL certificates, SSL keys, and so on.This feature allows you to back up and
restore the following configuration files and dependencies:
• Running-configuration files
• Startup-configuration files
• Checkpoints
• SSL files (SSL certificates and keys)
• Health-monitoring scripts
• Licenses
Note The backup feature does not back up the sample SSL certificate and key pair files.
Typical uses for this feature are as follows:
• Back up a configuration for later use
• Recover a configuration that was lost because of a software failure or user error
• Restore configuration files to a new ACE when a hardware failure resulted in a Return Merchandise
Authorization (RMA) of the old ACE
• Transfer the configuration files to a different ACE
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The backup and restore functions are supported in both the Admin and virtual contexts. If you perform
these functions in the Admin context, you can back up or restore the configuration files for either the
Admin context only or for all contexts in the ACE. If you perform these functions in a virtual context,
you can back up or restore the configuration files only for that context. Both the backup and the restore
functions run asynchronously (in the background).
Note To perform the back up or copy functions on multiple ACEs simultaneously, see the “Performing Global
Device Backup and Copy Functions” section on page 6-68
Archive Naming Conventions
Context archive files have the following naming convention format:
Hostname_ctxname_timestamp.tgz
The filename fields are as follows:
– Hostname—Name of the ACE. If the hostname contains special characters, the ACE uses the
default hostname “switch” in the filename. For example, if the hostname is Active@~!#$%^,
then the ACE assigns the following filename: switch_Admin_2009_08_30_15_45_17.tgz
– ctxname—Name of the context. If the context name contains special characters, the ACE uses
the default context name “context” in the filename. For example, if the context name is
Test!123*, then the ACE assigns the following filename:
switch_context_2009_08_30_15_45_17.tgz
– timestamp—Date and time that the ACE created the file. The time stamp has the following
24 hour format: YYYY_MM_DD_hh_mm_ss
An example is as follows:
ACE-1_ctx1_2009_05_06_15_24_57.tgz
If you back up the entire ACE, the archive filename does not include the ctxname field. So, the format
is as follows:
Hostname_timestamp.tgz
An example is as follows:
ACE-1_2009_05_06_15_24_57.tgz
Archive Directory Structure and Filenames
The ACE uses a flat directory structure for the backup archive. The ACE provides file extensions for the
individual files that it backs up so that you can identify the types of files easily when restoring an archive.
All files are stored in a single directory that is tarred and GZIPed as follows:
ACE-1_Ctx1_2009_05_06_07_24_57.tgz
ACE-1_Ctx1_2009_05_06_07_24_57\
context_name-running
context_name-startup
context_name-chkpt_name.chkpt
context_name-cert_name.cert
context_name-key_name.key
context_name-script_name.tcl
context_name-license_name.lic
Guidelines and Limitations
The backup and restore functions have the following configuration guidelines and limitations:
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• Store the backup archive on disk0: in the context of the ACE where you intend to restore the files.
Use the Admin context for a full backup and the corresponding context for user contexts.
• When you back up the running-configuration file, the ACE uses the output of the show
running-configuration CLI command as the basis for the archive file.
• The ACE backs up only exportable certificates and keys.
• License files are backed up only when you back up the Admin context.
• Use a pass phrase to back up SSL keys in encrypted form. Remember the pass phrase or write it
down and store it in a safe location. When you restore the encrypted keys, the ACE prompts you for
the pass phrase to decrypt the keys. If you do not use a pass phrase when you back up the SSL keys,
the ACE restores the keys with AES-256 encryption using OpenSSL software.
• Only probe scripts that reside in disk0: need to be backed up. The prepackaged probe scripts in the
probe: directory are always available. When you perform a backup, the ACE automatically identifies
and backs up the scripts in disk0: that are required by the configuration.
• The ACE does not resolve any other dependencies required by the configuration during a backup
except for scripts that reside in disk0:. For example, if you configured SSL certificates in an SSL
proxy in the running-configuration file, but you later deleted the certificates, the backup proceeds
anyway as if the certificates still existed.
• To perform a restore operation, you must have the admin RBAC feature in your user role.
ANM-admin and ORG-admin have access to this feature by default. Custom roles with the ANM
Inventory and Virtual Context role tasks set to create or modify can also access this feature.
• When you instruct the ACE to restore the archive for the entire ACE, it restores the Admin context
completely first, and then it restores the other contexts. The ACE restores all dependencies before
it restores the running configuration. The order in which the ACE restores dependencies is as
follows:
– License files
– SSL certificates and key files
– Health-monitoring scripts
– Checkpoints
– Startup-configuration file
– Running-configuration file
• When you restore the ACE, previously installed license files are uninstalled and the license files in
the backup file are installed in their place.
• In a redundant configuration, if the archive that you want to restore is different from the peer
configurations in the FT group, redundancy may not operate properly after the restore.
• You can restore a single context from a full backup archive provided that:
– You execute the restore operation in the context that you want to restore
– All files dependencies for the context exist in the full backup archive
• To enable ANM to synchronize the CLI after a successful restore, do not navigate from the
Backup / Restore page until the Latest Restore status changes from In Progress to Success. If you
navigate to another page before the restore process is complete, the CLI will not synchronize until
you return to the Backup / Restore page.
Defaults
Table 6-11 lists the default settings for the backup and restore function parameters.
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This section includes the following topics:
• Backing Up Device Configuration and Dependencies, page 6-62
• Restoring Device Configuration and Dependencies, page 6-66
Backing Up Device Configuration and Dependencies
You can create a backup of an ACE configuration and its dependencies.
Note When you perform the backup process from the Admin context, you can either back up the Admin
context files only or you can back up the Admin context and all user contexts. When you back up from
a user context, you back up the current context files only and cannot back up the ACE licenses.
Note If your web browser supports the Remember Passwords option and you enable this option, the web
browser may fill in the Username and Password fields for user authentication. By default, these fields
should be empty. You can change the username and password fields from whatever the web browser
inserts into the two fields.
Procedure
Step 1 Choose Config > Devices > context > System > Backup / Restore.
The Backup / Restore table appears and displays the latest backup and restore statistics.
Note To refresh the table content at any time, click Poll Now.
Table 6-11 Default Backup and Restore Parameters
Parameter Default
Backed up files By default the ACE backs up the following files in the current context:
• Running-configuration file
• Startup-configuration file
• Checkpoints
• SSL certificates
• SSL keys
• Health-monitoring scripts
• Licenses
SSL key restore encryption None
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Note When you choose the Backup / Restore operation, ANM must poll a context if that context has
not been accessed previously for this operation. The polling operation, which is necessary to
obtain the latest backup and restore information, can cause a delay in the display time of the
Backup / Restore table.
The Backup / Restore fields are described in Table 6-12.
Step 2 Click Backup.
The Backup window appears.
Step 3 In the Backup window, click the radio button of the location where the ACE is to save the backup files:
• Backup config on ACE (disk0:)—This is the default. Go to Step 9.
• Backup config on ACE (disk0:) and then copy to remote system—The Remote System attributes
step appears. Go to Step 4.
Table 6-12 Backup / Restore Fields
Field Description
Latest Backup
Backup Archive Name of the last *.tgz file created that contains the backup files.
Type Type of backup: Context or Full (all contexts).
Start-time Date and time that the last backup began.
Finished-time Date and time that the last backup ended.
Status Status of the last context to be backed up: Success, In Progress, or Failed. Click the status link to
view status details.
Current vc Name of the last context in the backup process.
Completed Number of context backups completed compared to the total number of context backup requests.
For example:
• 2/2 = Two context backups completed/Two context backups requested
• 0/1 = No context backup completed/One context backup requested
Latest Restore
Backup Archive Name of the *.tgz file used in during the restore process.
Type Type of restore: Context or Full (all contexts).
Start-time Date and time that the last restore began.
Finished-time Date and time that the last restore ended.
Status Status of the last restore: Success, In Progress, or Failed. Click the status to view status details.
Current vc Name of the last context in the restore process.
Completed Number of context restores completed compared to the total number of context restore requests.
For example:
• 2/2 = Two context restores completed/Two context restores requested
• 0/1 = No context restore completed/One context restore requested
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Step 4 Click the radio button of the transfer protocol to use:
• FTP—File Transfer Protocol
• SFTP—Secure File Transfer Protocol
• TFTP—Trivial File Transfer Protocol
Step 5 In the Username field, enter the username that the remote server requires for user authentication.
This field appears for FTP and SFTP only.
Step 6 In the Password field, enter the password that the remote server requires for user authentication.
This field appears for FTP and SFTP only.
Step 7 In the IP Address field, enter the IP address of the remote server.
Step 8 In the Backup File Path in Remote System field, enter the full path for the remote server.
Step 9 Check the Backup All Contexts checkbox if you want the ACE to create a backup that contains the files
of the Admin context and every user context or uncheck the check box to create a backup of the Admin
context files only.
This field appears for the Admin context only.
Step 10 Indicate the components to exclude from the backup process: Checkpoints or SSL Files.
To exclude a component, double-click on it in the Available box to move it to the Selected box. You can
also use the right and left arrows to move selected items between the two boxes.
Caution If you exclude the SSL Files component and then restore the ACE using this archived backup,
these files are removed from the ACE. To save these files prior to performing a restore with
this backup, use the crypto export CLI command to export the keys to a remote server and
use the copy CLI command to copy the license files to disk0: as .tar files.
Step 11 In the Pass Phrase field, enter the pass phrase that you specify to encrypt the backed up SSL keys.
Enter the pass phrase as an unquoted text string with no spaces and a maximum of 40 alphanumeric
characters. If you enter a pass phrase but exclude the SSL files from the archive, the ACE does not use
the pass phrase.
Step 12 Click OK to begin the backup process.
The following actions occur depending on where ANM saves the files:
• disk0: only—ANM permits continued GUI functionality during the backup process and polls the
ACE for the backup status, which it displays on the Backup / Restore page.
• disk0: and a remote server— ANM suspends GUI operation and displays a “Please Wait” message
in the Backup dialog box until the process is complete. During this process, ANM instructs the ACE
to create and save the backup file locally to disk0: and then place a copy of the file on the specified
remote server.
Step 13 In the Backup / Restore page, click Poll Now or click the browser refresh button to ensure that the latest
backup statistics are displayed, and then click on the Status link (Success, In Progress, or Failed)
located in the Latest Backup column to view details of the backup operation.
If the backup status is either Success or In Progress, then the Show Backup Status Detail popup window
appears and displays a list of the files successfully backed up. When the backup status is In Progress,
ANM polls the ACE every 2 minutes to retrieve the latest status information and then it automatically
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updates the status information displayed. The polling continues until ANM receives a status of either
Success or Failed. If the backup status is Failed, then the Show Backup Errors popup window appears,
displaying the reason for the failed backup attempt.
Related Topics
• Performing Device Backup and Restore Functions, page 6-59
• Restoring Device Configuration and Dependencies, page 6-66
• Performing Global Device Backup and Copy Functions, page 6-68
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Restoring Device Configuration and Dependencies
You can restore an ACE configuration and its dependencies using a backup file.
Caution The restore operation clears any existing SSL certificate and key-pair files, license files, and checkpoints
in a context before it restores the backup archive file. If your configuration includes SSL files or
checkpoints and you excluded them when you created the backup archive, those files will no longer exist
in the context after you restore the backup archive. To preserve any existing exportable SSL certificate
and key files in the context, before you execute the restore operation, export the certificates and keys that
you want to keep to an FTP, SFTP, or TFTP server by using the CLI and the crypto export command.
After you restore the archive, import the SSL files into the context. For details on exporting and
importing SSL certificate and key pair files using the CLI, see the Cisco Application Control Engine
Module SSL Configuration Guide.
You can also use the exclude option of the restore command to instruct the ACE not to clear the SSL files
in disk0: and to ignore the SSL files in the backup archive when the ACE restores the backup.
Note If your web browser supports the Remember Passwords option and you enable this option, the web
browser may fill in the Username and Password fields for user authentication. By default, these fields
should be empty. You can change the username and password fields from whatever the web browser
inserts into the two fields.
Prerequisites
If you are going to restore the Admin context files plus all user context files, use a backup file that was
created from the Admin context with the Backup All Contexts checkbox checked (see the “Backing Up
Device Configuration and Dependencies” section on page 6-62).
Procedure
Step 1 Choose Config > Devices > context > System > Backup / Restore.
The Backup / Restore table appears.
Note To refresh the table content at any time, click Poll Now.
Note When you perform the restore process from the Admin context, you can either restore the Admin
context files only or you can restore the Admin context files plus all user context files. When
you perform the restore process from a user context, you can restore the current context files
only.
The Backup / Restore fields are described in Table 6-12.
Step 2 Click Restore.
The Restore window appears.
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Step 3 In the Restore window, click the desired radio button to specify the location where the backup files are
located saved:
• Choose a backup file on the ACE (disk0:)—This is the default. Go to Step 9.
• Choose a backup file from remote system—The Remote System attributes step appears. Go to
Step 4.
Step 4 Click the radio button of the transfer protocol to use:
• FTP—File Transfer Protocol
• SFTP—Secure File Transfer Protocol
• TFTP—Trivial File Transfer Protocol
Step 5 In the Username field, enter the username that the remote file system requires for user authentication.
This field appears for FTP and SFTP only.
Step 6 In the Password field, enter the password that the remote file system requires for user authentication.
This field appears for FTP and SFTP only.
Step 7 In the IP Address field, enter the IP address of the remote server.
Step 8 In the Backup File Path in Remote System field, enter the full path of the backup file, including the
backup filename, to be copied from the remote server.
Step 9 Check the Restore All Contexts checkbox if you want the ACE to restore the files for every context or
uncheck the checkbox to restore the Admin context files only.
This field appears for the Admin context only.
Step 10 Check the Exclude SSL Files checkbox if you want to preserver the SSL files currently loaded on the
ACE and not use the backup file’s SSL files.
Caution The restore function deletes all SSL files currently loaded on the ACE unless you check the
Exclude SSL Files option. If you do not check this option, the restore functions loads the SSL
files included in the backup file. If the backup files does not include SSL files, the ACE will
not have any SSL files loaded on it when the restore process is complete. You will then need
to import copies of the SSL files from a remote server.
Step 11 In the Pass Phrase field, enter the pass phrase that is used to encrypt the backed up SSL keys in the
archive.
Enter the pass phrase as an unquoted text string with no spaces and a maximum of 40 alphanumeric
characters. The Pass Phrase field does not appear when you check the Exclude SSL Files checkbox.
Step 12 Click OK to begin the restore process.
The following actions occur depending on where ANM retrieves the backup files:
• disk0: only—ANM permits continued GUI functionality during the restore process and polls the
ACE for the backup status, which it displays on the Backup / Restore page.
Note To enable ANM to synchronize the CLI after a successful restore, do not navigate from the
Backup / Restore window until the Latest Restore status changes from In Progress to Success.
If you navigate to another window before the restore process is complete, the CLI will not
synchronize until you return to the Backup / Restore window.
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• disk0: and a remote server— ANM suspends GUI operation and displays a “Please Wait” message
in the Restore dialog box until the process is complete. During this process, ANM instructs the ACE
to copy the backup file from the specified remote server to disk0: on the ACE and then apply the
backup file to the context.
Step 13 In the Backup / Restore page, click Poll Now or click the browser refresh button to ensure that the latest
restore statistics are displayed, then click on the Status link (Success, In Progress, or Failed) located in
the Latest Backup column to view details of the restore operation.
If the restore status is either Success or In Progress, then the Show Restore Status Detail popup window
appears and displays a list of the files successfully restored. When the restore status is In Progress, ANM
polls the ACE every 2 minutes to retrieve the latest status information and then it automatically updates
the status information displayed. The polling continues until ANM receives a status of either Success or
Failed. If the restored status is Failed, then the Show Restored Errors popup window appears, displaying
the reason for the failed restore attempt.
Related Topics
• Performing Device Backup and Restore Functions, page 6-59
• Backing Up Device Configuration and Dependencies, page 6-62
• Performing Global Device Backup and Copy Functions, page 6-68
Performing Global Device Backup and Copy Functions
Note The global backup and copy functions are available for the ACE module A2(3.0), ACE appliance
A4(1.0), and later releases of either device type.
The global backup and copy functions allow you to either back up the configuration and dependencies
of multiple ACEs simultaneously or copy existing backup configuration files from disk0: of multiple
ACEs to a remote server. Configuration dependencies are those files that are required to exist on the ACE
so that a configuration can be applied to it. Such files include health-monitoring scripts, SSL certificates,
SSL keys, and so on. This feature allows you to back up and restore the following configuration files and
dependencies:
• License files
• Running-configuration files
• Startup-configuration files
• Checkpoints
• SSL files (SSL certificates and keys)
• Health-monitoring scripts
During the backup, each ACE saves its configuration files locally to disk0: in a single directory that is
tarred and GZIPed. For more information about the backup function, including guidelines and
restrictions, see the “Performing Device Backup and Restore Functions” section on page 6-59.
This section includes the following topics:
• Backing Up Multiple Device Configuration and SSL Files, page 6-69
• Associating a Global Backup Schedule with a Device, page 6-71
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• Managing Global Backup Schedules, page 6-73
• Copying Existing Tarred Backup Files to a Remote Server, page 6-77
Backing Up Multiple Device Configuration and SSL Files
You can back up the configuration and SSL files for multiple ACEs simultaneously.
Note If your web browser supports the Remember Passwords option and you enable this option, the web
browser may fill in the Username and Password fields for user authentication. By default, these fields
should be empty. You can change the username and password fields from whatever the web browser
inserts into the two fields.
Procedure
Step 1 Choose Config > Global > All Backups.
The Backups table appears and displays a list of the available ACEs.
Note To refresh the table content at any time, click Poll Now.
Note When you choose the All Backups operation, ANM must poll all Admin contexts that have not
been accessed previously for this operation. The polling operation, which is necessary to obtain
the latest backup and restore information, can cause a delay in the display time of the Backups
table.
The Backups fields are described in Table 6-13.
Table 6-13 Backups Fields
Field Description
Name Name of the ACE.
Management IPs Management interface IP addresses. When there are multiple IP addresses, they display as
shown in the following example: 10.77.241.18/10.77.241.28/10.77.241.38
Latest Backup Time Date and time that the last backup occurred.
Latest Backup Status Status of the last backup attempt: Success, In Progress, or Failed. Click the status link to view
status details.
Latest Restore Time Date and time that the last restore occurred.
Latest Restore Status Status of the last restore attempt: Success, In Progress, or Failed. Click the status link to view
status details.
Last Poll Time Date and time that ANM last polled the device for backup statistics.
Schedules Backup schedule associated with the ACE.
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Step 2 In the Backups table, check the checkbox of the ACE or ACEs to back up.
Note To choose all of the ACEs, check the Name checkbox.
Step 3 Click Backup.
The Backup on devices dialog box appears.
Step 4 In the Backup on devices dialog box, check the Backup All Contexts checkbox if you want each ACE to
create a backup that contains the files of its Admin context and every user context or uncheck the check
box to create a backup of the Admin context files only.
Step 5 Indicate the components that you want to exclude from the backup process: Checkpoints or SSL Files.
To exclude a component, click on it in the Available box and then click Add (right arrow) to move it to
the Selected box. Use Remove (left arrow) to move items from the Selected box back to the Available
box if needed.
Caution If you exclude the SSL Files component and then restore the ACE using this archived backup,
these files are removed from the ACE. To save these files prior to performing a restore with
this backup, use the crypto export CLI command to export the keys to a remote server and
use the copy CLI command to copy the license files to disk0: as .tar files.
Step 6 In the Pass Phrase field, enter the pass phrase that you specify to encrypt the backed up SSL keys.
Enter the pass phrase as an unquoted text string with no spaces and a maximum of 40 alphanumeric
characters. If you enter a pass phrase but excluded the SSL files from the archive, the ACE does not use
the pass phrase.
Step 7 Click OK to begin the backup.
Step 8 In the Backups page, click Poll Now or click the browser refresh button to ensure that the latest statistics
are displayed, and then click on the Status link (Success, In Progress, or Failed) located in the Latest
Backup Status column to view details of the backup.
If the backup status is either Success or In Progress, then the Show Backup Status Detail popup window
appears and displays a list of the files successfully backed up. When the backup status is In Progress,
ANM polls each ACE every 2 minutes to retrieve the latest status information and then it automatically
updates the status information displayed. The polling continues until ANM receives a status of either
Success or Failed.
If the backup status is Failed, then the Show Backup Errors popup window appears, displaying the reason
for the failed backup attempt.
Related Topics
• Associating a Global Backup Schedule with a Device, page 6-71
• Managing Global Backup Schedules, page 6-73
• Copying Existing Tarred Backup Files to a Remote Server, page 6-77
• Performing Device Backup and Restore Functions, page 6-59
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Associating a Global Backup Schedule with a Device
You can schedule ANM to perform a global backup either as a one-time operation at some future time
or on a regular basis. You do this by creating a backup schedule and then associating the schedule with
one or more ACE devices.
Procedure
Step 1 Choose Config > Global > All Backups.
The Backups table appears and displays a list of the available ACEs (see Table 6-13).
Step 2 In the Backups table, check the checkbox of the ACEs that you want to schedule for backups.
When you choose multiple devices to schedule a backup, ANM checks to ensure that the following
attributes match between the devices:
• Schedules currently associated with the devices
• Remote location details
• Protocol used to connect to the remote location
• Pass phrase used to encrypt the backed up SSL keys
• Specified components to exclude
If these attributes do not match between the selected devices, ANM displays an error message and does
not allow you to continue scheduling a global backup. For example, if the attributes of the selected
devices do not match, ANM displays an error message such as:
One or more field values do not match in the selected devices. Select only devices that
have matching field values.
Step 3 Click Schedule Backup.
The Scheduled Backup popup window appears, which includes a list of the devices that you selected and
backup schedule parameters that you must configure.
Step 4 From the Scheduled Backup popup window, configure the scheduled backup parameters as shown in
Table 6-14.
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Step 5 From the Scheduled Backup popup window, do one of the following:
Table 6-14 Scheduling a Backup
Item Description
Schedule Associate one or more backup schedule with the devices by performing one or both of the
following:
• To associate an existing schedule listed in the Available box, double-click the schedule
to move it to the Selected box. You can also use the arrow buttons to move selected
schedules between the Available and Selected boxes.
• To create a backup schedule for the devices, click Create. The fields for creating a new
schedule appear in the Schedule section. Assign a unique name to the schedule, define
the schedule’s operating parameters, and click OK. The new schedule is added to the
Selected box.
For more information about creating a schedule, see the “Creating a Backup Schedule”
section on page 6-73.
To display the current settings of schedule in the Selected box, choose the schedule and
click View. The schedule details display in the Schedules section. You cannot modify the
settings. Click Cancel to close the details display.
Backup a file on ACE (disk0:)
and then copy to remote system
Configure where the backup is to be saved remotely as follows:
a. Specify the file transfer protocol to use by clicking one of the following radio buttons:
• FTP
• SFTP
• TFTP
b. In the Username text box, enter the username associated with the remote server.
c. In the Password text box, enter the password associated with the username.
d. In the IP Address text box, enter the remote server IP address.
e. In the Backup File Path in Remote System text box, enter the full path for the backup
file on the remote server.
Backup on devices Define the items to back up as follows:
a. Indicate the components that you want to exclude from the backup process:
Checkpoints or SSL Files. Double-click an item to move it to the Selected box. You
can also use the arrow buttons to move an item between the Available and Selected
boxes.
b. Enter the pass phrase that you specify to encrypt the backed up SSL keys.
Enter the pass phrase as an unquoted text string with no spaces and a maximum of 40
alphanumeric characters. If you enter a pass phrase but excluded the SSL files from the
archive, the ACE does not use the pass phrase.
Note The Backup All Contexts checkbox is checked by default to create a backup that
contains the files of the Admin context and every user context on the ACE. You
cannot change this setting.
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• Click OK to save the scheduled backup configuration, close the popup window, and return to the
Backups window, which now displays the associated backup schedule with the ACE.
• Click Cancel to ignore the scheduled backup information, close the popup window, and return to
the Backups window.
Related Topics
• Managing Global Backup Schedules, page 6-73
• Creating a Backup Schedule, page 6-73
• Updating an Existing Backup Schedule, page 6-76
• Backing Up Multiple Device Configuration and SSL Files, page 6-69
Managing Global Backup Schedules
You can create multiple schedules that allow ANM to perform a global backup at the time specified in a
particular schedule. You assign each schedule a name and then configure it with a set of parameters that
specify when ANM is to perform the backup. For example, you can create a schedule that has ANM
create a weekly backup every Tuesday at 1:00AM. After you create the schedule, you can apply it to one
or more devices. If you change the schedule’s configuration, such as the day of the week when the
backup is made, the change is applied the devices that use the schedule.
This section includes the following topics:
• Creating a Backup Schedule, page 6-73
• Updating an Existing Backup Schedule, page 6-76
• Deleting a Backup Schedule, page 6-76
Creating a Backup Schedule
You can create a backup schedule that you can apply to one or more devices.
Procedure
Step 1 Choose Config > Global > All Schedules.
The Schedules table appears and displays the information described in Table 6-15.
Table 6-15 All Schedules Fields
Item Description
Name Schedule name.
Type Schedule type: Once, Daily, Weekly, or Monthly.
Date Date that ANM performs a backup. This column applies the schedule type of the type Once.
Time Time of day when ANM performs the backup.
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Step 2 From the Schedules table window, click Create Schedule.
The Create Schedule popup window appears.
Step 3 From the Create Schedule popup window, create and configure the new backup schedule as described in
Table 6-16.
Daily Recurrence Indicates the following depending on schedule type:
• Daily schedule—Number of days between backups. For example, a value of 4 in this field indicates
that ANM performs one backup every 4 days. When N/A appears in this field for the type Daily,
the schedule is configured to perform a daily backup everyday (Monday–Sunday). In this case, the
days are listed in the Week Days column.
• Monthly schedule—Day of the month when the backup is to occur. For example, a value of 3
indicates that the backup occurs on the third day of each month. When N/A appears in this field
for the type Monthly, the schedule is configured to perform a monthly backup on the occurrence
of a particular day of the week. For example, you can schedule the backup for the second Sunday
of each month, in which case, Sun appears in the Week Days column.
Weekly Recurrence Indicates the following depending on schedule type:
• Weekly schedule—This value is always 1 for any configured weekly schedule and indicates that a
backup will occur every week on the indicated days (see Week Days).
• Monthly schedule—Week of the month when the backup is to occur. For example, a value of 3
indicates that the backup occurs on the third week of each month.
Monthly Recurrence Number of times the monthly schedule occurs.
Week Days Indicates the days of the week when ANM performs a backup depending on the schedule type:
• Weekly schedule—Days of the week when the backup occurs.
• Monthly schedule—Day of the week when the backup occurs. The Weekly Recurrence value
indicates which monthly occurrence of the specified week day that the backup occurs. For
example, if Weekly Recurrence value is 3 and the Week Days value is Sunday, then the monthly
backup occurs every third Sunday of the month.
Devices Name of the ACEs associated with the schedule. ANM adds devices to this field after you associate the
schedule with an ACE backup (see the “Backing Up Multiple Device Configuration and SSL Files”
section on page 6-69).
Table 6-15 All Schedules Fields
Item Description
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Step 4 Do one of the following:
• Click OK to save the backup schedule, close the popup window, and return to the Schedules window.
The Schedules window displays the new schedule.
• Click Cancel to close the popup window without saving your information and return to the
Schedules window.
Related Topics
• Managing Global Backup Schedules, page 6-73
• Updating an Existing Backup Schedule, page 6-76
• Deleting a Backup Schedule, page 6-76
• Associating a Global Backup Schedule with a Device, page 6-71
Table 6-16 Create Schedule Fields
Item Description
Name Unique schedule name.
Schedule types Schedule types that you can create to specify when a backup is to occur. Choose one of the following:
• Once: Specifies a one-time backup as follows:
– Date: Date that ANM performs a backup. Use the calendar tool to select the date
– Time: Time of day when ANM performs the backup.
• Daily: Specifies a daily schedule as follows:
– Time: Time of day when ANM performs the backup.
– Repeat: Specifies how often the schedule is repeated as follows:
- Every: Specifies the number of days between backups.
- Everyday (Mon-Sun): Specifies that a backup is performed each day.
• Weekly: Specifies a weekly schedule as follows:
– Time: Time of day when ANM performs the backup.
– Repeat Every week on: Specifies the days of the week that the backup is performed.
• Monthly: Specifies a monthly schedule as follows:
– Time: Time of day when ANM performs the backup.
– Repeat:
- Day (number) of every month: Specifies the day of the month when the backup is to occur.
For example, you can schedule a backup for 15th day of the month.
- Occurrence of the day (name) of every month: Specifies the occurrence of a weekday during
the month when the backup is performed. For example, you can schedule a backup to occur
every second Saturday of the month.
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Updating an Existing Backup Schedule
You can update an existing backup schedule. When you update a schedule that is currently associated
with devices, the changes that you make to the schedule affect the associated devices.
Caution Modifying an existing schedule affects the backup schedule of any device currently associated with the
schedule.
Procedure
Step 1 Choose Config > Global > All Schedules.
The Schedules window appears and displays the information described in Table 6-15.
Step 2 From the Schedules window, click the radio button of the backup schedule to update and click Update
Schedule.
The Update Schedule popup window appears.
Step 3 From the Update Schedule popup window, update backup schedule as described in Table 6-16.
Note You cannot modify the schedule name.
Step 4 From the Update Schedule popup window, do one of the following:
• Click OK to save your changes, close the popup window, and return to the Schedules window.
• Click Cancel to close the po-up window without saving your changes and return to the Schedules
window.
Related Topics
• Managing Global Backup Schedules, page 6-73
• Creating a Backup Schedule, page 6-73
• Deleting a Backup Schedule, page 6-76
• Associating a Global Backup Schedule with a Device, page 6-71
Deleting a Backup Schedule
You can delete an existing global backup schedule.
Caution Deleting a backup schedule removes the schedule from any device currently associated with it.
Procedure
Step 1 Choose Config > Global > All Schedules.
The Schedules window appears and displays the information described in Table 6-15.
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Step 2 From the Schedules window, click the radio button of the backup schedule to delete and click Delete.
The Delete Confirmation popup window appears.
Step 3 From the Delete Confirmation popup window, do one of the following:
• Click OK to delete the schedule, close the popup window, and return to the Schedules window. The
schedule is removed from the list of schedules.
• Click Cancel to ignore the delete request, close the popup window, and return to the Schedules
window.
Related Topics
• Managing Global Backup Schedules, page 6-73
• Creating a Backup Schedule, page 6-73
• Associating a Global Backup Schedule with a Device, page 6-71
Copying Existing Tarred Backup Files to a Remote Server
You can copy an existing back up file from disk0: to a remote server. During the global backup process,
each ACE creates a tarred file containing its backup files and saves it locally on disk0:. You can use ANM
to simultaneously copy these tarred files from multiple ACEs to a remote server.
Note If your web browser supports the Remember Passwords option and you enable this option, the web
browser may fill in the Username and Password fields for user authentication. By default, these fields
should be empty. You can change the username and password fields from whatever the web browser
inserts into the two fields.
Procedure
Step 1 Choose Config > Global > All Backups.
The Backups table appears and displays a list of the available ACEs.
Note To refresh the table content at any time, click Poll Now.
The Backups fields are described in Table 6-13.
Step 2 In the Backups table, check the checkbox of the ACE or ACEs to perform the copy function.
Note To choose all of the ACEs, check the Name checkbox.
Step 3 Click Copy.
The Copy backup files to a remote system dialog box appears.
Step 4 In the Copy backup files to a remote system dialog box, choose the backup file to copy from the selected
device.
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This option appears only when you have selected a specific device for the copy operation in Step 2. If
you selected multiple devices in Step 2, then each device copies its latest successful backup file to the
remote server.
Step 5 Click the radio button of the transfer protocol to use.
• FTP—File Transfer Protocol
• SFTP—Secure File Transfer Protocol
• TFTP—Trivial File Transfer Protocol
Step 6 In the Username field, enter the username that the remote server requires for user authentication.
This field appears for FTP and SFTP only.
Step 7 In the Password field, enter the password that the remote server requires for user authentication.
This field appears for FTP and SFTP only.
Step 8 In the IP Address field, enter the IP address of the remote server.
Step 9 In the Backup File Path in Remote System field, enter the full path for the remote server.
Step 10 Click OK to begin the copy process.
ANM copies the backup files from each device to the remote server. A popup message displays to
indicate whether a copy operation was successful or failed.
Related Topics
• Backing Up Multiple Device Configuration and SSL Files, page 6-69
• Performing Device Backup and Restore Functions, page 6-59
Configuring Security with ACLs
An access control list (ACL) consists of a series of statements called ACL entries that collectively define
the network traffic profile. Each entry permits or denies network traffic (inbound and outbound) to the
parts of your network specified in the entry. In addition to an action element (permit or deny), each entry
also contains a filter element based on criteria such as the source address, the destination address, the
protocol, or the protocol-specific parameters. An implicit “deny all” entry exists at the end of every ACL,
so you must configure an ACL on every interface where you want to permit connections; otherwise, the
ACE denies all traffic on the interface.
ACLs provide basic security for your network by allowing you to control network connection setups
rather than processing each packet. Such ACLs are commonly referred to as security ACLs.
You can configure ACLs as parts of other features; for example, security, network address translation
(NAT), or server load balancing (SLB). The ACE merges these individual ACLs into one large ACL
called a merged ACL. The ACL compiler then parses the merged ACL and generates the ACL lookup
mechanisms. A match on this merged ACL can result in multiple actions. You can add, modify, or delete
entries to an ACL already in the summary table, or add a new ACL to the list.
When you use ACLs, you may want to permit all email traffic on a circuit, but block FTP traffic. You
can also use ACLs to allow one client to access a part of the network and prevent another client from
accessing that same area.
When configuring ACLs, you must apply an ACL to an interface to control traffic on that interface.
Applying an ACL on an interface assigns the ACL and its entries to that interface.
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You can apply only one extended ACL to each direction (inbound or outbound) of an interface. You can
also apply the same ACL on multiple interfaces.You can apply EtherType ACLs in only the inbound
direction and on only Layer 2 interfaces.
Note By default, all traffic is denied by the ACE unless explicitly allowed. Only traffic that is explicitly
allowed in an ACL can pass. All other traffic is denied.
This section includes the following topics:
• Creating ACLs, page 6-79
• Setting Extended ACL Attributes, page 6-82
• Resequencing Extended ACLs, page 6-87
• Setting EtherType ACL Attributes, page 6-87
• Displaying ACL Information and Statistics, page 6-89
Creating ACLs
You can create an ACL.
Note By default, the ACE denies all traffic unless explicitly allowed. Only traffic that is explicitly allowed in
an ACL can pass. All other traffic is denied.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Security > ACLs.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > Security > ACLs.
The ACLs table appears listing the existing ACLs. The ACL fields are described in Table 6-17.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
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Step 2 In the ACLs table, do one of the following:
• To view full details of an ACL inline, click the plus sign to the left of any table entry.
• To create an ACL, click Add.
• To modify an ACL, choose the radio button to the left of any table entry, and click Edit.
• To delete an ACL, choose the radio button to the left of any table entry, and click Trash.
If you choose create, the New Access List window appears.
If you choose modify, the Edit ACL or Edit ACL entry window appears based on the selected radio
button to the left of any table entry.
Table 6-17 ACLs Table
Field Description
Name Unique identifier for the ACL. Valid entries are unquoted text strings with a maximum of 64
alphanumeric characters.
Type Identifies the following ACL attributes:
• ACL type:
– Extended—Allows you to specify both the source and the destination IP addresses of
traffic and the protocol and the action to be taken. For more information see the “Setting
Extended ACL Attributes” section on page 6-82.
– EtherType—This ACL controls network access for non-IP traffic based on its EtherType.
An EtherType is a subprotocol identifier. For more information, see the “Setting EtherType
ACL Attributes” section on page 6-87.
• (ACE module and ACE appliance software Version A5(1.0) or later only) IP address type:
– IPv4—This ACL controls network access for IPv4 traffic.
– IPv6—This ACL controls network access for IPv6 traffic.
# ACL line number for extended type ACL entries.
Action Action to be taken (permit/deny).
Protocol Protocol number or service object group to apply to this ACL entry.
Source Source IPv6 or IPv4 address (and source netmask with port number if configured for extended type
ACL) or source network object group (if configured) that is being applied to this ACL entry. IPv6
requires ACE module and ACE appliance software Version A5(1.0) or later.
Destination Destination IPv6 or IPv4 address (and destination netmask with port number if configured for
extended type ACL) or destination network object group (if configured) that is applied to this ACL
entry. IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later.
ICMP Whether or not this ACL uses ICMP (Internet Control Message Protocol). For more information,
see Table 6-20.
Interface VLAN interfaces associated with this ACL. For example in24,4033:24out where “in” denotes the
input direction and “out” denotes the output direction.
Remark Comments for this ACL. Valid entries are unquoted text strings with a maximum of 100 characters.
You can enter leading spaces at the beginning of the text or special characters. Trailing spaces are
ignored.
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Step 3 Add or edit required fields as described in Table 6-18.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Table 6-18 ACL Configuration Attributes
Field Description
ACL Properties
Name Unique identifier for the ACL. Valid entries are unquoted text strings with a maximum of 64
alphanumeric characters.
Type Type of ACL:
• Extended—Allows you to specify both the source and the destination IP addresses of
traffic, the protocol, and the action to be taken. For more information see the “Setting
Extended ACL Attributes” section on page 6-82.
• EtherType—This ACL controls network access for non-IP traffic based on its EtherType.
An EtherType is a subprotocol identifier. For more information see the “Setting
EtherType ACL Attributes” section on page 6-87.
IP Address Type Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later,
which supports IPv4 and IPv6. Type of IP address: IPv4 or IPv6.
Remark Comments that you want to include for this ACL. Valid entries are unquoted text strings with
a maximum of 100 characters. You can enter leading spaces at the beginning of the text or
special characters. Trailing spaces are ignored.
ACL Entries
Entry Attributes Line number, action and protocol/service object group drop-down list. For information about
setting these attributes, see the “Setting Extended ACL Attributes” section on page 6-82 or
the “Setting EtherType ACL Attributes” section on page 6-87.
Source This field contains the following information for Extended ACLs only: Source IPv6 address
and prefix length, IPv4 address with port number (if configured) and netmask, or source
network object group (if configured) that is being applied to this ACL entry. For information
about setting this attribute, see the “Setting Extended ACL Attributes” section on page 6-82.
IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later.
Destination This field contains the following information for Extended ACLs only: Destination IPv6
address and prefix length, IPv4 address with port number (if configured) and netmask, or
destination network object group (if configured) that is being applied to this ACL entry. For
information about setting this attribute, see the “Setting Extended ACL Attributes” section on
page 6-82.
IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later.
Add To Table button Button to add multiple ACL entries, one at a time before clicking Deploy.
Remove From Table button Button to remove multiple ACL entries, one at a time before clicking Deploy.
• Input/Output Direction
• Currently Assigned
(ACL:Direction)
Field that allows you to associate the ACL with one or more interfaces allowing only one input
and one output ACL for each interface. The top left checkbox under the Interfaces section
allows you to choose and apply to all interfaces “access-group input.”
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Note To add, modify, or delete Object Groups go to the “Configuring Object Groups” section on page 6-89.
Step 4 Do one of the following:
• Click Deploy to deploy this newly created ACL entries along with VLAN interface assignments that
were configured.
• Click Cancel to exit this procedure without saving your entries and to return to the ACLs table.
Related Topics
• Configuring Security with ACLs, page 6-78
• Setting EtherType ACL Attributes, page 6-87
• Setting Extended ACL Attributes, page 6-82
• Resequencing Extended ACLs, page 6-87
• Editing or Deleting ACLs, page 6-100
• Displaying ACL Information and Statistics, page 6-89
Setting Extended ACL Attributes
You can configure extended ACL attributes that allows you to specify both the source and the destination
IP addresses of traffic and the protocol and the action to be taken.
For TCP, UDP, and ICMP connections, you do not need to also apply an ACL on the destination interface
to allow returning traffic, because the ACE allows all returning traffic for established connections.
Note By default, all traffic is denied by the ACE unless explicitly allowed. Only traffic that is explicitly
allowed in an ACL can pass. All other traffic is denied.
Note The ACE does not explicitly support standard ACLs. To configure a standard ACL, specify the
destination address as any and do not specify the ports in an extended ACL.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Security > ACLs.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > Security > ACLs.
The ACLs table appears, listing the existing ACLs.
Step 2 In the ACLs table, click Add.
The New Access List configuration window appears.
Step 3 Click Add to add an entry to the table, or choose an existing entry and click Edit to modify it.
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Step 4 In the ACL Properties pane, do the following:
a. Enter the ACL name.
b. For the ACL type, choose Extended.
c. For the IP address type, choose either IPv4 or IPv6. This field appears only for ACE module and
ACE appliance software Version A5(1.0) or later, which supports IPv4 and IPv6.
d. (Optional) In the Remark text box, enter comments that you want to include for this ACL. Valid
entries are unquoted text strings with a maximum of 100 characters. You can enter leading spaces at
the beginning of the text or special characters. Trailing spaces are ignored.
Step 5 Configure extended ACL entries using the information in Table 6-19.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Table 6-19 Extended ACL Configuration Options
Field Description
Entry Attributes
Line Number Number that specifies the position of this entry in the ACL. The position of an entry affects
the lookup order of the entries in an ACL. To change the sequence of existing extended ACLs,
see the “Resequencing Extended ACLs” section on page 6-87.
Action Action to be taken: Permit or Deny.
Service Object Group Option that is not applicable to ACE modules running 3.0(0)A1(x) and ACE 4710 appliances
running image A1(x).
Choose a service object group to apply to this ACL.
Protocol Protocol or protocol number to apply to this ACL entry. Table 6-20 lists common protocol
names and numbers.
ICMP Type This field appears only when the selected protocol type is ICMP. Choose the ICMP type.
Table 6-23 lists common ICMP types and numbers. Table 6-24 lists common ICMPv6 types
and numbers.
ICMP Message Code
Operator
This field appears only when the selected protocol type is ICMP. Choose one of the following
operands to use when comparing message codes for this service object:
• Equal To—The message code must be the same as the number in the Message Code field.
• Greater Than—The message code must be greater than the number in the Message Code
field.
• Less Than—The message code must be less than the number in the Message Code field.
• Not Equal To—The message code must not equal the number in the Message Code field.
• Range—The message code must be within the range of codes specified by the Min.
Message Code field and the Max. Message Code field.
ICMP Message Code This field appears only when the selected protocol type is ICMP and the ICMP Message Code
Operator is set to one of the following: Equal To, Greater Than, Less Than, or Not Equal To.
Enter the ICMP message code for this service object.
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ICMP Min. Message Code These fields appear only when the selected protocol type is ICMP and the ICMP Message
Code Operator is set to Range.
Enter the beginning and ending value for a range of services for this service object. Valid
entries are integers from 0 to 255. The minimum value must be less that the maximum value.
ICMP Max. Message Code
Source
Source Network Network traffic being received from the source network to the ACE:
• Any—Choose the Any radio button to indicate that network traffic from any source is
allowed.
• IP/Netmask—(IPv4 address type) Use this field to limit access to a specific source IP
address. Enter the source IP address that is allowed for this ACL. Enter a specific source
IP address and choose its subnet mask.
• IP/Prefix-length—(IPv6 address type) Use this field to limit access to a specific source IP
address. Enter the source IPv6 address that is allowed for this ACL and its prefix length.
IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later.
• Network Object Group—Choose a source network object group to apply to this ACL.
Note This option is not applicable to ACE modules running release 3.0(0)A1(x) and ACE
4710 appliances running release A1(x).
Source Port Operator Field that appears if you choose TCP or UPD in the Protocol field.
Choose the operand to use to compare source port numbers:
• Equal To—The source port must be the same as the number in the Source Port Number
field.
• Greater Than—The source port must be greater than the number in the Source Port
Number field.
• Less Than—The source port must be less than the number in the Source Port Number
field.
• Not Equal To—The source port must not equal the number in the Source Port Number
field.
• Range—The source port must be within the range of ports specified by the Lower Source
Port Number field and the Upper Source Port Number field.
Source Port Number Field that appears if you choose one of the following the Source Port Operator field: Equal To,
Greater Than, Less Than, or Not Equal To.
Enter the port name or number from which you want to permit or deny access. For a list of
ports, see the “ANM Ports Reference” section on page A-1.
Lower Source Port Number Field that appears if you choose Range in the Source Port Operator field.
Enter the number of the lowest port from which you want to permit or deny access. Valid
entries are from 0 to 65535. The number in this field must be less than the number entered in
the Upper Source Port Number field.
Upper Source Port Number Field that appears if you choose Range in the Source Port Operator field.
Enter the port number of the upper port from which you want to permit or deny access. Valid
entries are from 0 to 65535. The number in this field must be greater than the number entered
in the Lower Source Port Number field.
Table 6-19 Extended ACL Configuration Options (continued)
Field Description
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Destination
Destination Network Network traffic being transmitted to the destination network from the ACE:
• Any—Choose the Any radio button to indicate that network traffic to any destination is
allowed.
• IP/Netmask—(IPv4 address type) Use this field to limit access to a specific destination IP
address. Enter the source IP address that is allowed for this ACL. Enter a specific
destination IP address and choose its subnet mask.
• IP/Prefix-length—(IPv6 address type) Use this field to limit access to a specific
destination IP address. Enter the destination IPv6 address that is allowed for this ACL and
its prefix length. IPv6 requires ACE module and ACE appliance software Version A5(1.0)
or later.
• Network Object Group—Choose a destination network object group to apply to this ACL.
Note This option is not applicable to ACE modules running release 3.0(0)A1(x) and ACE
4710 appliances running release A1(x).
Destination Port Operator Field that appears if you choose TCP or UPD in the Protocol field.
Choose the operand to use to compare destination port numbers:
• Equal To—The destination port must be the same as the number in the Destination Port
Number field.
• Greater Than—The destination port must be greater than the number in the Destination
Port Number field.
• Less Than—The destination port must be less than the number in the Destination Port
Number field.
• Not Equal To—The destination port must not equal the number in the Destination Port
Number field.
• Range—The destination port must be within the range of ports specified by the Lower
Destination Port Number field and the Upper Destination Port Number field.
Destination Port Number Field that appears if you choose one of the following in the Destination Port Operator field:
Equal To, Greater Than, Less Than, or Not Equal To.
Enter the port name or number from which you want to permit or deny access. For a list of
ports and keywords, see the “ANM Ports Reference” section on page A-1.
Lower Destination Port
Number
Field that appears if you choose Range in the Destination Port Operator field.
Enter the number of the lowest port to which you want to permit or deny access. Valid entries
are from 0 to 65535. The number in this field must be less than the number entered in the
Upper Destination Port Number field.
Upper Destination Port
Number
Field that appears if you choose Range in the Destination Port Operator field.
Enter the port number of the upper port to which you want to permit or deny access. Valid
entries are from 0 to 65535. The number in this field must be greater than the number entered
in the Lower Destination Port Number field.
Table 6-19 Extended ACL Configuration Options (continued)
Field Description
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Step 6 In the Extended configuration pane, do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click OK to save your entries. This option appears for configuration building blocks.
• Click Cancel to exit without saving your entries and to return to the Extended table.
• Click Next to deploy your entries and to add another entry to the Extended table.
Step 7 (Optional) Associate any VLAN interface to this ACL if required and do one of the following:
• Click Deploy to immediately deploy this configuration.
• Click Cancel to exit without saving your entries and to return to the ACL Summary table.
Related Topics
• Configuring Security with ACLs, page 6-78
• Creating ACLs, page 6-79
• Setting EtherType ACL Attributes, page 6-87
• Resequencing Extended ACLs, page 6-87
• Editing or Deleting ACLs, page 6-100
• Displaying ACL Information and Statistics, page 6-89
Table 6-20 Protocol Names and Numbers
Protocol Name1
1. For a complete list of all protocols and their numbers, see the Internet Assigned Numbers Authority available at
www.iana.org/numbers/
Protocol Number Description
AH 51 Authentication Header
EIGRP 88 Enhanced IGRP
ESP 50 Encapsulated Security Payload
GRE 47 Generic Routing Encapsulation
ICMP 1 Internet Control Message Protocol
ICMPv62
2. ICMPv6 is not available for an IPv4 service object group.
58 Internet Control Message Protocol version 6
IGMP 2 Internet Group Management Protocol
IP 0 Internet Protocol
IP-In-IP 4 IP-In-IP Layer 3 Tunneling Protocol
OSPF 89 Open Shortest Path First
PIM 103 Protocol Independent Multicast
TCP 6 Transmission Control Protocol
UDP 17 User Datagram Protocol
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Resequencing Extended ACLs
You can change the sequence of entries in an Extended ACL.
Note EtherType ACL entries cannot be resequenced.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Security > ACLs.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > Security > ACLs.
The ACLs table appears, listing the existing ACLs.
Step 2 In the ACLs table, choose the Extended ACL that you want to renumber, and click the Resequence icon
that appears to the left of the filter field.
The ACL Line Number Resequence window appears.
Step 3 In the Start field of the ACL Line Number Resequence window, enter the number that is to be assigned
to the first entry in the ACL.
Valid entries are from 1 to 2147483647.
Step 4 In the Increment field, enter the number that is to be added to each entry in the ACL after the first entry.
Valid entries are from 1 to 2147483647.
Step 5 Do one of the following:
• Click Resequence to save your entries and to return to the ACLs table.
• Click Cancel to exit this procedure without saving your entries and to return to the ACLs table.
Related Topics
• Configuring Security with ACLs, page 6-78
• Creating ACLs, page 6-79
• Setting EtherType ACL Attributes, page 6-87
• Setting Extended ACL Attributes, page 6-82
• Editing or Deleting ACLs, page 6-100
• Displaying ACL Information and Statistics, page 6-89
Setting EtherType ACL Attributes
You can configure an ACL that controls traffic based on its EtherType, which is a subprotocol identifier.
EtherType ACLs support Ethernet V2 frames. EtherType ACLs do not support 802.3-formatted frames
because they use a length field instead of a type field. The only exception is a bridge protocol data units
(BPDU), which is SNAP encapsulated. The ACE is designed to handle BPDUs.
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Note By default, all traffic is denied by the ACE unless explicitly allowed. Only traffic that is explicitly
allowed in an ACL can pass. All other traffic is denied.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Security > ACLs.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > Security > ACLs.
The ACLs table appears, listing the existing ACLs.
Step 2 In the ACLs table, click Add.
The New Access List configuration window appears.
Step 3 In the ACL Properties pane, do the following:
a. In the Name text box, enter the ACL name.
b. For the Type, choose Ethertype.
c. For the IP Address Type, choose IPv4. This field appears only for ACE module and ACE appliance
software Version A5(1.0) or later, which supports IPv4 and IPv6.
Note You cannot use IPv6 with an Ethertype ACL.
Step 4 Choose one of the following radio buttons:
• Deny to indicate that the ACE is to block connections.
• Permit to indicate that the ACE is to allow connections.
Step 5 In the Protocol field, choose one of the following the drop-down list for this ACL:
• Any—Specifies any EtherType.
• BPDU—Specifies bridge protocol data units. The ACE receives trunk port (Cisco proprietary)
BPDUs because ACE ports are trunk ports. Trunk BPDUs have VLAN information inside the
payload, so the ACE modifies the payload with the outgoing VLAN if you allow BPDUs. If you
configure redundancy, you must allow BPDUs on both interfaces with an EtherType ACL to avoid
bridging loops. For information about configuring redundancy, see the “Understanding ACE
Redundancy” section on page 13-6.
• IPv6—Specifies Internet Protocol version 6.
• MPLS—Specifies Multi-Protocol Label Switching. The MPLS selection applies to both MPLS
unicast and MPLS multicast traffic. If you allow MPLS, ensure that Label Distribution Protocol
(LDP) and Tag Distribution Protocol (TDP) TCP connections are established through the ACE by
configuring both MPLS routers connected to the ACE to use the IP address on the ACE interface as
the router-id for LDP or TDP sessions. LDP and TDP allow MPLS routers to negotiate the labels
(addresses) used to forward packets.
Step 6 Click Add to Table and add one or more ACL entries if required repeating Steps 4 and 5 as needed.
Step 7 (Optional) Associate any VLAN interface to this ACL if required and do one of the following:
• Click Deploy to immediately deploy this configuration. This option appears for virtual contexts.
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• Click Cancel to exit without saving your entries and to return to the ACL Summary table.
Related Topics
• Configuring Security with ACLs, page 6-78
• Creating ACLs, page 6-79
• Setting Extended ACL Attributes, page 6-82
• Resequencing Extended ACLs, page 6-87
• Editing or Deleting ACLs, page 6-100
• Displaying ACL Information and Statistics, page 6-89
Displaying ACL Information and Statistics
You can display information and statistics for a particular ACL by using the Details button.
Procedure
Step 1 Choose Config > Devices > context > Security > ACLs.
The ACLs table appears listing the existing ACLs.
Step 2 In the ACLs table, choose an ACL, and click Details.
The show access-list access-list detail CLI command output appears. For details about the displayed
output fields, see either the Cisco ACE Module Security Configuration Guide or the Cisco ACE 4700
Series Appliance Security Configuration Guide, Chapter 1, “Configuring Security Access Control Lists.”
Step 3 Click Update Details to refresh the output for the show access-list access-list detail CLI command.
Step 4 Click Close to return to the ACLs table.
Related Topics
• Configuring Security with ACLs, page 6-78
• Creating ACLs, page 6-79
• Setting Extended ACL Attributes, page 6-82
• Resequencing Extended ACLs, page 6-87
• Editing or Deleting ACLs, page 6-100
Configuring Object Groups
You can configure object groups that you can associate with ACLs. An object group is a logical grouping
of objects such as hosts (servers and clients), services, and networks. When you create an object group,
you choose a type, such as network or service, and then specify the objects that belong to the groups. In
all, there are four types of object groups: Network, protocol, service, and ICMP-type.
After you configure an object group, you can include it in ACLs, thereby including all objects within
that group and reducing overall configuration size.
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This section includes the following topics:
• Creating or Editing an Object Group, page 6-90
• Configuring IP Addresses for Object Groups, page 6-91
• Configuring Subnet Objects for Object Groups, page 6-92
• Configuring Protocols for Object Groups, page 6-93
• Configuring TCP/UDP Service Parameters for Object Groups, page 6-94
• Configuring ICMP Service Parameters for an Object Group, page 6-97
Creating or Editing an Object Group
You can create a object group or edit an existing one.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Security > Object Groups.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > Security > Object Groups.
Note Object groups are available for only ACE modules and ACE module configuration building
blocks.
The Object Groups table appears, listing existing object groups.
Step 2 In the Object Groups table, click Add to create a new object group, or choose an existing object group,
and click Edit to modify it.
The Object Groups configuration window appears.
Note The object group definition attributes for Protocol Selection and Service Parameter cannot be
edited once defined for an object group. To edit these values, delete the object group definition
and then add it again with the desired settings.
Step 3 In the Name field of the Object Groups configuration window, enter a unique name for this object group.
Valid entries are unquoted text strings with no spaces and a maximum of 64 alphanumeric characters.
Step 4 In the Description field, enter a brief description for the object group.
Step 5 In the Type field, choose the type of object group that you are creating:
• Network—The object group is based on a group of hosts or subnet IP addresses.
• Service—The object group is based on TCP or UDP protocols and ports, or ICMP types, such as
echo or echo-reply.
Step 6 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click OK to save your entries. This option appears for configuration building blocks.
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• Click Cancel to exit without saving your entries and to return to the Object Groups table.
• Click Next to deploy your entries and to add another entry to the Object Groups table.
If you click Deploy Now or OK, the window refreshes with tables additional configuration options.
Step 7 Configure objects for the object group as follows:
• For network-type object groups, options include:
– Configuring IP Addresses for Object Groups, page 6-91
– Configuring Subnet Objects for Object Groups, page 6-92
• For service-type object groups, options include:
– Configuring Protocols for Object Groups, page 6-93
– Configuring TCP/UDP Service Parameters for Object Groups, page 6-94
– Configuring ICMP Service Parameters for an Object Group, page 6-97
Configuring IP Addresses for Object Groups
You can specify host IP addresses for network-type object groups.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version A5(1.0)
or later.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Security > Object Groups.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > Security > Object Groups.
The Object Groups table appears, listing the existing object groups.
Step 2 In the Object Groups table, choose the object group that you want to configure host IP addresses for, and
click the Host Setting For Object Group tab.
The Host Setting for Object Group table appears.
Step 3 In the Host Setting for Object Group table, click Add to add an entry to this table.
Step 4 Enter the host IP address as follows:
• For ACE module sand ACE appliances using a software version earlier than A5(1.0), enter the IPv4
address of a host to include in this group.
• For ACE module sand ACE appliances using software Version A5(1.0) or later, choose either of the
following IP address types:
– IPv4—A host with an IPv4 IP address. In the IPv4 Address field, enter the IP address of a host
to include in this group.
– IPv6—A host with an IPv6 IP address. In the IPv6 Address field, enter the IP address of a host
to include in this group.
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Step 5 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click OK to save your entries. This option appears for configuration building blocks.
• Click Cancel to exit this procedure without saving your entries.
• Click Next to deploy your entries and to add another entry to the Host Setting table.
Related Topics
• Configuring Object Groups, page 6-89
• Configuring Subnet Objects for Object Groups, page 6-92
• Configuring Protocols for Object Groups, page 6-93
• Configuring TCP/UDP Service Parameters for Object Groups, page 6-94
• Configuring ICMP Service Parameters for an Object Group, page 6-97
Configuring Subnet Objects for Object Groups
You can specify subnet objects for a network-type object group.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version A5(1.0)
or later.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Security > Object Groups.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > Security > Object Groups.
The Object Groups table appears, listing the existing object groups.
Step 2 In the Object Groups table, choose the object group that you want to configure subnet objects for, and
click the Network Setting For Object Group tab.
The Network Setting for Object Group table appears.
Step 3 Click Add to add an entry to this table.
Step 4 Enter the subnet object IP address as follows:
• For ACE module sand ACE appliances using a software version earlier than A5(1.0), enter an IPv4
address that, with the subnet mask, defines the subnet object.
• For ACE module sand ACE appliances using software Version A5(1.0) or later, in the IP Address
Type field, choose one of the following:
– IPv4—A subnet object with an IPv4 IP address.
– IPv6—A object with an IPv6 IP address. In the IPv6 Address field, enter the IP address.
Step 5 Depending on the IP address type that you chose, do one of the following:
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• For IPv4, in the IPv4 Address field, enter the IP address. In the Netmask field, select the subnet mask
for this subnet object.
• For IPv6, in the IPv6 Address field, enter the IP address. In the Network Prefix Length field, enter
the prefix length for this object.
Step 6 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click OK to save your entries. This option appears for configuration building blocks.
• Click Cancel to exit this procedure without saving your entries.
• Click Next to deploy your entries and to add another entry to the Network Setting table.
Related Topics
• Configuring Object Groups, page 6-89
• Configuring IP Addresses for Object Groups, page 6-91
• Configuring Protocols for Object Groups, page 6-93
• Configuring TCP/UDP Service Parameters for Object Groups, page 6-94
• Configuring ICMP Service Parameters for an Object Group, page 6-97
Configuring Protocols for Object Groups
You can specify protocols for a service-type object group.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Security > Object Groups.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > Security > Object Groups.
The Object Groups table appears, listing the existing object groups.
Step 2 In the Object Groups table, choose an existing service-type object group, and click the Protocol
Selection tab.
The Protocol Selection table appears.
Step 3 In the Protocol Selection table, click Add to add an entry to this table.
Step 4 In the Protocol Number field, choose the protocol or protocol number to add to this object group.
See Table 6-20 for common protocols and their numbers.
Step 5 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click OK to save your entries. This option appears for configuration building blocks.
• Click Cancel to exit this procedure without saving your entries.
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• Click Next to deploy your entries and to add another entry to the Protocol Selection table.
Related Topics
• Configuring Object Groups, page 6-89
• Configuring IP Addresses for Object Groups, page 6-91
• Configuring Subnet Objects for Object Groups, page 6-92
• Configuring TCP/UDP Service Parameters for Object Groups, page 6-94
• Configuring ICMP Service Parameters for an Object Group, page 6-97
Configuring TCP/UDP Service Parameters for Object Groups
You can add TCP or UDP service objects to a service-type object group.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Security > Object Groups.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > Security > Object Groups.
The Object Groups table appears, listing the existing object groups.
Step 2 In the Object Groups table, choose an existing service-type object group, and click the TCP/UDP
Service Parameters tab.
The TCP/UDP Service Parameters table appears.
Step 3 Click Add to add an entry to this table.
Step 4 Configure TCP or UDP service objects using the information in Table 6-21.
Table 6-21 TCP and UDP Service Parameters
Field Description
Protocol Protocol for this service object:
• TCP—TCP is the protocol for this service object.
• TCP And UDP—Both TCP and UDP are the protocols for this service object.
• UDP—UDP is the protocol for this service object.
Source Port Operator Operand to use when comparing source port numbers for this service object:
• Equal To—The source port must be the same as the number in the Source Port field.
• Greater Than—The source port must be greater than the number in the Source Port field.
• Less Than—The source port must be less than the number in the Source Port field.
• Not Equal To—The source port must not equal the number in the Source Port field.
• Range—The source port must be within the range of ports specified by the Lower Source Port
field and the Upper Source Port field.
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Step 5 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click OK to save your entries. This option appears for configuration building blocks.
• Click Cancel to exit this procedure without saving your entries.
• Click Next to deploy your entries and to add another entry to the TCP/UDP Service Parameters
table.
Source Port Field that appears if you choose Equal To, Greater Than, Less Than, or Not Equal To in the Source
Port Operator field.
Enter the source port name or number for this service object.
Lower Source Port Field that appears if you choose Range in the Source Port Operator field.
Enter the number that is the beginning value for a range of services for this service object. Valid
entries are from 0 to 65535. The number in this field must be less than the number entered in the
Upper Source Port field.
Upper Source Port Field that appears if you choose Range in the Source Port Operator field.
Enter the number that is the ending value for a range of services for this service object. Valid entries
are from 0 to 65535. The number in this field must be greater than the number entered in the Lower
Source Port field.
Destination Port
Operator
Operand to use when comparing destination port numbers:
• Equal To—The destination port must be the same as the number in the Destination Port field.
• Greater Than—The destination port must be greater than the number in the Destination Port
field.
• Less Than—The destination port must be less than the number in the Destination Port field.
• Not Equal To—The destination port must not equal the number in the Destination Port field.
• Range—The destination port must be within the range of ports specified by the Lower
Destination Port field and the Upper Destination Port field.
Destination Port Field that appears if you choose Equal To, Greater Than, Less Than, or Not Equal To in the
Destination Port Operator field.
Enter the destination port name or number for this service object.
Lower Destination
Port
Field that appears if you choose Range in the Destination Port Operator field.
Enter the number that is the beginning value for a range of services for this service object. Valid
entries are from 0 to 65535. The number in this field must be less than the number entered in the
Upper Destination Port field.
Upper Destination
Port
Field that appears if you choose Range in the Destination Port Operator field.
Enter the number that is the ending value for a range of services for this service object. Valid entries
are from 0 to 65535. The number in this field must be greater than the number entered in the Lower
Destination Port field.
Table 6-21 TCP and UDP Service Parameters (continued)
Field Description
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Related Topics
• Configuring Object Groups, page 6-89
• Configuring IP Addresses for Object Groups, page 6-91
• Configuring Subnet Objects for Object Groups, page 6-92
• Configuring Protocols for Object Groups, page 6-93
• Configuring ICMP Service Parameters for an Object Group, page 6-97
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Configuring ICMP Service Parameters for an Object Group
You can add ICMP service parameters to a service-type object group.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > Security > Object Groups.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > Security > Object Groups.
The Object Groups table appears, listing the existing object groups.
Step 2 In the Object Groups table, choose an existing service-type object group, and click the ICMP Service
Parameters tab.
The ICMP Service Parameters table appears.
Step 3 Click Add to add an entry to this table.
Step 4 Configure ICMP type objects using the information in Table 6-22.
Table 6-22 ICMP Type Service Parameters
Field Description
ICMP Version Field that appears for ACE module and ACE appliance software Version A5(1.0) or later. Internet
Control Message Protocol (ICMP) version. Choose one of the following radio buttons:
• ICMP—ICMP for Internet Protocol version 4 (IPv4).
• ICMPv6—ICMP version 6 (ICMPv6) for Internet Protocol version 6 (IPv6).
ICMP Type ICMP type or number for this service object. Table 6-23 lists common ICMP types and numbers.
Table 6-24 lists the ICMPv6 types and numbers.
Message Code Operator Operand to use when comparing message codes for this service object:
• Equal To—The message code must be the same as the number in the Message Code field.
• Greater Than—The message code must be greater than the number in the Message Code field.
• Less Than—The message code must be less than the number in the Message Code field.
• Not Equal To—The message code must not equal the number in the Message Code field.
• Range—The message code must be within the range of codes specified by the Min Message
Code field and the Max. Message Code field.
Message Code Field that appears if you choose one of the following in the Message Code Operator field: Equal
To, Greater Than, Less Than, or Not Equal To.
Enter the ICMP message code for this service object.
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Min. Message Code Field that appears if you choose Range in the Message Code Operator field.
Enter the number that is the beginning value for a range of services for this service object. Valid
entries are from 0 to 255. The number in this field must be less than the number entered in the Max
Message Code field.
Max. Message Code Field that appears if you choose Range in the Message Code Operator field.
Enter the number that is the ending value for a range of services for this service object. Valid entries
are from 0 to 255. The number in this field must be greater than the number entered in the Min.
Message Code field.
Table 6-23 ICMP Type Numbers and Names
Number ICMP Type Name
0 Echo-Reply
3 Unreachable
4 Source-Quench
5 Redirect
6 Alternate-Address
8 Echo
9 Router-Advertisement
10 Router-Solicitation
11 Time-Exceeded
12 Parameter-Problem
13 Timestamp-Request
14 Timestamp-Reply
15 Information-Request
16 Information-Reply
17 Address-Mask-Request
18 Address-Mask-Reply
31 Conversion-Error
32 Mobile-Redirect
Table 6-24 ICMPv6 Type Numbers and Names
Number ICMPv6 Type Name
128 Echo
129 Echo-Reply
140 Information-Reply
139 Information-Request
Table 6-22 ICMP Type Service Parameters (continued)
Field Description
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Step 5 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click OK to save your entries. This option appears for configuration building blocks.
• Click Cancel to exit this procedure without saving your entries.
• Click Next to deploy your entries and to add another entry to the ICMP Service Parameters table.
Related Topics
• Configuring Object Groups, page 6-89
• Configuring IP Addresses for Object Groups, page 6-91
• Configuring Subnet Objects for Object Groups, page 6-92
• Configuring Protocols for Object Groups, page 6-93
• Configuring TCP/UDP Service Parameters for Object Groups, page 6-94
Managing ACLs
This section describes how to manage ACLs.
This section includes the following topics:
• Viewing All ACLs by Context, page 6-99.
• Editing or Deleting ACLs, page 6-100.
Viewing All ACLs by Context
You can display ACLs that have been configured.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 In the device tree, choose the virtual context with the ACLs that you want to view, and choose Security >
ACLs.
4 Parameter-Problem
137 Redirect
3 Time-Exceeded
30 Traceroute
1 Unreachable
Table 6-24 ICMPv6 Type Numbers and Names (continued)
Number ICMPv6 Type Name
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The ACLs table appears, listing the existing ACLs in that context with their name, their type (Extended
or EtherType), and all details (such as Action, Protocol, Interface information).
Step 3 To display all of the ACLs for a given table entry, click the plus sign to the left of that entry.
Step 4 To display all of the ACLs for all of the entries, click Expand All on the Add/Edit/Delete row.
Step 5 To collapse all of the ACLs for all of the entries, click Collapse All on the Add/Edit/Delete row.
Related Topics
• Configuring Security with ACLs, page 6-78
• Creating ACLs, page 6-79
• Setting EtherType ACL Attributes, page 6-87
• Setting Extended ACL Attributes, page 6-82
• Editing or Deleting ACLs, page 6-100
Editing or Deleting ACLs
You can delete or edit an ACL or any of its subentries.
Considerations
• You cannot mix IPv6 and IPv4 access-list entries in the same ACL.
Note IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later.
• Before you change the IP address type (IPv4/IPv6) for an existing ACL, you must remove the entries
that are not applicable to the new IP address type.
• If you change the ACL protocol, the ACE removes all of the existing settings for the ACL.
Procedure
Step 1 Choose the item to edit or delete as follows:
• Choose Config > Devices > context > Security > ACLs.
• Choose Config > Global > All Building Blocks > building_block > Security > ACLs.
The ACLs table appears, listing the existing ACLs.
Step 2 In the ACLs table, choose the radio button to the left of the ACL that you want to Edit or Delete.
Expand entries if necessary by clicking the plus sign to the left of any ACL entry until you see the
subentry ACL for which you are looking, or click the Expand All icon to view all ACLs and subentries.
Step 3 Do one of the following:
• If you are editing an ACL or one of its entries, click Edit and go to Step 4.
• If you are deleting an ACL or one of its entries, click Delete and go to Step 5.
Step 4 Edit the entry using the summary information listed in Table 6-18 if needed, and click Deploy when
done.
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Step 5 Click Delete.
A confirmation popup window appears asking you to confirm the deletion. If you click OK, the ACLs
table refreshes without the deleted ACL.
Related Topics
• Creating ACLs, page 6-79
• Setting EtherType ACL Attributes, page 6-87
• Setting Extended ACL Attributes, page 6-82
• Resequencing Extended ACLs, page 6-87
Configuring Virtual Context Expert Options
The ANM virtual context Expert configuration options allow you to do the following:
• Establish traffic policies for virtual servers by classifying types of network traffic and then applying
the appropriate rules and actions for handling the traffic. See the “Configuring Traffic Policies”
section on page 14-1.
• Compare a virtual context configuration with a tagged configuration building block that has been
applied to the context. See the “Comparing Context and Building Block Configurations” section on
page 6-101.
• For ACE modules and ACE appliances, configure HTTP header modify action lists. See the
“Configuring an HTTP Header Modify Action List” section on page 14-85.
• For ACE appliances, configure optimization action lists. See the “Configuring an HTTP
Optimization Action List” section on page 15-3.
Comparing Context and Building Block Configurations
ANM allows you to compare the current configuration of a virtual context that has had a tagged
configuration building block applied to it with the settings of the applied building block. Discrepancies
between these configurations can occur when you configure the virtual context after applying the
building block instead of modifying and tagging the building block, then applying the updated building
block to the virtual context.
The ANM auditing process identifies the discrepancies by configuration category (such as policy maps
or SNMP) and groups them accordingly.
You can identify discrepancies between an ANM tagged building block and a virtual context that
previously had the building block applied to it.
Assumption
The virtual context has had a tagged building block applied to it.
Procedure
Step 1 Choose Config > Devices > context > Expert > Building Block Audit.
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The Building Block Audit window appears with the Comparison Results table, listing any discrepancies
between the configurations.
Step 2 In the Building Block Audit window, identify the discrepancies as follows:
• Click All at the top of the results tree. The Comparison Results table displays all discrepancies.
The values that follow the word All, such as 2c 5d 3a, indicate differences between the virtual
context configuration and the building block configuration. These values use the format
n where n represents the number of differences between the configurations and
represents the type of difference. The possible results are as follows:
– nc (changed) indicates the number of items with settings that have changed or differ from the
settings in the building block. For example, 2c indicates that two configuration options in the
context currently have different settings or values than those settings or values in the applied
building block.
– nd (deleted) indicates the number of items that were in the applied building block that do not
exist in the current context configuration. For example, 5d indicates that five configuration
options that were in the applied building block do not exist in the current context configuration.
– na (added) indicates the number of items that are in the current context configuration that were
not in the applied building block. For example, 3a indicates that three configuration options that
were not in the applied building block have been added to the context configuration.
• Click a folder in the results tree. The Comparison Results table displays the discrepancies for that
configuration category, such as SNMP or class maps.
• Click an item within a folder. The Comparison Results table displays the differences for that specific
attribute.
Step 3 In the Comparison Results table, when viewing results, you can do one of the following:
• Filter the results by entering a complete or partial string in one or more of the input fields at the top
of the columns, then clicking Go.
• Sort the results in ascending or descending order by clicking a column heading.
Related Topics
• Configuring Virtual Contexts, page 6-8
• Managing Virtual Contexts, page 6-103
• Using Configuration Building Blocks, page 16-1
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Managing Virtual Contexts
You can perform the following administrative actions on virtual contexts.
This section includes the following topics:
• Displaying All Virtual Contexts, page 6-103
• Synchronizing Virtual Context Configurations, page 6-105
• Managing Syslog Settings for Autosynchronization, page 6-105
• Editing Virtual Contexts, page 6-106
• Deleting Virtual Contexts, page 6-107
• Upgrading Virtual Contexts, page 6-107
• Restarting Virtual Context Polling, page 6-108
• Comparing Context and Building Block Configurations, page 6-101
Displaying All Virtual Contexts
You can display some or all virtual contexts being managed by ANM.
Procedure
Step 1 Choose Config > Devices > All VC.
The All Virtual Contexts table appears with the information described in Table 6-25.
Table 6-25 All Virtual Contexts Table
Field Description
Name Context name including chassis and slot.
Resource Class Resource class applied to the context.
Management IPs List of IP addresses used for remote management of the context.
Building Block Configuration building block applied to the context.
CLI Sync Status Administrative configuration status of the context as follows:
• Import Failed—The context did not import successfully. This problem could have occurred
when the device was added to ANM or when the context was synchronized. Synchronize the
context so that you can manage it (Config > Devices > ACE > context > Sync).
• OK—The context is synchronized with the ACE CLI.
• Out of Sync—The context is managed by the ANM but the configuration for the context on the
device differs from the configuration managed by the ANM. For information on synchronizing
contexts, see the “Synchronizing Virtual Context Configurations” section on page 6-105.
• Unprovisioned—The context has been removed from the ACE using the CLI but has not been
removed from ANM. To remove unprovisioned contexts, synchronize the associated Admin
context.
Last CLI Sync Status
Change
Time stamp of the last CLI synchronization with ANM.
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Step 2 Use the object selector to view all virtual contexts or only those contexts on a specific device.
Related Topics
• Restarting Virtual Context Polling, page 6-108
• Enabling Polling on All Devices, page 17-47
• Synchronizing Virtual Context Configurations, page 6-105
ACE HA State High availability state of the context. If the context is configured for high availability, the current
state of the context with regard to high availability:
• Active—The context is actively processing flows for the HA pair.
• Standby Cold—Either the fault-tolerant VLAN is down, but the peer ACE is still alive, or the
configuration or application state synchronization failed.
• Standby Bulk—The context is waiting to receive information from its active peer context.
• Standby Hot—The context has all the state information that it needs to statefully assume the
active state if a switchover occurs.
• Standby Warm—Allows the configuration and state synchronization process to continue on a
best-effort basis when you upgrade or downgrade the ACE software.
ACE HA Peer Identifier of the ACE high availability peer.
ACE HA Peer State Current state of the context with regard to high availability on the ACE peer. See the states listed
for the ACE HA State field.
Polling Status Current polling status of the context:
• Missing SNMP Credentials—SNMP credentials are not configured for this virtual context;
statistics are not collected. Add SNMPv2c credentials to fix this error.
• Not Polled—SNMP polling has not started. This problem might occur when the virtual context
is first created from ANM and the SNMP credentials are not configured. Add SNMPv2c
credentials to fix this error.
• Not Supported—This status appears at the device level only and applies to Catalyst 6500 series
chassis, Cisco 7600 series routers, and ACE appliances.
• Polling Failed—SNMP polling failed due to some internal error. Try restarting polling to
enable SNMP collection again.
• Polling Started—No action is required. Everything is working properly. Polling states will
display activity.
• Polling Timed Out—SNMP polling has timed out. This problem might occur if the wrong
credentials were configured or might be caused by an internal error (such as SNMP was
configured incorrectly or the destination is not reachable). Verify that SNMP credentials are
correct. If the problem persists, restart polling to enable SNMP collection again.
• Unknown—SNMP polling is not working due to one of the above-mentioned conditions. Check
the SNMPv2c credential configuration.
Table 6-25 All Virtual Contexts Table (continued)
Field Description
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Synchronizing Virtual Context Configurations
You can synchronize the configurations for a virtual context. ANM allows you to synchronize the
configuration information residing on an ACE with the configuration information maintained by the
ANM server for the same device. When ANM synchronizes a context, it uploads the configuration from
the device to the ANM server. In accordance with your role-based permission level, the ANM Status bar
displays the number of virtual contexts that are not synchronized with the ACE CLI against the total
number of virtual contexts and the number of failed synchronization attempts.
You should synchronize contexts for the following reasons:
• You configure the ACE directly via the CLI instead of using the ANM interface. The CLI Sync
Status is Out of Sync in the Virtual Contexts table (Config > Devices > ACE) if the configurations
for a virtual context differ.
• A context has been removed from the ACE using the CLI, reflected by the CLI Sync Status
Unprovisioned in the Virtual Contexts table. In this situation, you need to synchronize the Admin
context to remove the unprovisioned context.
• A context has not successfully been imported into ANM during discovery or a Sync operation,
reflected by the CLI Sync Status Import Failed in the Virtual Contexts table. In this situation, you
need to synchronize the context before you can modify its configuration.
• You recently installed or uninstalled a license on an ACE using either ANM or the CLI. Synchronize
the Admin context of the ACE with the CLI.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 In the device tree, choose either All VC or the ACE with the virtual context configuration that you want
to synchronize.
The Virtual Contexts table appears.
Step 3 In the Virtual Contexts table, choose the virtual context with the configuration that you want to
synchronize, and click CLI Sync.
The verification popup window appears, asking you to verify the synchronization request.
Step 4 In the verification popup window, click Yes.
Synchronization begins and the Virtual Contexts table refreshes when synchronization is complete.
Related Topics
• Configuring Auto Sync Settings, page 18-61
• Editing Virtual Contexts, page 6-106
• Restarting Virtual Context Polling, page 6-108
• Comparing Context and Building Block Configurations, page 6-101
Managing Syslog Settings for Autosynchronization
You can configure ANM to receive syslog messages for a virtual context.
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Setting autosynchronization to occur upon receipt of a device syslog message allows a faster, more
streamlined synchronization process between ANM and any out-of-band configuration changes. Instead
of waiting the default polling period, ANM will synchronize when a syslog message is received if Setup
Syslog for Autosync is enabled.
Procedure
Step 1 Choose Config > Devices > Virtual Context Management> Setup Syslog for Autosync.
The Setup Syslog for Autosync window appears.
Step 2 In the Setup Syslog for Autosync window, choose either All VC or the ACE with the virtual context
configuration that you want to receive Autosync syslog messages
Step 3 Click Setup Syslog.
A progress bar window appears.
A checkbox with a checkmark appears in the Setup Syslog for Autosync? column for each virtual context
and ACE device you checked.
Step 4 Click the Setup Syslog button.
The following CLI commands are sent to the enabled devices:
logging enable
logging trap 2
logging device-id string /Admin
logging host udp/514
logging message 111008 level 2
Related Topics
• Synchronizing Virtual Context Configurations, page 6-105
• Restarting Virtual Context Polling, page 6-108
Editing Virtual Contexts
You can modify the configuration of an existing virtual context.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 In the device tree, choose the virtual context, then choose the configuration attributes that you want to
modify.
For information on configuration options, see the “Configuring Virtual Contexts” section on page 6-8.
Step 3 Do one of the following:
• Click OK to save your entries.
• Click Cancel to exit the procedure without saving your entries.
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Related Topics
• Information About Virtual Contexts, page 6-2
• Configuring Virtual Contexts, page 6-8
Deleting Virtual Contexts
You can remove an existing virtual context.
Note If you remove a virtual context using the CLI, the CLI Sync Status for the virtual context appears as
Unprovisioned in the Virtual Contexts table (Config > Devices > ACE). To remove the unprovisioned
virtual context from the ANM, either synchronize the Admin virtual context (see the “Synchronizing
Virtual Context Configurations” section on page 6-105) or delete the virtual context by selecting the
virtual context, then clicking Delete.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 In the device tree, choose the virtual context that you want to configure, and click Delete in either the
device pane or the configuration pane.
A confirmation popup window appears, asking you to confirm the deletion.
Step 3 Do one of the following:
• Click OK to delete the selected context. The device tree refreshes and the deleted context no longer
appears.
• Click Cancel to exit this procedure and to retain the selected context.
Related Topics
• Configuring Virtual Contexts, page 6-8
• Comparing Context and Building Block Configurations, page 6-101
Upgrading Virtual Contexts
You can apply a different resource class, configuration building block, or VLAN to a virtual context.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 In the device tree, choose the virtual context that you want to upgrade, and choose System > Primary
Attributes.
The Edit Virtual Context window appears.
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Step 3 In the Resource Class field of the Edit Virtual Context window, choose the resource class that you want
to apply to the context.
Note If you attempt to apply a resource class that could consume the resources required to maintain
IP connectivity to the Admin context, you will see an error message and the resource class will
not be applied. We recommend that you first apply a resource class to the Admin context that
will prevent its resources from being allocated to other contexts. For more information, see the
“Resource Allocation Constraints” section on page 6-44.
Step 4 In the Tagged Building Block To Apply field, choose the building block to apply to this virtual context.
Step 5 In the Allocate-Interface VLANs field, enter the number of a VLAN or a range of VLANs so that the
context can receive the associated traffic.
You can specify VLANs as follows:
• For a single VLAN, enter an integer from 2 to 4096.
• For multiple, nonsequential VLANs, use comma-separated entries, such as 101,201,302.
• For a range of VLANs, use the format -, such as 101-150.
Note You cannot modify VLANs in an Admin context.
Step 6 In the Description field, enter a brief description for this context.
Step 7 Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
The window refreshes with updated information.
To exit this procedure without saving your entries, choose another item in the menu bar or device tree.
A popup window appears, confirming that you have not saved your entries.
Related Topics
• Information About Virtual Contexts, page 6-2
• Configuring Virtual Contexts, page 6-8
Restarting Virtual Context Polling
You can restart monitoring and enable SNMP collection on a single context that has stopped or failed to
start.
Note To restart polling and enable SNMP collection on all virtual contexts, choose Monitor > Settings >
Global Polling Configuration, and configure global polling attributes using the information in the
“Enabling Polling on All Devices” section on page 17-47.
Procedure
Step 1 Choose Config > Devices.
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The device tree appears.
Step 2 In the device tree, choose the ACE associated with the virtual context with stopped or failed polling.
The Virtual Contexts table appears.
Step 3 In the Virtual Contexts table, choose the context with the stopped or failed polling, and click Restart
Polling.
If the ANM cannot monitor the selected context, it displays an error message stating the reason.
Related Topics
• Information About Virtual Contexts, page 6-2
• Configuring Virtual Contexts, page 6-8
• Enabling Polling on All Devices, page 17-47
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CHAPTER
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7
Configuring Virtual Servers
Date: 3/28/12
This chapter describes how to configure virtual servers for load balancing on the Cisco Application
Control Engine (ACE) using Cisco Application Networking Manager (ANM).
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Information About Load Balancing, page 7-1
• Configuring Virtual Servers, page 7-2
• Managing Virtual Servers, page 7-66
• Deploying Virtual Servers, page 7-86
Information About Load Balancing
Server load balancing (SLB) is the process of deciding to which server a load balancer should send a
client request for service. For example, a client request can consist of an HTTP GET for a web page or
an FTP GET to download a file. The load balancer selects the server that can successfully fulfill the client
request and in the shortest amount of time without overloading either the server or the server farm as a
whole.
Depending on the load-balancing algorithm or predictor that you configure, the ACE performs a series
of checks and calculations to determine the server that can best service each client request. The ACE
bases server selection on several factors, including the server with the fewest connections with respect
to load, source or destination address, cookies, URLs, or HTTP headers.
ANM allows you to configure load balancing using:
• Virtual servers—See Configuring Virtual Servers, page 7-2.
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• Real servers—See Configuring Real Servers, page 8-5.
• Server farms—See Configuring Server Farms, page 8-30.
• Predictor methods—See Configuring the Predictor Method for Server Farms, page 8-39
• Health probes—See Configuring Health Monitoring for Real Servers, page 8-51
• Sticky groups—See Configuring Sticky Groups, page 9-7.
• Parameter maps—See Configuring Parameter Maps, page 10-1.
Configuring Virtual Servers
In a load-balancing environment, a virtual server is a construct that allows multiple physical servers to
appear as one for load-balancing purposes. A virtual server is bound to physical services running on real
servers in a server farm and uses IP address and port information to distribute incoming client requests
to the servers in the server farm according to a specified load-balancing algorithm.
You use class maps to configure a virtual server address and definition. The load-balancing predictor
algorithms (for example, round-robin, least connections, and so on) determine the servers to which the
ACE sends connection requests.
This section includes the following topics:
• Virtual Server Configuration and ANM, page 7-2
• Information About Using ANM to Configure Virtual Servers, page 7-4
• Virtual Server Usage Guidelines, page 7-5
• Virtual Server Testing and Troubleshooting, page 7-6
• Virtual Server Configuration Procedure, page 7-7
Virtual Server Configuration and ANM
This section identifies the constraints and framework used by ANM for virtual server configuration.
In ANM, a virtual server has the following attributes:
• A single Layer 3/Layer 4 match condition
You can specify only a single IP address (or single IP address range if an IPv4 netmask or IPv6
prefix length is used), with only a single port (or port range). A single match condition greatly
simplifies and aids virtual server configuration.
Note IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later.
• A default Layer 7 action
• A Layer 7 policy map
• A Layer 3/Layer 4 class map
• A single multimatch policy map, a class-map match, and an action
Virtual server attributes also include the following:
• The virtual server multimatch policy map is associated with an interface or is global.
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• The name of the virtual server is derived from the name of the Layer 3/Layer 4 class map.
Example 7-1 shows the minimum configuration statements required for a virtual server.
Example 7-1 Minimum Configuration Required for a Virtual Server
IPv4 Configuration
class-map match-all Example_VIP
2 match virtual-address 10.10.10.10 tcp eq www
policy-map type loadbalance first-match Example_VIP-l7slb
class class-default
forward
policy-map multi-match int10
class Example_VIP
loadbalance policy Example_VIP-l7slb
interface vlan 10
ip address 192.168.65.37 255.255.255.0
service-policy input int10
no shutdown
IPv6 Configuration (Requires ACE module and ACE appliance software Version A5(1.0) or later)
class-map match-all Example2_VIP
2 match virtual-address 2001:DB8:10::5 tcp eq www
policy-map type loadbalance first-match Example2_VIP-l7slb
class class-default
f orward
policy-map multi-match int11
class Example2_VIP
loadbalance policy Example2_VIP-l7slb
interface vlan 10
ip address 2001:DB8:10::21/64
service-policy input int11
no shutdown
Note the following items regarding the ANM and virtual servers:
• Additional configuration options
The Virtual Server configuration window allows you to configure additional items for a functional
VIP. These items include server farms, sticky groups, real servers, probes, parameter maps,
inspection, class maps, and inline match conditions. Because too many items on a window can be
overwhelming, not all configuration options appear on the Virtual Server configuration window,
such as sticky statics or backup real servers. These options are available elsewhere in the ANM
interface instead of on the Virtual Server configuration window.
• Configuration options and roles
To support and maintain the separation of roles, some objects cannot be configured using the Virtual
Server configuration window. These objects include SSL certificates, SSL keys, NAT pools,
interface IP addresses, and ACLs. Providing these options as separate configuration options in the
ANM interface ensures that a user who can view or modify virtual servers or aspects of virtual
servers cannot create or delete virtual servers.
• Changes to virtual servers using the CLI or Expert options can prevent further modifications
in the Virtual Server configuration window
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If you create a virtual server using the Virtual Server configuration window, modify it using the CLI
or Expert options (Config > Devices > Expert), and then attempt to modify it again using the Virtual
Server configuration window, error messages will be displayed and you will not be able to modify
the virtual server.
• Changes to virtual server IP address type is not allowed
When creating a virtual server, you choose whether to use the IPv4 or IPv6 address type. You cannot
change the IP address type of an existing virtual server. If you need to change the IP address type,
you must create a new virtual server.
Note IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later.
Related Topics
• Configuring Virtual Servers, page 7-2
• Information About Using ANM to Configure Virtual Servers, page 7-4
• Virtual Server Usage Guidelines, page 7-5
• Virtual Server Testing and Troubleshooting, page 7-6
• Virtual Server Configuration Procedure, page 7-7
Information About Using ANM to Configure Virtual Servers
Follow these guidelines when using ANM to configure virtual servers:
• Virtual server configuration windows
The ANM Virtual Server configuration windows are designed to aid you in configuring virtual
servers by presenting configuration options that are relevant to your choices. For example, the
protocols that you select in the Properties configuration subset determine the other configuration
subsets that appear.
• Use the virtual server configuration method that suits you
The ANM Virtual Server configuration windows simplify the process of creating, modifying, and
deploying virtual servers by displaying those options that you are most likely to use. In addition, as
you specify attributes for a virtual server, such as protocols, the interface refreshes with related
configuration options, such as Protocol Inspection or Application Acceleration and Optimization,
which speeds virtual server configuration and deployment.
While Virtual Server configuration windows remove some configuration complexities, they have a
few constraints that the Expert configuration options do not. If you are comfortable using the CLI,
you can use the Expert options (such as Config > Devices > context > Expert > Class Maps or Policy
or Config > Devices > context > Load Balancing > Parameter Maps to configure more complex
attributes of virtual servers, traffic policies, and parameter maps.
• Synchronizing virtual server configurations
If you configure a virtual server using the CLI and then use the Sync option (Config > Devices >
ACE > Sync) to synchronize configurations, the configuration that appears in ANM for the virtual
server might not display all configuration options for that virtual server. The configuration that
appears in ANM depends on a number of items, such as the protocols configured in class maps or
the rules defined for policy maps.
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For example, if you configure a virtual server on the CLI that includes a class map that can match
any protocol, you will not see the virtual server Application Acceleration and Optimization
configuration subset in ANM.
• Modifying shared objects
Modifying an object that is used by multiple virtual servers, such as a server farm, real server, or
parameter map, could impact the other virtual servers. See the “Shared Objects and Virtual Servers”
section on page 7-9 for more information about modifying objects used by multiple virtual servers.
Related Topics
• Configuring Virtual Servers, page 7-2
• Virtual Server Configuration and ANM, page 7-2
• Virtual Server Usage Guidelines, page 7-5
• Virtual Server Testing and Troubleshooting, page 7-6
• Virtual Server Configuration Procedure, page 7-7
Virtual Server Usage Guidelines
The Virtual Server configuration window provides you with numerous configuration options. However,
instead of setting every option in one pass, configure your virtual server in stages. The first stage should
always be to establish basic “pass through” connectivity with simple load balancing and include minimal
additional features. This level of setup should verify that ports, VLANs, interfaces, SSL termination (if
applicable), and real servers have been set up properly, enabling basic connectivity.
After you establish this level of connectivity, additional virtual server features will be easier to configure
and troubleshoot.
Common features to add to a working basic virtual server include:
• Health monitoring probes
• Session persistence (sticky)
• Additional real servers to a server farm
• Application protocol inspection
• Application acceleration and optimization (ACE appliance only)
Table 7-1 identifies and describes virtual server configuration subsets with links to related topics for
configuration information.
Related Topics
• Configuring Virtual Servers, page 7-2
• Virtual Server Configuration and ANM, page 7-2
• Virtual Server Testing and Troubleshooting, page 7-6
• Virtual Server Configuration Procedure, page 7-7
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Configuring Virtual Servers
Virtual Server Testing and Troubleshooting
As outlined in the “Virtual Server Usage Guidelines” section on page 7-5, first set up a basic virtual
server that only enables connectivity and simple load balancing, such as round-robin between two real
servers. Next, use a client, such as a web browser, to send a request from the client network to the virtual
server's VIP address. If the request is successful, you can now make changes or add virtual server
features.
If the request is not successful, begin virtual server troubleshooting as outlined in the following
sequence:
1. Wait and retry your request after a minute or two, especially if the existing ACE configuration is
large. It can take seconds or even minutes for configuration changes to affect how traffic is handled
by ACE.
2. Click the Details button in the lower right of the Virtual Server page. The Details button displays
the output of the show service-policy CLI command.
3. Verify that the VIP State in the show service-policy CLI command output is INSERVICE. If the
VIP state is not INSERVICE, this may indicate the following:
– The virtual server has been manually disabled in the configuration.
– The real servers are all unreachable from ACE or manually disabled. If all of a virtual server's
real servers are out of service due to one of those reasons, the virtual server itself will be marked
Out Of Service.
4. Verify the Hit Count in the show service-policy CLI command output. Hit Count shows the number
of requests received by ACE. This value should increase for each request attempted by your client.
If the hit count does not increase with each request, this indicates that the request is not reaching
your virtual server configuration.
This could be a problem with:
– A physical connection.
– VLAN or VLAN interface configuration.
– Missing or incorrect ACL applied to the client interface.
– Incorrect IP address (that is, a VIP that is not valid on the selected VLANs for the virtual server,
or a VIP that is not accessible to your client).
If the Hit Count value increases but no response is received (Server Pkt Count does not increases),
the problem is more likely to be in the connectivity between the ACE and the backend real servers.
This issue is typically caused by one or more of the following problems:
– You are working on a one-armed configuration (that is, do not plan to change routing for your
real servers) and have not selected an appropriate NAT pool for your virtual server to use with
source NAT.
– A different routing problem (for example, server traffic does not know how to get back to the
ACE).
– Addressing problem (for example, you have an incorrect real server address, or the real server
is not accessible to ACE due to network topology).
Note Hit count can increase by more than one, even if you make only a single request from your web
browser, because retrieving a typical web page makes many requests from the client to the server.
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Related Topics
• Configuring Virtual Servers, page 7-2
• Virtual Server Configuration and ANM, page 7-2
• Virtual Server Usage Guidelines, page 7-5
• Virtual Server Configuration Procedure, page 7-7
Virtual Server Configuration Procedure
You can add virtual servers to the ANM for load-balancing purposes.
Assumptions
This topic assumes the following:
• Depending on the protocol to be used for the virtual server, parameter maps need to be defined.
• For SSL service, SSL certificates, keys, and chain groups, parameter maps must be configured.
Guidelines and Restrictions
ANM does not support CSM DNS virtual servers. If you create this type of virtual server, ANM issues
an error message if you attempt to use ANM to activate or suspend it.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Virtual Servers.
The Virtual Servers table appears. For details about the information that displays, see “Displaying
Virtual Servers by Context” section on page 7-65.
Step 2 In the Virtual Servers table, click Poll Now to instruct ANM to poll the devices and display the current
values.
Step 3 Click OK when prompted if you want to poll the devices for data now.
Step 4 Click Add to add a new virtual server, or choose an existing virtual server and click Edit to modify it.
The Virtual Server configuration window appears with a number of configuration subsets. The subsets
that you see depend on whether you use the Basic View or the Advanced View and entries that you make
in the Properties subset. Change views by using the View object selector at the top of the configuration
pane.
Table 7-1 identifies and describes virtual server configuration subsets with links to related topics for
configuration information.
Note The protocols that are available depend on the ACE device that you are configuring. For a list of
the protocols available for each ACE device type, see Table 7-2.
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Table 7-1 Virtual Server Configuration Subsets
Configuration Subset Description Related Topics
Properties Subset that allows you to specify basic virtual server
characteristics, such as the virtual server name, IP address,
protocol, port, and VLANs.
Configuring Virtual Server
Properties, page 7-11
SSL Termination Subset that appears when TCP is the selected protocol and Other
or HTTPS is the application protocol.
This subset allows you to configure the virtual server to act as an
SSL proxy server and terminate SSL sessions between it and its
clients.
Configuring Virtual Server SSL
Termination, page 7-17
Protocol Inspection Subset that appears in the Advanced View for:
• TCP with FTP, HTTP, HTTPS, Real Time Streaming
Protocol (RTSP), or Session Initiated Protocol (SIP)
• UDP with Domain Name System (DNS) or SIP
This subset appears in the Basic view for TCP with FTP.
This subset allows you to configure the virtual server so that it
can verify protocol behavior and identify unwanted or malicious
traffic passing through the ACE on selected application
protocols.
Configuring Virtual Server
Protocol Inspection, page 7-18
Application
Acceleration And
Optimization
Subset that appears only for ACE appliances. It appears in the
Advanced View when HTTP or HTTPS is the selected
application protocol.
This subset allows you to configure application acceleration and
optimization options for HTTP or HTTPS traffic.
Configuring Application
Acceleration and Optimization,
page 7-53
L7 Load-Balancing Subset that appears only in the Advanced View for these
protocols:
• TCP with Generic, HTTP, HTTPS, RTSP, or SIP
• UDP with Generic, RADIUS, or SIP
This subset allows you to configure Layer 7 load-balancing
options, such as:
• Server farms/real servers
• Health monitoring probes
• Stickiness
• SSL initiation
Configuring Virtual Server
Layer 7 Load Balancing,
page 7-30
Default L7
Load-Balancing Action
Subset that allows you to establish the default Layer 7
load-balancing actions for all network traffic that does not meet
previously specified match conditions including the SSL
initiation configuration.
Configuring Virtual Server
Default Layer 7 Load Balancing,
page 7-50
NAT Subset that allows you to set up Name Address Translation
(NAT) for the virtual server.
Configuring Virtual Server NAT,
page 7-63
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Step 5 Do one of the following:
• Click Deploy Now to deploy the configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Virtual Servers
table.
• Click Deploy Later to save your entries and apply them at a later time.
Step 6 (Optional) To display statistics and status information for an existing virtual server, from the Virtual
Servers table, choose a virtual server and click Details.
A popup window appears that displays the detailed virtual server information (see the “Displaying
Virtual Server Statistics and Status Information” section on page 7-65 for details).
Note This feature requires ACE module software Version A2(1.2), ACE appliance software Version
A3(2.1), or later versions of either software. An error displays with earlier software versions.
Related Topics
• Configuring Virtual Servers, page 7-2
• Virtual Server Configuration and ANM, page 7-2
• Virtual Server Usage Guidelines, page 7-5
• Information About Using ANM to Configure Virtual Servers, page 7-4
• Shared Objects and Virtual Servers, page 7-9
• Displaying Virtual Servers by Context, page 7-65
• Displaying Virtual Server Statistics and Status Information, page 7-65
• Managing Virtual Servers, page 7-66
• Deploying Virtual Servers, page 7-86
• Understanding Roles, page 18-6
Shared Objects and Virtual Servers
A shared object is one that is used by multiple virtual servers.
The following examples are shared objects:
• Action lists
• Class maps
• Parameter maps
• Real servers
• Server farms
• SSL services
• Sticky groups
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Because these objects are shared, modifying an object’s configuration in one virtual server can impact
other virtual servers that use the same object.
Configuring Shared Objects
ANM offers the following options for shared objects in virtual server configuration windows (Config >
Devices > context > Load Balancing > Virtual Servers):
• View—Displays the object’s configuration. The window refreshes with read-only fields and the
following three buttons.
• Cancel—Closes the read-only view and to return to the previous window.
• Edit—Enables you to modify the selected object’s configuration. The window refreshes with fields
that can be modified, except for the Name field which remains read-only.
Note Before changing a shared object’s configuration, make sure that you understand the effect
of the changes on other virtual servers using the same object. As an alternative, consider
using the Duplicate option instead.
• Duplicate—Enables you to create a new object with the same configuration as the selected object.
The window refreshes with configurable fields. In the Name field, enter a unique name for the new
object, and then modify the configuration as desired. This option allows you to create a new object
without impacting other virtual servers using the same object.
Deleting Virtual Servers with Shared Objects
If you create a virtual server and include shared objects in its configuration, deleting the virtual server
does not delete the associated shared objects. This action ensures that other virtual servers using the
same shared objects are not impacted.
Related Topics
• Managing Virtual Servers, page 7-66
• Virtual Server Protocols by Device Type, page 7-11
• Configuring Virtual Server Properties, page 7-11
• Configuring Virtual Server SSL Termination, page 7-17
• Configuring Virtual Server Protocol Inspection, page 7-18
• Configuring Virtual Server Layer 7 Load Balancing, page 7-30
• Configuring Virtual Server Default Layer 7 Load Balancing, page 7-50
• Configuring Application Acceleration and Optimization, page 7-53
• Configuring Virtual Server NAT, page 7-63
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Virtual Server Protocols by Device Type
The protocols that are available for a virtual server depend on the ACE device that you are configuring.
Table 7-2 lists the protocols available for each device type.
Related Topics
• Configuring Virtual Servers, page 7-2
• Configuring Virtual Server Properties, page 7-11
• Managing Virtual Servers, page 7-66
Configuring Virtual Server Properties
You can configure virtual server properties.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Virtual Servers.
The Virtual Servers table appears.
Step 2 In the Virtual Servers table, click Poll Now to instruct ANM to poll the devices and display the current
values, and click OK when prompted if you want to poll the devices for data now.
Step 3 Click Add to add a new virtual server, or choose an existing virtual server and click Edit to modify it.
Table 7-2 Virtual Server Protocols for ACE Modules and Devices
Protocol ACE Modules ACE Appliance
Any X X
TCP
FTP X X
Generic X X
HTTP X X
HTTPS X X
Other X X
RTSP X X
RDP X X
SIP X X
UDP
DNS X X
Generic X X
Other X X
RADIUS X X
SIP X X
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The Virtual Server configuration window appears. The Properties configuration subset is open by
default.
The fields that you see in the Properties configuration subset depend on whether you are using Advanced
View or Basic View:
• To configure Advanced View properties, go to Step 4.
• To configure Basic View properties, go to Step 5.
Step 4 In the Advanced View, configure the virtual server properties by entering the information in Table 7-3.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Table 7-3 Virtual Server Properties – Advanced View
Field Description
Virtual Server Name Name for the virtual server.
IP Address Type Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later,
which supports IPv4 and IPv6. Choose the address type of the virtual server: IPv4 or IPv6.
Virtual IP Address IP address for the virtual server.
Virtual IP Mask (IPv4 address type only) Subnet mask to apply to the virtual server IP address.
Virtual IP Prefix Length (IPv6 address type only) Enter the prefix length to apply to the virtual server IP address. The
default length for the prefix is 128. IPv6 requires ACE module and ACE appliance software
Version A5(1.0) or later.
Transport Protocol Protocol that the virtual server supports:
• Any—The virtual server is to accept connections using any IP protocol.
• TCP—The virtual server is to accept connections that use TCP.
• UDP—The virtual server is to accept connections that use UDP.
Application Protocol Field that appears if TCP or UDP is selected. The application protocols that are available depend
on the type of ACE being configured.
Choose the application protocol to be supported by the virtual server. Table 7-2 identifies the
available protocols for each ACE device type.
Note This field is read-only if you are editing an existing virtual server. ANM does not allow
changes between protocols that require a change to the Layer 7 server load-balancing
policy map. You need to delete the virtual server and create a new one with the desired
application protocol.
Port Field that appears for any TCP or UDP protocol.
Enter the port to be used for the specified protocol. Valid entries are from 0 to 65535 or a range
of integers, such as 10-20. Enter 0 (zero) to indicate all ports.
For a complete list of protocols and ports, see the Internet Assigned Numbers Authority
available at www.iana.org/numbers/
All VLANs Check box that enables support of incoming traffic from all VLANs. Uncheck the check box to
support incoming traffic from specific VLANs only.
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VLAN Field appears if the All VLANs check box is unchecked.
In the Available Items list, choose the VLANs to use for incoming traffic, and click Add. The
items appear in the Selected Items list.
To remove VLANs, choose them in the Selected Items lists, and click Remove. The items appear
in the Available Items list.
Note You cannot change the VLAN for a virtual server once it is specified. Instead, delete the
virtual server and create a new one with the desired VLAN.
Connection Parameter
Maps
Field that appears if TCP is the selected protocol.
Choose an existing connection parameter map or click *New* to create a new one as follows:
• If you chose an existing parameter map, you can view, modify, or duplicate the existing
configuration. See the “Shared Objects and Virtual Servers” section on page 7-9 for more
information about modifying shared objects.
• If you click *New*, the Connection Parameter Maps configuration pane appears. Configure
the connection parameter map as described in Table 10-2.
Note Click More Settings to access the additional Connection Parameter Maps configuration
attributes. By default, ANM hides the default Connection Parameter Maps configuration
attributes and the attributes which are not commonly used.
DNS Parameter Maps Field that appears if DNS is the selected protocol over UDP.
Choose an existing DNS parameter map or click *New* to create a new one as follows:
• If you chose an existing parameter map, you can view, modify, or duplicate the existing
configuration. See the “Shared Objects and Virtual Servers” section on page 7-9 for more
information about modifying shared objects.
• If you click *New*, the DNS Parameter Maps configuration pane appears. Configure the
DNS parameter map as described in Table 10-11.
Generic Parameter Maps Field that appears if Generic is the selected application protocol over TCP or UDP.
Choose an existing Generic parameter map or click *New* to create a new one as follows:
• If you chose an existing parameter map, you can view, modify, or duplicate the existing
configuration. See the “Shared Objects and Virtual Servers” section on page 7-9 for more
information about modifying shared objects.
• If you click *New*, the Generic Parameter Maps configuration pane appears. Configure the
Generic parameter map as described in Table 10-4.
HTTP Parameter Maps Field appears if HTTP or HTTPS is the selected application protocol.
Choose an existing HTTP parameter map or click *New* to create a new one as follows:
• If you chose an existing parameter map, you can view, modify, or duplicate the existing
configuration. See the “Shared Objects and Virtual Servers” section on page 7-9 for more
information about modifying shared objects.
• If you click *New*, the HTTP Parameter Maps configuration pane appears. Configure the
HTTP parameter map as described in Table 10-5.
Table 7-3 Virtual Server Properties – Advanced View (continued)
Field Description
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RTSP Parameter Maps Field that appears if RTSP is the selected application protocol over TCP.
Choose an existing RTSP parameter map or click *New* to create a new one as follows:
• If you chose an existing parameter map, you can view, modify, or duplicate the existing
configuration. See the “Shared Objects and Virtual Servers” section on page 7-9 for more
information about modifying shared objects.
• If you click *New*, the RTSP Parameter Maps configuration pane appears. Configure the
RTSP parameter map as described in Table 10-8.
KAL-AP-TAG Name Feature that is supported only for the ACE module software Version A2(2.0), ACE appliance
software Version A4(1.0), and later versions for both device types. The KAL-AP-TAG feature
allows the Cisco Global Site Selector (GSS) proprietary KAL-AP protocol to extract load and
availability information from the ACE when a firewall is positioned between the GSS and the
ACE. This feature allows you to configure a tag (name) per VIP for a maximum of 4096 tags on
an ACE. This feature does not replace the tag per domain feature. For more information about
this feature, see the Release Note for the Cisco Application Control Engine Module (Software
Version A2(2.0)) or the Cisco Application Control Engine Module Server Load-Balancing
Configuration Guide (Software Version A2(3.0)), the Configuring Health Monitoring chapter.
In the KAL-AP-TAG Name field, enter the name as an unquoted text string with no spaces and
a maximum of 76 alphanumeric characters.
The following scenarios are not supported and will result in an error:
• You cannot configure a tag name for a VIP that already has a tag configuration as part of a
different policy configuration.
• You cannot associate the same tag name with more than one VIP.
• You cannot associate the same tag name with a domain and a VIP.
• You cannot assign two different tags to two different Layer 3 class maps that have the same
VIP, but different port numbers. The KAL-AP protocol considers these class maps to have
the same VIP and calculates the load for both Layer 3 rules together when the GSS queries
the VIP.
KAL-AP-Primary-Out-OfService
Feature that is supported only for ACE module software Version A2(3.1), ACE appliance
software Version A4(1.0), and later versions of either device type. Check the checkbox to enable
the ACE to notify a Global Site Selector (GSS) that the primary server farm is down when the
backup server farm is in use. Uncheck the checkbox to disable this feature.
By default, when you configure a redirect server farm as a backup server farm on the ACE and
the primary server farm fails, the backup server farm redirects client requests to another data
center; however, the VIP remains in the INSERVICE state.
When you configure the ACE to communicate with a GSS, it provides information for server
availability. When a backup server is in use after the primary server farm is down, this feature
enables the ACE to inform the GSS that the VIP for the primary server farm is out of service by
returning a load value of 255. The GSS recognizes that the primary server farm is down and
sends future DNS requests with the IP address of the other data center.
Table 7-3 Virtual Server Properties – Advanced View (continued)
Field Description
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Step 5 In the Basic View, configure virtual server properties by entering the information in Table 7-4.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
ICMP Reply Virtual server response to ICMP ECHO requests as follows:
• None—The virtual server is not to send ICMP ECHO-REPLY responses to ICMP requests.
• Active—The virtual server is to send ICMP ECHO-REPLY responses only if the configured
VIP is active.
• Always—The virtual server is always to send ICMP ECHO-REPLY responses to ICMP
requests.
• Primary Inservice—The virtual server is to reply to an ICMP ping only if the primary
server farm state is UP, regardless of the state of the backup server farm. If this option is
selected and the primary server farm state is DOWN, the ACE discards the ICMP request
and the request times out.
VIP Advertise Field that appears for ACE modules only.
This option allows the ACE to advertise the IP address of the virtual server as the host route.
Choose the desired VIP advertise option as follows:
• None—The ACE does not advertise the IP address of the virtual server as the host route.
• Active—The ACE advertises the IP address of the virtual server as the host route only if
there is at least one active real server in the server farm.
• Always—The ACE always advertises the IP address of the virtual server as the host route.
• Active-Metric—The ACE advertises the IP address of the virtual server as the host route if
the following occurs:
• There is at least one active real server in the server farm.
• A distance metric is specified for the route in the Distance field.
• Always-Metric—The ACE advertises the IP address of the virtual server as the host route,
using the distance metric in the Distance field.
Distance Field that appears for ACE modules only.
This field appears if you chose Active-Metric or Always-Metric in the VIP Advertise field.
Enter the administrative distance to be included in the routing table. Valid entries are integers
from 1 to 254.
Status Operating state of the virtual server as follows:
• In Service—Enables the virtual server for load-balancing operations.
• Out Of Service—Disables the virtual server for load-balancing operations.
Table 7-3 Virtual Server Properties – Advanced View (continued)
Field Description
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Step 6 Do one of the following:
• Click Deploy Now to deploy the configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries.
• Click Deploy Later to save your entries and apply them at a later time.
Related Topics
• Configuring Virtual Servers, page 7-2
Table 7-4 Virtual Server Properties – Basic View
Field Description
Virtual Server Name Name for the virtual server.
IP Address Type Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later,
which supports IPv4 and IPv6. Choose the address type of the virtual server: IPv4 or IPv6.
Virtual IP Address IP address for the virtual server.
Transport Protocol Protocol that the virtual server supports as follows:
• Any—The virtual server accepts connections using any IP protocol.
• TCP—The virtual server accepts connections that use TCP.
• UDP—The virtual server accepts connections that use UDP.
Application Protocol Field that appears if TCP or UDP is selected. The application protocols that are available depend
on the type of ACE being configured.
Choose the application protocol to be supported by the virtual server. Table 7-2 identifies the
available protocols for each ACE device type.
Note This field is read-only if you are editing an existing virtual server. ANM does not allow
changes between protocols that require a change to the Layer 7 server load-balancing
policy map. You need to delete the virtual server and create a new one with the desired
application protocol.
Port Field that appears for any specific TCP or UDP protocol.
Enter the port to be used for the specified protocol. Valid entries are from 0 to 65535 or a range of
integers, such as 10-20. Enter 0 (zero) to indicate all ports.
For a complete list of all protocols and ports, see the Internet Assigned Numbers Authority
available at www.iana.org/numbers/
All VLANs Check box that enables support of incoming traffic from all VLANs. Uncheck the check box to
support incoming traffic from specific VLANs only.
VLAN Field that appears if the All VLANs check box is unchecked.
In the Available Items list, choose the VLANs to use for incoming traffic, and click Add. The items
appear in the Selected Items list.
To remove VLANs, choose them in the Selected Items lists, and click Remove. The items appear
in the Available Items list.
Note You cannot change the VLAN for a virtual server once it is specified. Instead, delete the
virtual server and create a new one with the desired VLAN.
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• Configuring Virtual Server SSL Termination, page 7-17
Configuring Virtual Server SSL Termination
You can configure virtual server SSL termination service, which allows the virtual server to act as an
SSL proxy server and terminate SSL sessions between it and its clients.
Assumption
Make sure that a virtual server has been configured for HTTPS over TCP or Other over TCP in the
Properties configuration subset. For more information, see the “Configuring Virtual Server Properties”
section on page 7-11.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Virtual Servers.
The Virtual Servers table appears.
Step 2 In the Virtual Servers table, choose the virtual server that you want to configure for SSL termination,
and click Edit.
The Virtual Server configuration window appears.
Step 3 In the Virtual Server configuration window, click SSL Termination.
The Proxy Service Name field appears.
Step 4 In the Proxy Service Name field, choose an existing SSL termination service, or choose *New* to create
a new SSL proxy service, and do one of the following:
• If you chose an existing SSL service, the window refreshes and allows you to view, modify, or
duplicate the existing configuration. See the “Shared Objects and Virtual Servers” section on
page 7-9 for more information about modifying shared objects.
• If you chose *New*, the Proxy Service configuration subset appears.
Step 5 Configure the SSL service using the information in Table 7-5.
For more information about SSL, see the “Configuring SSL” section on page 11-1.
Table 7-5 Virtual Server SSL Attributes
Field Description
Name Name for this SSL proxy service. Valid entries are alphanumeric strings with a maximum of 26
characters.
Keys SSL key pair to use during the SSL handshake for data encryption.
Certificates SSL certificate to use during the SSL handshake.
Chain Groups Chain group to use during the SSL handshake.
Auth Groups SSL authentication group to associate with this proxy server service.
CRL Best-Effort Option that appears if you chose an authentication group in the Auth Groups field.
Check the check box to allow the ANM to search client certificates for the service to determine if
it contains a CRL in the extension and retrieve the value, if it exists.
Uncheck the check box to disable this feature.
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Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries.
• Click Deploy Later to save your entries and apply them at a later time.
Related Topics
• Configuring Virtual Servers, page 7-2
• Configuring Virtual Server Properties, page 7-11
Configuring Virtual Server Protocol Inspection
You can configure protocol inspection on a virtual server, which allows the virtual server to verify
protocol behavior and identify unwanted or malicious traffic passing through the ACE.
In the Advanced View, protocol inspection configuration is available for the following virtual server
protocol configurations:
• TCP with FTP, HTTP, HTTPS, RTSP, or SIP
• UDP with DNS or SIP
In the Basic View, protocol inspection configuration is available for TCP with FTP.
See Table 7-2 for a list of protocols by ACE device type.
Assumption
Make sure that a virtual server has been configured to use one of the protocols that supports protocol
inspection in the Properties configuration subset. See the “Configuring Virtual Server Properties”
section on page 7-11 for information on configuring these protocols.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual server, choose Config > Devices > context > Load Balancing > Virtual
Servers.
• To configure a configuration building block, choose Config > Global > All Building Blocks >
building_block > Load Balancing > Virtual Servers.
The Virtual Servers table appears.
CRL Name Option that appears if the CRL Best-Effort check box is clear.
Choose the Certificate Revocation List the ANM is to use for this proxy service.
Parameter Maps SSL parameter map to associate with this proxy server service.
Table 7-5 Virtual Server SSL Attributes (continued)
Field Description
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Step 2 In the Virtual Servers table, choose the virtual server that you want to configure for protocol inspection,
and click Edit.
The Virtual Server configuration window appears.
Step 3 Click Protocol Inspection.
The Enable Inspect check box appears.
Step 4 Check the Enable Inspect check box to enable inspection on the specified traffic or uncheck it to disable
inspection on this traffic.
By default, the ACE allows all request methods.
Step 5 (Optional) If you checked the Enable Inspect check box, configure additional inspection options using
the information in Table 7-6.
Table 7-6 Protocol Inspection Configuration Options
Protocol Action
DNS In the length field, enter the maximum length of the DNS packet in bytes as defined in the Length
field. If you do not enter a value in this field, the DNS packet size is not checked.
FTP a. Check the Use Strict check box to specify that the virtual server is to perform enhanced
inspection of FTP traffic and enforce compliance with RFC standards. Uncheck the check box
to specify that the virtual server is not to perform enhanced FTP inspection.
b. (Optional) If you checked the Use Strict check box, in the Blocked FTP Commands field,
identify the commands that are to be denied by the virtual server. See Table 14-8 for more
information about the FTP commands.
• Choose the commands that are to be blocked by the virtual server in the Available Items
list, and click Add. The commands appear in the Selected Items list.
• To remove commands that you do not want to be blocked, choose them in the Selected
Items list, and click Remove. The commands appear in the Available Items list.
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HTTP or HTTPS a. Check the Logging Enabled check box to enable monitoring of Layer 3 and Layer 4 traffic.
When enabled, this feature logs every URL request that is sent in the specified class of traffic,
including the source or destination IP address and the URL that is accessed. Uncheck the check
box to disable monitoring of Layer 3 and Layer 4 traffic.
b. In the Policy subset, click Add to add a new match condition and action, or choose an existing
match condition and action and click Edit to modify it. The Policy configuration pane appears.
c. In the Matches field, choose an existing class map or *New* or *Inline Match* to configure
new match criteria for protocol inspection.
If you chose an existing class map, the window refreshes and allows you to view, modify, or
duplicate the selected class map. See the “Shared Objects and Virtual Servers” section on
page 7-9 for more information about modifying shared objects.
d. Configure match criteria and related actions using the information in Table 7-7.
e. Do one of the following:
• Click OK to save your entries. The Conditions table refreshes with the new entry.
• Click Cancel to exit the Policy subset without saving your entries.
f. In the Default Action field, choose the default action that the virtual server is to take when
specified match conditions for protocol inspection are not met:
• Permit—The specified HTTP traffic is to be received by the virtual server.
• Reset—The specified HTTP traffic is to be denied by the virtual server.
Table 7-6 Protocol Inspection Configuration Options (continued)
Protocol Action
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RTSP There are no protocol-specific inspection options for RTSP.
SIP a. In the Actions subset, click Add to add a new match condition and action, or choose an existing
match condition and action, and click Edit to modify it. The Actions configuration pane
appears.
b. In the Matches field, choose an existing class map or *New* or *Inline Match* to configure
new match criteria for protocol inspection.
If you chose an existing class map, the window refreshes and allows you to view, modify, or
duplicate the selected class map. See the “Shared Objects and Virtual Servers” section on
page 7-9 for more information about modifying shared objects.
c. Configure match criteria and related actions using the information in Table 7-9.
d. In the Action field, choose the action that the virtual server is to take when the specified match
conditions are met:
– Drop—The specified SIP traffic is discarded by the virtual server.
– Permit—The specified SIP traffic is received by the virtual server.
– Reset—The specified SIP traffic is denied by the virtual server.
e. Do one of the following:
– Click OK to save your entries. The Conditions table refreshes with the new entry.
– Click Cancel to exit the Conditions subset without saving your entries and to return to the
Conditions table.
f. In the SIP Parameter Map field, choose an existing parameter map or choose *New* to
configure a new one.
If you chose an existing parameter map, the window refreshes and allows you to view, modify,
or delete the selected parameter map. See the “Shared Objects and Virtual Servers” section on
page 7-9 for more information about modifying shared objects.
g. Configure SIP parameter map options using the information in Table 10-9.
h. In the Secondary Connection Parameter Map field, choose an existing parameter map or
choose *New* to configure a new one.
If you chose an existing parameter map, the window refreshes and allows you to view, modify,
or delete the selected parameter map. See the “Shared Objects and Virtual Servers” section on
page 7-9 for more information about modifying shared objects.
i. Configure secondary connection parameter map options using the information in Table 10-2.
j. In the Default Action field, choose the default action that the virtual server is to take when
specified match conditions for SIP protocol inspection are not met:
– Drop—The specified SIP traffic is discarded by the virtual server.
– Permit—The specified SIP traffic is received by the virtual server.
– Reset—The specified SIP traffic is denied by the virtual server.
k. Check the Logging Enabled check box to enable monitoring of Layer 3 and Layer 4 traffic.
When enabled, this feature logs every URL request that is sent in the specified class of traffic,
including the source or destination IP address and the URL that is accessed. Uncheck the check
box to disable monitoring of Layer 3 and Layer 4 traffic.
Table 7-6 Protocol Inspection Configuration Options (continued)
Protocol Action
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Table 7-7 HTTP and HTTPS Protocol Inspection Match Criteria Configuration
Selection Action
Existing class map a. Click View to review the match condition information for the selected class map.
b. Do one of the following:
– Click Cancel to continue without making changes and to return to the previous window.
– Click Edit to modify the existing configuration.
– Click Duplicate to create a new class map with the same attributes without affecting other
virtual servers using the same class map.
See the “Shared Objects and Virtual Servers” section on page 7-9 for information about modifying
shared objects.
c. In the Action field, choose the action that the virtual server is to perform on the traffic if it matches
the specified match criteria:
– Permit—The specified traffic is received by the virtual server if it meets the specified deep
inspection match criteria.
– Reset—The specified traffic is denied by the virtual server, which then sends a TCP reset
message to the client or server to close the connection.
*New* a. In the Name field, specify a unique name for this class map.
b. In the Match field, choose the method to be used to evaluate multiple match statements when
multiple match conditions exist:
– Any—A match exists if at least one of the match conditions is satisfied.
– All—A match exists only if all match conditions are satisfied.
c. In the Conditions table, click Add to add a new set of conditions, or choose an existing entry, and
click Edit to modify it. The Type field appears.
d. In the Type field, choose the type of condition that is to be met for protocol inspection.
e. Provide condition-specific criteria using the information in Table 7-8.
f. In the Action field, choose the action that the virtual server is to perform on the traffic if it matches
the specified match criteria:
– Permit—The specified traffic is received by the virtual server if it meets the specified deep
inspection match criteria.
– Reset—The specified traffic is denied by the virtual server, which then sends a TCP reset
message to the client or server to close the connection.
*Inline Match* a. In the Conditions Type field, choose the type of inline match condition that is to be met for protocol
inspection.
b. Provide condition-specific criteria using the information in Table 7-8.
c. In the Action field, choose the action that the virtual server is to perform on the traffic if it matches
the specified match criteria:
– Permit—The specified traffic is received by the virtual server if it meets the specified deep
inspection match criteria.
– Reset—The specified traffic is denied by the virtual server, which then sends a TCP reset
message to the client or server to close the connection.
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Table 7-8 HTTP and HTTPS Protocol Inspection Conditions and Options
Condition Description
Content Specific content contained within the HTTP entity-body to be used for application inspection
decisions.
a. In the Content Expression field, enter the content that is to be matched. Valid entries are
alphanumeric strings from 1 to 255 characters.
b. In the Content Offset field, enter the number of bytes to be ignored starting with the first byte
of the Message body, after the empty line (CR,LF,CR,LF) between the headers and the body of
the message. Valid entries are from 1 to 255 bytes.
Content Length Content parse length is used for application inspection decisions.
a. In the Content Length Operator field, choose the operand to use to compare content length:
– Equal To—The content length must equal the number in the Content Length Value field.
– Greater Than—The content length must be greater than the number in the Content Length
Value field.
– Less Than—The content length must be less than the number in the Content Length Value
field.
– Range—The content length must be within the range specified in the Content Length
Lower Value field and the Content Length Higher Value field.
b. Enter values to apply for content length comparison:
– If you chose Equal To, Greater Than, or Less Than in the Content Length Operator field,
the Content Length Value field appears. In the Content Length Value field, enter the
number of bytes for comparison. Valid entries are from 0 to 4294967295.
– If you chose Range in the Content Length Operator field, the Content Length Lower Value
and the Content Length Higher Value fields appear:
1. In the Content Length Lower Value field, enter the lowest number of bytes to be used for
this match condition. Valid entries are from 0 to 4294967295. The number in this field must
be less than the number entered in the Content Length Higher Value field.
2. In the Content Length Higher Value field, enter the highest number of bytes to be used
for this match condition. Valid entries are from 0 to 4294967295. The number in this field
must be greater than the number entered in the Content Length Lower Value field.
Content Type
Verification
Verification of MIME-type messages with the header MIME-type is to be used for application
inspection decisions. This option verifies that the header MIME-type value is in the internal list of
supported MIME-types and that the header MIME-type matches the content in the data or body
portion of the message.
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Header Name and value in an HTTP header are used for application inspection decisions.
a. In the Header field, choose one of the predefined HTTP headers to match, or choose HTTP
Header to specify a different HTTP header.
b. If you chose HTTP Header, in the Header Name field, enter the name of the HTTP header to
match. Valid entries are unquoted text strings with no spaces and a maximum of 64
alphanumeric characters.
c. In the Header Value field, enter the header-value expression string to compare against the value
in the specified field in the HTTP header. Valid entries are text strings with a maximum of 255
alphanumeric characters. The ACE supports regular expressions for matching. Header
expressions allow spaces, provided that the spaces are escaped or quoted. All headers in the
header map must be matched. See Table 14-33 for a list of the supported characters that you
can use in regular expressions.
Header Length Length of the header in the HTTP message used for application inspection decisions.
a. In the Header Length Type field, specify whether HTTP header request or response messages
are to be used for application inspection decisions:
– Request—HTTP header request messages are to be checked for header length.
– Response—HTTP header response messages are to be checked for header length.
b. In the Header Length Operator field, choose the operand to be used to compare header length:
– Equal To—The header length must equal the number in the Header Length Value field.
– Greater Than—The header length must be greater than the number in the Header Length
Value field.
– Less Than—The header length must be less than the number in the Header Length Value
field.
– Range—The header length must be within the range specified in the Header Length Lower
Value field and the Header Length Higher Value field.
c. Enter values to apply for header length comparison:
– If you chose Equal To, Greater Than, or Less Than in the Header Length Operator field,
the Header Length Value field appears. In the Header Length Value field, enter the number
of bytes for comparison. Valid entries are from 0 to 255.
– If you chose Range in the Header Length Operator field, the Header Length Lower Value
and the Header Length Higher Value fields appear:
1. In the Header Length Lower Value field, enter the lowest number of bytes to be used for
this match condition. Valid entries are from 0 to 255. The number in this field must be less
than the number entered in the Header Length Higher Value field.
2. In the Header Length Higher Value field, enter the highest number of bytes to be used
for this match condition. Valid entries are from 1 to 255. The number in this field must be
greater than the number entered in the Header Length Lower Value field.
Header MIME Type Multipurpose Internet Mail Extension (MIME) message types are used for application inspection
decisions.
In the Header MIME Type field, choose the MIME message type to use for this match condition.
Table 7-8 HTTP and HTTPS Protocol Inspection Conditions and Options (continued)
Condition Description
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Port Misuse Misuse of port 80 (or any other port running HTTP) to be used for application inspection decisions.
Choose the application category to use for this match condition as follows:
• IM—Instant messaging applications are to be checked.
• P2P—Peer-to-peer applications are to be checked.
• Tunneling—Tunneling applications are to be checked.
Request Method A request method is to be used for protocol inspection decisions. By default, ACEs allow all request
and extension methods. This option allows you to configure protocol inspection decisions based on
compliance to request methods defined in RFC 2616 and by HTTP extension methods.
a. Choose the type of request method to use for this match condition:
– Ext—An HTTP extension method is to be used.
Note The list of available HTTP extension methods from which to choose varies
depending on the version of software installed in the ACE.
– RFC—The request method defined in RFC 2616 is to be used.
b. In the Request Method field, choose the request method that is to be inspected.
Strict HTTP Compliance with HTTP RFC 2616 to be used for application inspection decisions.
Transfer Encoding An HTTP transfer-encoding type to be used for application inspection decisions. The
transfer-encoding general-header field indicates the type of transformation, if any, that has been
applied to the HTTP message body to safely transfer it between the sender and the recipient.
In the Transfer Encoding field, choose the type of encoding that is to be checked:
• Chunked—The message body is transferred as a series of chunks.
• Compress—The encoding format that is produced by the UNIX file compression program
compress.
• Deflate—The .zlib format that is defined in RFC 1950 in combination with the DEFLATE
compression mechanism described in RFC 1951.
• Gzip—The encoding format that is produced by the file compression program GZIP (GNU zip)
as described in RFC 1952.
• Identity—The default (identity) encoding which does not require the use of transformation.
Table 7-8 HTTP and HTTPS Protocol Inspection Conditions and Options (continued)
Condition Description
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URL URL names to be used for application inspection decisions.
In the URL field, enter a URL or a portion of a URL to match. Valid entries are URL strings from
1 to 255 alphanumeric characters and include only the portion of the URL following
www.hostname.domain. For example, in the URL www.anydomain.com/latest/whatsnew.html,
include only /latest/whatsnew.html.
URL Length URL length to be used for application inspection decisions.
a. In the URL Length Operator field, choose the operand to use to compare URL length:
– Equal To—The URL length must equal the number in the URL Length Value field.
– Greater Than—The URL length must be greater than the number in the URL Length
Value field.
– Less Than—The URL length must be less than the number in the URL Length Value field.
– Range—The URL length must be within the range specified in the URL Length Lower
Value field and the URL Length Higher Value field.
b. Enter values to apply for URL length comparison:
– If you chose Equal To, Greater Than, or Less Than in the URL Length Operator field, the
URL Length Value field appears. In the URL Length Value field, enter the value for
comparison. Valid entries are from 1 to 65535 bytes.
– If you chose Range in the URL Length Operator field, the URL Length Lower Value and
the URL Length Higher Value fields appear:
1. In the URL Length Lower Value field, enter the lowest number of bytes to be used for
this match condition. Valid entries are from 1 to 65535. The number in this field must be
less than the number entered in the URL Length Higher Value field.
2. In the URL Length Higher Value field, enter the highest number of bytes to be used for
this match condition. Valid entries are from 1 to 65535. The number in this field must be
greater than the number entered in the URL Length Lower Value field.
Table 7-8 HTTP and HTTPS Protocol Inspection Conditions and Options (continued)
Condition Description
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Table 7-9 SIP Protocol Inspection Match Criteria Configuration
Selection Action
Existing class map a. Click View to review the match condition information for the selected class map.
b. Do one of the following:
– Click Cancel to continue without making changes and to return to the previous window.
– Click Edit to modify the existing configuration.
– Click Duplicate to create a new class map with the same attributes without affecting other
virtual servers using the same class map.
See the “Shared Objects and Virtual Servers” section on page 7-9 for more information about
modifying shared objects.
c. In the Action field, choose the action that the virtual server is to perform on the traffic if it matches
the specified match criteria:
– Drop—The specified traffic is to be dropped by the virtual server.
– Permit—The specified traffic is to be received by the virtual server.
– Reset—The specified traffic is to be denied by the virtual server, which then sends a TCP reset
message to the client or server to close the connection.
*New* a. In the Name field, specify a unique name for this class map.
b. In the Conditions table, click Add to add a new set of conditions, or choose an existing entry, and
click Edit to modify it. The Type field appears.
c. In the Type field, choose the type of condition that is to be met for protocol inspection.
d. Provide condition-specific criteria using the information in Table 7-10.
e. In the Action field, choose the action that the virtual server is to perform on the traffic if it matches
the specified match criteria:
– Drop—The specified traffic is to be dropped by the virtual server.
– Permit—The specified traffic is to be received by the virtual server.
– Reset—The specified traffic is to be denied by the virtual server, which then sends a TCP reset
message to the client or server to close the connection.
*Inline Match* a. In the Conditions Type field, choose the type of inline match condition that is to be met for protocol
inspection.
Table 7-10 describes the types of conditions and their related configuration options.
b. Provide condition-specific criteria using the information in Table 7-10.
c. In the Action field, choose the action that the virtual server is to perform on the traffic if it matches
the specified match criteria:
– Drop—The specified traffic is to be dropped by the virtual server.
– Permit—The specified traffic is to be received by the virtual server.
– Reset—The specified traffic is to be denied by the virtual server, which then sends a TCP reset
message to the client or server to close the connection.
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Table 7-10 SIP Protocol Inspection Conditions and Options
Condition Description
Called Party Destination or called party specified in the URI of the SIP To header used for SIP protocol
inspection decisions.
In the Called Party field, enter a regular expression that identifies the called party in the URI of the
SIP To header for this match condition. Valid entries are unquoted text strings with no spaces and
a maximum of 255 alphanumeric characters. The ACE supports regular expressions for matching
string expressions. Table 14-33 lists the supported characters that you can use for matching string
expressions.
Calling Party Source or caller specified in the URI of the SIP From header used for SIP protocol inspection
decisions.
In the Calling Party field, enter a regular expression that identifies the calling party in the URI of
the SIP From header for this match condition. Valid entries are unquoted text strings with no spaces
and a maximum of 255 alphanumeric characters. The ACE supports regular expressions for
matching string expressions. Table 14-33 lists the supported characters that you can use for
matching string expressions.
IM Subscriber IM (instant messaging) subscriber used for application inspection decisions.
In the IP Subscriber field, enter a regular expression that identifies the IM subscriber for this match
condition. Valid entries are unquoted text strings with no spaces and a maximum of 255
alphanumeric characters. The ACE supports regular expressions for matching string expressions.
Table 14-33 lists the supported characters that you can use for matching string expressions.
Message Path SIP inspection that allows you to filter messages coming from or transiting through certain SIP
proxy servers. The ACE maintains a list of the unauthorized SIP proxy IP addresses or URLs in the
form of regular expressions and checks this list against the VIA header field in each SIP packet.
In the Message Path field, enter a regular expression that identifies the SIP proxy server for this
match condition. Valid entries are unquoted text strings with no spaces and a maximum of 255
alphanumeric characters. The ACE supports regular expressions for matching string expressions.
Table 14-33 lists the supported characters that you can use for matching string expressions.
SIP Content Length SIP message body content length used for SIP protocol inspection decisions.
To specify SIP traffic based on SIP message body length:
a. In the Content Operator field, confirm that Greater Than is selected.
b. In the Content Length field, enter the maximum size of a SIP message body in bytes that the
ACE is to allow without performing SIP protocol inspection. If a SIP message exceeds the
specified value, the ACE performs SIP protocol inspection as defined in an associated policy
map. Valid entries are from 0 to 65534 bytes.
SIP Content Type Content type in the SIP message body used for SIP protocol inspection decisions.
In the Content Type field, enter a regular expression that identifies the content type in the SIP
message body to use for this match condition. Valid entries are unquoted text strings with no spaces
and a maximum of 255 alphanumeric characters. The ACE supports regular expressions for
matching string expressions. Table 14-33 lists the supported characters that you can use for
matching string expressions.
SIP Request Method SIP request method used for application inspection decisions.
In the Request Method field, choose the request method that is to be inspected.
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Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries.
• Click Deploy Later to save your entries and deploy the configuration at a later time.
Related Topics
• Configuring Virtual Server Properties, page 7-11
• Configuring Virtual Server SSL Termination, page 7-17
• Configuring Virtual Server Layer 7 Load Balancing, page 7-30
• Managing Virtual Servers, page 7-66
Third Party Condition that indicates that the SIP is to allow users to register other users on their behalf by
sending REGISTER messages with different values in the From and To header fields. This process
can pose a security threat if the REGISTER message is actually a DEREGISTER message. A
malicious user could cause a DoS (denial-of-service) attack by deregistering all users on their
behalf. To prevent this security threat, you can specify a list of privileged users who can register or
unregister someone else on their behalf. The ACE maintains the list as a regex table. If you
configure this policy, the ACE drops REGISTER messages with mismatched From and To headers
and a From header value that does not match any of the privileged user IDs.
In the Third Party Registration Entities field, enter a regular expression that identifies a privileged
user who is authorized for third-party registrations. Valid entries are unquoted text strings with no
spaces and a maximum of 255 alphanumeric characters. The ACE supports regular expressions for
matching string expressions. Table 14-33 lists the supported characters that you can use for
matching string expressions.
URI Length Condition that indicates that the ACE is to validate the length of SIP URIs or Tel URIs. A SIP URI
is a user identifier that a calling party (source) uses to contact the called party (destination). A Tel
URI is a telephone number that identifies the endpoint of a SIP connection. For more information
about SIP URIs and Tel URIs, see RFC 2534 and RFC 3966, respectively.
To filter SIP traffic based on URIs, do the following:
a. In the URI Type field, choose the type of URI to be used:
– SIP URI—The calling party URI is to be used for this match condition.
– Tel URI—A telephone number is to be used for this match condition.
b. In the URI Operator field, confirm that Greater Than is selected.
c. In the URI Length field, enter the maximum length of the SIP URI or Tel URI in bytes. Valid
entries are from 0 to 254 bytes.
Table 7-10 SIP Protocol Inspection Conditions and Options (continued)
Condition Description
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Configuring Virtual Server Layer 7 Load Balancing
You can configure Layer 7 load balancing on a virtual server. In the Advanced View, Layer 7 load
balancing is available for virtual servers configured with one of the following protocol combinations:
• TCP with Generic, FTP, HTTP, HTTPS, RDP, RTSP, or SIP
• UDP with Generic, DNS, RADIUS, or SIP
See the “Configuring Virtual Server Properties” section on page 7-11 for information about configuring
these protocols.
Table 7-2 identifies the protocols that are available for each type of ACE device.
Assumption
Make sure that a virtual server has been configured with one of the following protocol combinations:
• TCP with Generic, FTP, HTTP, HTTPS, RDP, RTSP, or SIP
• UDP with Generic, DNS, RADIUS, or SIP
For more information, see the “Configuring Virtual Server Properties” section on page 7-11.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Virtual Servers.
The Virtual Servers table appears.
Step 2 In the Virtual Servers table, choose the virtual server that you want to configure for Layer 7 load
balancing, and click Edit.
The Virtual Server configuration window appears.
Step 3 In the Virtual Server configuration window, click L7 Load-Balancing.
The Layer 7 Load-Balancing Rule Match table appears.
Step 4 In the Rule Match table, click Add to add a new match condition and action, or choose an existing match
condition and action, and click Edit to modify it.
The Rule Match configuration pane appears.
Step 5 In the Rule Match field of the Rule Match configuration pane, choose an existing class map or *New*
or *Inline Match* to configure new match criteria for Layer 7 load balancing, and do one of the
following:
• If you chose an existing class map, click View to review, modify, or duplicate the existing
configuration. See the “Shared Objects and Virtual Servers” section on page 7-9 for more
information about modifying shared objects.
• If you click *New* or *Inline Match*, the Rule Match configuration pane appears.
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Step 6 Configure match criteria using the information in Table 7-11.
Table 7-11 Layer 7 Load-Balancing Match Criteria Configuration
Selection Action
Existing class map a. Click View to review the match condition information for the selected class map.
b. Do one of the following:
– Click Cancel to continue without making changes and to return to the previous window.
– Click Edit to modify the existing configuration.
– Click Duplicate to create a new class map with the same attributes without affecting other
virtual servers using the same class map.
See the “Shared Objects and Virtual Servers” section on page 7-9 for more information about
modifying shared objects.
*New* a. In the Name field, enter a unique name for this class map.
b. In the Match field, choose the method to be used to evaluate multiple match statements when
multiple match conditions exist:
– match-any—A match exists if at least one of the match conditions is satisfied.
– match-all—A match exists only if all match conditions are satisfied.
c. In the Conditions table, click Add to add a new set of conditions, or choose an existing entry and
click Edit to modify it.
d. In the Type field, choose the match condition and configure any of these protocol-specific options:
– For Generic protocol options, see Table 14-9.
– For HTTP and HTTPS protocol options, see Table 7-12.
– For RADIUS protocol options, see Table 14-10.
– For RTSP protocol options, see Table 14-11.
– For SIP protocol options, see Table 14-12.
e. Do one of the following:
– Click OK to accept your entries and to return to the Conditions table.
– Click Cancel to exit this procedure without saving your entries and to return to the Conditions
table.
*Inline Match* In the Conditions Type field, choose the type of inline match condition and configure any
protocol-specific options:
• For Generic protocol options, see Table 14-9.
• For HTTP and HTTPS protocol options, see Table 7-12.
• For RADIUS protocol options, see Table 14-10.
• For RTSP protocol options, see Table 14-11.
• For SIP protocol options, see Table 14-12.
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Table 7-12 Layer 7 HTTP/HTTPS Load-Balancing Conditions and Options
Match Condition Action
Class Map Existing class map used for the match condition.
In the Class Map field, choose the class map to be used.
HTTP Content Specific content contained within the HTTP entity-body used to establish a match condition.
a. In the Content Expression field, enter the content that is to be matched. Valid entries are
alphanumeric strings from 1 to 255 characters.
b. In the Content Offset field, enter the number of bytes to be ignored starting with the first byte
of the Message body, after the empty line (CR,LF,CR,LF) between the headers and the body
of the message. Valid entries are from 1 to 255.
HTTP Cookie HTTP cookies used for the match condition.
a. In the Cookie Name field, enter a unique cookie name. Valid entries are unquoted text strings
with no spaces and a maximum of 64 alphanumeric characters.
b. In the Cookie Value field, enter a unique cookie value expression. Valid entries are unquoted
text strings with no spaces and a maximum of 255 alphanumeric characters. The ACE supports
regular expressions for matching string expressions. Table 14-33 lists the supported characters
that you can use for matching string expressions.
c. Check the Secondary Cookie Matching check box to indicate that the ACE is to use both the
cookie name and the cookie value to satisfy this match condition. Clear this check box to
indicate that the ACE is to use either the cookie name or the cookie value to satisfy this match
condition.
HTTP Header HTTP header and corresponding value used to establish match conditions.
a. In the Header Name field, specify the header in one of the following ways:
– To specify an HTTP header that is not one of the standard HTTP headers, click the first
radio button and enter the HTTP header name in the Header Name field. Enter an
unquoted text string with no spaces and a maximum of 64 characters.
– To specify one of the standard HTTP headers, click the second radio button and choose
the desired HTTP header from the list.
b. In the Header Value field, enter the header-value expression string to compare against the
value in the specified field in the HTTP header. Valid entries are text strings with a maximum
of 255 alphanumeric characters. The ACE supports regular expressions for matching. Header
expressions allow spaces, provided that the spaces are escaped or quoted. All headers in the
header map must be matched. Table 14-33 lists the supported characters that you can use in
regular expressions.
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Step 7 In the Primary Action field, choose the action that the virtual server is to perform on the traffic if it
matches the specified match criteria:
• Drop—Client requests for content are to be discarded when match conditions are met. Continue
with Step 12.
• Forward—Client requests for content are to be forwarded without performing load balancing on the
requests when match conditions are met. Continue with Step 12.
• Load Balance—Client requests for content are to be directed to a server farm when match
conditions are met. Continue with Step 9.
• Sticky—Client requests for content are to be handled by a sticky group when match conditions are
met. Continue with Step 10.
Step 8 (Optional) From the HTTP Header Modify Action List drop-down list, choose an existing Action List or
choose New to display the Action List configuration table and create a new one. For more information,
see the “Configuring an HTTP Header Modify Action List” section on page 14-85.
Step 9 (Optional) If you chose Load Balance as the primary action, do the following:
a. In the Server Farm field, choose the primary server farm to use for load balancing, or choose *New*
to configure a new server farm (see Table 7-13).
If you chose an existing object in this field, you can view, modify, or duplicate the selected object’s
existing configuration. See the “Shared Objects and Virtual Servers” section on page 7-9 for more
information about modifying shared objects in virtual servers.
HTTP URL Condition that indicates that the ACE is to perform regular expression matching against the
received packet data from a particular connection based on the HTTP URL string.
a. In the URL Expression field, enter a URL, or portion of a URL, to match. Valid entries are
URL strings from 1 to 255 alphanumeric characters. Include only the portion of the URL
following www.hostname.domain in the match statement. For example, in the URL
www.anydomain.com/latest/whatsnew.html, include only /latest/whatsnew.html. To match the
www.anydomain.com portion, the URL string can take the form of a URL regular expression.
The ACE supports regular expressions for matching URL strings. Table 14-33 lists the
supported characters that you can use in regular expressions.
b. In the Method Expression field, enter the HTTP method to match. Valid entries are unquoted
text strings with no spaces and a maximum of 15 alphanumeric characters. The method can
either be one of the standard HTTP 1.1 method names (OPTIONS, GET, HEAD, POST, PUT,
DELETE, TRACE, or CONNECT) or a text string that must be matched exactly (for example,
CORVETTE).
Source Address Client source IP address used for the match condition.
a. In the Source Address field, enter the source IP address of the client. Enter the IP address in
dotted-decimal notation (for example, 192.168.11.2).
b. In the Source Netmask field, choose the subnet mask to apply to the source IP address.
Table 7-12 Layer 7 HTTP/HTTPS Load-Balancing Conditions and Options (continued)
Match Condition Action
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Note To display statistics and status information for an existing server farm, choose a server farm
in the list, and click Details. ANM accesses the show serverfarm name detail CLI
command to display detailed server farm information. See the “Displaying Server Farm
Statistics and Status Information” section on page 8-48.
b. In the Backup Server Farm field, choose the server farm to act as the backup server farm for load
balancing if the primary server farm is unavailable, or choose *New* to configure a new backup
server farm (see Table 7-13).
Note Fields and information related to IPv6 require ACE module and ACE appliance software
Version A5(1.0) or later.
If you chose an existing object in this field, you can view, modify, or duplicate the selected object’s
existing configuration. See the “Shared Objects and Virtual Servers” section on page 7-9 for more
information about modifying shared objects in virtual servers.
Table 7-13 New Server Farm Attributes
Field Description
Name Unique name for the server farm. Valid entries are unquoted text strings with no spaces and a maximum
of 64 characters.
Type Type of server farm:
• Host—A typical server farm that consists of real servers that provide content and services to clients.
By default, if you configure a backup server farm and all real servers in the primary server farm go
down, the primary server farm fails over to the backup server farm. Use the following options to
specify thresholds for failover and returning to service.
1. In the Partial-Threshold Percentage field, enter the minimum percentage of real servers in the
primary server farm that must remain active for the server farm to stay up. If the percentage of active
real servers falls below this threshold, the ACE takes the server farm out of service. Valid entries are
from 0 to 99.
2. In the Back Inservice field, enter the percentage of real servers in the primary server farm that must
be active again for the ACE to place the server farm back into service. Valid entries are from 0 to 99.
The value in this field should be larger than the value in the Partial Threshold Percentage field.
• Redirect—A server farm that consists only of real servers that redirect client requests to alternate
locations specified in the real server configuration.
Fail Action Action that the ACE takes if any real server in the server farm fails:
• N/A—Indicates that the ACE is to take no action if any server in the server farm fails.
• Purge—Indicates that the ACE is to remove connections to a real server if that real server in the
server farm fails. The ACE sends a reset command to both the client and the server that failed.
• Reassign—Indicates that the ACE reassign the existing server connections to the backup real server
(if configured) if the real server fails after you enter this command. If a backup real server has not
been configured for the failing server, this selection leaves the existing connections untouched in the
failing real server.
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Failaction
Reassign Across
Vlans
Option that is available only for the ACE module A2(3.0), ACE appliance A4(1.0), and later releases of
either device type. This field appears only when the L7 Load-Balancing Action parameters are set as
follows: Primary Action: LoadBalance; ServerFarm: New; Fail Action: Reassign.
Check the check box to specify that the ACE reassigns the existing server connections to the backup real
server on a different VLAN interface (commonly referred to as a bypass VLAN) if the real server fails.
If a backup real server has not been configured for the failing server, this option has no effect and leaves
the existing connections untouched in the failing real server.
Note the following configuration requirements and restrictions when you enable this option:
• Enable the Transparent option (see the next Field) to instruct the ACE not to use NAT to translate the
ACE VIP address to the server IP address. The Failaction Reassign Across Vlans option is intended
for use in stateful firewall load balancing (FWLB) on your ACE, where the destination IP address for
the connection coming in to the ACE is for the end-point real server, and the ACE reassigns the
connection so that it is transmitted through a different next hop.
• Enable the MAC Sticky option on all server-side interfaces to ensure that packets that are going to
and coming from the same server in a flow will traverse the same firewalls or stateful devices (see
the “Configuring Virtual Context VLAN Interfaces” section on page 12-6).
• Configure the Predictor Hash Address option. See Table 7-14 for the supported predictor methods
and configurable attributes for each predictor method.
• You must configure identical policies on the primary interface and the backup-server interface. The
backup interface must have the same feature configurations as the primary interface.
• If you configure a policy on the backup-server interface that is different from the policies on the
primary-server interface, that policy will be effective only for new connections. The reassigned
connection will always have only the primary-server interface policies.
• Interface-specific features (for example, NAT, application protocol inspection, outbound ACLs, or
SYN cookie) are not supported.
• You cannot reassign connections to the failed real server after it comes back up. This restriction also
applies to same-VLAN backup servers.
• Real servers must be directly connected to the ACE. This requirement also applies to same-VLAN
backup server.
• You must disable sequence number randomization on the firewall (see the “Configuring Connection
Parameter Maps” section on page 10-3).
• Probe configurations should be similar on both ACEs and the interval values should be low. For
example, if you configure a high interval value on ACE-1 and a low interval value on ACE-2, the
reassigned connections may become stuck because of the probe configuration mismatch. ACE-2 with
the low interval value will detect the primary server failure first and will reassign all its incoming
connections to the backup-server interface VLAN. ACE-1 with the high interval value may not detect
the failure before the primary server comes back up and will still point to the primary server.
To minimize packet loss, we recommend the following probe parameter values on both ACEs: Interval:
2, Faildetect: 2, Passdetect interval: 2, and Passdetect count: 5.
Table 7-13 New Server Farm Attributes (continued)
Field Description
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Transparent Field that appears only for real servers identified as host servers.
Specify whether network address translation from the VIP address to the server IP is to occur. Check the
check box to specify that network address translation from the VIP address to the server IP address is to
occur. Uncheck the check box to specify that network address translation from the VIP address to the
server IP address is not to occur.
Dynamic
Workload Scaling
Option that is available only with ACE software Version A4(2.0) or later release on either device type
(appliance or module). Field that appears only for host server farms.
Allows the ACE to burst traffic to remote VMs when the average CPU usage, memory usage, or both of
the local VMs has reached it’s specified maximum threshold value. The ACE stops bursting traffic to the
remote VMs when the average CPU and/or memory usage of the local VMs has dropped to it’s specified
minimum threshold value. This option requires that you have the ACE configured for Dynamic Workload
Scaling using a Nexus 7000, VM Controller, and VM probe (see the “Configuring Dynamic Workload
Scaling” section on page 8-26).
Click one of the following radio button options:
• N/A—Not applicable (default).
• Local—The ACE can use the VM Controller local VMs only for load balancing (bursting is not
allowed).
• Burst—Enables the ACE to burst traffic to a remote VMs when needed.
When you choose Burst, the VM Probe Name field displays along with a list of available VM probes.
Choose an available VM probe or click Add to display the Health Monitoring popup window and
create a new VM probe or edit an existing one (see the “Configuring Health Monitoring” section on
page 8-49).
Fail-On-All Field that appears for host server farms only.
By default, real servers that you configure in a server farm inherit the probes that you configure directly
on that server farm. When you configure multiple probes on a server farm, the real servers in the server
farm use an OR logic with respect to the probes, which means that if one of the probes configured on the
server farm fails, all the real servers in that server farm fail and enter the PROBE-FAILED state.
With AND logic, if one server farm probe fails, the real servers in the server farm remain in the
OPERATIONAL state. If all the probes associated with the server farm fail, then all the real servers in
that server farm fail and enter the PROBE-FAILED state. You can also configure AND logic for probes
that you configure directly on real servers in a server farm. For more information, see the command in
server farm host real server configuration mode.
Check this check box to configure the real servers in a server farm to use AND logic with respect to
multiple server farm probes.
The Fail On All function is applicable to all probe types.
Table 7-13 New Server Farm Attributes (continued)
Field Description
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Inband-Health
Check
Option that is available only for the ACE module A4(1.0), ACE appliance A4(1.0), and later releases of
either device type. Field that appears only for host server farms.
By default, the ACE monitors the health of all real servers in a configuration through the use of ARPs
and health probes. However, there is latency period between when the real server goes down and when
the ACE becomes aware of the state. The inband health monitoring feature allows the ACE to monitor the
health of the real servers in the server farm through the following connection failures:
• For TCP, resets (RSTs) from the server or SYN timeouts.
• For UDP, ICMP Host, Network, Port, Protocol, and Source Route unreachable messages.
When you configure the failure-count threshold and the number of these failures exceeds the threshold
within the reset-time interval, the ACE immediately marks the server as failed, takes it out of service, and
removes it from load balancing. The server is not considered for load balancing until the optional
resume-service interval expires.
The Inband-Health Check attributes are as follows:
• Count—Tracks the total number of TCP or UDP failures, and increments the counters.
• Log—Logs a syslog error message when the number of events reaches the threshold value that you
set for the Connection Failure Threshold Count attribute.
• Remove—Logs a syslog error message when the number of events reaches the configured threshold
and removes the real server from service.
Connection
Failure Threshold
Count
This field appears only when the Inband-Health Check is set to Log or Remove.
Enter the maximum number of connection failures that a real server can exhibit in the reset-time interval
before ACE marks the real server as failed. Valid entries are as follows:
• ACE appliance—Integers from 1 to 4294967295
• ACE module—Integers from 4 to 4294967295
Reset Timeout
(Milliseconds)
This field appears only when the Inband-Health Check is set to Log or Remove.
Enter the number of milliseconds for the reset-time interval. Valid entries are integers from 100 to
300000. The default interval is 100.
This interval starts when the ACE detects a connection failure. If the connection failure threshold is
reached during this interval, the ACE generates a syslog message. If you configure the Remove attribute,
the ACE also removes the real server from service.
Changing the setting of this option affects the behavior of the real server, as follows:
• When the real server is in the OPERATIONAL state, even if several connection failures have
occurred, the new reset-time interval takes effect the next time that a connection error occurs.
• When the real server in the INBAND-HM-FAILED state, the new reset-time interval takes effect the
next time that a connection error occurs after the server transitions to the OPERATIONAL state.
Table 7-13 New Server Farm Attributes (continued)
Field Description
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Resume Service
(Seconds)
Field that appears only when the Inband-Health Check is set to Remove.
Enter the number of seconds after a server has been marked as failed to reconsider it for sending live
connections. Valid entries are integers from 30 to 3600. The default setting is 0. The setting of this option
affects the behavior of the real server in the inband failed state, as follows:
• When this field is not configured and has the default setting of 0, the real server remains in the failed
state until you manually suspend and then reactivate it.
• When this field is not configured and has the default setting of 0 and then you configure this option
with an integer between 30 and 3,600, the failed real server immediately transitions to the
Operational state.
• When you configure this field and then increase the value, the real server remains in the failed state
for the duration of the previously-configured value. The new value takes effect the next time the real
server transitions to the failed state.
• When you configure this field and then decrease the value, the failed real server immediately
transitions to the Operational state.
• When you configure this field with an integer between 30 and 3,600 and then reset it to the default
of 0, the real server remains in the failed state for the duration of the previously-configured value.
The default setting takes effect the next time the real server transitions to the failed state. Then the
real server remains in the failed state until you manually suspend and then reactivate it.
• When you change this field within the reset-time interval the real server in the OPERATIONAL with
several connection failures, the new threshold interval takes effect the next time that a connection
error occurs, even if it occurs within the current reset-time interval.
Predictor Method for selecting the next server in the server farm to respond to client requests. Round Robin is the
default predictor method for a server farm.
See Table 7-14 for the supported predictor methods and configurable attributes for each predictor method.
Table 7-13 New Server Farm Attributes (continued)
Field Description
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Probes Health monitoring probes to use:
• To include a probe that you want to use for health monitoring, choose it in the Available list, and click
Add. The probe appears in the Selected list.
The redirect real server probe list contains only configured probes of the type Is Routed, which means
that the ACE routes the probe address according to the ACE internal routing table (see the
“Configuring Health Monitoring” section on page 8-49.
Note You can associate both IPv6 and IPv4 probes to a server farm. IPv6 requires ACE module and
ACE appliance software Version A5(1.0) or later.
Note The list of available probes does not include VM health monitoring probes. To choose a VM
probe for monitoring local VM usage, see the Dynamic Workload Scaling field.
• To remove a probe that you do not want to use for health monitoring, choose it in the Selected list,
and click Remove. The probe appears in the Available list.
• To specify a sequence for probe use, choose probes in the Selected list, and click Up or Down until
you have the desired sequence.
• To view the configuration for an existing probe, choose a probe in the list on the right, and click View
to review its configuration.
• To display statistics and status information for an existing probe, choose a probe in the list on the
right, and click Details. ANM accesses the show probe name detail CLI command to display
detailed probe information. See the “Displaying Health Monitoring Statistics and Status
Information” section on page 8-77.
To add a new probe, click Create. See the “Configuring Health Monitoring for Real Servers” section on
page 8-51 for details on adding a new health monitoring probe and defining attributes for the specific
probe type. In addition to the probe attributes that you set as described in the “Configuring Health
Monitoring for Real Servers” section on page 8-51, set the following probe configuration parameters in
the Probes section under Server Farm as described as follows:
• Expect Addresses—To configure expect addresses for a DNS probe, in the IPv4/IPv6 Address field,
enter the IP address that the ACE is to expect as a server response to a DNS request. You can enter
multiple addresses in this field; however, you cannot mix IPv4 and IPv6 addresses.
Note IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later.
• Probe Headers—To configure probe headers for either an HTTP or HTTPS probe, in the Probe
Headers field enter the name of the HTTP header and the value to be matched using the format
header_name=header_value where:
• header_name represents the HTTP header name the probe is to use. Valid entries are unquoted
text strings with no spaces and a maximum of 64 alphanumeric characters. You can specify
predefined header or any custom header name provided that it does not exceed the maximum
length limit.
• header_value represents the string to assign to the header field. Valid entries are text strings with
a maximum of 255 characters. If the string includes spaces, enclose the string with quotes.
Table 7-13 New Server Farm Attributes (continued)
Field Description
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Probes
(continued)
• Probe Expect Status—To configure probe expect status for an FTP, HTTP, HTTPS, RTSP, SIP-TCP,
SIP-UDP, or SMTP probe, in the Probe Expect Status field enter the following information:
• To configure a single expect status code, enter the minimum expect status code for this probe
followed by the same expect status code that you entered as the minimum. Valid entries are from
0 to 999.
• To configure a range of expect status codes, enter the lower limit of the range of status codes
followed by the upper limit of the range of status codes. The maximum expect status code must
be greater than or equal to the value specified for the minimum expect status code. Valid entries
are from 0 to 999.
• SNMP OID Table—To configure the SNMP OID for an SNMP probe, see the “Configuring an OID
for SNMP Probes” section on page 8-76.
After you add a probe, you can modify the attributes for a health probe from the Health Monitoring table
(Config > Virtual Contexts > context > Load Balancing > Health Monitoring) as described in the
“Configuring Health Monitoring for Real Servers” section on page 8-51. You can also delete an existing
health probe from the Health Monitoring table.
Table 7-13 New Server Farm Attributes (continued)
Field Description
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Real Servers Table that allows you to add, modify, remove, or change the order of real servers.
a. Choose an existing server, or click Add to add a server to the server farm and do one of the following:
– If you chose an existing server, you can view, modify, or duplicate the server’s existing
configuration. See the “Shared Objects and Virtual Servers” section on page 7-9 for more
information about modifying shared objects.
– If you click Add, the window refreshes so you can enter server information.
b. In the Name field, specify the name of the real server in one of the following ways:
– To identify a new real server, click the first radio button, and then enter the name of the real
server in the adjoining field.
– To specify an existing real server, click the second radio button, and then choose one of the real
servers listed.
c. In the IP Address Type field, choose IPv4 or IPv6. This field appears only for ACE module and ACE
appliance software Version A5(1.0) or later, which supports IPv4 and IPv6.
d. In the IP Address field, enter the IP address of the real server.
e. In the Port field, enter the port number to be used for server port address translation (PAT). Valid
entries are from 1 to 65535.
f. In the Weight field, enter the weight to assign to this server in the server farm. Valid entries are from
1 to 100, and the default is 8.
g. In the Redirection Code field, choose the appropriate redirection code. This field appears only for
real servers identified as redirect servers.
– N/A—Indicates that the webhost redirection code is not defined.
– 301—Indicates that the requested resource has been moved permanently. For future references
to this resource, the client should use one of the returned URIs.
– 302—Indicates that the requested resource has been found, but has been moved temporarily to
another location. For future references to this resource, the client should use the request URI
because the resource may be moved to other locations from time to time.
h. In the Web Host Redirection field, enter the URL string used to redirect requests to another server.
This field appears only for real servers identified as redirect servers. Enter the URL and port used to
redirect requests to another server. Valid entries are in the form http://host.com:port where host is the
name of the server and port is the port to be used. Valid host entries are unquoted text strings with no
spaces and a maximum of 255 characters. Valid port numbers are from 1 to 65535.
The relocation string supports the following special characters:
– %h—Inserts the hostname from the request Host header
– %p—Inserts the URL path string from the request
i. In the Rate Bandwidth field, enter the real server bandwidth limit in bytes per second. Valid entries
are from 1 to 300000000 bytes.
j. In the Rate Connection field, enter the limit for connections per second (valid entries are from 1 to
350000) and do one of the following:
– Click OK to accept your entries and add this real server to the server farm. The table refreshes
with updated information.
– Click Cancel to exit this procedure without saving your entries and to return to the Real Servers
table.
Table 7-13 New Server Farm Attributes (continued)
Field Description
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k. In the State field, choose the administrative state of this server as follows:
– In Service—The server is to be placed in use as a destination for server load balancing.
– In Service Standby—The server is a backup server and remains inactive unless the primary
server fails. If the primary server fails, the backup server becomes active and starts accepting
connections.
– Out Of Service—The server is not to be placed in use by a server load balancer as a destination
for client connections.
l. In the Fail-On-All field, check this check box to configure a real server to remain in the
OPERATIONAL state unless all probes associated with it fail (AND logic). The Fail-On-All function
is applicable to all probe types. Fail-On-All is applicable only for host real servers.
m. Do one of the following:
– Click OK to accept your entries and add this real server to the server farm. The table refreshes
with updated information.
– Click Cancel to exit this procedure without saving your entries and to return to the Real Servers
table.
To display statistics and status information for an existing real server, choose a real server in the list, and
then click Details. ANM accesses the show rserver name detail CLI command to display detailed real
server information. See the “Displaying Real Server Statistics and Status Information” section on
page 8-9.
Table 7-14 Predictor Methods and Attributes
Predictor Method Description / Action
Hash Address Method that indicates that the ACE is to select the server using a hash value based on the source or
destination IP address.
To configure the hash address predictor method, do the following:
a. In the Mask Type field, indicate whether server selection is based on the source IP address or the
destination IP address:
– N/A—Indicates that this option is not defined.
– Destination—Indicates that the server is selected based on the destination IP address.
– Source—Indicates that the server is selected based on the source IP address.
b. In the IP Netmask field, choose the subnet mask to apply to the address. If none is specified, the
default is 255.255.255.255.
Table 7-13 New Server Farm Attributes (continued)
Field Description
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Hash Content Method that indicates that the ACE is to select the server by using a hash value based on the specified
content string of the HTTP packet body.
a. In the Begin Pattern field, enter the beginning pattern of the content string and the pattern string to
match before hashing. If you do not specify a beginning pattern, the ACE starts parsing the HTTP
body immediate following the offset byte. You cannot configure different beginning and ending
patterns for different server farms that are part of the same traffic classification.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters. The ACE supports regular expressions for matching string expressions. Table 14-33
lists the supported characters that you can use for matching string expressions.
b. In the End Pattern field, enter the pattern that marks the end of hashing. If you do not specify either
a length or an end pattern, the ACE continues to parse the data until it reaches the end of the field
or the end of the packet, or until it reaches the maximum body parse length. You cannot configure
different beginning and ending patterns for different server farms that are part of the same traffic
classification.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters. The ACE supports regular expressions for matching string expressions. Table 14-33
lists the supported characters that you can use for matching string expressions.
c. In the Length (Bytes) field, enter the length in bytes of the portion of the content (starting with the
byte after the offset value) that the ACE uses for sticking the client to the server. Valid entries are
from 1 to 1000 bytes.
The offset and length can vary from 0 to 1000 bytes. If the payload is longer than the offset but
shorter than the offset plus the length of the payload, the ACE sticks the connection based on that
portion of the payload starting with the byte after the offset value and ending with the byte specified
by the offset plus the length. The total of the offset and the length cannot exceed 1000.
Note You cannot specify both the length and the end-pattern options for a Hash Content
predictor.
d. In the HTTP Content Offset (Bytes) field, enter the portion of the content that the ACE uses to stick
the client on a particular server by indicating the bytes to ignore starting with the first byte of the
payload. Valid entries are from 0 to 999 bytes. The default is 0, which indicates that the ACE does
not exclude any portion of the content.
Hash Cookie Method that indicates that the ACE is to select the server by using a hash value based on the cookie
name.
In the Cookie Name field, enter a cookie name in the form of an unquoted text string with no spaces
and a maximum of 64 characters.
Hash Header Method that indicates that the ACE is to select the server by using a hash value based on the header
name.
In the Header Name field, choose the HTTP header to be used for server selection as follows:
• To specify an HTTP header that is not one of the standard HTTP headers, click the first radio button
and enter the HTTP header name in the Header Name field. Valid entries are unquoted text strings
with no spaces and a maximum of 64 characters.
• To specify one of the standard HTTP headers, click the second radio button, and then choose one
of the HTTP headers from the list.
Table 7-14 Predictor Methods and Attributes (continued)
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Hash Layer 4 Method that indicates that the ACE is to select the server by using a Layer 4 generic protocol
load-balancing method. Use this predictor to load balance packets from protocols that are not explicitly
supported by the ACE.
a. In the Begin Pattern field, enter the beginning pattern of the Layer 4 payload and the pattern string
to match before hashing. If you do not specify a beginning pattern, the ACE starts parsing the HTTP
body immediate following the offset byte. You cannot configure different beginning and ending
patterns for different server farms that are part of the same traffic classification.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters. The ACE supports regular expressions for matching string expressions. Table 14-33
lists the supported characters that you can use for matching string expressions.
b. In the End Pattern field, enter the pattern that marks the end of hashing. If you do not specify either
a length or an end pattern, the ACE continues to parse the data until it reaches the end of the field
or the end of the packet, or until it reaches the maximum body parse length. You cannot configure
different beginning and ending patterns for different server farms that are part of the same traffic
classification.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters. The ACE supports regular expressions for matching string expressions. Table 14-33
lists the supported characters that you can use for matching string expressions.
c. In the Length (Bytes) field, enter the length in bytes of the portion of the payload (starting with the
byte after the offset value) that the ACE uses for sticking the client to the server. Valid entries are
from 1 to 1000 bytes.
The offset and length can vary from 0 to 1000 bytes. If the payload is longer than the offset but
shorter than the offset plus the length of the payload, the ACE sticks the connection based on that
portion of the payload starting with the byte after the offset value and ending with the byte specified
by the offset plus the length. The total of the offset and the length cannot exceed 1000.
Note You cannot specify both the length and end-pattern options for a Hash Layer 4 predictor.
d. In the HTTP Content Offset (Bytes) field, enter the portion of the content that the ACE uses to stick
the client on a particular server by indicating the bytes to ignore starting with the first byte of the
payload. Valid entries are from 0 to 999 bytes. The default is 0, which indicates that the ACE does
not exclude any portion of the content.
Hash URL Method that indicates that the ACE is to select the server using a hash value based on the URL. Use this
method to load balance firewalls.
Enter values in one or both of the pattern fields:
• In the URL Begin Pattern field, enter the beginning pattern of the URL and the pattern string to
parse.
• In the URL End Pattern field, enter the ending pattern of the URL and the pattern string to parse.
Valid entries for these fields are unquoted text strings with no spaces and a maximum of 255
alphanumeric characters for each pattern you configure.
Table 7-14 Predictor Methods and Attributes (continued)
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Least Bandwidth Method that indicates that the ACE is to select the server with the least amount of network traffic over
a specified sampling period.
a. In the Assess Time field, enter the number of seconds for which the ACE is to collect traffic
information. Valid entries are from 1 to 10 seconds.
b. In the Least Bandwidth Samples field, enter the number of samples over which you want to weight
and average the results of the probe query to calculate the final load value. Valid entries are 1, 2, 4,
8, and 16 (values from 1 to 16 that are also a power of 2).
Least Connections Method that indicates that the ACE is to select the server with the fewest number of connections.
In the Slowstart Duration field, enter the slow-start value to be applied to this predictor method. Valid
entries are from 1 to 65535, where 1 is the slowest ramp-up value.
The slow-start mechanism is used to avoid sending a high rate of new connections to servers that you
have just put into service.
Least Loaded Method that indicates that the ACE is to select the server with the lowest load based on information
from SNMP probes.
a. In the SNMP Probe Name field, choose the name of the SNMP probe to use.
b. In the Auto Adjust field, configure the autoadjust feature to assign a maximum load value of 16000
to that server to prevent it from being flooded with new incoming connections. The ACE
periodically adjusts this load value based on feedback from the server's SNMP probe and other
configured options. Options include:
– Average—Instructs the ACE to apply the average load of the server farm to a real server whose
load reaches zero. The average load is the running average of the load values across all real
servers in the server farm. This is the default setting.
– Maxload—Instructs the ACE to apply the maximum load of the server farm to a real server
whose load reaches zero.
The maxload option requires the following ACE software versions:
- ACE appliance—A3(2.7) or A4(1.0) or later
- ACE module—A2(2.4), A2(3.2), or A4(1.0) or later
If you choose the maxload option and the ACE does not support the option, ANM issues a
command parse error message.
– Off—Instructs the ACE to send all new connections to the server that has a load of zero until
the next load update arrives from the SNMP probe for this server. There may be times when
you want the ACE to send all new connections to a real server whose load is zero.
c. In the Weight Connection field, check the check box to instruct the ACE to use the current
connection count in the final load calculation for a real server. When you configure this option, the
ACE includes the current connection count in the total load calculation for each real server in a
server farm. Uncheck the check box to reset the behavior of the ACE to the default of excluding the
current connection count from the load calculation.
Table 7-14 Predictor Methods and Attributes (continued)
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Step 10 (Optional) If you chose Sticky as the primary action, in the Sticky Group field, choose an existing sticky
group or click *New* to add a new sticky group (Table 7-15).
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Note If you chose an existing sticky group, you can view, modify, or duplicate the selected object’s
existing configuration. See the “Shared Objects and Virtual Servers” section on page 7-9 for
more information about modifying shared objects in virtual servers.
Response Method that indicates that the ACE is to select the server with the lowest response time for a requested
response-time measurement.
a. In the Response Type field, choose the type of measurement to use:
– App-Req-To-Resp—The response time from when the ACE sends an HTTP request to a server
to the time that the ACE receives a response from the server for that request.
– Syn-To-Close—The response time from when the ACE sends a TCP SYN to a server to the
time that the ACE receives a CLOSE from the server.
– Syn-To-Synack—The response time from when the ACE sends a TCP SYN to a server to the
time that the ACE receives a SYN-ACK from the server.
b. In the Response Samples field, enter the number of samples over which you want to average the
results of the response-time measurement. Valid entries are 1, 2, 4, 8, and 16 (values from 1 to 16
that are also a power of 2).
c. In the Weight Connection field, check the check box to instruct the ACE to use the current
connection count in the final load calculation for a real server. When you configure this option, the
ACE includes the current connection count in the total load calculation for each real server in a
server farm. Uncheck the check box to reset the behavior of the ACE to the default of excluding the
current connection count from the load calculation.
Round Robin Method that indicates that the ACE is to select the next server in the list of servers based on server
weight. This is the default predictor method.
Table 7-14 Predictor Methods and Attributes (continued)
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Table 7-15 Sticky Group Attributes
Field Description
Group Name Unique identifier for the sticky group. You can either accept the automatically incremented entry that was
provided or you can enter your own. Valid entries are unquoted text strings with no spaces and a maximum
of 64 alphanumeric characters.
Type Method to be used when establishing sticky connections and configure any type-specific attributes:
Note The available selections listed in the Type drop-down list will vary depending on your selection for
Application Protocol in the Properties configuration subset (see Table 7-2). For example, if you
chose HTTP or HTTPS as the application protocol, only IP Netmask, HTTP Cookie, HTTP Header,
and HTTP Content appear as selections in the Type drop-down list.
• HTTP Content—The virtual server is to stick client connections to the same real server based on a
string in the data portion of the HTTP packet. See Table 9-2 for additional configuration options.
• HTTP Cookie—The virtual server is either to learn a cookie from the HTTP header of a client request
or to insert a cookie in the Set-Cookie header of the response from the server to the client, and then use
the learned cookie to provide stickiness between the client and server for the duration of the
transaction. See Table 9-3 for additional configuration options.
• HTTP Header—The virtual server is to stick client connections to the same real server based on HTTP
headers. See Table 9-4 for additional configuration options.
• IP Netmask—The virtual server is to stick a client to the same server for multiple subsequent
connections as needed to complete a transaction using the client source IPv4 address, the destination
IPv4 address, or both. See Table 9-5 for additional configuration options.
Note If an organization uses a megaproxy to load balance client requests across multiple proxy servers
when a client connects to the Internet, the source IP address is no longer a reliable indicator of the
true source of the request. In this situation, you can use cookies or another sticky method to ensure
session persistence.
• V6 Prefix—(Requires ACE module and ACE appliance software Version A5(1.0) or later) Indicates
that the virtual server is to stick a client to the same server for multiple subsequent connections as
needed to complete a transaction using the client source IPv6 address, the destination IPv6 address, or
both. See Table 9-6 for additional configuration options.
• Layer 4 Payload—The virtual server is to stick client connections to the same real server based on a
string in the payload portion of the Layer 4 protocol packet. See Table 9-7 for additional configuration
options.
• RADIUS—The virtual server is to stick client connections to the same real server based on a RADIUS
attribute.
• RTSP Header—The virtual server is to stick client connections to the same real server based on the
RTSP Session header field. Table 9-9 for additional configuration options.
• SIP Header—The virtual server is to stick client connections to the same real server based on the SIP
Call-ID header field.
Sticky Server
Farm
Existing server farm that is to act as the primary server farm for this sticky group. You can choose *New*
to create a new server farm. If you chose *New*, configure the server farm using the information in
Table 7-13.
Backup Server
Farm
Existing server farm that is to act as the backup server farm this sticky group. You can choose *New* to
create a new server farm. If you chose *New*, configure the server farm using the information in
Table 7-13.
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Step 11 (Optional) If you are using the ACE appliance (all versions) or ACE module version A4(1.0) and later,
in the Compression Method field, choose the HTTP compression method to indicate how the ACE
appliance is to compress packets when a client request indicates that the client browser is capable of
packet compression.
By default, HTTP compression is disabled in the ACE. When you configure HTTP compression using
the ACE, the appliance compresses data in the HTTP GET responses from the real servers. The ACE
does not compress HTTP requests from clients or the HTTP headers in the server responses.
Note By default, the ACE appliance supports HTTP compression at rates of 100 megabits per second
(Mbps). Installing an optional HTTP compression license allows you to increase this value to a
maximum of 2 Gbps. See the Cisco 4700 Series Application Control Engine Appliance
Administration Guide for information on ACE licensing options.
Options are as follows:
• Gzip—Specifies the gzip compression format as the method to use when the client browser supports
both the deflate and gzip compression methods. Gzip is the file format for compression described in
RFC1952.
• Deflate—Specifies the deflate compression format as the method to use when the client browser
supports both the deflate and gzip compression methods. Deflate is the data format for compression
described in RFC1951.
• N/A—HTTP compression is disabled.
Aggregate
State
Check box to indicate that the state of the primary server farm is to be tied to the state of all real servers in
the server farm and in the backup server farm, if configured. The ACE declares the primary server farm
down if all real servers in the primary server farm and all real servers in the backup server farm are down.
Uncheck the check box if the state of the primary server farm is not to be tied to all real servers in the server
farm and in the backup server farm.
Sticky Enabled
On Backup
Server Farm
Check box to indicate that the backup server farm is sticky. Uncheck the check box if the backup server
farm is not sticky.
Replicate On
HA Peer
Check box to indicate that the virtual server is to replicate sticky table entries on the backup server farm.
If a failover occurs and this option is selected, the new active server farm can maintain the existing sticky
connections.
Uncheck the check box to indicate that the virtual server is not to replicate sticky table entries on the backup
server farm.
Timeout
(Minutes)
Number of minutes that the virtual server keeps the sticky information for a client connection in the sticky
table after the latest client connection terminates. Valid entries are from 1 to 65535; the default is 1440
minutes (24 hours).
Timeout Active
Connections
Check box to specify that the virtual server is to time out sticky table entries even if active connections exist
after the sticky timer expires.
Uncheck the check box to specify that the virtual is not to time out sticky table entries even if active
connections exist after the sticky timer expires. This behavior is the default.
Table 7-15 Sticky Group Attributes (continued)
Field Description
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When configuring HTTP compression, we recommend that you exclude the following MIME types from
HTTP compression: “.*gif”, “.*css”, “.*js”, “.*class”, “.*jar”, “.*cab”, “.*txt”, “.*ps”, “.*vbs”, “.*xsl”,
“.*xml”, “.*pdf”, “.*swf”, “.*jpg”, “.*jpeg”, “.*jpe”, or “.*png”.
When you enable HTTP compression, the ACE compresses the packets using the following default
compression parameter values:
• Mime type—All text formats (text/*).
• Minimum size—512 bytes.
• User agent—None.
Step 12 In the SSL Initiation field, choose an existing service or choose *New* to create a new service, and do
one of the following:
• If you chose an existing SSL service, you can view, modify, or duplicate the existing configuration.
See the “Shared Objects and Virtual Servers” section on page 7-9 for more information about
modifying shared objects.
• If you chose *New*, configure the service using the information in Table 7-5. For more information
about SSL, see the “Configuring SSL” section on page 11-1.
Step 13 In the Insert HTTP Headers field, enter the name of the HTTP header and the value to be matched using
the header_name=header_value format where:
• header_name represents the name of the HTTP header to insert in the client HTTP request. Valid
entries are unquoted text strings with no spaces and a maximum of 64 alphanumeric characters. You
can specify predefined header or any custom header name provided that it does not exceed the
maximum length limit.
• header_value represents the expression string to compare against the value in the specified field in
the HTTP header. Valid entries are text strings with a maximum of 255 alphanumeric characters. The
ACE supports regular expressions for matching. Header expressions allow spaces, provided that the
spaces are escaped or quoted. All headers in the header map must be matched. Table 14-33 lists the
supported characters that you can use in regular expressions.
For example, you might enter Host=www.cisco.com.
Step 14 Do one of the following:
• Click OK to save your entries and to return to the Rule Match table.
• Click Cancel to exit this procedure without saving your entries and to return to the Rule Match table.
Step 15 If you are adding Rule Match entries for a new virtual server and you want to modify the sequence of
rules in the L7 Load Balancing section of the Virtual Server configuration page, click Up or Down to
change the order of the entries in the Rule Match table.
Note The Up and Down buttons are not available for an existing virtual server, only for a new virtual
server. To reorder the entries in the Rule Match table for an existing virtual server, go to Config
> Expert > Policy Maps and choose the Layer 7 load balancing policy map, delete the rule entry
that you want to reorder, and then add it again by using the Insert Before option to put it in the
correct order. See the “Configuring Rules and Actions for Policy Maps” section on page 14-34
for details.
Step 16 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries.
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• Click Deploy Later to save your entries and apply them at a later time.
Related Topics
• Configuring Virtual Servers, page 7-2
• Configuring Virtual Server Properties, page 7-11
• Configuring Virtual Server SSL Termination, page 7-17
• Configuring Virtual Server Protocol Inspection, page 7-18
Configuring Virtual Server Default Layer 7 Load Balancing
You can configure default Layer 7 load-balancing actions for all network traffic that does not meet
previously specified match conditions.
Assumption
Make sure that a virtual server has been configured in the Properties configuration subset. For more
information, see the “Configuring Virtual Server Properties” section on page 7-11. See the “Configuring
Virtual Servers” section on page 7-2 for information on configuring a virtual server.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Virtual Servers.
The Virtual Servers table appears.
Step 2 In the Virtual Servers table, choose the virtual server that you want to configure for default Layer 7 load
balancing, and click Edit.
The Virtual Server configuration window appears.
Step 3 In the Virtual Server configuration window, click Default L7 Load-Balancing Action.
The Default L7 Load-Balancing Action configuration pane appears.
Step 4 In the Primary Action field of the Default L7 Load-Balancing Action configuration pane, choose the
default action that the virtual server is to take in response to client requests for content when specified
match conditions are not met:
• Drop—Client requests that do not meet specified match conditions are to be discarded. Continue
with Step 9.
• Forward—Client requests that do not meet specified match conditions are to be forwarded without
performing load balancing on the requests. Continue with Step 9.
• Load Balance—Client requests for content are to be directed to a server farm. Continue with Step 6.
• Sticky—Client requests for content are to be handled by a sticky group when match conditions are
met. Continue with Step 7.
Step 5 (Optional) From the HTTP Header Modify Action List drop-down list, choose an existing Action List or
choose New to display the Action List configuration table and create a new one. For more information,
see the “Configuring an HTTP Header Modify Action List” section on page 14-85.
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Step 6 (Optional) If you chose Load Balance as the primary action, do the following:
a. In the Server Farm field, choose the primary server farm to use for load balancing, or choose *New*
to configure a new server farm (see Table 7-13).
Note To display statistics and status information for an existing server farm, choose a server farm
in the list, and then click Details. ANM accesses the show serverfarm name detail CLI
command to display detailed server farm information. See the “Displaying Server Farm
Statistics and Status Information” section on page 8-48.
b. In the Backup Server Farm field, choose the server farm to act as the backup server farm for load
balancing if the primary server farm is unavailable, or choose *New* to configure a new backup
server farm (see Table 7-13).
Note If you chose an existing object in either field, you can view, modify, or duplicate the selected
object’s existing configuration. See the “Shared Objects and Virtual Servers” section on
page 7-9 for more information about modifying shared objects in virtual servers.
Step 7 (Optional) If you chose Sticky as the primary action, in the Sticky Group field, choose an existing sticky
group or click *New* to add a new sticky group (see Table 7-15).
Note If you chose an existing sticky group, you can view, modify, or duplicate the selected object’s
existing configuration. See the “Shared Objects and Virtual Servers” section on page 7-9 for
more information about modifying shared objects in virtual servers.
Step 8 (Optional) If you are using the ACE appliance (all versions) or ACE module version A4(1.0) and later,
in the Compression Method field, choose the HTTP compression method to indicate how the ACE
appliance is to compress packets when a client request indicates that the client browser is capable of
packet compression.
By default, HTTP compression is disabled in the ACE. When you configure HTTP compression using
the ACE, the appliance compresses data in the HTTP GET responses from the real servers. The ACE
does not compress HTTP requests from clients or the HTTP headers in the server responses.
Note By default, the ACE appliance supports HTTP compression at rates of 100 megabits per second
(Mbps). Installing an optional HTTP compression license allows you to increase this value to a
maximum of 2 Gbps. See the Cisco 4700 Series Application Control Engine Appliance
Administration Guide for information on ACE licensing options.
Options are as follows:
• Deflate—Specifies the deflate compression format as the method to use when the client browser
supports both the deflate and gzip compression methods. deflate, the data format for compression
described in RFC1951.
• Gzip—Specifies the gzip compression format as the method to use when the client browser supports
both the deflate and gzip compression methods. Gzip is the file format for compression described in
RFC1952.
• N/A—HTTP compression is disabled.
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Note If you enable the Gzip or Deflate compression format, ANM automatically inserts a L7 Load
Balance Primary Action to exclude the MIME types listed above. However, if you disable HTTP
compression later on, you will need to remove the auto-inserted Load Balance Primary Action.
When you enable HTTP compression, the ACE compresses the packets using the following default
compression parameter values:
• Mime type—All text formats (text/*).
• Minimum size—512 bytes.
• User agent—None.
Step 9 In the SSL Initiation field, choose an existing service or choose *New* to create a new service:
• If you chose an existing SSL service, you can view, modify, or duplicate the existing configuration.
See the “Shared Objects and Virtual Servers” section on page 7-9 for more information about
modifying shared objects.
• If you chose *New*, configure the service using the information in Table 7-5. For more information
about SSL, see the “Configuring SSL” section on page 11-1.
Step 10 In the Insert HTTP Headers field, enter the name of the HTTP header and the value to be matched using
the header_name=header_value format where:
• header_name represents the name of the HTTP header to insert in the client HTTP request. Valid
entries are unquoted text strings with no spaces and a maximum of 64 alphanumeric characters. You
can specify predefined header or any custom header name provided that it does not exceed the
maximum length limit.
• header_value represents the expression string to compare against the value in the specified field in
the HTTP header. Valid entries are text strings with a maximum of 255 alphanumeric characters. The
ACE supports regular expressions for matching. Header expressions allow spaces, provided that the
spaces are escaped or quoted. All headers in the header map must be matched. Table 14-33 lists the
supported characters that you can use in regular expressions.
For example, you might enter Host=www.cisco.com.
Step 11 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Virtual Servers
table.
• Click Deploy Later to save your entries and apply the configuration at a later time.
Related Topics
• Configuring Virtual Server Properties, page 7-11
• Configuring Virtual Server SSL Termination, page 7-17
• Configuring Virtual Server Protocol Inspection, page 7-18
• Configuring Virtual Server Layer 7 Load Balancing, page 7-30
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Configuring Application Acceleration and Optimization
Note This option is available only for ACE appliances and only in the Advanced View.
You can configure acceleration and optimization on virtual servers that are configured on ACE
appliances. The ACE appliance includes configuration options that allow you to accelerate enterprise
applications, resulting in increased employee productivity, enhanced customer retention, and increased
online revenues. The application acceleration functions of the ACE appliance apply several optimization
technologies to accelerate Web application performance. This application acceleration functionality
enables enterprises to optimize network performance and improve access to critical business
information. It also accelerates the performance of Web applications, including customer relationship
management (CRM), portals, and online collaboration by up to 10 times.
See the “Configuring Application Acceleration and Optimization” section on page 15-1 or the Cisco
4700 Series Application Control Engine Appliance Application Acceleration and Optimization
Configuration Guide for more information about application acceleration and optimization.
Assumption
Make sure that a virtual server has been configured on an ACE appliance with HTTP or HTTPS as the
application protocol. See the “Configuring Virtual Servers” section on page 7-2 for information about
configuring a virtual server.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Virtual Servers.
The Virtual Servers table appears.
Step 2 In the Virtual Servers table, choose the virtual server that you want to configure for optimization, and
click Edit.
The Virtual Server configuration window appears.
Step 3 In the Virtual Server configuration window, click Application Acceleration And Optimization.
The Application Acceleration And Optimization configuration pane appears.
Step 4 In the Configuration field of the Application Acceleration And Optimization configuration pane, choose
the method that you want to use to configure application acceleration and optimization:
• EZ—Use standard acceleration and optimization options. Continue with Step 5.
• Custom—Associate specific match criteria, actions, and parameter maps for application
acceleration and optimization for the virtual server. If you choose this option, continue with Step 6
through Step 14.
Step 5 (Optional) If you chose EZ, the Latency Optimization (FlashForward) and Bandwidth Optimization
(Delta) fields appear.
Do the following:
a. Check the Latency Optimization (FlashForward) check box to specify that the ACE appliance is
to use bandwidth reduction and download acceleration techniques to objects embedded within
HTML pages. Uncheck the check box to specify that the ACE appliance is not to employ these
techniques to objects embedded within HTML pages. Latency optimization corresponds to
FlashForward functionality. For more information about FlashForward functionality, see the
“Optimization Overview” section on page 15-2.
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b. Check the Bandwidth Optimization (Delta) check box to specify that the ACE appliance is to
dynamically update client browser caches with content differences, or deltas. Uncheck the check
box to specify that the ACE appliance is not to dynamically update client browser caches.
Bandwidth optimization corresponds to action list Delta optimization. For more information about
configuring Delta optimization, see the “Optimization Overview” section on page 15-2 and the
“Configuring an HTTP Optimization Action List” section on page 15-3.
c. Continue with Step 14.
Step 6 (Optional) If you chose Custom, the Actions configuration pane appears with a table listing match
criteria and actions.
Click Add to add an entry to this table or choose an existing entry, and click Edit to modify it. The
configuration pane refreshes with the available configuration options.
Step 7 In the Apply Building Block field, choose one of these configuration building blocks for the type of
optimization that you want to configure, or leave the field blank to configure optimization without a
building block:
• Bandwidth Optimization—Maximizes bandwidth for Web-based traffic.
• Latency Optimization for Embedded Objects—Reduces the latency associated with embedded
objects in Web-based traffic.
• Latency Optimization for Embedded Images—Reduces the latency associated with embedded
images in Web-based traffic.
• Latency Optimization for Containers—Reduces the latency associated with Web containers.
If you chose one of the building blocks, the Rule Match configuration subset displays the configuration
options with selections based on the building block chosen. You can accept the entries as they are or
modify them.
If you do not choose a building block, additional configuration options appear depending on the features
you enable.
Step 8 In the Rule Match field, choose an existing class map or click *New* to specify new match criteria, and
do one of the following:
• If you chose an existing class map, you can view, modify, or duplicate the existing configuration.
See the “Shared Objects and Virtual Servers” section on page 7-9 for more information about
modifying shared objects.
• If you click *New*, the window refreshes so that you can enter new match criteria.
Step 9 Configure match criteria using the information in Table 7-16.
Table 7-16 Optimization Match Criteria Configuration
Field Description/Action
Name Unique name for this match criteria rule.
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Step 10 In the Actions field, choose an existing action list to use for optimization or click *New* to create a new
action list, and do one of the following:
• If you chose an existing action list, you can view, modify, or duplicate the existing configuration.
See the “Shared Objects and Virtual Servers” section on page 7-9 for more information about
modifying shared objects.
• If you click *New*, the window refreshes so you can configure an action list.
Step 11 Configure the action list using the information in Table 7-17.
Match Method to be used to evaluate multiple match statements when multiple match conditions exist:
• match-any—A match exists if at least one of the match conditions is satisfied.
• match-all—A match exists only if all match conditions are satisfied.
Conditions Field that allows you to add a new set of conditions or choose an existing entry. Click Add to add a new set
of conditions, or choose an existing entry and click Edit to modify it:
a. In the Type field, choose the match condition to be used, then configure any condition-specific options
using the information in Table 7-12.
b. Click OK to save your entries, or Cancel to exit this procedure without saving your entries.
Table 7-16 Optimization Match Criteria Configuration (continued)
Field Description/Action
Table 7-17 Optimization Action List Configuration Options
Field Description
Action List Name Unique name for the action list. Valid entries are unquoted text strings with a maximum of 64
alphanumeric characters.
Enable Delta Check box that enables delta optimization for the specified URLs. Delta optimization that dynamically
updates client browser caches directly with content differences, or deltas, resulting in faster page
downloads.
Uncheck the check box to disable this feature.
If you are configuring optimization without a building block, additional options appear. Configure these
options using the information in Table 7-18.
Enable AppScope Check box that enables AppScope performance monitoring for use with the ACE appliance. AppScope
runs on the Management Console of the optional Cisco AVS 3180A Management Station and measures
end-to-end application performance.
Uncheck the check box to disable this feature.
If you are configuring optimization without a building block, additional options appear. Configure these
options using the information in Table 7-18.
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Flash Forward Feature that reduces bandwidth usage and accelerates embedded object downloading by combining local
object storage with dynamic renaming of embedded objects, which enforces object freshness within the
parent HTML page.
Choose how the ACE appliance is to implement FlashForward:
• N/A—This feature is not enabled.
• Flash Forward—FlashForward is to be enabled for the specified URLs and embedded objects are
to be transformed.
• Flash Forward Object—FlashForward static caching is to be enabled for the objects that the
corresponding URLs refer to, such as Cascading Style Sheets (CSS), JPEG, and GIF files.
If you are configuring without a building block and chose either FlashForward or FlashForward Object,
an addition option appears. Configure this option using the information in Table 7-18.
Cache Dynamic Check box that enables Adaptive Dynamic Caching for the specified URLs even if the expiration settings
in the response indicate that the content is dynamic. The expiration of cache objects is controlled by the
cache expiration settings based on time or server load.
Uncheck the check box to disable this feature.
Cache Forward Field that specifies how the ACE appliance is to implement cache forwarding:
• N/A—This feature is not enabled.
• With Wait—Cache forwarding is enabled with the wait option for the specified URLs. If the object
has expired but the maximum cache TTL time period has not yet expired, the ACE appliance sends
a request to the origin server for the object. Users requesting this page continue to receive content
from the cache during this time but must wait for the object to be updated before their request is
satisfied. When the fresh object is returned, it is sent to the requesting user and the cache is updated.
• Without Wait—Cache forwarding is enabled without the wait option.
Dynamic Entity
Tag
Check box that specifies that the ACE appliance is to implement just-in-time object acceleration for
embedded objects not able to be cached. This feature enables the acceleration of embedded objects not
able to be cached, which results in improved application response time. When enabled, this feature
eliminates the need for users to download objects not able to be cached on each request.
Uncheck the check box to disable this feature.
Table 7-17 Optimization Action List Configuration Options (continued)
Field Description
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Step 12 (Optional) If you are configuring optimization without a building block, additional options appear when
you enable specific features.
Configure the additional options using the information in Table 7-18.
Table 7-18 Application Acceleration and Optimization Additional Configuration Options
Field Description
Response Codes To
Ignore (Comma
Separated)
Comma-separated list of HTTP response codes for which the response body must not be read. For
example, an entry of 302 indicates that the ACE is to ignore the response body of a 302 (redirect)
response from the origin server. Valid entries are unquoted text strings with a maximum of 64
alphanumeric characters.
Set Browse Freshness
Period
Method that the ACE is to use to determine the freshness of objects in the client’s browser:
• N/A—This option is not configured.
• Disable Browser Object Freshness Control—Browser freshness control is not to be used.
• Set Freshness Similar To Flash Forward Objects—The ACE is to set freshness similar to
that used for FlashForwarded objects, and to use the values specified in the Maximum Time
for Cache Time-To-Live and Minimum Time For Cache Time-To-Live fields.
Duration For Browser
Freshness (Seconds)
Field that appears if the Set Browser Freshness Period option is not configured.
Enter the number of seconds that objects in the client’s browser are considered fresh. Valid entries
are 0 to 2147483647 seconds.
Enable Delta Options
Max. For Post Data To
Scan For Logging
(kBytes)
Maximum number of kilobytes of POST data the ACE is to scan for parameters for the purpose of
logging transaction parameters in the statistics log.
Valid entries are 0 to 1000 KB.
Base File Anonymous
Level
Feature that enables the ACE to create and deliver condensed base files that contain only
information that is common to a large set of users. No information unique to a particular user, or
across a very small subset of users, is included in anonymous base files.
Information that is common to a large set of users is generally not confidential or user-specific.
Conversely, information that is unique to a specific user or a small set of users is generally
confidential or user-specific.
Enter the value for base file anonymity for the all-user condensation method. Valid entries are from
0 to 50; the default value of 0 disables the base file anonymity feature.
Cache-Key Modifier
Expression
Unique identifier that is used to identify a cached object to be served to a client, replacing a trip
to the origin server. The cache key modifier feature allows you to modify the canonical form of a
URL; that is, the portion before “?” in a URL. For example, the canonical URL of
http://www.xyz.com/somepage.asp?action=browse&level=2 is
http://www.xyz.com/somepage.asp.
Enter a regular expression containing embedded variables as described in Table 7-19. The ACE
transforms URLs specified in class maps for this virtual server with the expression and variable
entered here.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters. If the string includes spaces, enclose the string with quotation marks (“).
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Min. Time For Cache
Time-To-Live
(Seconds)
Minimum number of seconds that an object without an explicit expiration time should be
considered fresh in the ACE cache. This value specifies the minimum time that content can be
cached. If the ACE is configured for FlashForward optimization, this value should normally be 0.
If the ACE is configured for dynamic caching, this value should indicate how long the ACE should
cache the page. (See Table 7-17 for information about these configuration options.)
Valid entries are 0 to 2147483647 seconds.
Max. Time For Cache
Time-To-Live
(Seconds)
Maximum number of seconds that an object without an explicit expiration time should be
considered fresh in the ACE cache. Valid entries are 0 to 2147483647 seconds.
Cache Time-To-Live
Duration (%)
Percent of an object’s age at which an embedded object without an explicit expiration time is
considered fresh.
Valid entries are 0 to 100 percent.
Expression To Modify
Cache Key Query
Parameter
Feature that allows you to modify the query parameter of a URL; that is, the portion after “?” in a
URL. For example, the query parameter portion of
http://www.xyz.com/somepage.asp?action=browse&level=2 is action=browse&level=2.
Enter a regular expression containing embedded variables as described in Table 7-19. The ACE
transforms URLs specified in class maps for this virtual server with the expression and variable
entered here. If no string is specified, the query parameter portion of the URL is used as the default
value for this portion of the cache key.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters.
Canonical URL
Expressions
Canonical URL feature to eliminate the “?” and any characters that follow to identify the general
part of the URL. This general URL is then used to create the base file. In this way, the ACE maps
multiple URLs to a single canonical URL.
Enter a comma-separated list of parameter expander functions as defined in Table 7-19 to identify
the URLs to associate with this parameter map.
Valid entries are unquoted text strings with a maximum of 255 alphanumeric characters.
Enable Cacheable
Content Optimization
Check box that enables delta optimization of content that can be cached. This feature allows the
ACE to detect content that can be cached and perform delta optimization on it.
Uncheck the check box to disable this feature.
Enable Delta
Optimization On First
Visit To Web Page
Check box that enables condensation on the first visit to a Web page. Uncheck the check box to
disable this feature.
Min. Page Size For
Delta Optimization
(Bytes)
Minimum page size, in bytes, that can be condensed. Valid entries are from 1 to 250000 bytes.
Max. Page Size For
Delta Optimization
(Bytes)
Maximum page size, in bytes, that can be condensed. Valid entries are from 1 to 250000 bytes.
Table 7-18 Application Acceleration and Optimization Additional Configuration Options (continued)
Field Description
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Set Default Client
Script
Scripting language that the ACE is to recognize on condensed content pages:
• N/A—Indicates that this option is not configured.
• Javascript—Indicates that the default scripting language is JavaScript.
• Visual Basic Script—Indicates that the default scripting language is Visual Basic.
Exclude Iframes From
Delta Optimization
Check box to specify that delta optimization is not to be applied to IFrames (inline frames).
Uncheck the check box to indicate that delta optimization is to be applied to IFrames.
Exclude Non-ASCII
Data From Delta
Optimization
Check box to specify that delta optimization is not to be applied to non-ASCII data. Uncheck the
check box to indicate that delta optimization is to be applied to non-ASCII data.
Exclude JavaScripts
From Delta
Optimization
Check box to specify that delta optimization is not to be applied to JavaScript. Uncheck the check
box to indicate that delta optimization is to be applied to JavaScript.
MIME Types To
Exclude From Delta
Optimization
a. In the first field, enter a comma-separated list of the MIME (Multipurpose Internet Mail
Extension) type messages that are not to have delta optimization applied, such as image/Jpeg,
text/html, application/msword, or audio/mpeg. See the “Supported MIME Types” section on
page 10-26 for a list of supported MIME types.
b. Click Add to add the entry to the list box on the right. You can position the entries in the list
box by using the Up and Down buttons.
Remove HTML META
Elements From
Documents
Check box to specify that HTML META elements are to be removed from documents to prevent
them from being condensed. Uncheck the check box to indicate that HTML META elements are
not to be removed from documents.
Rebase Delta
Optimization Threshold
(%)
Delta threshold, expressed as a percent, when rebasing is to be triggered. This entry represents the
size of a page delta relative to total page size, expressed as a percent. This entry triggers rebasing
when the delta response size exceeds the threshold as a percentage of base file size.
Valid entries are 0 to 10000 percent.
Rebase Flash Forward
Threshold (%)
Threshold, expressed as a percent, when rebasing is to be triggered based on the percent of
FlashForwarded URLs in the response. This entry triggers rebasing when the difference between
the percentages of FlashForwarded URLs in the delta response and the base file exceeds the
threshold.
Valid entries are 0 to 10000 percent.
Rebase History Size
(Pages)
Number of pages to be stored before the ACE resets all rebase control parameters to zero and starts
over. This option prevents the base file from becoming too rigid.
Valid entries are 10 to 2147483647.
Rebase Modify
Cool-Off Period
(Seconds)
Number of seconds after the last modification before performing a rebase.
Valid entries are 1 to 14400 seconds (4 hours).
Rebase Reset Period
(Seconds)
Period of time, in seconds, for performing a meta data refresh.
Valid entries are 1 to 900 seconds (15 minutes).
Table 7-18 Application Acceleration and Optimization Additional Configuration Options (continued)
Field Description
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UTF-8 Character Set
Threshold
Number of 8-bit Unicode Transformation Format (UTF-8) characters that need to appear on a page
to create a UTF-8 character set page. The UTF-8 character set is an international standard that
allows Web pages to display non-ASCII or non-English multibyte characters. It can represent any
universal character in the Unicode standard and is backwards compatible with ASCII.
Valid entries are from 1 to 1,000,000.
Server Load Threshold
Trigger (%)
Threshold, expressed as a percent, at which the TTL for cached objects is to be changed. The
server load threshold trigger indicates that the time-to-live (TTL) period for cached objects is to
be based dynamically on server load. With this method, TTL periods increase if the current
response time from the origin sever is greater than the average response time and decrease if the
current response time from the origin server is less than the average response time when the
difference in response times exceeds a specified threshold amount.
Valid entries are from 0 to 100 percent.
Server Load
Time-To-Live Change
(%)
Percentage by which the cache TTL is to be increased or decreased when the server load threshold
trigger is met. This option specifies the percentage by which the cache TTL is increased or
decreased in response to a change in server load. For example, if this value is set to 20 and the
current TTL for a response is 300 seconds, and if the current server response times exceeds the
trigger threshold, the cache TTL for the response is raised to 360 seconds.
Valid entries are from 0 to 100 percent.
Delta Optimization
Mode
Method by which delta optimization is to be implemented:
• N/A—Indicates that a delta optimization mode is not configured.
• Enable The All-User Mode For Delta Optimization—Indicates that the ACE is to generate
the delta against a single base file that is shared by all users of the URL. This option is usable
in most cases if the structure of a page is common across all users, and the disk space overhead
is minimal.
• Enable The Per-User Mode For Delta Optimization—Indicates that the ACE is to generate
the delta against a base file that is created specifically for that user. This option is useful when
page contents, including layout elements, are different for each user, and delivers the highest
level of condensation. However, this increases disk space requirements because a copy of the
base page that is delivered to each user is cached. This option is useful when privacy is
required because base pages are not shared among users.
Enable Appscope Options
Appscope Optimize
Rate (%)
Percentage of all requests or sessions to be sampled for performance with acceleration (or
optimization) applied. All applicable optimizations for the class will be performed. Valid entries
are from 0 to 100 percent, with a default of 10 percent. The sum of this value and the value entered
in the Passtthrough Rate Percent field must not exceed 100.
Appscope Passthrough
Rate (%)
Percentage of all requests or sessions to be sampled for performance without optimization. No
optimizations for the class will be performed. Valid entries are from 0 to 100, with a default of 10
percent. The sum of this value and the value entered in the Optimize Rate Percent field must not
exceed 100.
Table 7-18 Application Acceleration and Optimization Additional Configuration Options (continued)
Field Description
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Table 7-19 lists the parameter expander functions that you can use.
Max Number For
Parameter Summary
Log (Bytes)
Maximum number of bytes that are to be logged for each parameter value in the parameter
summary of a transaction log entry in the statistics log. If a parameter value exceeds this limit, it
is truncated at the specified limit. Valid entries are 0 to 10,000 bytes.
Specify String For
Grouping Requests
String that the ACE is to use to sort requests for AppScope reporting. The string can contain a URL
regular expression that defines a set of URLs in which URLs that differ only by their query
parameters are to be treated as separate URLs in AppScope reports.
For example, to define a string that is used to identify the URLs
http://server/catalog.asp?region=asia and http://server/catalog.asp?region=america as two
separate reporting categories, you would enter http_query_param(region).
Valid entries contain 1 to 255 characters and can contain the parameter expander functions listed
in Table 7-19.
Table 7-18 Application Acceleration and Optimization Additional Configuration Options (continued)
Field Description
Table 7-19 Parameter Expander Functions
Variable Description
$(number) Expands to the corresponding matching subexpression (by number)
in the URL pattern. Subexpressions are marked in a URL pattern
using parentheses (). The numbering of the subexpressions begins
with 1 and is the number of the left-parenthesis “(“ counting from
the left. You can specify any positive integer for the number. $(0)
matches the entire URL. For example, if the URL pattern is
((http://server/.*)/(.*)/)a.jsp, and the URL that matches it is
http://server/main/sub/a.jsp?category=shoes&session=99999, then
the following are correct:
$(0) = http://server/main/sub/a.jsp
$(1) = http://server/main/sub/
$(2) = http://server/main
$(3) = sub
If the specified subexpression does not exist in the URL pattern,
then the variable expands to the empty string.
$http_query_string() Expands to the value of the whole query string in the URL. For
example, if the URL is
http://myhost/dothis?param1=value1¶m2=value2, then the
following is correct:
$http_query_string() = param1=value1¶m2=value2
This function applies to both GET and POST requests.
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$http_query_param(query-param-name)
The obsolete syntax is also supported:
$param(query-param-name)
Expands to the value of the named query parameter (case-sensitive).
For example, if the URL is
http://server/main/sub/a.jsp?category=shoes&session=99999, then
the following are correct:
$http_query_param(category) = shoes
$http_query_param(session) = 99999
If the specified parameter does not exist in the query, then the
variable expands to the empty string. This function applies to both
GET and POST requests.
$http_cookie(cookie-name) Evaluates to the value of the named cookie. For example,
$http_cookie(cookiexyz). The cookie name is case-sensitive.
$http_header(request-header-name) Evaluates to the value of the specified HTTP request header. In the
case of multivalued headers, it is the single representation as
specified in the HTTP specification. For example,
$http_header(user-agent). The HTTP header name is not
case-sensitive.
$http_method() Evaluates to the HTTP method used for the request, such as GET or
POST.
Boolean Functions:
$http_query_param_present(query-param-name)
$http_query_param_notpresent(query-param-name)
$http_cookie_present(cookie-name)
$http_cookie_notpresent(cookie-name)
$http_header_present(request-header-name)
$http_header_notpresent(request-header-name)
$http_method_present(method-name)
$http_method_notpresent(method-name)
Evaluates to a Boolean value: True or False, depending on the
presence or absence of the element in the request. The elements are
a specific query parameter (query-param-name), a specific cookie
(cookie-name), a specific request header (request-header-name), or
a specific HTTP method (method-name). All identifiers are
case-sensitive except for the HTTP request header name.
$regex_match(param1, param2) Evaluates to a Boolean value: True if the two parameters match and
False if they do not match. The two parameters can be any two
expressions, including regular expressions, that evaluate to two
strings. For example, this function:
$regex_match($http_query_param(URL), .*Store\.asp.*)
compares the query URL with the regular expression string
.*Store\.asp.*
If the URL matches this regular expression, this function evaluates
to True.
Table 7-19 Parameter Expander Functions (continued)
Variable Description
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Step 13 When you finish configuring match criteria and actions, do one of the following:
• Click OK to save your entries and to return to the Rule Match and Actions table.
• Click Cancel to exit this procedure without saving your entries and to return to the Rule Match and
Actions table.
Step 14 When you finish configuring virtual server properties, do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The ACE appliance validates the action list
configuration and deploys it.
• Click Cancel to exit this procedure without saving your entries and to return to the Virtual Servers
table.
• Click Deploy Later to save your entries and apply the configuration at a later time.
Related Topics
• Optimization Traffic Policies and Typical Configuration Flow, page 15-2
• Configuring Traffic Policies for HTTP Optimization, page 15-6
• Configuring Virtual Server Protocol Inspection, page 7-18
• Configuring Virtual Server Layer 7 Load Balancing, page 7-30
• Configuring Virtual Server Default Layer 7 Load Balancing, page 7-50
Configuring Virtual Server NAT
You can configure Name Address Translation (NAT) for virtual servers.
Assumptions
This topic assumes the following:
• Make sure that a virtual server has been configured in the Properties configuration subset. For more
information, see the “Configuring Virtual Server Properties” section on page 7-11
• Make sure that a VLAN has been configured. See the “Configuring Virtual Context VLAN
Interfaces” section on page 12-6 for information on configuring a VLAN interface.
• Make sure that at least one NAT pool has been configured on a VLAN interface. See the
“Configuring VLAN Interface NAT Pools” section on page 12-26 for information on configuring a
NAT pool.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Virtual Servers.
The Virtual Servers table appears.
Step 2 In the Virtual Servers table, choose the virtual server you want to configure for NAT, and click Edit.
The Virtual Server configuration window appears.
Step 3 In the Virtual Server configuration window, click NAT.
The NAT table appears.
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Step 4 In the NAT table, click Add to add an entry, or choose an existing entry and click Edit to modify it.
Step 5 In the VLAN drop-down list, choose the VLAN that you want to use for NAT.
VLANs that have previously been defined for NAT do not appear in this list. VLAN numbers provide an
indication of available NAT pools.
Step 6 In the NAT Pool ID drop-down list, choose the NAT pool that you want to associate with the selected
VLAN.
Note the following about the NAT pool ID selections:
NAT Pool IDs (Begin IP - End IP: Netmask: PAT) appear in a format that provides the details of the
beginning and ending IP address range, netmask, and the PAT enabled or disabled setting. For example:
2 (10.77.241.2 - 10.77.241.15: 255.255.255.192: PAT Enabled).
If the NAT pool had previously been associated but is no longer defined, then it appears as
“ (Warning: Undefined NAT Pool)”. For example:
2 (Warning: Undefined NAT Pool)
For more information about NAT pools, see the “Configuring VLAN Interface NAT Pools” section on
page 12-26.
Step 7 Do one of the following:
• Click OK to save your entries and to return to the NAT table. The NAT table refreshes with the new
entry.
• Click Cancel to exit the procedure without saving your entries and to return to the NAT table.
Step 8 When you finish configuring virtual server properties, do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Virtual Servers
table.
• Click Deploy Later to save your entries and apply the configuration at a later time.
Related Topics
• Configuring Virtual Servers, page 7-2
• Configuring Virtual Server Properties, page 7-11
• Configuring Virtual Server SSL Termination, page 7-17
• Configuring Virtual Server Protocol Inspection, page 7-18
• Configuring Virtual Server Layer 7 Load Balancing, page 7-30
• Configuring Virtual Server Default Layer 7 Load Balancing, page 7-50
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Displaying Virtual Servers by Context
You can display all virtual servers associated with a virtual context.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 In the device tree, choose the context associated with the virtual servers that you want to display, and
choose Load Balancing > Virtual Servers.
Table 7-20 describes the information that displays.
Related Topics
• Configuring Virtual Servers, page 7-2
• Managing Virtual Servers, page 7-66
• Displaying Detailed Virtual Server Information, page 7-81
• Displaying Virtual Servers, page 7-81
Displaying Virtual Server Statistics and Status Information
You can display virtual server statistics and status information for a particular virtual server by using the
Details button.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Virtual Servers.
The Virtual Servers table appears.
Table 7-20 Virtual Servers Window
Field Description
Name Virtual server name.
Configured State Current configured state, such as In Service or Out Of Service.
Operational State Current operating state (if known), such as In Service or Out Of Service.
Last Polled Date and time that ANM last polled the virtual server for backup statistics.
VIP Address Virtual server IP address.
Port Port that the virtual server uses for TCP or UDP.
VLANs Associated VLANs.
Server Farms Associated server farms.
Owner Owner and context in which the virtual server was created
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Step 2 From the Virtual Servers table, choose a virtual server and click Details.
A popup window appears that displays the show service-policy policy_name class-map class_name
detail CLI command output. For details about the displayed fields, see either the Cisco ACE Module
Server Load-Balancing Configuration Guide or the Cisco ACE 4700 Series Appliance Server
Load-Balancing Configuration Guide.
Note This feature requires ACE module software Version A2(1.2), ACE appliance software Version
A3(2.1), or later versions of either software. An error displays with earlier software versions.
Step 3 Click Update Details to refresh the window information.
Step 4 Click Close to return to the Virtual Servers table.
Related Topics
• Configuring Virtual Servers, page 7-2
• Managing Virtual Servers, page 7-66
• Displaying Detailed Virtual Server Information, page 7-81
• Displaying Virtual Servers, page 7-81
Managing Virtual Servers
This section shows how to display and manage the virtual servers from the Virtual Servers window
(Config > Operations > Virtual Servers). This window provides you with information about each virtual
server configured on ANM (see the “Displaying Virtual Servers” section on page 7-81) and provides
access to function buttons that allow you to perform tasks such as activate or suspend a virtual server,
display a virtual server topology map, or display connection statistics graphs.
This section also shows how to display and manage GSS VIP answers (Config > Operations > GSS VIP
Answers) and GSS DNS rules (Config > Operations > GSS DNS Rules).
Guidelines and Restrictions
The Virtual Servers, GSS VIP Answers, and GSS DNS Rules Operations windows contain a Rows per
page option that includes an All setting for displaying all related configured items in one window. Use
the All setting for viewing purposes only. ANM does not allow you to perform any operation from an
Operations window if you have more than 200 items selected. For example, if you use the All option to
display and select more than 200 virtual servers and then attempt to perform the suspend operation,
ANM cancels the request and displays an error message.
This section includes the following topics:
• Managing Virtual Server Groups, page 7-67
• Activating Virtual Servers, page 7-71
• Suspending Virtual Servers, page 7-72
• Managing GSS VIP Answers, page 7-73
• Activating and Suspending DNS Rules Governing GSS Load Balancing, page 7-75
• Managing GSS VIP Answer and DNS Rule Groups, page 7-76
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• Displaying Detailed Virtual Server Information, page 7-81
• Displaying Virtual Servers, page 7-81
• Using the Virtual Server Connection Statistics Graph, page 7-84
• Using the Virtual Server Topology Map, page 7-85
• Understanding CLI Commands Sent from Virtual Server Table, page 7-86
Managing Virtual Server Groups
This section describes how to organize virtual servers into groups, which allows you to display and
manage a specific group of virtual servers without having to filter the virtual server display. When
creating a group, you specify whether the group is available to just you or is available globally to all
ANM users.
The virtual server group feature is available from the virtual servers operations window (Config >
Operations > Virtual Servers), which contains the Groups option for managing object groups. Figure 7-1
shows the Groups icon with the following available options for managing object groups:
• Create New Group—Adds a new group.
• Edit Group—Modifies an existing group. This option displays only after you select a group to
display in Group mode.
• Exit Group Mode—Changes the display from the group mode display to the display of all virtual
servers. This option displays only after you select a group and the display enters the Group mode.
• Saved Groups—Lists the currently configured groups along with each group’s privilege level (local
or global) and owner. From this view, you can choose a group to display or delete a group.
Figure 7-1 Object Grouping for Virtual Servers
Guidelines and Restrictions
Object grouping guidelines and restrictions are as follows:
• When you create a global group, other users can see the group if they have access to at least one
object within the group. This rule does not apply to the admin user or a user with the anm-admin
role because they have visibility to all global groups.
• To edit or delete a group, you must be the group owner, a user with the anm-admin role, or the admin
user.
• When you delete a locally authenticated user from the ANM database, ANM deletes all the global
and user-specific groups that the user created. However, when you delete a remotely authorized user
from the remote AAA server database, ANM does not delete the groups that the user created. In this
case, you must manually delete the user’s groups.
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This section includes the following topics:
• Creating a Virtual Server Group, page 7-68
• Editing or Copying a Virtual Server Group, page 7-69
• Displaying a Virtual Server Group, page 7-70
• Deleting a Virtual Server Group, page 7-70
Creating a Virtual Server Group
You can create a virtual server group.
Procedure
Step 1 Choose Config > Operations > Virtual Servers.
The Virtual Servers table appears.
Step 2 Click the Groups icon located above the Virtual Servers table.
The Groups menu appears below the icon (see Figure 7-1).
Step 3 From the Groups menu, choose Create New Group.
The display enters the edit mode and the Creating a New Group table appears with the list of the available
virtual servers.
Step 4 From the Creating a New Group table, check the check box next to the virtual servers that you want to
include in the group.
Step 5 (Optional) Check the Hide unselected check box to display only the virtual servers that you have
chosen. Uncheck the check box to display all the available virtual servers.
Step 6 Do one of the following:
• Click Save as to save the group information. The Create Group popup window appears.
From the popup window, do the following:
a. In the Group Name text box, enter a name for the group. Enter 1 to 64 alphanumeric characters.
Special characters and spaces are allowed.
b. Choose the availability of the group by clicking one of the following radio buttons:
– This user only (local)—Only you can view, modify, or delete the group.
– All users (global)—All ANM users can view the group if they have permission to view at least
one of the virtual servers associated with the group. A user with the admin or anm-admin can
view all groups and can also edit or delete any group.
c. Do one of the following:
– Click Save to save the group information. The Create Group popup window closes and the
Viewing Group table appears, displaying the new group’s name and associated virtual servers.
To exit Group mode and return to the Virtual Servers table, click the Groups icon and click Exit
Group Mode from the Groups menu.
– Click Cancel to close the Create Group popup window without saving any information and
return to the Creating a New Group table.
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• Click Back to View to exit the Group display mode and return to the Virtual Servers table.
Related Topics
• Managing Virtual Server Groups, page 7-67
• Editing or Copying a Virtual Server Group, page 7-69
• Displaying a Virtual Server Group, page 7-70
• Deleting a Virtual Server Group, page 7-70
Editing or Copying a Virtual Server Group
You can edit a virtual server group or create a copy of a virtual server group under a different name.
Procedure
Step 1 Choose Config > Operations > Virtual Servers.
The Virtual Servers table appears.
Step 2 Click the Groups icon located above the Virtual Servers table.
The Groups menu appears below the icon (see Figure 7-1).
Step 3 From the Groups menu, choose the group that you want to edit.
The Viewing Group table appears, displaying the selected group’s name and associated virtual servers.
Step 4 Click the Groups icon again and from the Groups menu, choose Edit Group.
The Editing Group table appears, displaying the complete list of available virtual servers with the virtual
servers currently associated with the group highlighted and checked.
Step 5 Modify the group as needed by adding (check) or removing (uncheck) virtual servers as needed. Skip
this step if you only want to save a copy of the current group under a different name.
Step 6 Do one of the following:
• Click Save to save the changes and return to the Viewing Group table, where you can view the
changes.
• Click Save as to save the configuration under a new group name. The Create Group popup window
appears.
From the popup window, do the following:
a. In the Group Name text box, enter a name for the group. Enter 1 to 64 alphanumeric characters.
Special characters and spaces are allowed.
b. Choose the availability of the group by clicking one of the following radio buttons:
– This user only (local)—Only you can view, modify, or delete the group.
– All users (global)—All ANM users can view the group if they have permission to view at least
one of the virtual servers associated with the group. The admin user or a user with the
anm-admin role can view all global groups and can also edit or delete these groups.
c. Do one of the following:
– Click Save to save the group information. The Create Group popup window closes and the
Viewing Group table appears, displaying the new group’s name and associated virtual servers.
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– Click Cancel to close the Create Group popup window without saving any information and to
return to the Creating a New Group table.
Click Back to View to exit the edit mode and return to the Group mode.
Step 7 (Optional) To exit Group mode and return to the Virtual Servers table, click the Groups icon and click
Exit Group Mode from the Groups menu.
Related Topics
• Managing Virtual Server Groups, page 7-67
• Creating a Virtual Server Group, page 7-68
• Displaying a Virtual Server Group, page 7-70
• Deleting a Virtual Server Group, page 7-70
Displaying a Virtual Server Group
You can display the list of virtual servers associated with a virtual server group.
Procedure
Step 1 Choose Config > Operations > Virtual Servers.
The Virtual Servers table appears.
Step 2 Click the Groups icon located above the Virtual Servers table.
The Groups menu appears below the icon (see Figure 7-1).
Step 3 From the Groups menu, choose the group that you want to display.
The Viewing Group table appears, displaying the selected group’s name and associated virtual servers.
Step 4 (Optional) To exit Group mode and return to the Virtual Servers table, click the Groups icon and click
Exit Group Mode from the Groups menu.
Related Topics
• Managing Virtual Server Groups, page 7-67
• Creating a Virtual Server Group, page 7-68
• Editing or Copying a Virtual Server Group, page 7-69
• Deleting a Virtual Server Group, page 7-70
Deleting a Virtual Server Group
You can delete a virtual server group. Deleting a virtual server group does not delete the group’s
associated virtual servers from the ANM database.
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Procedure
Step 1 Choose Config > Operations > Virtual Servers.
The Virtual Servers table appears.
Step 2 Click the Groups icon located above the Virtual Servers table.
The Groups menu appears below the icon (see Figure 7-1).
Step 3 From the Groups menu, click X (delete) next to the group that you want to delete.
The Delete Group confirmation popup window appears.
Step 4 From the Delete Group confirmation popup window, do one of the following:
• Click Delete to removes the virtual server group.
• Click Cancel to ignore the deletion request.
Related Topics
• Managing Virtual Server Groups, page 7-67
• Creating a Virtual Server Group, page 7-68
• Editing or Copying a Virtual Server Group, page 7-69
• Displaying a Virtual Server Group, page 7-70
Activating Virtual Servers
You can activate a virtual server.
Note A missing operation or Admin state on a CSM or CSS device most likely means that the community
string was not enabled on those devices. If the community string is not enabled on a CSM or CSS device,
and any kind of operation is performed on those devices, it will not succeed, and ANM will not provide
any kind of indication.
• For CSM devices, you must enable the community string of the Catalyst 6500 series chassis.
• For CSS devices, you must enable the community string of the CSS device itself.
Guidelines and Restrictions
ANM does not support CSM DNS virtual servers. If you create this type of virtual server, ANM issues
an error message if you attempt to use ANM to activate or suspend it.
Procedure
Step 1 Choose Config > Operations > Virtual Servers.
The Virtual Servers table appears.
Step 2 (Optional) To display only the virtual servers of a specific virtual server group, do the following:
a. Click the Groups icon located above the Virtual Servers table. The Groups menu appears below the
icon (see Figure 7-1).
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b. From the Groups menu, choose the group to display.
Step 3 In the Virtual Servers table, choose the virtual server that you want to activate, and click Activate.
The server is activated and the window refreshes with updated information in the Configured State
column.
Related Topics
• Managing Virtual Servers, page 7-66
• Displaying Virtual Servers, page 7-81
• Suspending Virtual Servers, page 7-72
Suspending Virtual Servers
You can suspend a virtual server.
Note A missing operation or Admin state on a CSM or CSS device most likely means that the community
string was not enabled on those devices. If the community string is not enabled on a CSM or CSS device,
and any kind of operation is performed on those devices, it will not succeed, and ANM will not provide
any kind of indication.
• For CSM devices, you must enable the community string of the Catalyst 6500 series chassis.
• For CSS devices, you must enable the community string of the CSS device itself.
Guidelines and Restrictions
ANM does not support CSM DNS virtual servers. If you create this type of virtual server, ANM issues
an error message if you attempt to use ANM to activate or suspend it.
Procedure
Step 1 Choose Config > Operations > Virtual Servers.
The Virtual Servers table appears.
Step 2 (Optional) To display only the virtual servers of a specific virtual server group, do the following:
a. Click the Groups icon located above the Virtual Servers table. The Groups menu appears below the
icon (see Figure 7-1).
b. From the Groups menu, choose the group to display.
Step 3 In the Virtual Servers table, choose the virtual server that you want to suspend, and click Suspend.
The Suspend Virtual Server window appears.
Step 4 In the Reason field of the Suspend Virtual Server window, enter the reason for this action.
You might enter a trouble ticket, an order ticket, or a user message.
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Note Do not enter a password in this field.
Related Topics
• Managing Virtual Servers, page 7-66
• Displaying Virtual Servers, page 7-81
• Activating Virtual Servers, page 7-71
Managing GSS VIP Answers
This section describes how to manage GSS VIP answers. In a GSS network, the term answers refers to
resources that respond to content queries. When you create an answer using the primary Global Site
Selector Manager (PGSSM), you are simply identifying a resource on your GSS network to which
queries can be directed and that can provide your user’s D-proxy with the address of a valid host to serve
their request.
Virtual IP (VIP) addresses associated with an SLB such as the Cisco CSS, Cisco CSM, Cisco
IOS-compliant SLB, LocalDirector, or a Web server are types of answers that are specified in the ANM
user interface in the GSS VIP Answers table found in ANM under Configuration > Operations. Use this
procedure to poll, activate, or suspend GSS VIP answers.
Prerequisites
Make sure that you have established GSS VIP answers using the PGSSM.
Procedure
Step 1 Choose Config > Operations > GSS VIP Answers.
The GSS Answers table appears. For a list of fields available, see Table 7-21.
Table 7-21 GSS Answer Table
Field Description
Multiple Row Selection Checkbox Check box that selects all entries at the same time, or you can check line items
individually.
IP Address VIP answer IP address.
Name VIP answer name.
Config State VIP answer configured status.
PGSSM Oper State Operational status as shown on the primary GSS manager (PGSSM).
Answer Group Answer group names to which the VIP answer belong.
Location Logical groupings for GSS resources that correspond to geographical entities such as a
city, data center, or content site.
Device Primary GSS device name on ANM.
PGSSM Time Last operational status update time on the primary GSS.
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Step 2 (Optional) To display only the answers of a specific GSS VIP Answer group, do the following:
a. Click the Groups icon located above the DNS Rules table. The Groups menu appears below the icon
(see Figure 7-1).
b. From the Groups menu, choose the group to display.
Step 3 In the GSS Answers table, check the check boxes to the left of the answers that you want to poll, activate,
or suspend.
Step 4 Do one of the following:
• Click Active/Suspended hyperlink to view the VIP answer details across the GSS node(s). A popup
window appears listing all nodes associated with the VIP, operational state, hit count, and timestamp
for each node.
• Click Poll Now to query the chosen resource to verify it is still active.
Note If you click Poll Now immediately after you click Activate or Suspend, you might not get the VIP
answer operational status on the PGSSM that reflects your most recent configuration. It might be
necessary to click Poll Now two or three times in succession to get an accurate result.
The ability of Cisco License Manager to update the VIP answer operational status and statistics
accurately in detailed GSS statistics window might depend on the polling interval that has been
configured on the GSS. The polling interval can be configured directly on the GSS device. (The default
is 5 minutes.) Depending on the interval, it can take 5 minutes or more for the ANM server to show an
accurate result.
• Click Activate to reactivate a GSS answer.
• Click Suspend to temporarily stop the GSS from using an associated answer.
If you clicked Activate or Suspend, a dialog box prompts for a Reason. Acceptable text consists of any
characters or nothing at all.
Step 5 Do one of the following:
• Click Deploy Now to complete Activation or Suspension.
• Click Cancel to cancel the Activation or Suspension operation.
Related Topics
• Managing GSS VIP Answer and DNS Rule Groups, page 7-76
• Information About Load Balancing, page 7-1
• Activating and Suspending DNS Rules Governing GSS Load Balancing, page 7-75
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Activating and Suspending DNS Rules Governing GSS Load Balancing
You can activate or suspend DNS rules associated with your GSS VIP answers table. The DNS rules table
in Configuration > Operations navigation tree specifies actions for the GSS to take when it receives a
request from a known source (a member of a source address list) for a known hosted domain (a member
of a domain list).
The DNS rule specifies which response (answer) is given to the requesting user’s local DNS host
(D-proxy) and how that answer is chosen. One of a variety of balance methods is used to determine the
best response to the request, based on the status and load of the GSS host devices.
Prerequisites
Make sure that you have established GSS VIP answers and DNS rules using the PGSSM.
Procedure
Step 1 Choose Config > Operations > DNS Rules.
The DNS Rules table appears. For a list of fields available, see Table 7-22.
Step 2 (Optional) To display only the rules of a specific DNS Rules group, do the following:
a. Click the Groups icon located above the DNS Rules table. The Groups menu appears below the icon
(see Figure 7-1).
b. From the Groups menu, choose the group to display.
Step 3 In the DNS Rules table, check the checkbox to the left of the rules that you want to activate or suspend.
Step 4 Click the Activate or Suspend button.
A dialog box prompts for a Reason. Acceptable text consists of any characters or none at all.
Step 5 Do one of the following:
• Click Deploy Now to complete Activation or Suspension.
Table 7-22 DNS Rules Table
Field Description
Multiple Row Selection
Checkbox
Check box that selects all entries at the same time, or you can check line items individually.
Name Name of the DNS rule.
Source Address Collection of IP addresses or address blocks for known client DNS proxies (or D-proxies).
Domains Domain list name containing one or more domain names that point to content for which the GSS
is acting as the authoritative DNS server and for which you wish to use the GSS technology to
balance traffic and user requests.
Config State DNS rules configured status, either Active or Suspended.
Answer Group Lists of GSS resources that are candidates to respond to DNS queries received from a user for a
hosted domain.
Owner Owner names, providing a simple way to organize and identify groups of related GSS resources.
Device Primary GSS device name on ANM.
PGSSM Time Last operational status update time on the GSS.
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• Click Cancel to cancel the Activation or Suspension operation.
Related Topics
• Managing GSS VIP Answer and DNS Rule Groups, page 7-76
• Information About Load Balancing, page 7-1
• Managing GSS VIP Answers, page 7-73
Managing GSS VIP Answer and DNS Rule Groups
This section describes how to organize GSS VIP answers or DNS rules into groups, which allows you to
display and manage a specific group of VIP answers or DNS rules without having to filter the display.
When creating a group, you specify whether the group is available to just you or is available globally to
all ANM users.
The GSS object grouping feature is available from the following operations windows:
• Answer VIPs (Config > Operations > GSS VIP Answers)
• DNS Rules (Config > Operations > GSS DNS Rules)
These windows contain the Groups option for managing object groups. Figure 7-2 shows the Groups
icon with the following available options for managing object groups:
• Create New Group—Adds a new group.
• Edit Group—Modifies an existing group. This option displays only after you select a group to
display in Group mode.
• Exit Group Mode—Changes the display from the Group mode display to the display of all VIP
answers or DNS rules. This option displays only after you select a group and the display enters the
Group mode.
• Saved Groups—Lists the currently configured groups with each group’s privilege level (local or
global) and owner. From this view, you can choose a group to display or delete a group.
Figure 7-2 Object Grouping for GSS VIP Answers and DNS Rules
Guidelines and Restrictions
Object grouping guidelines and restrictions are as follows:
• When you create a global group, other users can see the group if they have access to at least one
object within the group. This rule does not apply to the admin user or a user with the anm-admin
role because they have visibility to all global groups.
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• To edit or delete a group, you must be the group owner, a user with the anm-admin role, or the admin
user.
• When you delete a locally authenticated user from the ANM database, ANM deletes all the global
and user-specific groups that the user created. However, when you delete a remotely authorized user
from the remote AAA server database, ANM does not delete the groups that the user created. In this
case, you must manually delete the user’s groups.
This section includes the following topics:
• Creating a VIP Answer or DNS Rule Group, page 7-77
• Editing or Copying a VIP Answer or DNS Rule Group, page 7-78
• Displaying a VIP Answer or DNS Rule Group, page 7-79
• Deleting a VIP Answer or DNS Rule Group, page 7-80
Creating a VIP Answer or DNS Rule Group
You can create a GSS answer VIP or DNS rule group.
Procedure
Step 1 Choose one of the following depending on the group type that you want to create:
• Config > Operations > GSS VIP Answers.
• Config > Operations > GSS DNS Rules
Depending on your choice, either the Answer VIPs or DNS Rules object table appears.
Step 2 Click the Groups icon located above the objects table.
The Groups menu appears below the icon (see Figure 7-2).
Step 3 From the Groups menu, choose Create New Group.
The display enters the edit mode and the Creating a New Group table appears with the list of the available
GSS VIP answer or DNS rule objects.
Step 4 From the Creating a New Group table, check the check box next to the GSS objects that you want to
include in the group.
Step 5 (Optional) Check the Hide unselected check box to display only the GSS objects that you have chosen.
Uncheck the check box to display all the available GSS objects.
Step 6 Do one of the following:
• Click Save as to save the group information. The Create Group popup window appears.
From the popup window, do the following:
a. In the Group Name text box, enter a name for the group. Enter 1 to 64 alphanumeric characters.
Special characters and spaces are allowed.
b. Choose the availability of the group by clicking one of the following radio buttons:
– This user only (local)—Only you can view, modify, or delete the group.
– All users (global)—All ANM users can view the group if they have permission to view at least
one of the GSS objects associated with the group. A user with the admin or anm-admin can view
all groups and can also edit or delete any group.
c. Do one of the following:
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– Click Save to save the group information. The Create Group popup window closes and the
Viewing Group table appears, displaying the new group’s name and associated objects.
To exit Group mode and return to the Real Servers table, click the Groups icon and click Exit
Group Mode from the Groups menu.
– Click Cancel to close the Create Group popup window without saving any information and to
return to the Creating a New Group table.
• Click Back to View to exit the Group display mode and return to the objects table
Related Topics
• Managing GSS VIP Answer and DNS Rule Groups, page 7-76
• Editing or Copying a VIP Answer or DNS Rule Group, page 7-78
• Displaying a VIP Answer or DNS Rule Group, page 7-79
• Deleting a VIP Answer or DNS Rule Group, page 7-80
• Managing GSS VIP Answers, page 7-73
• Activating and Suspending DNS Rules Governing GSS Load Balancing, page 7-75
Editing or Copying a VIP Answer or DNS Rule Group
You can edit a GSS VIP answer or DNS rule group or create a copy of a group under a different name.
Procedure
Step 1 Choose one of the following depending on the group type that you want to edit or copy:
• Config > Operations > GSS VIP Answers.
• Config > Operations > GSS DNS Rules
Depending on your choice, either the Answer VIPs or DNS Rules object table appears.
Step 2 Click the Groups icon located above the objects table.
The Groups menu appears below the icon (see Figure 7-2).
Step 3 From the Groups menu, choose the group that you want to edit.
The Viewing Group table appears, displaying the selected group’s name and associated GSS VIP answer
or DNS rule objects.
Step 4 Click the Groups icon again and from the Groups menu, choose Edit Group.
The Editing Group table appears, displaying the complete list of available objects with the objects
currently associated with the group highlighted and checked.
Step 5 Modify the group as needed by adding (check) or removing (uncheck) objects as needed. Skip this step
if you only want to save a copy of the current group under a different name.
Step 6 Do one of the following:
• Click Save to save the changes and return to the Viewing Group table, where you can view the
changes.
• Click Save as to save the configuration under a new group name. The Create Group popup window
appears.
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From the popup window, do the following:
a. In the Group Name text box, enter a name for the group. Enter 1 to 64 alphanumeric characters.
Special characters and spaces are allowed.
b. Choose the availability of the group by clicking one of the following radio buttons:
– This user only (local)—Only you can view, modify, or delete the group.
– All users (global)—All ANM users can view the group if they have permission to view at least
one of the real servers associated with the group. The admin user or a user with the anm-admin
role can view all global groups and can also edit or delete these groups.
c. Do one of the following:
– Click Save to save the group information. The Create Group popup window closes and the
Viewing Group table appears, displaying the new group’s name and associated objects.
– Click Cancel to close the Create Group popup window without saving any information and to
return to the Creating a New Group table.
Click Back to View to exit the edit mode and return to the Group mode.
Step 7 (Optional) To exit Group mode and return to the GSS objects table, click the Groups icon and click Exit
Group Mode from the Groups menu.
Related Topics
• Managing GSS VIP Answer and DNS Rule Groups, page 7-76
• Creating a VIP Answer or DNS Rule Group, page 7-77
• Displaying a VIP Answer or DNS Rule Group, page 7-79
• Deleting a VIP Answer or DNS Rule Group, page 7-80
• Managing GSS VIP Answers, page 7-73
• Activating and Suspending DNS Rules Governing GSS Load Balancing, page 7-75
Displaying a VIP Answer or DNS Rule Group
You can display the list of GSS objects associated with a VIP answer or DNS rule group.
Procedure
Step 1 Choose one of the following depending on the group type that you want to edit or copy:
• Config > Operations > GSS VIP Answers.
• Config > Operations > GSS DNS Rules
Depending on your choice, either the Answer VIPs or DNS Rules object table appears.
Step 2 Click the Groups icon located above the objects table.
The Groups menu appears below the icon (see Figure 7-2).
Step 3 From the Groups menu, choose the group that you want to display.
The Viewing Group table appears, displaying the selected group’s name and associated objects.
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Step 4 (Optional) To exit Group mode and return to the GSS objects table, click the Groups icon and click Exit
Group Mode from the Groups menu.
Related Topics
• Managing GSS VIP Answer and DNS Rule Groups, page 7-76
• Creating a VIP Answer or DNS Rule Group, page 7-77
• Editing or Copying a VIP Answer or DNS Rule Group, page 7-78
• Deleting a VIP Answer or DNS Rule Group, page 7-80
• Managing GSS VIP Answers, page 7-73
• Activating and Suspending DNS Rules Governing GSS Load Balancing, page 7-75
Deleting a VIP Answer or DNS Rule Group
You can delete a GSS VIP answer or DNS rule group. Deleting a group does not delete the group’s
associated objects from the ANM database.
Procedure
Step 1 Choose one of the following depending on the group type that you want to edit or copy:
• Config > Operations > GSS VIP Answers.
• Config > Operations > GSS DNS Rules
Depending on your choice, either the Answer VIPs or DNS Rules object table appears.
Step 2 Click the Groups icon located above the objects table.
The Groups menu appears below the icon (see Figure 7-2).
Step 3 From the Groups menu, click X (delete) next to the group that you want to delete.
The Delete Group confirmation popup window appears.
Step 4 From the Delete Group confirmation popup window, do one of the following:
• Click Delete to remove the selected group.
• Click Cancel to ignore the deletion request.
Related Topics
• Managing GSS VIP Answer and DNS Rule Groups, page 7-76
• Creating a VIP Answer or DNS Rule Group, page 7-77
• Editing or Copying a VIP Answer or DNS Rule Group, page 7-78
• Displaying a VIP Answer or DNS Rule Group, page 7-79
• Activating and Suspending DNS Rules Governing GSS Load Balancing, page 7-75
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Displaying Detailed Virtual Server Information
You can display detailed information about the state of a virtual server.
Procedure
Step 1 Choose Config > Operations > Virtual Servers.
The Virtual Servers table appears.
Step 2 (Optional) To display only the virtual servers of a specific virtual server group, do the following:
a. Click the Groups icon located above the Virtual Servers table. The Groups menu appears below the
icon (see Figure 7-1).
b. From the Groups menu, choose the group to display.
Step 3 In the Virtual Servers table, choose the virtual server whose configuration details that you want to
display.
Click the hyperlinked entry for that virtual server that appears in the Operational State column.
The Details window appears with the following information:
• Current operational status
• Description, if one was entered
• Configured interfaces, such as VLANs
• Configured service policies including:
– Configured class maps, detailed by type (such as load balancing or inspection)
– States of configured options, indicated by word (ACTIVE, DISABLED, OUTOFSERVICE) and
color (green, orange/yellow, and red)
– Associated policy maps with details on their type and action (L7 loadbalance, serverfarm)
– Statistics regarding connections and counts
Related Topics
• Configuring Virtual Servers, page 7-2
• Displaying Virtual Servers by Context, page 7-65
• Displaying Virtual Server Statistics and Status Information, page 7-65
• Managing Virtual Servers, page 7-66
Displaying Virtual Servers
You can display all virtual servers.
Procedure
Step 1 Choose Config > Operations > Virtual Servers.
The Virtual Servers table appears. Table 7-23 describes the Virtual Servers table information.
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Table 7-23 Virtual Server Table Fields
Item Description
Name Server farm name sorted by virtual context.
Policy Map Associated policy map.
IP Address:Protocol:Port Server farm IP address, protocol, and port used for communications.
HA Indicators that display when the virtual server is part of a high availability pair. The indicators
are as follows:
• Asterisk (*)—The virtual server is associated with an HA pair and the HA configuration
is complete.
• Red dash (-)—The virtual server is associated with an HA pair; however, the HA
configuration is incomplete. Typically, the HA pair are not properly configured for HA or
only one of the devices has been imported into ANM. Ensure that both devices are
imported into ANM and that they are configured as described in the “Configuring ACE
High Availability” section on page 13-14.
The table displays HA pair virtual servers together in the same row and they remain together
no matter how you sort the information.
SLB Device Associated ACE IP address and context.
Admin Administrative state of the virtual server: Up or Down.
Note For a CSM device, the virtual server Admin State is derived from the Operational
State. In this case, the Operational State may display an Out of Service condition
when the virtual server is configured to be Inservice (if all of the real servers are out
of service).
Oper Operational state of the virtual server: Up or Down.
(ACE devices only) To display detailed information about the virtual server in a popup
window, click the linked state value in this column. For more information about this popup
window, see the “Displaying Virtual Server Statistics and Status Information” section on
page 7-65.
Note The display virtual server details feature requires ACE module software Version
A2(1.2), ACE appliance software Version A3(2.1), or later versions of either
software. An error displays with earlier software versions.
DWS Operating state of Dynamic Workload Scaling for the virtual server, which can be:
• N/A—Not applicable; the server farms associated with the virtual server are not
configured to use Dynamic Workload Scaling.
• Local—At least one server farm associated the virtual server is configured to use
Dynamic Workload Scaling, but the ACE is sending traffic to the VM Controller’s local
VMs only.
• Expanded—At least one server farm associated the virtual server is configured to use
Dynamic Workload Scaling and the ACE is sending traffic to the VM Controller’s local
and remote VMs.
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You can activate or suspend virtual servers from this table and obtain additional information about the
state of the virtual server.
Step 2 (Optional) Use the display toggle button ( ) located above the table to control which virtual servers
ANM displays as follows:
• Show ANM recognized Virtual Servers—Displays only virtual servers that match ANM’s virtual
server definition (see the “Virtual Server Configuration and ANM” section on page 7-2).
• Show all Virtual Servers—Displays virtual servers that match ANM’s virtual server definition and
those that do not match this definition but that ANM can recognize as virtual servers using SNMP
polling.
Note The display toggle button displays only when you have the “Display All Virtual Servers in
Monitoring & Operations page” advanced setting feature enabled (see the “Managing the
Display of Virtual Servers in the Operations and Monitoring Windows” section on page 18-66).
Step 3 (Optional) To display only the virtual servers of a specific virtual server group, do the following:
a. Click the Groups icon located above the Virtual Servers table. The Groups menu appears below the
icon (see Figure 7-1).
b. From the Groups menu, choose the group to display.
You can activate or suspend virtual servers from this table and obtain additional information about the
state of the virtual server.
Related Topics
• Activating Virtual Servers, page 7-71
• Suspending Virtual Servers, page 7-72
Conn Number of active connections.
Note This column is populated for ACE appliances. For ACE devices, the Active
Connections column displays N/A for older versions of the ACE appliance and
module.
Stat Age Age of the statistical information.
Serverfarms Associated server farms.
Note If you have the Details popup window feature enabled, click the value in this
column to open the Details popup window and display detailed information about
the server farm. By default, this feature is disabled. For information about
enabling or disabling this feature, see the “Enabling the ACE Server Farm Details
Popup Window Option for Virtual Servers” section on page 18-65.
VLANs Associated VLANs.
Table 7-23 Virtual Server Table Fields (continued)
Item Description
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Managing Virtual Servers
• Managing Virtual Server Groups, page 7-67
• Displaying Detailed Virtual Server Information, page 7-81
• Displaying Virtual Server Statistics and Status Information, page 7-65
• Displaying Virtual Servers by Context, page 7-65
Using the Virtual Server Connection Statistics Graph
You can display real time and historical statistical information about the connections of a virtual server.
ANM displays the information in graph or chart form. This feature also allows you to compare similar
connection information across multiple virtual servers.
Procedure
Step 1 Choose Config > Operations > Virtual Servers.
The Virtual Servers table appears. You can activate or suspend virtual servers from this table and obtain
additional information about the state of the virtual server.
Step 2 (Optional) To display only the virtual servers of a specific virtual server group, do the following:
a. Click the Groups icon located above the Virtual Servers table. The Groups menu appears below the
icon (see Figure 7-1).
b. From the Groups menu, choose the group to display.
Step 3 In the Virtual Servers table, check the check box next to server whose connection information you want
to display, and click Graph.
You can choose up to four virtual servers if you want to compare statistical data.
The Virtual Server Graph window appears, displaying the default graph for each selected virtual server.
For details about using the graph feature, see the “Configuring Historical Trend and Real Time Graphs
for Devices” section on page 17-48.
Step 4 Click Exit to return to the Virtual Server widow.
Related Topics
• Configuring Historical Trend and Real Time Graphs for Devices, page 17-48
• Activating Virtual Servers, page 7-71
• Suspending Virtual Servers, page 7-72
• Managing Virtual Server Groups, page 7-67
• Displaying Detailed Virtual Server Information, page 7-81
• Displaying Virtual Servers, page 7-81
• Using the Virtual Server Topology Map, page 7-85
• Displaying Virtual Server Statistics and Status Information, page 7-65
• Displaying Virtual Servers by Context, page 7-65
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Managing Virtual Servers
Using the Virtual Server Topology Map
You can display the nodes on your network based on the virtual server that you select.
Procedure
Step 1 Choose Config > Operations > Virtual Servers.
The Virtual Servers table appears.
Step 2 (Optional) To display only the virtual servers of a specific virtual server group, do the following:
a. Click the Groups icon located above the Virtual Servers table. The Groups menu appears below the
icon (see Figure 7-1).
b. From the Groups menu, choose the group to display.
Step 3 Use the display toggle button ( ) to ensure that the Virtual Servers table is set to Show ANM
Recognized Virtual Servers.
Note The topology map feature is not available when the Virtual Server table is set to Show All Virtual
Servers (for more information, see the “Displaying Virtual Servers” section on page 7-81).
Step 4 In the Virtual Servers table, choose the server whose topology map you want to display, and click
Topology.
The ANM Topology map appears. The map includes several tools for navigating the network map and
zooming in and out. For details about using the map tools, see the “Displaying Network Topology Maps”
section on page 17-68.
Step 5 Click Exit to return to the Virtual Server widow.
Related Topics
• Suspending Virtual Servers, page 7-72
• Managing Virtual Server Groups, page 7-67
• Displaying Detailed Virtual Server Information, page 7-81
• Displaying Virtual Servers, page 7-81
• Using the Virtual Server Connection Statistics Graph, page 7-84
• Displaying Virtual Server Statistics and Status Information, page 7-65
• Displaying Virtual Servers by Context, page 7-65
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Deploying Virtual Servers
Understanding CLI Commands Sent from Virtual Server Table
Table 7-24 displays the CLI commands dispatched to the device for a given Virtual Servers table option,
and is sorted by device.
Deploying Virtual Servers
You can deploy virtual servers on your network at times that are convenient and appropriate for your
environment. For example, if your site prefers to make changes to the network during a specific time
each night, you can modify and save virtual server configurations during the day and then deploy them
when appropriate.
This section includes the following topics:
• Deploying a Virtual Server, page 7-87
• Displaying All Staged Virtual Servers, page 7-87
• Modifying Deployed Virtual Servers, page 7-88
• Modifying Staged Virtual Servers, page 7-88
Table 7-24 CLI Commands Deployed from Virtual Servers Table
Command Sample CLI Sent
ACE Modules and Appliances
Virtual Server Activate policy-map multi-match int25
class VIP3
loadbalance vip inservice
Virtual Server Suspend policy-map multi-match int25 class
VIP3 no loadbalance vip inservice
CSMs
Virtual Server Activate vserver APP1
inservice
Virtual Server Suspend vserver APP1
no inservice
CSS Devices
Virtual Server Activate owner hm
content LB
active
Virtual Server Suspend owner hm
content LB
suspend
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Deploying Virtual Servers
Deploying a Virtual Server
You can deploy virtual servers on your network at times that are convenient and appropriate for your
environment. For example, if your site prefers to make changes to the network during a specific time
each night, you can modify and save virtual server configurations during the day and then deploy them
when appropriate.
Procedure
Step 1 Choose Config > Deploy.
The Staged Objects table appears.
Step 2 Fro the Staged Objects table, choose the virtual server that you want to deploy on your network, and
click Deploy.
The virtual server is deployed and the table refreshes with updated information.
Related Topics
• Configuring Virtual Servers, page 7-2
• Displaying All Staged Virtual Servers, page 7-87
• Modifying Staged Virtual Servers, page 7-88
Displaying All Staged Virtual Servers
You can display all objects that have been configured but have not yet been deployed on your network.
Procedure
Step 1 Do one of the following:
• Choose Config > Deploy.
The Staged Objects table appears listing the following:
– Virtual server name
– Device ID and virtual context
– Time the virtual server was created
– User who last modified the object
– Time the object was last updated
• Choose Config > Devices > context > Load Balancing > Virtual Servers.
The Virtual Servers table appears. Virtual servers with configurations that have not been deployed
appear with the status Not Deployed in the Configured State column.
Related Topics
• Configuring Virtual Servers, page 7-2
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Deploying Virtual Servers
• Deploying a Virtual Server, page 7-87
• Modifying Staged Virtual Servers, page 7-88
• Modifying Deployed Virtual Servers, page 7-88
Modifying Deployed Virtual Servers
You can modify the configuration of a deployed virtual server.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Virtual Servers.
The Virtual Servers table appears.
Step 2 In the Virtual Servers table, choose the virtual server you want to modify, and click Edit.
The Virtual Server configuration window appears.
Step 3 In the Virtual Server configuration window, modify the virtual server's configuration as desired.
See Table 7-1 for virtual server configuration options.
Step 4 When you are done modifying the configuration, do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Virtual Servers
table.
Related Topics
• Managing Virtual Servers, page 7-66
• Displaying All Staged Virtual Servers, page 7-87
• Activating Virtual Servers, page 7-71
• Suspending Virtual Servers, page 7-72
Modifying Staged Virtual Servers
You can modify the configuration of a staged virtual server.
Procedure
Step 1 Choose Config > Deploy.
The Staged Objects table appears, listing those virtual servers that have not yet been deployed in the
network.
Step 2 From the Staged Objects table, choose the virtual server you want to modify, and click Edit.
The Virtual server configuration window appears.
Step 3 In the Virtual server configuration window, modify the virtual server configuration as desired.
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Deploying Virtual Servers
See Table 7-1 for virtual server configuration options.
Step 4 When you are done modifying the configuration, do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Virtual Servers
table.
• Click Deploy Later to save your entries and apply this configuration at a later time.
Related Topics
• Deploying a Virtual Server, page 7-87
• Displaying All Staged Virtual Servers, page 7-87
• Activating Virtual Servers, page 7-71
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Deploying Virtual Servers
CHAPTER
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8
Configuring Real Servers and Server Farms
Date: 3/28/12
This chapter describes how to configure real servers and server farms on the Cisco Application Control
Engine (ACE) using Cisco Application Networking Manager (ANM).
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Information About Server Load Balancing, page 8-1
• Configuring Real Servers, page 8-5
• Managing Real Servers, page 8-9
• Configuring Dynamic Workload Scaling, page 8-26
• Configuring Server Farms, page 8-30
• Configuring Health Monitoring, page 8-49
• Configuring Secure KAL-AP, page 8-77
Information About Server Load Balancing
Server load balancing (SLB) is the process of deciding to which server a load-balancing device should
send a client request for service. For example, a client request can consist of an HTTP GET for a Web
page or an FTP GET to download a file. The job of the load balancer is to select the server that can
successfully fulfill the client request and do so in the shortest amount of time without overloading either
the server or the server farm as a whole.
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Information About Server Load Balancing
Depending on the load-balancing algorithm or predictor that you configure, the ACE performs a series
of checks and calculations to determine the server that can best service each client request. The ACE
bases server selection on several factors, including the server with the fewest connections with respect
to load, source or destination address, cookies, URLs, or HTTP headers.
ANM allows you to configure load balancing using:
• Virtual servers—See Configuring Virtual Servers, page 7-2.
• Real servers—See Configuring Real Servers, page 8-5.
• Dynamic Workload Scaling—See Configuring Dynamic Workload Scaling, page 8-26.
• Server farms—See Configuring Server Farms, page 8-30.
• Sticky groups—See Configuring Sticky Groups, page 9-7.
• Parameter maps—See Configuring Parameter Maps, page 10-1.
For more information about SLB as configured and performed by the ACE, see:
• Configuring Virtual Servers, page 7-2
• Load-Balancing Predictors, page 8-2
• Real Servers, page 8-3
• Dynamic Workload Scaling Overview, page 8-4
• Server Farms, page 8-5
• Configuring Health Monitoring, page 8-49
• TCL Scripts, page 8-50
• Configuring Stickiness, page 9-1
This section includes the following topics:
– Load-Balancing Predictors, page 8-2
– Real Servers, page 8-3
– Server Farms, page 8-5
Load-Balancing Predictors
The ACE uses the following predictors to select the best server to satisfy a client request:
• Hash Address—Selects the server using a hash value based on either the source or destination IP
address, or both. Use these predictors for firewall load balancing (FWLB).
Note FWLB allows you to scale firewall protection by distributing traffic across multiple firewalls on
a per-connection basis. All packets belonging to a particular connection must go through the
same firewall. The firewall then allows or denies transmission of individual packets across its
interfaces. For more information about configuring FWLB on the ACE, see the Cisco 4700
Series Application Control Engine Appliance Server Load-Balancing Configuration Guide.
• Hash Content— Selects the server by using a hash value based on the specified content string of the
HTTP packet body
• Hash Cookie—Selects the server using a hash value based on a cookie name.
• Hash Header—Selects the server using a hash value based on the HTTP header name.
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Information About Server Load Balancing
• Hash Layer4—Selects the server using a Layer 4 generic protocol load-balancing method.
• Hash URL—Selects the server using a hash value based on the requested URL.
You can specify a beginning pattern and an ending pattern to match in the URL. Use this predictor
method to load-balance cache servers. Cache servers perform better with the URL hash method
because you can divide the contents of the caches evenly if the traffic is random enough. In a
redundant configuration, the cache servers continue to work even if the active ACE switches over to
the standby ACE. For information about configuring redundancy, see the “Configuring High
Availability” section on page 13-1.
• Least Bandwidth—Selects the server with the least amount of network traffic or a specified
sampling period. Use this type for server farms with heavy traffic, such as downloading video clips.
• Least Connections—Selects the server with the fewest number of active connections based on server
weight. For the least connection predictor, you can configure a slow-start mechanism to avoid
sending a high rate of new connections to servers that you have just put into service.
• Least Loaded—Selects the server with the lowest load as determined by information from SNMP
probes.
• Response—Selects the server with the lowest response time for a specific response-time
measurement.
• Round Robin—Selects the next server in the list of real servers based on server weight (weighted
roundrobin). Servers with a higher weight value receive a higher percentage of the connections. This
is the default predictor.
Note The different hash predictor methods do not recognize the weight value that you configure for real
servers. The ACE uses the weight that you assign to real servers only in the round-robin and
least-connections predictor methods.
Related Topics
Configuring the Predictor Method for Server Farms, page 8-39
Real Servers
To provide services to clients, you configure real servers on the ACE. Real servers can be dedicated
physical servers or VMware virtual machines (VMs) that you configure in groups called server farms.
Note VMs that you define as real servers can be VMs associated with a VMware vCenter Server that you
import into ANM (see the “Importing VMware vCenter Servers” section on page 5-24) and VMs that the
ACE recognizes when configured for Dynamic Workload Scaling (see the “Configuring Dynamic
Workload Scaling” section on page 8-26).
Real servers provide client services such as HTTP or XML content, website hosting, FTP file uploads
or downloads, redirection for web pages that have moved to another location, and so on. You identify
real servers with names and characterize them with IP addresses, connection limits, and weight values.
The ACE also allows you to configure backup servers in case a server is taken out of service for any
reason.
After you create and name a real server on the ACE, you can configure several parameters, including
connection limits, health probes, and weight. You can assign a weight to each real server based on its
relative importance to other servers in the server farm. The ACE uses the server weight value for the
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Information About Server Load Balancing
weighted round-robin and the least-connections load-balancing predictors. The load-balancing predictor
algorithms (for example, roundrobin, least connections, and so on) determine the servers to which the
ACE sends connection requests. For a listing and brief description of the load-balancing predictors, see
the “Load-Balancing Predictors” section on page 8-2.
The ACE uses traffic classification maps (class maps) within policy maps to identify traffic that meets
defined criteria and to apply specific actions to that traffic based on the SLB configuration.
If a primary real server fails, the ACE takes that server out of service and no longer includes it in
load-balancing decisions. If you configured a backup server for the real server that failed, the ACE
redirects the primary real server connections to the backup server. For information about configuring a
backup server, see the “Configuring Virtual Server Layer 7 Load Balancing” section on page 7-30.
The ACE can take a real server out of service for the following reasons:
• Probe failure
• ARP timeout
• Neighbor Discovery (ND) failure (IPv6 only, which requires ACE module and ACE appliance
software Version A5(1.0) or later)
• Specifying Out Of Service as the administrative state of a real server
• Specifying Inservice Standby as the administrative state of a real server
The Out Of Service and Inservice Standby selections both provide the graceful shutdown of a server.
Related Topics
• Configuring Real Servers, page 8-5
• Configuring Health Monitoring for Real Servers, page 8-51
Dynamic Workload Scaling Overview
Note Dynamic Workload Scaling requires ACE module or appliance software Version A4(2.0) or later and a
pair of the Cisco Nexus 7000 Series switches with Overlay Transport Virtualization (OTV) technology.
The ACE Dynamic Workload Scaling (DWS) feature permits on-demand access to remote resources,
such as VMs, that you own or lease from an Internet service provider or cloud service provider. This
feature uses Cisco Nexus 7000 Series switches with OTV to create a Data Center Interconnect (DCI) on
a Layer 2 link over an existing IP network between geographically distributed data centers (see
Figure 1-1). The local data center Cisco Nexus 7000 Series switch contains an OTV forwarding table
that lists the MAC addresses of the Layer 2 extended virtual private network (VPN) and identifies the
addresses as either local or remote.
When you configure the ACE for DWS, the ACE uses an XML query to poll the Cisco Nexus 7000 Series
switch and obtain the OTV forwarding table information to determine the locality of the VMs (local or
remote). The ACE also uses a health monitor probe that it sends to the local VMware vCenter Server to
monitor the load of the local VMs based on CPU usage, memory usage, or both. When the average CPU
and/or memory usage of the local VMs reaches its configured maximum threshold value, the ACE bursts
traffic to the remote VMs. The ACE stops bursting traffic to the remote VMs when local VM usage drops
below its configured minimum threshold value.
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Configuring Real Servers
To use DWS, you configure the ACE to connect to the Data Center Interconnect device (Cisco Nexus
7000 Series switch) and the VMware Controller associated with the local and remote VMs. You also
configure the ACE with the probe type VM to monitor a server farm’s local VM CPU and memory usage,
which determines when the ACE bursts traffic to the remote VMs (see the “Configuring Dynamic
Workload Scaling” section on page 8-26).
For more details on this feature, see the Cisco 4700 Series Application Control Engine Appliance Server
Load-Balancing Configuration Guide.
Server Farms
Typically, in data centers, servers are organized into related groups called server farms. Servers within
server farms often contain identical content (referred to as mirrored content) so that if one server
becomes inoperative, another server can take its place immediately. Also, having mirrored content
allows several servers to share the load of increased demand during important local or international
events, such as the Olympic Games. This phenomenon of a sudden large demand for content is called a
flash crowd.
After you create and name a server farm, you can add existing real servers to it and configure other server
farm parameters, such as the load-balancing predictor, server weight, backup server, health probe, and
so on. For a listing and brief description of load-balancing predictors, see the “Load-Balancing
Predictors” section on page 8-2.
Related Topics
Configuring Server Farms, page 8-30
Configuring Real Servers
Real servers are dedicated physical servers that are typically configured in groups called server farms.
These servers provide services to clients, such as HTTP or XML content, streaming media (video or
audio), TFTP or FTP services, and so on. When configuring real servers, you assign names to them and
specify IP addresses, connection limits, and weight values.
The ACE uses traffic classification maps (class maps) within policy maps to filter specified traffic and
to apply specific actions to that traffic based on the load-balancing configuration. A load-balancing
predictor algorithm (such as round-robin or least connections) determines the servers to which the ACE
sends connection requests. For information about configuring class maps, see the “Configuring Virtual
Context Class Maps” section on page 14-6.
This section includes the following topics:
• Configuring Load Balancing on Real Servers, page 8-6
• Displaying Real Server Statistics and Status Information, page 8-9
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Configuring Real Servers
Configuring Load Balancing on Real Servers
You can configure load balancing on real servers.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Real Servers.
The Real Servers table appears.
Step 2 In the Real Servers table, click Poll Now to instruct ANM to poll the devices and display the current
values, and click OK when prompted if you want to poll the devices for data now.
Step 3 Click Add to add a new real server, or choose a real server you want to modify and click Edit.
The Real Servers configuration window appears.
Step 4 In the Real Servers configuration window, configure the server using the information in Table 8-1.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Table 8-1 Real Server Attributes
Field Description
Name Field that allows you to either enter a unique name for this server or accept the automatically
incremented value in this field. Valid entries are unquoted text strings with no spaces and a
maximum of 64 characters.
Type Type of server:
• Host—The real server provides content and services to clients.
• Redirect—The server redirects traffic to a new location.
State State of the real server:
• In Service—The real server is in service.
• Out Of Service—The real server is out of service.
Description Brief description for this real server. Valid entries are strings of up to 240 characters. Spaces and
special characters are allowed.
IP Address Type Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later,
which supports IPv4 and IPv6. These selections appear only for real servers specified as hosts.
Select the IP address type of this real server:
• IPv6—The real server has an IPv6 address.
• IPv4—The real server has an IPv4 address.
IPv6/IPv4 Address For ACE module and ACE appliance software versions earlier than A5(1.0), this field does not
include the IP version number. This field appears for only real servers specified as hosts.
Enter a unique IP address as indicated by the IP Address Type field. The IP address cannot be of an
existing virtual IP address (VIP), real server or interface in the context.
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Fail-On-All Field that appears only for real servers identified as host servers.
By default, real servers with multiple probes configured for them have an OR logic associated with
them, which means that if one of the real server probes fails, the real server fails and enters the
PROBE-FAILED state.
Check this checkbox to configure a real server to remain in the OPERATIONAL state unless all
probes associated with it fail (AND logic).
The Fail-On-All function is applicable to all probe types.
Min. Connections Minimum number of connections to be allowed on this server before the ACE starts sending
connections again after it has exceeded the Max. Connections limit. This value must be less than or
equal to the Max. Connections value. By default, this value is equal to the Max. Connections value.
Valid entries are from 2 to 4000000.
Max. Connections Maximum number of active connections allowed on this server. When the number of connections
exceeds this value, the ACE stops sending connections to this server until the number of
connections falls below the Min. Connections value. Valid entries are from 2 to 4000000, and the
default is 4000000.
Weight Field that appears only for real servers identified as hosts.
Enter the weight to be assigned to this real server in a server farm. Valid entries are from 1 to 100,
and the default is 8.
Probes Field that appears only as follows:
• For all host real servers. The Available probe list contains all configured probe types.
• For redirect real servers configured on ACE devices that use the following software versions:
– ACE module: A2(3.x) and later releases
– ACE appliance: A3(x) and later releases
The redirect real server Available probe list contains only configured probes of the type
Is Routed, which means that the ACE routes the probe address according to the ACE internal
routing table (see the “Configuring Health Monitoring for Real Servers” section on page 8-51).
In the Probes field, choose the probes to use for health monitoring in the Available Items list, and
click Add. The probes appear in the Selected Items list.
Note The probe must have the same IP address type (IPv6 or IPv4) as the real server. For
example, you cannot configure an IPv6 probe to an IPv4 real server. IPv6 requires ACE
module and ACE appliance software Version A5(1.0) or later.
Note The list of available probes does not include VM probes used to monitor local VM usage.
To remove probes that you do not want to use for health monitoring, choose them in the Selected
Items list, and click Remove. The probes appear in the Available probe list.
Table 8-1 Real Server Attributes (continued)
Field Description
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Configuring Real Servers
Step 5 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Real Servers
table.
• Click Next to deploy your entries and to configure another real server.
Step 6 To display statistics and status information for an existing real server, choose a real server from the Real
Servers table, then click Details. The show rserver name detail CLI command output appears. See the
“Displaying Real Server Statistics and Status Information” section on page 8-9 for details.
Related Topics
• Managing Real Servers, page 8-9
• Configuring Health Monitoring for Real Servers, page 8-51
• Configuring Server Farms, page 8-30
Web Host Redirection URL string used to redirect requests to another server. This field appears only for real servers
identified as redirect servers. Enter the URL and port used to redirect requests to another server.
Valid entries are in the form http://host.com:port where host is the name of the server and port is
the port to be used. Valid host entries are unquoted text strings with no spaces and a maximum of
255 characters. Valid port numbers are from 1 to 65535.
The relocation string supports the following special characters:
• %h—Inserts the hostname from the request Host header
• %p—Inserts the URL path string from the request
Redirection Code Field that appears only for real servers identified as redirect servers.
Choose the appropriate redirection code:
• N/A—Webhost redirection code is not defined.
• 301—Requested resource has been moved permanently. For future references to this resource,
the client should use one of the returned URIs.
• 302—Requested resource has been found, but has been moved temporarily to another location.
For future references to this resource, the client should use the request URI because the
resource may be moved to other locations from time to time.
Rate Bandwidth Bandwidth rate is the number of bytes per second and applies to the network traffic exchanged
between the ACE and the real server in both directions.
Specify the real server bandwidth limit in bytes per second. Valid entries are from 2 to 300000000.
The default is 300000000.
Rate Connection Connection rate is the number of connections per second received by the ACE and applies only to
new connections destined to a real server.
Specify the limit for connections per second. Valid entries are from 2 to 350000. The default is
350000.
Table 8-1 Real Server Attributes (continued)
Field Description
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• Configuring Sticky Groups, page 9-7
Displaying Real Server Statistics and Status Information
You can display statistics and status information for a particular real server.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Real Servers.
The Real Servers table appears.
Step 2 In the Real Servers table, choose a real server from the Real Servers table, and click Details.
The show rserver name detail CLI command output appears. For details on the displayed output fields,
see either the Cisco ACE Module Server Load-Balancing Configuration Guide or the Cisco ACE 4700
Series Appliance Server Load-Balancing Configuration Guide, Chapter 2, Configuring Real Servers and
Server Farms.
Step 3 Click Update Details to refresh the output for the show rserver name detail CLI command. The new
information appears in a separate panel with a new timestamp; both the old and the new real server
statistics and status information appear side-by-side to avoid overwriting the last updated information.
Step 4 Click Close to return to the Real Servers table.
Related Topics
• Configuring Real Servers, page 8-5
• Managing Real Servers, page 8-9
• Displaying Real Servers, page 8-18
Managing Real Servers
This section shows how to display and manage the real servers from the Real Servers window (Config >
Operations > Real Servers). This window provides you with information about each real server
configured on ANM (see the “Displaying Real Servers” section on page 8-18) and provides access to
function buttons that allow you to perform tasks such as activate or suspend a real server, display a real
server topology map, or display connection statistics graphs.
Guidelines and Restrictions
The Real Servers window contains a Rows per page option that includes an All setting for displaying all
configured real servers in one window. Use the All setting for viewing purposes only. ANM does not
allow you to perform any operation from this window if you have more than 200 real servers selected.
For example, if you use the All option to display and select more than 200 real servers and then attempt
to perform the suspend operation, ANM cancels the request and displays an error message.
This section includes the following topics:
• Managing Real Server Groups, page 8-10
• Activating Real Servers, page 8-14
• Suspending Real Servers, page 8-15
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• Modifying Real Server Weight Value, page 8-17
• Displaying Real Servers, page 8-18
• Using the Real Server Connection Statistics Graph, page 8-22
• Using the Real Server Topology Map, page 8-23
• CLI Commands Sent from the Real Server Table, page 8-23
• Server Weight Ranges, page 8-25
Managing Real Server Groups
This section describes how to organize real servers into groups, which allows you to display and manage
a specific group of real servers without having to filter the real server display. When creating a group,
you specify whether the group is available to just you or is available globally to all ANM users.
The real server group feature is available from the real servers operations window (Config >
Operations > Real Servers), which contains the Groups option for managing object groups. Figure 8-1
shows the Groups icon with the following available options for managing object groups:
• Create New Group—Adds a new group.
• Edit Group—Modifies an existing group. This option displays only after you select a group to
display in Group mode.
• Exit Group Mode—Changes the display from the specific group display to the display of all real
servers. This option displays only after you select a group and the display enters the Group mode.
• Saved Groups—Lists the currently configured groups with each group’s privilege level (local or
global) and owner. From this view, you can choose a group to display or delete a group.
Figure 8-1 Object Grouping for Real Servers
Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
• When you create a global group, other users can see the group if they have access to at least one
object within the group. This rule does not apply to the admin user or a user with the anm-admin
role because they have visibility to all global groups.
• To edit or delete a group, you must be the group owner, a user with the anm-admin role, or the admin
user.
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• When you delete a locally authenticated user from the ANM database, ANM deletes all the global
and user-specific groups that the user created. However, when you delete a remotely authorized user
from the remote AAA server database, ANM does not delete the groups that the user created. In this
case, you must manually delete the user’s groups.
This section includes the following topics:
• Creating a Real Server Group, page 8-11
• Editing or Copying a Real Server Group, page 8-12
• Displaying a Real Server Group, page 8-13
• Deleting a Real Server Group, page 8-13
Creating a Real Server Group
You can create a real server group.
Procedure
Step 1 Choose Config > Operations > Real Servers.
The Real Servers table appears.
Step 2 Click the Groups icon located above the Real Servers table.
The Groups menu appears below the icon (see Figure 8-1).
Step 3 From the Groups menu, choose Create New Group.
The display enters the edit mode and the Creating a New Group table appears with the list of the available
real servers.
Step 4 From the Creating a New Group table, check the check box next to the real servers that you want to
include in the group.
Step 5 (Optional) Check the Hide unselected check box to display only the real servers that you have chosen.
Uncheck the check box to display all the available real servers.
Step 6 Do one of the following:
• Click Save as to save the group information. The Create Group popup window appears.
From the popup window, do the following:
a. In the Group Name text box, enter a name for the group. Enter 1 to 64 alphanumeric characters.
Special characters and spaces are allowed.
b. Choose the availability of the group by clicking one of the following radio buttons:
– This user only (local)—Only you can view, modify, or delete the group.
– All users (global)—All ANM users can view the group if they have permission to view at least
one of the real servers associated with the group. A user with the admin or anm-admin can view
all groups and can also edit or delete any group.
c. Do one of the following:
– Click Save to save the group information. The Create Group popup window closes and the
Viewing Group table appears, displaying the new group’s name and associated real servers.
To exit Group mode and return to the Real Servers table, click the Groups icon and click Exit
Group Mode from the Groups menu.
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– Click Cancel to close the Create Group popup window without saving any information and to
return to the Creating a New Group table.
• Click Back to View to exit the Group mode and return to the Virtual Servers table.
Related Topics
• Managing Real Server Groups, page 8-10
• Editing or Copying a Real Server Group, page 8-12
• Displaying a Real Server Group, page 8-13
• Deleting a Real Server Group, page 8-13
Editing or Copying a Real Server Group
You can edit a real server group or create a copy of a real server group under a different name.
Procedure
Step 1 Choose Config > Operations > Real Servers.
The Real Servers table appears.
Step 2 Click the Groups icon located above the Real Servers table.
The Groups menu appears below the icon (see Figure 8-1).
Step 3 From the Groups menu, choose the group that you want to edit.
The Viewing Group table appears, displaying the selected group’s name and associated real servers.
Step 4 Click the Groups icon again and from the Groups menu, choose Edit Group.
The Editing Group table appears, displaying the complete list of available real servers with the real
servers currently associated with the group highlighted and checked.
Step 5 Modify the group as needed by adding (check) or removing (uncheck) real servers as needed. Skip this
step if you only want to save a copy of the current group under a different name.
Step 6 Do one of the following:
• Click Save to save the changes and return to the Viewing Group table, where you can view the
changes.
• Click Save as to save the configuration under a new group name. The Create Group popup window
appears.
From the popup window, do the following:
a. In the Group Name text box, enter a name for the group. Enter 1 to 64 alphanumeric characters.
Special characters and spaces are allowed.
b. Choose the availability of the group by clicking one of the following radio buttons:
– This user only (local)—Only you can view, modify, or delete the group.
– All users (global)—All ANM users can view the group if they have permission view at least
one of the real servers associated with the group. The admin user or a user with the anm-admin
role can view all global groups and can also edit or delete these groups.
c. Do one of the following:
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– Click Save to save the group information. The Create Group popup window closes and the
Viewing Group table appears, displaying the new group’s name and associated real servers.
– Click Cancel to close the Create Group popup window without saving any information and to
return to the Creating a New Group table.
Click Back to View to exit the edit mode and return to the Group mode.
Step 7 (Optional) To exit Group mode and return to the Real Servers table, click the Groups icon and click Exit
Group Mode from the Groups menu.
Related Topics
• Managing Real Server Groups, page 8-10
• Creating a Real Server Group, page 8-11
• Displaying a Real Server Group, page 8-13
• Deleting a Real Server Group, page 8-13
Displaying a Real Server Group
You can display the list of real servers associated with a real server group.
Procedure
Step 1 Choose Config > Operations > Real Servers.
The Real Servers table appears.
Step 2 Click the Groups icon located above the Real Servers table.
The Groups menu appears below the icon (see Figure 8-1).
Step 3 From the Groups menu, choose the group that you want to display.
The Viewing Group table appears, displaying the selected group’s name and associated real servers.
Step 4 (Optional) To exit Group mode and return to the Real Servers table, click the Groups icon and click Exit
Group Mode from the Groups menu.
Related Topics
• Managing Real Server Groups, page 8-10
• Creating a Real Server Group, page 8-11
• Editing or Copying a Real Server Group, page 8-12
• Deleting a Real Server Group, page 8-13
Deleting a Real Server Group
You can delete a real server group. Deleting a real server group does not delete the group’s associated
real servers from the ANM database.
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Procedure
Step 1 Choose Config > Operations > Real Servers.
The Real Servers table appears.
Step 2 Click the Groups icon located above the Real Servers table.
The Groups menu appears below the icon (see Figure 8-1).
Step 3 From the Groups menu, click X (delete) next to the group that you want to delete.
The Delete Group confirmation popup window appears.
Step 4 From the Delete Group confirmation popup window, do one of the following:
• Click Delete to removes the real server group.
• Click Cancel to ignore the deletion request.
Related Topics
• Managing Real Server Groups, page 8-10
• Creating a Real Server Group, page 8-11
• Editing or Copying a Real Server Group, page 8-12
• Displaying a Real Server Group, page 8-13
Activating Real Servers
You can activate a real server.
Note If you are using the ANM plug-in for vCenter Server to access ANM, see the “Activating Real Servers
Using vSphere Client” section on page B-15.
Procedure
Step 1 Choose Config > Operations > Real Servers.
The Real Servers table appears.
Step 2 (Optional) To display only the real servers of a specific real server group, do the following:
a. Click the Groups icon located above the Real Servers table. The Groups menu appears below the
icon (see Figure 8-1).
b. From the Groups menu, choose the group to display.
Step 3 From the Real Servers table, choose the servers that you want to activate, and click Activate.
The Activate Server window appears.
Step 4 In the Reason field of the Activate Server window, enter a reason for this action.
You might enter a trouble ticket, an order ticket, or a user message.
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Note Do not enter a password in this field.
Step 5 Do one of the following:
• Click OK to activate the server and to return to the Real Servers table. The server appears in the
table with the status Inservice.
• Click Cancel to exit this procedure without activating the server and to return to the Real Servers
table.
Related Topics
• Managing Real Servers, page 8-9
• Managing Real Server Groups, page 8-10
• Suspending Real Servers, page 8-15
• Displaying Real Servers, page 8-18
• Using the Real Server Connection Statistics Graph, page 8-22
• Using the Real Server Topology Map, page 8-23
Suspending Real Servers
You can suspend a real server.
Note If you are using the ANM plug-in for vCenter Server to access ANM, see the “Suspending Real Servers
Using vSphere Client” section on page B-16.
Procedure
Step 1 Choose Config > Operations > Real Servers.
The Real Servers table appears.
Step 2 (Optional) To display only the real servers of a specific real server group, do the following:
a. Click the Groups icon located above the Real Servers table. The Groups menu appears below the
icon (see Figure 8-1).
b. From the Groups menu, choose the group to display.
Step 3 In the Real Servers table, choose the server that you want to suspend, and click Suspend.
The Suspend Real Servers window appears.
Step 4 In the Reason field of the Suspend Real Servers window, enter the reason for this action.
You might enter a trouble ticket, an order ticket, or a user message.
Note Do not enter a password in this field.
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Step 5 From the Suspend Real Servers Type drop-down list, choose one of the following:
• Graceful—When executed on a primary server, the ACE gracefully shuts down the server with
sticky connections as follows:
– Tears down existing non-TCP connections to the server
– Allows current TCP connections to complete
– Allows new sticky connections for existing server connections that match entries in the sticky
database
– Load balances all new connections (other than the matching sticky connections mentioned
above) to the other servers in the server farm
When executed on a backup real server, the ACE places the backup server in service standby mode.
Note For the CSS, when the device is in the In Service admin state and you perform a graceful suspend
operation, ANM saves the last known non-zero service (or real server) weight, and then sets the
weight to zero. ANM references the saved weight when performing an Activate operation. If the
current weight is zero, and a non-zero weight has been saved for that service (or real server), the
Activate operation also sets the weight to the saved value.
To allow ANM to save and reset the weight value when gracefully suspending and then
activating the CSS, you must have the device configured to permit SNMP traffic. For each device
type, see the corresponding configuration guide to configure the device to permit SNMP traffic.
When the CSS is in the In Service Standby admin state and you perform a graceful suspend
operation, ANM does not set the weight to zero.
Note Graceful suspend and suspend options vary by device type. For the commands deployed by the
device type when these options are selected, see the “CLI Commands Sent from the Real Server
Table” section on page 8-23.
• Suspend—The ACE resets all non-TCP connections to the server. For TCP connections, existing
flows are allowed to complete before the ACE takes the real server out of service. No new
connections are allowed. The ACE resets all Secure Sockets Layer (SSL) connections to the real
server.
• Suspend and Clear Connections—Performs the tasks described for Suspend and clears the existing
connections to this server.
Step 6 Do one of the following:
• Click Deploy Now to suspend the server and to return to the Real Servers table. The server appears
in the table with the status Out Of Service.
• Click Cancel to exit this procedure without suspending the server and to return to the Real Servers
table.
Related Topics
• Managing Real Servers, page 8-9
• Managing Real Server Groups, page 8-10
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• Activating Real Servers, page 8-14
• Displaying Real Servers, page 8-18
• Using the Real Server Connection Statistics Graph, page 8-22
• Using the Real Server Topology Map, page 8-23
Modifying Real Server Weight Value
You can modify the weight value assigned to a real server that defines the connection capacity of the
server in relation to the other real servers. The ACE uses the weight value that you specify for a server
in the weighted round-robin and least-connections load-balancing predictors. Servers with a higher
configured weight value have a higher priority with respect to connections than servers with a lower
weight. For example, a server with a weight of 5 would receive five connections for every one connection
for a server with a weight of 1.
Note If you are using the ANM plug-in for vCenter Server to access ANM, see the “Modifying Real Server
Weight Value Using vSphere Client” section on page B-18.
Procedure
Step 1 Choose Config > Operations > Real Servers.
The Real Servers table appears.
Step 2 (Optional) To display only the real servers of a specific real server group, do the following:
a. Click the Groups icon located above the Real Servers table. The Groups menu appears below the
icon (see Figure 8-1).
b. From the Groups menu, choose the group to display.
Step 3 In the Real Servers table, choose the servers whose configuration you want to modify, and click Change
Weight below the table to the right of Activate and Suspend.
The Change Weight Real Servers window appears.
Step 4 In the Change Weight Real Servers window, enter the following information for the selected server:
• Reason for change such as trouble ticket, order ticket or user message.
Note Do not enter a password in this field.
• Weight value (for allowable ranges for each device type, see Table 8-5).
Step 5 Do one of the following:
• Click Deploy Now to accept your entries and to return to the Real Servers table. The server appears
in the table with the updated information.
• Click Cancel to exit this procedure without saving your entries and to return to the Real Servers
table.
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Related Topics
• Managing Real Servers, page 8-9
• Managing Real Server Groups, page 8-10
• Activating Real Servers, page 8-14
• Displaying Real Servers, page 8-18
• Using the Real Server Connection Statistics Graph, page 8-22
• Using the Real Server Topology Map, page 8-23
Displaying Real Servers
You can display the list of real servers configured on ANM with information specific to each server.
Procedure
Step 1 Choose Config > Operations > Real Servers.
The Real Servers table appears, which contains the information described in Table 8-2.
Note In the table, N/A indicates that either the information is not available from the database or that
it is not being collected using SNMP.
Table 8-2 Real Server Table Fields
Item Description
Name Real server name.
For CSM real servers only, if you have the reverse DNS lookup feature enabled, ANM displays the
DNS name of the CSM real server in this field. ANM learns and updates the DNS names during the
following operations:
• CSM import
• CSM CLI synchronization
• ANM restart
By default, the reverse DNS lookup feature is disabled. You can enable it by modifying the ANM
properties file and restarting ANM as follows:
a. echo "cisco.anm.enable-csm-dns-lookup=true" >> /opt/CSCOanm/etc/cs-config.properties
b. /opt/CSCOanm/bin/anm-tool restart
IP address Real server IP address.
Port Port used by the real server for communications.
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VM Virtual machine indicator that specifies if the real server is a VMware vCenter Server virtual machine
(Yes) or is not a virtual machine (–).
If the indicator state is Yes, you can click this link to open the Virtual Machine Details popup window
to display statistical information about the VM. ANM polls the VM on a regular basis to update the
displayed information.
Click OK to close the popup window and return to the Real Servers table.
Vservers Associated virtual servers.
HA Indicators that display when the real server is part of a high availability pair. The indicators are as
follows:
• Asterisk (*)—The real server is associated with an HA pair and the HA configuration is complete.
• Red dash (-)—The real server is associated with an HA pair; however, the HA configuration is
incomplete. Typically, the HA pair are not properly configured for HA or only one of the devices
has been imported into ANM. Ensure that both devices are imported into ANM and that they are
configured as described in the “Configuring ACE High Availability” section on page 13-14.
The table displays HA pair real servers together in the same row and they remain together no matter
how you sort the information.
SLB Device Name of the server load-balancing device.
Admin Administrative state of the real server: In Service, Out Of Service, or In Service Standby.
Table 8-2 Real Server Table Fields (continued)
Item Description
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Oper Operational state of the real server. Possible states are as follows:
• Failed—Server has failed and is not retried for the amount of time specified by its retry timer.
• Inband probe failed—Server has failed the inband Health Probe agent.
• Inservice—Server is in use as a destination for server load-balancing client connections.
• Inservice standby—Server is the backup real server, which remains inactive unless the primary real
server fails.
• Operation wait—Server is ready to become operational but is waiting for the associated redirect
virtual server to be in service.
• Out of service—Server is not in use by a server load balancer as a destination for client
connections.
• Probe failed—Server load-balancing probe to this server has failed. No new connections are
assigned to this server until a probe to this server succeeds.
• Probe testing—Server has received a test probe from the server load balancer.
• Ready to test —Server has failed and its retry timer has expired; test connections will begin
flowing to it soon.
• Return code failed—Server has been disabled because it returned an HTTP code that matched a
configured value.
• Test wait—Server is ready to be tested. This state is applicable only when the server is used for
HTTP redirect load balancing.
• Testing—Server has failed and has been given another test connection. The success of this
connection is not known.
• Throttle: DFP —DFP has lowered the weight of the server to throttle level; no new connections
are assigned to the server until DFP raises its weight.
• Throttle: max clients—Server has reached its maximum number of allowed clients.
• Throttle: max connections —Server has reached its maximum number of connections and is no
longer being given connections.
• Unknown—State of the server is not known.
Note If you have the Details popup window feature enabled, click the value in this column to
open the Details popup window and display detailed information about the real server. By
default, this feature is disabled. For information about enabling or disabling this feature,
see the “Enabling the ACE Real Server Details Popup Window Option” section on
page 18-64.
Conn Number of current connections.
Wt Current server weight.
Table 8-2 Real Server Table Fields (continued)
Item Description
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Step 2 (Optional) To display only the real servers of a specific real server group, do the following:
a. Click the Groups icon located above the Real Servers table. The Groups menu appears below the
icon (see Figure 8-1).
b. From the Groups menu, choose the group to display.
Step 3 (Optional) Use the function buttons located at the bottom of the window to activate or suspend a real
server, change the weight assigned to a real server, and so forth. Table 8-3 describes the check box and
function button options.
Step 4 (Optional) To identify any SNMP-related issues, select the real server’s virtual context in the object
selector. If there are problems with SNMP, the SNMP status appears in the upper right above the content
pane.
Locality Item that pertains only to ACE software Version A4(2.0) or later releases on either device type
(appliance or module). Locality also requires that you have the ACE configured for Dynamic Workload
Scaling (see the “Configuring Dynamic Workload Scaling” section on page 8-26).
Location of the real server, which must be a VM and not a physical server. Possible locality states are
as follows:
• N/A—Not available; the ACE cannot determine if the real server is local or remote. A possible
cause for this issue is that Dynamic Workload Scaling is not configured correctly.
• Local—The real server is located in the local network.
• Remote—The real server is located in the remote network. The ACE bursts traffic to this server
when the CPU and/or memory usage of the local real servers reaches the specified maximum
threshold value.
Stat Age Age of the statistical information.
Server Farm Associated server farm.
Table 8-2 Real Server Table Fields (continued)
Item Description
Table 8-3 Real Server Window Check Box and Function Button Options
Check Box/Function Button Description
Poll Now Function button that updates the displayed information.
Activate Function button that activates a suspended real server (see the “Activating Real Servers”
section on page 8-14).
Suspend Function button that suspends an active real server (see the “Suspending Real Servers” section
on page 8-15).
Change Weight Function button used to change the weight assigned to a real server (see the “Server Weight
Ranges” section on page 8-25).
Graph Function button that displays the statistics graph for a selected real server (see the “Using the
Real Server Connection Statistics Graph” section on page 8-22).
Topology Function button that displays the topology map for a selected real server (see the “Using the
Real Server Topology Map” section on page 8-23).
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Related Topics
• Displaying Real Server Statistics and Status Information, page 8-9
• Using the Real Server Connection Statistics Graph, page 8-22
• Managing Real Server Groups, page 8-10
• Using the Real Server Topology Map, page 8-23
• Activating Real Servers, page 8-14
• Suspending Real Servers, page 8-15
• Modifying Real Server Weight Value, page 8-17
• Enabling the ACE Real Server Details Popup Window Option, page 18-64
• Filtering Entries, page 1-14
Using the Real Server Connection Statistics Graph
You can display real time and historical statistical information about the connections of a real server.
ANM displays the information in graph or chart form. This feature also allows you to compare similar
connection information across multiple real servers.
Procedure
Step 1 Choose Config > Operations > Real Servers.
The Real Servers table appears.
Step 2 (Optional) To display only the real servers of a specific real server group, do the following:
a. Click the Groups icon located above the Real Servers table. The Groups menu appears below the
icon (see Figure 8-1).
b. From the Groups menu, choose the group to display.
Step 3 In the Real Servers table, check the check box next to server whose connection information you want to
display, and click Graph.
You can choose up to four real servers if you want to compare statistical data.
The Real Server Graph window appears, displaying the default graph for each selected real server. For
details about using the graph feature, see the “Configuring Historical Trend and Real Time Graphs for
Devices” section on page 17-48.
Related Topics
• Managing Real Server Groups, page 8-10
• Activating Real Servers, page 8-14
• Suspending Real Servers, page 8-15
• Modifying Real Server Weight Value, page 8-17
• Displaying Real Servers, page 8-18
• Using the Real Server Topology Map, page 8-23
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Using the Real Server Topology Map
You can display the nodes on your network based on the real server that you select.
Procedure
Step 1 Choose Config > Operations > Real Servers.
The Real Servers table appears.
Step 2 (Optional) To display only the real servers of a specific real server group, do the following:
a. Click the Groups icon located above the Real Servers table. The Groups menu appears below the
icon (see Figure 8-1).
b. From the Groups menu, choose the group to display.
Step 3 In the Real Servers table, choose the server whose topology map you want to display, and click
Topology.
The ANM Topology map appears. The map includes several tools for navigating the network map and
zooming in and out. For details about using the map tools, see the “Displaying Network Topology Maps”
section on page 17-68.
Step 4 Click Exit to return to the Real Server widow.
Related Topics
• Managing Real Server Groups, page 8-10
• Activating Real Servers, page 8-14
• Suspending Real Servers, page 8-15
• Modifying Real Server Weight Value, page 8-17
• Displaying Real Servers, page 8-18
• Using the Real Server Connection Statistics Graph, page 8-22
CLI Commands Sent from the Real Server Table
Table 8-4 displays the CLI commands dispatched to the device for a given Real Servers table option and
is sorted by device type.
Table 8-4 CLI Commands Deployed from the Real Servers Table
Command Sample CLI Sent
ACE Modules and Appliances
Real Server Activation serverfarm host sf1
rserver rs1 80
inservice
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Real Server Graceful
Suspend
serverfarm host sf1
rserver rs1 80
inservice standby
Real Server Suspend serverfarm host sf1
rserver rs1 80
no inservice
Real Server Suspend
and Clear Connections
serverfarm host sf1
rserver rs1 80
no inservice
clear conn rserver rs1 80 serverfarm sf1
Real Server Change
Weight
serverfarm host sf1
rserver rs1 80
weight 2
CSMs
Real Server Activation serverfarm host sf1
real 10.10.10.10 80
inservice
Real Server Graceful
Suspend
serverfarm host sf1
real 10.10.10.10 80
inservice standby
Real Server Suspend serverfarm host sf1
real 10.10.10.10 80
no inservice
Real Server Suspend
and Clear Connections
serverfarm host sf1
real 10.10.10.10 80
no inservice
clear module contentSwitchingModule 3 connections real 10.10.10.10
Real Server Change
Weight
serverfarm host sf1
rserver 10.10.10.10 80
weight 2
CSM Named Real Commands Sent
Real Server Activation serverfarm host sf1
real name rs1 80
inservice
Real Server Graceful
Suspend
serverfarm host sf1
real name rs1 80
inservice standby
Table 8-4 CLI Commands Deployed from the Real Servers Table (continued)
Command Sample CLI Sent
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Managing Real Servers
Server Weight Ranges
Table 8-5 displays the allowable server weight ranges by device type.
Real Server Suspend serverfarm host sf1
real name rs1 80
no inservice
Real Server Suspend
and Clear Connections
serverfarm host sf1
real name rs1 80
no inservice
clear module contentSwitchingModule 3 connections real 10.10.10.10
Real Server Change
Weight
serverfarm host sf1
real name rs1 80
weight 2
CSS Devices
Real Server Activation service myReal7
active
Real Server Graceful
Suspend
service myReal7
weight 0
Real Server Suspend service myReal7
suspend
Real Server Suspend
and Clear Connections
service myReal7
suspend
Real Server Change
Weight
service myReal7
weight 2
Table 8-4 CLI Commands Deployed from the Real Servers Table (continued)
Command Sample CLI Sent
Table 8-5 Real Servers Table Server Weight Ranges
Device Type Valid Weight Configurations
ACE Appliances and Modules 1 to 100
CSMs 0 to 100
CSS Devices 0 to 10
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Configuring Dynamic Workload Scaling
Configuring Dynamic Workload Scaling
Note Dynamic Workload Scaling requires ACE software Version A4(2.0) or later release on either device type
(appliance or module).
This section describes how to configure the ACE Dynamic Workload Scaling (DWS) feature, which
enables an ACE to burst traffic to a remote pool of VMs when the average CPU and/or memory usage
of the local VMs has reached a specified maximum threshold value. When the usage drops below a
specified minimum threshold value, the ACE stops bursting traffic to the remote VMs.
Note To enable the ACE to use the VMs associated with DWS for load balancing, you must configure them
as real servers on the ACE (see the “Configuring Real Servers” section on page 8-5).
For more information about DWS, see the “ANM Overview” section on page 1-1 and the “Dynamic
Workload Scaling Overview” section on page 8-4.
Prerequisites
DWS requires the following configuration elements:
• An ACE with software Version A4(2.0) or later and configured with the following items:
– Nexus 7000 Series switch—XML interface IP address of the local Cisco Nexus 7000 Series
switch that the ACE polls to obtain VM location information (local or remote). You can define
up to two switch profiles per Admin context depending on the ACE software version (see
Guidelines and Restrictions). For information about defining a switch profile, see the
“Configuring and Verifying a Cisco Nexus 7000 Series Switch Connection” section on
page 8-27.
Note The Nexus 7000 Series switch must be configured for DCI/OTV in the local data center
and in the remote data center. For details about configuring a Nexus 7000 for DCI/OTV,
see the Cisco Nexus 7000 NX-OS OTV Configuration Guide, Release 5.x.
– VM Controller—IP address of the VM Controller (also known as VMware vCenter Server) that
the ACE sends a health probe to monitor usage of the local VMs associated with a server farm.
– VM probe—Probe that the ACE sends to the VM Controller to monitor local VM usage based
on CPU usage, memory usage, or both (see the “Configuring Health Monitoring” section on
page 8-49).
– Server Farms—Groups of networked real servers (physical servers and VMs) that provide
content delivery (see the “Configuring Server Farms” section on page 8-30).V
• VMware vCenter Server 4.0 or later.
• Multiple local and remote VMs configured as real servers and associated with server farms
configured on the ACE.
• ACE backend interface MTU set to 1430 or less to accommodate DCI encapsulation and the Don’t
Fragment (DF) bit is automatically set on the DCI link. For details about setting the ACE MTU, see
the Cisco 4700 Series Application Control Engine Appliance Routing and Bridging Configuration
Guide.
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Configuring Dynamic Workload Scaling
This section includes the following topics:
• Configuring and Verifying a Cisco Nexus 7000 Series Switch Connection, page 8-27
• Configuring and Verifying a VM Controller Connection, page 8-29
Configuring and Verifying a Cisco Nexus 7000 Series Switch Connection
Note This feature requires ACE software Version A4(2.0) or later release on either device type (appliance or
module).
You can configure an ACE with the Cisco Nexus 7000 Series switch attributes required to allow the ACE
to communicate with the switch using SSH. When configured for DWS, the ACE uses the Nexus 7000
Series switch to obtain VM location information (local or remote).
You can also use this procedure to edit the attributes of an existing Nexus 7000 Series switch profile or
remove a switch profile.
Guidelines and Restrictions
The number of Nexus 7000 Series switch profiles that you can define per ACE Admin context is as
follows:
• ACE software Version A4(2.0) to A5(1.1)—One switch profile only.
• ACE software Version A5(1.2) or later—Up to two switch profiles.
Procedure
Step 1 Choose Config > Devices > Admin_context > Load Balancing > Dynamic Workload Scaling > Nexus
7000 Setup.
The Nexus 7000 Setup pane appears.
Note If existing Nexus 7000 Series switch profiles already exist, the Name field lists their profile
names in drop-down list on the right. Multiple switch profiles requires ACE software Version
A5(1.2) or later.
Step 2 From the Nexus 7000 Setup pane, do one of the following:
• To define a new Nexus 7000 series switch profile, do the following:
a. From the Name field, click the text box radio button if it is not already selected and enter a
Nexus 7000 name with a maximum of 64 characters. See the Note at the beginning of this chapter
for ACE object naming specifications.
b. From the Primary IP filed, enter the Nexus 7000 XML interface IP address in dotted-decimal
format (such as 192.168.11.1).
c. From the User Name field, enter the username that the ACE uses for access and authentication on
the Nexus 7000 Series switch. Valid entries are unquoted text strings with a maximum of
64 characters with no spaces.
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Note The user must have either the vdc-admin or network-admin role to receive the Nexus 7000
Series switch output for the VM location information in XML format.
d. From the Password field, enter the password that the ACE uses for authentication on the
Nexus 7000 Series switch. Valid entries are unquoted text strings with a maximum of 64 characters
with no spaces.
e. From the Confirm field, reenter the password and go to Step 3.
• To edit an existing Nexus 7000 Series switch profile, do the following:
a. From the Name field, click the radio button for the drop down list that contains the list of existing
switch profile names.
b. From the drop down list, choose the switch profile to edit. The current profile attributes display.
c. Edit the profile fields as described in the procedure above for creating a new profile and go to
Step 3.
Step 3 Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
Note Configuring the ACE for DWS also requires configuring the ACE with the VM Controller
information (see the “Configuring and Verifying a VM Controller Connection” section on
page 8-29) and configuring a VM health probe (see the “Configuring Health Monitoring” section
on page 8-49).
Step 4 (Optional) Click Details to verify connectivity between the ACE and the Nexus 7000 Series switch.
The ACE show nexus-device device_name detail CLI command output displays in a popup window and
includes information such as the device name, IP address, and connection information. For more
information about the command output, see the Cisco 4700 Series Application Control Engine Appliance
Server Load-Balancing Configuration Guide.
Step 5 (Optional) Click Delete to delete the currently configured Cisco Nexus 7000 series switch.
Caution If the ACE is currently configured for DWS, deleting the Nexus 7000 Series switch disables the feature.
Related Topics
• Configuring and Verifying a VM Controller Connection, page 8-29
• Configuring Health Monitoring, page 8-49
• Configuring Dynamic Workload Scaling, page 8-26
• Dynamic Workload Scaling Overview, page 8-4
• Configuring Real Servers, page 8-5
• Configuring Load Balancing Using Server Farms, page 8-31
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Configuring Dynamic Workload Scaling
Configuring and Verifying a VM Controller Connection
Note This feature requires ACE software Version A4(2.0) or later release on either device type (appliance or
module).
You can configure an ACE with the VM Controller (VMware vCenter Server) attributes required to allow
the ACE to communicate with the VM Controller to obtain local VM load information.
Guidelines and Restrictions
Configure only one VM Controller per ACE Admin context.
Prerequisites
The ACE is configured to communicate with the local Cisco Nexus 7000 Series switch that enables the
ACE to discover the locality of the VM Controller VMs (see the “Configuring and Verifying a Cisco
Nexus 7000 Series Switch Connection” section on page 8-27).
Procedure
Step 1 Choose Config > Devices > Admin_context > Load Balancing > Dynamic Workload Scaling > VM
Controller Setup.
The VM Controller Setup pane appears.
Step 2 From the VM Controller Setup pane, define the VM Controller using the information in Table 8-6.
Step 3 Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
Note Configuring the ACE for Dynamic Workload Scaling also requires configuring the ACE with the
Nexus 7000 information (see the “Configuring and Verifying a Cisco Nexus 7000 Series Switch
Connection” section on page 8-27) and configuring a VM health probe (see the “Configuring
Health Monitoring” section on page 8-49).
Table 8-6 VM Controller Setup
Field Description
Name VM Controller name (see the Note at the beginning of this chapter for ACE object naming specifications).
URL IP address or URL for the VM Controller web services API agent. The URL must point to the
VM Controller software development kit (SDK). For example, https://1.2.3.4/sdk. Enter up to 255
characters.
User Name Username that the ACE uses for access and authentication on the VM Controller. The user must have a
read-only role at least or a role with a read privilege. Valid entries are unquoted text strings with a maximum
of 64 characters and no spaces.
Password Password that the ACE uses for authentication on the VM Controller. Valid entries are unquoted text strings
with a maximum of 64 characters and no spaces.
Reenter the password in the Confirm field.
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Step 4 (Optional) Click Details to verify connectivity between the ACE and the remote VM Controller.
The ACE show vm-controller device_name detail CLI command output displays in a popup window
and includes information such as the VM Controller status, IP address, and connection information.
Step 5 (Optional) Click Delete to delete the currently configured VM Controller.
Note If the ACE is currently configured for Dynamic Workload Scaling, you must delete the
associated VM health probe before you can delete the VM controller (see the “Configuring
Health Monitoring” section on page 8-49).
Related Topics
• Configuring and Verifying a Cisco Nexus 7000 Series Switch Connection, page 8-27
• Configuring Health Monitoring, page 8-49
• Configuring Dynamic Workload Scaling, page 8-26
• Dynamic Workload Scaling Overview, page 8-4
• Configuring Real Servers, page 8-5
• Configuring Load Balancing Using Server Farms, page 8-31
Configuring Server Farms
You can configure load balancing using server farms, which are groups of networked real servers
(physical servers and VMs) that contain the same content and that typically reside in the same physical
location in a data center.
Websites often include groups of servers configured in a server farm. Load-balancing software
distributes client requests for content or services among the real servers based on the configured policy
and traffic classification, server availability and load, and other factors. If one server goes down, another
server can take its place and continue to provide the same content to the clients who requested it.
Guidelines and Restrictions
• With Dynamic Workload Scaling configured on the ACE, the real servers that are VMs can also
reside in a remote datacenter (see the “Configuring Dynamic Workload Scaling” section on
page 8-26).
• A server farm can support a mix of IPv6 and IPv4 real servers, and can be associated with both IPv6
and IPv4 probes. IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later.
This section includes the following topics:
• Configuring Load Balancing Using Server Farms, page 8-31
• Adding Real Servers to a Server Farm, page 8-37
• Configuring the Predictor Method for Server Farms, page 8-39
• Configuring Server Farm HTTP Return Error-Code Checking, page 8-46
• Displaying All Server Farms, page 8-48
• Displaying Server Farm Statistics and Status Information, page 8-48
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Configuring Server Farms
Configuring Load Balancing Using Server Farms
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Server Farms.
The Server Farms table appears.
Step 2 In the Server Farms table, click Poll Now to instruct ANM to poll the devices and display the current
values, and click OK when prompted if you want to poll the devices for data now.
Step 3 Click Add to add a new server farm, or choose an existing server farm and click Edit.
The Server Farms configuration window appears.
Step 4 In the Server Farms configuration window, configure the server farm using the information in Table 8-7.
Table 8-7 Server Farm Attributes
Field Description
Name Unique name for this server farm or accept the automatically incremented value in this field. Valid
entries are unquoted text strings with no spaces and a maximum of 64 characters.
Type Type of server farm as follows:
• Host—Server farm consists of real servers that provide content and services to clients.
• Redirect—Server farm consists only of real servers that redirect client requests to alternate
locations specified in the real server configuration. (See the “Configuring Real Servers” section
on page 8-5.)
Description Brief description for this server farm. Valid entries are unquoted alphanumeric text strings with no
spaces and a maximum of 240 characters.
Fail Action Action that the ACE is to take with respect to connections if any real server in the server farm fails:
• N/A—The ACE is to take no action if any server in the server farm fails.
• Purge—The ACE is to remove connections to a real server if that real server in the server farm
fails. The ACE sends a reset command to both the client and the server that failed.
• Reassign—The ACE is to reassign the existing server connections to the backup real server (if
configured) if the real server fails after you enter this command. If a backup real server has not
been configured for the failing server, this selection leaves the existing connections untouched
in the failing real server.
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Failaction Reassign
Across Vlans
Option that is available only for the ACE module A2(3.0), ACE appliance A4(1.0), and later
releases of either device type. This field appears only when the Fail Action is set to Reassign.
Check the check box to specify that the ACE reassigns the existing server connections to the backup
real server on a different VLAN interface (commonly referred to as a bypass VLAN) if the real
server fails. If a backup real server has not been configured for the failing server, this option has no
effect and leaves the existing connections untouched in the failing real server.
Note the following configuration requirements and restrictions when you enable this option:
• Enable the Transparent option (see the next Field) to instruct the ACE not to use NAT to
translate the ACE VIP address to the server IP address. The Failaction Reassign Across Vlans
option is intended for use in stateful firewall load balancing (FWLB) on your ACE, where the
destination IP address for the connection coming in to the ACE is for the end-point real server,
and the ACE reassigns the connection so that it is transmitted through a different next hop.
• Enable the MAC Sticky option on all server-side interfaces to ensure that packets that are going
to and coming from the same server in a flow will traverse the same firewalls or stateful devices
(see the “Configuring Virtual Context VLAN Interfaces” section on page 12-6).
• Configure the Predictor Hash Address option after you add the serverfarm (see the
“Configuring the Predictor Method for Server Farms” section on page 8-39).
• You must configure identical policies on the primary interface and the backup-server interface.
The backup interface must have the same feature configurations as the primary interface.
• If you configure a policy on the backup-server interface that is different from the policies on
the primary-server interface, that policy will be effective only for new connections. The
reassigned connection will always have only the primary-server interface policies.
• Interface-specific features (for example, NAT, application protocol inspection, outbound
ACLs, or SYN cookie) are not supported.
• You cannot reassign connections to the failed real server after it comes back up. This restriction
also applies to same-VLAN backup servers.
• Real servers must be directly connected to the ACE. This requirement also applies to
same-VLAN backup server.
• You must disable sequence number randomization on the firewall (see the “Configuring
Connection Parameter Maps” section on page 10-3).
• Probe configurations should be similar on both ACEs and the interval values should be low. For
example, if you configure a high interval value on ACE-1 and a low interval value on ACE-2,
the reassigned connections may become stuck because of the probe configuration mismatch.
ACE-2 with the low interval value will detect the primary server failure first and will reassign
all its incoming connections to the backup-server interface VLAN. ACE-1 with the high
interval value may not detect the failure before the primary server comes back up and will still
point to the primary server.
To minimize packet loss, we recommend the following probe parameter values on both ACEs:
Interval: 2, Faildetect: 2, Passdetect interval: 2, and Passdetect count: 5.
Table 8-7 Server Farm Attributes (continued)
Field Description
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Transparent Field that appears only for host server farms.
Specify whether network address translation from the VIP address to the server IP is to occur.
Check the check box to indicate that network address translation from the VIP address to the server
IP address is to occur. Uncheck the check box to indicate that network address translation from the
VIP address to the server IP address is not to occur.
Dynamic Workload
Scaling
Option that is available only for ACE software Version A4(2.0) or later release on either device type
(appliance or module). Field that appears only for host server farms.
Allows the ACE to burst traffic to remote VMs when the average CPU or memory usage of the local
VMs has reached its specified maximum threshold value. The ACE stops bursting traffic to the
remote VMs when the average CPU or memory usage of the local VMs has dropped below its
specified minimum threshold value. This option requires that you have the ACE configured for
Dynamic Workload Scaling using a Nexus 7000, VM Controller, and VM probe (see the
“Configuring Dynamic Workload Scaling” section on page 8-26).
Click one of the following radio button options:
• N/A—Not applicable (default).
• Local—Restricts the ACE to use of local VMs only for server load balancing.
• Burst—Enables the ACE to burst traffic to remote VMs when needed.
When you choose Burst, the VM Probe Name field displays along with a list of available VM
probes. Choose an available VM probe or click Add to display the Health Monitoring popup
window and create or edit a VM probe (see the “Configuring Health Monitoring” section on
page 8-49).
Fail-On-All Field that appears only for host server farms.
By default, real servers that you configure in a server farm inherit the probes that you configure
directly on that server farm. When you configure multiple probes on a server farm, the real servers
in the server farm use an OR logic with respect to the probes, which means that if one of the probes
configured on the server farm fails, all the real servers in that server farm fail and enter the
PROBE-FAILED state. With AND logic, if one server farm probe fails, the real servers in the server
farm remain in the operational state. If all the probes associated with the server farm fail, then all
the real servers in that server farm fail and enter the PROBE-FAILED state.
Check this check box to configure the real servers in a server farm to use AND logic with respect
to multiple server farm probes.
The Fail-On-All function is applicable to all probe types.
Table 8-7 Server Farm Attributes (continued)
Field Description
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Inband-Health Check Option that is available only for the ACE module A4(1.0), ACE appliance A4(1.0), and later
releases of either device type. Field that appears only for host server farms.
By default, the ACE monitors the health of all real servers in a configuration through the use of
ARPs and health probes. However, there is latency period between when the real server goes down
and when the ACE becomes aware of the state. The inband health monitoring feature allows the
ACE to monitor the health of the real servers in the server farm through the following connection
failures:
• For TCP, resets (RSTs) from the server or SYN timeouts.
• For UDP, ICMP Host, Network, Port, Protocol, and Source Route unreachable messages.
When you configure the failure-count threshold and the number of these failures exceeds the
threshold within the reset-time interval, the ACE immediately marks the server as failed, takes it
out of service, and removes it from load balancing. The server is not considered for load balancing
until the optional resume-service interval expires.
The Inband-Health Check attributes are as follows:
• Count—Tracks the total number of TCP or UDP failures, and increments the counters.
• Log—Logs a syslog error message when the number of events reaches the threshold value that
you set for the Connection Failure Threshold Count attribute.
• Remove—Logs a syslog error message when the number of events reaches the configured
threshold and removes the real server from service.
Connection Failure
Threshold Count
This field appears only when the Inband-Health Check is set to Log or Remove.
Enter the maximum number of connection failures that a real server can exhibit in the reset-time
interval before ACE marks the real server as failed. Valid entries are as follows:
• ACE appliance—1 to 4294967295
• ACE module—4 to 4294967295
Reset Timeout
(Milliseconds)
This field appears only when the Inband-Health Check is set to Log or Remove.
Enter the number of milliseconds for the reset-time interval. Valid entries are integers from 100 to
300000. The default interval is 100.
This interval starts when the ACE detects a connection failure. If the connection failure threshold
is reached during this interval, the ACE generates a syslog message. If you configure the remove
keyword, the ACE also removes the real server from service.
Changing the setting of this option affects the behavior of the real server, as follows:
• When the real server is in the OPERATIONAL state, even if several connection failures have
occurred, the new reset-time interval takes effect the next time that a connection error occurs.
• When the real server in the INBAND-HM-FAILED state, the new reset-time interval takes
effect the next time that a connection error occurs after the server transitions to the
OPERATIONAL state.
Table 8-7 Server Farm Attributes (continued)
Field Description
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Resume Service
(Seconds)
Field that appears only when the Inband-Health Check is set to Remove.
Enter the number of seconds after a server has been marked as failed to reconsider it for sending
live connections. Valid entries are integers from 30 to 3600. The default setting is 0. The setting of
this option affects the behavior of the real server in the inband failed state, as follows:
• When this field is not configured and has the default setting of 0, the real server remains in the
failed state until you manually suspend and then reactivate it.
• When this field is not configured and has the default setting of 0 and then you configure this
option with an integer between 30 and 3,600, the failed real server immediately transitions to
the Operational state.
• When you configure this field and then increase the value, the real server remains in the failed
state for the duration of the previously-configured value. The new value takes effect the next
time the real server transitions to the failed state.
• When you configure this field and then decrease the value, the failed real server immediately
transitions to the Operational state.
• When you configure this field with an integer between 30 and 3,600 and then reset it to the
default of 0, the real server remains in the failed state for the duration of the
previously-configured value. The default setting takes effect the next time the real server
transitions to the failed state. Then the real server remains in the failed state until you manually
suspend and then reactivate it.
• When you change this field within the reset-time interval the real server in the OPERATIONAL
with several connection failures, the new threshold interval takes effect the next time that a
connection error occurs, even if it occurs within the current reset-time interval.
Partial-Threshold
Percentage
Field that appears only for host server farms.
Enter the minimum percentage of real servers in the primary server farm that must remain active
for the server farm to stay up. If the percentage of active real servers falls below this threshold, the
ACE takes the server farm out of service. Valid entries are from 0 to 99. The default is 0.
Back Inservice Field that appears only for host server farms.
Enter the percentage of real servers in the primary server farm that must be active again for the ACE
to place the server farm back into service. Valid entries are from 0 to 99. The value in this field
should be larger than the value in the Partial Threshold Percentage field. The default is 0.
Table 8-7 Server Farm Attributes (continued)
Field Description
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Configuring Server Farms
Step 5 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
The window refreshes with additional configuration options:
– To add real servers to the server farm, see the “Adding Real Servers to a Server Farm” section
on page 8-37.
– To specify a predictor method for the server farm, see the “Configuring the Predictor Method
for Server Farms” section on page 8-39.
– To configure return code checking, see the “Configuring Server Farm HTTP Return Error-Code
Checking” section on page 8-46.
• Click Cancel to exit the procedure without saving your entries and to return to the Server Farms
table.
• Click Next to deploy your entries and to configure another server farm.
Step 6 (Optional) To display statistics and status information for an existing server farm, choose a server farm
from the Server Farms table, and click Details.
The show serverfarm name detail CLI command output appears. See the “Displaying Server Farm
Statistics and Status Information” section on page 8-48 for details.
Probes Field that appears only as follows:
• For all host server farms. The Available probe list contains all probe types.
• For redirect server farms configured on ACE devices that use the following software versions:
– ACE module: A2(3.x) and later releases
– ACE appliance: A3(x) and later releases
The redirect server farm Available probe list contains only probes of the type Is Routed, which
means that the ACE routes the probe address according to the ACE internal routing table (see
the “Configuring Health Monitoring for Real Servers” section on page 8-51).
In the Available Items list, choose the probes to use for health monitoring, and click Add. The
selected probes appear in the Selected Items list.
Note You can associate both IPv6 and IPv4 probes to a server farm. IPv6 requires ACE module
and ACE appliance software Version A5(1.0) or later.
Note The list of available probes does not include VM health monitoring probes. To choose a VM
probe for monitoring local VM usage, see the Dynamic Workload Scaling field.
To remove probes that you do not want to use for health monitoring, select them in the Selected
Items list, and click Remove. The selected probes appear in the Available Items list.
Table 8-7 Server Farm Attributes (continued)
Field Description
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Related Topics
• Configuring Health Monitoring for Real Servers, page 8-51
• Configuring Real Servers, page 8-5
• Configuring Sticky Groups, page 9-7
• Configuring the Predictor Method for Server Farms, page 8-39
• Configuring Server Farm HTTP Return Error-Code Checking, page 8-46
• Configuring Dynamic Workload Scaling, page 8-26
Adding Real Servers to a Server Farm
You can add real servers to a server farm. After adding a server farm (see the “Configuring Server Farms”
section on page 8-30), you can associate real servers with it and configure predictors and retcode maps.
The options for these attributes appear after you have successfully added a new server farm.
Assumptions
This topic assumes the following:
• A server farm has been added to ANM (see the “Configuring Server Farms” section on page 8-30).
• At least one real server exists.
Consideration
A server farm can support a mix of IPv6 and IPv4 real servers. IPv6 requires ACE module and ACE
appliance software Version A5(1.0) or later.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Server Farms.
The Server Farms table appears.
Step 2 In the Server Farms table, choose the server farm that you want to associate with real servers.
The Real Servers table appears.
Step 3 In the Real Servers table, click Add to add a new entry, or select an existing server and click Edit to
modify it.
The Real Servers configuration pane appears.
Step 4 In the Real Servers configuration pane, configure the real server using the information in Table 8-8.
Table 8-8 Real Server Configuration Attributes
Field Description
Name Server that you want to associate with the server farm.
Port Port number to be used for server port address translation (PAT). Valid entries are from 1 to 65535.
Backup Server Name Server that is to act as the backup server for the server farm. Leave this field blank to indicate that
there is no designated backup server for the server farm.
Backup Server Port Server port number. If you select a backup server, enter the backup server port number. Valid
entries are from 1 to 65535.
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Fail-On-All Field that appears only for real servers identified as host servers.
By default, real servers with multiple probes configured for them have an OR logic associated with
them. This means that if one of the real server probes fails, the real server fails and enters the
PROBE-FAILED state.
Check this checkbox to configure a real server to remain in the OPERATIONAL state unless all
probes associated with it fail (AND logic).
The Fail-On-All function is applicable to all probe types.
State State of this server as follows:
• In Service—The server is in service.
• In Service Standby—The server is a backup server and remains inactive unless the primary
server fails. If the primary server fails, the backup server becomes active and starts accepting
connections.
• Out Of Service—The server is out of service.
Min. Connections Minimum number of connections that the number of connections must fall below before the ACE
resumes sending connections to the server after it has exceeded the number in the Max.
Connections field. The number in this field must be less than or equal to the number in the Max.
Connections field.
For ACE appliances, valid entries are from 2 to 4294967295.
For ACE modules, valid entries are from 2 to 4000000.
Max. Connections Maximum number of active connections that can be sent to the server. When the number of
connections exceeds this number, the ACE stops sending connections to the server until the
number of connections falls below the number specified in the Min. Connections field.
For ACE appliances, valid entries are from 2 to 4294967295.
For ACE modules, valid entries are from 2 to 4000000.
Weight Weight to assign to the server. Valid entries are from 1 to 100. The default is 8.
Probes Probes to apply to the server. Choose the probes in the Available Items list that you want to apply
to this server, and click Add. The selected probes appear in the Selected Items list. To remove
probes that you do not want to use, choose the probes in the Selected Items list, and click Remove.
The selected probes appear in the Available Items list.
Note The VM probe type does not display in the Available Items list even if you have one
configured.
Rate Bandwidth Bandwidth rate, which is the number of bytes per second and applies to the network traffic
exchanged between the ACE and the real server in both directions.
Specify the bandwidth limit in bytes per second. Valid entries are from 2 to 300000000. The
default is 300000000.
Rate Connection Connection rate, which is the number of connections per second received by the ACE and applies
only to new connections destined to a real server.
Specify the limit for connections per second. Valid entries are from 2 to 350000. The default is
350000.
Table 8-8 Real Server Configuration Attributes (continued)
Field Description
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Step 5 When you finish configuring this server for this server farm, do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Real Servers table.
• Click Cancel to exit this procedure without saving your entries and to return to the Real Servers
table.
• Click Next to deploy your entries and to add another real server for this server farm.
Related Topics
• Configuring Health Monitoring for Real Servers, page 8-51
• Configuring Real Servers, page 8-5
• Configuring Sticky Groups, page 9-7
• Configuring the Predictor Method for Server Farms, page 8-39
• Configuring Server Farm HTTP Return Error-Code Checking, page 8-46
• Configuring Dynamic Workload Scaling, page 8-26
Configuring the Predictor Method for Server Farms
You can configure the predictor method for a server farm. The predictor method specifies how the ACE
is to select a server in the server farm when it receives a client request for a service. After adding a server
farm (see the “Configuring Server Farms” section on page 8-30), you can associate real servers with it
and configure the predictor method and retcode maps. The options for these attributes appear after you
have successfully added a new server farm.
Note You can configure only one predictor method per server farm.
Assumptions
This topic assumes the following:
• A server farm has been added to ANM (see the “Configuring Server Farms” section on page 8-30.)
• At least one real server exists.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Server Farms.
The Server Farms table appears.
Step 2 In the Server Farms table, choose the server farm that you want to configure the predictor method for,
and click the Predictor tab.
The Predictor configuration pane appears.
Step 3 In the Type field of the Predictor configuration pane, choose the method that the ACE is to use to select
a server in this server farm when it receives a client request (see Table 8-9).
Step 4 Enter the required information for the selected predictor method (see Table 8-9).
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Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Table 8-9 Predictor Method Attributes
Predictor Method Description / Action
Hash Address Server selection method that uses a hash value based on the source or destination IP address.
To configure the hash address predictor method, do the following:
a. In the Mask Type field, indicate whether server selection is based on source IP address or the
destination IP address as follows:
– N/A—This option is not defined.
– Destination—The server is selected based on the destination IP address.
– Source—The server is selected based on the source IP address.
Note If you configure the server farm with IPv6 and IPv4 Hash Address predictors at the same time,
both predictors must have the same mask type. IPv6 requires ACE module and ACE appliance
software Version A5(1.0) or later.
b. In the IP Netmask field, choose the subnet mask to apply to the address. If none is specified, the
default is 255.255.255.255.
c. In the IPv6 Prefix-Length field, enter the IPv6 prefix length. If none is specified, the default is 128.
This field appears only for ACE module and ACE appliance software Version A5(1.0) or later.
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Hash Content Server selection method that uses a hash value based on the specified content string of the HTTP packet
body. Do the following:
a. In the Begin Pattern field, enter the beginning pattern of the content string and the pattern string to
match before hashing. If you do not specify a beginning pattern, the ACE starts parsing the HTTP
body immediate following the offset byte. You cannot configure different beginning and ending
patterns for different server farms that are part of the same traffic classification.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters. The ACE supports regular expressions for matching string expressions. Table 14-33 lists
the supported characters that you can use for matching string expressions.
b. In the End Pattern field, enter the pattern that marks the end of hashing. If you do not specify either
a length or an end pattern, the ACE continues to parse the data until it reaches the end of the field
or the end of the packet, or until it reaches the maximum body parse length. You cannot configure
different beginning and ending patterns for different server farms that are part of the same traffic
classification.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters. The ACE supports regular expressions for matching string expressions. Table 14-33 lists
the supported characters that you can use for matching string expressions.
c. In the Length (Bytes) field, enter the length in bytes of the portion of the content (starting with the
byte after the offset value) that the ACE uses for sticking the client to the server. Valid entries are
from 1 to 1000 bytes.
The offset and length can vary from 0 to 1000 bytes. If the payload is longer than the offset but
shorter than the offset plus the length of the payload, the ACE sticks the connection based on that
portion of the payload starting with the byte after the offset value and ending with the byte specified
by the offset plus the length. The total of the offset and the length cannot exceed 1000.
Note You cannot specify both the length and the end-pattern options for a Hash Content predictor.
d. In the HTTP Content Offset (Bytes) field, enter the portion of the content that the ACE uses to stick
the client on a particular server by indicating the bytes to ignore starting with the first byte of the
payload. Valid entries are integers from 0 to 999 bytes. The default is 0, which indicates that the
ACE does not exclude any portion of the content.
Hash Cookie Server selection method that uses a hash value based on the cookie name.
In the Cookie Name field, enter a cookie name in the form of an unquoted text string with no spaces and
a maximum of 64 characters.
Hash Header Server selection method that uses a hash value based on the header name.
In the Header Name field, choose the HTTP header to be used for server selection as follows:
• To specify an HTTP header that is not one of the standard HTTP headers, click the first radio button
and enter the HTTP header name in the Header Name field. Valid entries are unquoted text strings
with no spaces and a maximum of 64 characters.
• To specify one of the standard HTTP headers, click the second radio button, and then choose one
of the HTTP headers from the list.
Table 8-9 Predictor Method Attributes (continued)
Predictor Method Description / Action
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Hash Layer4 Layer 4 generic protocol load-balancing method. Use this predictor to load balance packets from
protocols that are not explicitly supported by the ACE.
a. In the Begin Pattern field, enter the beginning pattern of the Layer 4 payload and the pattern string
to match before hashing. If you do not specify a beginning pattern, the ACE starts parsing the HTTP
body immediate following the offset byte. You cannot configure different beginning and ending
patterns for different server farms that are part of the same traffic classification.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters. The ACE supports regular expressions for matching string expressions. Table 14-33 lists
the supported characters that you can use for matching string expressions.
b. In the End Pattern field, enter the pattern that marks the end of hashing. If you do not specify either
a length or an end pattern, the ACE continues to parse the data until it reaches the end of the field
or the end of the packet, or until it reaches the maximum body parse length. You cannot configure
different beginning and ending patterns for different server farms that are part of the same traffic
classification.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters. The ACE supports regular expressions for matching string expressions. Table 14-33 lists
the supported characters that you can use for matching string expressions.
c. In the Length (Bytes) field, enter the length in bytes of the portion of the payload (starting with the
byte after the offset value) that the ACE uses for sticking the client to the server. Valid entries are
from 1 to 1000 bytes.
The offset and length can vary from 0 to 1000 bytes. If the payload is longer than the offset but
shorter than the offset plus the length of the payload, the ACE sticks the connection based on that
portion of the payload starting with the byte after the offset value and ending with the byte specified
by the offset plus the length. The total of the offset and the length cannot exceed 1000.
Note You cannot specify both the length and end-pattern options for a Hash Layer 4 predictor.
d. In the HTTP Content Offset (Bytes) field, enter the portion of the content that the ACE uses to stick
the client on a particular server by indicating the bytes to ignore starting with the first byte of the
payload. Valid entries are from 0 to 999 bytes. The default is 0, which indicates that the ACE does
not exclude any portion of the content.
Hash URL Server selection method that uses a hash value based on the URL. Use this method to load balance
firewalls.
Enter values in one or both of the pattern fields as follows:
• In the URL Begin Pattern field, enter the beginning pattern of the URL and the pattern string to
parse.
• In the URL End Pattern field, enter the ending pattern of the URL and the pattern string to parse.
Valid entries for these fields are unquoted text strings with no spaces and a maximum of 255
alphanumeric characters for each pattern that you configure. The following special characters are also
allowed: @ # $
Table 8-9 Predictor Method Attributes (continued)
Predictor Method Description / Action
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Least Bandwidth Server with the least amount of network traffic over a specified sampling period. Do the following:
a. In the Assess Time (Seconds) field, enter the number of seconds for which the ACE is to collect
traffic information. Valid entries are from 1 to 10 seconds.
b. In the Least Bandwidth Samples field, enter the number of samples over which you want to weight
and average the results of the probe query to calculate the final load value. Valid entries are 1, 2, 4,
8, and 16 (values from 1 to 16 that are also a power of 2).
Least Connections Server with the fewest number of connections.
In the Slow Start Duration (Seconds) field, enter the slow-start value to be applied to this predictor
method. Valid entries are from 1 to 65535, where 1 is the slowest ramp-up value.
The slow-start mechanism is used to avoid sending a high rate of new connections to servers that you
have just put into service.
Table 8-9 Predictor Method Attributes (continued)
Predictor Method Description / Action
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Least Loaded Least loaded server based on information from SNMP probes. Do the following:
a. In the SNMP Probe Name field, choose the name of the SNMP probe to use.
b. In the Auto Adjust field, configure the autoadjust feature to instruct the ACE to apply the maximum
load of 16000 to a real server whose load reaches zero or override the default behavior. By default,
the ACE applies the average load of the server farm to a real server whose load is zero. The ACE
periodically adjusts this load value based on feedback from the server SNMP probe and other
configured options. Options include the following:
– Average—Instructs the ACE to apply the average load of the server farm to a real server whose
load is zero. This setting allows the server to participate in load balancing, while preventing it
from being flooded by new connections. This is the default setting.
– Maxload—Instructs the ACE to apply the maximum load of the server farm to a real server
whose load reaches zero.
The maxload option requires the following ACE software versions:
- ACE appliance—A3(2.7) or A4(1.0) or later
- ACE module—A2(2.4), A2(3.2), or A4(1.0) or later
If you choose the maxload option and the ACE does not support the option, ANM issues a
command parse error message.
– Off—Instructs the ACE to send all new connections to the server that has a load of zero until
the next load update arrives from the SNMP probe for this server. There may be times when
you want the ACE to send all new connections to a real server whose load is zero.
c. In the Weight Connection field, check the check box to instruct the ACE to use the current
connection count in the final load calculation for a real server. When you configure this option, the
ACE includes the current connection count in the total load calculation for each real server in a
server farm. Uncheck the check box to reset the behavior of the ACE to the default of excluding the
current connection count from the load calculation.
To instruct the ACE to select the server with the lowest load, use the predictor least-loaded command
in server farm host or redirect configuration mode. With this predictor, the ACE uses SNMP probes to
query the real servers for load parameter values (for example, CPU utilization or memory utilization).
This predictor is considered adaptive because the ACE continuously provides feedback to the
load-balancing algorithm based on the behavior of the real server.
To use this predictor, you must associate an SNMP probe with it. The ACE queries user-specified OIDs
periodically based on a configurable time interval. The ACE uses the retrieved SNMP load value to
determine the server with the lowest load.
The syntax of this predictor command is as follows:
predictor least-loaded probe name
The name argument specifies the identifier of the existing SNMP probe that you want the ACE to use
to query the server. Enter an unquoted text string with no spaces and a maximum of 64 alphanumeric
characters.
Table 8-9 Predictor Method Attributes (continued)
Predictor Method Description / Action
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Step 5 Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
Related Topics
• Configuring Health Monitoring for Real Servers, page 8-51
• Configuring Real Servers, page 8-5
• Configuring Sticky Groups, page 9-7
• Adding Real Servers to a Server Farm, page 8-37
• Configuring Dynamic Workload Scaling, page 8-26
Least Loaded
(continued)
For example, to configure the ACE to select the real server with the lowest load based on feedback from
an SNMP probe called PROBE_SNMP, enter the following commands:
host1/Admin(config)# serverfarm SF1
host1/Admin(config-sfarm-host)# predictor least-loaded probe PROBE_SNMP
host1/Admin(config-sfarm-host-predictor)#
To reset the predictor method to the default of round-robin, enter the following command:
host1/Admin(config-sfarm-host)# no predictor
Response Server selection method based on the lowest response time for a requested response-time measurement.
a. In the Response Type field, select the type of measurement to use as follows:
– App-Req-To-Resp—The response time from when the ACE sends an HTTP request to a server
to the time that the ACE receives a response from the server for that request.
– Syn-To-Close—The response time from when the ACE sends a TCP SYN to a server to the
time that the ACE receives a CLOSE from the server.
– Syn-To-Synack—The response time from when the ACE sends a TCP SYN to a server to the
time that the ACE receives a SYN-ACK from the server.
b. In the Response Samples field, enter the number of samples over which you want to average the
results of the response-time measurement. Valid entries are 1, 2, 4, 8, and 16 (values from 1 to 16
that are also a power of 2).
c. In the Weight Connection field, check the check box to instruct the ACE to use the current
connection count in the final load calculation for a real server. When you configure this option, the
ACE includes the current connection count in the total load calculation for each real server in a
server farm. Uncheck the check box to reset the behavior of the ACE to the default of excluding the
current connection count from the load calculation.
Round Robin Server selection method in which The ACE selects the next server in the list of servers based on server
weight. This method is the default predictor.
Table 8-9 Predictor Method Attributes (continued)
Predictor Method Description / Action
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Configuring Server Farm HTTP Return Error-Code Checking
Note This feature is available only for server farms configured as hosts. It is not available for server farms
configured with the type Redirect.
You can configure HTTP return error-code checking (retcode map) for a server farm. After adding a
server farm (see the “Configuring Server Farms” section on page 8-30), you can associate real servers
with it and configure the predictor method and retcode maps. These options appear after you have
successfully added a server farm.
Assumption
A host type server farm has been added to ANM (see the “Configuring Server Farms” section on
page 8-30).
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Server Farms.
The Server Farms table appears.
Step 2 In the Server Farms table, choose the server farm that you want to configure for return error-code
checking, and click the Retcode Map tab.
The Retcode Map table appears.
Step 3 In the Retcode Map table, click Add to add a new entry to the table.
The Retcode Map configuration pane appears.
Note You cannot modify an entry in the Retcode Map table. Instead, delete the existing entry, then add
a new one.
Step 4 In the Lowest Retcode field of the Retcode Map configuration pane, enter the minimum value for an
HTTP return error code.
Valid entries are from 100 to 599. This number must be less than or equal to the number in the Highest
Retcode field.
Step 5 In the Highest Retcode field, enter the maximum number for an HTTP return error code.
Valid entries are from 100 to 599. This number must be greater than or equal to the number in the Lowest
Retcode field.
Step 6 In the Type field, specify the action to be taken and related options using the information in Table 8-10.
Note For ACE appliances, the only available option is Count.
Table 8-10 Return-Code Type Configuration Options
Option Description
Count Total number of return codes received for each return code number that you specify.
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Step 7 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Retcode Map
table.
• Click Next to deploy your entries and to add another retcode map.
Log Syslog error message generated when the number of events reaches a specified threshold.
a. In the Threshold field, enter the number of events that the ACE is to receive before generating a syslog error
message. Valid entries are as follows:
– ACE appliance (all) and ACE module pre A4(1.0)—1 to 4294967295.
– ACE module A4(1.0)—4 to 4294967295.
b. In the Reset (Seconds) field, enter the time interval in seconds for which the ACE checks for the return code.
Valid entries are as follows:
– ACE appliance or module pre A4(1.0)—1 to 4294967295
– ACE appliance or module A4(1.0) and later—1 to 2147483647
Remove The ACE generates a syslog error message when the number of events reaches a specified threshold and then
removes the server from service.
a. In the Threshold field, enter the number of events that the ACE is to receive before generating a syslog error
message and removing the server from service. Valid entries are from 1 to 4294967295.
b. In the Reset (Seconds) field, enter the time interval in seconds for which the ACE checks for the return code.
Valid entries are from 1 to 4294967295 seconds.
c. In the Resume Service (Seconds) field, enter the number of seconds that the ACE waits before it resumes
service for the real server automatically after taking the real server out of service. Valid entries are 30 to 3600
seconds. The default is 0 seconds. The setting of this field affects the behavior of the real server in the failed
state, as follows:
– When this field is not configured and has the default setting of 0, the real server remains in the failed state
until you manually remove it from service and read it.
– When this field is not configured and has the default setting of 0 and then you configure it with an integer
between 30 and 3,600, the failed real server immediately transitions to the Operational state.
– When you configure this field and then increase the value, the real server remains in the failed state for
the duration of the previously-configured value. The new value takes effect the next time the real server
transitions to the failed state.
– When you configure this field and then decrease the value, the failed real server immediately transitions
to the Operational state.
– When you configure this field with an integer between 30 and 3,600 and then reset it to the default of 0,
the real server remains in the failed state for the duration of the previously-configured value. The default
setting takes effect the next time the real server transitions to the failed state. Then the real server remains
in the failed state until you manually remove it from service and read it.
Table 8-10 Return-Code Type Configuration Options (continued)
Option Description
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Related Topics
• Information About Virtual Contexts, page 6-2
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Real Servers, page 8-5
• Configuring Sticky Groups, page 9-7
• Configuring Dynamic Workload Scaling, page 8-26
Displaying All Server Farms
You can display all server farms associated with a virtual context.
Procedure
Step 1 Choose Config > Devices.
The Virtual Contexts table appears.
Step 2 In the Virtual Contexts table, choose the virtual context with the server farms you want to display, and
click Load Balancing > Server Farms.
The Server Farms table appears with the following information:
• Server farm name
• Server farm type (either host or redirect)
• Description
• Number of real servers associated with the server farm
• Number of predictor methods for the server farm
• Number of entries in the HTTP retcode map table
You can click on any of the entries in the last three columns to view specific information about those
entries.
Related Topics
• Displaying Server Farm Statistics and Status Information, page 8-48
• Configuring Server Farms, page 8-30
• Adding Real Servers to a Server Farm, page 8-37
• Configuring the Predictor Method for Server Farms, page 8-39
• Configuring Server Farm HTTP Return Error-Code Checking, page 8-46
• Configuring Dynamic Workload Scaling, page 8-26
Displaying Server Farm Statistics and Status Information
You can display statistics and status information for a particular server farm.
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Configuring Health Monitoring
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Server Farms.
The Server Farms table appears.
Step 2 In the Server Farms table, choose a server farm from the Server Farms table, and click Details.
The show serverfarm name detail CLI command output appears. For details about the displayed output
fields, see the Cisco ACE Module Server Load-Balancing Configuration Guide or the Cisco ACE 4700
Series Appliance Server Load-Balancing Configuration Guide, Chapter 2, Configuring Real Servers and
Server Farms.
Step 3 Click Update Details to refresh the output for the show serverfarm name detail CLI command.
The new information appears in a separate panel with a new timestamp; both the old and the new server
farm statistics and status information appear side-by-side to avoid overwriting the last updated
information.
Step 4 Click Close to return to the Server Farms table.
Related Topics
• Displaying All Server Farms, page 8-48
• Configuring Server Farms, page 8-30
• Adding Real Servers to a Server Farm, page 8-37
• Configuring the Predictor Method for Server Farms, page 8-39
• Configuring Server Farm HTTP Return Error-Code Checking, page 8-46
• Configuring Dynamic Workload Scaling, page 8-26
Configuring Health Monitoring
You can instruct the ACE to check the health of servers and server farms by configuring health probes
(sometimes referred to as keepalives). After you create a probe, you assign it to a real server or a server
farm. A probe can be one of many types, including TCP, ICMP, Telnet, HTTP, and so on. You can also
configure scripted probes using the TCL scripting language (see the “TCL Scripts” section on
page 8-50).
The ACE sends out probes periodically to determine the status of a server, verifies the server response,
and checks for other network problems that may prevent a client from reaching a server. Based on the
server response, the ACE can place the server in or out of service, and, based on the status of the servers
in the server farm, it can make reliable load-balancing decisions.
Health monitoring on the ACE tracks the state of a server by sending out probes. Also referred to as
out-of-band health monitoring, the ACE verifies the server response or checks for any network problems
that can prevent a client to reach a server. Based on the server response, the ACE can place the server in
or out of service, and can make reliable load-balancing decisions.
The ACE identifies the health of a server in the following categories:
• Passed—The server returns a valid response.
• Failed—The server fails to provide a valid response to the ACE or the ACE is unable to reach a
server for a specified number of retries.
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Configuring Health Monitoring
By configuring the ACE for health monitoring, the ACE sends active probes periodically to determine
the server state.
The ACE supports 4000 unique probe configurations which includes ICMP, TCP, HTTP, and other
predefined health probes. The ACE also allows the opening of 1000 sockets simultaneously.
This section includes the following topics:
• “TCL Scripts” section on page 8-50
• “Configuring Health Monitoring for Real Servers” section on page 8-51
• “Configuring Probe Attributes” section on page 8-56
• “Configuring DNS Probe Expect Addresses” section on page 8-73
• “Configuring Headers for HTTP and HTTPS Probes” section on page 8-74
• “Configuring Health Monitoring Expect Status” section on page 8-74
• “Configuring an OID for SNMP Probes” section on page 8-76
• “Displaying Health Monitoring Statistics and Status Information” section on page 8-77
TCL Scripts
The ACE supports several specific types of health probes (for example HTTP, TCP, or ICMP health
probes) when you need to use a diverse set of applications and health probes to administer your network.
The basic health probe types supported in the current ACE software release may not support the specific
probing behavior that your network requires. To support a more flexible health-probing functionality, the
ACE allows you to upload and execute Toolkit Command Language (TCL) scripts on the ACE.
The TCL interpreter code in the ACE is based on Release 8.44 of the standard TCL distribution. You can
create a script to configure health probes. Script probes operate similar to other health probes available
in the ACE software. As part of a script probe, the ACE executes the script periodically, and the exit code
that is returned by the executing script indicates the relative health and availability of specific real
servers. For information on health probes, see the “Configuring Health Monitoring for Real Servers”
section on page 8-51.
For your convenience, the following sample scripts for the ACE are available to support the TCL feature
and are supported by Cisco TAC:
• ECHO_PROBE_SCRIPT
• FINGER_PROBE_SCRIPT
• FTP_PROBE_SCRIPT
• HTTP_PROBE_SCRIPT
• HTTPCONTENT_PROBE
• HTTPHEADER_PROBE
• HTTPPROXY_PROBE
• IMAP_PROBE
• LDAP_PROBE
• MAIL_PROBE
• POP3_PROBE
• PROBENOTICE_PROBE
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Configuring Health Monitoring
• RTSP_PROBE
• SSL_PROBE_SCRIPT
These scripts are located in the probe: directory and are accessible in both the Admin and user contexts.
Note that the script files in the probe: directory are read-only, so you cannot copy or modify them.
However, you can copy files from the probe: directory. For more information, see either the Cisco
Application Control Engine Module Administration Guide or the Cisco 4700 Series Application Control
Engine Appliance Administration Guide.
To load a script into memory on the ACE and enable it for use, use the script file command. For detailed
information on uploading and executing TCL scripts on the ACE, see either the Cisco ACE Module
Server Load-Balancing Configuration Guide or the Cisco ACE 4700 Series Appliance Server
Load-Balancing Configuration Guide.
Configuring Health Monitoring for Real Servers
You can establish monitoring of real servers to determine their viability in load-balancing decisions. To
check the health and availability of a real server, the ACE periodically sends a probe to the real server.
Depending on the server response, the ACE determines whether or not to include the server in its
load-balancing decision.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Health Monitoring.
The Health Monitoring table appears.
Step 2 In the Health Monitoring table, click Add to add a new health monitoring probe, or choose an existing
entry and click Edit to modify it.
The Health Monitoring window appears.
Step 3 In the Name field of the Health Monitoring window, enter a name that identifies the probe and that
associates the probe with the real server.
Valid entries are text strings with a maximum of 64 characters.
Step 4 In the Type field, choose the type of probe that you want to use.
The probe type determines what the probe sends to the real server. See Table 8-11 for the types of probes
and their descriptions.
Table 8-11 Probe Types
Probe Type Description
DNS Sends a request to a DNS server giving it a configured domain. To determine if the server is up, the ACE
must receive the configured IP address for that domain.
ECHO-TCP Sends a string to the server and compares the response with the original string. If the response string
matches the original, the server is marked as passed. If not, the ACE retries as configured before the server
is marked as failed.
ECHO-UDP Sends a string to the server and compares the response with the original string. If the response string
matches the original, the server is marked as passed. If not, the ACE retries as configured before the server
is marked as failed.
FINGER Sends a probe to the server to verify that a defined username is a username on the server.
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FTP Initiates an FTP session. By default, this probe is for an anonymous login with the option of configuring
a user ID and password. The ACE performs an FTP GET or LS to determine the outcome of the problem.
This probe supports only active connections.
HTTP Sets up a TCP connection and issues an HTTP request. Any valid HTTP response causes the probe to mark
the real server as passed.
HTTPS Similar to an HTTP probe, but this probe uses SSL to generate encrypted data.
ICMP Sends an ICMP request and listens for a response. If the server returns a response, the ACE marks the real
server as passed. If there is no response and times out, or an ICMP standard error occurs, such as
DESTINATION_UNREACHABLE, the ACE marks the real server as failed.
IMAP Initiates an IMAP session, using a configured user ID and password. Then, the probe attempts to retrieve
email from the server and validates the result of the probe based on the return codes received from the
server.
POP Initiates a POP session, using a configured user ID and password. Then, the probe attempts to retrieve
email from the server and validates the result of the probe based on the return codes received from the
server.
RADIUS Connects to a RADIUS server and logs into it to determine if the server is up.
RTSP Establishes a TCP connection and sends a request packet to the server. The ACE compares the response
with the configured response code to determine whether the probe succeeded.
Scripted Executes probes from a configured script to perform health probing. This method allows you to author
specific scripts with features not present in standard probes. For ACE appliances, the script probe filename
must first be established on the device.
SIP-TCP Establishes a TCP connection and sends an OPTIONS request packet to the user agent on the server. The
ACE compares the response with the configured response code or expected string, or both, to determine
whether the probe has succeeded. If you do not configure an expected status code, any response from the
server is marked as failed.
SIP-UDP Establishes a UDP connection and sends an OPTIONS request packet to the user agent on the server. The
ACE compares the response with the configured response code or expected string, or both, to determine
whether the probe has succeeded. If you do not configure an expected status code, any response from the
server is marked as failed.
SMTP Initiates an SMTP session by logging into the server.
SNMP Establishes a UDP connection and sends a maximum of eight SMNP OID queries to probe the server. The
ACE weighs and averages the load information that is retrieved and uses it as input to the least-loaded
algorithm for load-balancing decisions. If the retrieved value is within the configured threshold, the server
is marked as passed. If the threshold is exceeded, the server is marked as failed.
TCP Initiates a TCP handshake and expects a response. By default, a successful response causes the probe to
mark the server as passed. The probe then sends a FIN to end the session. If the response is not valid, or
if there is no response, the probe marks the real server as failed.
TELNET Establishes a connection to the real server and verifies that a greeting from the application was received.
Table 8-11 Probe Types (continued)
Probe Type Description
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Step 5 Enter health monitoring general attributes (see Table 8-12).
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Note Click More Settings to access the additional general attributes for the selected probe type. By
default, ANM hides the probe attributes with default values and the probe attributes that are not
commonly used.
UDP Sends a UDP packet to a real server. The probe marks the server as failed only if an ICMP Port
Unreachable messages is returned.
VM This probe type requires the following:
• The ACE appliance or module is using software Version A4(2.0) or a later release.
• The ACE is configured with a VM Controller connection (see the “Configuring and Verifying a VM
Controller Connection” section on page 8-29).
Sends a probe to the VMware VM Controller to determine the average amount of both CPU and memory
usage of its associated local VMs. The probe response determines whether the ACE load-balances traffic
to the local VMs only or bursts traffic to the remote VMs due to high usage of the local VMs.
Note You use a VM probe when you configure the ACE for Dynamic Workload Scaling (see the
“Configuring Dynamic Workload Scaling” section on page 8-26).
Table 8-11 Probe Types (continued)
Probe Type Description
Table 8-12 Health Monitoring General Attributes
Field Action
Description Description for this probe. Valid entries are unquoted alphanumeric text strings with no spaces and a
maximum of 240 characters.
Probe Interval
(Seconds)
Number of seconds that the ACE is to wait before sending another probe to a server marked as passed.
Valid entries are from 2 to 65535 for all probe types except the VM probe, which has a range from 300
to 65535. The default values are as follows:
• ACE appliance (all software versions)—Default is 15 seconds for all probe types except the VM
probe, which has a default of 300 seconds.
• ACE module:
– Software Version A4(1.0) and later—Default is 15 seconds for all probe types except the VM
probe, which has a default of 300 seconds.
– All software versions before A4(1.0)—Default is 120 seconds.
Note The VM probe type requires ACE software Version A4(2.0) or later on either device type.
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Pass Detect
Interval (Seconds)
Number of seconds that the ACE is to wait before sending another probe to a server marked as failed.
Valid entries are from 2 to 65535. The default values are as follows:
• ACE appliance (all software versions)—Default is 60 seconds.
• ACE module:
– Software Version A4(1.0) and later—Default is 60 seconds.
– All software versions before A4(1.0)—Default is 300 seconds.
Note This field is not applicable for the VM probe type.
Fail Detect Consecutive number of times that an ACE must detect that probes have failed to contact a server before
marking the server as failed. Valid entries are from 1 to 65535. The default is 3.
Note This field is not applicable for the VM probe type.
More Settings (Not applicable for the VM probe type)
Pass Detect Count Number of successful probe responses from the server before the server is marked as passed. Valid
entries are from 1 to 65535. The default is 3.
Receive Timeout
(Seconds)
Number of seconds that the ACE is to wait for a response from a server that has been probed before
marking the server as failed. Valid entries are from 1 to 65535. The default is 10.
Destination
IPv4/IPv6
Address1
The IPv6 option requires ACE module and ACE appliance software Version A5(1.0) or later, which
supports IPv4 and IPv6. Preferred destination IP address. By default, the probe uses the IP address from
the real or virtual server configuration for the destination IP address. To override the destination address
that the probe uses, enter the preferred destination IP address in this field.
Note The following probes support IPv6 destination addresses: DNS, HTTP, HTTPS, ICMP, TCP, and
UDP.
Note When you assign a probe to a real server, they must be configured with the same IP address type
(IPv6 or IPv4).
Is Routed 2 Check box that indicates that the destination IP address is routed according to the ACE internal routing
table. Uncheck the check box to indicate that the destination IP address is not routed according to the
ACE internal routing table.
Port By default, the precedence in which the probe inherits the port number is as follows:
• The port number that you configure for the probe.
• The configured port number from the real server in server farm.
• The configured port number from the VIP in a Layer 3 and Layer 4 class map.
• The default port number. Table 8-13 lists the default port number for each probe type.
If you explicitly configure a default port, the ACE always sends the probe to the default port. The probe
does not dynamically inherit the port number from the real server in a server farm or from the VIP
specified in the class map.
Table 8-12 Health Monitoring General Attributes (continued)
Field Action
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Step 6 Enter the attributes for the specific probe type selected as follows:
• For DNS probes, see Table 8-14.
• For Echo-TCP probes, see Table 8-15.
• For Echo-UDP probes, see Table 8-16.
• For Finger probes, see Table 8-17.
• For FTP probes, see Table 8-18.
• For HTTP probes, see Table 8-19.
• For HTTPS probes, see Table 8-20.
• There are no specific attributes for ICMP probes.
• For IMAP probes, see Table 8-21.
• For POP probes, see Table 8-22.
• For RADIUS probes, see Table 8-23.
• For RTSP probes, see Table 8-24.
1. The Dest IP Address field is not applicable to the Scripted probe type.
2. The Is Routed field is not applicable to the RTSP, Scripted, SIP-TCP, and SIP-UDP probe types.
Table 8-13 Default Port Numbers for Probe Types
Probe Type Default Port Number
DNS 53
Echo 7
Finger 79
FTP 21
HTTP 80
HTTPS 443
ICMP Not applicable
IMAP 143
POP3 110
RADIUS 1812
RTSP 554
Scripted 1
SIP (both TCP and UDP) 5060
SMTP 25
SNMP 161
Telnet 23
TCP 80
UDP 53
VM 443
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• For Scripted probes, see Table 8-25.
• For SIP-TCP probes, see Table 8-26.
• For SIP-UDP probes, see Table 8-27.
• For SMTP probes, see Table 8-28.
• For SNMP probes, see Table 8-29.
• For TCP probes, see Table 8-30.
• For Telnet probes, see Table 8-31.
• For UDP probes, see Table 8-32.
• For VM probes, see Table 8-33.
Step 7 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Health
Monitoring table.
• Click Next to deploy your entries and to configure another probe.
Step 8 (Optional) To display statistics and status information for a particular probe, choose the probe from the
Health Monitoring table, and click Details.
The show probe name detail CLI command output appears. See the “Displaying Health Monitoring
Statistics and Status Information” section on page 8-77 for details.
Related Topics
• Configuring DNS Probe Expect Addresses, page 8-73
• Configuring Headers for HTTP and HTTPS Probes, page 8-74
• Configuring Health Monitoring Expect Status, page 8-74
• Displaying Health Monitoring Statistics and Status Information, page 8-77
• Configuring Real Servers, page 8-5
• Configuring Server Farms, page 8-30
• Configuring Sticky Groups, page 9-7
Configuring Probe Attributes
You can configure health monitoring probe-specific attributes.
This section includes the following topics:
• DNS Probe Attributes, page 8-57
• Echo-TCP Probe Attributes, page 8-58
• Echo-UDP Probe Attributes, page 8-58
• Finger Probe Attributes, page 8-58
• FTP Probe Attributes, page 8-59
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• HTTP Probe Attributes, page 8-60
• HTTPS Probe Attributes, page 8-61
• IMAP Probe Attributes, page 8-63
• POP Probe Attributes, page 8-64
• RADIUS Probe Attributes, page 8-65
• RTSP Probe Attributes, page 8-65
• Scripted Probe Attributes, page 8-66
• SIP-TCP Probe Attributes, page 8-67
• SIP-UDP Probe Attributes, page 8-68
• SMTP Probe Attributes, page 8-69
• SNMP Probe Attributes, page 8-69
• TCP Probe Attributes, page 8-70
• Telnet Probe Attributes, page 8-70
• UDP Probe Attributes, page 8-71
• VM Probe Attributes, page 8-72
Refer to the following topics for additional configuration options for health-monitoring probes:
• Configuring DNS Probe Expect Addresses, page 8-73
• Configuring Headers for HTTP and HTTPS Probes, page 8-74
• Configuring Health Monitoring Expect Status, page 8-74
• Configuring an OID for SNMP Probes, page 8-76
• Displaying Health Monitoring Statistics and Status Information, page 8-77
DNS Probe Attributes
Table 8-14 lists the DNS probe attributes.
Note Click More Settings to access the additional attributes for the DNS probe type. By default, ANM hides
the probe attributes with default values and the probe attributes that are not commonly used.
To configure expect addresses for DNS probes, see the “Configuring DNS Probe Expect Addresses”
section on page 8-73.
Table 8-14 DNS Probe Attributes
Field Action
Domain Name Domain name that the probe is to send to the DNS server. Valid entries are unquoted text strings
with a maximum of 255 characters.
More Settings
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
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Echo-TCP Probe Attributes
Table 8-15 lists the Echo-TCP probe attributes.
Note Click More Settings to access the additional attributes for the Echo-TCP probe type. By default, ANM
hides the probe attributes with default values and the probe attributes that are not commonly used.
Echo-UDP Probe Attributes
Table 8-16 lists the Echo-UDP probe attributes.
Note Click More Settings to access the additional attributes for the Echo-UDP probe type. By default, ANM
hides the probe attributes with default values and the probe attributes that are not commonly used.
Finger Probe Attributes
Table 8-17 lists the Finger probe attributes.
Note Click More Settings to access the additional attributes for the Finger probe type. By default, ANM hides
the probe attributes with default values and the probe attributes that are not commonly used.
Table 8-15 Echo-TCP Probe Attributes
Field Action
Send Data ASCII data that the probe is to send to the server. Valid entries are unquoted text strings with no
spaces and a maximum of 255 characters.
More Settings
TCP Connection
Termination
Check box that when checked, configures the ACE to terminate TCP connections gracefully by
sending a FIN to the server. Uncheck the check box to configure the ACE to terminate a TCP
connection by sending an RST.
Open Timeout
(Seconds)
Number of seconds to wait when opening a connection with a real server. Valid entries are integers
from 1 to 65535. The default is as follows:
• For ACE module version A2(3.x) and earlier, the default is 10 seconds.
• For ACE module version A4(1.0) and later or ACE appliance version A3(1.x) and later, the
default is 1 second.
Table 8-16 Echo-UDP Probe Attributes
Field Action
Send Data ASCII data that the probe is to send to the server. Valid entries are unquoted text strings with no
spaces and a maximum of 255 characters.
More Settings
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
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FTP Probe Attributes
Table 8-18 lists the FTP probe attributes.
Note Click More Settings to access the additional attributes for the FTP probe type. By default, ANM hides
the probe attributes with default values and the probe attributes that are not commonly used.
To configure probe expect statuses for FTP probes, see the “Configuring Health Monitoring Expect
Status” section on page 8-74.
Table 8-17 Finger Probe Attributes
Field Action
Send Data ASCII data that the probe is to send to the server. Valid entries are unquoted text strings with no
spaces and a maximum of 255 characters.
More Settings
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
TCP Connection
Termination
Check box that when checked, configures the ACE to terminate TCP connections gracefully by
sending a FIN to the server. Uncheck the check box to configure the ACE to terminate a TCP
connection by sending an RST.
Open Timeout
(Seconds)
Number of seconds to wait when opening a connection with a real server. Valid entries are from 1
to 65535. The default is as follows:
• For ACE module version A2(3.x) and earlier, the default is 10 seconds.
• For ACE module version A4(1.0) and later or ACE appliance version A3(1.x) and later, the
default is 1 second.
Table 8-18 FTP Probe Attributes
Field Action
More Settings
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field
description.
TCP Connection Termination Check box that when checked, configures the ACE to terminate TCP connections gracefully
by sending a FIN to the server. Uncheck the check box to configure the ACE to terminate a
TCP connection by sending an RST.
Open Timeout (Seconds) Number of seconds to wait when opening a connection with a real server. Valid entries are
integers from 1 to 65535. The default is as follows:
• For ACE module version A2(3.x) and earlier, the default is 10 seconds.
• For ACE module version A4(1.0) and later or ACE appliance version A3(1.x) and later,
the default is 1 second.
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HTTP Probe Attributes
Table 8-19 lists the HTTP probe attributes.
Note Click More Settings to access the additional attributes for the HTTP probe type. By default, ANM hides
the probe attributes with default values and the probe attributes which are not commonly used.
Table 8-19 HTTP Probe Attributes
Field Action
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to determine
the port number. For more information, see the general attribute Port field description.
Request Method Type Type of HTTP request method that is to be used for this probe.
Choose one of the following:
• N/A—This option is not defined.
• Get—The HTTP request method is a GET with a URL of “/”. This request method directs the
server to get the page, and the ACE calculates a hash value for the content of the page. If the
page content information changes, the hash value no longer matches the original hash value and
the ACE assumes the service is down. This is the default request method.
• Head—The server is to only get the header for the page. Using this method can prevent the ACE
from assuming that the service is down due to changed content and therefore changed hash
values.
Request HTTP URL Field that appears if you chose Head or Get in the Request Method Type field.
Enter the URL path on the remote server. Valid entries are strings of up to 255 characters specifying
the URL path. The default path is “/”.
More Settings
Append Port Host Tag Check box that when checked, configures the ACE to append port information in the HTTP Host
header when you configure a nondefault destination port for an HTTP probe. By default, the check
box is unchecked and the ACE does not append this information.
Note This feature requires ACE module software Version A2(3.4) and ACE appliance software
Version A3(2.7) or later releases.
TCP Connection
Termination
Check box that when checked, configures the ACE to terminate TCP connections gracefully by
sending a FIN to the server. Uncheck the check box to configure the ACE to terminate a TCP
connection by sending an RST.
Open Timeout
(Seconds)
Number of seconds to wait when opening a connection with a real server. Valid entries are from 1 to
65535. The default is as follows:
• For ACE module software Version A2(3.x) and earlier, the default is 10 seconds.
• For ACE module software Version A4(1.0) and later or ACE appliance software Version A3(1.x)
and later, the default is 1 second.
User Name User identifier to be used for authentication on the real server. Valid entries are unquoted text strings
with a maximum of 64 characters.
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To configure probe headers and expect statuses for HTTP probes, see the following topics:
• Configuring Headers for HTTP and HTTPS Probes, page 8-74
• Configuring Health Monitoring Expect Status, page 8-74
HTTPS Probe Attributes
Table 8-20 lists the HTTPS probe attributes.
Note Click More Settings to access the additional attributes for the HTTPS probe type. By default, ANM
hides the probe attributes with default values and the probe attributes that are not commonly used.
Password Password to be used for authentication on the real server. Valid entries are unquoted text strings with
a maximum of 64 characters.
Reenter the password in the Confirm field.
Expect Regular
Expression
Expected response data from the probe destination. Valid entries are text strings (quotes allowed)
with a maximum of 255 characters.
Expect Regex Offset Number of characters into the received message or buffer where the ACE is to begin looking for the
string specified in the Expect Regular Expression field. Valid entries are from 1 to 4000.
Hash Check box that when checked, configures the ACE to use an MD5 hash for an HTTP GET probe.
Uncheck the check box to configure the ACE not to use an MD5 hash for an HTTP GET probe.
Hash String Field that appears if the Hash check box is selected.
Enter the 32-bit hash value that the ACE is to compare with the hash that is generated from the HTTP
page sent by the server. If you do not provide this value, the ACE generates a value the first time it
queries the server, stores this value, and matches this value with other responses from the server. A
successful comparison causes the probe to maintain an Alive state.
Enter the MD5 hash value as a quoted or unquoted hexadecimal string with 16 characters.
Table 8-19 HTTP Probe Attributes (continued)
Field Action
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Table 8-20 HTTPS Probe Attributes
Field Action
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
Request Method Type Type of HTTP request method that is to be used for this probe.
Choose one of the following:
• N/A—This option is not defined.
• Get—The HTTP request method is a GET with a URL of “/”. This request method directs the
server to get the page, and the ACE calculates a hash value for the content of the page. If the
page content information changes, the hash value no longer matches the original hash value
and the ACE assumes the service is down. This is the default request method.
• Head—The server is to only get the header for the page. Using this method can prevent the
ACE from assuming that the service is down due to changed content and as a result changed
hash values.
Request HTTP URL Field that appears if you chose Head or Get in the Request Method Type field.
Enter the URL path on the remote server. Valid entries are strings of up to 255 characters specifying
the URL path. The default path is “/’.
Cipher Choose the cipher suite to be used with this HTTPS probe:
• RSA_ANY—The HTTPS probe accepts all RSA-configured cipher suites and that no specific
suite is configured. This is the default action.
• RSA_EXPORT1024_WITH_DES_CBC_SHA
• RSA_EXPORT1024_WITH_RC4_56_MD5
• RSA_EXPORT1024_WITH_RC4_56_SHA
• RSA_EXPORT_WITH_DES40_CBC_SHA
• RSA_EXPORT_WITH_RC4_40_MD5
• RSA_WITH_3DES_EDE_CBC_SHA
• RSA_WITH_AES_128_CBC_SHA
• RSA_WITH_AES_256_CBC_SHA
• RSA_WITH_DES_CBC_SHA
• RSA_WITH_RC4_128_MD5
• RSA_WITH_RC4_128_SHA
SSL Version Version of SSL or TLS to be used in ClientHello messages sent to the server as follows:
• All—The probe is to use all SSL versions.
• SSLv3—The probe is to use SSL version 3.
• TLSv1—The probe is to use TLS version 1.
By default, the probe sends ClientHello messages with an SSL version 3 header and a TLS version
1 message.
More Settings
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To configure probe headers and expect statuses for HTTPS probes, see the following topics:
• Configuring Headers for HTTP and HTTPS Probes, page 8-74
• Configuring Health Monitoring Expect Status, page 8-74
IMAP Probe Attributes
Table 8-21 lists the IMAP probe attributes.
Append Port Host Tag Check box that when checked, configures the ACE to append port information in the HTTPS Host
header when you configure a nondefault destination port for an HTTPS probe. By default, the check
box is unchecked and the ACE does not append this information.
Note This feature requires ACE module software Version A2(3.4) and ACE appliance software
Version A3(2.7) or later releases.
TCP Connection
Termination
Check box that when checked, configures the ACE to terminate TCP connections gracefully by
sending a FIN to the server. Uncheck the check box to configure the ACE to terminate a TCP
connection by sending an RST.
Open Timeout
(Seconds)
Number of seconds to wait when opening a connection with a real server. Valid entries are from 1
to 65535. The default is as follows:
• For ACE module version A2(3.x) and earlier, the default is 10 seconds.
• For ACE module version A4(1.0) and later or ACE appliance version A3(1.x) and later, the
default is 1 second.
User Name User identifier to be used for authentication on the real server. Valid entries are unquoted text
strings with a maximum of 64 characters.
Password Password to be used for authentication on the real server. Valid entries are unquoted text strings
with a maximum of 64 characters.
Reenter the password in the Confirm field.
Expect Regular
Expression
Expected response data from the probe destination. Valid entries are text strings (quotes allowed)
with a maximum of 255 characters.
Expect Regex Offset Number of characters into the received message or buffer where the ACE is to begin looking for the
string specified in the Expect Regular Expression field. Value entries are from 1 to 4000.
Hash Check box that when checked, configures the ACE to use an MD5 hash for an HTTP GET probe.
Uncheck the check box to configure the ACE not to use an MD5 hash for an HTTP GET probe.
Hash String Field that appears if the Hash check box is selected.
Enter the 32-bit hash value that the ACE is to compare with the hash that is generated from the
HTTP page sent by the server. If you do not provide this value, the ACE generates a value the first
time it queries the server, stores this value, and matches this value with other responses from the
server. A successful comparison causes the probe to maintain an Alive state.
Enter the MD5 hash value as a quoted or unquoted hexadecimal string with 16 characters.
Table 8-20 HTTPS Probe Attributes (continued)
Field Action
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Note Click More Settings to access the additional attributes for the IMAP probe type. By default, ANM hides
the probe attributes with default values and the probe attributes are not commonly used.
POP Probe Attributes
Table 8-22 lists the POP probe attributes.
Note Click More Settings to access the additional attributes for the POP probe type. By default, ANM hides
the probe attributes with default values and the probe attributes which are not commonly used.
Table 8-21 IMAP Probe Attributes
Field Action
User Name User identifier to be used for authentication on the real server. Valid entries are unquoted text
strings with a maximum of 64 characters.
Password Password to be used for authentication on the real server. Valid entries are unquoted text strings
with a maximum of 64 characters.
Reenter the password in the Confirm field.
Mailbox Name User mailbox name from which to retrieve email for this IMAP probe. Valid entries are unquoted
text strings with a maximum of 64 characters.
Request Command Request method command for this probe. Valid entries are text strings with a maximum of 32
characters and no spaces.
More Settings
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
TCP Connection
Termination
Check box that when checked, configures the ACE to terminate TCP connections gracefully by
sending a FIN to the server. Uncheck the check box to configure the ACE to terminate a TCP
connection by sending an RST.
Open Timeout
(Seconds)
Number of seconds to wait when opening a connection with a real server. Valid entries are from 1
to 65535. The default is as follows:
• For ACE module version A2(3.x) and earlier, the default is 10 seconds.
• For ACE module version A4(1.0) and later or ACE appliance version A3(1.x) and later, the
default is 1 second.
Table 8-22 POP Probe Attributes
Field Action
User Name User identifier to be used for authentication on the real server. Valid entries are unquoted text
strings with a maximum of 64 characters.
Password Password to be used for authentication on the real server. Valid entries are unquoted text strings
with a maximum of 64 characters.
Reenter the password in the Confirm field.
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RADIUS Probe Attributes
Table 8-23 lists the RADIUS probe attributes.
Note Click More Settings to access the additional attributes for the RADIUS probe type. By default, ANM
hides the probe attributes with default values and the probe attributes that are not commonly used.
RTSP Probe Attributes
Table 8-24 lists the RTSP probe attributes.
Request Command Request method command for this probe. Valid entries are text strings with a maximum of 32
characters and no spaces.
More Settings
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
TCP Connection
Termination
Check box that when checked, configures the ACE to terminate TCP connections gracefully by
sending a FIN to the server. Uncheck the check box to configure the ACE to terminate a TCP
connection by sending an RST.
Open Timeout
(seconds)
Number of seconds to wait when opening a connection with a real server. Valid entries are from 1
to 65535. The default is as follows:
• For ACE module version A2(3.x) and earlier, the default is 10 seconds.
• For ACE module version A4(1.0) and later or ACE appliance version A3(1.x) and later, the
default is 1 second.
Table 8-22 POP Probe Attributes (continued)
Field Action
Table 8-23 RADIUS Probe Attributes
Field Action
User Secret Shared secret to be used to allow probe access to the RADIUS server. Valid entries are
case-sensitive strings with no spaces and a maximum of 64 characters.
User Name User identifier to be used for authentication on the real server. Valid entries are unquoted text
strings with a maximum of 64 characters.
Password Password to be used for authentication on the real server. Valid entries are unquoted text strings
with a maximum of 64 characters.
Reenter the password in the Confirm field.
More Settings
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
NAS IP Address IP address of the Network Access Server (NAS) in dotted-decimal format, such as 192.168.11.1.
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Note Click More Settings to access the additional attributes for the RTSP probe type. By default, ANM hides
the probe attributes with default values and the probe attributes that are not commonly used.
To configure probe expect statuses for RTSP probes, see the “Configuring Health Monitoring Expect
Status” section on page 8-74.
Scripted Probe Attributes
Table 8-25 lists the HTTP probe attributes.
Note Click More Settings to access the additional attributes for the Scripted probe type. By default, ANM
hides the probe attributes with default values and the probe attributes that are not commonly used.
Table 8-24 RTSP Probe Attributes
Field Action
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
RTSP Require Header
Value
Require header for the probe.
RTSP Proxy Require
Header Value
Proxy-Require header for the probe.
RTSP Request Method
Type
Request method type:
• N/A—No request method is selected.
• Describe—Probe is to use the Describe request type.
More Settings
TCP Connection
Termination
Check box that when checked, configures the ACE to terminate TCP connections gracefully by
sending a FIN to the server. Uncheck the check box to configure the ACE to terminate a TCP
connection by sending an RST.
Open Timeout
(Seconds)
Number of seconds to wait when opening a connection with a real server. Valid entries are from 1
to 65535. The default is as follows:
• For ACE module version A2(3.x) and earlier, the default is 10 seconds.
• For ACE module version A4(1.0) and later or ACE appliance version A3(1.x) and later, the
default is 1 second.
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SIP-TCP Probe Attributes
Table 8-26 lists the SIP-TCP probe attributes.
Note Click More Settings to access the additional attributes for the SIP-TCP probe type. By default, ANM
hides the probe attributes with default values and the probe attributes that are not commonly used.
Table 8-25 Scripted Probe Attributes
Field Action
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
Script Name Local name that you want to assign to this file on the ACE. This file can reside in the disk0:
directory or the probe: directory (if the probe: directory exists).
Note The script file must first be established on the ACE device and the name must be entered
exactly as is appears on the device. See your ACE documentation for more details.
Valid entries are unquoted text strings with no spaces and a maximum of 255 characters.
Script Arguments Valid arguments, which are unquoted text strings with no spaces; separate multiple arguments with
a space. The field limit is 255 characters.
More Settings
Script Needs To Be
Copied From Remote
Location?
Check box that indicates that the file needs to be copied from a remote server. Uncheck this check
box to indicate that the script resides locally.
Protocol Field that appears if the script is to be copied from a remote server.
Choose the protocol to be used for copying the script:
• FTP—The script is to be copied using FTP.
• TFTP—The script is to be copied using TFTP.
User Name Field that appears if FTP is selected in the Protocol field.
Enter the name of the user account on the remote server.
Password Field that appears if FTP is selected in the Protocol field.
Enter the password for the user account on the remote server.
Reenter the password in the Confirm field.
Source File Name Field appears if the script is to be copied from a remote server.
Enter the host IP address, path, and filename of the file on the remote server in the format
host-ip/path/filename where:
• host-ip represents the IP address of the remote server.
• path represents the directory path of the file on the remote server.
• filename represents the filename of the file on the remote server.
For example, your entry might be 192.168.11.2/usr/bin/my-script.ext.
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To configure probe expect statuses for SIP-TCP probes, see the “Configuring Health Monitoring Expect
Status” section on page 8-74.
SIP-UDP Probe Attributes
Table 8-27 lists the SIP-UDP probe attributes.
Note Click More Settings to access the additional attributes for the SIP-UDP probe type. By default, ANM
hides the probe attributes with default values and the probe attributes that are not commonly used.
Table 8-26 SIP-TCP Probe Attributes
Field Action
More Settings
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field
description.
TCP Connection Termination Check box that when checked, configures the ACE to terminate TCP connections gracefully
by sending a FIN to the server. Uncheck the check box to configure the ACE to terminate a
TCP connection by sending an RST.
Open Timeout (Seconds) Number of seconds to wait when opening a connection with a real server. Valid entries are
from 1 to 65535. The default is as follows
• For ACE module version A2(3.x) and earlier, the default is 10 seconds.
• For ACE module version A4(1.0) and later or ACE appliance version A3(1.x) and later,
the default is 1 second.
Expect Regular Expression Expected response data from the probe destination. Valid entries are text strings with a
maximum of 255 characters. This field accepts both single and double quotes. Double quotes
are considered delimiters so they don't appear on the device. Single quotes will appear on the
device.
Expect Regex Offset Number of characters into the received message or buffer where the ACE is to begin looking
for the string specified in the Expect Regular Expression field. Value entries are from 1 to
4000.
Table 8-27 SIP-UDP Probe Attributes
Field Action
More Settings
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
Expect Regular
Expression
Expected response data from the probe destination. Valid entries are text strings with a maximum
of 255 characters. This field accepts both single and double quotes. Double quotes are considered
delimiters so they don't appear on the device. Single quotes will appear on the device.
Expect Regex Offset Number of characters into the received message or buffer where the ACE is to begin looking for the
string specified in the Expect Regular Expression field. Value entries are from 1 to 4000.
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To configure probe expect statuses for SIP-UDP probes, see the “Configuring Health Monitoring Expect
Status” section on page 8-74.
SMTP Probe Attributes
Table 8-28 lists the SMTP probe attributes.
Note Click More Settings to access the additional attributes for the SMTP probe type. By default, ANM hides
the probe attributes with default values and the probe attributes that are not commonly used.
To configure probe expect statuses for SMTP probes, see the “Configuring Health Monitoring Expect
Status” section on page 8-74.
SNMP Probe Attributes
Table 8-29 lists the SNMP probe attributes.
Note Click More Settings to access the additional attributes for the SNMP probe type. By default, ANM hides
the probe attributes with default values and the probe attributes that are not commonly used.
Table 8-28 SMTP Probe Attributes
Field Action
More Settings
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
TCP Connection
Termination
Check box that when checked, configures the ACE to terminate TCP connections gracefully by
sending a FIN to the server. Uncheck the check box to configure the ACE to terminate a TCP
connection by sending an RST.
Open Timeout
(Seconds)
Number of seconds to wait when opening a connection with a real server. Valid entries are from 1
to 65535. The default is as follows:
• For ACE module version A2(3.x) and earlier, the default is 10 seconds.
• For ACE module version A4(1.0) and later or ACE appliance version A3(1.x) and later, the
default is 1 second.
Table 8-29 SNMP Probe Attributes
Field Action
SNMP Community SNMP community string. Valid entries are unquoted text strings with no spaces and a maximum of
255 characters.
More Settings
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To configure the SNMP OID for SNMP probes, see the “Configuring an OID for SNMP Probes” section
on page 8-76.
TCP Probe Attributes
Table 8-30 lists the TCP probe attributes.
Note Click More Settings to access the additional attributes for the TCP probe type. By default, ANM hides
the probe attributes with default values and the probe attributes that are not commonly used.
Telnet Probe Attributes
Table 8-31 lists the Telnet probe attributes.
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
SNMP Version SNMP version for the probe:
• N/A—No version is selected.
• SNMPv1—This probe is to use SNMP version 1.
• SNMPv2c—This probe is to use SNMP version 2c.
Table 8-29 SNMP Probe Attributes (continued)
Field Action
Table 8-30 TCP Probe Attributes
Field Action
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
Send Data ASCII data that the probe is to send to the server. Valid entries are unquoted text strings with no
spaces and a maximum of 255 characters.
More Settings
TCP Connection
Termination
Check box that when checked, configures the ACE to terminate TCP connections gracefully by
sending a FIN to the server. Uncheck the check box to configure the ACE to terminate a TCP
connection by sending an RST.
Open Timeout
(Seconds)
Number of seconds to wait when opening a connection with a real server. Valid entries are from 1
to 65535. The default is as follows:
• For ACE module version A2(3.x) and earlier, the default is 10 seconds.
• For ACE module version A4(1.0) and later or ACE appliance version A3(1.x) and later, the
default is 1 second.
Expect Regular
Expression
Expected response data from the probe destination. Valid entries are text strings (quotes allowed)
with a maximum of 255 characters.
Expect Regex Offset Number of characters into the received message or buffer where the ACE is to begin looking for the
string specified in the Expect Regular Expression field. Value entries are from 1 to 4000.
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Note Click More Settings to access the additional attributes for the Telnet probe type. By default, ANM hides
the probe attributes with default values and the probe attributes that are not commonly used.
UDP Probe Attributes
Table 8-32 lists the UDP probe attributes.
Note Click More Settings to access the additional attributes for the UDP probe type. By default, ANM hides
the probe attributes with default values and the probe attributes that are not commonly used.
Table 8-31 Telnet Probe Attributes
Field Action
More Settings
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field
description.
TCP Connection Termination Check box that when checked, configures the ACE to terminate TCP connections gracefully
by sending a FIN to the server. Uncheck the check box to configure the ACE to terminate a
TCP connection by sending an RST.
Open Timeout (Seconds) Enter the number of seconds to wait when opening a connection with a real server. Valid
entries are from 1 to 65535. The default is as follows:
• For ACE module version A2(3.x) and earlier, the default is 10 seconds.
• For ACE module version A4(1.0) and later or ACE appliance version A3(1.x) and later,
the default is 1 second.
Table 8-32 UDP Probe Attributes
Field Action
Port Enter the port number that the probe is to use. By default, the probe uses port inheritance to
determine the port number. For more information, see the general attribute Port field description.
Send Data ASCII data that the probe is to send to the server. Valid entries are unquoted text strings with no
spaces and a maximum of 255 characters.
More Settings
Expect Regular
Expression
Expected response data from the probe destination. Valid entries are text strings (quotes allowed)
with a maximum of 255 characters.
Expect Regex Offset Number of characters into the received message or buffer where the ACE is to begin looking for the
string specified in the Expect Regular Expression field. Value entries are from 1 to 4000.
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VM Probe Attributes
Note You use a VM probe when you configure the ACE for Dynamic Workload Scaling (see the “Configuring
Dynamic Workload Scaling” section on page 8-26), which requires that the ACE appliance or module is
using software Version A4(2.0) or a later release.
You configure the VM probe attributes to control when the ACE bursts traffic to remote VMs based on
an average of local VM CPU usage, memory usage, or both. The ACE obtains the usage information by
sending the VM probe to the specified VM Controller associated with the local VMs (see Figure 1-1). It
calculates the average aggregate load information for all local VMs as a percentage of CPU usage or
memory usage and uses either or both percentages to determine when to burst traffic to the remote data
center. If the server farm consists of both physical servers and VMs, the ACE considers load information
only from the VMs.
By default, the VM probe checks the percentage of usage for either the CPU or memory against the
maximum threshold value. Whichever percentage reaches its maximum threshold value first causes the
ACE to burst traffic to the remote data center. The default maximum burst threshold value of 99 percent
instructs the ACE to always load balance traffic to the local VMs unless the load value is equal to
100 percent or the VMs are not in the Operational state. If you configure the maximum burst threshold
value to 1 percent, the ACE always bursts traffic to the remote data center.
When the usage percentage is less than the minimum threshold value, the ACE stops bursting traffic to
the remote data center and continues to load balance traffic to the local VMs. Any active connections to
the remote data center are allowed to complete.
Table 8-33 lists the VM probe attributes.
To associate the VM probe with a server farm, see the “Configuring Server Farms” section on page 8-30.
Related Topics
• Configuring Dynamic Workload Scaling, page 8-26
• Configuring Server Farms, page 8-30
• Dynamic Workload Scaling Overview, page 8-4
Table 8-33 VM Probe Attributes
Field Action
Max CPU Burst
Threshold
Percentage of CPU usage by the local VMs at which the ACE begins to burst traffic to the remote
VMs. Enter a value from 1 to 99. The default is 99.
Min CPU Burst
Threshold
Percentage of CPU usage by the local VMs below which the ACE stops bursting traffic to the
remote VMs. Enter a value from 1 to 99. The default is 99.
Max Memory Burst
Threshold
Percentage of memory usage by the local VMs at which the ACE begins to burst traffic to the
remote VMs. Enter a value from 1 to 99. The default is 99.
Min Memory Burst
Threshold
Percentage of memory usage by the local VMs below which the ACE stops bursting traffic to the
remote VMs. Enter a value from 1 to 99. The default is 99.
VM Controller Name Identifier of the VM Controller that is associated with the local VMs and that you configured in
the “Configuring and Verifying a VM Controller Connection” section on page 8-29. Click the radio
button for the VM Controller.
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Configuring DNS Probe Expect Addresses
You can specify the IP address that the ACE expects to receive in response to a DNS request. When a
DNS probe sends a domain name resolve request to the server, it verifies the returned IP address by
matching the received IP address with the configured addresses.
Assumption
A DNS probe has been configured. See the “Configuring Health Monitoring for Real Servers” section
on page 8-51 for more information.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Health Monitoring.
The Health Monitoring table appears.
Step 2 In the Health Monitoring table, choose the DNS probe that you want to configure with an expected IP
address.
The Expect Addresses table appears.
Step 3 In the Expect Addresses table, click Add to add an entry to the Expect Addresses table.
The Expect Address configuration pane appears.
Note You cannot modify an entry in the Expect Addresses table. Instead, delete the existing entry, then
add a new one.
Step 4 In the IPv4/IPv6 Address field, enter the IP address that the ACE appliance is to expect as a server
response to a DNS request. You can enter multiple addresses in this field. However, you cannot mix IPv4
and IPv6 addresses.
Note IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later.
Step 5 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entry and to return to the Expect Addresses
table.
• Click Next to deploy your entry and to add another IP Address to the Expect Addresses table.
Related Topics
• Configuring Health Monitoring for Real Servers, page 8-51
• DNS Probe Attributes, page 8-57
• Displaying Health Monitoring Statistics and Status Information, page 8-77
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Configuring Headers for HTTP and HTTPS Probes
You can specify header fields for HTTP and HTTPS probes.
Assumption
An HTTP or HTTPS probe has been configured. See the “Configuring Health Monitoring for Real
Servers” section on page 8-51 for more information.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Health Monitoring.
The Health Monitoring table appears.
Step 2 In the Health Monitoring table, choose the HTTP or HTTPS probe that you want to configure with a
header.
The Probe Headers table appears.
Step 3 In the Probe Headers table, click Add to add an entry, or choose an existing entry and click Edit to
modify it.
The Probe Headers configuration pane appears.
Step 4 In the Header Name field of the Probe Headers configuration pane, choose the HTTP header the probe
is to use.
Step 5 In the Header Value field, enter the string to assign to the header field.
Valid entries are text strings with a maximum of 255 characters. If the string includes spaces, enclose
the string with quotes.
Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entry and to return to the Probe Headers
table.
• Click Next to deploy your entry and to add another header entry to the Probe Headers table.
Related Topics
• Configuring Health Monitoring for Real Servers, page 8-51
• HTTP Probe Attributes, page 8-60
• HTTPS Probe Attributes, page 8-61
• Displaying Health Monitoring Statistics and Status Information, page 8-77
Configuring Health Monitoring Expect Status
You can configure a single or range of code responses that the ACE expects from the probe destination.
When the ACE receives a response from the server, it expects a status code to mark a server as passed.
By default, there are no status codes configured on the ACE. If you do not configure a status code, any
response code from the server is marked as failed.
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Expect status codes can be configured for FTP, HTTP, HTTPS, RTSP, SIP-TCP, SIP-UDP, and SMTP
probes.
Assumption
An FTP, HTTP, HTTPS, RTSP, SIP-TCP, SIP-UDP or SMTP probe has been configured. See the
“Configuring Health Monitoring for Real Servers” section on page 8-51 for more information.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Health Monitoring.
The Health Monitoring table appears.
Step 2 In the Health Monitoring table, choose the probe that you want to configure for expect status codes, and
click the Expect Status tab.
The Expect Status table appears.
Step 3 In the Expect Status table, click Add to add an entry, or select an existing entry and click Edit to modify
it.
The Expect Status configuration pane appears.
Step 4 In the Expect Status configuration pane, configure a single expect status code as follows:
a. In the Min. Expect Status Code field, enter the expect status code for this probe. Valid entries are
from 0 to 999.
b. In the Max. Expect Status code, enter the same expect status code that you entered in the Min Expect
Status Code field.
Step 5 In the Expect Status configuration pane, configure a range of expect status codes as follows:
a. In the Min. Expect Status Code, enter the lower limit of the range of status codes. Valid entries are
from 0 to 999.
b. In the Max. Expect Status Code, enter the upper limit of a range of status codes. Valid entries are
from 0 to 999. The value in this field must be greater than or equal to the value in the Min Expect
Status Code field.
Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Expect Status
table.
• Click Next to deploy your entries and to add another expect status code to the Expect Status table.
Related Topics
• Configuring Health Monitoring for Real Servers, page 8-51
• FTP Probe Attributes, page 8-59
• HTTP Probe Attributes, page 8-60
• SMTP Probe Attributes, page 8-69
• Displaying Health Monitoring Statistics and Status Information, page 8-77
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Configuring an OID for SNMP Probes
You can configure OID queries to probe the server. When the ACE sends a probe with an SNMP OID
query, the ACE uses the retrieved value as input to the least-loaded algorithm for load-balancing
decisions. Least-loaded load balancing bases the server selection on the server with the lowest load
value. If the retrieved value is within the configured threshold, the server is marked as passed. If the
threshold is exceeded, the server is marked as failed.
The ACE allows a maximum of eight OID queries to probe the server.
Assumption
An SNMP probe has been configured. See the “Configuring Health Monitoring for Real Servers” section
on page 8-51 for more information.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Health Monitoring.
The Health Monitoring table appears.
Step 2 In the Health Monitoring table, choose the SNMP probe for which you want to specify an OID.
The SNMP OID for Server Load Query table appears.
Step 3 In the SNMP OID for Server Load Query table, click Add to add an entry, or choose an existing entry
and click Edit to modify it.
The SNMP OID configuration pane appears.
Step 4 In the SNMP OID field of the SNMP OID configuration pane, enter the OID that the probe is to use to
query the server for a value.
Valid entries are unquoted strings with a maximum of 255 alphanumeric characters in dotted-decimal
notation, such as .1.3.6.1.4.2021.10.1.3.1. The OID string is based on the server type.
Step 5 In the Max. Absolute Server Load Value field, enter the OID value in the form of an integer and to
indicate that the retrieved OID value is an absolute value instead of a percent.
Valid entries are from 1 to 4294967295.
When the ACE sends a probe with an SNMP OID query, the ACE uses the retrieved value as input to the
least-loaded algorithm for load-balancing decisions. By default, the ACE assumes that the retrieved OID
value is a percentile value. Use this option to specify that the retrieved OID value is an absolute value.
Step 6 In the Server Load Threshold Value field, specify the threshold at which the server is to be taken out of
service as follows:
• When the OID value is based on a percent, valid entries are integers from 1 to 100.
• When the OID is based on an absolute value, valid entries are from 1 to the value specified in the
Maximum Absolute Server Load Value field.
Step 7 In the Server Load Weighting field, enter the weight to assign to this OID for the SNMP probe.
Valid entries are from 0 to 16000.
Step 8 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the SNMP OID table.
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• Click Next to deploy your entries and to add another item to the SNMP OID table.
Related Topics
• Configuring Health Monitoring for Real Servers, page 8-51
• SNMP Probe Attributes, page 8-69
• Displaying Health Monitoring Statistics and Status Information, page 8-77
Displaying Health Monitoring Statistics and Status Information
You can display statistics and status information for a particular probe.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Health Monitoring.
The Health Monitoring table appears.
Step 2 In the Health Monitoring table, choose a probe from the Health Monitoring table, and click Details.
The show probe name detail CLI command output appears. For details on the displayed output fields,
see the Cisco ACE Module Server Load-Balancing Configuration Guide or the Cisco ACE 4700 Series
Appliance Server Load-Balancing Configuration Guide, Chapter 4, Configuring Health Monitoring.
Note For a DNS probe, the detailed probe results always identify a default DNS domain of
www.Cisco.com.
Step 3 Click Update Details to refresh the output for the show probe name detail CLI command.
Step 4 Click Close to return to the Health Monitoring table.
Related Topics
• Configuring Health Monitoring for Real Servers, page 8-51
Configuring Secure KAL-AP
You can configure a secure keepalive-appliance protocol (KAL-AP) associated with a virtual context. A
KAL-AP on the ACE enables communication between the ACE and a Global Site Selector (GSS), which
sends KAL-AP requests to report the server states and loads for global-server load-balancing (GSLB)
decisions. The ACE uses KAL-AP through a UDP connection to calculate weights and provide
information for server availability to the KAL-AP device. The ACE acts as a server and listens for
KAL-AP requests. When KAL-AP is initialized on the ACE, the ACE listens on the standard 5002 port
for any KAL-AP requests. You cannot configure any other port.
The ACE supports secure KAL-AP for MD5 encryption of data between it and the GSS. For encryption,
you must configure a shared secret as a key for authentication between the GSS and the ACE context.
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Configuring Secure KAL-AP
Assumptions
This topic assumes the following:
• You have created a virtual context that specifies the Keepalive Appliance Protocol over UDP.
• You have enabled KAL-AP on the ACE by configuring a management class map and policy map,
and apply it to the appropriate interface.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Secure KAL-AP.
The Secure KAL-AP table appears.
Step 2 In the Secure KAL-AP table, click Add to configure secure KAL-AP for MD5 encryption of data.
The Secure KAL-AP configuration window appears.
Step 3 In the IP Address field of the Secure KAL-AP configuration window, enable secure KAL-AP by
configuring the VIP address for the GSS.
Enter the IP address in dotted-decimal notation (for example, 192.168.11.1).
Step 4 In the Hash Key field, enter the MD5 encryption method shared secret between the KAL-AP device and
the ACE.
Enter the shared secret as a case-sensitive string with no spaces and a maximum of 31 alphanumeric
characters. The ACE supports the following special characters in a shared secret:
, . / = + - ^ @ ! % ~ # $ * ( )
Step 5 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The ACE validates the secure KAL-AP
configuration and deploys it.
• Click Cancel to exit this procedure without accepting your entries and to return to the Secure
KAL-AP table.
• Click Next to accept your entries.
Related Topics
• Creating Virtual Contexts, page 6-2
• Setting Match Conditions for Layer 3/Layer 4 Management Traffic Class Maps, page 14-12
CHAPTER
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9
Configuring Stickiness
Date: 3/28/12
This chapter describes how to configure stickiness on the Cisco Application Control Engine (ACE) using
Cisco Application Networking Manager (ANM).
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Information About Stickiness, page 9-1
• Sticky Types, page 9-2
• Sticky Groups, page 9-6
• Sticky Table, page 9-6
• Configuring Sticky Groups, page 9-7
Information About Stickiness
When customers visit an e-commerce site, they usually start out browsing the site. The site may require
that the client become “stuck” to one server once the connection is established, or once client starts to
build a shopping cart.
In either case, once the client adds items to the shopping cart, it is important that all of the client requests
get directed to the same server so that all the items are contained in one shopping cart on one server. An
instance of a customer’s shopping cart is typically local to a particular web server and is not duplicated
across multiple servers.
E-commerce applications are not the only types of applications that require stickiness. Any web
application that maintains client information may require stickiness, such as banking applications or
online trading. Other uses include FTP and HTTP file transfers.
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Sticky Types
Stickiness allows the same client to maintain multiple simultaneous or subsequent TCP or IP
connections with the same real server for the duration of a session. A session is series of transactions
between a client and a server over some finite period of time (from several minutes to several hours).
This feature is particularly useful for e-commerce applications where a client needs to maintain multiple
connections with the same server while shopping online, especially while building a shopping cart and
during the checkout process.
Depending on the configured SLB policy, the ACE sticks a client to an appropriate server after the ACE
has determined which load-balancing method to use. If the ACE determines that a client is already stuck
to a particular server, then the ACE sends that client request to that server, regardless of the
load-balancing criteria specified by the matched policy. If the ACE determines that the client is not stuck
to a particular server, it applies the normal load-balancing rules to the content request.
For information about stickiness, see the following topics:
• Sticky Types, page 9-2
• Sticky Groups, page 9-6
• Sticky Table, page 9-6
Related Topics
• Configuring Virtual Server Default Layer 7 Load Balancing, page 7-50
• Configuring Sticky Groups, page 9-7
Sticky Types
All ACE devices support stickiness based on the following:
• HTTP cookies
• HTTP headers
• IP addresses
• HTTP content
• Layer 4 payloads
• RADIUS attributes
• RTSP headers
• SIP headers
This section includes the following topics:
• HTTP Content Stickiness, page 9-3
• HTTP Cookie Stickiness, page 9-3
• HTTP Header Stickiness, page 9-4
• IP Netmask and IPv6 Prefix Stickiness, page 9-4
• Layer 4 Payload Stickiness, page 9-4
• RADIUS Stickiness, page 9-5
• RTSP Header Stickiness, page 9-5
• SIP Header Stickiness, page 9-5
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Sticky Types
HTTP Content Stickiness
HTTP content stickiness allows you to stick a client to a server based on the content of an HTTP packet.
You can specify a beginning pattern and ending pattern, the number of bytes to parse, and an offset that
specifies how many bytes to ignore from the beginning of the data.
Related Topics
• Configuring Stickiness, page 9-1
• Sticky Types, page 9-2
• Sticky Groups, page 9-6
• Sticky Table, page 9-6
HTTP Cookie Stickiness
Client cookies uniquely identify clients to the ACE and the servers that provide content. A cookie is a
small data structure within the HTTP header that is used by a server to deliver data to a web client and
request that the client store the information. In certain applications, the client returns the information to
the server to maintain the connection state or persistence between the client and the server.
When the ACE examines a request for content and determines through policy matching that the content
is sticky, it examines any cookie or URL present in the content request. The ACE uses the information
in the cookie or URL to direct the content request to the appropriate server.
The ACE supports the following types of cookie stickiness:
• Dynamic cookie learning
You can configure the ACE to look for a specific cookie name and automatically learn its value
either from the client request HTTP header or from the server Set-Cookie message in the server
response. Dynamic cookie learning is useful when dealing with applications that store more than
just the session ID or user ID within the same cookie. Only very specific bytes of the cookie value
are relevant to stickiness.
By default, the ACE learns the entire cookie value. You can optionally specify an offset and length
to instruct the ACE to learn only a portion of the cookie value.
Alternatively, you can specify a secondary cookie value that appears in the URL string in the HTTP
request. This option instructs the ACE to search for (and eventually learn or stick to) the cookie information as part of the URL. URL learning is useful with applications that insert cookie information as part of the HTTP URL. In some cases, you can use this feature to work around clients that
reject cookies.
• Cookie insert
The ACE inserts the cookie on behalf of the server upon the return request, so that the ACE can
perform cookie stickiness even when the servers are not configured to set cookies. The cookie
contains information that the ACE uses to ensure persistence to a specific real server.
Related Topics
• Configuring Stickiness, page 9-1
• Sticky Types, page 9-2
• Sticky Groups, page 9-6
• Sticky Table, page 9-6
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Sticky Types
HTTP Header Stickiness
You can use HTTP-header information to provide stickiness. With HTTP header stickiness, you can
specify a header offset to provide stickiness based on a unique portion of the HTTP header.
Related Topics
• Configuring Stickiness, page 9-1
• Sticky Types, page 9-2
• Sticky Groups, page 9-6
• Sticky Table, page 9-6
IP Netmask and IPv6 Prefix Stickiness
You can use the source IP address, the destination IP address, or both to uniquely identify individual
clients and their requests for stickiness purposes based on their IP netmask or IPv6 prefix. However, if
an enterprise or a service provider uses a megaproxy to establish client connections to the Internet, the
source IP address no longer is a reliable indicator of the true source of the request. In this case, you can
use cookies or one of the other sticky methods to ensure session persistence.
Note IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later.
Related Topics
• Configuring Stickiness, page 9-1
• Sticky Types, page 9-2
• Sticky Groups, page 9-6
• Sticky Table, page 9-6
Layer 4 Payload Stickiness
Layer 4 payload stickiness allows you to stick a client to a server based on the data in Layer 4 frames.
You can specify a beginning pattern and ending pattern, the number of bytes to parse, and an offset that
specifies how many bytes to ignore from the beginning of the data.
Related Topics
• Configuring Stickiness, page 9-1
• Sticky Types, page 9-2
• Sticky Groups, page 9-6
• Sticky Table, page 9-6
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Sticky Types
RADIUS Stickiness
RADIUS stickiness can be based on the following RADIUS attributes:
• Calling Station ID
• Username
Related Topics
• Configuring Stickiness, page 9-1
• Sticky Types, page 9-2
• Sticky Groups, page 9-6
• Sticky Table, page 9-6
RTSP Header Stickiness
Real time streaming protocol (RTSP) stickiness is based on information in the RTSP session header.
With RTSP header stickiness, you can specify a header offset to provide stickiness based on a unique
portion of the RTSP header.
Related Topics
• Configuring Stickiness, page 9-1
• Sticky Types, page 9-2
• Sticky Groups, page 9-6
• Sticky Table, page 9-6
SIP Header Stickiness
Session initiation protocol (SIP) header stickiness is based on the SIP Call-ID header field. SIP header
stickiness requires the entire SIP header, so you cannot specify an offset.
Related Topics
• Configuring Stickiness, page 9-1
• Sticky Types, page 9-2
• Sticky Groups, page 9-6
• Sticky Table, page 9-6
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Sticky Groups
Sticky Groups
The ACE uses the concept of sticky groups to configure stickiness. A sticky group allows you to specify
sticky attributes. After you configure a sticky group and its attributes, you associate the sticky group with
a Layer 7 policy-map action in a Layer 7 server load balancing (SLB) policy map.You can create a
maximum of 4096 sticky groups in each context. Each sticky group that you configure on the ACE
contains a series of parameters that determine the following:
• Sticky method
• Timeout
• Replication
• Sticky method-specific attributes
Note The context in which you configure a sticky group must be associated with a resource class that allocates
a portion of ACE resources to stickiness. See the “Using Resource Classes” section on page 6-43 for
information about configuring ACE resources.
Related Topics
• Configuring Stickiness, page 9-1
• Sticky Types, page 9-2
• Sticky Table, page 9-6
Sticky Table
The ACE uses a sticky table to keep track of sticky connections. Table entries are as follows:
• Sticky groups
• Sticky methods
• Sticky connections
• Real servers
The sticky table can hold a maximum of four million entries (four million simultaneous users). When
the table reaches the maximum number of entries, additional sticky connections cause the table to wrap
and the first users become unstuck from their respective servers.
The ACE uses a configurable timeout mechanism to age out sticky table entries. When an entry times
out, it becomes eligible for reuse. High connection rates may cause the premature aging out of sticky
entries. In this case, the ACE reuses the entries that are closest to expiration first.
Sticky entries can be either dynamic (generated by the ACE on demand) or static (user-configured).
When you create a static sticky entry, the ACE places the entry in the sticky table immediately. Static
entries remain in the sticky database until you remove them from the configuration. You can create a
maximum of 4096 static sticky entries in each context.
If the ACE takes a real server out of service for whatever reason (probe failure, no inservice command,
or ARP timeout), the ACE removes from the database any sticky entries that are related to that server.
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Configuring Sticky Groups
Related Topics
• Configuring Stickiness, page 9-1
• Sticky Types, page 9-2
• Sticky Groups, page 9-6
Configuring Sticky Groups
You can configure sticky groups. Stickiness (or session persistence) is a feature that allows the same
client to maintain multiple simultaneous or subsequent TCP connections with the same real server for
the duration of a session. A session is a series of transactions between a client and a server over some
finite period of time (from several minutes to several hours). This feature is particularly useful for
e-commerce applications where a client needs to maintain multiple TCP connections with the same
server while shopping online, especially while building a shopping cart and during the checkout process.
E-commerce applications are not the only types of applications that require stickiness. Any web
application that maintains client information may require stickiness, such as banking applications or
online trading. Other uses include FTP and HTTP file transfers.
The ACE uses the concept of sticky groups to configure stickiness. A sticky group allows you to specify
sticky attributes. After you configure a sticky group and its attributes, you associate the sticky group with
a Layer 7 policy-map action in a Layer 7 SLB policy map.
Note (Pre ACE version A4(1.0) module or appliance only) The context in which you configure a sticky group
must be associated with a resource class that allocates a portion of ACE resources to stickiness. See the
“Using Resource Classes” section on page 6-43 for information about configuring ACE resources.
Assumption
(Pre ACE version A4(1.0) module or appliance only) The context in which you are configuring a sticky
group is associated with a resource class that allocates resources to stickiness.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Stickiness.
The Sticky Groups table appears.
Step 2 In the Sticky Groups table, click Add to add a new sticky group, or choose an existing sticky group that
you want to modify and click Edit.
Step 3 Configure the sticky group using the information in Table 9-1.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
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Configuring Sticky Groups
Table 9-1 Sticky Group Attributes
Field Description
Group Name Sticky group identifier. Valid entries are unquoted text strings with no spaces and a maximum of
64 alphanumeric characters.
Type Method to be used when establishing sticky connections and to configure any type-specific
attributes. The choices are as follows:
• HTTP Content—The ACE sticks client connections to the same real server based on a string
in the data portion of the HTTP packet. See Table 9-2 for additional configuration options.
• HTTP Cookie—The ACE either learns a cookie from the HTTP header of a client request or
inserts a cookie in the Set-Cookie header of the response from the server to the client and then
uses the learned cookie to provide stickiness between the client and server for the duration of
the transaction. See Table 9-3 for additional configuration options.
• HTTP Header—The ACE sticks client connections to the same real server based on HTTP
headers. See Table 9-4 for additional configuration options.
• IP Netmask—The ACE sticks a client to the same server for multiple subsequent connections
as needed to complete a transaction using the client source IPv4 IP address, the destination
IPv4 IP address, or both. You can optionally configure an IPv6 prefix length with this sticky
type. IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later. See
Table 9-5 for additional configuration options.
Note If an organization uses a megaproxy to load balance client requests across multiple proxy
servers when a client connects to the Internet, the source IP address is no longer a reliable
indicator of the true source of the request. In this situation, you can use cookies or another
sticky method to ensure session persistence.
• V6 Prefix—(Option that appears only for ACE module and ACE appliance software Version
A5(1.0) or later.) The ACE appliance sticks a client to the same server for multiple subsequent
connections as needed to complete a transaction using the client source IP address, the
destination IP address, or both based on their IPv6 prefix. You can optionally configure an
IPv4 netmask with this sticky type. See Table 9-6 for additional configuration options.
• Layer 4 Payload—The ACE sticks client connections to the same real server based on a string
in the payload portion of the Layer 4 protocol packet. See Table 9-7 for additional
configuration options.
• RADIUS—The ACE sticks client connections to the same real server based on a RADIUS
attribute. See Table 9-8 for additional configuration options.
• RTSP Header—The ACE sticks client connections to the same real server based on the RTSP
Session header field. See Table 9-9 for additional configuration options.
• SIP Header—The ACE sticks client connections to the same real server based on the SIP
Call-ID header field.
Cookie Name This option appears for sticky type HTTP Cookie.
Enter a unique identifier for the cookie. Valid entries are unquoted text strings with no spaces and
a maximum of 64 alphanumeric characters.
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Enable Insert This option appears only for sticky type HTTP Cookie.
Check this check box if the ACE appliance is to insert a cookie in the Set-Cookie header of the
response from the server to the client. This option is useful when you want to use a session cookie
for persistence but the server is not currently setting the appropriate cookie. When selected, the
ACE appliance selects a cookie value that identifies the original server from which the client
received a response. For subsequent connections of the same transaction, the client uses the cookie
to stick to the same server.
Clear this check box to disable cookie insertion.
Browser Expire This option appears for sticky type HTTP Cookie and you select Enable Insert.
Check this check box to allow the client's browser to expire a cookie when the session ends. Clear
this check box to disable browser expire.
Offset (Bytes) This option appears for sticky types HTTP Cookie and HTTP Header.
Enter the number of bytes the ACE appliance is to ignore starting with the first byte of the cookie.
Valid entries are integers from 0 to 999. The default is 0 (zero), which indicates that the ACE
appliance does not exclude any portion of the cookie.
Length (Bytes) This option appears for sticky types HTTP Cookie and HTTP Header.
Enter the length of the portion of the cookie (starting with the byte after the offset value) that the
ACE appliance is to use for sticking the client to the server. Valid entries are integers from 1 to
1000.
Secondary Name This option appears only for sticky type HTTP Cookie.
Enter an alternate cookie name that is to appear in the URL string of the Web page on the server.
The ACE appliance uses this cookie to maintain a sticky connection between a client and a server
and adds a secondary entry in the sticky table. Valid entries are unquoted text strings with no
spaces and a maximum of 64 characters.
Header Name This option appears for sticky type HTTP Header.
Select the HTTP header to use for sticking client connections.
Netmask This option appears only for sticky type IP Netmask.
Select the netmask to apply to the source IP address, the destination IP address, or both.
IPv4 Netmask This option appears only for sticky type IP Netmask or IPv6 Prefix (IPv6 requires ACE module
and ACE appliance software Version A5(1.0) or later). This option is mandatory for the sticky type
IP Netmask and optional for the sticky type IPv6 Prefix.
Select the netmask to apply to the source IP address, the destination IP address, or both.
IPv6 Prefix Length This option appears only for ACE module and ACE appliance software Version A5(1.0) or later
and for sticky type IPv6 Prefix or IP Netmask. This option is mandatory for the sticky type IPv
Prefix and optional for the sticky type IP Netmask.
Enter the IPv6 prefix length to apply to the source IP address, the destination IP address, or both.
Table 9-1 Sticky Group Attributes (continued)
Field Description
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Configuring Sticky Groups
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. To configure sticky statics, see the
“Configuring Sticky Statics” section on page 9-15.
• Click Cancel to exit the procedure without saving your entries and to return to the Sticky Groups
table.
• Click Next to deploy your entries and to configure another sticky group.
Related Topics
• Configuring Sticky Statics, page 9-15
Address Type This option appears only for sticky type IP Netmask or IPv6 Prefix (IPv6 requires ACE module
and ACE appliance software Version A5(1.0) or later).
Indicate whether this sticky type is to be applied to the client source IP address, the destination IP
address, or both:
• Both—Indicates that this sticky type is to be applied to both the source IP address and the
destination IP address.
• Destination—Indicates that this sticky type is to be applied to the destination IP address only.
Source—Indicates that this sticky type is to be applied to the source IP address only.
Sticky Server Farm Server farm that you want to associate with this sticky group.
Backup Server Farm Backup server farm that is associated with this sticky group. If the primary server farm is down,
the ACE uses the backup server farm.
Aggregate State Field that appears when a server farm and backup server farm are selected.
Check box that indicates that the state of the backup server farm is tied to the virtual server state.
Uncheck this check box if the backup server farm is not tied to the virtual server state.
Sticky Enabled On
Backup Server Farm
Field that appears when a server farm and backup server farm are selected.
Check box that indicates that the backup server farm is sticky. Uncheck this check box if the
backup server farm is not sticky.
Replicate On HA Peer Check box that indicates that the ACE to replicate sticky table entries on the standby ACE. If a
failover occurs and this option is selected, the new active ACE can maintain the existing sticky
connections.
Uncheck this check box to indicate that the ACE is not to replicate sticky table entries on the
standby ACE.
Timeout (Minutes) Number of minutes that the ACE keeps the sticky information for a client connection in the sticky
table after the latest client connection terminates. Valid entries are from 1 to 65535; the default is
1440 minutes (24 hours).
Timeout Active
Connections
Check box that specifies that the ACE is to time out sticky table entries even if active connections
exist after the sticky timer expires.
Uncheck this check box to specify that the ACE is not to time out sticky table entries even if active
connections exist after the sticky timer expires. This behavior is the default.
Table 9-1 Sticky Group Attributes (continued)
Field Description
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Configuring Sticky Groups
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Real Servers, page 8-5
• Configuring Server Farms, page 8-30
Sticky Group Attribute Tables
This section describes the different sticky group type-specific attributes.
Note There are no specific sticky group type-specific attributes for SIP Header.
This section includes the following topics:
• HTTP Content Sticky Group Attributes, page 9-11
• HTTP Cookie Sticky Group Attributes, page 9-12
• HTTP Header Sticky Group Attributes, page 9-13
• IP Netmask Sticky Group Attributes, page 9-13
• V6 Prefix Sticky Group Attributes, page 9-13
• Layer 4 Payload Sticky Group Attributes, page 9-14
• RADIUS Sticky Group Attributes, page 9-14
• RTSP Header Sticky Group Attributes, page 9-15
HTTP Content Sticky Group Attributes
Table 9-2 describes the HTTP content sticky group attributes.
Table 9-2 HTTP Content Sticky Group Attributes
Field Description
HTTP Content Check box that instructs the ACE to use the constant portion of HTTP content to make persistent
connections to a specific server. Uncheck the check box to identify specific content for stickiness
in the Offset, Length, Begin Pattern, and End Pattern fields.
HTTP content may change over time with only a portion remaining constant throughout a
transaction between the client and a server.
Offset Number of bytes that the virtual server is to ignore starting with the first byte of the cookie. Valid
entries are from 0 to 999. The default is 0 (zero), which indicates that the virtual server does not
exclude any portion of the cookie.
Length (Bytes) Length of the portion of the cookie (starting with the byte after the offset value) that the ACE is to
use for sticking the client to the server. Valid entries are from 1 to 1000.
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HTTP Cookie Sticky Group Attributes
Table 9-3 describes the HTTP cookie sticky group attributes.
Begin Pattern Beginning pattern of the HTTP content payload and the pattern string to match before hashing. If
you do not specify a beginning pattern, the ACE begins parsing immediately after the offset byte.
You cannot configure different beginning and ending patterns for different server farms that are part
of the same traffic classification.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters. You can enter a text string with spaces if you enclose the entire string in quotation marks
("). The ACE supports regular expressions for matching string expressions. Table 14-33 lists the
supported characters that you can use for matching string expressions.
End Pattern Pattern that marks the end of hashing. If you do not specify an end pattern or a length, the ACE
continues to parse the data until it reaches the end of the field or packet, or until it reaches the
maximum body parse length. You cannot configure different beginning and ending patterns for
different server farms that are part of the same traffic classification.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters. You can enter a text string with spaces if you enclose the entire string in quotation marks
("). The ACE supports regular expressions for matching string expressions. Table 14-33 lists the
supported characters that you can use for matching string expressions.
Table 9-2 HTTP Content Sticky Group Attributes (continued)
Field Description
Table 9-3 HTTP Cookie Sticky Group Attributes
Field Description
Cookie Name Unique identifier for the cookie. Valid entries are unquoted text strings with no spaces and a
maximum of 64 alphanumeric characters.
Enable Insert Check box that determines if the virtual server is to insert a cookie in the Set-Cookie header of the
response from the server to the client. This option is useful when you want to use a session cookie
for persistence but the server is not currently setting the appropriate cookie. When selected, the
virtual server selects a cookie value that identifies the original server from which the client received
a response. For subsequent connections of the same transaction, the client uses the cookie to stick
to the same server.
Uncheck the check box to disable cookie insertion.
Offset Number of bytes that the virtual server is to ignore starting with the first byte of the cookie. Valid
entries are from 0 to 999. The default is 0 (zero), which indicates that the virtual server does not
exclude any portion of the cookie.
Length (Bytes) Length of the portion of the cookie (starting with the byte after the offset value) that the ACE is to
use for sticking the client to the server. Valid entries are from 1 to 1000.
Secondary Name Alternate cookie name that is to appear in the URL string of the web page on the server. The virtual
server uses this cookie to maintain a sticky connection between a client and a server and adds a
secondary entry in the sticky table. Valid entries are unquoted text strings with no spaces and a
maximum of 64 characters.
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HTTP Header Sticky Group Attributes
Table 9-4 describes the HTTP header sticky group attributes.
IP Netmask Sticky Group Attributes
Table 9-5 describes the IP netmask sticky group attributes.
V6 Prefix Sticky Group Attributes
Table 9-5 describes the V6 prefix sticky group attributes, which requires ACE module and ACE
appliance software Version A5(1.0) or later.
Table 9-4 HTTP Header Sticky Group Attributes
Field Description
Header Name HTTP header to use for sticking client connections.
Offset Number of bytes the virtual server is to ignore starting with the first byte of the cookie. Valid entries
are from 0 to 999. The default is 0 (zero), which indicates that the virtual server does not exclude
any portion of the cookie.
Length (Bytes) Length of the portion of the cookie (starting with the byte after the offset value) that the ACE is to
use for sticking the client to the server. Valid entries are from 1 to 1000.
Table 9-5 IP Netmask Sticky Group Attributes
Field Description
Netmask Netmask to apply to the source IP address, destination IP address, or both.
IPv6 Prefix Length (Optional field that requires ACE module and ACE appliance software Version A5(1.0) or later)
IPv6 prefix length to apply to the source IP address, destination IP address, or both.
Address Type Address type that the sticky type is to be applied to as follows:
• Both—Sticky type is applied to both the source IP address and the destination IP address.
• Destination—Sticky type is applied to the destination IP address only.
• Source—Sticky type applied to the source IP address only.
Table 9-6 IV6 Prefix Sticky Group Attributes
Field Description
Prefix Length (Field that requires ACE module and ACE appliance software Version A5(1.0) or later) IPv6 prefix
length to apply to the source IP address, destination IP address, or both.
IPv4 Netmask (Optional) Netmask to apply to the source IP address, destination IP address, or both.
Address Type Address type that the sticky type is to be applied to as follows:
• Both—Sticky type is applied to both the source IP address and the destination IP address.
• Destination—Sticky type is applied to the destination IP address only.
• Source—Sticky type applied to the source IP address only.
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Chapter 9 Configuring Stickiness
Configuring Sticky Groups
Layer 4 Payload Sticky Group Attributes
Table 9-7 describes the Layer 4 payload sticky group attributes.
RADIUS Sticky Group Attributes
Table 9-8 describes the RADIUS sticky group attributes.
Table 9-7 Layer 4 Payload Sticky Group Attributes
Field Description
Offset Number of bytes the virtual server is to ignore starting with the first byte of the cookie. Valid entries are
from 0 to 999. The default is 0 (zero), which indicates that the virtual server does not exclude any
portion of the cookie.
Length (Bytes) Length of the portion of the cookie (starting with the byte after the offset value) that the ACE is to use
for sticking the client to the server. Valid entries are from 1 to 1000. The default is 1000.
Begin Pattern Beginning pattern of the Layer 4 payload and the pattern string to match before hashing. If you do not
specify a beginning pattern, the ACE begins parsing immediately after the offset byte. You cannot
configure different beginning and ending patterns for different server farms that are part of the same
traffic classification.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric characters.
You can enter a text string with spaces provided that you enclose the entire string in quotation marks
("). The ACE supports regular expressions for matching string expressions. Table 14-33 lists the
supported characters that you can use for matching string expressions.
End Pattern Pattern that marks the end of hashing. If you do not specify an end pattern or a length, the ACE continues
to parse the data until it reaches the end of the field or packet, or until it reaches the maximum body
parse length. You cannot configure different beginning and ending patterns for different server farms
that are part of the same traffic classification.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric characters.
You can enter a text string with spaces provided that you enclose the entire string in quotation marks
("). The ACE supports regular expressions for matching string expressions. Table 14-33 lists the
supported characters that you can use for matching string expressions.
Enable Sticky For
Response
Check box that enables the ACE to parse server responses and perform sticky learning. The ACE uses
a hash of the server response bytes to populate the sticky database. The next time that the ACE receives
a client request with those same bytes, it sticks the client to the same server.
Uncheck the check box to reset the behavior of the ACE to the default of not parsing server responses
and performing sticky learning.
Table 9-8 RADIUS Sticky Group Attributes
Field Description
RADIUS Types Choose the RADIUS attribute to use for sticking client connections:
• N/A—This option is not configured.
• RADIUS Calling ID—Stickiness is based on the RADIUS framed IP attribute and the calling
station ID attribute.
• RADIUS User Name—Stickiness is based on the RADIUS framed IP attribute and the
username attribute.
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Chapter 9 Configuring Stickiness
Displaying All Sticky Groups by Context
RTSP Header Sticky Group Attributes
Table 9-9 describes the RTSP header sticky group attributes.
Displaying All Sticky Groups by Context
You can display all sticky groups associated with a virtual context.
Procedure
Step 1 Choose Config > Devices.
The Virtual Contexts table appears.
Step 2 In the Virtual Contexts table, choose the virtual context with the sticky groups that you want to display,
and choose Load Balancing > Stickiness.
The Sticky Groups table appears, listing the sticky groups associated with the selected context.
Related Topics
• Configuring Sticky Groups, page 9-7
• Configuring Sticky Statics, page 9-15
Configuring Sticky Statics
You can configure sticky statics.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version A5(1.0)
or later.
Assumption
A sticky group has been configured. See the “Configuring Sticky Groups” section on page 9-7 for more
information.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Stickiness.
Table 9-9 RTSP Header Sticky Group Attributes
Field Description
Offset Number of bytes that the virtual server is to ignore starting with the first byte of the cookie. Valid
entries are from 0 to 999. The default is 0 (zero), which indicates that the virtual server does not
exclude any portion of the cookie.
Length (Bytes) Length of the portion of the cookie (starting with the byte after the offset value) that the ACE is to
use for sticking the client to the server. Valid entries are from 1 to 1000. The default is 1000.
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Configuring Sticky Statics
The Sticky Groups table and Sticky Statics tab appears. If you do not see the Sticky Statics tab beneath
the Sticky Groups table, click the Switch between Configure and Browse Modes button.
Step 2 From the Sticky Groups table, choose the sticky group that you want to configure for sticky statics
Step 3 From the Sticky Statics tab, click Add to add a new entry to the table, or select an existing entry, then
click Edit to modify it.
The Sticky Statics configuration screen appears.
Step 4 In the Sequence Number field, either accept the automatically incremented number for this entry or enter
a new sequence number.The sequence number indicates the order in which multiple sticky static
configurations are applied.
The sequence number indicates the order in which multiple sticky static configurations are applied.
Step 5 From the Type drop-down list, choose the sticky group type.
The choices are as follows:
• HTTP Content—The ACE sticks client connections to the same real server based on a string in the
data portion of the HTTP packet.
• HTTP Cookie—The ACE either learns a cookie from the HTTP header of a client request or inserts
a cookie in the Set-Cookie header of the response from the server to the client, and then uses the
learned cookie to provide stickiness between the client and server for the duration of the transaction.
• HTTP Header—The ACE sticks client connections to the same real server based on HTTP headers.
• IP Netmask—The ACE sticks a client to the same server for multiple subsequent connections as
needed to complete a transaction using the client source IP address, the destination IP address, or
both based on the IPv4 netmask. You can optionally configure an IPv6 prefix length with this sticky
type.
Note If an organization uses a megaproxy to load balance client requests across multiple proxy
servers when a client connects to the Internet, the source IP address is no longer a reliable
indicator of the true source of the request. In this situation, you can use cookies or another
sticky method to ensure session persistence.
• V6 Prefix—(Option that appears only for ACE module and ACE appliance software Version
A5(1.0) or later) The ACE sticks a client to the same server for multiple subsequent connections as
needed to complete a transaction using the client source IP address, the destination IP address, or
both based on the IPv6 prefix length. You can optionally configure an IPv4 netmask with this sticky
type.
• Layer 4 Payload—The ACE sticks client connections to the same real server based on a string in
the payload portion of the Layer 4 protocol packet.
• RADIUS—The ACE sticks client connections to the same real server based on a RADIUS attribute.
• RTSP Header—The ACE sticks client connections to the same real server based on the RTSP
Session header field.
• SIP Header—The ACE sticks client connections to the same real server based on the SIP Call-ID
header field.
Step 6 If you chose HTTP Cookie, HTTP, RTSP, or SIP Header for the sticky type, in the Static Value field,
enter the cookie string value.
Valid entries are unquoted text strings with a maximum of 255 alphanumeric characters. If the string
includes spaces, enclose the string with quotes.
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Configuring Sticky Statics
Step 7 If you chose IP Netmask or V6 Prefix for the sticky type, do the following:
a. For the IP Address Type, select either IPv4 or IPv6.
b. In the Static Source field, enter the source IP address of the client.
c. In the Static Destination field, enter the destination IP address of the client.
Step 8 In the Named Real Server field, choose the real server to associate with this static sticky entry.
Step 9 In the Port field, enter the port number of the real server.
Valid entries are from 1 to 65535.
Step 10 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Sticky Statics
table.
• Click Next to deploy your entries and to configure another sticky static entry.
Related Topics
Configuring Sticky Groups, page 9-7
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Configuring Sticky Statics
CHAPTER
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10
Configuring Parameter Maps
Date: 3/28/12
This chapter describes how to configure parameter maps on the Cisco Application Control Engine (ACE)
using Cisco Application Networking Manager (ANM).
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Information About Parameter Maps, page 10-1
• Configuring Connection Parameter Maps, page 10-3
• Configuring Generic Parameter Maps, page 10-8
• Configuring HTTP Parameter Maps, page 10-9
• Configuring Optimization Parameter Maps, page 10-12
• Configuring RTSP Parameter Maps, page 10-20
• Configuring SIP Parameter Maps, page 10-21
• Configuring Skinny Parameter Maps, page 10-23
• Configuring DNS Parameter Maps, page 10-25
• Supported MIME Types, page 10-26
Information About Parameter Maps
Parameter maps allow you to perform actions on traffic that ingresses an ACE interface based on certain
criteria, such as protocol or connection attributes. After you configure a parameter map, you associate it
with a policy map to implement configured behavior. Table 10-1 describes the parameter maps that you
can configure using ANM and the ACE devices that support them.
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Information About Parameter Maps
Related Topics
• Configuring Connection Parameter Maps, page 10-3
• Configuring Generic Parameter Maps, page 10-8
• Configuring HTTP Parameter Maps, page 10-9
• Configuring Optimization Parameter Maps, page 10-12
• Configuring RTSP Parameter Maps, page 10-20
• Configuring SIP Parameter Maps, page 10-21
• Configuring Skinny Parameter Maps, page 10-23
• Configuring Generic Parameter Maps, page 10-8
• Configuring Traffic Policies, page 14-1
• Configuring Parameter Maps, page 10-1
• Configuring Virtual Contexts, page 6-8
Table 10-1 Parameter Map Types and ACE Support
Parameter
Map Description
ACE Device
ACE
Module
ACE
Appliance
Connection Connection parameter maps combine all IP and TCP connection-related behaviors
pertaining to:
• TCP normalization, termination, and server reuse
• IP normalization, fragmentation, and reassembly
X X
Generic Generic parameter maps combine related generic protocol actions for server
load-balancing connections.
X X
HTTP HTTP parameter maps configure ACE behavior for HTTP load-balanced
connections.
X X
Optimization Optimization parameter maps specify optimization-related commands that pertain
to application acceleration and optimization functions performed by the ACE.
X
RTSP Real Time Streaming Protocol (RTSP) parameter maps configure advanced RTSP
behavior for server load-balancing connections.
X X
SIP Session Initiation Protocol (SIP) parameter maps configure SIP deep packet
inspection on the ACE.
X X
Skinny Skinny Client Control Protocol (SCCP) parameter maps configure SCCP packet
inspection on the ACE.
X X
DNS Domain Name System (DNS) parameter maps configure DNS actions for DNS
packet inspection.
X X
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Chapter 10 Configuring Parameter Maps
Configuring Connection Parameter Maps
Configuring Connection Parameter Maps
You can configure a connection parameter map for use with a Layer 3/Layer 4 policy map. Connection
parameter maps combine all IP and TCP connection-related behaviors pertaining to the following:
• TCP normalization, termination, and server reuse
• IP normalization, fragmentation, and reassembly
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Parameter Maps > Connection Parameter
Maps.
The Connection Parameter Maps table appears.
Step 2 In the Connection Parameter Maps table, click Add to add a new parameter map, or choose an existing
parameter map and click Edit to modify it.
The Connection Parameter Maps configuration window appears.
Step 3 In the Connection Parameter Maps configuration window, configure the parameter map using the
information in Table 10-2.
Click More Settings to access the additional Connection Parameter Map configuration attributes. By
default, ANM hides the default Connection Parameter Map configuration attributes and the attributes
that are not commonly used.
Table 10-2 Connection Parameter Map Attributes
Field Description
Parameter Name Unique name for the parameter map. Valid entries are unquoted text strings with no spaces and a
maximum of 64 alphanumeric characters.
Description Field that appears for ACE module A2(1.5), ACE appliance A3(2.3), and later releases of either
device type. If you attempt to use the Description feature with an ACE that is running an earlier
software version, ANM displays an invalid command detected error message and does not deploy the
parameter map.
Brief description of the parameter map. Enter a text string with a maximum of 240 alphanumeric
characters (A–Z, a–z, 0–9). Spaces and special characters are allowed. Double quotes must be
entered as matching pairs.
Inactivity Timeout
(Seconds)
Number of seconds that the ACE is to wait before disconnecting idle connections. Valid entries are
from 0 to 3217203. A value of 0 indicates that the ACE is never to time out a TCP connection.
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Configuring Connection Parameter Maps
More Settings
Exceeds MSS Action that the ACE takes to handle segments that exceed the maximum segment size (MSS):
• Allow—The ACE is to permit segments that exceed the configured MSS.
• Drop—The ACE is to discard segments that exceed the configured MSS.
Max. Connection
Limit
Maximum number of concurrent connections to allow for the parameter map. Valid entries are from
0 to 4000000.
Nagle Check box that enables the Nagle algorithm, which instructs a sender to buffer any data to be sent
until all outstanding data has been acknowledged or until there is a full segment of data to send.
Enabling the Nagle algorithm increases throughput, but it can increase latency in your TCP
connection.
Uncheck the check box to disable the Nagle algorithm.
Note Disable the Nagle algorithm when you observe unacceptable delays in TCP connections.
Random Sequence
Number
Check box that enables the use of random TCP sequence numbers, which adds a measure of security
to TCP connections by making it more difficult for a hacker to guess or predict the next sequence
number in a TCP connection.
Uncheck the check box to disable the use of random TCP sequence numbers.
This option is enabled by default.
Bandwidth Rate Limit Option that appears for ACE modules only. Enter the bandwidth-rate limit in bytes per second for the
parameter map. Valid entries are from 0 to 300000000 bytes.
Connection Rate
Limit
Connection-rate limit in connections per second. Valid entries are from 0 to350000.
Reserved Bits Action that the ACE takes to handle segments with the reserved bits set in the TCP header:
• Allow—Segments with the reserved bits are to be permitted.
• Drop—Segments with the reserved bits are to be discarded.
• Clear—Reserved bits in TCP headers are to be cleared and segments are to be allowed.
Type-of-Service IP
Header
Type of service for an IP packet that determines how the network handles the packet and balances its
precedence, throughput, delay, reliability, and cost.
Enter the type-of-service value to be applied to IP packets. Valid entries are from 0 to 255.
For more information about type of service, refer to RFCs 791, 1122, 1349, and 3168.
ACK Delay Time
(Milliseconds)
Number of milliseconds that the ACE is to wait before sending an acknowledgement from a client to
a server. Valid entries are from 0 to 400.
TCP Buffer Share
(Bytes)
Option that appears for only ACE modules. To improve throughput and overall performance, the
ACE buffers the number of bytes you specify before processing received data or transmitting data.
Use this option to increase the default buffer size and thereby realize improved network performance.
Enter the maximum size of the TCP buffer in bytes. Valid entries are from 8192 to 262143 bytes.
Default is 32768.
Note If you enter a value in this field for an ACE device that does not support this option, an error
message appears. Leave this field blank when creating or modifying a connection parameter
map for devices that do not support this option.
Table 10-2 Connection Parameter Map Attributes (continued)
Field Description
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Configuring Connection Parameter Maps
Smallest TCP MSS
(Bytes)
Size of the smallest segment of TCP data that the ACE is to accept. Valid entries are from 0 to 65535
bytes. The value 0 indicates that the ACE is not to set a minimum limit.
Largest TCP MSS
(Bytes)
Size of the largest segment of TCP data that the ACE is to accept. Valid entries are from 0 to 65535
bytes. The value 0 indicates that the ACE is not to set a maximum limit.
SYN Retries Number of attempts that the ACE is to make to transmit a TCP segment when initiating a Layer 7
connection. Valid entries are from 1 to 15. The default is 4.
TCP WAN
Optimization RTT
Option that specifies how the ACE is to apply TCP optimizations to packets on a connection
associated with a Layer 7 policy map using a round-trip time (RTT) value.
The choices are as follows:
• An entry of 0 (zero) indicates that the ACE is to apply TCP optimizations to packets for the life
of a connection.
• An entry of 65535 (the default) indicates that the ACE is to perform normal operations (that is,
without optimizations) for the life of a connection.
• Entries from 1 to 65534 indicate that the ACE is to use the following guidelines:
• If the actual client RTT is less than the configured RTT, the ACE performs normal operations
for the life of the connection.
• If the actual client RTT is greater than or equal to the configured RTT, the ACE performs
TCP optimizations on the packets for the life of a connection.
Valid entries are from 0 to 65535.
Timeout For
Embryonic
Connections
(Seconds)
Number of seconds that the ACE is to wait before timing out an embryonic connection, which is a
TCP three-way handshake for a connection that does not complete for some reason.
Valid entries are from 0 to 4294967295. The default is 5. A value of 0 indicates that the ACE is never
to time out an embryonic connection.
Half Closed Timeout
(Seconds)
Number of seconds the ACE is to wait before closing a half-closed connection, which is one in which
the client or server sends a FIN and the server or client acknowledges the FIN without sending a FIN
itself.
Valid entries are from 0 to 4294967295. The default is 3600 (1 hour). A value of 0 indicates that the
ACE is never to time out a half-closed connection.
Slow Start Algorithm Check box that enables the slow start algorithm. When enabled, the slow start algorithm increases
TCP window size as ACK handshakes arrive so that new segments are injected into the network at
the rate at which acknowledgements are returned by the host at the other end of the connection.
Uncheck the check box to disable the slow start algorithm. This option is disabled by default.
SYN Segments With
Data
Action that the ACE takes to handle TCP SYN segments that contain data:
• Allow—The ACE is to permit SYN segments that contain data and mark them for processing.
• Drop—The ACE is to discard SYN segments that contain data.
Table 10-2 Connection Parameter Map Attributes (continued)
Field Description
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Configuring Connection Parameter Maps
Urgent Pointer Policy Action that the ACE takes to handle urgent data as identified by the Urgent data control bit. Urgent
data, as indicated by a control bit in the TCP header, indicates that urgent data is to be processed as
soon as possible, even before normal data.
The choices are as follows:
• Allow—The ACE is to permit the status of the Urgent control bit.
• Clear—The ACE is to set the Urgent control bit to 0 (zero) and thereby invalidate the Urgent
Pointer which provides segment information.
TCP Window Scale
Factor
TCP window scale factor. The TCP window scaling extension expands the definition of the TCP
window to 32 bits and uses a scale factor to carry the 32-bit value in the 16-bit window of the TCP
header. Increasing the window size improves TCP performance in network paths with large
bandwidth, long-delay characteristics.
Valid entries are from 0 to 14 (the maximum scale factor).
For more information on TCP window scaling, refer to RFC 1323.
Action For TCP
Options Range
Action that the ACE takes to handle the following TCP options:
• Selective ACK
• Timestamps
• Action For TCP Window Scale Factor
The choices are as follows:
• N/A—This option is not set.
• Allow—The ACE is to allow any segment with the specified option set.
• Drop—The ACE is to discard any segment with the specified option set.
Lower TCP Options Option that appears if you chose Allow or Drop for the Action For TCP Options Range.
Enter the lower limit of the TCP option range. Valid entries are 6, 7, or a value from 9 to 255. See
Table 10-3 for information on TCP options.
Upper TCP Options Option that appears if you chose Allow or Drop for the Action For TCP Options Range.
Enter the upper limit of the TCP option range. Valid entries are 6, 7, or a value from 9 to 255. See
Table 10-3 for information on TCP options.
Selective ACK Action that the ACE takes to handle the selective ACK option that is specified in SYN segments:
• Allow—The ACE allows any segment with the specified option set.
• Clear—The ACE clears the specified option from any segment that has it set and allow the
segment.
Table 10-2 Connection Parameter Map Attributes (continued)
Field Description
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Table 10-3 lists the TCP options for connection parameter maps.
Timestamps Action that the ACE takes to handle the time stamp option that is specified in SYN segments:
• Allow—The ACE allows any segment with the specified option set.
• Clear—The ACE clears the specified option from any segment that has it set and allow the
segment.
Action For TCP
Window Scale Factor
Action that the ACE takes to handle the TCP window scale factor option that is specified in SYN
segments:
• Allow—The ACE allows any segment with the specified option set.
• Clear—The ACE clears the specified option from any segment that has it set and allow the
segment.
• Drop—The ACE discards any segment with the specified option set.
Table 10-2 Connection Parameter Map Attributes (continued)
Field Description
Table 10-3 TCP Options for Connection Parameter Maps1
1. For more information about TCP options, see the Cisco 4700 Series Application Control Engine Appliance Security
Configuration Guide.
Type Length Meaning
6 6 Echo (obsoleted by option 8)
7 6 Echo Reply (obsoleted by option 8)
9 2 Partial Order Connection Permitted
10 3 Partial Order Service Profile
11 CC
12 CC.NEW
13 CC.ECHO
14 3 TCP Alternate Checksum Request
15 N TCP Alternate Checksum Data
16 Skeeter
17 Bubba
18 3 Trailer Checksum Option
19 18 MD5 Signature Option
20 SCPS Capabilities
21 Selective Negative Acknowledgements (SNACK)
22 Record Boundaries
23 Corruption Experienced
24 SNAP
25 Unassigned (released 12/18/2000)
26 TCP Compression Filter
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Configuring Generic Parameter Maps
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without accepting your entries and to return to the Parameter
Map table.
• Click Next to accept your entries and to add another parameter map.
Related Topics
• Configuring Parameter Maps, page 10-1
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Contexts, page 6-8
Configuring Generic Parameter Maps
You configure a generic parameter map, which allows you to specify nonprotocol-specific behavior for
data parsing. Generic parameter maps examine the payload and make decisions regardless of the
protocol.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Parameter Maps > Generic Parameter
Maps.
The Generic Parameter Maps table appears.
Step 2 In the Generic Parameter Maps table, click Add to add a new parameter map, or choose an existing
parameter map and click Edit to modify it.
The Parameter Maps configuration window appears.
Step 3 In the Parameter Maps configuration window, configure the parameter map using the information in
Table 10-4.
Table 10-4 Generic Parameter Map Attributes
Field Description
Parameter Name Unique name for the parameter map. Valid entries are unquoted text strings with no spaces and
a maximum of 64 alphanumeric characters.
Description Field that appears for ACE module A2(1.5), ACE appliance A3(2.3), and later releases of
either device type. If you attempt to use the Description feature with an ACE that is running
an earlier software version, ANM displays an invalid command detected error message and
does not deploy the parameter map.
Brief description of the parameter map. Enter a text string with a maximum of 240
alphanumeric characters (A–Z, a–z, 0–9). Spaces and special characters are allowed. Double
quotes must be entered as matching pairs.
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Configuring HTTP Parameter Maps
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Generic
Parameter Maps table.
• Click Next to deploy your entries and to configure another generic parameter map.
Related Topics
• Configuring Parameter Maps, page 10-1
• Configuring Traffic Policies, page 14-1
• Configuring Parameter Maps, page 10-1
• Configuring Virtual Contexts, page 6-8
Configuring HTTP Parameter Maps
You can configure an HTTP parameter map for use with a Layer 3/Layer 4 policy map. HTTP parameter
maps allow you to configure ACE behavior for HTTP load-balanced connections.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Parameter Maps > HTTP Parameter Maps.
The HTTP Parameter Maps table appears.
Step 2 In the HTTP Parameter Maps table, click Add to add a new parameter map, or choose an existing
parameter map and click Edit to modify it.
The HTTP Parameter Maps configuration window appears.
Step 3 In the HTTP Parameter Maps configuration window, configure the parameter map using the information
in Table 10-5.
Case-Insensitive Check box that instructs the ACE to be case insensitive for the parameter map. Uncheck this
check box to instruct the ACE to be case sensitive for this parameter map.
Max. Parse Length (Bytes) Number of bytes to parse for the total length of all generic headers. Valid entries are from 1 to
65535. The default is 2048 bytes.
Table 10-4 Generic Parameter Map Attributes (continued)
Field Description
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Configuring HTTP Parameter Maps
Table 10-5 HTTP Parameter Map Attributes
Field Description
Parameter Name Unique name for the parameter map. Valid entries are unquoted text strings with no spaces
and a maximum of 64 alphanumeric characters.
Description Field that appears for ACE module A2(1.5), ACE appliance A3(2.3), and later releases of
either device type. If you attempt to use the Description feature with an ACE that is
running an earlier software version, ANM displays an invalid command detected error
message and does not deploy the parameter map.
Brief description of the parameter map. Enter a text string with a maximum of 240
alphanumeric characters (A–Z, a–z, 0–9). Spaces and special characters are allowed.
Double quotes must be entered as matching pairs.
Case-Insensitive Check box that instructs the ACE to be case insensitive. Uncheck this check box to
indicate that the ACE is to be case sensitive. This check box is cleared by default.
Header Modify Per-Request Check box to require that SSL information is inserted for every HTTP GET request.
Current functionality only requires that the information be inserted at the first GET
request.
Exceed Max. Parse Length Action that the ACE takes to handle cookies, HTTP headers, and URLs that exceed the
maximum parse length. The choices are as follows:
• Continue—The ACE is to continue load balancing. When this option is selected, the
HTTP Persistence Rebalance option is disabled if the total length of all cookies,
HTTP headers, and URLs exceeds the maximum parse value.
• Drop—The ACE is to stop load balancing and to discard the packet.
HTTP Persistence Rebalance Check box that instructs the ACE to do the following:
• Separately load balance each subsequent HTTP request on the same TCP connection.
• Insert the header and cookie for every request instead of only the first request.
Uncheck this check box to indicate that this option is disabled.
This option is enabled by default.
TCP Server Connection Reuse Check box that instructs the ACE to reduce the number of open connections on a server
by allowing connections to persist and be reused by multiple client connections. If you
enable this feature, perform the following tasks:
• Ensure that the ACE maximum segment size (MSS) is the same as the server
maximum segment size.
• Configure port address translation (PAT) on the interface that is connected to the real
server.
• Configure on the ACE the same TCP options that exist on the TCP server.
• Ensure that each server farm is homogeneous (all real servers within a server farm
have identical configurations).
Uncheck this check box to disable this option.
Content Max. Parse Length
(Bytes)
Maximum number of bytes to parse in HTTP content. Valid entries are from 1 to 65535.
The default is 4096.
Header Max. Parse Length
(Bytes)
Maximum number of bytes to parse for the total length of cookies, HTTP headers, and
URLs. Valid entries are from 1 to 65535. The default is 4096.
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Configuring HTTP Parameter Maps
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without accepting your entries and to return to the Parameter
Map table.
• Click Next to accept your entries and to add another parameter map.
Related Topics
• Configuring Parameter Maps, page 10-1
• Configuring Traffic Policies, page 14-1
• Configuring Parameter Maps, page 10-1
Secondary Cookie Delimiters ASCII-character delimiters to be used to separate cookies in a URL string. Valid entries
are unquoted text strings with no spaces and a maximum of 4 characters. The default
delimiters are /&#+.
MIME Type To Compress Option that appears only for ACE appliances (all versions) and ACE modules version
A4(1.0) and later. In the field on the left, enter the Multipurpose Internet Mail Extension
(MIME) type to compress, and click Add. The MIME type appears in the column on the
right. To remove or change a MIME type, choose it in the column on the right, and click
Remove. The selected MIME type appears in the field on the left where you can modify
or delete it.
To specify the sequence in which compression is to be applied, choose MIME types in the
column on the right, and click Up or Down to arrange the MIME types.
The “Supported MIME Types” section on page 10-26 lists the supported MIME types.
You can use an asterisk (*) to indicate a wildcard, such as text/*, which would include all
text MIME types (text/html, text/plain, and so on).
User Agent Not To Compress Option that appears only for ACE appliances (all versions) and ACE modules version
A4(1.0) and later. A user agent is a client that initiates a request. Examples of user agents
include browsers, editors, and other end-user tools. When you specify a user agent string
in this field, the ACE does not compress the response to a request when the request
contains the matching user agent string.
In the field on the left, enter the user agent string to be matched, and click Add. The string
appears in the column on the right. To remove or change a user agent string, choose it in
the column on the right, and click Remove. The selected string appears in the field on the
left where you can modify or delete it.
To specify the sequence in which strings are to be matched, choose strings in the column
on the right, and click Up or Down to arrange the strings in the desired sequence.
Valid entries are 64 characters.
Min. Size To Compress (Bytes) Option that appears only for ACE appliances (all versions) and ACE modules version
A4(1.0) and later. Enter the threshold at which compression is to occur. The ACE
compresses files that are the minimum size or larger. Valid entries are from 1 to 4096
bytes.
Table 10-5 HTTP Parameter Map Attributes (continued)
Field Description
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Configuring Optimization Parameter Maps
• Configuring Virtual Contexts, page 6-8
Configuring Optimization Parameter Maps
Note Optimization parameter maps are available for ACE appliances only.
You can configure an optimization parameter map for use with a Layer 3/Layer 4 policy map.
Optimization parameter maps specify optimization-related commands that pertain to application
acceleration and optimization functions performed by the ACE.
See the “Configuring Application Acceleration and Optimization” section on page 15-1 or the Cisco
4700 Series Application Control Engine Appliance Application Acceleration and Optimization
Configuration Guide for more information about application acceleration and optimization.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Parameter Maps > Optimization Parameter
Maps.
The Optimization Parameter Maps table appears.
Step 2 In the Optimization Parameter Maps table, click Add to add a new parameter map, or choose an existing
parameter map and click Edit to modify it.
The Optimization Parameter Maps configuration window appears.
Step 3 In the Optimization Parameter Maps configuration window, configure the parameter map using the
information in Table 10-6.
Table 10-6 Optimization Parameter Map Attributes
Field Description
Parameter Name Unique name for the parameter map. Valid entries are unquoted text strings with no spaces and a
maximum of 64 alphanumeric characters.
Description Field that appears for ACE module A2(1.5), ACE appliance A3(2.3), and later releases of either
device type. If you attempt to use the Description feature with an ACE that is running an earlier
software version, ANM displays an invalid command detected error message and does not deploy
the parameter map.
Brief description of the parameter map. Enter a text string with a maximum of 240 alphanumeric
characters (A–Z, a–z, 0–9). Spaces and special characters are allowed. Double quotes must be
entered as matching pairs.
Set Browser Freshness
Period
Method that the ACE uses to determine the freshness of objects in the client’s browser:
• N/A—This option is not configured.
• Disable Browser Object Freshness Control—Browser freshness control is not used.
• Set Freshness Similar To Flash Forward Objects—The ACE sets freshness similar to that
used for FlashForwarded objects and to use the values specified in the Maximum Time for
Cache Time-To-Live and Minimum Time for Cache Time-To-Live fields.
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Duration For Browser
Freshness (Seconds)
Field that appears if the Set Browser Freshness Period option is not configured.
Enter the number of seconds that objects in the client’s browser are considered fresh. Valid entries
are 0 to 2147483647 seconds.
Response Codes To
Ignore (Comma
Separated)
Comma-separated list of HTTP response codes for which the response body must not be read. For
example, an entry of 302 indicates that the ACE is to ignore the response body of a 302 (redirect)
response from the origin server. Valid entries are unquoted text strings with a maximum of 64
alphanumeric characters from 100 to 599, inclusive.
Appscope Optimize
Rate (%)
Percentage of all requests or sessions to be sampled for performance with acceleration (or
optimization) applied. All applicable optimizations for the class will be performed. Valid entries
are from 0 to 100 percent. The default is 10 percent. The sum of this value and the value entered
in the Passthru Rate Percent field must not exceed 100.
Appscope Passthrough
Rate (%)
Percentage of all requests or sessions to be sampled for performance without optimization. No
optimizations for the class will be performed. Valid entries are from 0 to 100. The default is 10
percent. The sum of this value and the value entered in the Optimize Rate Percent field must not
exceed 100.
Max. Number for
Parameter Summary
Log (Bytes)
Maximum number of bytes that are to be logged for each parameter value in the parameter
summary of a transaction log entry in the statistics log. If a parameter value exceeds this limit, it
is truncated at the specified limit. Valid entries are from 0 to 10,000 bytes.
Max. For Post Data to
Scan for Logging
(KBytes)
Maximum number of kilobytes of POST data that the ACE is to scan for parameters for the purpose
of logging transaction parameters in the statistics log.
Valid entries are from 0 to 1000 KB.
String For Grouping
Requests
String that the ACE uses to sort requests for AppScope reporting. The string can contain a URL
regular expression that defines a set of URLs in which URLs that differ only by their query
parameters are to be treated as separate URLs in AppScope reports.
For example, to define a string that is used to identify the URLs
http://server/catalog.asp?region=asia and http://server/catalog.asp?region=america as two separate
reporting categories, you would enter http_query_param(region).
Valid entries are from 1 to 255 characters and can contain the parameter expander functions listed
in Table 10-7.
Base File Anonymous
Level
Base file anonymous level. Information that is common to a large set of users is generally not
confidential or user-specific. Conversely, information that is unique to a specific user or a small set
of users is generally confidential or user-specific. The anonymous base file feature enables the
ACE to create and deliver condensed base files that contain only information that is common to a
large set of users. No information unique to a particular user, or across a very small subset of users,
is included in anonymous base files.
Enter the value for base file anonymity for the all-user condensation method. Valid entries are from
0 to 50. The default is 0, which disables the base file anonymity feature.
Table 10-6 Optimization Parameter Map Attributes (continued)
Field Description
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Configuring Optimization Parameter Maps
Cache-Key Modifier
Expression
Cache key modifier expression. A cache object key is a unique identifier that is used to identify a
cached object to be served to a client, replacing a trip to the origin server. The cache key modifier
feature allows you to modify the canonical form of a URL; that is, the portion before “?” in a URL.
For example, the canonical URL of http://www.xyz.com/somepage.asp?action=browse&level=2 is
http://www.xyz.com/somepage.asp.
Enter a regular expression containing embedded variables as described in Table 10-7. The ACE
transforms URLs specified in class maps for this virtual server with the expression and variable
entered here.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters. If the string includes spaces, enclose the string with quotation marks (“).
Min. Time For Cache
Time-To-Live
(Seconds)
Minimum number of seconds that an object without an explicit expiration time should be
considered fresh in the ACE cache. This value specifies the minimum time that content can be
cached. If the ACE is configured for FlashForward optimization, this value should normally be 0.
If the ACE is configured for dynamic caching, this value should indicate how long the ACE should
cache the page. (See Table 7-17 for information about these configuration options.)
Valid entries are from 0 to 2147483647 seconds.
Max. Time For Cache
Time-To-Live
(Seconds)
Maximum number of seconds that an object without an explicit expiration time should be
considered fresh in the ACE cache. Valid entries are from 0 to 2147483647 seconds.
Cache Time-To-Live
Duration (%)
Percentage of an object’s age at which an embedded object without an explicit expiration time is
considered fresh.
Valid entries are from 0 to 100 percent.
Expression To Modify
Cache Key Query
Parameter
Regular expression that contains embedded variables as described in Table 10-7. The ACE
transforms URLs specified in class maps for this virtual server with the expression and variable
entered here.
The cache parameter feature allows you to modify the query parameter of a URL; that is, the
portion after “?” in a URL. For example, the query parameter portion of
http://www.xyz.com/somepage.asp?action=browse&level=2 is action=browse&level=2.
If no string is specified, the query parameter portion of the URL is used as the default value for
this portion of the cache key.
Valid entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric
characters.
Canonical URL
Expressions (Comma
Separated)
Comma-separated list of parameter expander functions as defined in Table 10-7 to identify the
URLs to associate with this parameter map. The ACE uses the canonical URL feature to eliminate
the “?” and any characters that follow to identify the general part of the URL. This general URL is
then used to create the base file. In this way, the ACE maps multiple URLs to a single canonical
URL.
Valid entries are unquoted text strings with a maximum of 255 alphanumeric characters.
Enable Cacheable
Content Optimization
Check box that enables delta optimization of content that can be cached. This feature allows the
ACE to detect content that can be cached and perform delta optimization on it.
Uncheck the check box to disable this feature.
Table 10-6 Optimization Parameter Map Attributes (continued)
Field Description
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Configuring Optimization Parameter Maps
Enable Delta
Optimization On First
Visit To Web Page
Check box that enables condensation on the first visit to a web page. Uncheck the check box to
disable this feature.
Min. Page Size For
Delta Optimization
(Bytes)
Minimum page size, in bytes, that can be condensed. Valid entries are from 1 to 250000 bytes.
Max. Page Size For
Delta Optimization
(Bytes)
Maximum page size, in bytes, that can be condensed. Valid entries are from 1 to 250000 bytes.
Set Default Client
Script
Scripting language that the ACE recognizes on condensed content pages:
• N/A—This option is not configured.
• Javascript—The default scripting language is JavaScript.
• Visual Basic Script—The default scripting language is Visual Basic.
Exclude Iframes From
Delta Optimization
Check box that specifies that delta optimization is not to be applied to IFrames (inline frames).
Uncheck the check box to indicate that delta optimization is to be applied to IFrames.
Exclude Non-ASCII
Data From Delta
Optimization
Check box that specifies that delta optimization is not to be applied to non-ASCII data. Uncheck
the check box to indicate that delta optimization is to be applied to non-ASCII data.
Exclude JavaScripts
From Delta
Optimization
Check box that specifies that delta optimization is not to be applied to JavaScript. Clear the check
box to indicate that delta optimization is to be applied to JavaScript.
MIME Types To
Exclude From Delta
Optimization
Mime types to exclude from delta optimization.
Do the following:
1. In the first field, enter a comma-separated list of the MIME (Multipurpose Internet Mail
Extension) type messages that are not to have delta optimization applied, such as image/Jpeg,
text/html, application/msword, or audio/mpeg. See the “Supported MIME Types” section on
page 10-26 for a list of supported MIME types.
2. Click Add to add the entry to the list box on the right. You can position the entries in the list
box by using the Up and Down buttons.
Remove HTML META
Elements From
Documents
Check box that specifies that HTML META elements are to be removed from documents to prevent
them from being condensed. Uncheck the check box to indicate that HTML META elements are
not to be removed from documents.
Set Flash Forward
Refresh Policy
Method the ACE is to use to refresh stale embedded objects:
• N/A—This option is not configured.
• Allow Flash Forward To Indirect Refresh Of Objects—The ACE uses FlashForward to
indirectly refresh embedded objects.
• Bypass Flash Forward To Direct Refresh Of Objects—The ACE bypasses FlashForward for
stale embedded objects so that they are refreshed directly.
Rebase Delta
Optimization Threshold
(%)
Delta threshold, expressed as a percent, when rebasing is to be triggered. This entry represents the
size of a page delta relative to total page size, expressed as a percent. This entry triggers rebasing
when the delta response size exceeds the threshold as a percentage of base file size.
Valid entries are from 0 to 10000 percent.
Table 10-6 Optimization Parameter Map Attributes (continued)
Field Description
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Rebase Flash Forward
Threshold (%)
Threshold, expressed as a percent, when rebasing is to be triggered based on the percent of
FlashForwarded URLs in the response. This entry triggers rebasing when the difference between
the percentages of FlashForwarded URLs in the delta response and the base file exceeds the
threshold.
Valid entries are from 0 to 10000 percent.
Rebase History Size
(Pages)
Number of pages to be stored before the ACE resets all rebase control parameters to zero and starts
over. This option prevents the base file from becoming too rigid.
Valid entries are from 10 to 2147483647.
Rebase Modify
Cool-Off Period
(Seconds)
Number of seconds after the last modification before performing a rebase.
Valid entries are from 1 to 14400 seconds (4 hours).
Rebase Reset Period
(Seconds)
Period of time, in seconds, for performing a meta data refresh.
Valid entries are from 1 to 900 seconds (15 minutes).
Override Client Request
Headers
Action that the ACE takes to handle client request headers (primarily for embedded objects):
• N/A—This feature is not enabled.
• All Cache Request Headers Are Ignored—The ACE ignores all cache request headers.
• Overrides The Cache Control: No Cache HTTP Header From A Request—The ACE
ignores cache control request headers that state no cache.
Override Server
Response Headers
Action that the ACE takes to handle origin server response headers (primarily for embedded
objects):
• N/A—This feature is not enabled.
• All Cache Request Headers Are Ignored—The ACE ignores all response headers.
• Overrides The Cache Control: Private HTTP Header From A Response—The ACE
ignores cache control response headers that state private.
UTF-8 Character Set
Threshold
UTF-8 (8-bit Unicode Transformation Format) character set, which is an international standard
that allows Web pages to display non-ASCII or non-English multibyte characters. It can represent
any universal character in the Unicode standard and is backwards compatible with ASCII.
Enter the number of UTF-8 characters that need to appear on a page to constitute a UTF-8 character
set page. Valid entries are from 1 to 1,000,000.
Server Load Threshold
Trigger (%)
Server load threshold trigger that indicates that the time-to-live (TTL) period for cached objects is
to be based dynamically on server load. With this method, TTL periods increase if the current
response time from the origin sever is greater than the average response time and decrease if the
current response time from the origin server is less than the average response time when the
difference in response times exceeds a specified threshold amount.
Enter the threshold, expressed as a percent, at which the TTL for cached objects is to be changed.
Valid entries are from 0 to 100 percent.
Table 10-6 Optimization Parameter Map Attributes (continued)
Field Description
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Table 10-7 lists the parameter expander functions that you can use.
Server Load
Time-To-Live Change
(%)
Option that specifies the percentage by which the cache TTL is increased or decreased in response
to a change in server load. For example, if this value is set to 20 and the current TTL for a response
is 300 seconds. and if the current server response times exceeds the trigger threshold, the cache
TTL for the response is raised to 360 seconds.
Enter the percent by which the cache TTL is to be increased or decreased when the server load
threshold trigger is met.
Valid entries are from 0 to 100 percent.
Delta Optimization
Mode
Method by which delta optimization is to be implemented.
The choices are as follows:
• N/A—This option is not configured.
• Enable The All-User Mode For Delta Optimization—The ACE is to generate the delta
against a single base file that is shared by all users of the URL. This option is usable in most
cases if the structure of a page is common across all users, and the disk space overhead is
minimal.
• Enable The Per-User Mode For Delta Optimization—The ACE is to generate the delta
against a base file that is created specifically for that user. This option is useful when page
contents, including layout elements, are different for each user, and delivers the highest level
of condensation. However, this increases disk space requirements because a copy of the base
page that is delivered to each user is cached. This option is useful when privacy is required
because base pages are not shared among users.
String To Be Used For
Server HTTP Header
Option that defines a string that is to be sent in the server header for an HTTP response. This option
provides you with a method for uniquely tagging the context or URL match statement by setting
the server header value to a particular string. The server header string can be used when a particular
URL is not being transmitted to the correct target context or match statement.
Enter the string that is to appear in the server header. Valid entries are quoted text strings with a
maximum of 64 alphanumeric characters.
Table 10-6 Optimization Parameter Map Attributes (continued)
Field Description
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Table 10-7 Parameter Expander Functions
Variable Description
$(number) Expands to the corresponding matching subexpression (by number)
in the URL pattern. Subexpressions are marked in a URL pattern
using parentheses (). The numbering of the subexpressions begins
with 1 and is the number of the left-parenthesis “(“ counting from
the left. You can specify any positive integer for the number. $(0)
matches the entire URL. For example, if the URL pattern is
((http://server/.*)/(.*)/)a.jsp, and the URL that matches it is
http://server/main/sub/a.jsp?category=shoes&session=99999, then
the following are correct:
$(0) = http://server/main/sub/a.jsp
$(1) = http://server/main/sub/
$(2) = http://server/main
$(3) = sub
If the specified subexpression does not exist in the URL pattern, then
the variable expands to the empty string.
$http_query_string() Expands to the value of the whole query string in the URL. For
example, if the URL is
http://myhost/dothis?param1=value1¶m2=value2, then the
following is correct:
$http_query_string() = param1=value1¶m2=value2
This function applies to both GET and POST requests.
$http_query_param(query-param-name)
The obsolete syntax is also supported:
$param(query-param-name)
Expands to the value of the named query parameter (case sensitive).
For example, if the URL is
http://server/main/sub/a.jsp?category=shoes&session=99999, then
the following are correct:
$http_query_param(category) = shoes
$http_query_param(session) = 99999
If the specified parameter does not exist in the query, then the
variable expands to the empty string. This function applies to both
GET and POST requests.
$http_cookie(cookie-name) Evaluates to the value of the named cookie. For example,
$http_cookie(cookiexyz). The cookie name is case sensitive.
$http_header(request-header-name) Evaluates to the value of the specified HTTP request header. In the
case of multivalued headers, it is the single representation as
specified in the HTTP specification. For example,
$http_header(user-agent). The HTTP header name is not case
sensitive.
$http_method() Evaluates to the HTTP method used for the request, such as GET or
POST.
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Configuring Optimization Parameter Maps
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The ACE validates the parameter map
configuration and deploys it.
• Click Cancel to exit this procedure without accepting your entries and to return to the Parameter
Map table.
• Click Next to accept your entries and to add another parameter map.
Related Topics
• Configuring Parameter Maps, page 10-1
• Configuring Traffic Policies, page 14-1
• Configuring Parameter Maps, page 10-1
• Configuring Virtual Contexts, page 6-8
Boolean Functions:
$http_query_param_present(query-param-name)
$http_query_param_notpresent(query-param-name)
$http_cookie_present(cookie-name)
$http_cookie_notpresent(cookie-name)
$http_header_present(request-header-name)
$http_header_notpresent(request-header-name)
$http_method_present(method-name)
$http_method_notpresent(method-name)
Evaluates to a Boolean value: True or False, depending on the
presence or absence of the element in the request. The elements are
a specific query parameter (query-param-name), a specific cookie
(cookie-name), a specific request header (request-header-name), or
a specific HTTP method (method-name). All identifiers are case
sensitive except for the HTTP request header name.
$regex_match(param1, param2) Evaluates to a Boolean value: True if the two parameters match and
False if they do not match. The two parameters can be any two
expressions, including regular expressions, that evaluate to two
strings. For example, this function:
$regex_match($http_query_param(URL), .*Store\.asp.*)
compares the query URL with the regular expression string
.*Store\.asp.*
If the URL matches this regular expression, this function evaluates
to True.
Table 10-7 Parameter Expander Functions (continued)
Variable Description
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Configuring RTSP Parameter Maps
Configuring RTSP Parameter Maps
You can configure a Real Time Streaming protocol (RTSP) parameter map, which allows you to
configure advanced RTSP behavior for server load-balancing connections.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Parameter Maps > RTSP Parameter Maps.
The RTSP Parameter Maps table appears.
Step 2 In the RTSP Parameter Maps table, click Add to add a new parameter map, or choose an existing
parameter map and click Edit to modify it.
The Parameter Maps configuration window appears.
Step 3 In the Parameter Maps configuration window, configure the parameter map using the information in
Table 10-8.
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the RTSP Parameter
Maps table.
• Click Next to deploy your entries and to configure another RTSP parameter map.
Related Topics
• Configuring Parameter Maps, page 10-1
• Configuring Traffic Policies, page 14-1
• Configuring Parameter Maps, page 10-1
Table 10-8 RTSP Parameter Map Attributes
Field Description
Parameter Name Unique name for the parameter map. Valid entries are unquoted text strings with no spaces and
a maximum of 64 alphanumeric characters.
Description Field that appears for ACE module A2(1.5), ACE appliance A3(2.3), and later releases of
either device type. If you attempt to use the Description feature with an ACE that is running
an earlier software version, ANM displays an invalid command detected error message and
does not deploy the parameter map.
Brief description of the parameter map. Enter a text string with a maximum of 240
alphanumeric characters (A–Z, a–z, 0–9). Spaces and special characters are allowed. Double
quotes must be entered as matching pairs.
Case-Insensitive Check box that instructs the ACE to be case insensitive. Uncheck the check box to instruct the
ACE is to be case sensitive.
Header Max. Parse Length
(Bytes)
Number of bytes to parse for the total length of RTSP headers. Valid entries are from 1 to
65535. The default is 2048 bytes.
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Configuring SIP Parameter Maps
• Configuring Virtual Contexts, page 6-8
Configuring SIP Parameter Maps
You can configure Session Initiation Protocol (SIP) parameter maps, which allow you to configure SIP
deep-packet inspection policy maps on the ACE.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Parameter Maps > SIP Parameter Maps.
The SIP Parameter Maps table appears.
Step 2 In the SIP Parameter Maps table, click Add to add a new parameter map, or choose an existing parameter
map and click Edit to modify it.
The Parameter Maps configuration window appears.
Step 3 In the Parameter Maps configuration window, configure the parameter map using the information in
Table 10-9.
Table 10-9 SIP Parameter Map Attributes
Field Description
Parameter Name Unique name for the parameter map. Valid entries are unquoted text strings with no spaces
and a maximum of 64 alphanumeric characters.
Description Field that appears for ACE module A2(1.5), ACE appliance A3(2.3), and later releases of
either device type. If you attempt to use the Description feature with an ACE that is running
an earlier software version, ANM displays an invalid command detected error message and
does not deploy the parameter map.
Brief description of the parameter map. Enter a text string with a maximum of 240
alphanumeric characters (A–Z, a–z, 0–9). Spaces and special characters are allowed. Double
quotes must be entered as matching pairs.
Instant Messaging Check box that enables instant messaging (IM) over SIP after it has been disabled.
Uncheck this check box to disable this feature.
Logging All Check box that appears only for ACE module and ACE appliance software Version A4(1.0)
or later. Check this check box to enable logging of all received and transmitted SIP packets
in the system log (syslog) in addition to the dropped packets, which by default are logged.
The ACE allows all headers sent in the SIP packet, including proprietary headers. In the event
of a failover for SIP sessions over UDP, the ACE continues to process SIP packets for
established SIP sessions.
Uncheck this check box to disable this feature.
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Configuring SIP Parameter Maps
Max. Forward Validation Option that allows you to configure the ACE to validate the value of the Max-Forward header
field.
Specify how the ACE is to handle the validation of Max-Forward header fields. The choices
are as follows:
• N/A—The ACE is not to validate Max-Forward header fields.
• Drop—The ACE is to drop the SIP message if it does not pass Max-Forward header
validation.
• Deny—The ACE is to reset the SIP connection if it does not pass Max-Forward header
validation.
Log Max. Forward
Validation Event
Check box that instructs the ACE to log Max-Forward validation events.
Uncheck the check box to disable this feature.
Mask UA Software Version Check box that instructs the ACE to mask the user agent software version. If the software
version of a user agent is exposed, that user agent might be vulnerable to attacks from hackers
who exploit the security holes present in that particular software version. This option allows
you to mask or log the user agent software version so that it is not exposed.
Uncheck the check box to disable this feature.
Log UA Software Version Check box that instructs the ACE to log the user agent software version.
Uncheck the check box to disable this feature.
Strict Header Validation Action that the ACE is to take to handle header validation. You can ensure the validity of SIP
packet headers by configuring the ACE to check for the presence of the following mandatory
SIP header fields:
• From
• To
• Call-ID
• CSeq
• Via
• Max-Forwards
If one of the header fields is missing in a SIP packet, the ACE considers that packet invalid.
The ACE also checks for forbidden header fields, according to RFC 3261.
Specify how the ACE is to handle header validation. The choices are as follows:
• N/A—The ACE does not to perform header validation.
• Drop—The ACE drops the SIP message if the SIP packet does not pass header validation.
• Reset—The ACE resets the connection if the SIP packet does not pass header validation.
Log Strict Header Validation Check box that instructs the ACE to log header validation events.
Uncheck the check box to disable this feature.
Mask Non SIP URI Check box that instructs the ACE to mask non-SIP URIs in SIP messages. This option and the
next enable the detection of non-SIP URIs in SIP messages.
Uncheck the check box to disable this feature.
Table 10-9 SIP Parameter Map Attributes (continued)
Field Description
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Configuring Skinny Parameter Maps
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the SIP Parameter
Maps table.
• Click Next to deploy your entries and to configure another SIP parameter map.
Related Topics
• Configuring Parameter Maps, page 10-1
• Configuring Traffic Policies, page 14-1
• Configuring Parameter Maps, page 10-1
• Configuring Virtual Contexts, page 6-8
Configuring Skinny Parameter Maps
You can configure Skinny Client Control Protocol (SCCP or Skinny) parameter maps, which allow you
to configure SCCP packet inspection on the ACE.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Parameter Maps > Skinny Parameter
Maps.
The Skinny Parameter Maps table appears.
Step 2 In the Skinny Parameter Maps table, click Add to add a new parameter map, or choose an existing
parameter map and click Edit to modify it.
The Parameter Maps configuration window appears.
Log Non SIP URI Check box that instructs the ACE to log non-SIP URIs in SIP messages.
Uncheck the check box to disable this feature.
SIP Media Pinhole Timeout
(Seconds)
Timeout period for SIP media pinhole (secure port) connections in seconds. Valid entries are
from 1 to 65535 seconds. The default is 5.
Table 10-9 SIP Parameter Map Attributes (continued)
Field Description
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Configuring Skinny Parameter Maps
Step 3 In the Parameter Maps configuration window, configure the parameter map using the information in
Table 10-10.
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Skinny Parameter
Maps table.
• Click Next to deploy your entries and to configure another Skinny parameter map.
Related Topics
• Configuring Parameter Maps, page 10-1
Table 10-10 Skinny Parameter Map Attributes
Field Description
Parameter Name Unique name for the parameter map. Valid entries are unquoted text strings with no spaces and
a maximum of 64 alphanumeric characters.
Description Field that appears for ACE module A2(1.5), ACE appliance A3(2.3), and later releases of
either device type. If you attempt to use the Description feature with an ACE that is running
an earlier software version, ANM displays an invalid command detected error message and
does not deploy the parameter map.
Brief description of the parameter map. Enter a text string with a maximum of 240
alphanumeric characters (A–Z, a–z, 0–9). Spaces and special characters are allowed. Double
quotes must be entered as matching pairs.
Enforce Registration Check box that enables Skinny registration enforcement. You can configure the ACE to allow
only registered Skinny clients to make calls. To accomplish this task, the ACE maintains the
state of each Skinny client. After a client registers with CCM, the ACE opens a secure port
(pinhole) to allow that client to make a call.
Uncheck the check box to disable this feature.
Message Id Max Maximum value for the station message ID in hexadecimal that the ACE is to accept. Valid
entries are hexadecimal values from 0x0 to 0x4000 with a default value of 0x181. If a packet
arrives with a station message ID greater than the specified value, the ACE drops the packet
and generates a syslog message.
Note The Message Id Max. hexadecimal value should always start with 0x or 0X.
Min. SCCP Prefix Length
(Bytes)
Minimum SCCP prefix length in bytes. By default, the ACE drops SCCP messages that have
an SCCP Prefix length that is less than the message ID. The ACE drops Skinny message
packets that fail this check and generates a syslog message.
Valid entries are from 4 to 4000 bytes.
Max. SCCP Prefix Length
(Bytes)
Maximum SCCP prefix length in bytes. This feature allows you to configure the ACE so that
it checks the maximum SCCP prefix length. The ACE drops Skinny message packets that fail
this check and generates a syslog message.
Valid entries are from 4 to 4000 bytes.
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Configuring DNS Parameter Maps
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Contexts, page 6-8
Configuring DNS Parameter Maps
You can configure Domain Name System (DNS) parameter maps, which allow you to configure DNS
actions for DNS packet inspection.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Parameter Maps > DNS Parameter Maps.
The DNS Parameter Maps table appears.
Step 2 In the DNS Parameter Maps table, click Add to add a new parameter map, or choose an existing
parameter map and click Edit to modify it.
The DNS Parameter Maps configuration window appears.
Step 3 In the DNS Parameter Maps configuration window, configure the parameter map using the information
in Table 10-11.
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the DNS Parameter
Maps table.
• Click Next to deploy your entries and to configure another DNS parameter map.
Related Topics
• Configuring Parameter Maps, page 10-1
Table 10-11 DNS Parameter Map Attributes
Field Description
Parameter Name Unique name for the parameter map. Valid entries are unquoted text strings with no spaces and a
maximum of 64 alphanumeric characters.
Description Field that appears for ACE module A2(1.5), ACE appliance A3(2.3), and later releases of either
device type. If you attempt to use the Description feature with an ACE that is running an earlier
software version, ANM displays an invalid command detected error message and does not deploy
the parameter map.
Brief description of the parameter map. Enter a text string with a maximum of 240 alphanumeric
characters (A–Z, a–z, 0–9). Spaces and special characters are allowed. Double quotes must be
entered as matching pairs.
Timeout (Seconds) Amount of time in seconds that the ACE keeps the query entries without answers in the hash table
before timing them out. Configure the ACE to time out DNS queries that have no matching server
response. Specify the Enter an integer from 2 to 120 seconds. The default is 10 seconds.
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Supported MIME Types
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Contexts, page 6-1
Supported MIME Types
The ACE supports the following MIME types:
• application/msexcel
• application/mspowerpoint
• application/msword
• application/octet-stream
• application/pdf
• application/postscript
• application/\x-gzip
• application/\x-java-archive
• application/\x-java-vm
• application/\x-messenger
• application/\zip
• audio/*
• audio/basic
• audio/midi
• audio/mpeg
• audio/x-adpcm
• audio/x-aiff
• audio/x-ogg
• audio/x-wav
• image/*
• image/gif
• image/jpeg
• image/png
• image/tiff
• image/x-3ds
• image/x-bitmap
• image/x-niff
• image/x-portable-bitmap
• image/x-portable-greymap
• image/x-xpm
• text/*
• text/css
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Chapter 10 Configuring Parameter Maps
Supported MIME Types
• text/html
• text/plain
• text/richtext
• text/sgml
• text/xmcd
• text/xml
• video/*
• video/flc
• video/mpeg
• video/quicktime
• video/sgi
• video/x-fli
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Supported MIME Types
CHAPTER
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11
Configuring SSL
Date: 3/28/12
This chapter describes how to configure Secure Sockets Layer (SSL) on the Cisco Application Control
Engine (ACE) using Cisco Application Networking Manager (ANM).
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• SSL Overview, page 11-2
• SSL Configuration Prerequisites, page 11-2
• Summary of SSL Configuration Tasks, page 11-3
• SSL Setup Sequence, page 11-4
• Using SSL Certificates, page 11-5
• Using SSL Keys, page 11-10
• Configuring SSL Parameter Maps, page 11-18
• Configuring SSL Chain Group Parameters, page 11-23
• Configuring SSL CSR Parameters, page 11-24
• Generating CSRs, page 11-26
• Configuring SSL Proxy Service, page 11-27
• Configuring SSL OCSP Service, page 11-29
• Enabling Client Authentication, page 11-31
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Chapter 11 Configuring SSL
SSL Overview
SSL Overview
SSL is an application-level protocol that provides encryption technology for the Internet, ensuring
secure transactions such as the transmission of credit card numbers for e-commerce websites. SSL
initiation occurs when the ACE device (either an ACE module or an ACE appliance) acts as a client and
initiates the SSL session between it and the SSL server. SSL termination occurs when the ACE, acting
as an SSL server, terminates an SSL connection from a client and then establishes a TCP connection to
an HTTP server.
SSL provides the secure transaction of data between a client and a server through a combination of
privacy, authentication, and data integrity. SSL relies upon certificates and private-public key exchange
pairs for this level of security.
Figure 11-1 shows the following network connections in which the ACE terminates the SSL connection
with the client:
• Client to ACE—SSL connection between a client and the ACE acting as an SSL proxy server
• ACE to Server—TCP connection between the ACE and the HTTP server
Figure 11-1 SSL Termination with Client
The ACE uses parameter maps, SSL proxy services, and class maps to build the policy maps that
determine the flow of information between the client, the ACE, and the server. SSL termination is a
Layer 3 and Layer 4 application because it is based on the destination IP addresses of the inbound traffic
flow from the client. For this type of application, you create a Layer 3 and Layer 4 policy map that the
ACE applies to the inbound traffic.
If you need to delete any of the SSL objects (authorization groups, chain groups, parameter maps, keys,
CRLs, or certificates), you must remove the dependency from within the proxy service first before
removing the SSL object.
Before configuring the ACE for SSL, see the “SSL Configuration Prerequisites” section on page 11-2.
SSL Configuration Prerequisites
This SSL configuration prerequisites are as follows:
• Your ACE hardware is configured for server load balancing (SLB).
Note During the real server and server farm configuration process, when you associate a real server
with a server farm, ensure that you assign an appropriate port number for the real server. The
default behavior by the ACE is to automatically assign the same destination port that was used
by the inbound connection to the outbound server connection if you do not specify a port.
Client
Front-end Back-end
Ciphertext Clear Text
SSL Termination
(ACE as Server)
SSL Termination with a Client
Server
243313
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Chapter 11 Configuring SSL
Summary of SSL Configuration Tasks
• Your policy map is configured to define the SSL session parameters and client/server authentication
tools, such as the certificate and RSA key pair.
• Your class map is associated with the policy map to define the virtual SSL server IP address that the
destination IP address of the inbound traffic must match.
• You must import a digital certificate and its corresponding public and private key pair to the desired
ACE context.
• At least one SSL certificate is available.
• If you do not have a certificate and corresponding key pair, you can generate an RSA key pair and
a certificate signing request (CSR). Create a CSR when you need to apply for a certificate from a
certificate authority (CA). The CA signs the CSR and returns the authorized digital certificate to
you.
Note You cannot generate a CSR in Building Blocks (Config > Global > All Building Blocks);
SSL CSR generation is available only in virtual context configuration.
Summary of SSL Configuration Tasks
Table 11-1 describes the tasks for using SSL keys and certificates.
Table 11-1 SSL Key and Certificate Procedure Overview
Task Description
Create an SSL parameter map. Create an SSL parameter map to specify the options that apply to SSL sessions such as the
method to be used to close SSL connections, the cipher suite, and version of SSL or TSL.
See the “Configuring SSL Parameter Maps” section on page 11-18.
Create an SSL key pair file. Create an SSL RSA key pair file to generate a CSR, create a digital signature, and encrypt
packet data during the SSL handshake with an SSL peer.
See the “Generating SSL Key Pairs” section on page 11-14.
Configure CSR parameters. Set CSR parameters to define the distinguished name attributes of a CSR.
See the “Configuring SSL CSR Parameters” section on page 11-24.
Create a CSR. Create a CSR to submit with the key pair file when you apply for an SSL certificate.
See the “Generating CSRs” section on page 11-26.
Copy and paste the CSR into the
Certificate Authority (CA)
web-based application or email
the CSR to the CA.
Using the SSL key pair and CSR, apply for an approved certificate from a Certificate
Authority.
Use the method specified by the CA for submitting your request.
Save the approved certificate
from the CA in its received
format on an FTP, SFTP, or TFTP
server.
When you receive the approved certificate, save it in the format in which it was received
on a network server accessible via FTP, SFTP, or TFTP.
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Chapter 11 Configuring SSL
SSL Setup Sequence
For more information about using SSL with ACE, see the Cisco 4700 Series Application Control Engine
Appliance SSL Configuration Guide or Cisco Application Control Engine Module SSL Configuration
Guide.
SSL Setup Sequence
The SSL setup sequence provides detailed instructions with illustrations for configuring SSL on ACE
devices from ANM (Figure 11-2). The purpose of this option is to provide a visual guide for performing
typical SSL operations, such as SSL CSR generation, SSL proxy creation, and so on. This option does
not replace any existing SSL functions or configuration windows already present in ANM. It is only
intended as an additional guide for anyone unfamiliar or unclear with the SSL operations that need to be
performed on the ACE device. From the SSL setup sequence, you are allowed to configure all SSL
operations, without duplicating the edit/delete/table/view operations that the other SSL configuration
windows provide.
The tools and operations involved in typical SSL operations are as follows:
• SSL Import/Create Keys
• SSL Import Certificates
• SSL CSR generation
• SSL proxy creation
Note The SSL Setup Sequence in ANM uses the terms SSL Policies and SSL Proxy Service interchangeably.
Import the approved certificate
and key pair into the desired
virtual context.
Import the approved certificate and the associated SSL key pair into the appropriate
context using ANM.
For more information, see following sections:
• “Importing SSL Certificates” section on page 11-7
• “Importing SSL Key Pairs” section on page 11-11
Confirm that the public key in the
key pair file matches the public
key in the certificate file.
Examine the contents of the files to confirm that the key pair information is the same in
both the key pair file and the certificate file.
Configure the virtual context for
SSL.
See the “Configuring Traffic Policies” section on page 14-1.
Configure authorization group. Create a group of certificates that are trusted as certificate signers by creating an
authentication group. See the “Configuring SSL Authentication Groups” section on
page 11-31.
Configure CRL. See the “Configuring CRLs for Client Authentication” section on page 11-33.
Table 11-1 SSL Key and Certificate Procedure Overview (continued)
Task Description
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Chapter 11 Configuring SSL
Using SSL Certificates
For more information on SSL configuration features, see the “Summary of SSL Configuration Tasks”
section on page 11-3.
Figure 11-2 SSL Setup Sequence
Related Topics
• Configuring SSL, page 11-1
• Importing SSL Certificates, page 11-7
• Importing SSL Key Pairs, page 11-11
• Configuring SSL Parameter Maps, page 11-18
• Configuring SSL Chain Group Parameters, page 11-23
• Configuring SSL Proxy Service, page 11-27
Using SSL Certificates
Digital certificates and key pairs are a form of digital identification for user authentication. Certificate
Authorities issue certificates that attest to the validity of the public keys they contain. A client or server
certificate includes the following identification attributes:
• Name of the Certificate Authority and Certificate Authority digital signature
• Name of the client or server (the certificate subject) that the certificate authenticates
• Issuer
• Time stamps that indicate the certificate’s start date
• Time stamps that indicate the certificate’s expiration date
• CA certificate
A Certificate Authority has one or more signing certificates that it uses for creating SSL certificates and
certificate revocation lists (CRLs). Each signing certificate has a matching private key that is used to
create the Certificate Authority signature. The Certificate Authority makes the signing certificates (with
the public key embedded) available to the public, enabling anyone to access and use the signing
certificates to verify that an SSL certificate or CRL was actually signed by a specific Certificate
Authority.
Note For the ACE module A2(3.0), ACE appliance A4(1.0), or later releases of either device type, the ACE
supports a maximum of eight CRLs for any context. For earlier releases of either device type, the ACE
supports a maximum of four CRLs for any context.
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Chapter 11 Configuring SSL
Using SSL Certificates
All certificates have an expiration date, usually one year after the certificate was issued. You can monitor
certificate expiration status by going to Monitor > Devices > context > Dashboard. ANM issues a
warning email daily before the certificate expiration date. You establish how many days before the
expiration date that the warning email messages begin in the Threshold Groups settings window, which
you can access using either of the following methods:
• Choose Monitor > Alarm Notifications > Thresholds Groups.
• Click the Configure Certificate Expiry Threshold Alarms button in the Certificates window
(Config > Devices > context > SSL > Certificates).
Note The Certificates window (Config > Devices > context > SSL > Certificates) contains the Expiry Date
field, which displays the certificate expiration date. Due to a known issue with the ACE module and
appliance, it is possible that this field displays either “Null” or characters that are unparseable or
unreadable. When this issue occurs, ANM is unable to track the certificate expiration date. If the
certificate is defined in a threshold group configured for certificate expiration alarm notifications and
this issue occurs, ANM may not issue an expiration alarm when expected or it may issue a false alarm.
If you encounter this issue, remove the certificate from the ACE, reimport it, and then verify that the
correct expiration date displays in the Certificates window.
For more information about configuring the certificate expiration alarm notification, see the
“Configuring Alarm Notifications on ANM” section on page 17-57.
The ACE requires certificates and corresponding key pairs for the following:
• SSL Termination—The ACE acts as an SSL proxy server and terminates the SSL session between
it and the client. For SSL termination, you must obtain a server certificate and corresponding key
pair.
• SSL Initiation—The ACE acts as a client and initiates the SSL session between it and the SSL server.
For SSL initiation, you must obtain a client certificate and corresponding key pair.
Note The ACE includes a preinstalled sample certificate and corresponding key pair. This feature is available
only for the ACE module A2(3.0), ACE appliance A4(1.0), and later releases of either device type.
The certificate is for demonstration purposes only and does not have a valid domain. It is a self-signed
certificate with basic extensions named cisco-sample-cert. The key pair is an RSA 1024-bit key pair
named cisco-sample-key.
You can display the sample certificate and corresponding key pair files as follows:
• To display the cisco-sample-cert file, choose Config > Devices > context > SSL > Certificates.
• To display the cisco-sample-key file, choose Config > Devices > context > SSL > Keys.
You can add these files to an SSL-proxy service (see the “Configuring SSL Proxy Service” section on
page 11-27) and are available for use in any context with the filenames remaining the same in each
context.
The ACE allows you to export these files but does not allow you to import any files with these names.
When you upgrade the ACE software, these files are overwritten with the files provided in the upgrade
image. You cannot use the crypto delete CLI command to delete these files unless you downgrade the
ACE software because a software downgrade preserves these files as if they were user-installed SSL
files.
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Chapter 11 Configuring SSL
Importing SSL Certificates
Related Topics
• Configuring SSL, page 11-1
• Exporting SSL Certificates, page 11-15
• Importing SSL Certificates, page 11-7
• Using SSL Keys, page 11-10
• Importing SSL Key Pairs, page 11-11
• Configuring SSL CSR Parameters, page 11-24
• Generating CSRs, page 11-26
• Configuring SSL Proxy Service, page 11-27
Importing SSL Certificates
You can import SSL certificates from a remote server to the ACE, which can support the following
number of certificates and key pairs depending on the installed software version:
• ACE Module:
– A2(3.x) and earlier—3800 certificates and 3800 key pairs
– A4(1.0)— 4096 certificates and 4096 key pairs
• ACE Appliance:
– A3(1.x) and earlier—3800 certificates and 3800 key pairs
– A3(2.x) and later (including A4(1.0))—4096 certificates and 4096 key pairs
Assumptions
This topic assumes the following:
• You have configured the ACE for server load balancing. (See the “Information About Load
Balancing” section on page 7-1.)
• You have obtained an SSL certificate from a certificate authority (CA) and have placed it on a
network server accessible by the ACE.
Note You cannot import SSL certificates in Building Blocks (Config > Global > All Building Blocks);
SSL certificate imports are available only in virtual context configuration.
Procedure
Step 1 To configure a virtual context, choose Config > Devices > context > SSL > Certificates.
The Certificates table appears, listing any valid SSL certificates.
The cisco-sample-cert certificate is included in the list only for the ACE module A2(3.0), ACE appliance
A4(1.0), and later releases of either device type. For information on this sample certificate, see the
“Using SSL Certificates” section on page 11-5.
Step 2 In the Certificates table, do one of the following:
• To import a single SSL certificate, click Import. The Import dialog box appears.
• To import multiple SSL certificates, click Bulk Import. The Bulk Import dialog box appears.
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Importing SSL Certificates
Note The SSL bulk import feature is available only for ACE module A2(2.0), ACE appliance
A4(1.0), or later releases of either device type. If you attempt to use the bulk import feature
with an ACE that is running an earlier software version, ANM displays an invalid command
detected error message and does not deploy the bulk import configuration for the ACE.
Note SSL bulk import can take longer based on the number of SSL certificates being imported. It
will progress to completion on the ACE. To see the imported certificates in ANM, perform
a CLI Sync for this context once the SSL bulk import has completed. For information on
synchronizing contexts, see the “Synchronizing Virtual Context Configurations” section on
page 6-105.
Step 3 Enter the applicable information:
• For the Import dialog box, see Table 11-2.
• For the Bulk Import dialog box, see Table 11-3 (ACE module A2(2.0), ACE appliance A4(1.0), and
later releases of either device type only).
Table 11-2 SSL Certificate Management Import Attributes
Field Description
Protocol Method to use for accessing the network server:
• FTP—FTP is to be used to access the network server when importing the SSL certificate.
• SFTP—SFTP is to be used to access the network server when importing the SSL certificate.
• TERMINAL—You will import the file using cut and paste by pasting the certificate
information to the terminal display. You can use the terminal method to display only PEM files,
which are in ASCII format.
• TFTP—TFTP is to be used to access the network server when importing the SSL certificate.
IP Address Field that appears for FTP, TFTP, and SFTP. Enter the IP address of the remote server on which the
SSL certificate file resides.
Remote File Name Field that appears for single-file SSL certificate importing and FTP, TFTP, and SFTP. Enter the
directory and filename of the single certificate file on the network server.
Local File Name Filename to use for the single SSL certificate file when it is imported to the ACE.
User Name Field that appears for FTP and SFTP. Enter the name of the user account on the network server.
Password Field that appears for FTP and SFTP. Enter the password for the user account on the network server.
Confirm Field that appears for FTP and SFTP. Reenter the password.
Passphrase Field that appears for FTP, TFTP, SFTP, and TERMINAL. Enter the passphrase that was created
with the file. Without this phrase, you cannot use the file. Passphrases are used only with encrypted
PEM and PKCS files.
Confirm Field that appears for FTP, SFTP, and TERMINAL. Reenter the passphrase.
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Importing SSL Certificates
Step 4 Do one of the following:
• Click OK to accept your entries and to return to the Certificates table. ANM updates the Certificates
table with the newly installed certificate.
• Click Cancel to exit this procedure without saving your entries and to return to the Certificates table.
Non-Exportable Check box that specifies that this certificate file cannot be exported from the ACE.
The ability to export SSL certificates allows you to copy signed certificates to another server on
your network so that you can then import them onto another ACE or Web server. Exporting is
similar to copying in that the original files are not deleted.
Import Text Field that appears for Terminal. Cut the certificate information from the remote server and paste it
into this field.
Table 11-3 SSL Certificate Management Bulk Import Attributes
Field Description
Protocol SFTP is to be used to access the network server when importing the SSL certificates. SFTP is the
only supported protocol for bulk import.
IP Address IP address of the remote server on which the SSL certificate files reside.
Remote Path Path to the SSL certificate files that reside on the remote server. The ACE fetches only files
specified by the path; it does not recursively fetch remote directories. Enter a filename path
including wildcards (for example, /remote/path/*.pem). The ACE supports POSIX pattern
matching notation, as specified in section 2.13 of the "Shell and Utilities" volume of IEEE Std
1003.1-2004. This notation includes the "*," "?" and "[" metacharacters.
To fetch all files from a remote directory, specify a remote path that ends with a wildcard character
(for example, /remote/path/*). Do not include spaces or the following special characters:
;<>\|`@$&()
The ACE fetches all files on the remote server that matches the wildcard criteria. However, it
imports only files with names that have a maximum of 40 characters. If the name of a file exceeds
40 characters, the ACE does not import the file and discards it.
User Name Name of the user account on the network server.
Password Password for the user account on the network server.
Confirm Password confirmation.
Passphrase Passphrase that was created with the file. Without this phrase, you cannot use the file. Passphrases
are used only with encrypted PEM and PKCS files.
Confirm Passphrase confirmation.
Non-Exportable Check box to specify that this certificate file cannot be exported from the ACE.
The ability to export SSL certificates allows you to copy signed certificates to another server on
your network so that you can then import them onto another ACE or Web server. Exporting is
similar to copying in that the original files are not deleted.
Table 11-2 SSL Certificate Management Import Attributes (continued)
Field Description
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Using SSL Keys
Related Topics
• Configuring SSL, page 11-1
• Using SSL Keys, page 11-10
• Importing SSL Key Pairs, page 11-11
• Configuring SSL Parameter Maps, page 11-18
• Configuring SSL Chain Group Parameters, page 11-23
• Configuring SSL CSR Parameters, page 11-24
• Configuring SSL Proxy Service, page 11-27
Using SSL Keys
You can display options for working with SSL and SSL keys. The ACE and its peer use a public key
cryptographic system named Rivest, Shamir, and Adelman Signatures (RSA) for authentication during
the SSL handshake to establish an SSL session. The RSA system uses key pairs that consist of a public
key and a corresponding private (secret) key. During the handshake, the RSA key pairs encrypt the
session key that both devices will use to encrypt the data that follows the handshake.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > SSL > Keys.
• To configure a building block, choose Config > Global > building_block > SSL > Keys.
The Keys table appears.
Step 2 In the Keys table, continue with one of the following options:
• Generate a key pair—See Generating SSL Key Pairs, page 11-14.
• Import a key pair—See Importing SSL Key Pairs, page 11-11.
• Export a key pair—See Exporting SSL Key Pairs, page 11-16.
• Generate a CSR—See Generating CSRs, page 11-26.
Related Topics
• Generating SSL Key Pairs, page 11-14
• Importing SSL Key Pairs, page 11-11
• Generating SSL Key Pairs, page 11-14
• Exporting SSL Key Pairs, page 11-16
• Configuring SSL, page 11-1
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Chapter 11 Configuring SSL
Using SSL Keys
Importing SSL Key Pairs
You can import an SSL key pair file from a network server to an ACE, which can support the following
number of certificates and key pairs depending on the installed software version:
• ACE Module:
– A2(3.x) and earlier—3800 certificates and 3800 key pairs
– A4(1.0)— 4096 certificates and 4096 key pairs
• ACE Appliance:
– A3(1.x) and earlier—3800 certificates and 3800 key pairs
– A3(2.x) and later (including A4(1.0))—4096 certificates and 4096 key pairs
Assumptions
This topic assumes the following:
• You have configured the ACE for server load balancing. (See the “Information About Load
Balancing” section on page 7-1.)
• You have obtained an SSL key pair from a certificate authority (CA) and have placed the pair on a
network server accessible by the ACE.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > SSL > Keys.
• To configure a building block, choose Config > Global > building_block > SSL > Keys.
The Keys table appears, listing existing SSL keys.
For the ACE module A2(3.0), ACE appliance A4(1.0), and later releases of both either type, the
cisco-sample-key key pair is included in the list. For information on this sample key pair, see the “Using
SSL Certificates” section on page 11-5.
Step 2 Do one of the following:
• To import a single SSL key pair, in the Keys table, click Import. The Import dialog box appears.
• To import multiple SSL key pairs, click Bulk Import. The Bulk Import dialog box appears.
Note The SSL bulk import feature is available only for ACE module A2(2.0), ACE appliance
A4(1.0), and later releases of either device type. If you attempt to use the bulk import feature
with an ACE that is running an earlier software version, ANM displays an invalid command
detected error message and does not deploy the bulk import configuration for the ACE.
Note SSL bulk import can take longer based on the number of SSL keys being imported. It will
progress to completion on the ACE. To see the imported keys in ANM, perform a CLI Sync
for this context once the SSL bulk import has completed. For information on synchronizing
contexts, see the “Synchronizing Virtual Context Configurations” section on page 6-105.
Step 3 Enter the applicable information as follows:
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Using SSL Keys
• For the Import dialog box, see Table 11-4.
• For the Bulk Import dialog box, see Table 11-5 (ACE module A2(2.0), ACE appliance A4(1.0), and
later releases of either device type only).
Table 11-4 SSL Key Pair Import Attributes
Field Description
Protocol Method to use for accessing the network server:
• FTP—FTP is to be used to access the network server when importing the SSL key pair file.
• SFTP—SFTP is to be used to access the network server when importing the SSL key pair file.
• TERMINAL—You will import the file using cut and paste by pasting the certificate and key
pair information to the terminal display. You can use the terminal method to display only PEM
files, which are in ASCII format.
• TFTP—TFTP is to be used to access the network server when importing the SSL key pair file.
IP Address Field that appears for FTP, TFTP, and SFTP. Enter the IP address of the remote server on which the
SSL key pair file resides.
Remote File Name Field that appears for single-file SSL key pair importing and FTP, TFTP, and SFTP. Enter the
directory and filename of the single key pair file on the network server.
Local File Name Filename to be used for the single SSL key pair file when it is imported to the ACE.
User Name This field appears for FTP and SFTP. Enter the name of the user account on the network server.
Password Field that appears for FTP and SFTP. Enter the password for the user account on the network server.
Confirm Field that appears for FTP, SFTP, and TERMINAL. Reenter the password.
Passphrase Field that appears for FTP, TFTP, SFTP, and TERMINAL. Enter the passphrase that was created
with the file. Without this phrase, you cannot use the file. Passphrases are used only with encrypted
PEM and PKCS files.
Confirm Field that appears for FTP and SFTP. Reenter the passphrase.
Non-Exportable Check box to specify that this key pair file cannot be exported from the ACE. The ability to export
SSL key pair files allows you to copy key pair files to another server on your network so that you
can then import them onto another ACE or Web server. Exporting is similar to copying in that the
original files are not deleted.
Uncheck the check box to indicate that this key pair file can be exported from the ACE.
Import Text Field that appears for Terminal. Cut the key pair information from the remote server and paste it
into this field.
Table 11-5 SSL Key Pair Bulk Import Attributes
Field Description
Protocol SFTP is to be used to access the network server when importing the SSL key pairs. SFTP is the only
supported protocol for bulk import.
IP Address IP address of the remote server on which the SSL key pair files resides.
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Chapter 11 Configuring SSL
Using SSL Keys
Step 4 Do one of the following:
• Click OK to accept your entries and to return to the Keys table. ANM updates the Keys table with
the imported key pair file information.
• Click Cancel to exit this procedure without saving your entries and to return to the Keys table.
Related Topics
• Configuring SSL, page 11-1
• Importing SSL Certificates, page 11-7
• Configuring SSL Parameter Maps, page 11-18
• Configuring SSL Chain Group Parameters, page 11-23
• Configuring SSL CSR Parameters, page 11-24
• Configuring SSL Proxy Service, page 11-27
Remote Path Path to the key pair files that reside on the remote server. The ACE fetches only files specified by
the path; it does not recursively fetch remote directories. Enter a filename path including wildcards
(for example, /remote/path/*.pem). The ACE module supports POSIX pattern matching notation,
as specified in section 2.13 of the "Shell and Utilities" volume of IEEE Std 1003.1-2004. This
notation includes the "*," "?" and "[" metacharacters.
To fetch all files from a remote directory, specify a remote path that ends with a wildcard character
(for example, /remote/path/*). Do not include spaces or the following special characters:
;<>\|`@$&()
The ACE module fetches all files on the remote server that matches the wildcard criteria. However,
it imports only files with names that have a maximum of 40 characters. If the name of a file exceeds
40 characters, the ACE module does not import the file and discards it.
User Name Name of the user account on the network server.
Password Password for the user account on the network server.
Confirm Password confirmation.
Passphrase Passphrase that was created with the file. Without this phrase, you cannot use the file. Passphrases
are used only with encrypted PEM and PKCS files.
Confirm Passphrase confirmation.
Non-Exportable Check box to specify that this certificate file cannot be exported from the ACE. The ability to export
SSL key pairs allows you to copy signed certificates to another server on your network so that you
can then import them onto another ACE or Web server. Exporting is similar to copying in that the
original files are not deleted.
Table 11-5 SSL Key Pair Bulk Import Attributes (continued)
Field Description
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Using SSL Keys
Generating SSL Key Pairs
The ACE can generate SSL RSA key pairs if you do not have any matching key pairs.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > SSL > Keys.
• To configure a building block, choose Config > Global > building_block > SSL > Keys.
The Keys table appears.
For the ACE module A2(3.0), ACE appliance A4(1.0), and later releases of either device type, the
cisco-sample-key key pair is included in the list. For information about this sample key pair, see the
“Using SSL Certificates” section on page 11-5.
Step 2 In the Keys table, click Add to add a new key pair.
The Keys configuration window appears.
Note You cannot modify an existing entry in the Keys table. Instead, delete the existing entry, then
add a new one.
Step 3 In the Keys configuration window, enter the information in Table 11-6.
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Keys table.
Table 11-6 Key Attributes
Field Description
Name Name of the SSL key pair. Valid entries are alphanumeric strings up to 64 characters.
Size (Bits) Key pair security strength. The number of bits in the key pair file defines the size of the RSA key
pair used to secure Web transactions. Longer keys produce more secure implementations by
increasing the strength of the RSA security policy. Options and their relative levels of security are
as follows:
• 512—Least security
• 768—Normal security
• 1024—High security, level 1
• 1536—High security, level 2
• 2048—High security, level 3
Type RSA is a public-key cryptographic system used for authentication.
Exportable Key Check box that specifies that the key pair file can be exported. Uncheck the check box to indicate
that the key pair file cannot be exported.
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Exporting SSL Certificates
• Click Next to deploy your entries and to define another RSA key pair.
After generating an RSA key pair, you can do the following:
• Create a CSR parameter set. The CSR parameter set defines the distinguished name attributes for
the ACE to use during the CSR-generating process. For details on defining a CSR parameter set, see
the “Configuring SSL CSR Parameters” section on page 11-24.
• Generate a CSR for the RSA key pair file and transfer the CSR request to the certificate authority
for signing. This provides an added layer of security because the RSA private key originates directly
within the ACE and does not have to be transported externally. Each generated key pair must be
accompanied by a corresponding certificate to work. For details on generating a CSR, see the
“Generating CSRs” section on page 11-26.
Related Topics
• Configuring SSL, page 11-1
• Importing SSL Certificates, page 11-7
• Importing SSL Key Pairs, page 11-11
• Configuring SSL Chain Group Parameters, page 11-23
• Configuring SSL CSR Parameters, page 11-24
• Configuring SSL Proxy Service, page 11-27
Exporting SSL Certificates
You can export SSL certificates from the ACE to a remote server. The ability to export SSL certificates
allows you copy signed certificates to another server on your network so that you can then import them
onto another ACE or Web server. Exporting certificates is similar to copying in that the original
certificates are not deleted.
Assumption
The SSL certificate can be exported (see the “Importing SSL Certificates” section on page 11-7).
Note You can export an SSL certificate in Building Blocks (Config > Global > All Building Blocks);
SSL certificate export is available only in virtual context configuration.
Procedure
Step 1 To configure a virtual context, choose Config > Devices > context > SSL > Certificates.
The Certificates table appears, listing any valid SSL certificates.
The cisco-sample-cert certificate is included in the list only for the ACE module A2(3.0), ACE appliance
4(1.0), and later releases of either device type. For information about this sample certificate, see the
“Using SSL Certificates” section on page 11-5.
Step 2 In the Certificates table, choose the certificate you want to export, and click Export.
The Export dialog box appears.
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Exporting SSL Certificates
Step 3 In the Export dialog box, enter the information in Table 11-7.
Step 4 Do one of the following:
• Click OK to export the certificate and to return to the Certificates table.
• Click Cancel to exit this procedure without exporting the certificate and to return to the Certificates
table.
Related Topics
• Configuring SSL, page 11-1
• Importing SSL Certificates, page 11-7
• Importing SSL Key Pairs, page 11-11
• Generating SSL Key Pairs, page 11-14
• Configuring SSL Chain Group Parameters, page 11-23
• Configuring SSL CSR Parameters, page 11-24
• Configuring SSL Proxy Service, page 11-27
Exporting SSL Key Pairs
You can export SSL key pairs from the ACE to a remote server. The ability to export SSL key pairs allows
you copy SSL key pair files to another server on your network so that you can then import them onto
another ACE or Web server. Exporting key pair files is similar to copying in that the original key pairs
are not deleted.
Table 11-7 SSL Certificate Export Attributes
Field Description
Protocol Method to be used for exporting the SSL certificate:
• FTP—FTP is to be used to access the network server when exporting the SSL certificate.
• SFTP—SFTP is to be used to access the network server when exporting the SSL certificate.
• TERMINAL—You will export the certificate using cut and paste by pasting the certificate and
key pair information to the terminal display. You can use the terminal method to display only
PEM files, which are in ASCII format.
• TFTP—TFTP is to be used to access the network server when exporting the SSL certificate.
IP Address Field that appears for FTP, TFTP, and SFTP. Enter the IP address of the remote server to which the
SSL certificate file is to be exported.
Remote File Name Field that appears for FTP, TFTP, and SFTP. Enter the directory and filename to be used for the SSL
certificate file on the remote network server.
User Name Field that appears for FTP and SFTP. Enter the name of the user account on the remote network
server.
Password Field that appears for FTP and SFTP. Enter the password for the user account on the remote network
server.
Confirm Field that appears for FTP and SFTP. Reenter the password.
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Exporting SSL Certificates
Assumption
The SSL key pair can be exported (see the “Generating SSL Key Pairs” section on page 11-14).
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > SSL > Keys.
• To configure a building block, choose Config > Global > building_block > SSL > Keys.
The Keys table appears. For the ACE module A2(3.0) and later releases only, the cisco-sample-key key
pair is included in the list. For information about this sample key pair, see the “Using SSL Certificates”
section on page 11-5.
Step 2 In the Keys table, choose the key entry you want to export, and click Export.
The Export dialog box appears.
Step 3 In the Export dialog box, enter the information in Table 11-8.
Step 4 Do one of the following:
• Click OK to export the key pair and to return to the Keys table.
• Click Cancel to exit this procedure without exporting the key pair and to return to the Keys table.
Related Topics
• Configuring SSL, page 11-1
• Importing SSL Certificates, page 11-7
Table 11-8 SSL Key Export Attributes
Field Description
Protocol Specify the method to be used for exporting the SSL key pair:
• FTP—FTP is to be used to access the network server when exporting the SSL key pair.
• SFTP—SFTP is to be used to access the network server when exporting the SSL key pair.
• TERMINAL—You will export the key pair using cut and paste by pasting the key pair
information to the terminal display. You can use the terminal method to display only PEM files,
which are in ASCII format.
• TFTP—TFTP is to be used to access the network server when exporting the SSL key pair.
IP Address Field that appears for FTP, TFTP, and SFTP. Enter the IP address of the remote server to which the
SSL key pair is to be exported.
Remote File Name Field that appears for FTP, TFTP, and SFTP. Enter the directory and filename to be used for the SSL
key pair file on the remote network server.
User Name Field that appears for FTP and SFTP. Enter the name of the user account on the remote network
server.
Password Field that appears for FTP and SFTP. Enter the password for the user account on the remote network
server.
Confirm Field that appears for FTP and SFTP. Reenter the password.
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Configuring SSL Parameter Maps
• Importing SSL Key Pairs, page 11-11
• Generating SSL Key Pairs, page 11-14
• Configuring SSL Chain Group Parameters, page 11-23
• Configuring SSL CSR Parameters, page 11-24
• Configuring SSL Proxy Service, page 11-27
Configuring SSL Parameter Maps
You can create SSL parameter maps., which defines the SSL session parameters that the ACE applies to
an SSL proxy service. SSL parameter maps let you apply the same SSL session parameters to different
proxy services.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > SSL > Parameter Map.
• To configure a building block, choose Config > Global > building_block > SSL > Parameter Map.
The Parameter Map table appears.
Step 2 In the Parameter Map table, click Add to add a new SSL parameter map, or choose an existing entry to
modify and click Edit.
The Parameter Map configuration window appears.
Step 3 In the Parameter Map configuration window, enter the information in Table 11-9.
Table 11-9 SSL Parameter Map Attributes
Field Description
Name Unique name for the parameter map. Valid entries are alphanumeric strings with a maximum of 64
characters.
Description Field that appears for ACE module A2(1.5), ACE appliance A3(2.3), and later releases of either
device type. If you attempt to use the Description feature with an ACE that is running an earlier
software version, ANM displays an invalid command detected error message and does not deploy
the parameter map.
Brief description of the parameter map. Enter a text string with a maximum of 240 alphanumeric
characters (A–Z, a–z, 0–9). Spaces and special characters are allowed. Double quotes must be
entered as matching pairs.
Queue Delay Timeout
(Milliseconds)
Time (in milliseconds) to wait before emptying the queued data for encryption. Valid entries are 0
to 10000 milliseconds. If disabled (set to 0), the ACE encrypts the data from the server as soon as
it arrives and then sends the encrypted data to the client.
Note The Queue Delay Timeout is only applied to data that the SSL module sends to the client.
This avoids a potentially long delay in passing a small HTTP GET to the real server.
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Configuring SSL Parameter Maps
Session Cache Timeout
(Milliseconds)
Timeout value of an SSL session ID to remain valid before the ACE requires the full SSL
handshake to establish a new SSL session. This feature allows the ACE to reuse the master key on
subsequent connections with the client, which can speed up the SSL negotiation process.
Valid entries are 0 to 72000 milliseconds. Specifying a value of 0 causes the ACE to implement a
least recently used (LRU) timeout policy. By disabling this option (with the no command), the full
SSL handshake occurs for each new connection with the ACE module.
Reject Expired CRL
Certificates
Check box that instructs the ACE to reject any certificates listed on an expired CRL.
Uncheck the check box to instruct the ACE to accept certificates listed on an expired CRL, which
is the default setting.
Close Protocol
Behavior
Method that the ACE uses to close the SSL connection:
• Disabled—The ACE sends a close-notify alert message to the SSL peer; however, the SSL peer
does not expect a close-notify alert before removing the session. Whether the SSL peer sends
a close-notify alert message or not, the session information is preserved, allowing session
resumption for future SSL connections.
• None—The ACE does not send a close-notify alert message to the SSL peer, nor does the ACE
expect a close-notify alert message from the peer. The ACE preserves the session information
so that SSL resumption can be used for future SSL connections. This is the default.
Note Where ACE 1.0 is already configured with the Strict option, ANM interprets it as the option
None. This is due to the change in ACE 1.0 configuration (which no longer allows the Strict
option).
SSL Version Version of SSL be to used during SSL communications:
• All—The ACE uses both SSL v3 and TLS v1 in its communications with its SSL peer.
• SSL3—The ACE uses only SSL v3 in its communications with its SSL peer.
• TLS1—The ACE uses only TLS v1 in its communications with its SSL peer.
Table 11-9 SSL Parameter Map Attributes (continued)
Field Description
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Configuring SSL Parameter Maps
Step 4 Click the Parameter Map Cipher tab and click Add to add a cipher, or choose an existing cipher and
click Edit.
Enter the information in Table 11-10.
Ignore Authentication
Failure
Option that enables the ACE to ignore expired or invalid SSL certificates and continue setting up
the connection as follows:
• ACE module versions 3.0(0)A2(1.1) forward and ACE appliance version A3(1.0) only—If
checked, this feature enables the ACE to ignore expired or invalid server certificates and to
continue setting up the back-end connection in an SSL initiation configuration. This option
allows the ACE to ignore the following nonfatal errors with respect to server certificates:
– Certificate not yet valid
– Certificate has expired
– Certificate revoked
– Unknown issuer
• ACE module version A2(3.0) and later only—If checked, this feature enables the ACE to
ignore expired or invalid client or server certificates and to continue setting up the SSL
connection. This options allows the ACE to ignore the following nonfatal errors with respect
to either client certificates for SSL termination configurations, or server certificates for SSL
initiation configurations:
– Certificate not yet valid (both)
– Certificate has expired (both)
– Certificate revoked (both)
– Unknown issuer (both)
– No client certificate (client certificate only)
– CRL not available (client certificate only)
– CRL has expired (client certificate only)
– Certificate has signature failure (client certificate only)
– Certificate other error (client certificate only)
Table 11-9 SSL Parameter Map Attributes (continued)
Field Description
Table 11-10 SSL Parameter Map Cipher Configuration Attributes
Field Description
Cipher Name Cipher to use.
For more information on the SSL cipher suites that ACE supports, see the Cisco 4700 Series
Application Control Engine Appliance SSL Configuration Guide or the Cisco Application Control
Engine Module SSL Configuration Guide.
Cipher Priority Priority that you want to assign to this cipher suite. The priority indicates the cipher’s preference
for use.
Valid entries are from 1 to 10 with 1 indicating the least preferred and 10 indicating the most
preferred. When determining which cipher suite to use, the ACE chooses the cipher suite with the
highest priority.
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Configuring SSL Parameter Maps
Step 5 In the Parameter Map Cipher table, do one of the following:
• Click Deploy Now to deploy the Parameter Map Cipher on the ACE and save your entries to the
running-configuration and startup-configuration files
• Click Cancel to exit the procedure without saving your entries and to return to the Parameter Map
Cipher table.
• Click Next to deploy your entries and to add another entry to the Parameter Map Cipher table.
Step 6 Click the Redirect Authentication Failure tab and click Add to add a redirect or choose an existing
redirect, and click Edit.
Note This option is available only for the ACE module A2(3.0), ACE appliance A4(1.0), and later
releases of either device type.
Enter the information in Table 11-11.
Note The Redirect Authentication Failure feature is only for SSL termination configurations in which
the ACE performs client authentication. The ACE ignores these attributes if you configure them
for an SSL initiation configuration.
Table 11-11 SSL Parameter Map Redirect Configuration Attributes
Field Description
Client Certificate
Validation
Type of certificate validation failure to redirect. From the drop-down list, choose the type to
redirect:
• Any—Associates any of the certificate failures with the redirect. You can configure the
authentication-failure redirect any command with individual reasons for redirection. When you
do, the ACE attempts to match one of the individual reasons before using the any reason. You
cannot configure the authentication-failure redirect any command with the
authentication-failure ignore command.
• Cert-expired—Associates an expired certificate failure with a redirect.
• Cert-has-signature-failure—Associates a certificate signature failure with a redirect.
• Cert-not-yet-valid—Associates a certificate that is not yet valid failure with the redirect.
• Cert-other-error—Associates a all other certificate failures with a redirect.
• Cert-revoked—Associates a revoked certificate failure with a redirect.
• CRL-has-expired—Associates an expired CRL failure with a redirect.
• CRL-not-available—Associates a CRL that is not available failure with a redirect.
• No-client-cert—Associates no client certificate failure with a redirect.
• Unknown-issuer—Associates an unknown issuer certificate failure with a redirect.
Redirect Type Redirect type to use:
• Server Farm—Specifies a redirect server farm for the redirect.
• URL—Specifies a static URL path for the redirect.
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Configuring SSL Parameter Maps
Step 7 In the Redirect Authentication Failure table, do one of the following:
• Click Deploy Now to deploy the Redirect Authentication Failure table on the ACE and save your
entries to the running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Redirect
Authentication Failure table.
• Click Next to deploy your entries and to add another entry to the Redirect Authentication Failure
table.
Step 8 In the Parameter Map table, do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Parameter Map
table.
• Click Next to deploy your entries and to add another entry to the Parameter Map table.
Related Topics
• Configuring SSL, page 11-1
• Importing SSL Certificates, page 11-7
• Importing SSL Key Pairs, page 11-11
• Generating SSL Key Pairs, page 11-14
• Configuring SSL Chain Group Parameters, page 11-23
• Configuring SSL CSR Parameters, page 11-24
• Configuring SSL Proxy Service, page 11-27
Server Farm Name Field that appears when the Redirect Type is set to Server Farm. ANM displays the available server
farms as follows:
• ACE software Version A4(1.0) or later—ANM displays all configured host and redirect server
farms.
• All earlier ACE software versions—ANM displays only those server farms configured as
redirect server farms.
Choose one of the available server farm options or click Plus (+) to open the server farm
configuration popup and configure a redirect server farm (see the “Configuring Server Farms”
section on page 8-30).
Redirect URL Field that appears when the Redirect Type is set to URL. Specifies the static URL path for the
redirect. Enter a string with a maximum of 255 characters and no spaces.
Redirect Code Field appears when the Redirect Type is set to URL.
Enter the redirect code that is sent back to the client:
• 301—Status code for a resource permanently moving to a new location.
• 302—Status code for a resource temporarily moving to a new location.
Table 11-11 SSL Parameter Map Redirect Configuration Attributes
Field Description
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Configuring SSL Chain Group Parameters
Configuring SSL Chain Group Parameters
You can configure certificate chain groups for a virtual context. A chain group specifies the certificate
chains that the ACE sends to its peer during the handshake process. A certificate chain is a hierarchal
list of certificates that includes the ACE’s certificate, the root certificate authority certificate, and any
intermediate certificate authority certificates. Using the information provided in a certificate chain, the
certificate verifier searches for a trusted authority in the certificate hierarchal list up to and including the
root certificate authority. If the verifier finds a trusted authority before reaching the root certificate
authority certificate, it stops searching further.
Assumption
At least one SSL certificate is available.
Procedure
Step 1 Choose Config > Devices > context > SSL > Chain Group Parameters.
The Chain Group Parameters table appears.
Step 2 In the Chain Group Parameters table, click Add to add a new chain group, or choose an existing chain
group, and click Edit to modify it.
The Chain Group Parameters configuration window appears.
Step 3 In the Name field of the Chain Group Parameters configuration window, enter a unique name for the
chain group.
Valid entries are alphanumeric strings with a maximum of 64 characters.
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The updated Chain Group Parameters
window appears along with the Chain Group Certificates table. Continue with Step 5.
• Click Cancel to exit the procedure without saving your entries and to return to the Chain Group
Parameters table.
• Click Next to deploy your entries and to add another entry to the Chain Group Parameters table.
Step 5 In the Chain Group Certificates table, click Add to add an entry.
The Chain Group Certificates configuration window appears.
Note You cannot modify an existing entry in the Chain Group Certificates table. Instead, delete the
entry, then add a new one.
Step 6 In the Certificate Name field, choose the certificate to add to this chain group.
Step 7 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
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Configuring SSL CSR Parameters
• Click Cancel to exit the procedure without saving your entries and to return to the Chain Group
Certificates table.
• Click Next to deploy your entries and to add another certificate to this chain group table.
Related Topics
• Configuring SSL, page 11-1
• Importing SSL Certificates, page 11-7
• Importing SSL Key Pairs, page 11-11
• Generating SSL Key Pairs, page 11-14
• Configuring SSL Parameter Maps, page 11-18
• Configuring SSL CSR Parameters, page 11-24
• Configuring SSL Proxy Service, page 11-27
Configuring SSL CSR Parameters
A certificate signing request (CSR) is a message you send to a certificate authority such as VeriSign and
Thawte to apply for a digital identity certificate. The CSR contains information that identifies the SSL
site, such as location and a serial number, and a public key that you choose. A corresponding private key
is not included in the CSR, but is used to digitally sign the request. The CSR may be accompanied by
other credentials or proofs of identity required by the certificate authority, and the certificate authority
may contact the applicant for more information.
If the request is successful, the certificate authority returns a digitally signed (with the private key of the
certificate authority) identity certificate.
CSR parameters define the distinguished name attributes the ACE applies to the CSR during the
CSR-generating process. These attributes provide the certificate authority with the information it needs
to authenticate your site. Defining a CSR parameter set lets you to generate multiple CSRs with the same
distinguished name attributes.
Each context on the ACE can contain up to eight CSR parameter sets.
Use this procedure to define the distinguished name attributes for SSL CSRs.
Procedure
Step 1 Choose the item to configure:
• To configure a virtual context, choose Config > Devices > context > SSL > CSR Parameters.
• To configure a building block, choose Config > Global > building_block > SSL > CSR
Parameters.
The CSR Parameters table appears.
Step 2 In the CSR Parameters table, click Add to add new set of CSR attributes, or choose an existing entry to
modify and click Edit.
The CSR Parameters configuration window appears.
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Configuring SSL CSR Parameters
Step 3 In the CSR Parameters configuration window, enter the information in Table 11-12.
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the CSR Parameters
table.
• Click Next to deploy your entries and to define another set of CSR attributes.
Related Topics
• Configuring SSL, page 11-1
• Importing SSL Certificates, page 11-7
• Importing SSL Key Pairs, page 11-11
• Configuring SSL Parameter Maps, page 11-18
• Configuring SSL Chain Group Parameters, page 11-23
• Configuring SSL Proxy Service, page 11-27
Table 11-12 SSL CSR Parameter Attributes
Field Description
Name Unique name for this parameter set. Valid entries are alphanumeric strings with a maximum of 64
characters.
Country Name of the country where the SSL site resides. Valid entries are 2 alphabetic characters
representing the country, such as US for the United States. The International Organization for
Standardization (ISO) maintains the complete list of valid country codes on its Web site
(www.iso.org).
State Name of the state or province where the SSL site resides.
Locality Name of the city where the SSL site resides.
Common Name Name of the domain or host of the SSL site. Valid entries are strings with a maximum of 64
characters. Special characters are allowed.
Serial Number Serial number to assign to the certificate. Valid entries are alphanumeric strings with a maximum
of 16 characters.
Organization Name Name of the organization to include in the certificate. Valid entries are alphanumeric strings with a
maximum of 64 characters.
Email Site email address. Valid entries are text strings, including alphanumeric and special characters (for
example, @ symbol in email address) with a maximum of 40 characters.
Organization Unit Name of the organization to include in the certificate. Valid entries are alphanumeric strings with a
maximum of 64 characters.
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Chapter 11 Configuring SSL
Configuring SSL CSR Parameters
Generating CSRs
You can generate an SSL certificate signing request (CSR), which is a message that you send to a
certificate authority such as VeriSign and Thawte to apply for a digital identity certificate. Create a CSR
when you need to apply for a certificate from a certificate authority. When the certificate authority
approves a request, it signs the CSR and returns the authorized digital certificate to you. This certificate
includes the private key of the certificate authority. When you receive the authorized certificate and key
pair, you can import them for use (see the “Importing SSL Certificates” section on page 11-7 and the
“Importing SSL Key Pairs” section on page 11-11).
Note You cannot generate a CSR in Building Blocks (Config > Global > All Building Blocks); SSL CSR
generation is available only in virtual context configuration.
Assumption
You have configured SSL CSR parameters (see the “Configuring SSL CSR Parameters” section on
page 11-24).
Procedure
Step 1 Choose Config > Devices > context > SSL > Keys.
The Keys table appears.
Step 2 In the Keys table, choose a key and click Generate CSR.
The Generate a Certificate Signing Request dialog box appears.
Step 3 In the CSR Parameter field of the Generate a Certificate Signing Request dialog box, choose the CSR
parameter to be used.
Step 4 Do one of the following:
• Click OK to generate the CSR. The CSR appears in a popup window which you can now submit to
a certificate authority for approval. Work with your certificate authority to determine the method of
submission, such as email or a Web-based application. Click Close to close the popup window and
to return to the Keys table.
• Click Cancel to exit this procedure without generating the CSR and to return to the Keys table.
Related Topics
• Configuring SSL, page 11-1
• Importing SSL Certificates, page 11-7
• Importing SSL Key Pairs, page 11-11
• Configuring SSL Parameter Maps, page 11-18
• Configuring SSL Chain Group Parameters, page 11-23
• Configuring SSL Proxy Service, page 11-27
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Configuring SSL Proxy Service
Configuring SSL Proxy Service
You can configure an SSL proxy service that defines the SSL parameter map, key pair, certificate, and
chain group the ACE uses during SSL handshakes. By configuring an SSL proxy server service on the
ACE, the ACE can act as an SSL server.
Assumption
You have configured at least one SSL key pair, certificate, chain group, or parameter map to apply to this
proxy service.
Procedure
Step 1 Choose Config > Devices > context > SSL > Proxy Service.
The Proxy Service table appears.
Step 2 In the Proxy Service table, click Add to add a new proxy service, or choose an existing service and click
Edit to modify it.
The Proxy Service configuration window appears.
Step 3 In the Proxy Service configuration window, enter the information in Table 11-13.
Table 11-13 SSL Proxy Service Attributes
Field Description
Proxy Service Name Unique name for this proxy service. Valid entries are alphanumeric strings with a maximum of 40
to 65 characters, depending on your ACE and hardware version.
Keys Key pair that the ACE is to use during the SSL handshake for data encryption.
Caution When choosing the key pair from the drop-down list, be sure to choose the keys that
correspond to the certificate that you choose.
Note If you use SSL Setup Sequence to create the proxy service, ANM selects the keys that
correspond to the certificate that you choose. If ANM cannot detect a corresponding key
pair, you can select a key pair from the drop-down list and click Verify Key to have ANM
verify that the keys correspond to the selected certificate. ANM displays a message to let
you know that your key pair selection either matches or does not match the selected
certificate. For more information about SSL Setup Sequence, see the “SSL Setup
Sequence” section on page 11-4.
The cisco-sample-key option is available for the ACE module A2(3.0) and later releases only. For
information about this sample key pair, see the “Using SSL Certificates” section on page 11-5.
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Configuring SSL Proxy Service
Certificates Certificate that the ACE is to use during the SSL handshake to prove its identity.
Caution When choosing the certificate from the drop-down list, be sure to choose the certificate
that corresponds to the keys that you choose.
Note If you use SSL Setup Sequence to create the proxy service, ANM selects the keys that
correspond to the certificate that you choose. If ANM cannot detect a corresponding key
pair, you can select a key pair from the drop-down list and click Verify Key to have ANM
verify that the keys correspond to the selected certificate. ANM displays a message to let
you know that your key pair selection either matches or does not match the selected
certificate. For more information about SSL Setup Sequence, see the “SSL Setup
Sequence” section on page 11-4.
The cisco-sample-cert option is available only for the ACE module A2(3.0), ACE appliance
A4(1.0), and later releases of either device type. For information about this sample certificate, see
the “Using SSL Certificates” section on page 11-5.
Chain Groups Chain group that the ACE is to use during the SSL handshake. To create a chain group, see the
“Configuring SSL Chain Group Parameters” section on page 11-23.
Auth Groups Authorization group name that the ACE is to use during the SSL handshake. To create an
authorization group, see the “Configuring SSL Authentication Groups” section on page 11-31.
CRL Best-Effort Field that displays only when Auth Groups is selected. Allows ANM to search client certificates
for the service to determine if it contains a CRL in the extension. ANM then retrieves the value, if
it exists.
CRL Name Field that displays only when Auth Groups is selected. Do one of the following:
• Choose N/A when the CRL name is not applicable.
• Choose the CRL name that the ACE used for authentication.
OCSP Best-Effort Field that displays for ACE module or appliance software Version A5(1.0) or later, and when Auth
Groups is selected. Check the OCSP Best-Effort checkbox to allow the ACE appliance to extract
the extension to find the OCSP server information from the certificate itself where, from the
revocation status, information about the certificate could be obtained. If this extension is missing
from the certificate and the best effort OCSP server information is configured with the SSL proxy,
the cert is considered revoked.
Uncheck the checkbox to display the OCSP server field to choose the available OCSP server.
OCSP Servers Field that displays for ACE module or appliance software Version A5(1.0) or later, and when the
OCSP Best-Effort checkbox is unchecked. Choose the available OCSP server.
Table 11-13 SSL Proxy Service Attributes (continued)
Field Description
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Configuring SSL OCSP Service
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Proxy Service
table.
• Click Next to deploy your entries and to add another proxy service.
• Click Delete to remove this configuration on the ACE.
Note When an authorization group is deleted, the CRL Name object (if it exists) is deleted
automatically.
Related Topics
• Configuring SSL, page 11-1
• Importing SSL Certificates, page 11-7
• Importing SSL Key Pairs, page 11-11
• Configuring SSL Parameter Maps, page 11-18
• Configuring SSL Chain Group Parameters, page 11-23
• Configuring SSL CSR Parameters, page 11-24
Configuring SSL OCSP Service
Note The SSL Online Certificate Status Protocol feature requires ACE module and ACE appliance software
Version A5(1.0) or later.
SSL Online Certificate Status Protocol (OCSP) service defines the host server for certificate revocation
checks using OCSP. The OCSP server, also known as the OCSP responder, maintains or obtains the
information about the certificates issued by different CAs that are revoked and possibly non-revoked,
Parameter Maps SSL parameter map to associate with this SSL proxy server service.
Revocation Check
Priority Order
Field that displays for ACE module or appliance software Version A5(1.0) or later. Priority setting
for the revocation check. Choose one of the following:
• N/A—Indicates that this field is not applicable.
• CRL-OCSP—The ACE uses the CRLs first to determine the revocation status, and then the
OCSP servers.
• OCSP-CRL—The ACE uses the OCSP servers first to determine the revocation status, and
then the CRLs.
Table 11-13 SSL Proxy Service Attributes (continued)
Field Description
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Configuring SSL OCSP Service
and provides this information when requested by OCSP clients. OCSP can provide latest information
about the revocation status of the certificate. Use of OCSP removes the need to download and cache the
CRLs which could be very large in sizes and impose large memory requirements on systems.
You can configure a maximum of 64 OCSP server configurations system-wide on the ACE. You can
configure all of these servers in a single or multiple contexts.
Use this procedure to define the attributes that the ACE appliance is to use during SSL handshakes so
that it can act as an SSL server.
Assumption
Configure OCSP on an associated proxy service.
You can configure both OCSP and CRLs for authentication.
Procedure
Step 1 Select Config > Devices > context > SSL > OCSP Service. The OCSP Service table appears.
Step 2 Click Add to add a new OCSP service, or select an existing service, then click Edit to modify it. The
OCSP Service configuration screen appears.
Step 3 In the Name field, enter a unique name for this OCSP service. Valid entries are alphanumeric strings with
a maximum of 64 characters. This name is used when you apply this configuration to an SSL proxy
service.
Step 4 In the URL field, enter an HTTP based URL for the OCSP host name and optional port ID in the form
of http://ocsp_hostname.com:port_id. If you do not specify a port ID, the ACE uses the default value of
2560.
Step 5 Optionally, in the Request Signer’s Certificate field, you can select a filename for the signer certificate
to sign the requests to the server. By default, the request is not signed.
Step 6 Optionally, in the Response Signer’s Certificate field, you can select a filename for the signer certificate
to verify the signature on the server responses. By default, the responses are not verified.
Step 7 Check the Enable Nonce check box to enable the inclusion of the nonce in the requests to the server. By
default, nonce is disabled.
Clear the checkbox to disable the inclusion of the nonce in requests to the server.
Step 8 In the TCP Connection Inactivity Timeout field, enter an integer from 2 to 3600 to specify the TCP
connection inactivity timeout in seconds. The default is 300 seconds.
Step 9 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE appliance.
• Click Cancel to exit this procedure without saving your entries and to return to the OCSP Service
table.
• Click Next to save your entries and to add another proxy service.
Related Topics
• Configuring SSL, page 11-1
• Configuring SSL Proxy Service, page 11-27
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Chapter 11 Configuring SSL
Enabling Client Authentication
Enabling Client Authentication
During the flow of a normal SSL handshake, the SSL server sends its certificate to the client. Then the
client verifies the identity of the server through the certificate. However, the client does not send any
identification of its own to the server. When you enable the client authentication feature on the ACE, it
will require that the client send a certificate to the server. Then the server verifies the following
information on the certificate:
• A recognized CA issued the certificate.
• The valid period of the certificate is still in effect.
• The certificate signature is valid and not tampered.
• The CA has not revoked the certificate.
• At least one SSL certificate is available.
Use the following procedures to enable or disable client authentication:
• Configuring SSL Proxy Service, page 11-27
• Configuring SSL Authentication Groups, page 11-31
• Configuring CRLs for Client Authentication, page 11-33
Configuring SSL Authentication Groups
You can specify the certificate authentication groups that the ACE uses during the SSL handshake and
enable client authentication on this SSL-proxy service. The ACE includes the certificates configured in
the group along with the certificate that you specified for the SSL proxy service.
On the ACE, you can implement a group of certificates that are trusted as certificate signers by creating
an authentication group. After creating the authentication group and assigning its certificates, then you
can assign the authentication group to a proxy service in an SSL termination configuration to enable
client authentication. For information on client authentication, see the “Enabling Client Authentication”
section on page 11-31.
For information on server authentication and assigning an authentication group, see the “Configuring
SSL Proxy Service” section on page 11-27.
Note You cannot create an authorization group in Building Blocks (Config > Global > All Building Blocks);
You can only create SSL authentication groups while configuring virtual contexts in specific modules.
Assumptions
• At least one SSL certificate is available.
• Your ACE supports authentication groups. See the Supported Devices Table for Cisco Application
Networking Manager for details.
Procedure
Step 1 Choose Config > Devices > context > SSL > Auth Group Parameters.
The Auth Group Parameters table appears.
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Enabling Client Authentication
Step 2 In the Auth Group Parameters table, click Add to add an authentication group, or choose an existing
authorization group and click Edit to modify it.
The Auth Group Parameters configuration window appears.
Step 3 In the Name field of the Auth Group Parameters configuration window, enter a unique name for the
authorization group.
Valid entries are alphanumeric strings with a maximum of 64 characters.
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The updated Auth Group Parameters window
appears along with the Auth Group Certificates table. Continue with Step 5.
• Click Cancel to exit the procedure without saving your entries and to return to the Auth Group
Parameters table.
• Click Next to deploy your entries and to add another entry to the Auth Group Parameters table.
Step 5 In the Auth Group Certificate field, click Add to add an entry.
The Auth Group Certificates configuration window appears.
Note You cannot modify an existing entry in the Auth Group Certificates table. Instead, delete the
entry, then add a new one.
Step 6 In the Certificate Name field, choose the certificate to add to this authorization group.
Step 7 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Auth Group
Parameters table.
• Click Next to deploy your entries and to add another entry to the Auth Group Parameters table.
Step 8 You can repeat the previous step to add more certificates to the authorization group or click Deploy Now.
Step 9 After you configure authorization group parameters, you can configure the SSL proxy service to use a
CRL. See the “Configuring CRLs for Client Authentication” section on page 11-33.
Note When you enable client authentication, a significant performance decrease may occur. Additional
latency may occur when you configure CRL retrieval.
Related Topics
• Configuring SSL Chain Group Parameters, page 11-23
• Configuring CRLs for Client Authentication, page 11-33
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Enabling Client Authentication
Configuring CRLs for Client Authentication
You can configure the ACE to scan for CRLs and retrieve them. By default, ACE does not use certificate
revocation lists (CRLs) during client authentication. You can configure the SSL proxy service to use a
CRL by having the ACE scan each client certificate for the service to determine if it contains a CRL in
the extension and then retrieve the value, if it exists. For more information about SSL termination on the
ACE, see either the Cisco Application Control Engine Module SSL Configuration Guide or the Cisco
ACE 4700 Series Appliance SSL Configuration Guide.
Note The ACE supports the creation of a maximum of eight CRLs for any context.
Note When you enable client authentication, a significant performance decrease may occur. Additional
latency may occur when you configure CRL retrieval.
Assumption
A CRL cannot be configured on an SSL proxy without first configuring an authorization group.
Procedure
Step 1 Choose Config > Devices > context > SSL > Certificate Revocation Lists (CRLs).
The Certificate Revocation Lists (CRLs) table appears.
Step 2 In the Certificate Revocation Lists (CRLs) table, click Add to add a CRL, or choose an existing CRL
and click Edit to modify it.
The Certificate Revocation Lists (CRLs) window appears.
Step 3 In the Certificate Revocation Lists (CRLs) window, enter the information in Table 11-14.
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The updated Certificate Revocation Lists
(CRLs) table appears.
• Click Cancel to exit the procedure without saving your entries and to return to the Certificate
Revocation Lists (CRLs) table.
• Click Next to deploy your entries and to add another entry to the Certificate Revocation Lists
(CRLs) table.
Table 11-14 SSL Certificate Revocation List
Field Description
Name CRL name. Valid entries are unquoted alphanumeric strings with a maximum of 64 characters.
URL URL where the ACE retrieves the CRL. Valid entries are unquoted alphanumeric strings with a maximum
of 255 characters. Only HTTP URLs are supported. ACE checks the URL and displays an error if it does
not match.
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Enabling Client Authentication
Related Topics
• Configuring SSL Proxy Service, page 11-27
• Configuring SSL Authentication Groups, page 11-31
CHAPTER
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12
Configuring Network Access
Date: 3/28/12
This chapter describes how to configure network access using Cisco Application Networking Manager
(ANM).
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Information About VLANs, page 12-2
• Configuring VLANs Using Cisco IOS Software (ACE Module), page 12-3
• Configuring Virtual Context VLAN Interfaces, page 12-6
• Configuring Virtual Context BVI Interfaces, page 12-19
• Configuring VLAN Interface NAT Pools, page 12-26
• Configuring Virtual Context Static Routes, page 12-28
• Configuring Global IP DHCP, page 12-29
• Configuring Static VLANs for Over 8000 Static NAT Configurations, page 12-31
• Configuring Gigabit Ethernet Interfaces on the ACE Appliance, page 12-32
• Configuring Port-Channel Interfaces for the ACE Appliance, page 12-35
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Information About VLANs
Information About VLANs
This section provides an overview of how the ACE module and appliance use VLANs.
This section includes the following topics:
• ACE Module VLANs, page 12-2
• ACE Appliance VLANs, page 12-2
ACE Module VLANs
The ACE module does not include any external physical interfaces to receive traffic from clients and
servers. Instead, it uses internal VLAN interfaces. You assign VLANs from the supervisor engine to the
ACE. After the VLANs are assigned to the ACE, you can configure the corresponding VLAN interfaces
on the ACE as either routed or bridged for use. When you configure an IP address on an interface, the
ACE automatically makes it a routed mode interface.
Similarly, when you configure a bridge group on an interface VLAN, the ACE automatically makes it a
bridged interface. Then, you associate a bridge-group virtual interface (BVI) with the bridge group. For
more information on bridged groups and BVIs, see the “Configuring Virtual Context BVI Interfaces”
section on page 12-19.
The ACE also supports shared VLANS, which are multiple interfaces in different contexts on the same
VLAN within the same subnet. Only routed interfaces can share VLANs. Note that there is no routing
across contexts even when shared VLANs are configured.
Related Topics
• Configuring VLANs Using Cisco IOS Software (ACE Module), page 12-3
• Configuring Virtual Context VLAN Interfaces, page 12-6
• Configuring Virtual Context BVI Interfaces, page 12-19
• Configuring Virtual Context Static Routes, page 12-28
• Configuring Global IP DHCP, page 12-29
ACE Appliance VLANs
The ACE appliance has four physical Ethernet interface ports. All VLANs are allocated to the physical
ports. After the VLANs are assigned, you can configure the corresponding VLAN interfaces as either
routed or bridged for use. When you configure an IP address on an interface, the ACE appliance
automatically makes it a routed mode interface.
Similarly, when you configure a bridge group on an interface VLAN, the ACE appliance automatically
makes it a bridged interface. Then, you associate a BVI with the bridge group.
The ACE appliance also supports shared VLANs, which are multiple interfaces in different contexts on
the same VLAN within the same subnet. Only routed interfaces can share VLANs. Note that there is no
routing across contexts even when shared VLANs are configured.
In routed mode, the ACE is considered a router hop in the network. In the Admin or user contexts, the
ACE supports static routes only. The ACE supports up to eight equal cost routes for load balancing.
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Configuring VLANs Using Cisco IOS Software (ACE Module)
Related Topics
• Configuring Virtual Context VLAN Interfaces, page 12-6
• Configuring Virtual Context BVI Interfaces, page 12-19
• Configuring Gigabit Ethernet Interfaces on the ACE Appliance, page 12-32
• Configuring Port-Channel Interfaces for the ACE Appliance, page 12-35
Configuring VLANs Using Cisco IOS Software (ACE Module)
To allow the ACE module to receive traffic from the supervisor engine in the Catalyst 6500 series switch
or Cisco 7600 series router, you must create VLAN groups on the supervisor engine and then assign the
groups to the ACE module. After the VLAN groups are assigned to the ACE module, you can configure
the VLAN interfaces on the ACE module. By default, all VLANs are allocated to the Admin context on
the ACE module.
This section includes the following topics:
• Creating VLAN Groups Using Cisco IOS Software
• Assigning VLAN Groups to the ACE Module Through Cisco IOS Software
• Adding Switched Virtual Interfaces to the MSFC
Creating VLAN Groups Using Cisco IOS Software
In Cisco IOS software, you can create one or more VLAN groups and then assign the groups to the ACE
module. For example, you can assign all the VLANs to one group, create an inside group and an outside
group, or create a group for each customer.
You cannot assign the same VLAN to multiple groups; however, you can assign up to a maximum of 16
groups to an ACE. VLANs that you want to assign to multiple ACEs, for example, can reside in a
separate group from VLANs that are unique to each ACE.
To assign VLANs to a group using Cisco IOS software on the supervisor engine, use the svclc
vlan-group command. The syntax of this command is as follows:
svclc vlan-group group_number vlan_range
The arguments are as follows:
• group_number—Number of the VLAN group.
• vlan_range—One or more VLANs (2 to 1000 and 1025 to 4094) identified in one of the following
ways:
– A single number (n)
– A range (n-x)
Separate numbers or ranges by commas, as shown in this example:
5,7-10,13,45-100
For example, to create three VLAN groups, 50 with a VLAN range of 55 to 57, 51 with a VLAN range
of 75 to 86, and 52 with VLAN 100, enter:
Router(config)# svclc vlan-group 50 55-57
Router(config)# svclc vlan-group 51 70-86
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Configuring VLANs Using Cisco IOS Software (ACE Module)
Router(config)# svclc vlan-group 52 100
Related Topics
• Assigning VLAN Groups to the ACE Module Through Cisco IOS Software, page 12-4
• Adding Switched Virtual Interfaces to the MSFC, page 12-5
Assigning VLAN Groups to the ACE Module Through Cisco IOS Software
The ACE module cannot receive traffic from the supervisor engine unless you assign VLAN groups to
it. To assign the VLAN groups to the ACE module using Cisco IOS software on the supervisor engine,
use the svc module command in configuration mode. The syntax of this command is as follows:
svc module slot_number vlan-group group_number_range
The arguments are as follows:
• slot_number—Slot number where the ACE module resides. To display slot numbers and the devices
in the chassis, use the show module command in Exec mode. The ACE module appears as the
Application Control Engine Module in the Card Type field.
• group_number_range—One or more group numbers that are identified in one of the following ways:
– A single number (n)
– A range (n-x)
Separate numbers or ranges by commas, as shown in this example:
5,7-10
For example, to assign VLAN groups 50 and 52 to the ACE module in slot 5, and VLAN groups 51 and
52 to the ACE module in slot 8, enter the following commands:
Router(config)# svc module 5 vlan-group 50,52
Router(config)# svc module 8 vlan-group 51,52
To view the group configuration for the ACE module and the associated VLANs, use the show svclc
vlan-group command. For example, enter the following commands:
Router(config)# exit
Router# show svclc vlan-group
To view VLAN group numbers for all devices, use the show svc module command. For example, enter
the following command:
Router# show svc module
Note Enter the show vlans command in Exec mode from the Admin context to display the ACE module
VLANs that are downloaded from the supervisor engine.
Related Topics
• Creating VLAN Groups Using Cisco IOS Software, page 12-3
• Adding Switched Virtual Interfaces to the MSFC, page 12-5
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Configuring VLANs Using Cisco IOS Software (ACE Module)
Adding Switched Virtual Interfaces to the MSFC
A VLAN defined on the Multilayer Switch Feature Card (MSFC) is called a switched virtual interface
(SVI). If you assign the VLAN used for the SVI to the ACE module, then the MSFC routes between the
ACE module and other Layer 3 VLANs. By default, only one SVI can exist between the MSFC and the
ACE. However, for multiple contexts, you may configure multiple SVIs for unique VLANs on each
context.
Procedure:
Step 1 (Optional) If you need to add more than one SVI to the ACE module, enter the following command:
Router(config)# svclc multiple-vlan-interfaces
Step 2 Add a VLAN interface to the MSFC. For example, to add VLAN 55, enter the following command:
Router(config)# interface vlan 55
Step 3 Set the IP address for this interface on the MSFC. For example, to set the address 10.1.1.1 255.255.255.0,
enter the following command:
Router(config-if)# ip address 10.1.1.1 255.255.255.0
Step 4 Enable the interface. For example, enter the following command:
Router(config-if)# no shut
Note To monitor any VLAN that is associated with more than two trunk ports, physical ports, or
trunk-physical ports on the supervisor engine, enable the autostate feature by using the svclc autostate
command. When you associate a VLAN to these ports, autostate declares that the VLAN is up. When a
VLAN state change occurs on the supervisor engine, autostate sends a notification to the ACE module
to bring the interface up or down.
To view this SVI configuration, use the show interface vlan command. For example, enter the following
command:
Router# show int vlan 55
Related Topics
• Creating VLAN Groups Using Cisco IOS Software, page 12-3
• Assigning VLAN Groups to the ACE Module Through Cisco IOS Software, page 12-4
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Configuring Virtual Context VLAN Interfaces
You can configure VLAN interfaces for virtual contexts on the ACE.
Note The options that appear when you choose Config > Devices > context depend on the device associated
with the virtual context and the role associated with your account.
Assumptions
This topic assumes the following:
• A Layer 3/Layer 4 or Management policy map has been configured for this virtual context. For more
information, see the “Configuring Traffic Policies” section on page 14-1.
• An access control list has been configured for this virtual context. Entering an ACL name does not
configure the ACL; you must configure the ACL on the ACE appliance. For more information, see
the “Configuring Security with ACLs” section on page 6-78.
Procedure
Step 1 Choose Config > Devices > context > Network > VLAN Interfaces.
The VLAN Interface table appears.
Step 2 In the VLAN Interface table, click Poll Now to instruct ANM to poll the devices and display the current
values and click OK when prompted if you want to poll the devices for data now.
Step 3 Click Add to add a new VLAN interface, or choose an existing VLAN interface and click Edit to modify
it.
Note If you click Edit, not all of the fields can be modified.
Step 4 Enter the VLAN interface attributes (see Table 12-1). Click More Settings to access the additional
VLAN interface attributes.
By default, ANM hides the default VLAN interface attributes and the VLAN interface attributes that are
not commonly used.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Note If you create a fault-tolerant VLAN, do not use it for any other network traffic.
Table 12-1 VLAN Interface Attributes
Field Description
VLAN VLAN identifier. Either accept the automatically incremented entry or enter a different value.
Valid entries are from 2 to 4094.
Description Brief description for this interface.
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Interface Type Role of the virtual context in the network topology of the VLAN interface:
• Routed—In a routed topology, the ACE virtual context acts as a router between the
client-side network and the server-side network. In this topology, every real server for the
application must be routed through the ACE virtual context, either by setting the default
gateway on each real server to the virtual contexts server-side VLAN interface address, or by
using a separate router with appropriate routes configured between the ACE virtual context
and the real servers.
Note A routed VLAN interface can support both IPv4 and IPv6 addresses at the same time.
IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later.
• Bridged—In a bridged topology, the ACE virtual context bridges two VLANs, a client-side
VLAN and a real-server VLAN, on the same subnet using a bridged virtual interface (BVI).
In this case, the real server routing does not change to accommodate the ACE virtual context.
Instead, the ACE virtual context becomes a “bump in the wire” that transparently handles
traffic to and from the real servers.
• Unknown—Choose Unknown if you are unsure of the network topology of the VLAN
interface.
IP Address Field that appears for the Routed Interface Type. Enter the IPv4 address assigned to this interface.
This address must be a unique IP address that is not used in another context. Duplicate IP
addresses in different contexts are not supported.
If this interface is only used for IPv6 traffic, entering an IPv4 address is optional. IPv6 requires
ACE module and ACE appliance software Version A5(1.0) or later.
Alias IP Address Field that appears for the Routed interface type. Enter the IPv4 address of the alias that this
interface is associated with.
Peer IP Address Field that appears for the Routed interface type. Enter the IPv4 address of the remote peer.
Netmask Field that appears for the Routed interface type. Choose the subnet mask to be used.
BVI Field that appears for the Bridged interface type. Enter the number of the bridge group to be
configured on this VLAN. When you configure a bridge group on a VLAN, the ACE
automatically makes it bridged. Valid entries are from 1 to 4094.
Admin Status Administrative state of the interface. Specify whether you want the interface to be Up or Down.
Enable MAC Sticky Check box that instructs the ACE to convert dynamic MAC addresses to sticky secure MAC
addresses and to add this information to the running configuration.
Uncheck the check box to indicate that the ACE is not to convert dynamic MAC addresses to
sticky secure MAC addresses.
Table 12-1 VLAN Interface Attributes (continued)
Field Description
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Enable Normalization Check box that specifies that normalization is to be enabled on this interface. Uncheck the check
box to indicate that normalization is to be disabled on this interface for IPv4, IPv6, or both. The
IPv6 option requires ACE module and ACE appliance software Version A5(1.0) or later.
Caution Disabling normalization may expose your ACE and network to potential security risks.
Normalization protects your networking environment from attackers by enforcing
strict security policies that are designed to examine traffic for malformed or malicious
segments.
Enable IPv6 Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later,
and for the Routed interface type. Check the check box to enable IPv6 on this interface. By
default, IPv6 is disabled. The interface cannot be in bridged mode. When you enable IPv6, the
ACE automatically does the following:
• Configures a link-local address (if not previously configured)
• Performs duplicate address detection (DAD)
Clear the check box to indicate that IPv6 is disabled on this interface.
IPv6 Global Address Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later,
and for the Routed interface type. A global address is an IPv6 unicast address that is used for
general IPv6 communication. Each global address is unique across the entire Internet. Therefore,
its scope is global. The low order 64 bits can be assigned in several ways, including
autoconfiguration using the EUI-64 format. You can configure only one globally unique IPv6
address on an interface.
When you configure a global IPv6 address on an interface, the ACE automatically does the
following:
• Configures a link-local address (if not previously configured)
• Performs duplicate address detection (DAD) on both addresses
IPv6 Address To configure an IPv6 global address on an interface, enter a complete IPv6 address with a prefix
of 2000::/3 to 3fff::/3. For example, enter 2001:DB8:1::0.
Check the EUI-64 box to specify that the low order 64 bits are automatically generated in the
IEEE 64-bit Extended Unique Identifier (EUI-64) format specified in RFC 2373. To use EUI-64,
the Prefix Length field must be less than or equal to 64 and the host segment must be all zeros.
Alias IPv6 Address When you configure redundancy with active and standby ACEs, you can configure a VLAN
interface that has an alias global IPv6 address that is shared between the active and standby
ACEs. The alias IPv6 address serves as a shared gateway for the two ACEs in a redundant
configuration. You can configure only one alias global IPv6 address on an interface.
To configure an IPv6 alias global address, enter a complete IPv6 address with a prefix of 2000::/3
to 3fff::/3. For example, enter 2001:DB8:1::0.
Note You must configure redundancy (fault tolerance) on the ACE for the alias global IPv6
address to work.
Table 12-1 VLAN Interface Attributes (continued)
Field Description
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Peer IPv6 Address To configure an IPv6 peer global address, enter a complete IPv6 address with a prefix of 2000::/3
to 3fff::/3. For example, enter 2001:DB8:1::0.
Check the EUI-64 box to specify that the low order 64 bits are automatically generated in the
IEEE 64-bit Extended Unique Identifier (EUI-64) format specified in RFC 2373. To use EUI-64,
the Prefix Length field must be less than or equal to 64 and the host segment must be all zeros.
Note The IPv6 peer global address must be unique across multiple contexts on a shared VLAN.
Check the EUI-64 box to specify that the low order 64 bits are automatically generated in the
IEEE 64-bit Extended Unique Identifier (EUI-64) format specified in RFC 2373. To use EUI-64,
the Prefix Length field must be less than or equal to 64 and the host segment must be all zeros.
Prefix Length Enter the prefix length for all global addresses to specify how many of the most significant bits
(MSBs) are used for the network identifier. Enter an integer from 3 to 127. If you use the optional
EUI-64 check box for the global and peer addresses, the prefix must be less than or equal to 64.
IPv6 Unique-Local
Address
Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later,
and for the Routed interface type. A unique local address is an optional IPv6 unicast address that
is used for local communication within an organization and it is similar to a private IPv4 address
(for example, 10.10.2.1). Unique local addresses have a global scope, but they are not routable
on the internet, and they are assigned by a central authority. All unique local addresses have a
predefined prefix of FC00::/7. You can configure only one IPv6 unique local address on an
interface.
IPv6 Address To configure a unique local address, enter a complete IPv6 address with an FC00::/7 prefix in the
first field. In the second field after the /, enter the prefix length to specify how many of the most
significant bits (MSBs) are used for the network identifier.
Check the EUI-64 box to specify that the low order 64 bits are automatically generated in the
IEEE 64-bit Extended Unique Identifier (EUI-64) format specified in RFC 2373. To use EUI-64,
the Prefix Length field must be less than or equal to 64 and the host segment must be all zeros.
Peer IPv6 Address In a redundant configuration, you can configure an IPv6 peer unique local address on the active
that is synchronized to the standby ACE. You can configure only one peer unique local IPv6
address on an interface.
To configure a peer unique local address, enter a complete IPv6 address with an FC00::/7 prefix
in the first field. In the second field after the /, enter the prefix length to specify how many of the
most significant bits (MSBs) are used for the network identifier.
Note The IPv6 peer unique local address must be unique across multiple contexts on a shared
VLAN.
Check the EUI-64 box to specify that the low order 64 bits are automatically generated in the
IEEE 64-bit Extended Unique Identifier (EUI-64) format specified in RFC 2373. To use EUI-64,
the Prefix Length field must be less than or equal to 64 and the host segment must be all zeros.
Prefix Length Enter the prefix length for all unique-local addresses to specify how many of the most significant
bits (MSBs) are used for the network identifier. Enter an integer from 7 to 127. If you use the
optional EUI-64 check box for the global and peer addresses, the prefix must be less than or equal
to 64.
Table 12-1 VLAN Interface Attributes (continued)
Field Description
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IPv6 Link-Local Address Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later,
and for the Routed interface type. By default, when you enable IPv6 or configure a global IPv6
address on an interface, the ACE automatically creates a link local address for it. Every link local
address must have a predefined prefix of FE80::/10. You can configure only one IPv6 link local
address on an interface. This address always has the prefix of 64.
To manually configure the link local address, enter a complete IPv6 address with an FE80::/10
prefix in this field. For example, enter FE80:DB8:1::1.
IPv6 Peer Link-Local
Address
Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later,
and for the Routed interface type. In a redundant configuration, you can configure an IPv6 peer
link local address for the standby ACE. You can configure only one peer link local address on an
interface.
To configure the peer link local address, enter a complete IPv6 address with an FE80::/10 prefix
in this field.
Note The IPv6 peer link local address must be unique across multiple contexts on a shared
VLAN.
Table 12-1 VLAN Interface Attributes (continued)
Field Description
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More Settings
Enable ICMP Guard For ACE module and ACE appliance software versions earlier than A5(1.0), this field does not
include the IP version number check boxes and is for enabling the IPv4 version only. Check the
IPv4, IPv6, or both check boxes to indicate that ICMP Guard is to be enabled on the ACE.
Clear the check boxes to indicate that ICMP Guard is not to be enabled on ACE.
Caution Disabling ICMP security checks may expose your ACE and network to potential
security risks. When you disable ICMP Guard, the ACE appliance no longer performs
NAT translations on the ICMP header and payload in error packets, which can
potentially reveal real host IP addresses to attackers.
Enable DHCP Relay For ACE module and ACE appliance software versions earlier than A5(1.0), this field does not
include the IP version number check boxes and is for enabling the IPv4 version only. Check the
IPv4, IPv6, or both check boxes to indicate that the ACE is to accept DHCP requests from clients
on this interface and to enable the DHCP relay agent. For IPv6, link local address for the
Clear the check boxes to indicate that the ACE is not to accept DHCP requests or enable the
DHCP relay agent.
Reverse Path Forwarding
(RPF)
For ACE module and ACE appliance software versions earlier than A5(1.0), this field does not
include the IP version number check boxes and is for enabling the IPv4 version only. Check the
IPv4, IPv6, or both check boxes to indicate that the ACE is to discard IP packets if no reverse
route is found or if the route does not match the interface on which the packets arrived.
Clear the check boxes to indicate that the ACE is not to filter or discard packets based on the
ability to verify the source IP address.
Reassembly Timeout
(Seconds)
Enter the number of seconds that the ACE appliance is to wait before it abandons the fragment
reassembly process if it doesn’t receive any outstanding fragments for the current fragment chain
(that is, fragments belonging to the same packet).
• For IPv4, valid entries are 1 to 30 seconds. The default is 5.
• For IPv6, valid entries are 1 to 60 seconds. The default is 60. IPv6 requires ACE module and
ACE appliance software Version A5(1.0) or later.
Max. Fragment Chains
Allowed
Enter the maximum number of fragments belonging to the same packet that the ACE appliance
is to accept for reassembly. For IPv4 and IPv6, valid entries are integers from 1 to 256. The
default is 24.
Min. Fragment MTU
Value
Enter the minimum fragment size that the ACE appliance accepts for reassembly for a VLAN
interface.
• For IPv4, valid entries are 28 to 9216 bytes. The default is 576.
• For IPv6, valid entries are 56 to 9216 bytes. The default is 1280. IPv6 requires ACE module
and ACE appliance software Version A5(1.0) or later.
Table 12-1 VLAN Interface Attributes (continued)
Field Description
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Action For IP Header
Options
For ACE module and ACE appliance software versions earlier than A5(1.0), this field does not
include the IP version number and is for IPv4 only. Choose the IPv4, IPv6, or both action the
ACE appliance is to take when an IP option is set in a packet:
• Allow—Indicates that the ACE appliance is to allow the IP packet with the IP options set.
• Clear—Indicates that the ACE appliance is to clear all IP options from the packet and to
allow the packet.
• Clear-Invalid—Indicates that the ACE appliance is to clear the invalid IP options from the
packet and then allow the packet. This action is the default for IPv4.
• Drop—Indicates that the ACE appliance is to discard the packet regardless of any options
that are set. This action is the default for IPv6.
Enable MAC Address
Autogenerate
MAC address autogenerate option, which allows you to configure a different MAC address for
the VLAN interface.
Min. TTL IP Header Value Minimum number of hops that a packet is allowed to reach its destination. Valid entries are from
1 to 255. This field is applicable for IPv4 and IPv6 traffic. IPv6 requires ACE module and ACE
appliance software Version A5(1.0) or later.
Each router along the path decrements the TTL by one. If the packet TTL reaches zero before the
packet reaches its destination, the packet is discarded.
MTU Value Number of bytes for Maximum Transmission Units (MTUs). Valid entries are from 68 to 9216.
The default is 1500.
Enable Syn Cookie
Threshold Value
Field that is applicable for ACE module software Version A2(1.0) and later, and ACE appliance
software Version A3(1.0) and later. Embryonic connection threshold above which the ACE
applies SYN-cookie DoS protection.
Valid entries are as follows:
• 2 to 65535 for ACE module software versions earlier than A4(1.0).
• 1 to 65535 for ACE module software Version A4(1.0) and later, and ACE appliance software
Version A3(1.0) and later.
Action For DF Bit Action that the ACE takes when a packet has its DF (Don’t Fragment) bit set in the IP header.
Choose one of the following settings:
• Allow—The ACE permits the packet with the DF bit set. If the packet is larger than the
next-hop MTU, ACE discards the packet and sends an ICMP unreachable message to the
source host. This is the default.
• Clear—The ACE clears the DF bit and permit the packet. If the packet is larger than the
next-hop MTU, the ACE fragments the packet.
Table 12-1 VLAN Interface Attributes (continued)
Field Description
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ARP Inspection Type Type of ARP inspection, which prevents malicious users from impersonating other hosts or
routers, known as ARP spoofing. ARP spoofing can enable a “man-in-the-middle” attack. For
example, a host sends an ARP request to the gateway router. The gateway router responds with
the gateway router MAC address.
By default, ARP inspection is disabled on all interfaces, allowing all ARP packets through the
ACE. When you enable ARP inspection, the ACE appliance uses the IP address and interface ID
(ifID) of an incoming ARP packet as an index into the ARP table. ARP inspection operates only
on ingress bridged interfaces.
Note If ARP inspection fails, then the ACE does not perform source MAC validation.
Choices are as follows:
• N/A—ARP inspection is disabled.
• Flood—Enables ARP forwarding of nonmatching ARP packets. The ACE appliance
forwards all ARP packets to all interfaces in the bridge group. This setting is the default. In
the absence of a static ARP entry, this option bridges all packets.
• No Flood—Disables ARP forwarding for the interface and drops nonmatching ARP packets.
In the absence of a static ARP entry, this option does not bridge any packets.
UDP Config Commands UDP boost command options:
• N/A—Not applicable.
• IP Destination Hash—Performs destination IP hash during connection.
• IP Source Hash—Performs source IP hash during connection lookup.
Table 12-1 VLAN Interface Attributes (continued)
Field Description
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Secondary IP Groups Option that is available only for the ACE module A2(3.0), ACE appliance A4(1.0), and later
releases of both device types. This option displays only when Interface Type is set to Routed.
The number of secondary IP groups that you can enter for a VLAN depends on the ACE release
as follows:
• ACE module A2(3.0) and ACE appliance A4(1.0)—Up to 4 secondary IP groups.
• ACE module A2(3.1) and later—Up to 15 secondary IP groups.
The IP, alias IP, and peer IP addresses of each Secondary IP group should be in the same subnet.
Note You cannot configure secondary IP addresses on FT VLANs.
To create secondary IP groups for the VLAN, do the following:
a. Define one or more of the following secondary IP address types:
– IP—Secondary IP address assigned to this interface.The primary address must be active
for the secondary address to be active.
– AliasIP—Secondary IP address of the alias associated with this interface.
– PeerIP—Secondary IP address of the remote peer.
– Netmask—Secondary subnet mask to be used.
The ACE has a system limit of 1,024 for each secondary IP address type.
b. Click Add to selection (right arrow) to add the group to the group display area.
c. Repeat the first two steps for each additional group.
d. (Optional) Rearrange the order in which the groups are listed by selecting one of the group
listings in the group display area and click either Move item up in list (up arrow) or Move
item down in list (down arrow). Note that the ACE does not care what order the groups are
in.
e. (Optional) Edit a group or remove it from the list by selecting the desired group in the group
display area and click Remove from selection (left arrow).
Input Policies Policy map that is associated with this VLAN interface. From the Available list, double-click a
policy map name or use the right arrow to move it to the Selected list. This policy map is to be
applied to the inbound direction of the interface; that is, all traffic received by this interface.
If you choose more than one policy map, use the Up and Down arrows to choose the priority of
the policy map in the Selected list. These arrows modify the order of the policy maps for new
VLANs only; they do not modify the policy map order when editing an existing policy map.
Input Access Group ACL input access group to be associated with this VLAN interface. From the Available list,
double-click an ACL name or use the right arrow to move it to the Selected list. Any ACL group
listed in the Selected list specifies that this access group is to be applied to the inbound direction
of the interface.
Output Access Group ACL output access group that is associated with this VLAN interface. From the Available list,
double-click an ACL name or use the right arrow to move it to the Selected list. Any ACL group
listed in the Selected list specifies that this access group is to be applied to the outbound direction
of the interface; that is, all traffic sent by this interface.
Table 12-1 VLAN Interface Attributes (continued)
Field Description
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Static ARP Entry
(IP/MAC Address)
Static ARP entry.
Do the following:
a. In the ARP IP Address field, enter the IP address. This field accepts IPv4 addresses only.
b. In the ARP MAC Address field, enter the hardware MAC address for the ARP table entry (for
example, 00.02.9a.3b.94.d9).
c. When completed, use the right arrow to move the static ARP entry to the list box. Use the
Up and Down arrows to choose the priority of the static ARP entry in the list box. These
arrows modify the order of the static ARPs for new VLANs only; they do not modify the
static ARP order when editing an existing policy map.
DHCP Relay
Configuration
Enter the IPv4 address of the DHCP server to which the DHCP relay agent is to forward client
requests. Enter the IP address in dotted-decimal notation, such as 192.168.11.2.
IPv6 DHCP Forward
Interface VLAN
Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
Enter the VLAN to forward all received client requests with destination being the IPv6 DHCP
address configured in the IPv6 DHCP Relay Configuration field.
IPv6 DHCP Relay
Configuration
Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
Enter the IPv6 address for the DHCP server where the DHCP relay agent forwards client requests.
Select the VLAN when the server address is a link local address.
Note When you enter a DHCPv6 server global IPv6 address, a VLAN is not required.
Managed-Config Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
Check box to indicate that the interface use the stateful autoconfiguration mechanism to
configure IPv6 addresses.
Uncheck the check box to indicate that the interface does not use the stateful autoconfiguration
mechanism to configure IPv6 addresses.
Other-Config Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
Check box to indicate that the interface use the stateful autoconfiguration mechanism to
configure parameters other than IPv6 addresses.
Uncheck the check box to indicate that the interface does not use the stateful autoconfiguration
mechanism to configure parameters other than IPv6 addresses.
NS Interval Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
The ACE sends neighbor solicitation messages through ICMPv6 on the local link to determine
the IPv6 addresses of nearby nodes (hosts or routers). You can configure the rate at which the
ACE sends these neighbor solicitation messages.
By default, the interval at which the ACE sends NS messages for DAD default is 1000
milliseconds (msecs). To configure the interval, enter an integer from 1000 to 2147483647.
NS Reachable Time Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
The neighbor solicitation reachable time is the time period in milliseconds during which a host
considers the peer is reachable after a reachability confirmation from the peer. A reachability
confirmation can include neighbor solicitation or advertisement, or any upper protocol traffic.
By default, this time period is 0 milliseconds. To configure this time, enter an integer from 0 to
3600000.
Table 12-1 VLAN Interface Attributes (continued)
Field Description
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Retransmission time Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
By default, the advertised retransmission time is 0 milliseconds.
To configure the retransmission time, enter an integer from 0 to 3600000.
DAD Attempts Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
By default, the number of attempts for sending duplicate address detection (DAD) is 1.
To configure the DAD attempts, enter an integer from 0 to 255.
RA Hop Limit Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
By default, the hop limit that neighbors should use when originating IPv6 packets is 64. To
configure the hop limit in the IPv6 header, enter an integer from 0 to 255.
RA Lifetime Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
The router advertisement lifetime is the length of time that neighboring nodes should consider
the ACE as the default router before they send RS messages again.
By default, this length of time is 1800 seconds (30 minutes). To configure the RA lifetime, enter
an integer from 0 to 9000.
RA Interval Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
By default, the rate at which the ACE sends RA messages is 600 seconds. To configure the rate,
enter an integer from 4 to 1800.
Suppress RA Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
Check box to instruct the ACE to not respond to RS messages. The ACE also stops periodic
unsolicited RAs that it sends at the RA interval.
By default, the ACE automatically responds to RS messages that it receives from neighbors with
RA messages that include, for example, the network prefix. You can instruct the ACE to not
respond to RS messages.
Uncheck the check box to reset the default behavior of automatically responding to RS messages.
IPv6 Router Prefix
Advertisement
Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
Click the Add button to configure the IPv6 prefixes that the ACE advertises in RA messages on
the local link.
IPv6 Address/Prefix
Length
To configure IPv6 address advertised in the RA messages, enter a complete IPv6 address in the
first field. In the second field after the /, enter the prefix length to specify how many of the most
significant bits (MSBs) are used for the network identifier.
No Advertisements Check the check box to indicate that the route prefix is not advertised.
Clear the check box to indicate that the route prefix is advertised.
Table 12-1 VLAN Interface Attributes (continued)
Field Description
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Step 5 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click Cancel to exit this procedure without saving your entries and to return to the previous window.
Step 6 (Optional) To display statistics and status information for a VLAN interface, choose the VLAN interface
from the VLAN Interface table, then click Details.
The show interface vlan CLI command output appears. See the “Displaying VLAN Interface Statistics
and Status Information” section on page 12-18 for details.
Related Topics
• Configuring VLAN Interface NAT Pools, page 12-26
• Displaying All VLAN Interfaces, page 12-18
• Displaying VLAN Interface Statistics and Status Information, page 12-18
Lifetime Configure the prefix lifetime attributes as follows:
• Lifetime Duration:
– Valid Lifetime—By default, the prefix lifetime is 2592000 seconds (30 days). To
configure the prefix lifetime in seconds, enter an integer from 0 to 2147183647.
Select Infinite to indicate that the prefix never expires.
– Preferred Lifetime—By default, the prefix lifetime is 604800 seconds (10 days).To
configure how long an IPv6 address remains preferred in seconds, enter an integer from
0 to 2147183647. This lifetime must not exceed the Valid Lifetime.
Select Infinite to indicate that the preferred lifetime never expires.
• Lifetime Expiration Date:
– Valid Month/Day/Year/Time—Valid lifetime expiration date and time.
– Preferred Month/Day/Year/Time—Preferred lifetime expiration date and time.
Use the drop-down lists to select a day, month, and year. To specify the time, use the hh:mm
format.
Off-link This option appears when you enter a Preferred Lifetime field.
Check this check box to indicate that the route prefix is on a different subnet for a router to route
to it.
Clear the check box to indicate that the route prefix is on the same subnet for a router to route to it.
No-autoconfig This option appears when you enter a Preferred Lifetime field.
Check this check box to indicate to the host that it cannot use this prefix when creating an
stateless IPv6 address.
Clear the check box to indicate to the host that it can use this prefix when creating an stateless
IPv6 address.
Table 12-1 VLAN Interface Attributes (continued)
Field Description
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Displaying All VLAN Interfaces
You can display all of the VLAN interfaces associated with a specific virtual context by choosing
Config > Devices > context > Network > VLAN Interfaces.
The VLAN Interface table appears with the information shown in Table 12-2.
Related Topics
• Configuring Virtual Context VLAN Interfaces, page 12-6
• Configuring Virtual Context BVI Interfaces, page 12-19
• Displaying VLAN Interface Statistics and Status Information, page 12-18
Displaying VLAN Interface Statistics and Status Information
You can display statistics and status information for a particular VLAN interface.
Procedure
Step 1 Choose Config > Devices > context > Network > VLAN Interfaces.
The VLAN Interfaces table appears.
Step 2 Choose a VLAN interface from the VLAN Interfaces table, and click Details.
The show interface vlan, show ipv6 interface vlan, and show ipv6 neighbors CLI commands appears.
The IPv6 commands require ACE module and ACE appliance software Version A5(1.0) or later. Click
on the command to display its output. For details on the displayed output fields, see either the Cisco ACE
Module Routing and Bridging Configuration Guide or the Cisco ACE 4700 Series Appliance Routing
and Bridging Configuration Guide.
Table 12-2 VLAN Interface Table Fields
Field Description
VLAN VLAN number.
Description Description for this interface.
Interface Type Role of the virtual context in the network topology of the VLAN interface.
IP Address IP address assigned to this interface including the netmask for an IPv4 address or
a prefix length for an IPv6 address. IPv6 requires ACE module and ACE
appliance software Version A5(1.0) or later.
This table does not display the IPv6 link-local, unique-local, and multicast
addresses for the interface. To display these addresses, click Details to display the
output for the show ipv6 vlan command.
IPv6 Config Status The status whether IPv6 is enabled or disabled on the interface. IPv6 requires
ACE module and ACE appliance software Version A5(1.0) or later.
Admin Status Status of the interface, which can be Up or Down.
Operational Status Operational state of the device (Up or Down).
Last Polled Date and time of the last time that ANM polled the device to display the current
values.
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Step 3 Click Update Details to refresh the output for the show interface vlan CLI command.
Step 4 Click Close to return to the VLAN Interfaces table.
Related Topics
• Configuring Virtual Context VLAN Interfaces, page 12-6
• Displaying All VLAN Interfaces, page 12-18
Configuring Virtual Context BVI Interfaces
You can configure Bridge-Group Virtual Interfaces (BVI) for virtual contexts. The ACE supports virtual
contexts containing BVI interfaces. You can configure two interface VLANs into a group and bridge
packets between them. All interfaces are in one broadcast domain and packets from one VLAN are
switched to the other VLAN. The ACE bridge mode supports only two Layer 2 VLANs per bridge group.
Note The options that appear when you choose Config > Devices > context depend on the device associated
with the virtual context and the role associated with your account.
This section includes the following topics:
• Configuring BVI Interfaces for a Virtual Context, page 12-19
• Displaying All BVI Interfaces by Context, page 12-25
• Displaying BVI Interface Statistics and Status Information, page 12-26
Configuring BVI Interfaces for a Virtual Context
You can configure BVI interfaces for a virtual context.
Procedure
Step 1 Choose Config > Devices > context > Network > BVI Interfaces.
The BVI Interface configuration table appears.
Step 2 Click Poll Now to instruct ANM to poll the devices and display the current values, and click OK when
prompted if you want to poll the devices for data now.
Step 3 Click Add to add a new BVI interface.
Step 4 Enter the interface attributes (see Table 12-3).
Note When you create or edit a virtual context BVI, if either of the two VLANs do not exist, ANM
creates the VLAN and populates the BVI with the description specified in the BVI Interface
window.
If you delete the BVI and there are values specified in either of the two VLAN fields, ANM
removes the BVI value from the VLAN.
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Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Table 12-3 BVI Interface Attributes
Field Description
BVI BVI identifier. Either accept the automatically incremented entry or enter a different, unique
value for the BVI. Valid entries are from 1 to 4094.
Description Brief description for this interface.
IP Address IPv4 address assigned to this interface. This address must be a unique IP address that is not used
in another context. Duplicate IP addresses in different contexts are not supported.
Note If this interface is only used for IPv6 traffic, entering an IPv4 address is optional. IPv6
requires ACE module and ACE appliance software Version A5(1.0) or later.
Alias IP Address IPv4 address of the alias that this interface is associated with.
Peer IP Address IPv4 address of the remote peer.
Netmask Subnet mask to be used.
Admin Status Administrative state of the interface: Up or Down.
Secondary IP Groups Option that is available only for the ACE module A2(3.0), ACE appliance A4(1.0), and later
releases of either device type. The number of secondary IP groups that you can enter for a BVI
depends on the ACE release as follows:
• ACE module A2(3.0) and ACE appliance A4(1.0)—Up to 4 secondary IP groups.
• ACE module A2(3.1) and later—Up to 15 secondary IP groups.
To create secondary IP groups for this BVI, do the following:
a. Define one or more of the following secondary IP address types:
– IP—Secondary IP address assigned to this interface.The primary address must be
active for the secondary address to be active.
– AliasIP—Secondary IP address of the alias associated with this interface.
– PeerIP—Secondary IP address of the remote peer.
– Netmask—Secondary subnet mask to be used.
The ACE has a system limit of 1,024 for each secondary IP address type.
b. Click Add to selection (right arrow) to add the group to the group display area.
c. Repeat the first two steps for each additional group.
d. (Optional) Rearrange the order in which the groups are listed by selecting one of the group
listings in the group display area and click either Move item up in list (up arrow) or Move
item down in list (down arrow). Note that the ACE does not care what order the groups are
in.
e. (Optional) Edit a group or remove it from the list by selecting the desired group in the group
display area and click Remove from selection (left arrow).
First VLAN First VLAN whose bridge group is to be configured with this BVI. This VLAN can be the server
or client VLAN. Valid entries are from 2 to 4094.
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First VLAN Description Brief description for the first VLAN.
Second VLAN Second VLAN whose bridge group is to be configured with this BVI. This VLAN can be the
server or client VLAN. Valid entries are from 2 to 4094.
Second VLAN Description Brief description for the second VLAN.
Enable IPv6 Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
Check box to enable IPv6 on this interface. By default, IPv6 is disabled. The interface cannot
be in bridged mode. When you enable IPv6, the ACE automatically does the following:
• Configures a link-local address (if not previously configured)
• Performs duplicate address detection (DAD) on both addresses
Uncheck the check box to indicate that IPv6 is disabled on this interface.
IPv6 Global Address Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
A global address is an IPv6 unicast address that is used for general IPv6 communication. Each
global address is unique across the entire Internet. Therefore, its scope is global. The low order
64 bits can be assigned in several ways, including autoconfiguration using the EUI-64 format.
You can configure only one globally unique IPv6 address on an interface.
When you configure a global address, the ACE automatically does the following:
• Configures a link-local address (if not previously configured)
• Performs duplicate address detection (DAD) on both addresses
IPv6 Address To configure an IPv6 global address on an interface, enter a complete IPv6 address with a prefix
of 2000::/3 to 3fff::/3. For example, enter 2001:DB8:1::0.
Check the EUI-64 check box to specify that the low order 64 bits are automatically generated
in the IEEE 64-bit Extended Unique Identifier (EUI-64) format specified in RFC 2373. To use
EUI-64, the Prefix Length field must be less than or equal to 64 and the host segment must be
all zeros.
Alias IPv6 Address When you configure redundancy with active and standby devices, you can configure a VLAN
interface that has an alias global IPv6 address that is shared between the active and standby
devices. The alias IPv6 address serves as a shared gateway for the two ACEs in a redundant
configuration. You can configure only one alias global IPv6 address on an interface.
To configure an IPv6 alias global address, enter a complete IPv6 address with a prefix of
2000::/3 to 3fff::/3. For example, enter 2001:DB8:1::0.
Note You must configure redundancy (fault tolerance) on the ACE for the alias global IPv6
address to work.
Table 12-3 BVI Interface Attributes (continued)
Field Description
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Peer IPv6 Address To configure an IPv6 peer global address, enter a complete IPv6 address with a prefix of
2000::/3 to 3fff::/3. For example, enter 2001:DB8:1::0.
Check the EUI-64 box to specify that the low order 64 bits are automatically generated in the
IEEE 64-bit Extended Unique Identifier (EUI-64) format specified in RFC 2373. To use
EUI-64, the Prefix Length field must be less than or equal to 64 and the host segment must be
all zeros.
Note The IPv6 peer global address must be unique across multiple contexts on a shared
VLAN.
Prefix Length Enter the prefix length for all global addresses to specify how many of the most significant bits
(MSBs) are used for the network identifier. Enter an integer from 1 to 128. If you use the
optional EUI-64 check box for the global and peer addresses, the prefix must be less than or
equal to 64.
IPv6 Unique-Local Address Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
A unique local address is an optional IPv6 unicast address that is used for local communication
within an organization and it is similar to a private IPv4 address (for example, 10.10.2.1).
Unique local addresses have a global scope, but they are not routable on the internet, and they
are assigned by a central authority. All unique local addresses have a predefined prefix of
FC00::/7. You can configure only one IPv6 unique local address on an interface.
IPv6 Address To configure a unique local address, enter a complete IPv6 address with an FC00::/7 prefix in
the first field. In the second field after the /, enter the prefix length to specify how many of the
most significant bits (MSBs) are used for the network identifier.
Check the EUI-64 box to specify that the low order 64 bits are automatically generated in the
IEEE 64-bit Extended Unique Identifier (EUI-64) format specified in RFC 2373. To use
EUI-64, the Prefix Length field must be less than or equal to 64 and the host segment must be
all zeros.
Peer IPv6 Address In a redundant configuration, you can configure an IPv6 peer unique local address on the active
that is synchronized to the standby ACE. You can configure only one peer unique local IPv6
address on an interface.
To configure a peer unique local address, enter a complete IPv6 address with an FC00::/7 prefix
in the first field. In the second field after the /, enter the prefix length to specify how many of
the most significant bits (MSBs) are used for the network identifier.
Note The IPv6 peer unique local address must be unique across multiple contexts on a shared
VLAN.
Check the EUI-64 box to specify that the low order 64 bits are automatically generated in the
IEEE 64-bit Extended Unique Identifier (EUI-64) format specified in RFC 2373. To use
EUI-64, the Prefix Length field must be less than or equal to 64 and the host segment must be
all zeros.
Prefix Length Enter the prefix length for all global addresses to specify how many of the most significant bits
(MSBs) are used for the network identifier. Enter an integer from 1 to 128. If you use the
optional EUI-64 check box for the global and peer addresses, the prefix must be less than or
equal to 64.
Table 12-3 BVI Interface Attributes (continued)
Field Description
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IPv6 Link-Local Address Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
By default, when you enable IPv6 or configure any other valid IPv6 address on an interface, the
ACE automatically creates a link local address for it. Every link local address must have a
predefined prefix of FE80::/10. You can configure only one IPv6 link local address on an
interface. This address always has the prefix of 64.
To manually configure the link local address, enter a complete IPv6 address with an FE80::/10
prefix in this field. For example, enter FE80:DB8:1::1
IPv6 Peer Link-Local
Address
Field that appears only for ACE module and ACE appliance software Version A5(1.0) or later.
In a redundant configuration, you can configure an IPv6 peer link local address for the standby
ACE. You can configure only one peer link local address on an interface.
To configure the peer link local address, enter a complete IPv6 address with an FE80::/10 prefix
in this field.
Note The IPv6 peer link local address must be unique across multiple contexts on a shared
VLAN.
More Settings (The More Seetings option appears only for ACE module and ACE appliance software Version A5(1.0) or
later.)
Managed-Config Check box to indicate that the interface use the stateful autoconfiguration mechanism to
configure IPv6 addresses.
Uncheck the check box to indicate that the interface does not use the stateful autoconfiguration
mechanism to configure IPv6 addresses.
Other-Config Check box to indicate that the interface use the stateful autoconfiguration mechanism to
configure parameters other than IPv6 addresses.
Clear the check box to indicate that the interface does not use the stateful autoconfiguration
mechanism to configure parameters other than IPv6 addresses.
NS Interval The ACE sends neighbor solicitation messages through ICMPv6 on the local link to determine
the IPv6 addresses of nearby nodes (hosts or routers). You can configure the rate at which the
ACE sends these neighbor solicitation messages.
By default, the interval at which the ACE sends NS messages for DAD default is 1000
milliseconds (msecs). To configure the interval, enter an integer from 1000 to 2147483647.
NS Reachable Time The neighbor solicitation reachable time is the time period in milliseconds during which a host
considers the peer is reachable after a reachability confirmation from the peer. A reachability
confirmation can include neighbor solicitation or advertisement, or any upper protocol traffic.
By default, this time period is 0 milliseconds. To configure this time, enter an integer from 0 to
3600000.
Retransmission time By default, the advertised retransmission time is 0 milliseconds.
To configure the retransmission time, enter an integer from 0 to 3600000.
DAD Attempts By default, the number of attempts for sending duplicate address detection (DAD) is 1.
To configure the DAD attempts, enter an integer from 0 to 255.
RA Hop Limit By default, the hop limit that neighbors should use when originating IPv6 packets is 64. To
configure the hop limit in the IPv6 header, enter an integer from 0 to 255.
Table 12-3 BVI Interface Attributes (continued)
Field Description
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RA Lifetime The RA lifetime is the length of time that neighboring nodes should consider the ACE as the
default router before they send RS messages again.
By default, this length of time is 1800 seconds (30 minutes). To configure the RA lifetime, enter
an integer from 0 to 9000.
RA Interval By default, the rate at which the ACE sends RA messages is 600 seconds. To configure the rate,
enter an integer from 4 to 1800.
Suppress RA By default, the ACE automatically responds to RS messages that it receives from neighbors with
RA messages that include, for example, the network prefix. You can instruct the ACE to not
respond to RS messages.
Check the check box to instruct the ACE to not respond to RS messages.
Clear the check box to reset the default behavior of automatically responding to RS messages.
IPv6 Router Advertisement
Settings
Click the Add button to configure the IPv6 prefixes that the ACE advertises in RA messages on
the local link.
IPv6 Address/Prefix
Length
To configure IPv6 address advertised in the RA messages, enter a complete IPv6 address in the
first field. In the second field after the /, enter the prefix length to specify how many of the most
significant bits (MSBs) are used for the network identifier.
No Advertisements Check the check box to indicate that the route prefix is not advertised.
Clear the check box to indicate that the route prefix is advertised.
Lifetime Configure the prefix lifetime attributes as follows:
• Lifetime Duration:
– Valid Lifetime—By default, the prefix lifetime is 2592000 seconds (30 days). To
configure the prefix lifetime in seconds, enter an integer from 0 to 2147183647.
Select Infinite to indicate that the prefix never expires.
– Preferred Lifetime—By default, the prefix lifetime is 604800 seconds (10 days).To
configure how long an IPv6 address remains preferred in seconds, enter an integer from
0 to 2147183647. This lifetime must not exceed the Valid Lifetime.
Select Infinite to indicate that the preferred lifetime never expires.
• Lifetime Expiration Date:
– Valid Month/Day/Year/Time—Valid lifetime expiration date and time.
– Preferred Month/Day/Year/Time—Preferred lifetime expiration date and time.
Use the drop-down lists to select a day, month, and year. To specify the time, use the hh:mm
format.
Table 12-3 BVI Interface Attributes (continued)
Field Description
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Step 5 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click Cancel to exit this procedure without saving your entries and to return to the previous table.
Step 6 To display statistics and status information for a BVI interface, choose the BVI interface from the BVI
Interface table, and click Details.
The show interface bvi, show ipv6 interface bvi, and show ipv6 neighbors CLI command outputs
appears. IPv6 commands requires ACE module and ACE appliance software Version A5(1.0) or later.
See the “Displaying BVI Interface Statistics and Status Information” section on page 12-26 for details.
Related Topics
• Configuring Network Access, page 12-1
• Configuring Virtual Context Primary Attributes, page 6-14
Displaying All BVI Interfaces by Context
You can display all of the BVI interfaces associated with a specific context by choosing Config >
Devices > context > Network > BVI Interfaces.
The BVI Interface table appears with the information shown in Table 12-4.
Off-link This option appears when you enter a Preferred Lifetime field.
Check this check box to indicate that the route prefix is on a different subnet for a router to route
to it.
Clear the check box to indicate that the route prefix is on the same subnet for a router to route
to it.
No-autoconfig This option appears when you enter a Preferred Lifetime field.
Check this check box to indicate to the host that it cannot use this prefix when creating an
stateless IPv6 address.
Clear the check box to indicate to the host that it can use this prefix when creating an stateless
IPv6 address.
Table 12-3 BVI Interface Attributes (continued)
Field Description
Table 12-4 BVI Interface Fields
Field Description
BVI Name of the BVI interface.
Description Description for the BVI interface.
IP Address IP address assigned to this interface including the netmask for an IPv4 address or a prefix length for
an IPv6 address. IPv6 requires ACE module and ACE appliance software Version A5(1.0) or later.
IPv6 Config Status The status whether IPv6 is enabled or disabled on the interface. IPv6 requires ACE module and ACE
appliance software Version A5(1.0) or later.
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Configuring VLAN Interface NAT Pools
Related Topics
• Displaying BVI Interface Statistics and Status Information, page 12-26
Displaying BVI Interface Statistics and Status Information
You can display statistics and status information for a particular BVI interface by using the Details
button.
Procedure
Step 1 Choose Config > Devices > context > Network > BVI Interfaces.
The BVI Interface table appears.
Step 2 In the BVI Interface table, choose a BVI interface from the BVI Interface table, and click Details.
The show interface bvi, show ipv6 interface bvi, and show ipv6 neighbors CLI command outputs
appear. The IPv6 commands require ACE module and ACE appliance software Version A5(1.0) or later.
For details about the displayed output fields, see either the Cisco ACE Module Routing and Bridging
Configuration Guide or the Cisco ACE 4700 Series Appliance Routing and Bridging Configuration
Guide.
Step 3 Click Update Details to refresh the command output.
Step 4 Click Close to return to the BVI Interface table.
Related Topics
• Displaying All BVI Interfaces by Context, page 12-25
Configuring VLAN Interface NAT Pools
You can configure Network Address Translation (NAT) pools for a VLAN interface. NAT is designed to
simplify and conserve IP addresses. It allows private IP networks that use unregistered IP addresses to
connect to the Internet. NAT operates on a router, usually connecting two networks, and translates the
private (not globally unique) addresses in the internal network into legal addresses before the packets
are forwarded to another network.
The ACE allows you to configure NAT so that it advertises only one address for the entire network to
the outside world. This feature, which effectively hides the entire internal network behind that address,
offers both security and address conservation.
Admin Status Status of the interface, which can be Up or Down.
Operational Status Operational state of the device (Up or Down).
Last Polled Date and time of the last time that ANM polled the device to display the current values.
Table 12-4 BVI Interface Fields (continued)
Field Description
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Configuring VLAN Interface NAT Pools
Several internal addresses can be translated to only one or a few external addresses by using Port Address
Translation (PAT) in conjunction with NAT. With PAT, you can configure static address translations at
the port level and use the remainder of the IP address for other translations. PAT effectively extends NAT
from one-to-one to many-to-one by associating the source port with each flow.
Note The options that appear when you choose Config > Devices > context depend on the device associated
with the virtual context and the role associated with your account.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version A5(1.0)
or later.
Note When server load balancing is IPv6 to IPv4 or IPv4 to IPv6, you must configure source NAT.
Assumption
You have successfully configured at least one VLAN interface (see the “Configuring Virtual Context
VLAN Interfaces” section on page 12-6).
Procedure
Step 1 Choose Config > Devices > context > Network > NAT Pools.
The NAT Pools table appears.
Step 2 In the NAT Pools table, click Add to add a new NAT pool, or choose an existing NAT pool and click Edit
to modify it.
Note If you click Edit, not all of the fields can be modified.
Step 3 Choose the VLAN interface that you want to configure a NAT pool for and click the NAT Pool tab.
The NAT Pool configuration table appears.
Step 4 In the NAT Pool configuration table, click Add to add a new entry.
Step 5 In the VLAN ID field, from the drop-down list, choose a VLAN entry.
Step 6 In the NAT Pool ID field, either accept the automatically incremented entry or enter a new number to
uniquely identify this pool.
Valid entries are from 1 to 2147483647.
Step 7 In the IP Address Type field, choose either IPv4 or IPv6.
This field appears only for ACE module and ACE appliance software Version A5(1.0) or later, which
supports IPv4 and IPv6.
Step 8 In the Start IP Address field, enter an IP address for the selected IP Address Type.
This entry identifies either a single IP address or, if using a range of IP addresses, the first IP address in
a range of global addresses for this NAT pool.
Step 9 In the End IP Address field, enter the highest IP address in a range of global IP addresses for this NAT pool.
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Configuring Virtual Context Static Routes
Enter the IP address for the selected IP Address Type. Leave this field blank if you want to identify only
the single IP address in the Start IP Address field.
Step 10 Depending on the IP address type that you chose, do one of the following:
• For IPv4, in the Netmask field, choose the subnet mask for the global IP addresses in the NAT pool.
• For IPv6, in the Prefix Length field, enter the prefix length for the global IP addresses in the NAT
pool.
Step 11 Check the PAT Enabled check box to instruct the ACE to perform port address translation (PAT) in addition
to NAT.
Uncheck the check box to indicate that the ACE is not to perform port address translation (PAT) in
addition to NAT.
Step 12 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click Cancel to exit this procedure without saving your entries and to return to the NAT Pools table.
• Click Next to deploy your entries and to add another NAT Pool entry.
Related Topics
• Configuring Virtual Context VLAN Interfaces, page 12-6
• Configuring Virtual Context BVI Interfaces, page 12-19
Configuring Virtual Context Static Routes
You can configure context static routes. Admin and user context modes do not support dynamic routing,
therefore you must use static routes for any networks to which the ACE is not directly connected, such
as when there is a router between a network and the ACE.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version A5(1.0)
or later.
Procedure
Step 1 Choose Config > Devices > context > Network > Static Routes.
The Static Routes configuration table appears and displays the following information:
• Destination prefix
• Destination prefix mask
• Next hop IP address
Step 2 In the Static Routes configuration table, click Add to add a new static route.
Note You cannot modify an existing static route. To make changes to an existing static route, you must
delete the static route and then add it back.
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Configuring Global IP DHCP
Step 3 In the IP Address Type, choose either IPv4 or IPv6 for the route.
This field appears only for ACE module and ACE appliance software Version A5(1.0) or later, which
supports IPv4 or IPv6.
Step 4 In the Destination Prefix field, enter the IP address based on the address type (IPv4 or IPv6) for the route.
The address that you specify for the static route is the address that is in the packet before entering the
ACE and performing network address translation.
Step 5 Depending on the IP address type that you chose, do one of the following:
• For IPv4, in the Destination Prefix Mask field, choose the subnet to use for this route.
• For IPv6, in the Destination Prefix-length field, enter the prefix length from 0 to 128 to use for this
route.
Step 6 (IPv6 IP address type only) For the Forward Interface Type, choose one of the following:
• N/A (Not applicable)
• VLAN
• BVI
If you select VLAN or BVI, select its number from the drop down menu. To configure an interface, click
Plus. After configuring it, select its number from the drop down menu.
Step 7 In the Next Hop field, enter the IP address of the gateway router based on the address type (IPv4 or IPv6)
for this route.
The gateway address must be in the same network as a VLAN interface for this context.
Step 8 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click Cancel to exit this procedure without saving your entries and to return to the previous table.
• Click Next to deploy your entries and to add another static route.
Related Topics
• Configuring Virtual Contexts, page 6-8
• Configuring Virtual Context Primary Attributes, page 6-14
Configuring Global IP DHCP
You can configure the Dynamic Host Configuration (DHCP) relay agent at the context level so the
configuration applies to all interfaces associated with the context. When you configure the ACE as a
DHCP relay agent, it is responsible for forwarding the requests and responses that are negotiated
between the DHCP clients and the server. By default, the DHCP relay agent is disabled. You must
configure a DHCP server when you enable the DHCP relay agent.
Note The options that appear when you choose Config > Devices > context depend on the device associated
with the virtual context and the role associated with your account.
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Configuring Global IP DHCP
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version A5(1.0)
or later.
Procedure
Step 1 Choose Config > Devices > context > Network > Global IP DHCP.
The Global IP DHCP configuration table appears.
Step 2 From the Global IP DHCP configuration table, in the Enable DHCP Relay For The Context field, click
IPv4, IPv6, or both to enable DHCP relay for the context and all interfaces associated with this context.
For ACE module and ACE appliance software versions earlier than A5(1.0), this field does not include
the IP version number and is for IPv4 only.
Step 3 In the Relay Agent Information Reforwarding Policy field, choose a relay agent information forwarding
policy:
• N/A—Specifies to not configure the DHCP relay to identify what is to be performed if a forwarded
message already contains relay information.
• Keep—Specifies that existing information is left unchanged on the DHCP relay agent.
• Replace—Specifies that existing information is overwritten on the DHCP relay agent.
Step 4 In the IP DHCP Server field, choose the IP DHCP server to which the DHCP relay agent is to forward
client requests.
Step 5 In the IPv6 Forward Interface VLAN field, you can optionally enter the VLAN interface number that
you configured in the IPv6 DHCP Forward Interface VLAN field on the interface where the multicast
DHCP relay message is sent.
This field appears only for ACE module and ACE appliance software Version A5(1.0) or later.
Step 6 In the IPv6 DHCP server, specify one or more IP DHCP servers and IPv6 addresses to which the DHCP
relay agent is to forward client requests.
This field appears only for ACE module and ACE appliance software Version A5(1.0) or later.
Step 7 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click Cancel to exit this procedure without saving your entries and to return to the previous table.
• Click Next to deploy your entries and to add another DHCP relay entry.
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Configuring Static VLANs for Over 8000 Static NAT Configurations
Configuring Static VLANs for Over 8000 Static NAT
Configurations
Note This feature applies to ACE modules only and was deprecated beginning with ACE software Version
A5(1.0).
You can create more than 8,000 static NAT configurations (one static NAT configuration with a netmask
is counted as one configuration). In addition, follow these restrictions and guidelines when using this
feature:
• This feature is supported in routed mode only.
• Only one mapped interface is allowed per virtual context. However, each static NAT configuration
must have a different mapped IP address.
• At any point, you can configure no more than one next-hop on the mapped interface.
• Bidirectional NAT, or in other words, source-address as well as destination-address translation, for
the same flow is not supported.
• You must have fewer than 1,000 real IP addresses on the same subnet as the real interface. In
addition, you must have fewer than 1,000 mapped IP address on the same subnet as the mapped
interface.
• If you use this feature, we recommended that you do not use MP-based NAT for the same virtual
context.
Procedure
Step 1 Choose Config > Devices > context > Network > Static NAT Overwrite.
The Static NAT Overwrite configuration table appears.
Step 2 In the Static NAT Overwrite configuration table, click Add to add a new static NAT.
Step 3 In the Mapped IP Address field, enter the IP address to which the real IP address is translated.
In a context, the mapped IP address must be different in each static NAT configuration.
Step 4 In the Real VLAN Number field, choose the VLAN number of the interface connected to the real IP
address network.
The list of available real VLANs includes routed mode VLANs only (for more information, see Interface
Type).
Step 5 In the Mapped VLAN Number field, choose the VLAN number of the interface connected to the mapped
IP address network.
The list of available mapped VLANs includes routed mode VLANs only (for more information, see
Interface Type). In a context, the mapped interface must be the same in each static NAT configuration.
Step 6 In the Real IP Address field, enter the real server IP address to be translated.
In a context, you must configure a different address for configurations that have the same real server
interface.
Step 7 In the Real IP Netmask field, choose the subnet mask for the real server address.
Step 8 Do one of the following:
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Configuring Gigabit Ethernet Interfaces on the ACE Appliance
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. This option appears for virtual contexts.
• Click Cancel to exit this procedure without saving your entries and to return to the previous table.
• Click Next to deploy your entries and to add another DHCP relay entry.
Configuring Gigabit Ethernet Interfaces on the ACE Appliance
Note This feature is for ACE appliances only.
You can configure a Gigabit Ethernet interface on the ACE appliance, which provides physical Ethernet
ports to connect servers, PCs, routers, and other devices to the ACE appliance. The ACE appliance
supports four Layer 2 Ethernet ports for performing Layer 2 switching. You can configure the four
Ethernet ports to provide an interface for connecting to 10-Mbps, 100-Mbps, or 1000-Mbps networks.
Each Layer 2 Ethernet port supports autonegotiate, full-duplex, or half-duplex operation on an Ethernet
LAN, and can carry traffic within a designated VLAN.
A Layer 2 Ethernet port can be configured as follows:
• Member of Port-Channel Group—The port is configured as a member of a port-channel group,
which associates a physical port on the ACE appliance to a logical port to create a port-channel
logical interface. The VLAN association is derived from port-channel configuration. The port is
configured as a Layer 2 EtherChannel, where each EtherChannel bundles the individual physical
Ethernet data ports into a single logical link that provides the aggregate bandwidth of up to four
physical links on the ACE.
• Access VLAN—The port is assigned to a single VLAN. This port is referred to as an access port
and provides a connection for end users or node devices, such as a router or server.
• Trunk port—The port is associated with IEEE 802.1Q encapsulation-based VLAN trunking to
allocate VLANs to ports and to pass VLAN information (including VLAN identification) between
switches for all Ethernet channels defined in a Layer 2 Ethernet data port or a Layer 2 EtherChannel
(port-channel) group on the ACE appliance.
This section includes the following topics:
• Configuring Gigabit Ethernet Interfaces, page 12-32
• Displaying Gigabit Ethernet Interface Statistics and Status Information, page 12-35
Configuring Gigabit Ethernet Interfaces
This section describes how to configure Gigabit Interfaces on the ACE.
Procedure
Step 1 Choose Config > Devices > context > Network > GigabitEthernet Interfaces.
The GigabitEthernet Interfaces table appears.
Step 2 In the GigabitEthernet Interfaces table, click Poll Now to instruct ANM to poll the devices and display
the current values, and click OK when prompted to poll the devices for data.
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Configuring Gigabit Ethernet Interfaces on the ACE Appliance
Step 3 Choose an existing gigabit Ethernet interface, and click Edit to modify it.
Step 4 Enter the gigabit Ethernet physical interface attributes (see Table 12-5).
Table 12-5 Physical Interface Attributes
Field Description
Interface Name Name of the Gigabit Ethernet interface, which is in the format slot_number/port_number where
slot_number is the physical slot on the ACE for the specified port, and port_number is the physical Ethernet
data port on the ACE for the specified port.
Description Brief description for this interface.
Admin Status Administrative state of the interface: Up or Down.
Speed Port speed:
• Auto—Autonegotiate with other devices
• 10 Mbps
• 100 Mbps
• 1000 Mbps
Duplex Interface duplex mode:
• Auto—Resets the specified Ethernet port to automatically negotiate port speed and duplex of incoming
signals. This is the default setting.
• Full—Configures the specified Ethernet port for full-duplex operation, which allows data to travel in
both directions at the same time.
• Half—Configures the specified Ethernet port for half-duplex operation. A half-duplex setting ensures
that data only travels in one direction at any given time.
Port Operation
Mode
Port operation mode:
• N/A—Specifies that this option is not to be used.
• Channel Group—Specifies to map the port to a port channel. You must specify:
• Port Channel Group Number—Specifies the port channel group number.
• HA VLAN—Specifies the high availability (HA) VLAN used for communication between the
members of the FT group.
• Switch Port—Specifies the interface switch port type:
• Access—Specifies that the port interface is an access port. You must specify a VLAN as an access
port in the Access VLAN field.
• Trunk—Specifies that the port interface is a trunk port. When you choose Trunk, you must
complete one or both of the following fields:
- Trunk Native VLAN—Identifies the 802.1Q native VLAN for a trunk.
- Trunk Allowed VLANs—Selectively allocates individual VLANs to a trunk link.
HA LAN High availability (HA) VLAN used for communication between the members of the FT group.
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Configuring Gigabit Ethernet Interfaces on the ACE Appliance
Step 5 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your changes and to return to the Physical
Interface table.
• Click Next or Previous to go to the next or previous physical channel.
• Click Delete to remove this entry from the Physical Interface table and to return to the table.
Step 6 (Optional) To display statistics and status information for a particular Gigabit Ethernet interface, choose
the interface from the GigabitEthernet Interfaces table, and click Details.
The show interface gigabitEthernet CLI command output appears. See the “Displaying Gigabit
Ethernet Interface Statistics and Status Information” section on page 12-35 for details.
Related Topics
• Configuring Virtual Context VLAN Interfaces, page 12-6
• Configuring Virtual Context BVI Interfaces, page 12-19
• Configuring Port-Channel Interfaces for the ACE Appliance, page 12-35
Carrier Delay Configurable delay at the physical port level to address any issues with transition time, based on the variety
of peers. Valid values are from 0 to 120 seconds. The default is 0 (no carrier delay).
Note If you connect an ACE to a Catalyst 6500 series switch, your configuration on the switch may
include the Spanning-Tree Protocol (STP). However, the ACE does not support STP. In this case,
you may find that the Layer 2 convergence time is much longer than the physical port up time. For
example, the physical port would normally be up within 3 seconds, but STP moving to the forward
state may need approximately 30 seconds. During this transitional time, although the ACE declares
the port to be up, the traffic does not pass. In this case, you should specify a carrier delay.
QoS Trust COS Quality of Service (QoS) for the physical Ethernet port. By default, QoS is disabled for each physical
Ethernet port on the ACE.
QoS for a configured physical Ethernet port is based on VLAN Class of Service (CoS) bits (priority bits
that segment the traffic in eight different classes of service). When you enable QoS on a port (a trusted
port), traffic is mapped into different ingress queues based on their VLAN CoS bits. If there are no VLAN
CoS bits, or QoS is not enabled on the port (untrusted port), the traffic is then mapped into the lowest
priority queue.
You can enable QoS for an Ethernet port configured for fault tolerance. In this case, heartbeat packets are
always tagged with CoS bits set to 7 (a weight of High).
Note We recommend that you enable QoS on the FT VLAN port to provide higher priority for FT traffic.
Table 12-5 Physical Interface Attributes (continued)
Field Description
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Configuring Port-Channel Interfaces for the ACE Appliance
Displaying Gigabit Ethernet Interface Statistics and Status Information
You can display statistics and status information for a particular Gigabit Ethernet interface.
Procedure
Step 1 Choose Config > Devices > context > Network > GigabitEthernet Interfaces.
The GigabitEthernet Interfaces table appears.
Step 2 In the GigabitEthernet Interfaces table, choose a Gigabit Ethernet interface from the GigabitEthernet
Interfaces table, and click Details.
The show interface gigabitEthernet CLI command output appears. For details on the displayed output
fields, see the Cisco ACE 4700 Series Appliance Routing and Bridging Configuration Guide.
Step 3 (Optional) Click Update Details to refresh the display.
Step 4 Click Close to return to the GigabitEthernet Interfaces table.
Related Topics
Configuring Gigabit Ethernet Interfaces on the ACE Appliance, page 12-32
Configuring Port-Channel Interfaces for the ACE Appliance
This section discusses how to configure port channel interfaces for the ACE appliance. It consists of the
following topics:
• Why Use Port Channels?, page 12-35
• Configuring a Port-Channel Interface, page 12-36
• Configuring a Catalyst 6500 Series Switch for an ACE Appliance Port-Channel Interface
Connection, page 12-38
• Displaying Port Channel Interface Statistics and Status Information, page 12-40
Why Use Port Channels?
A port channel groups multiple physical ports into a single logical port. This is also called port
aggregation or channel aggregation. A port channel containing multiple physical ports has several
advantages:
• Improves link reliability through physical redundancy.
• Allows greater total throughput to the ACE appliance. For example, four 1-Gigabit Ethernet
interfaces can be aggregated into a single 4-Gigabit channel.
• Allows traffic capacity to be scaled up in the future, without network disruption at that time. A port
channel can do everything a switched port can do, but a switched port cannot do everything a port
channel can do. We recommend that you use a port channel.
• Provides maximum flexibility of network configuration and focuses network configuration on
VLANs rather than physical cabling.
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Configuring Port-Channel Interfaces for the ACE Appliance
The disadvantage of a port channel is that it requires additional configuration on the switch the ACE is
connected to, as well as the ACE itself. There are many methods of port aggregation implemented by
different switches, and not every method works with ACE. For an example of how to configure a Cisco
Catalyst 6500 switch to enable a port channel connection to ACE, see the “Configuring a Catalyst 6500
Series Switch for an ACE Appliance Port-Channel Interface Connection” section on page 12-38.
Using a port channel also requires more detailed knowledge of your network's VLANs, because all
“cabling” to and from the ACE will be handled over VLANs rather than using physical cables.
Nonetheless, use of port channels is highly recommended, especially in a production deployment of
ACE.
Figure 12-1 illustrates a port channel interface.
Figure 12-1 Example of a Port Channel Interface
Related Topics
Configuring a Port-Channel Interface, page 12-36
Displaying Port Channel Interface Statistics and Status Information, page 12-40
Configuring a Port-Channel Interface
Note This feature is for ACE appliances only.
You can group physical ports together on the ACE appliance to form a logical Layer 2 interface called
the port channel. All the ports belonging to the same port channel must be configured with same values;
for example, port parameters, VLAN membership, and trunk configuration. Only one port channel in a
channel group is allowed, and a physical port can belong to a single port-channel interface only.
Step 1 Choose Config > Devices > context > Network > Port Channel Interfaces.
The Port Channel Interface table appears.
Step 2 In the Port Channel Interface table, click Poll Now to instruct ANM to poll the devices and display the
current values, and click OK when prompted to poll the devices for data.
Step 3 Click Add to add a port channel interface, or choose an existing port channel interface and click Edit to
modify it.
247843
Switch ACE Appliance
Port Channel
VLANs Ethernet
Ports
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Configuring Port-Channel Interfaces for the ACE Appliance
Note If you click Edit, not all of the fields can be modified.
Step 4 Enter the port channel interface attributes (see Table 12-6).
Step 5 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your changes and to return to the Port Channel
Interface table.
• Click Next to deploy your entries and to add another port-channel interface.
Table 12-6 Port Channel Interface Attributes
Field Description
Interface Number Channel number for the port-channel interface, which can be from 1 to 255.
Description Brief description for this interface.
Fault Tolerant
VLAN
Fault tolerant (FT) VLAN used for communication between the members of the FT group.
Admin Status Administrative state of the interface: Up or Down.
Load Balancing
Method
Load balancing method:
• Dst-IP—Loads distribution on the destination IP address.
• Dst-MAC—Loads distribution on the destination MAC address.
• Dst-Port—Loads distribution on the destination TCP or UDP port.
• Src-Dst-IP—Loads distribution on the source or destination IP address.
• Src-Dst-MAC—Loads distribution on the source or destination MAC address.
• Src-Dst-Port—Loads distribution on the source or destination port.
• Src-IP—Loads distribution on the source IP address.
• Src-MAC—Loads distribution on the source MAC address.
• Src-Port—Loads distribution on the TCP or UDP source port.
Switch Port Type Interface switchport type:
• N/A—Indicates that the switchport type is not specified.
• Access—Specifies that the port interface is an access port. You must specify a VLAN as an access
port in the Access VLAN field.
• Trunk—Specifies that the port interface is a trunk port. When you choose Trunk, you must
complete the following fields:
– Trunk Native VLAN—Identifies the 802.1Q native VLAN for a trunk.
– Trunk Allowed VLANs—Selectively allocate individual VLANs to a trunk link.
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Configuring Port-Channel Interfaces for the ACE Appliance
Step 6 (Optional) To display statistics and status information for a particular port-channel interface, choose the
interface from the Port Channel Interfaces table, and click Details.
The show interface port-channel CLI command output appears. See the “Displaying Port Channel
Interface Statistics and Status Information” section on page 12-40 for details.
Related Topics
• Configuring Port-Channel Interfaces for the ACE Appliance, page 12-35
• Configuring Port-Channel Interfaces for the ACE Appliance, page 12-35
• Displaying Port Channel Interface Statistics and Status Information, page 12-40
• Configuring Virtual Context VLAN Interfaces, page 12-6
Configuring a Catalyst 6500 Series Switch for an ACE Appliance Port-Channel
Interface Connection
This section provides information for you to configure a port-channel interface on a network device such
as the Catalyst 6500 Series switch. After you configure the port channels for the ACE appliance through
ANM and you physically connect the Gigabit Ethernet physical interfaces on the ACE appliance to the
Catalyst 6500 Series switch ports, configure the port channels on the switch. The information outlined
in this topic is intended as an example of configuring port channels on a switch. You can adapt this
information for whatever switch the ACE appliance is connected to in your network.
For specific details on configuring the Catalyst 6500 Series switch, see the documentation set on
www.Cisco.com.
This section includes the following topics:
• Creating the Port Channel Interface on the Catalyst 6500
• Adding Interfaces to the Port Channel
Creating the Port Channel Interface on the Catalyst 6500
This section contains and example in which a Catalyst 6500 Series switch is configured with a port
channel using an 802.1q trunk that allows the associated VLANs. The native VLAN of the trunk is
VLAN 10.
Note Default VLAN 1 should not be used for the native VLAN because this VLAN is used internally on the
ACE appliance.
Port-channel load balancing is used to distribute the traffic load across each of the links in the port
channel to ensure efficient utilization of each link. Port-channel load balancing on the Catalyst 6500
Series switch can use MAC addresses or IP addresses, Layer 4 port numbers, source addresses,
destination addresses, or both source and destination addresses. By default, the ACE appliance uses
Src-Dst-MAC to make a load balancing decision (see Table 12-6). We recommend that you use the
source and destination Layer 4 port for the load-balancing decision.
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Configuring Port-Channel Interfaces for the ACE Appliance
The following example illustrates the CLI commands used to configure a port channel interface for the
Catalyst 6500 Series switch:
Switch(config)# port-channel load-balance src-dst-port
Switch(config)# interface port-channel 1
Switch(config-if)# description For Connection with ACE Appliance
Switch(config-if)# switchport
Switch(config-if)# switchport mode trunk
Switch(config-if)# switchport trunk encapsulation dot1q
Switch(config-if)# switchport trunk native vlan 10
Switch(config-if)# switchport trunk allowed vlan 10,20,30,31, 40,50
Switch(config-if)# switchport nonegotiate
Switch(config-if)# mls qos trust cos
After you configure the port channel on the Catalyst 6500 Series switch, you can then add it to the
configuration of the four interfaces as described in the “Adding Interfaces to the Port Channel” section
on page 12-39.
Note The ACE appliance does not support Port Aggregation Protocol (PAgP) or Link Aggregate Control
Protocol (LACP) so the port-channel interface is configured using mode on.
Adding Interfaces to the Port Channel
The following example illustrates the CLI commands used to configure the four switch ports 3/9 through
3/12 as members of the port channel on the Catalyst 6500 Series switch:
Switch(config-if)# int range Gig 3/9 - 12
Switch(config-if-range)# channel-group 1 mode on
Switch(config-if-range)# speed 1000
Switch(config-if-range)# spanning-tree portfast trunk
Switch(config-if-range)# no shut
On the ACE appliance, you can configure the Ethernet port speed for a setting of 10, 100, or 1000 Mbps
by configuring the Speed field for a Gigabit Ethernet physical interface attributes (see Table 12-5). The
default for the ACE appliance is the auto-negotiate interface speed. We recommend that you configure
the speed to 1000 on both the Catalyst 6500 Series switch and the ACE appliance to avoid relying on
auto negotiation of the interface speed. A speed setting of 1000 helps to avoid the possibility of the
interface operating below the expected Gigabit speed and ensures that the port-channel interface reaches
the maximum 4 Gbps throughput.
The ACE appliance does not implement Spanning-Tree protocol and does not take part in Spanning-Tree
root bridge election process. PortFast is configured on the Catalyst 6500 Series switch to reduce the time
required for spanning tree to allow traffic on the port connected to the ACE interface by immediately
moving to the forwarding state, bypassing the block, listening, and learning states. The average time for
switch port moving into a forward state is approximately 30 seconds. Using PortFast reduces this time
to approximately 5 seconds.
Note In virtual partitions operating in bridge mode, the ACE offers an option to bridge Spanning-Tree BPDUs
between two VLANs to prevent the possibility of a loop. Such a loop may occur when two partitions
actively forward traffic. This should not happen during normal operation; however, the option to bridge
BPDUs provides a safeguard against this condition. Upon detecting BPDUs, the switch connected to the
ACE appliance immediately blocks the port/VLAN from which the loop originated from. We
recommend that you configure an ethertype ACL that includes the BPDU protocol and apply the ACL
to Layer 2 interfaces in bridge mode.
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Configuring Port-Channel Interfaces for the ACE Appliance
Displaying Port Channel Interface Statistics and Status Information
You can display statistics and status information for a particular port-channel interface.
Procedure
Step 1 Choose Config > Devices > context > Network > Port Channel Interfaces.
The Port Channel Interfaces table appears.
Step 2 In the Port Channel Interfaces table, choose a port-channel interface from the Port Channel Interfaces
table, and click Details.
The show interface port-channel CLI command output appears. For details about the displayed output
fields, see the Cisco ACE 4700 Series Appliance Routing and Bridging Configuration Guide.
Step 3 (Optional) Click Update Details to refresh the display.
Step 4 Click Close to return to the Port Channel Interfaces table.
Related Topics
Configuring Port-Channel Interfaces for the ACE Appliance, page 12-35
CHAPTER
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13
Configuring High Availability
Date: 3/28/12
This chapter describes how to configure high availability for ANM servers and ACE devices.
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Understanding ANM High Availability, page 13-2
• Understanding ACE Redundancy, page 13-6
• Configuring ACE High Availability, page 13-14
• Configuring ACE High Availability Peers, page 13-15
• Clearing ACE High Availability Pairs, page 13-17
• Configuring ACE High Availability Groups, page 13-17
• Displaying High Availability Group Statistics and Status, page 13-21
• Switching Over an ACE High Availability Group, page 13-22
• Deleting ACE High Availability Groups, page 13-23
• ACE High Availability Tracking and Failure Detection Overview, page 13-23
• Tracking ACE VLAN Interfaces for High Availability, page 13-24
• Tracking Hosts for High Availability, page 13-25
• Configuring Host Tracking Probes, page 13-26
• Configuring ACE Peer Host Tracking Probes, page 13-28
• Configuring ACE HSRP Groups, page 13-29
• Synchronizing ACE High Availability Configurations, page 13-30
• Synchronizing SSL Certificate and Key Pairs on Both ACE Peers, page 13-32
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Understanding ANM High Availability
Understanding ANM High Availability
ANM high availability (or fault tolerance) ensures that your network services and applications are
always available. High availability (HA) provides seamless switchover of flows in case an ANM server
becomes unresponsive or a critical host or interface fails. High availability uses two ANM nodes, where
one node is the active node and the other is the standby node.
The ANM high availability features are as follows:
• Automatic determination of node status, whether active or standby, using heartbeat counts.
• Designation of the virtual IP address (VIP), which is associated with the active node.
• Near real-time replication of ANM configuration and events after a failover occurs.
• Automatic inspection of certificate/key presence on HA peer upon SSL certificate or key import.
During normal operation, ANM high availability performs the following actions:
• The two nodes constantly exchange heartbeat packets over both interfaces.
• Database operations that occur on the active node’s database are replicated on the standby node’s
database.
• The monitor function ensures that the necessary processes are running on both the active and
standby node. For example, not all processes necessarily run on the standby node, so after a node
changes from active to standby, ANM high availability function stops certain processes on the
standby node.
When you log into ANM, you log in using a virtual IP address (VIP) that associates with the active node.
The VIP is the only IP address you need to remember. If the current active node fails, the standby node
takes over as the active node and the VIP automatically associates with the node that has just become
active. When a failover occurs and the standby node becomes the active node, all existing web sessions
are lost. In addition, there is a slight delay while the standby node takes over as the active node. After
the switchover is complete and the ANM fully initializes, you can log into ANM using the same VIP. All
ANM functions remain the same.
ANM uses heartbeat counts to determine when a failover should occur. Because both nodes are
constantly sending and receiving heartbeat packets, if heartbeat packets are no longer being received on
a node, its peer node is determined to be dead. If this peer node was the active node, then the standby
node takes over as the active node. The VIP automatically associates with the newly active node, and the
monitoring process starts any necessary processes on the newly active node that were not already
running.
Similarly, if you manually issue a failover to cause the active node to become the standby node, the
heartbeat process disassociates the VIP from the node and tells the monitoring function to stop processes
that are not normally run on the standby node.
Related Topics
• Understanding ANM High Availability Processes, page 13-3
• Configuring ANM High Availability Overview, page 13-3
• CLI Commands for ANM High Availability Processes, page 13-4
• Recovering From an HA Database Replication Failure, page 13-6
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Understanding ANM High Availability
Understanding ANM High Availability Processes
During normal high availability operation, the active node runs all ANM processes required for normal
operation of ANM. The standby node runs only a minimal set of processes. Table 13-1 lists the
processes, their descriptions, and on which node they run.
Note If you are running standalone ANM, all processes show in Table 13-1, with the exception of the heartbeat
process, are constantly running.
Related Topics
• CLI Commands for ANM High Availability Processes, page 13-4
• Understanding ANM High Availability, page 13-2
• Configuring ACE High Availability, page 13-14
• Understanding ACE Redundancy, page 13-6
Configuring ANM High Availability Overview
Configuring ANM high availabitly depends on whether you are using ANM Virtual Appliance or ANM
server.
ANM Vitual Appliance
You can implement redundancy for ANM Virtual Appliance using the high availability feature of the
underlying VMware vSphere platform. VMware HA (High Availability) detects faults in the operation
of managed virtual machines and provides redundancy in case of a failure.
You implement VMware HA for ANM Virtual Appliance in the same manner as for any VM-based
application running on VMware infrastructure; that is, ANM Virtual Appliance does not impose any
special requirements for implementing VMware HA.
For additional information about installing ANM Virtual Appliance, see the Installation Guide for the
Cisco Application Networking Manager 5.2 Virtual Appliance.
Table 13-1 ANM High Availability Processes
Process Description
Node on Which Process
Runs
Monit Starts, stops, restarts, and monitors local ANM processes Active and standby
Heartbeat Provides UDP-based heartbeat between nodes, helps
determine active vs. standby states, and associates the VIP
Active and standby
Mysql Provides persistent storage and implements database
replication between active and standby nodes
Active and standby
ANM Java process Active node only
DAL Java process Active node only
Ip-disc Java process Active node only
Licman Java process for license management Active and standby
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Understanding ANM High Availability
ANM Server
ANM high availability consists of two nodes, which both run the ANM software. Each node must have
at least two network interfaces as follows:
• A primary interface, normally used to access the node.
• A heartbeat interface, which is used to provide additional redundancy. The heartbeat interfaces of
the two nodes must be connected via a crossover Ethernet connection.
• The two Ethernet interfaces used on one of the hosts should match the two interfaces used on the
other host, with regard to the subnets they participate in. For example, if HA Node 1 uses eth0 for
the primary interface and eth1 for the heartbeat interface, then HA Node 2 should also use eth0 for
the primary interface and eth1 for the heartbeat interface.
Note ANM does not configure the primary and heartbeat IP addresses of the nodes’ interfaces. You must
manually configure the node’s interfaces.
When you installed ANM, you provided values for high availability parameters, determined the node IDs
of the two nodes designated as Node 1 and Node 2. For additional information about the installation
parameters, see the Installation Guide for Cisco Application Networking Manager 5.2.
Related Topics
• Understanding ANM High Availability, page 13-2
• Configuring ACE High Availability Groups, page 13-17
• Configuring ACE High Availability, page 13-14
CLI Commands for ANM High Availability Processes
You use two commands to view ANM processes:
• Use the /opt/CSCOanm/bin/anm-tool command to start and stop the ANM processes and to view
the status of the ANM processes.
• Use the /opt/CSCOanm/bin/anm-ha command to check high availability configuration or to force
a node to become standby or active.
Table 13-2 lists the sub-commands and their descriptions.
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Related Topics
• Understanding ANM High Availability Processes, page 13-3
Table 13-2 CLI Sub-commands for Processes
Command Sub-command Description
/opt/CSCOanm/bin/anm-tool info-services Indicates the state of all ANM processes. This command does not return
process status if monit is not running.
stop-services Stops all ANM processes, including monit.
Note Monit must be running in order for the info-services command
to provide status information.
Note When ANM is running in HA mode and the standby ANM is just
starting up, the active ANM copies its entire database to the
standby ANM. During the copy process, the active ANM cannot
be stopped or restarted using the anm-tool command. Check the
Admin > ANM Management page for the HA Replication Status
and wait until the status is set to OK before attempting to stop
ANM.
start-services Starts the relevant ANM processes.
restart-services Restarts the relevant ANM processes.
Note When ANM is running in HA mode and the standby ANM is just
starting up, the active ANM copies its entire database to the
standby ANM. During the copy process, the active ANM cannot
be stopped or restarted using the anm-tool command. Check the
Admin > ANM Management page for the HA Replication Status
and wait until the status is set to OK before attempting to restart
ANM.
info Provides additional information (state, whether running or stopped, start
time, and PID) regarding the Java processes. Monit need not be running
for this command to return information.
/opt/CSCOanm/bin/anm-ha check Checks the local node’s high availability configuration. If errors are
returned, HA might not function correctly until you fix the errors.
Note You must run this command on both the active and standby node.
While errors might indicate a problem, they could also simply indicate
a known condition. For example, you receive a warning if the ANM
cannot ping the peer node via either of the specified IP addresses;
however, if the peer is down, the warning can be ignored because this is
a known issue. It is also possible that no error might be returned even
though there is a configuration problem. For example, the configuration
of the two nodes must match; however the check sub-command cannot
validate that the configurations match.
active Forces the local node to become active and the peer node to become the
standby node.
standby Forces the local node to become standby and the peer node to become
the active node.
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Understanding ACE Redundancy
• Understanding ANM High Availability, page 13-2
• Configuring ACE High Availability, page 13-14
• Understanding ACE Redundancy, page 13-6
Recovering From an HA Database Replication Failure
This section provides an overview of the database replication process that occurs between ANM HA
active and standby nodes and how to recover from a replication failure.
When the active ANM is running and the standby ANM is just starting up, the active ANM copies its
entire database to the standby ANM. This process normally takes from a few seconds to a few minutes
depending on the size of the configuration data and monitoring data. During the replication process, the
active ANM database is locked and the active ANM cannot be stopped or restarted using the anm-tool
command nor can it perform a failover.
It is possible for the database replication process to fail if the standby ANM is stopped or powered down,
the connectivity is down, or the active ANM is powered down. The failure of the replication process does
not affect the integrity of the active ANM database. The procedure in this section describes what to do
if you encounter a replication failure.
Procedure
Step 1 Check the standby ANM and make sure that it has stopped.
If the standby ANM is still running, stop it because its database might be incomplete due to the
replication failure.
Step 2 Check the connectivity between the active ANM and standby ANM and make sure that both links are up
and connected.
Step 3 Do one of the following:
• If the active ANM is still running, login and check to see that its configuration is normal.
• If the active ANM has stopped or powered down, restart it now.
Step 4 After the active ANM is running normally, restart the standby ANM.
Caution Do not restart the standby ANM before the active ANM is running and operating normally.
Step 5 From the standby ANM GUI, choose Admin > ANM Management to display the ANM Server window
and make sure that the HA Replication Status is set to OK before performing any daily management
tasks.
Understanding ACE Redundancy
ACE module redundancy (or fault tolerance) uses a maximum of two ACEs in the same Catalyst 6500
switch or in separate switches to ensure that your network remains operational even if one of the modules
becomes unresponsive.
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Understanding ACE Redundancy
ACE appliance redundancy uses a maximum of two ACEs to ensure that your network remains
operational even if one of the ACE appliances becomes unresponsive.
Note Redundancy is supported between ACEs of the same type only. Redundancy is not supported between
an ACE appliance and an ACE module operating as peers. Redundancy must be of the same ACE device
type and software version.
For additional information about ACE redundancy, see either the Cisco Application Control Engine
Module Administration Guide or the Cisco 4700 Series Application Control Engine Appliance
Administration Guide.
This section includes the following topics:
• ACE High Availability Polling, page 13-7
• ACE Redundancy Protocol, page 13-8
• ACE Stateful Failover, page 13-9
• ACE Fault-Tolerant VLAN, page 13-10
• ACE Configuration Synchronization, page 13-11
• ACE Redundancy Configuration Requirements and Restrictions, page 13-12
• ACE High Availability Troubleshooting Guidelines, page 13-12
ACE High Availability Polling
Approximately every two minutes, the ANM issues the show ft group command to the ACE to gather
the redundancy statistics of each virtual context. The state information is displayed in the HA State and
HA Autosync fields when you click Config > Devices > virtual context.
Note To display statistics and status information for a particular high availability group displayed in the High
Availability (HA) Setup window (Config > Devices > admin_context > High Availability (HA) > Setup),
see the “Displaying High Availability Group Statistics and Status” section on page 13-21.
The possible HA states are as follows:
• Active—Local member of the FT group is active and processing flows.
• Standby Cold—Indicates if the FT VLAN is down but the peer ACE is still alive, or the
configuration or application state synchronization failed. When a context is in this state and a
switchover occurs, the transition to the ACTIVE state is stateless.
• Standby Bulk—Local standby context is waiting to receive state information from its active peer
context. The active peer context receives a notification to send a snapshot of the current state
information for all applications to the standby context.
• Standby Hot—Local standby context has all the state information it needs to statefully assume the
active state if a switchover occurs.
• Standby Warm—Allows the configuration and state synchronization process to continue on a
best-effort basis when you upgrade or downgrade the ACE software.
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• Inconclusive—Indicates that ANM was able to determine that the given ACE was configured in HA,
however ANM was able to find more than one ACE module or ACE appliance that appeared to be a
peer. In this case, ANM was unable to conclusively find a unique HA peer for the given ACE module
or ACE appliance. For additional details on addressing this state, see the “ANM Requirements for
ACE High Availability” section on page 5-8 for details.
Inconclusive is not shown in the HA State field but is shown in the HA Peer field. It is possible that
a context HA peer is inconclusive, but its HA State and HA Peer state are still shown normally
because these states are from context polling from the ACE device.
Note When you upgrade or downgrade the ACE from one software version to another, there is a point
in the process when the two ACEs have different software versions and, therefore, a software
incompatibility. When the Standby Warm state appears, this means that the active ACE will
continue to synchronize configuration and state information to the standby even though the
standby may not recognize or understand the software commands or state information. This
standby state allows the standby ACE to come up with best-effort support.
Related Topics
• ACE High Availability Polling, page 13-7
• ACE Redundancy Protocol, page 13-8
ACE Redundancy Protocol
You can configure a maximum of two ACEs of the same type (peers) for redundancy in the same Catalyst
6500 switch or in different chassis for redundancy. Each peer ACE can contain one or more fault-tolerant
(FT) groups. Each FT group consists of two members: one active context and one standby context. An
FT group has a unique group ID that you assign.
Note For the replication process to function properly and successfully replicate the configuration for a user
context when switching from the active context to the standby context, ensure that each user context has
been added to the FT group. All applicable user contexts must be part of an FT group for redundancy to
function properly.
One virtual MAC address (VMAC) is associated with each FT group. The format of the VMAC is:
00-0b-fc-fe-1b-groupID. Because a VMAC does not change upon switchover, the client and server ARP
tables does not require updating. The ACE selects a VMAC from a pool of virtual MACs available to it.
For more information, see the “Configuring Virtual Contexts” section on page 6-8.
Each FT group acts as an independent redundancy instance. When a switchover occurs, the active
member in the FT group becomes the standby member and the original standby member becomes the
active member. A switchover can occur for the following reasons:
• The active member becomes unresponsive.
• A tracked host or interface fails.
• You force a switchover for a high availability group by clicking Switchover in the HA Groups table
(see the “Switching Over an ACE High Availability Group” section on page 13-22).
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Understanding ACE Redundancy
To outside nodes (clients and servers), the active and standby FT group members appear as one node
with respect to their IP addresses and associated VMAC. ACE provides active-active redundancy with
multiple contexts only when there are multiple FT groups configured on each ACE and both devices
contain at least one active group member (context). With a single context, the ACE supports
active-backup redundancy and each group member is an Admin context.
The ACE sends and receives all redundancy-related traffic (protocol packets, configuration data,
heartbeats, and state replication packets) on a dedicated FT VLAN. You cannot use this dedicated VLAN
for normal traffic.
To optimize the transmission of heartbeat packets for multiple FT groups and to minimize network
traffic, the ACE sends and receives heartbeat messages using a separate process. The ACE uses the
heartbeat to probe the peer ACE, rather than probe each context. When an ACE does not receive a
heartbeat from the peer ACE, all the contexts in the standby state become active. The ACE sends
heartbeat packets over UDP. You can set the frequency with which the ACE sends heartbeat packets as
part of the FT peer configuration. For details about configuring the heartbeat, see the “Configuring ACE
High Availability Peers” section on page 13-15.
The election of the active member within each FT group is based on a priority scheme. The member
configured with the higher priority is elected as the active member. If a member with a higher priority is
found after the other member becomes active, the new member becomes active because it has a higher
priority. This behavior is known as preemption and is enabled by default. You can override this default
behavior by disabling preemption. To disable preemption, use the Preempt parameter. Enabling Preempt
causes the member with the higher priority to assert itself and become active. For details about
configuring preemption, see the “Configuring ACE High Availability Groups” section on page 13-17.
For additional information about ACE redundancy, see either the Cisco Application Control Engine
Module Administration Guide or the Cisco 4700 Series Application Control Engine Appliance
Administration Guide.
Related Topics
• Understanding ACE Redundancy, page 13-6
• ACE High Availability Polling, page 13-7
ACE Stateful Failover
The ACE replicates flows on the active FT group member to the standby group member per connection
for each context. The replicated flows contain all the flow-state information necessary for the standby
member to take over the flow if the active member becomes unresponsive. If the active member becomes
unresponsive, the replicated flows on the standby member become active when the standby member
assumes mastership of the context. The active flows on the former active member transition to a standby
state to fully back up the active flows on the new active member.
Note For the replication process to function properly and successfully replicate the configuration for a user
context when switching from the active context to the standby context, ensure that the user context has
been added to the FT group. All applicable user contexts must be part of an FT group for redundancy to
function properly.
Note By default, connection replication is enabled in the ACE.
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Understanding ACE Redundancy
After a switchover occurs, the same connection information is available on the new active member.
Supported end-user applications do not need to reconnect to maintain the same network session.
The state information passed to the standby ACE includes the following data:
• Network Address Translation (NAT) table based on information synchronized with the connection
record
• All Transmission Control Protocol (TCP) and User Datagram Protocol (UDP) connections not
terminated by the ACE
• HTTP connection states (Optional)
• Sticky table
Note In a user context, the ACE allows a switchover only of the FT group that belongs to that context. In the
Admin context, the ACE allows a switchover of all FT groups in all configured contexts in the ACE.
To ensure that bridge learning occurs quickly upon a switchover in a Layer 2 configuration in the case
where a VMAC moves to a new location, the new active member sends a gratuitous ARP on every
interface associated with the active context. Also, when there are two VLANs on the same subnet and
servers need to send packets to clients directly, the servers must know the location of the gateway on the
client-side VLAN. The active member acts as the bridge for the two VLANs. In order to initiate learning
of the new location of the gateway, the new active member sends an ARP request to the gateway on the
client VLAN and bridges the ARP response onto the server VLAN.
For additional information about ACE redundancy, see either the Cisco Application Control Engine
Module Administration Guide or Cisco 4700 Series Application Control Engine Appliance
Administration Guide.
Related Topics
• Understanding ACE Redundancy, page 13-6
ACE Fault-Tolerant VLAN
ACE redundancy uses a dedicated fault-tolerant VLAN between redundant ACEs of the same type to
transmit flow-state information and the redundancy heartbeat. Do not use this dedicated VLAN for
normal network traffic. You must configure this same VLAN on both peers. You also must configure a
different IP address within the same subnet on each ACE for the fault-tolerant VLAN.
The two redundant ACEs constantly communicate over the fault-tolerant VLAN to determine the
operating status of each ACE. The standby member uses the heartbeat packet to monitor the health of
the active member. The active member uses the heartbeat packet to monitor the health of the standby
member.
Communications over the switchover link include the following data:
• Redundancy protocol packets
• State information replication data
• Configuration synchronization information
• Heartbeat packets
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Understanding ACE Redundancy
For multiple contexts, the fault-tolerant VLAN resides in the system configuration data. Each
fault-tolerant VLAN on the ACE has one unique MAC address associated with it. The ACE uses these
ACE MAC addresses as the source or destination MACs for sending or receiving redundancy protocol
state and configuration replication packets.
Note The IP address and the MAC address of the fault-tolerant VLAN do not change at switchover.
For additional information about ACE redundancy, see either the Cisco Application Control Engine
Module Administration Guide or the Cisco 4700 Series Application Control Engine Appliance
Administration Guide.
Related Topics
Understanding ACE Redundancy, page 13-6
ACE Configuration Synchronization
For redundancy to function properly, both members of an fault-tolerant group must have identical
configurations. The ACE automatically replicates the active configuration on the standby member using
a process called configuration synchronization (config sync). Config sync automatically replicates any
changes made to the configuration of the active member to the standby member. After the ACE
synchronizes the redundancy configuration from the active member to the standby peer, it disables
configuration mode on the standby. See the “Configuring ACE High Availability Peers” section on
page 13-15.
Note The Application Networking Manager manages local configurations only.
When ANM detects a pair of ACE peers operating in high availability (HA), ANM allows you to make
configuration changes on either the active or standby ACE. ANM then automatically (and seamlessly)
pushes the configuration to the active ACE and locally replicates the configuration on the standby
imported into ANM. This action is similar to what is performed by the ACE to the peers.
Note Keep in mind that the configuration pushed while the standby ACE has been selected does not mean that
ANM pushed the configuration to the standby ACE. Typically, with auto-sync turned off, configuration
changes are disabled on the standby ACE. In this case, ANM tries to push the configuration to the active
ACE in the HA device pair.
For additional information about ACE redundancy, see either the Cisco Application Control Engine
Module Administration Guide or Cisco 4700 Series Application Control Engine Appliance
Administration Guide.
Related Topics
• Understanding ACE Redundancy, page 13-6
• Synchronizing ACE High Availability Configurations, page 13-30
• Synchronizing SSL Certificate and Key Pairs on Both ACE Peers, page 13-32
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Understanding ACE Redundancy
ACE Redundancy Configuration Requirements and Restrictions
Follow these requirements and restrictions when configuring the ACE redundancy feature.
• In bridged mode (Layer 2), two contexts cannot share the same VLAN.
• To achieve active-active redundancy, a minimum of two contexts and two fault-tolerant groups are
required on each ACE.
• When you configure redundancy, the ACE keeps all interfaces that do not have an IP address in the
Down state. The IP address and the peer IP address that you assign to a VLAN interface should be
in the same subnet, but different IP addresses. For more information about configuring VLAN
interfaces, see the “Configuring Virtual Context VLAN Interfaces” section on page 12-6.
• When importing an ACE HA pair into ANM, follow one of the configuration requirements outlined
below for ANM to uniquely identify the ACE HA pair:
– Use a unique combination of FT interface VLAN and FT IP address/peer IP address for every
ACE HA pair imported into ANM. For HA, it is critical that the combination of FT interface
VLAN and IP address/peer IP address always be unique across every pair of ACE peer devices.
– Define a peer IP address in the management interface, using the management IP address of the
peer ACE (module or appliance). Note that the management IP address and management peer
IP address used for this definition should be the management IP address used to import both
ACE devices into ANM.
For more information about the use of multiple HA pairs imported into ANM, see the “ANM
Requirements for ACE High Availability” section on page 5-8
For additional information about ACE redundancy, see either the Cisco Application Control Engine
Module Administration Guide or the Cisco 4700 Series Application Control Engine Appliance
Administration Guide.
Related Topics
• Understanding ANM High Availability, page 13-2
ACE High Availability Troubleshooting Guidelines
This section provides the following set of guidelines for troubleshooting an ACE high availability (or
redundancy) configuration in ANM:
• If the high availability setup of two ACE devices is successful, the HA State field of the ACE HA
Management table should indicate no errors. If the HA State field does not read Compatible, verify
that both ACE devices are the same type of hardware. ACE modules cannot be synchronized with
ACE appliances.
• If the high availability setup of two ACE devices is successful, the License Compatibility and SRG
Compatibility fields of the show ft peer CLI command output on the ACE (module or appliance)
should indicate no errors. See either the Cisco Application Control Engine Module Administration
Guide or Cisco 4700 Series Application Control Engine Appliance Administration Guide for details
on the show ft peer CLI command.
– If the SRG Compatibility field indicates a problem, this means that the versions of the ACE
software running on the devices are not compatible with each other. One or both of the devices
will need to have an appropriate version of the ACE software installed before they can be
synchronized.
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– If the License Compatibility field indicates a licensing problem, go to the Licenses page of ACE
Hardware Setup (see the “Using ACE Hardware Setup” section on page 3-5) and make sure each
ACE device has a valid license installed. Licenses must be installed on each device separately
because each license is only valid for one hardware device.
For proper HA functionality, the licenses on both ACEs in the pair must be also compatible with
each other. This means both licenses must permit the same bandwidth and the same number of
virtual contexts.
Note If the licenses' bandwidth limits do not match, configuration synchronization may appear to
work (although Admin context synchronization may actually not be functional), and the License
Compatibility field may not show an error. However, failover from the higher bandwidth ACE
to a lower bandwidth ACE could result in loss of traffic.
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Configuring ACE High Availability
Configuring ACE High Availability
The tasks involved with configuring high availability on ACE devices are described in Table 13-3.
Related Topics
• Understanding ACE Redundancy, page 13-6
• Configuring ACE High Availability Peers, page 13-15
• Configuring ACE High Availability Groups, page 13-17
• ACE High Availability Tracking and Failure Detection Overview, page 13-23
• Synchronizing ACE High Availability Configurations, page 13-30
• Synchronizing SSL Certificate and Key Pairs on Both ACE Peers, page 13-32
Table 13-3 High Availability Task Overview
Task Reference
Step 1 Create a fault-tolerant VLAN and identify peer
IP addresses and configure peer devices for
heartbeat count and interval.
Configuring ACE High Availability Peers,
page 13-15
Step 2 Reconcile SSL certificates and keys, create a
fault-tolerant group, assign peer priorities,
associate the group with a context, place the
group in service, and enable automatic
synchronization.
Configuring ACE High Availability Groups,
page 13-17
Step 3 Configure tracking for switchover. ACE High Availability Tracking and Failure
Detection Overview, page 13-23
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Configuring ACE High Availability Peers
Note This functionality is available for only Admin contexts.
Fault-tolerant peers transmit and receive heartbeat packets and state and configuration replication
packets. The standby member uses the heartbeat packet to monitor the health of the active member, while
the active member uses the heartbeat packet to monitor the health of the standby member. When the
heartbeat packets are not received from the active member when expected, switchover occurs and the
standby member assumes all active communications previously on the active member.
Use this procedure to do the following tasks:
• Identify the two members of a high availability pair.
• Assign IP addresses to the peer ACEs.
• Assign a fault-tolerant VLAN to high availability peers and bind a physical gigabit Ethernet
interface to the FT VLAN.
• Configure heartbeat frequency and count on the ACEs in a fault-tolerant VLAN.
Note For ANM to properly manage high availability peers, ensure that the combination of FT interface VLAN
along with IP and peer IP address always be unique across every pair of ACE devices in high availability
when those devices are imported into ANM. For details, see the “ANM Requirements for ACE High
Availability” section on page 5-8.
Assumption
At least one fault-tolerant VLAN has been configured.
Note A fault-tolerant VLAN cannot be used for other network traffic.
Procedure
Step 1 Choose Config > Devices > admin_context > High Availability (HA) > Setup.
The HA Management window appears with two columns; one for the selected ACE and one for a peer
ACE.
Step 2 Click Edit and enter the information for the primary ACE and the peer ACE as described in Table 13-4.
Table 13-4 High Availability Management Configuration Attributes
Field This Device Peer Device
Module Name of the ACE Not applicable.
VLAN Fault-tolerant VLAN to be used for this high availability pair. Valid
entries are from 1 to 4094.
Note This VLAN cannot be used for other network traffic.
Not applicable.
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Configuring ACE High Availability Peers
Step 3 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. Continue with configuring high availability
groups. The HA Management window appears at the top of the content area and the HA Groups table
appears at the bottom. See the “Configuring ACE High Availability Groups” section on page 13-17
to configure a high availability group.
• Click Cancel to exit this procedure without saving your entries and to view the HA Management
window.
Related Topics
• Understanding ANM High Availability, page 13-2
• Configuring ACE High Availability, page 13-14
• Configuring ACE High Availability Groups, page 13-17
• Synchronizing ACE High Availability Configurations, page 13-30
IP Address IP address for the fault-tolerant VLAN in dotted-decimal format, such
as 192.168.11.2.
Enter the IP address of the peer
interface in dotted-decimal
format so that the peer ACE can
communicate on the
fault-tolerant VLAN.
Netmask Subnet mask that is to be used for the fault-tolerant VLAN. Not applicable.
Query VLAN VLAN that the standby ACE is to use to determine whether the active
ACE is down or if there is a connectivity problem with the
fault-tolerant VLAN.
Choose the VLAN that the
standby ACE is to use to
determine whether the active
ACE is down or if there is a
connectivity problem with the
fault-tolerant VLAN.
Heartbeat Count Number of heartbeat intervals that must occur with no heartbeat packet
received by the standby ACE before the standby ACE determines that
the active member is not available. Valid entries are from 10 to 50.
Not applicable.
Heartbeat
Interval
Number of milliseconds that the active ACE is to wait between each
heartbeat it sends to the standby ACE. Valid entries are from 100 to
1000.
Not applicable.
Interface Enabled Interface Enabled check box that enables the high availability interface.
Uncheck the check box to disable the high availability interface.
Not applicable.
Shared VLAN
Host ID
Specific bank of MAC addresses that the ACE uses. Enter a number
from 1 to 16. Be sure to configure different bank numbers for multiple
ACEs.
Not applicable.
Peer Shared
VLAN Host ID
Specific bank of MAC addresses for the same ACE in a redundant
configuration. Valid entries are from 1 to 16. Be sure to configure
different bank numbers for multiple ACEs.
Not applicable.
HA State Read-only field with the current state of high availability on the ACE. Not applicable.
Table 13-4 High Availability Management Configuration Attributes (continued)
Field This Device Peer Device
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Clearing ACE High Availability Pairs
• Synchronizing SSL Certificate and Key Pairs on Both ACE Peers, page 13-32
• Tracking ACE VLAN Interfaces for High Availability, page 13-24
Clearing ACE High Availability Pairs
Note This functionality is available for only Admin contexts.
You can remove a high availability link between two ACEs.
Procedure
Step 1 Choose Config > Devices > admin_context > High Availability (HA) > Setup.
The HA Management window appears.
Step 2 Choose the ACE pair whose high availability configuration that you want to remove, and click Clear.
A message appears asking you to confirm the clearing of the high availability link.
Step 3 Do one of the following:
• Click OK to confirm the removal of this high availability link and to return to the HA Management
window.
• Click Cancel to exit this procedure without removing this high availability link and to return to the
HA Management window.
Related Topics
• Understanding ANM High Availability, page 13-2
• Configuring ACE High Availability Peers, page 13-15
• Editing High Availability Groups, page 13-19
• ACE High Availability Tracking and Failure Detection Overview, page 13-23
• Tracking ACE VLAN Interfaces for High Availability, page 13-24
• Tracking Hosts for High Availability, page 13-25
Configuring ACE High Availability Groups
Note This functionality is available for only Admin contexts.
You can configure a high availability group, or fault-tolerant group, which consists of a maximum of two
contexts: One active context on one ACE and one standby context on the peer ACE. You can create
multiple fault-tolerant groups on each ACE up to a maximum of:
• For the ACE module—251 groups (250 user contexts and 1 Admin context).
• For the ACE appliance—21 groups (20 user contexts and 1 Admin context).
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Configuring ACE High Availability Groups
Note For the replication process to function properly and successfully replicate the configuration for a user
context when switching from the active context to the standby context, ensure that each user context has
been added to the FT group. All applicable user contexts must be part of an FT group for redundancy to
function properly.
Assumption
At least one high availability pair has been configured (see the “Configuring ACE High Availability
Peers” section on page 13-15).
Procedure
Step 1 Choose Config > Devices > admin_context > High Availability (HA) > Setup.
The HA Management window appears at the top of the content area and the HA Groups table appears at
the bottom.
Step 2 In the HA Groups table of the HA Management window, click Add to add a new high availability group.
The table refreshes with the configurable fields.
Step 3 Check the Enabled check box to enable the high availability group.
Uncheck the Enabled check box to disable the high availability group.
Step 4 In the Context field, choose the virtual context to associate with this high availability group.
Step 5 In the Priority (Actual) field, enter the priority that you want to assign to the first device in the group.
Valid entries are from 1 to 255.
A member of a fault-tolerant group becomes the active member through a process based on the priority
assigned. In this process, the group member with the higher priority becomes the active member. When
you set up a fault-tolerant pair, use a higher priority for the group where the active member initially
resides.
Step 6 Check the Preempt check box to specify that the group member with the higher priority is to always
assert itself and become the active member.
Uncheck the Preempt check box to specify that you do not want the group member with the higher
priority to always become the active member.
Step 7 In the Peer Priority (Actual) field, enter the priority that you want to assign to the peer device in the
group.
Valid entries are from 1 to 255.
A member of a fault-tolerant group becomes the active member through a process based on the priority
assigned. In this process, the group member with the higher priority becomes the active member. When
you set up a fault-tolerant pair, use a higher priority for the group where the active member initially
resides.
Step 8 Check the Autosync Run check box to enable automatic synchronization of the running configuration
files.
Uncheck the Autosync Run check box to disable automatic synchronization of the running configuration
files. If you disable automatic synchronization, you need to update the configuration of the standby
context manually. See the “Synchronizing Virtual Context Configurations” section on page 6-105.
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Configuring ACE High Availability Groups
Note If you check Autosync Run for the HA group, you must manually sync the standby context in
order for ANM to allow subsequent configuration changes. Until you have done this, the standby
context will be marked out of sync. See the “Synchronizing Virtual Context Configurations in
High Availability Mode” section on page 13-31.
Step 9 Check the Autosync Startup check box to enable automatic synchronization of the startup configuration
files.
Uncheck the Autosync Run check box to disable automatic synchronization of the startup configuration
files. If you disable automatic synchronization, you need to update the configuration of the standby
context manually. See the “Synchronizing Virtual Context Configurations” section on page 6-105.
Step 10 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The HA Groups table refreshes with the new
high availability group.
• Click Cancel to exit this procedure without saving your entries and to return to the HA Management
window and HA Groups table.
Step 11 (Optional) To display statistics and status information for a particular high availability group, choose the
group from the ACE HA Groups table, and click Details.
The show ft group group_id detail CLI command output appears. See the “Displaying High Availability
Group Statistics and Status” section on page 13-21 for details.
Related Topics
• Configuring ACE High Availability Peers, page 13-15
• Editing High Availability Groups, page 13-19
• Synchronizing Virtual Context Configurations, page 6-105
• Synchronizing SSL Certificate and Key Pairs on Both ACE Peers, page 13-32
• Tracking ACE VLAN Interfaces for High Availability, page 13-24
• Tracking Hosts for High Availability, page 13-25
Editing High Availability Groups
Note This functionality is available for only Admin contexts.
You can modify the attributes of a high availability group.
Note If you need to modify a fault-tolerant group, take the group out of service before making any other
changes (see the “Taking a High Availability Group Out of Service” section on page 13-20). When you
finish making all changes, place the group back into service (see the “Enabling a High Availability
Group” section on page 13-21).
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Configuring ACE High Availability Groups
Procedure
Step 1 Choose Config > Devices > admin_context > High Availability (HA) > Setup.
The HA Management window appears at the top of the content area and the HA Groups table appears at
the bottom.
Step 2 In the HA Groups table, choose the high availability group that you want to modify, and click Edit.
The table refreshes with configurable fields.
Step 3 Modify the fields as desired. For information on these fields, see the “Configuring ACE High
Availability Groups” section on page 13-17.
Note If you leave unchecked Autosync Run for the HA group, you must manually sync the standby
context in order for ANM to allow subsequent configuration changes. Until you have done this,
the standby context will be marked out of sync. See the “Synchronizing Virtual Context
Configurations in High Availability Mode” section on page 13-31.
Step 4 When you finish modifying this group, do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the HA Groups table.
• Click Cancel to exit this procedure without saving your entries and to return to the HA Management
window.
Related Topics
• Configuring ACE High Availability Groups, page 13-17
• Taking a High Availability Group Out of Service, page 13-20
• Enabling a High Availability Group, page 13-21
• Configuring ACE High Availability Peers, page 13-15
• ACE High Availability Tracking and Failure Detection Overview, page 13-23
Taking a High Availability Group Out of Service
Note This functionality is available for only Admin contexts.
You can take a high availability group out of service, which you must do before you can modify it.
Procedure
Step 1 Choose Config > Devices > admin_context > High Availability (HA) > Setup.
The HA Management window appears at the top of the content area and the HA Groups table appears at
the bottom.
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Displaying High Availability Group Statistics and Status
Step 2 In the HA Groups table, choose the high availability group you want to take out of service, and click
Edit.
The table refreshes with configurable fields.
Step 3 Uncheck the Enabled check box.
Step 4 Click Deploy Now to take the high availability group out of service and to return to the HA Groups table.
You can now make the necessary modifications to the high availability group. To put the high availability
group back in service, see the “Enabling a High Availability Group” section on page 13-21.
Related Topics
Enabling a High Availability Group, page 13-21
Enabling a High Availability Group
Note This functionality is available for only Admin contexts.
You can put a high availability group back into service after taking it out of service.
Procedure
Step 1 Choose Config > Devices > admin_context > High Availability (HA) > Setup.
The HA Management window appears at the top of the content area and the HA Groups table appears at
the bottom.
Step 2 In the HA Groups table, choose the high availability group you want to take out of service, and click
Edit.
The table refreshes with configurable fields.
Step 3 Check the Enabled check box.
Step 4 Click Deploy Now to put the high availability group in service and to return to the HA Groups table.
Related Topics
Taking a High Availability Group Out of Service, page 13-20
Displaying High Availability Group Statistics and Status
You can display statistics and status information for a particular high availability group by using the
Details button. ANM accesses the show ft group group_id detail CLI command to display detailed ACE
HA group information.
Procedure
Step 1 Choose Config > Devices > admin_context > High Availability (HA) > Setup.
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Switching Over an ACE High Availability Group
The HA Management window appears at the top of the content area and the HA Groups table appears at
the bottom.
Step 2 Choose an ACE HA group from the ACE HA Groups table and click Details.
The show ft group group_id detail CLI command output appears. For details on the displayed output
fields, see either the Cisco ACE Module Administration Guide or the Cisco ACE 4700 Series Appliance
Administration Guide.
Step 3 Click Update Details to refresh the output for the show ft group group_id detail CLI command.
Step 4 Click Close to return to the VLAN Interfaces table.
Switching Over an ACE High Availability Group
Note This functionality is available for only Admin contexts.
You can force the failover of a high availability group. You may need to force a switchover when you
want to make a particular context the standby (for example, for maintenance or a software upgrade on
the currently active context). If the standby group member can statefully become the active member of
the high availability group, a switchover occurs.
Procedure
Step 1 Choose Config > Devices > admin_context > High Availability (HA) > Setup.
The HA Management window appears at the top of the content area and the HA Groups table appears at
the bottom.
Step 2 In the HA Groups table, choose the group that you want to switch over, and click Switchover.
The standby group member becomes active, while the previously active group member becomes the
standby member.
Note You must manually sync the standby context in order for ANM to allow subsequent
configuration changes. Until you have done this, the standby context will be marked out of sync.
See the “Synchronizing Virtual Context Configurations in High Availability Mode” section on
page 13-31.
Related Topics
• Understanding ANM High Availability, page 13-2
• Configuring ACE High Availability Peers, page 13-15
• Configuring ACE High Availability Groups, page 13-17
• Synchronizing SSL Certificate and Key Pairs on Both ACE Peers, page 13-32
• Tracking ACE VLAN Interfaces for High Availability, page 13-24
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Deleting ACE High Availability Groups
Related Topics
• Understanding ANM High Availability, page 13-2
• Configuring ACE High Availability Peers, page 13-15
• Configuring ACE High Availability Groups, page 13-17
Deleting ACE High Availability Groups
Note This functionality is available for only Admin contexts.
You can remove a high availability group from ANM management.
Procedure
Step 1 Choose Config > Devices > admin_context > High Availability (HA) > Setup.
The HA Management window appears at the top of the content area and the HA Groups table appears at
the bottom.
Step 2 In the HA Groups table, choose the high availability group that you want to remove, and click Delete.
A message appears asking you to confirm the deletion.
Step 3 Do one of the following:
• Click Deploy Now to delete the high availability group and to return to the HA Groups table. The
selected group no longer appears.
• Click Cancel to exit this procedure without deleting the high availability group and to return to the
HA Groups table.
Related Topics
• Configuring ACE High Availability Peers, page 13-15
• Configuring ACE High Availability Groups, page 13-17
• Tracking ACE VLAN Interfaces for High Availability, page 13-24
ACE High Availability Tracking and Failure Detection Overview
ANM supports the tracking and detection of failures to ensure that switchover occurs as soon as the
criteria are met (see Configuring ACE High Availability Peers, page 13-15). You can track and detect
failures on the following:
• Hosts—See Tracking Hosts for High Availability, page 13-25.
• Interfaces—See Tracking ACE VLAN Interfaces for High Availability, page 13-24.
When the active member of a fault-tolerant group becomes unresponsive, the following occurs:
1. The active member’s priority is reduced by 10.
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Tracking ACE VLAN Interfaces for High Availability
2. If the resulting priority value is less than that of the standby member, the active member switches
over and the standby member becomes the new active member. All active flows continue
uninterrupted.
3. When the failed member comes back up, its priority is incremented by 10.
4. If the resulting priority value is greater than that of the currently active member, a switchover occurs
again, returning the flows to the originally active member.
Note In a user context, the ACE allows a switchover only of the fault-tolerant groups belonging to that context.
In an Admin context, the ACE allows a switchover of all fault-tolerant groups on all configured contexts
on the ACE.
Related Topics
• Configuring ACE High Availability Groups, page 13-17
• Tracking ACE VLAN Interfaces for High Availability, page 13-24
• Tracking Hosts for High Availability, page 13-25
Tracking ACE VLAN Interfaces for High Availability
You can configure a tracking and failure detection process for a VLAN interface.
Procedure
Step 1 Choose Config > Devices > admin_context > HA Tracking And Failure Detection > Interfaces.
The Track Interface table appears.
Step 2 Click Add to add a new tracking process to this table, or choose an existing entry and click Edit to
modify it.
The Track Interface configuration window appears.
Step 3 In the Track Object Name field of the Track Interface configuration window, enter a unique identifier for
the tracking process.
Valid entries are unquoted text strings with no spaces.
Step 4 In the Priority field, enter the priority for the interface on the active member.
Valid entries are from 0 to 255 with higher values indicating higher priorities. The values that you enter
here and in the Interface Peer Priority field (see Step 6) reflect the point at which you want switchover
to occur. If the tracked interface goes down, the priority of that fault-tolerant group is decremented by
the value entered in the Priority field. If the priority of the fault-tolerant group on the active member falls
below that of the standby member, a switchover occurs.
Step 5 In the VLAN Interface field, choose the fault-tolerant VLAN that you want the active member to track.
Step 6 In the Interface Peer Priority field, enter the priority for the interface on the standby member.
Valid entries are from 0 to 255 with higher values indicating higher priorities. The values that you enter
here and in the Priority field (See Step 4) reflect the point at which you want switchover to occur. If the
tracked interface goes down, the priority of that fault-tolerant group is decremented by the value entered
in the Interface Peer Priority field. If the priority of the fault-tolerant group on the active member falls
below that of the standby member, a switchover occurs.
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Tracking Hosts for High Availability
Step 7 In the Peer VLAN Interface field, enter the identifier of an existing fault-tolerant VLAN that you want
the standby member to track.
Valid entries are from 1 to 4096.
Step 8 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Track Interface table.
• Click Cancel to exit this procedure without saving your entries and to return to the Track Interface
table.
• Click Next to deploy your entries and to configure the next entry in the Track Interface table.
Related Topics
• Configuring ACE High Availability Peers, page 13-15
• Configuring ACE High Availability Groups, page 13-17
• Tracking Hosts for High Availability, page 13-25
Tracking Hosts for High Availability
You can configure a tracking and failure detection process for a gateway or host.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version A5(1.0)
or later.
Procedure
Step 1 Choose Config > Devices > admin_context > HA Tracking And Failure Detection > Hosts.
The Track Host table appears.
Step 2 In the Track Host table, click Add to add a new tracking process to the table, or choose an existing entry
and click Edit to modify it.
The Track Host configuration window appears.
Step 3 In the Track Object Name field of the Track Host configuration window, enter a unique identifier for the
tracking process.
Valid entries are unquoted text strings with no spaces.
Step 4 In the IP Address Type field, choose either IPv4 or IPv6 for the host address type.
This field appears only for ACE module and ACE appliance software Version A5(1.0) or later, which
supports IPv4 and IPv6.
Step 5 In the Track Host/IP Address field, enter the IPv4 or IPv6 address or hostname of the gateway or host
that you want the active member of the high availability group to track.
Step 6 In the Priority field, enter the priority of the probe sent by the active member.
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Configuring Host Tracking Probes
Valid entries are from 0 to 255. Higher values indicate higher priorities. Assign a priority value based
on the relative importance of the host that the probe is tracking. If the probe goes down, the ACE
decrements the priority of the fault-tolerant group on the active member by the value in the Priority field.
Step 7 In the Peer Host/IP Address field, enter the IPv4 or IPv6 address or hostname of the host that you want
the standby member to track.
Step 8 In the Peer Priority field, enter the priority of the probe sent by the standby member.
Valid entries are from 0 to 255. Higher values indicate higher priorities. Assign a priority value based
on the relative importance of the host that the probe is tracking. If the probe goes down, the ACE
decrements the priority of the fault-tolerant group on the standby member by the value in the Priority
field.
Step 9 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. Continue with configuring track host probes.
See Configuring Host Tracking Probes, page 13-26.
• Click Cancel to exit this procedure without saving your entries and to return to the Track Host table.
• Click Next to deploy your entries and to configure another tracking process.
Related Topics
• Configuring Host Tracking Probes, page 13-26
• Configuring ACE High Availability Peers, page 13-15
• Configuring ACE High Availability Groups, page 13-17
• Tracking ACE VLAN Interfaces for High Availability, page 13-24
Configuring Host Tracking Probes
You can configure probes on the active high availability group member to track the health of the gateway
or host.
Assumptions
This topic assumes the following:
• At least one host tracking process for high availability has been configured (see Tracking Hosts for
High Availability, page 13-25.)
• At least one health monitoring probe has been configured (see Configuring Health Monitoring for
Real Servers, page 8-51).
Procedure
Step 1 Choose Config > Devices > admin_context > HA Tracking And Failure Detection > Hosts.
The Track Host table appears.
Step 2 Choose the tracking process that you want to modify, and click the Peer Track Host Probe tab.
The Peer Track Host Probes table appears.
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Configuring Host Tracking Probes
Step 3 In the Peer Track Host Probes table, click Add to add a peer host tracking probe, or choose an existing
peer host tracking probe and click Edit to modify it.
The Peer Track Host Probes configuration window appears.
Step 4 In the Probe Name field, choose the name of the probe to be used for the peer host tracking process.
Step 5 In the Priority field, enter a priority for the host that you are tracking by the active member.
Valid entries are from 1 to 255 with higher values indicating higher priorities. Assign a priority value
based on the relative importance of the gateway or host that the probes are tracking. If the host goes
down, the ACE decrements the priority of the high availability group on the standby member by the value
in this Priority field.
Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Track Host Probe table. The
table includes the added probe.
• Click Cancel to exit this procedure without saving your entries and to return to the Track Host Probe
table.
• Click Next to deploy your entries and to configure another track host probe.
Related Topics
• Configuring ACE Peer Host Tracking Probes, page 13-28
• Configuring ACE High Availability Peers, page 13-15
• Configuring ACE High Availability Groups, page 13-17
• Tracking ACE VLAN Interfaces for High Availability, page 13-24
Deleting Host Tracking Probes
You can remove a high availability host tracking probe.
Procedure
Step 1 Choose Config > Devices > ACE admin_context > HA Tracking And Failure Detection > Hosts.
The Track Host table appears.
Step 2 In the Track Host table, choose the tracking process you want to modify, and click the Track Host Probe
tab.
The Track Host Probe table appears.
Step 3 In the Track Host table, choose the probe that you want to remove, and click Delete.
The probe is deleted and the Track Host Probe table refreshes without the deleted probe.
Related Topics
• Configuring ACE Peer Host Tracking Probes, page 13-28
• Configuring ACE High Availability Peers, page 13-15
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Configuring ACE Peer Host Tracking Probes
• Configuring ACE High Availability Groups, page 13-17
• Tracking ACE VLAN Interfaces for High Availability, page 13-24
Configuring ACE Peer Host Tracking Probes
You can configure probes on the standby member of a high availability group to track the health of the
gateway or host.
Assumptions
This topic assumes the following:
• At least one host tracking process for high availability has been configured (see Tracking Hosts for
High Availability, page 13-25.)
• At least one health monitoring probe has been configured (see Configuring Health Monitoring for
Real Servers, page 8-51).
Procedure
Step 1 Choose Config > Devices > ACE admin_context > HA Tracking And Failure Detection > Hosts.
The Track Host table appears.
Step 2 In the Track Host table, choose the tracking process that you want to modify, and click the Peer Track
Host Probe tab.
The Peer Track Host Probes table appears.
If the Track Host Probe and Peer Track Host Probes tabs do not appear below the Track Host table, click
Show Tabs below the Track Host table name.
Step 3 In the Peer Track Host Probes table, click Add to add a peer host tracking probe, or choose an existing
peer host tracking probe and click Edit to modify it.
The Peer Track Host Probes configuration window appears.
Step 4 In the Probe Name field of the Peer Track Host Probes configuration window, choose the name of the
probe to be used for the peer host tracking process.
Step 5 In the Priority field, enter a priority for the host you are tracking by the standby member of the high
availability group.
Valid entries are from 0 to 255 with higher values indicating higher priorities. Assign a priority value
based on the relative importance of the gateway or host that the probes are tracking. If the host goes
down, the ACE decrements the priority of the high availability group on the standby member by the value
in this Priority field.
Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Peer Track Host Probes
table. The table includes the added probe.
• Click Cancel to exit this procedure without saving your entries and to return to the Peer Track Host
Probes table.
• Click Next to deploy your entries and to configure another peer track host probe.
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Configuring ACE HSRP Groups
Related Topics
• Configuring Host Tracking Probes, page 13-26
• Configuring ACE High Availability Peers, page 13-15
• Configuring ACE High Availability Groups, page 13-17
• Tracking ACE VLAN Interfaces for High Availability, page 13-24
Deleting Peer Host Tracking Probes
You can remove a high availability peer host tracking probe.
Procedure
Step 1 Choose Config > Devices > ACE admin_context > HA Tracking And Failure Detection > Hosts.
The Track Host table appears.
Step 2 In the Track Host table, choose the tracking process that you want to modify and click the Peer Track
Host Probe tab.
The Peer Track Host Probes table appears.
If the Track Host Probe and Peer Track Host Probes tabs do not appear below the Track Host table, click
Show Tabs below the Track Host table name.
Step 3 In the Peer Track Host Probes table, choose the probe that you want to remove, and click Delete.
The probe is deleted and the Peer Track Host Probes table refreshes without the deleted probe.
Related Topics
• Configuring ACE Peer Host Tracking Probes, page 13-28
• Configuring Host Tracking Probes, page 13-26
• Tracking ACE VLAN Interfaces for High Availability, page 13-24
Configuring ACE HSRP Groups
You can add or edit a Hot Standby Router Protocol (HSRP) group.
Assumptions
This topic assumes the following:
• At least one host tracking process for high availability has been configured (see Tracking Hosts for
High Availability, page 13-25.)
• Before you configure an HSRP tracking and failure detection process on the ACE, you must
configure the HSRP group on the Catalyst 6500 Supervisor.
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Synchronizing ACE High Availability Configurations
Procedure
Step 1 Choose Config > Devices > ACE admin_context > HA Tracking And Failure Detection > HSRP
Groups.
The HSRP Groups table appears.
Step 2 In the HSRP Groups table, click Add to add a new HSRP group, or choose an existing entry and click
Edit to modify it.
The HSRP Group configuration window appears.
Step 3 In the Track Object Name field of the HSRP Group configuration window, enter a unique identifier for
the tracking process.
Valid entries are unquoted text strings with no spaces.
Step 4 In the Priority field, enter the priority of the HSRP group as an from 0 to 255.
The default is 0. Higher values indicate higher priorities. Assign a priority value based on the relative
importance of the HSRP group that you are tracking. If the HSRP group goes down, the ACE decrements
the priority of the FT group on the active member. If the priority of the FT group on the active member
falls below the priority of the FT group on the standby member, a switchover occurs.
Step 5 In the HSRP Group Name, enter a name for the HSRP group.
Step 6 In the HSRP Peer Priority field, enter the priority of the HSRP group as a value from 0 to 255.
The default is 0. Higher values indicate higher priorities. Assign a priority value based on the relative
importance of the HSRP group you are tracking. If the HSRP group goes down, the ACE decrements the
priority of the FT group on the standby member.
Step 7 In the HSRP Group Name of Peer field, enter a name for the HSRP group on the peer ACE.
Step 8 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the HSRP Groups table. The
table includes the added HSRP group.
• Click Cancel to exit this procedure without saving your entries and to return to the HSRP Groups
table.
Synchronizing ACE High Availability Configurations
When two ACE devices are configured as high availability peers, their configurations must be
synchronized at all times so that the standby member can take over for the active member seamlessly.
As they synchronize, however, the configuration on the hot standby ACE can become out of sync with
the ANM-maintained configuration data for that ACE.
Note ANM manages local configurations only.
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Synchronizing ACE High Availability Configurations
Note Although a context might have been configured for syslog notification, changes applied to the standby
ACE configuration can change syslog notification configuration so that you are not notified of the
out-of-sync configurations. As a result, it is important for you to manually synchronize ANM with the
standby ACE.
Synchronizing configuration files for the standby ACE requires the following:
1. Auditing the standby ACE to confirm that its configuration does not agree with the
ANM-maintained configuration data for the ACE. See Synchronizing Virtual Context
Configurations, page 6-105.
2. Uploading the configuration from the standby ACE to the ANM server. See Synchronizing Virtual
Context Configurations, page 6-105.
3. Ensuring that the SSL certificate/keys are imported and identical for the pair. See Synchronizing
SSL Certificate and Key Pairs on Both ACE Peers, page 13-32.
4. For an Admin context, uploading configurations on any newly imported user contexts. If new user
contexts are not updated, they cannot be managed using ANM.
Synchronizing Virtual Context Configurations in High Availability Mode
When configuration changes are made from ANM on any of the ACE devices in a HA pair, ANM
automatically detects the active HA peer and deploys the configuration changes to the active ACE alone.
ANM does not attempt to deploy a configuration to a standby ACE even if you selected the standby ACE
from the ANM device tree. ANM detects the active ACE and will always deploy configuration changes
only to the active ACE. In addition, if ACE HA auto-sync is enabled, after the deployment is successful,
ANM will locally replicate the configuration in the ANM database on the standby as well to ensure that
the ANM configuration is in synchronization with that of the two ACE peers.
In a high availability pair, the two configured virtual contexts synchronize with each other as part of their
ongoing communications. However, their copies do not synchronize in ANM and the configuration on
the standby member may become out-of-sync with the configuration on the ACE.
After the active member of a high availability pair fails and the standby member becomes active, the
newly active member detects any out-of-sync virtual context configurations and reports that status in the
Virtual Contexts table so that you can synchronize the virtual context configurations.
Note If a context is put into an out-of-sync state, this context will be automatically synchronized by the
backend ANM. It is not necessary for you to perform an explicit synchronization to take care of the
out-of-sync state.
For information on synchronizing virtual context configurations, see Synchronizing Virtual Context
Configurations, page 6-105.
Related Topics
• Configuring ACE High Availability Peers, page 13-15
• Configuring ACE High Availability Groups, page 13-17
• Synchronizing Virtual Context Configurations, page 6-105
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Synchronizing SSL Certificate and Key Pairs on Both ACE Peers
Synchronizing SSL Certificate and Key Pairs on Both ACE Peers
You can reconcile the SSL certificates and key pairs. When SSL certificate/key import is attempted on
a peer that is configured in HA, ANM detects the HA state and also imports the same certificate/key into
the other HA peer. In addition, when you are configuring two peers in HA from ANM, a warning
message appears asking you to perform certificate/key reconciliation and offers the appropriate window
enabling you to do this.
Guidelines and Restrictions
The certificate/key reconciliation feature is available from the Admin context only; however, executing
this feature from the Admin context also reconciles the SSL certificates and key pairs on all the virtual
contexts associated with the ACE peers.
Procedure
Step 1 Choose Config > Devices > admin_context > High Availability (HA) > Setup.
The HA Management window appears at the top of the content area and the HA Groups table appears at
the bottom.
Step 2 In the HA Groups table, choose the group that you want to reconcile the SSL certificates and key pairs
on the two HA pairs after a switchover occurs, and click SSL Certificate/Key Reconcile.
The SSL Certificate/Key Reconciliation popup window appears. Information appears in this popup
window for the primary ACE and the peer ACE as described in Table 13-5.
Table 13-5 SSL Certificate/Key Reconciliation Popup Window Attributes
Field Description
This Device IP address for the fault-tolerant VLAN.
Peer Device Fault-tolerant VLAN to be used for this high availability pair. Valid entries are from 1 to 4094.
Note This VLAN cannot be used for other network traffic.
Context Name Unique name for the virtual context
Matched State Feature that indicates a match between the SSL certificates and key pairs on the active ACE and the
standby ACE peer.
Not Matched
State
Feature that indicates that there is not a match between the SSL certificates and key pairs on the active
ACE and the standby ACE peer.
SSL Certificates/Keys On Both HA Peers
File Type Format of the file: PEM, DER, or PKCS12.
Name Name of the file that contains the certificate or key pair.
Exportable Field that indicates whether or not you can export the file from the ACE. Choices are as follows:
• Yes—You can export the file to an FTP, SFTP, or TFP server (see Chapter 11, “Configuring SSL”).
• No—You cannot export the file as it is protected.
Matched Field that indicates that the SSL certificate and key pair is a match on the peer ACE.
Available On Field that identifies the ACE devices that contain the SSL certificate and key pair.
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Step 3 To copy an SSL certificate and key pair to the ACE peer device, choose it from the SSL Certificates/Keys
On Both HA Peers list, and then click Copy To Peer (or click Cancel to close the SSL Certificate/Key
Reconciliation popup window without performing the copy).
Step 4 To delete an SSL certificate and key pair from the ACE HA pair, choose it from the SSL
Certificates/Keys On Both HA Peers list, and click Delete (or click Cancel to close the SSL
Certificate/Key Reconciliation popup window without performing the deletion).
Related Topics
• Understanding ANM High Availability, page 13-2
• Configuring ACE High Availability Peers, page 13-15
• Configuring ACE High Availability Groups, page 13-17
• Synchronizing ACE High Availability Configurations, page 13-30
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Synchronizing SSL Certificate and Key Pairs on Both ACE Peers
CHAPTER
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14
Configuring Traffic Policies
Date: 3/28/12
Cisco Application Networking Manager helps you configure class maps and policy maps to provide a
global level of classification for filtering traffic received by or passing through the ACE.
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Traffic Policy Overview, page 14-1
• Class Map and Policy Map Overview, page 14-2
• Configuring Virtual Context Class Maps, page 14-6
• Setting Match Conditions for Class Maps, page 14-8
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Rules and Actions for Policy Maps, page 14-34
• Configuring Actions Lists, page 14-85
Traffic Policy Overview
Cisco Application Networking Manager helps you configure class maps and policy maps to provide a
global level of classification for filtering traffic received by or passing through the ACE. You create
traffic policies and attach these policies to one or more VLAN interfaces associated with the ACE to
apply feature-specific actions to the matching traffic. The ACE uses the individual traffic policies to
implement functions such as:
• FTP command inspection
• IP normalization and fragment reassembly
• Network Address Translation (NAT)
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Class Map and Policy Map Overview
• Optimization of HTTP traffic
• Protocol deep packet inspection
• Remote access using Secure Shell (SSH) or Telnet
• Secure Socket Layer (SSL) security services between a Web browser (the client) and the HTTP
connection (the server)
• Server load balancing
• TCP termination, normalization, and reuse
Related Topics
• Class Map and Policy Map Overview, page 14-2
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
Class Map and Policy Map Overview
You classify inbound network traffic destined to, or passing through, the ACE based on a series of flow
match criteria specified by a class map. Each class map defines a traffic classification; that is, network
traffic that is of interest to you. A policy map defines a series of actions (functions) that you want applied
to a set of classified inbound traffic.
Class maps enable you to classify network traffic based on the following criteria:
• Layer 3 and Layer 4 traffic flow information—Source or destination IP address, source or
destination port, virtual IP address, or IP protocol
• Layer 7 protocol information—HTTP cookie, HTTP URL, HTTP header, HTTP content, FTP
request commands, RADIUS, RDP, RTSP, Skinny, or SIP
The policies that you can configure depend on the ACE you are configuring. Table 14-1 lists the
available policies and the ACE devices that support them.
Table 14-1 Traffic Policies and ACE Device Support
Policy Map Type Description
ACE Device
ACE
Module
ACE
Appliance
Layer 3/4 Management Traffic (First-Match) Layer 3 and Layer 4 policy map for network
management traffic received by the ACE
X X
Layer 3/4 Network Traffic (First-Match) Layer 3 and Layer 4 policy map for traffic
passing through the ACE
X X
Layer 7 Command Inspection - FTP
(First-Match)
Layer 7 policy map for inspection of FTP
commands
X X
Layer 7 Deep Packet Inspection - HTTP
(All-Match)
Layer 7 policy map for inspection of HTTP
packets
X X
Layer 7 Deep Packet Inspection - SIP
(All-Match)
Layer 7 policy map for inspection of SIP
packets
X X
Layer 7 Deep Packet Inspection - Skinny Layer 7 policy map for inspection of Skinny
Client Control Protocol (SCCP)
X X
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Class Map and Policy Map Overview
The traffic classification process consists of the following three steps:
1. Creating a class map, which comprise a set of match criteria related to Layer 3 and Layer 4 traffic
classifications or Layer 7 protocol classifications.
2. Creating a policy map, which refers to the class maps and identifies a series of actions to perform
based on the traffic match criteria.
3. Activating the policy map and attaching it to a specific VLAN interface or globally to all VLAN
interfaces associated with a context by configuring a virtual context global traffic policy to filter
traffic received by the ACE.
The following overview topics describe the components that define a traffic policy:
• Class Maps, page 14-3
• Policy Maps, page 14-4
• Parameter Maps and Their Use in Layer 3 and Layer 4 Policy Maps, page 14-5
• Applying a Policy Map Globally to All VLAN Interfaces, page 6-35
Class Maps
A class map defines each type of Layer 3 and Layer 4 traffic class and each Layer 7 protocol class. You
create class maps to classify the traffic received and transmitted by the ACE as follows:
• Layer 3 and Layer 4 traffic classes contain match criteria that identify the IP network traffic that can
pass through the ACE or network management traffic that can be received by the ACE.
• Layer 7 protocol-specific classes identify:
– Server load-balancing traffic on generic, HTTP, RADIUS, RTSP, or SIP traffic
– HTTP or SIP traffic for deep packet inspection
– FTP traffic for inspection of commands
Layer 7 HTTP Optimization (First-Match) Layer 7 policy map for optimizing HTTP traffic X
Layer 7 Server Load Balancing (First-Match) Layer 7 policy map for HTTP server load
balancing
X X
Server Load Balancing - Generic (First-Match) Generic Layer 7 policy map for server load
balancing
X X
Server Load Balancing - RADIUS (First-Match) Layer 7 policy map for RADIUS server load
balancing
X X
Server Load Balancing - RDP (First-Match) Layer 7 policy map for RDP server load
balancing
X X
Server Load Balancing - RTSP (First-Match) Layer 7 policy map for RTSP server load
balancing
X X
Server Load Balancing - SIP (First-Match) Layer 7 policy map for SIP server load
balancing
X X
Table 14-1 Traffic Policies and ACE Device Support (continued)
Policy Map Type Description
ACE Device
ACE
Module
ACE
Appliance
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Chapter 14 Configuring Traffic Policies
Class Map and Policy Map Overview
A traffic class contains the following components:
• Class map name
• Class map type
• One or more match conditions that define the match criteria for the class map
• Instructions on how the ACE evaluates match conditions when you specify more than one match
statement in a traffic class (match-any, match-all)
The individual match conditions specify the criteria for classifying Layer 3 and Layer 4 network traffic
as well as the Layer 7 server load balancing and application protocol-specific fields. The ACE evaluates
the packets to determine whether they match the specified criteria. If a statement matches, the ACE
considers that packet to be a member of the class and forwards the packet according to the specifications
set in the traffic policy. Packets that fail to meet any of the matching criteria are classified as members
of the default traffic class if one is specified.
The ACE allows you to configure two Layer 7 load-balancing class maps in a nested traffic class
configuration to create a single traffic class. You can nest Layer 7 class maps to achieve complex logical
expressions. The ACE restricts the nesting of class maps to two levels to prevent you from including one
nested class map under a different class map.
Related Topics
• Class Map and Policy Map Overview, page 14-2
• Policy Maps, page 14-4
• Parameter Maps and Their Use in Layer 3 and Layer 4 Policy Maps, page 14-5
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
Policy Maps
A policy map creates the traffic policy. The purpose of a traffic policy is to implement specific ACE
functions associated with a traffic class. A traffic policy contains the following components:
• Policy map name
• Previously created traffic class map or, optionally, the class-default class map
• One or more of the individual Layer 3 and Layer 4 or Layer 7 policies that specify the actions to be
performed by the ACE
A Layer 7 policy map is always associated within a Layer 3 and Layer 4 policy map to provide an entry
point for traffic classification. Layer 7 policy maps are considered to be child policies and can only be
nested under a Layer 3 and Layer 4 policy map. Only a Layer 3 and Layer 4 policy map can be activated
on a VLAN interface; a Layer 7 policy map cannot be directly applied on an interface. For example, to
associate a Layer 7 load-balancing policy map, you nest the load-balancing policy map by using the
Layer 3 and Layer 4 Policy map action type.
If none of the classifications specified in policy maps match, then the ACE executes the default actions
specified against the class map configured with the Use Class Default option to use a default class map
(if specified). All traffic that fails to meet the other matching criteria in the named class map belongs to
the default traffic class. The Use Class Default feature has an implicit match-any match statement and
is used to match any traffic classification.
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Class Map and Policy Map Overview
The ACE supports flexible class map ordering within a policy map. The ACE executes only the actions
for the first matching traffic classification, so the order of class maps within a policy map is very
important. The policy lookup order is based on the security features of the ACE. The policy lookup order
is implicit, irrespective of the order in which you configure policies on the interface.
The policy lookup order of the ACE is as follows:
1. Access control (permit or deny a packet)
2. Permit or deny management traffic
3. TCP/UDP connection parameters
4. Load balancing based on a virtual IP (VIP)
5. Application protocol inspection
6. Source NAT
7. Destination NAT
The sequence in which the ACE applies the actions for a specific policy is independent of the actions
configured for a class map inside a policy.
Related Topics
• Class Map and Policy Map Overview, page 14-2
• Class Maps, page 14-3
• Parameter Maps and Their Use in Layer 3 and Layer 4 Policy Maps, page 14-5
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Policy Maps, page 14-32
Parameter Maps and Their Use in Layer 3 and Layer 4 Policy Maps
Parameter maps allow you to combine related actions in a Layer 3 and Layer 4 policy map. For example,
an HTTP parameter map provides a means of performing actions on traffic ingressing an ACE interface
based on certain criteria such as HTTP header and cookie settings, server connection reuse, action to be
taken when an HTTP header, cookie, or URL exceeds a configured maximum length, and so on.
The ACE uses policy maps to combine class maps and parameter maps into traffic policies and to
perform certain configured actions on the traffic that matches the specified criteria in the policies.
See Table 10-1 for a list of the available parameter maps and the ACE devices that support them.
Related Topics
• Configuring Parameter Maps, page 10-1
• Class Map and Policy Map Overview, page 14-2
• Class Maps, page 14-3
• Policy Maps, page 14-4
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Configuring Virtual Context Class Maps
Protocol Inspection Overview
Certain applications require special handling of the data portion of a packet as the packets pass through
the ACE. Application protocol inspection helps to verify the protocol behavior and identify unwanted or
malicious traffic passing through the ACE. Based on the specifications of the traffic policy, the ACE
accepts or rejects the packets to ensure the secure use of applications and services.
For information about application protocol inspection as configured and performed by the ACE, see the
related topics.
Related Topics
• Configuring Virtual Context Policy Maps, page 14-32
• Setting Match Conditions for Layer 7 FTP Command Inspection Class Maps, page 14-22
• Setting Policy Map Rules and Actions for Layer 7 HTTP Deep Packet Inspection, page 14-51
• Setting Policy Map Rules and Actions for Layer 7 SIP Deep Packet Inspection, page 14-68
Configuring Virtual Context Class Maps
You can create a class map to classify the traffic received and transmitted by the ACE. For more
information about class maps, see the “Class Maps” section on page 14-3.
Note To delete a class map from a context, the class map must no longer be in use. To delete multiple class
maps, none of the class maps must be in use. If you attempt to delete multiple class maps and one of the
class maps is still in use, none of the class maps are deleted and a message appears stating that one of
the class maps is in use. Remove the class map that is still in use from your selection, then click Delete.
The selected class maps are removed.
Procedure
Step 1 Choose Config > Devices > context > Expert > Class Maps.
The Class Maps table appears.
Step 2 In the Class Maps table, click Add to add a new class map, or choose an existing class map and click
Edit to modify it.
Step 3 (Optional) Enter a class map identifier number.
The Name field contains an automatically incremented number for the class map. You can leave the
number as it is or enter a different, unique number.
Step 4 In the Class Map Type field, choose the type of class map that you are creating.
The types that are available depend on the ACE that you are configuring. Table 14-2 lists the available
class map types and the ACE devices that support them.
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Configuring Virtual Context Class Maps
Step 5 In the Match Type field, choose the method to be used to evaluate multiple match statements when
multiple match conditions exist:
• All—A match exists only if all match conditions are satisfied. If you choose All, you can specify
multiple types of match conditions.
• Any—A match exists if at least one of the match conditions is satisfied. If you choose Any, you can
specify only one type of match condition.
This field does not appear for Layer 7 Command Inspection - FTP class maps.
Step 6 In the Description field, enter a brief description for the class map.
Step 7 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and to configure match conditions for
the class map. See Setting Match Conditions for Class Maps, page 14-8 for more information.
• Click Cancel to exit the procedure without saving your entries and to return to the Class Maps table.
• Click Next to deploy your entries and to configure another class map.
Related Topics
• Information About Virtual Contexts, page 6-2
• Deleting Class Maps, page 14-8
• Setting Match Conditions for Class Maps, page 14-8
• Configuring Virtual Context Policy Maps, page 14-32
Table 14-2 Class Maps and ACE Device Support
Class Map
ACE Devices
ACE
Module
ACE
Appliance
Layer 3/4 Management Traffic X X
Layer 3/4 Network Traffic X X
Layer 7 Command Inspection - FTP X X
Layer 7 Deep Packet Inspection - HTTP X X
Layer 7 Deep Packet Inspection - SIP X X
Layer 7 Server Load Balancing X X
Server Load Balancing - Generic X X
Server Load Balancing - RADIUS X X
Server Load Balancing - RTSP X X
Server Load Balancing - SIP X X
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Setting Match Conditions for Class Maps
Deleting Class Maps
You can delete a class map. To delete a class map from a context, the class map must no longer be in use.
To delete multiple class maps, none of the class maps must be in use.
Assumption
The class map to be deleted is not being used.
Procedure
Step 1 Choose Config > Devices > context > Expert > Class Maps.
The Class Maps table appears.
Step 2 In the Class Maps table, choose the class maps that you want to delete and click Delete.
A confirmation popup window appears, asking you to confirm the deletion.
If you attempt to delete multiple class maps and one of the class maps is still in use, none of the class
maps are deleted and a message appears stating that one of the class map is in use. Remove the class map
that is still in use from your selection, then click Delete. The Class Maps table refreshes and the deleted
class maps no longer appear.
Step 3 Do one of the following:
• Click OK to confirm the deletion.
• Click Cancel to retain the class map and to return to the Class Maps table.
Related Topics
• Class Map and Policy Map Overview, page 14-2
• Configuring Virtual Context Class Maps, page 14-6
Setting Match Conditions for Class Maps
Table 14-3 lists the class maps available for all ACE devices and provides links to topics for setting
match conditions:
Table 14-3 Class Maps Available for All ACE Devices
Class Map Related Topic
Layer 3/Layer 4 management traffic Setting Match Conditions for Layer 3/Layer 4 Management Traffic Class Maps,
page 14-12
Layer 3/Layer 4 network traffic Setting Match Conditions for Layer 3/Layer 4 Network Traffic Class Maps, page 14-9
Layer 7 FTP command inspection Setting Match Conditions for Layer 7 FTP Command Inspection Class Maps,
page 14-22
Layer 7 HTTP deep packet inspection Setting Match Conditions for Layer 7 HTTP Deep Packet Inspection Class Maps,
page 14-17
Layer 7 server load balancing Setting Match Conditions for Layer 7 Server Load Balancing Class Maps, page 14-14
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Setting Match Conditions for Class Maps
Setting Match Conditions for Layer 3/Layer 4 Network Traffic Class Maps
You can match criteria for a Layer 3/Layer 4 network traffic class map on the ACE.
Assumption
You have configured a Layer 3/Layer 4 network traffic class map and want to establish match conditions.
Procedure
Step 1 Choose Config > Devices > context > Expert > Class Maps.
The Class Maps table appears.
Step 2 In the Class Maps table, choose the Layer 3/4 network traffic class map that you want to set match
conditions for.
The Match Condition table appears.
Step 3 In the Match Condition table, click Add to add match criteria, or choose the match condition you want
to modify and click Edit.
The Match Condition configuration window appears.
Step 4 In the Sequence Number field of the Match Condition configuration window, enter a value from 2 to 255.
Step 5 In the Match Condition Type field, choose the type of match condition to use for this class map and
configure any match-specific attributes as described in Table 14-4.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Generic server load balancing Setting Match Conditions for Generic Server Load Balancing Class Maps,
page 14-23
Layer 7 SIP deep packet inspection Setting Match Conditions for Layer 7 SIP Deep Packet Inspection Class Maps,
page 14-30
RADIUS server load balancing Setting Match Conditions for RADIUS Server Load Balancing Class Maps,
page 14-25
RTSP server load balancing Setting Match Conditions for RTSP Server Load Balancing Class Maps, page 14-26
SIP server load balancing Setting Match Conditions for SIP Server Load Balancing Class Maps, page 14-27
Table 14-3 Class Maps Available for All ACE Devices (continued)
Class Map Related Topic
Table 14-4 Layer 3/Layer 4 Network Traffic Class Map Match Conditions
Match Condition Description
Access List Access list that is the match type for this match condition.
In the Extended ACL field, choose the ACL to use as the match condition.
Any Any Layer 3 or Layer 4 IPv4 traffic passing through the ACE meets the match condition.
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Anyv6 Any Layer 3 or Layer 4 IPv6 traffic passing through the ACE meets the match condition. This
option requires ACE module and ACE appliance software Version A5(1.0) or later, which supports
IPv4 and IPv6.
Destination Address Destination address that is the match type for this match condition.
Do the following:
a. In the IP Address Type field, choose either IPv4 or IPv6. This field appears only for ACE
module and ACE appliance software Version A5(1.0) or later, which supports IPv4 and IPv6.
b. In the Destination Address field, enter the destination IP address for this match condition in
the format based on the address type (IPv4 or IPv6).
c. Depending on the destination IP address type that you chose, do one of the following:
– For IPv4, in the Destination Netmask field, select the subnet mask of the IP address.
– For IPv6, in the Destination Prefix-length field, enter the prefix length for the address.
Port UDP or TCP port or range of ports for IPv4 traffic that is the match type for this match condition.
Do the following:
a. In the Port Protocol field, choose TCP or UDP as the protocol to match.
b. In the Port Operator field, choose the match criteria for the port.
Choices are as follows:
– Any—Any port using the selected protocol meets the match condition.
– Equal To—Specific port using the protocol meets the match condition.
– In the Port Number field, enter the port to be matched. Valid entries are integers from 0
to 65535. A value of 0 indicates that the ACE is to include all ports.
– Range—Port must be one of a range of ports to meet the match condition. Do the
following:
1. In the Lower Port Number field, enter the first port number in the port range for the
match condition.
2. In the Upper Port Number field, enter the last port number in the port range for the
match condition.
Valid entries are integers from 0 to 65535. A value of 0 indicates that the ACE is to include
all ports.
Portv6 UDP or TCP port or range of ports for IPv6 traffic that is the match type for this match condition.
This option requires ACE module and ACE appliance software Version A5(1.0) or later, which
supports IPv4 and IPv6.
For port configuration information, see Port.
Table 14-4 Layer 3/Layer 4 Network Traffic Class Map Match Conditions (continued)
Match Condition Description
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Source Address Source IP address that is the match type for this match condition.
Do the following:
a. In the IP Address Type field, choose either IPv4 or IPv6. This field appears only for ACE
module and ACE appliance software Version A5(1.0) or later, which supports IPv4 and IPv6.
b. In the Source IP Address field, enter the source IP address for this match condition in the
format based on the address type (IPv4 or IPv6).
c. Depending on the source IP address type that you chose, do one of the following:
– For IPv4, in the Source Netmask field, select the subnet mask of the IP address.
– For IPv6, in the Source Prefix-length field, enter the prefix length for the address.
Virtual Address Virtual IP address that is the match type for this match condition.
Do the following:
a. In the IP Address Type field, choose either IPv4 or IPv6. This field appears only for ACE
module and ACE appliance software Version A5(1.0) or later, which supports IPv4 and IPv6.
a. In the Virtual IP Address field, enter the virtual IP address for this match condition in the
format based on the address type (IPv4 or IPv6).
b. Depending on the IP address type that you chose, do one of the following:
– For IPv4, in the Virtual IP Netmask field, choose the subnet mask for the virtual IP
address.
– For IPv6, in the Virtual Prefix-length field, enter the prefix length for the address.
c. In the Virtual Address Protocol field, choose the protocol to be used for this match condition.
For a list of protocols and their respective numbers, see Table 6-20.
Note Depending on the protocol that you choose, such as TCP or UDP, additional fields
appear. If they appear, enter the information described in the following steps.
d. In the Port Operator field, choose the match criteria for the port:
– Any—Any port using the selected protocol meets the match condition.
– Equal To—A specific port using the protocol meets the match condition.
– In the Port Number field, enter the port to be matched. Valid entries are from 0 to 65535.
A value of 0 indicates that the ACE is to include all ports.
– Range—The port must be one of a range of ports to meet the match condition. Valid
entries are from 0 to 65535. A value of 0 indicates that the ACE is to include all ports.
Do the following:
1. In the Lower Port Number field, enter the first port number in the port range for the
match condition.
2. In the Upper Port Number field, enter the last port number in the port range for the
match condition.
Table 14-4 Layer 3/Layer 4 Network Traffic Class Map Match Conditions (continued)
Match Condition Description
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Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Match Condition table.
Note If you click Deploy Now, the ACE drops the traffic and then restarts it, even if you have not
made changes. If you have not altered existing match conditions, click Cancel instead of
Deploy Now to ensure uninterrupted traffic.
• Click Cancel to exit the procedure without saving your entries and to return to the Match Condition
table.
• Click Next to deploy your entries and to configure additional match conditions.
Related Topics
• Configuring Traffic Policies, page 14-1
• Setting Match Conditions for Layer 3/Layer 4 Management Traffic Class Maps, page 14-12
• Setting Match Conditions for Layer 7 Server Load Balancing Class Maps, page 14-14
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Virtual Context Class Maps, page 14-6
Setting Match Conditions for Layer 3/Layer 4 Management Traffic Class Maps
You can identify the network management protocols that can be received by the ACE.
Assumption
You have configured a Layer 3/Layer 4 network management class map and want to establish match
conditions.
Procedure
Step 1 Choose Config > Devices > context > Expert > Class Maps.
The Class Maps table appears.
Step 2 In the Class Maps table, choose the Layer 3/Layer 4 management class map that you want to set match
conditions for.
The Match Condition table appears.
Step 3 In the Match Condition table, click Add to add match criteria, or choose the match conditions that you
want to modify and click Edit.
The Match Condition configuration window appears.
Step 4 Enter the match conditions (see Table 14-5).
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
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Step 5 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Match Condition table.
Table 14-5 Layer 3/Layer 4 Management Traffic Class Map Match Conditions
Field Description
Sequence Number Number from 2 to 255 as the line number. The number entered here does not indicate a priority or
sequence for the match conditions.
Match Condition Type Confirm that Management is selected.
Note To change the type of match condition, you must delete the class map and add it again with
the correct match type.
Management Protocol
Type
Field that identifies the network management protocols that can be received by the ACE. Choose
the allowed protocol for this match condition as follows:
• HTTP—Specifies the Hypertext Transfer Protocol (HTTP).
• HTTPS—Specifies the secure (SSL) Hypertext Transfer Protocol (HTTP) for connectivity
with the ANM GUI on the ACE.
• ICMP—Specifies the Internet Control Message Protocol (ICMP), commonly referred to as
ping.
• ICMPv6—Specifies the Internet Control Message Protocol version 6 (ICMPv6).
• SNMP—Specifies the Simple Network Management Protocol (SNMP).
• SSH—Specifies a Secure Shell (SSH) connection to the ACE.
• TELNET—Specifies a Telnet connection to the ACE.
• KAL-AP-UDP—Specifies the KeepAlive Appliance Protocol over UDP.
• XML-HTTPS—Specifies HTTPS as the transfer protocol for sending and receiving XML
documents between the ACE and a Network Management System (NMS). Communication is
performed using port 10443. This option is available for ACE appliances only.
Traffic Type Type of traffic:
• Any—Any client source IP address meets the match condition.
• Source Address—A specific source IP address is part of the match condition.
Source Address Field that appears if Source Address is selected for Traffic Type.
Depending on the management protocol type that you chose, do one of the following
• For ICMP, enter the source IP address of the client in dotted-decimal notation, such as
192.168.11.1.
• For ICMPv6, enter a complete IPv6 address.
Source Netmask Field that appears if Source Address is selected for Traffic Type. Choose the subnet mask for the
source IP address.
Source Prefix-length This field appears if ICMPv6 is selected for the Management Protocol Type and Source Address is
selected for Traffic Type.
Enter the prefix length for the source IPv6 address.
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Note If you click Deploy Now, the ACE drops the traffic and then restarts it, even if you have not
made changes. If you have not altered existing match conditions, click Cancel instead of
Deploy Now to ensure uninterrupted traffic.
• Click Cancel to exit the procedure without saving your entries and to return to the Match Condition
table.
• Click Next to deploy your entries and to configure additional match conditions.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Real Servers, page 8-5
• Configuring Server Farms, page 8-30
• Configuring Sticky Groups, page 9-7
Setting Match Conditions for Layer 7 Server Load Balancing Class Maps
You can set match conditions for Layer 7 server load balancing class maps.
Assumption
You have configured a load-balancing class map and want to establish the match conditions.
Procedure
Step 1 Choose Config > Devices > context > Expert > Class Maps.
The Class Maps table appears.
Step 2 In the Class Maps table, choose the Layer 7 server load balancing class map you want to set match
conditions for.
The Match Condition table appears.
Step 3 In the Match Condition table, click Add to add match criteria, or choose the match condition that you
want to modify and click Edit.
The Match Condition configuration window appears.
Step 4 In the Sequence Number field, enter a value from 2 to 255 as the line number.
The number entered here does not indicate a priority or sequence for the match conditions.
Step 5 In the Match Condition Type field, choose the type of match to use and configure condition-specific
attributes as described in Table 14-6.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
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Table 14-6 Layer 7 Server Load Balancing Class Map Match Conditions
Match Condition Description
Class Map Class map that is to be used to establish a match condition.
In the Class Map field, choose the class map to apply to this match condition.
HTTP Content Specific content contained within the HTTP entity-body that is used to establish a match condition.
Do the following:
a. In the Content Expression field, enter the content that is to be matched. Valid entries are
alphanumeric strings from 1 to 255 characters.
b. In the Content Offset (Bytes) field, enter the number of bytes to be ignored starting with the
first byte of the Message body, after the empty line (CR,LF,CR,LF) between the headers and
the body of the message. Valid entries are from 1 to 255.
HTTP Cookie HTTP cookie that is to be used to establish a match condition.
Do the following:
a. In the Cookie Name field, enter a unique cookie name. Valid entries are unquoted text strings
with no spaces and a maximum of 64 alphanumeric characters.
b. In the Cookie Value field, enter a unique cookie value expression. Valid entries are unquoted
text strings with no spaces and a maximum of 255 alphanumeric characters.
c. Check the Secondary Cookie Matching check box to instruct the ACE to use both the cookie
name and the cookie value to satisfy this match condition. Uncheck this check box to indicate
that the ACE is to use either the cookie name or the cookie value to satisfy this match
condition.
HTTP Header HTTP header that is to be used to establish a match condition.
Do the following:
a. In the Header Name field, specify the header to match in one of the following ways:
– To specify an HTTP header that is not one of the standard HTTP headers, click the first
radio button, and enter the HTTP header name in the Header Name field. Valid entries are
unquoted text strings with no spaces and a maximum of 64 characters.
– To specify a standard HTTP header, click the second radio button, and choose an HTTP
header from the list.
b. In the Header Value (Bytes) field, enter the header value expression string to compare against
the value in the specified field in the HTTP header. Valid entries are text strings with a
maximum of 255 alphanumeric characters. The ACE supports regular expressions for
matching. If the string includes spaces, enclose the string in quotes. See Table 14-33 for a list
of the supported characters that you can use in regular expressions.
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Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Match Condition table.
Note If you click Deploy Now, the ACE drops the traffic and then restarts it, even if you have not
made changes. If you have not altered existing match conditions, click Cancel instead of
Deploy Now to ensure uninterrupted traffic.
• Click Cancel to exit the procedure without saving your entries and to return to the Match Condition
table.
• Click Next to deploy your entries and to configure additional match conditions.
Related Topics
• Information About Virtual Contexts, page 6-2
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
HTTP URL Portion of an HTTP URL that is to be used to establish a match condition.
Do the following:
a. In the URL Expression field, enter a URL or a portion of a URL to match. Valid entries are
URL strings from 1 to 255 alphanumeric characters and include only the portion of the URL
following www.hostname.domain. For example, in the URL
www.anydomain.com/latest/whatsnew.html, include only /latest/whatsnew.html.
b. In the Method Expression field, enter the HTTP method to match. Valid entries are method
names entered as unquoted text strings with no spaces and a maximum of 15 alphanumeric
characters. You can enter either one of the standard HTTP 1.1 method names (OPTIONS,
GET, HEAD, POST, PUT, DELETE, TRACE, or CONNECT) or a text string that must be
matched exactly (for example, CORVETTE).
Source Address Source IP address that is to be used to establish a match condition.
Do the following:
a. In the IP Address Type field, choose either IPv4 or IPv6. This field appears only for ACE
module and ACE appliance software Version A5(1.0) or later, which supports IPv4 and IPv6.
b. In the Source Address field, enter the source IP address for this match condition in the format
based on the address type (IPv4 or IPv6).
c. Depending on the IP address type that you chose, do one of the following:
– For IPv4, in the Source Netmask field, choose the subnet mask of the source IP address.
– For IPv6, in the Source Prefix-length field, enter the prefix length for the address.
Table 14-6 Layer 7 Server Load Balancing Class Map Match Conditions (continued)
Match Condition Description
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Setting Match Conditions for Layer 7 HTTP Deep Packet Inspection Class Maps
You can configure a Layer 7 class map for deep packet inspection of HTTP traffic by the ACE. When
these features are configured, the ACE performs a stateful deep packet inspection of the HTTP protocol
and permits or restricts traffic based on the actions in the defined policy maps. You can configure the
following security features as part of HTTP deep packet inspection to be performed by the ACE:
• Regular expression matching on name in an HTTP header, URL name, or content expressions in an
HTTP entity body
• Content, URL, and HTTP header length checks
• MIME-type message inspection
• Transfer-encoding methods
• Content type verification and filtering
• Port 80 misuse by tunneling protocols
• RFC compliance monitoring and RFC method filtering
Use this procedure to configure a Layer 7 class map for deep packet inspection of HTTP traffic.
Assumption
You have configured a Layer 7 HTTP deep packet inspection class map and want to establish match
conditions.
Procedure
Step 1 Choose Config > Devices > context > Expert > Class Maps.
The Class Maps table appears.
Step 2 In the Class Maps table, choose the Layer 7 HTTP deep packet inspection class map that you want to set
match conditions for.
The Match Condition table appears.
Step 3 In the Match Condition table, click Add to add match criteria, or choose the match condition that you
want to modify and click Edit.
The Match Condition configuration window appears.
Step 4 In the Sequence Number field of the Match Condition configuration window, enter a value from 2 to 255
as the line number.
The number entered here does not indicate a priority or sequence for the match conditions.
Step 5 In the Match Condition Type field, choose the method that match decisions are to be made and configure
condition-specific attributes as described in Table 14-7.
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Table 14-7 Layer 7 HTTP Deep Packet Inspection Class Map Match Conditions
Match Condition Description
Content Specific content contained within the HTTP entity-body that is to be used for protocol inspection
decisions.
Do the following:
a. In the Content Expression field, enter the content that is to be matched. Valid entries are
alphanumeric strings from 1 to 255 characters.
b. In the Content Offset (Bytes) field, enter the number of bytes to be ignored starting with the first
byte of the Message body, after the empty line (CR,LF,CR,LF) between the headers and the body
of the message. Valid entries are from 1 to 255.
Content Length Content parse length in an HTTP message that is to be used for protocol inspection decisions.
Do the following:
a. In the Content Length Operator field, choose the operand to use to compare content length as
follows:
– Equal To—The content length must equal the number in the Content Length Value (Bytes)
field.
– Greater Than—The content length must be greater than the number in the Content Length
Value (Bytes) field.
– Less Than—The content length must be less than the number in the Content Length Value
(Bytes) field.
– Range—The content length must be within the range specified in the Content Length Lower
Value (Bytes) field and the Content Length Higher Value (Bytes) field.
b. Enter values to apply for content length comparison as follows:
– If you chose Equal To, Greater Than, or Less Than in the Content Length Operator field, the
Content Length Value (Bytes) field appears. In the Content Length Value (Bytes) field, enter
the number of bytes for comparison. Valid entries are from 0 to 4294967295.
– If you chose Range in the Content Length Operator field, the Content Length Lower Value
(Bytes) and the Content Length Higher Value (Bytes) fields appear. Do the following:
1. In the Content Length Lower Value (Bytes) field, enter the lowest number of bytes to be
used for this match condition. Valid entries are from 0 to 4294967295. The number in this field
must be less than the number entered in the Content Length Higher Value (Bytes) field.
2. In the Content Length Higher Value (Bytes) field, enter the highest number of bytes to be
used for this match condition. Valid entries are from 0 to 4294967295. The number in this field
must be greater than the number entered in the Content Length Lower Value (Bytes) field.
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Header Name and value in an HTTP header that are to be used for protocol inspection decisions.
Do the following:
a. In the Header field, choose one of the predefined HTTP headers to be matched, or choose HTTP
Header to specify a different HTTP header.
b. If you chose HTTP Header, in the Header Name field, enter the name of the HTTP header to match.
Valid entries are unquoted text strings with no spaces and a maximum of 64 alphanumeric
characters.
c. In the Header Value (Bytes) field, enter the header value expression string to compare against the
value in the specified field in the HTTP header. Valid entries are text strings with a maximum of
255 alphanumeric characters. The ACE supports regular expressions for matching. If the string
includes spaces, enclose the string with quotes. All headers in the header map must be matched.
See Table 14-33 for a list of the supported characters that you can use in regular expressions.
Header Length Length of the header in the HTTP message that is to be used for protocol inspection decisions.
Do the following:
a. In the Header Length Type field, specify whether HTTP header request or response messages are
to be used for protocol inspection decisions as follows:
– Request—HTTP header request messages are to be checked for header length.
– Response—HTTP header response messages are to be checked for header length.
b. In the Header Length Operator field, choose the operand to use to compare header length:
– Equal To—The header length must equal the number in the Header Length Value (Bytes)
field.
– Greater Than—The header length must be greater than the number in the Header Length
Value (Bytes) field.
– Less Than—The header length must be less than the number in the Header Length Value
(Bytes) field.
– Range—The header length must be within the range specified in the Header Length Lower
Value (Bytes) field and the Header Length Higher Value (Bytes) field.
c. Enter values to apply for header length comparison as follows:
– If you chose Equal To, Greater Than, or Less Than in the Header Length Operator field, the
Header Length Value (Bytes) field appears. In the Header Length Value (Bytes) field, enter
the number of bytes for comparison. Valid entries are from 0 to 255.
– If you chose Range in the Header Length Operator field, the Header Length Lower Value
(Bytes) and the Header Length Higher Value (Bytes) fields appear. Do the following:
1. In the Header Length Lower Value (Bytes) field, enter the lowest number of bytes to be used
for this match condition. Valid entries are from 0 to 255. The number in this field must be less
than the number entered in the Header Length Higher Value (Bytes) field.
2. In the Header Length Higher Value (Bytes) field, enter the highest number of bytes to be
used for this match condition. Valid entries are from 1 to 255. The number in this field must
be greater than the number entered in the Header Length Lower Value (Bytes) field.
Table 14-7 Layer 7 HTTP Deep Packet Inspection Class Map Match Conditions (continued)
Match Condition Description
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Header MIME Type Multipurpose Internet Mail Extension (MIME) message types that are to be used for protocol
inspection decisions.
In the Header MIME Type field, choose the MIME message type to use for this match condition.
Port Misuse Feature that specifies that the misuse of port 80 (or any other port running HTTP) is to be used for
protocol inspection decisions.
Choose the application category to use for this match condition:
• IM—Instant messaging applications are to be used for this match condition.
• P2P—Peer-to-peer applications are to be used for this match condition.
• Tunneling—Tunneling applications are to be used for this match condition.
Request Method Request method that is to be used for protocol inspection decisions.
By default, ACEs allow all request and extension methods. This option allows you to configure class
maps that define protocol inspection decisions based on compliance to request methods defined in RFC
2616 and by HTTP extension methods.
Do the following:
a. In the Request Method Type field, choose the type of compliance to be used for protocol inspection
decision. Choices are as follows:
– Ext—HTTP extension method is to be used for protocol inspection decisions.
– RFC—Request method defined in RFC 2616 is to be used for protocol inspection decisions.
Depending on your selection, the Ext Request Method field or the RFC Request Method field
appears.
b. In the Request Method field, choose the specific request method to be used.
Transfer Encoding Field that appears when an HTTP transfer-encoding type is used for protocol inspection decisions. The
transfer-encoding general-header field indicates the type of transformation, if any, that has been
applied to the HTTP message body to safely transfer it between the sender and the recipient.
In the Transfer Encoding field, choose the type of encoding that is to be checked:
• Chunked—The message body is transferred as a series of chunks.
• Compress—The encoding format that is produced by the UNIX file compression program
compress.
• Deflate—The .zlib format that is defined in RFC 1950 in combination with the DEFLATE
compression mechanism described in RFC 1951.
• Gzip—The encoding format that is produced by the file compression program GZIP (GNU zip) as
described in RFC 1952.
• Identity—The default (identity) encoding which does not require the use of transformation.
URL URL name used for protocol inspection decisions.
In the URL field, enter a URL or a portion of a URL to match. Valid entries are URL strings from 1 to
255 alphanumeric characters and include only the portion of the URL following
www.hostname.domain. For example, in the URL www.anydomain.com/latest/whatsnew.html, include
only /latest/whatsnew.html.
Table 14-7 Layer 7 HTTP Deep Packet Inspection Class Map Match Conditions (continued)
Match Condition Description
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Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
Note If you click Deploy Now, the ACE drops the traffic, then restarts it, even if you have not
made changes. If you have not altered existing match conditions, click Cancel instead of
Deploy Now to ensure uninterrupted traffic.
• Click Cancel to exit this procedure without saving your entries and to return to the Match Condition
table.
• Click Next to configure another match condition for this class map.
Related Topics
• Configuring Virtual Context Policy Maps, page 14-32
• Setting Match Conditions for Layer 3/Layer 4 Network Traffic Class Maps, page 14-9
• Setting Match Conditions for Layer 3/Layer 4 Management Traffic Class Maps, page 14-12
URL Length URL length to be used for protocol inspection decisions.
Do the following:
a. In the URL Length Operator field, choose the operand to be used to compare URL length:
– Equal To—The URL length must equal the number in the URL Length Value (Bytes) field.
– Greater Than—The URL length must be greater than the number in the URL Length Value
(Bytes) field.
– Less Than—The URL length must be less than the number in the URL Length Value (Bytes)
field.
– Range—The URL length must be within the range specified in the URL Length Lower Value
(Bytes) field and the URL Length Higher Value (Bytes) field.
b. Enter values to apply for URL length comparison as follows:
– If you chose Equal To, Greater Than, or Less Than in the URL Length Operator field, the URL
Length Value (Bytes) field appears. In the URL Length Value (Bytes) field, enter the value for
comparison. Valid entries are from 1 to 65535 bytes.
– If you chose Range in the URL Length Operator field, the URL Length Lower Value (Bytes)
and the URL Length Higher Value (Bytes) fields appear. Do the following:
1. In the URL Length Lower Value (Bytes) field, enter the lowest number of bytes to be used
for this match condition. Valid entries are integers from 1 to 65535. The number in this field
must be less than the number entered in the URL Length Higher Value (Bytes) field.
2. In the URL Length Higher Value (Bytes) field, enter the highest number of bytes to be used
for this match condition. Valid entries are integers from 1 to 65535. The number in this field
must be greater than the number entered in the URL Length Lower Value (Bytes) field.
Table 14-7 Layer 7 HTTP Deep Packet Inspection Class Map Match Conditions (continued)
Match Condition Description
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• Setting Match Conditions for Layer 7 Server Load Balancing Class Maps, page 14-14
• Setting Match Conditions for Layer 7 FTP Command Inspection Class Maps, page 14-22
Setting Match Conditions for Layer 7 FTP Command Inspection Class Maps
You can set match conditions for a Layer 7 FTP command inspection class map.
Assumption
You have configured a Layer 7 FTP command inspection class map and want to establish match criteria.
Procedure
Step 1 Choose Config > Devices > context > Expert > Class Maps.
The Class Maps table appears.
Step 2 In the Class Maps table, choose the Layer 7 FTP command inspection class map that you want to set
match conditions for.
The Match Condition table appears.
Step 3 In the Match Condition table, click Add to add match criteria, or choose the match condition that you
want to modify and click Edit.
The Match Condition configuration window appears.
Step 4 In the Sequence Number field of the Match Condition configuration window, enter a value from 2 to 255.
Step 5 In the Match Condition Type field, confirm that Request Method Name is selected as the match condition
type for this class map.
Step 6 In the Request Method Name field, choose the FTP command to be inspected.
Table 14-8 identifies the FTP commands that can be inspected.
Table 14-8 FTP Commands for Inspection
FTP Command Description
Appe Append data to the end of the specified file on the remote host.
Cdup Change to the parent of the current directory.
Dele Delete the specified file.
Get Copy the specified file from the remote host to the local system.
Help List all available FTP commands.
Mkd Create a directory using the specified path and directory name.
Put Copy the specified file from the local system to the remote host.
Rmd Remove the specified directory.
Rnfr Rename a file, specifying the current file name. Used with rnto.
Rnto Rename a file, specifying the new file name. Used with rnfr.
Site Execute a site-specific command.
Stou Store a file on the remote host and give it a unique name.
Syst Query the remote host for operating system information.
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Step 7 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Match Condition table.
Note If you click Deploy Now, the ACE drops the traffic and then restarts it, even if you have not
made changes. If you have not altered existing match conditions, click Cancel instead of
Deploy Now to ensure uninterrupted traffic.
• Click Cancel to exit this procedure without saving your entries and to return to the Match Condition
table.
• Click Next to configure another match condition for this class map.
Related Topics
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
Setting Match Conditions for Generic Server Load Balancing Class Maps
You can set match conditions for a generic server load balancing class map.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version A5(1.0)
or later.
Assumption
You have configured a generic server load balancing class map and want to establish match criteria.
Procedure
Step 1 Choose Config > Devices > context > Expert > Class Maps.
The Class Maps table appears.
Step 2 In the Class Maps table, choose the generic server load balancing class map that you want to set match
conditions for.
The Match Condition table appears.
Step 3 In the Match Condition table, click Add to add match criteria, or choose the match condition that you
want to modify and click Edit.
The Match Condition configuration window appears.
Step 4 In the Sequence Number field of the Match Condition configuration window, enter a value from 2 to 255.
Step 5 In the Match Condition Type field, choose the match condition type for this class map and configure any
match-specific criteria as described in Table 14-9.
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Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Match Condition table.
Note If you click Deploy Now, the ACE drops the traffic and then restarts it even if you have not
made changes. If you have not altered existing match conditions, click Cancel instead of
Deploy Now to ensure uninterrupted traffic.
• Click Cancel to exit this procedure without saving your entries and to return to the Match Condition
table.
• Click Next to configure another match condition for this class map.
Related Topics
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
Table 14-9 Generic Server Load Balancing Class Map Match Conditions
Match Condition Description
Class Map Class map that is used to establish a match condition. In the Class Map field, choose the class map
to use for this match condition.
Layer 4 Payload Generic data parsing that is used to establish a match condition.
Do the following:
a. In the Layer 4 Payload Regex field, enter the Layer 4 payload expression contained within the
TCP or UDP entity body to use for this match condition. Valid entries are text strings with a
maximum of 255 alphanumeric characters. See Table 14-33 for a list of the supported
characters that you can use for matching string expressions.
b. In the Layer 4 Payload Offset field, enter the absolute offset where the Layer 4 payload
expression search starts. The offset starts at the first byte of the TCP or UDP body. Valid
entries are from 0 to 999.
Source Address Source IP address that is used to establish a match condition.
Do the following:
a. In the IP Address Type field, choose either IPv4 or IPv6. This field appears only for ACE
module and ACE appliance software Version A5(1.0) or later, which supports IPv4 and IPv6.
b. In the Source Address field, enter the source IP address for this match condition in the format
based on the address type (IPv4 or IPv6).
c. Depending on the IP address type that you chose, do one of the following:
– For IPv4, in the Source Netmask field, choose the subnet mask for the source IP address.
– For IPv6, in the Source Prefix-length field, enter the prefix length for the address.
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Setting Match Conditions for RADIUS Server Load Balancing Class Maps
You can set match conditions for a RADIUS server load balancing class map.
Assumption
You have configured a RADIUS server load balancing class map and want to establish match criteria.
Procedure
Step 1 Choose Config > Devices > context > Expert > Class Maps.
The Class Maps table appears.
Step 2 In the Class Maps table, choose the RADIUS server load balancing class map that you want to set match
conditions for.
The Match Condition table appears.
Step 3 In the Match Condition table, click Add to add match criteria, or choose the match condition that you
want to modify and click Edit.
The Match Condition configuration window appears.
Step 4 In the Sequence Number field, enter a value from 2 to 255.
Step 5 In the Match Condition Type field, choose the match condition type for this class map and configure any
match-specific criteria as described in Table 14-10.
Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Match Condition table.
Note If you click Deploy Now, the ACE drops the traffic and then restarts it, even if you have not
made changes. If you have not altered existing match conditions, click Cancel instead of
Deploy Now to ensure uninterrupted traffic.
• Click Cancel to exit this procedure without saving your entries and to return to the Match Condition
table.
• Click Next to configure another match condition for this class map.
Table 14-10 RADIUS Server Load Balancing Class Map Match Conditions
Match Condition Description
Calling Station ID Unique identifier of the calling station that is used to establish a match condition. In the RADIUS
Calling Station ID field, enter the calling station identifier to match. Valid entries are strings
containing 1 to 64 alphanumeric characters. See Table 14-33 for a list of the supported characters
that you can use for matching string expressions.
User Name Username that is used to establish a match condition. In the User Name field, enter the name to
match. Valid entries are strings containing 1 to 64 alphanumeric characters. See Table 14-33 for a
list of the supported characters that you can use for matching string expressions.
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Chapter 14 Configuring Traffic Policies
Setting Match Conditions for Class Maps
Related Topics
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
Setting Match Conditions for RTSP Server Load Balancing Class Maps
You can set match conditions for a RTSP server load balancing class map.
Assumption
You have configured a RTSP server load balancing class map and want to establish match criteria.
Procedure
Step 1 Choose Config > Devices > context > Expert > Class Maps.
The Class Maps table appears.
Step 2 In the Class Maps table, choose the RTSP server load balancing class map that you want to set match
conditions for.
The Match Condition table appears.
Step 3 In the Match Condition table, click Add to add match criteria, or choose the match condition that you
want to modify and click Edit.
The Match Condition configuration window appears.
Step 4 In the Sequence Number field, enter a value from 2 to 255.
Step 5 In the Match Condition Type field, choose the match condition type for this class map and configure any
match-specific criteria as described in Table 14-11.
Table 14-11 RTSP Server Load Balancing Class Map Match Conditions
Match Condition Description
Class Map Class map that is used to establish a match condition. In the Class Map field, choose the class map
to use for this match condition.
RTSP Header Name and value in an RTSP header that is used to establish a match condition.
Do the following
a. In the Header Name field, specify the header in one of the following ways:
– To specify an RTSP header that is not one of the standard RSTP headers, choose the first
radio button and enter the RTSP header name in the Header Name field. Valid entries are
unquoted text strings with no spaces and a maximum of 64 characters.
– To specify one of the standard RTSP headers, choose the second radio button and choose
one of the RTSP headers from the list.
b. In the Header Value (Bytes) field, enter the header value expression string to compare against
the value in the specified field in the RTSP header. Valid entries are text strings with a
maximum of 255 alphanumeric characters. The ACE supports regular expressions for
matching. If the string includes spaces, enclose the string with quotes. All headers in the
header map must be matched. See Table 14-33 for a list of the supported characters that you
can use in regular expressions.
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Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Match Condition table.
Note If you click Deploy Now, the ACE drops the traffic and then restarts it, even if you have not
made changes. If you have not altered existing match conditions, click Cancel instead of
Deploy Now to ensure uninterrupted traffic.
• Click Cancel to exit this procedure without saving your entries and to return to the Match Condition
table.
• Click Next to configure another match condition for this class map.
Related Topics
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
Setting Match Conditions for SIP Server Load Balancing Class Maps
You can set match conditions for a SIP server load balancing class map.
Assumption
You have configured a SIP server load balancing class map and want to establish match criteria.
RTSP URL URL or portion of a URL that is used to establish a match condition.
Do the following:
a. In the URL Expr field, enter a URL, or portion of a URL, to match. The ACE performs
matching on whatever URL string appears after the RTSP method, regardless of whether the
URL includes the host name. The ACE supports regular expressions for matching URL
strings. See Table 14-33 for a list of the supported characters that you can use in regular
expressions.
b. In the Method field, enter the RTSP method to match. Valid entries are unquoted text strings
with no spaces and a maximum of 64 alphanumeric characters. The method can be either one
of the standard RTSP method names (DESCRIBE, ANNOUNCE, GET_PARAMETER,
OPTIONS, PAUSE, PLAY, RECORD, REDIRECT, SETUP, SET_PARAMETER,
TEARDOWN) or a text string that must be matched exactly (for example, STINGRAY).
Source Address Source IP address that is used to establish a match condition.
Do the following:
a. In the Source Address field, enter the source IP address for this match condition in
dotted-decimal format, such as 192.168.11.1.
b. In the Source Netmask field, choose the subnet mask for the source IP address.
Table 14-11 RTSP Server Load Balancing Class Map Match Conditions (continued)
Match Condition Description
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Setting Match Conditions for Class Maps
Procedure
Step 1 Choose Config > Devices > context > Expert > Class Maps.
The Class Maps table appears.
Step 2 In the Class Maps table, choose the SIP server load balancing class map that you want to set match
conditions for.
The Match Condition table appears.
Step 3 In the Match Condition table, click Add to add match criteria, or choose the match condition that you
want to modify and click Edit.
The Match Condition configuration window appears.
Step 4 In the Sequence Number field of the Match Condition configuration window, enter a value from 2 to 255.
Step 5 In the Match Condition Type field, choose the match condition type for this class map and configure any
match-specific criteria as described in Table 14-12.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Table 14-12 SIP Server Load Balancing Class Map Match Conditions
Match Condition Description
Class Map Class map that is used to establish a match condition. In the Class Map field, choose the class map
to use for this match condition.
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Setting Match Conditions for Class Maps
Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Match Condition table.
Note If you click Deploy Now, the ACE drops the traffic and then restarts it, even if you have not
made changes. If you have not altered existing match conditions, click Cancel instead of
Deploy Now to ensure uninterrupted traffic.
• Click Cancel to exit this procedure without saving your entries and to return to the Match Condition
table.
• Click Next to configure another match condition for this class map.
Related Topics
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
SIP Header SIP header name and value that are used to establish a match condition.
Do the following:
a. In the Header Name field, specify the header in one of the following ways:
– To specify a SIP header that is not one of the standard SIP headers, choose the first radio
button and enter the SIP header name in the Header Name field. Enter an unquoted text
string with no spaces and a maximum of 64 characters.
– To specify one of the standard SIP headers, choose the second radio button and choose
one of the SIP headers from the list.
b. In the Header Value (Bytes) field, enter the header value expression string to compare against
the value in the specified field in the SIP header. Valid entries are text strings with a maximum
of 255 alphanumeric characters. The ACE supports regular expressions for matching. If the
string includes spaces, enclose the string with quotes. All headers in the header map must be
matched. See Table 14-33 for a list of the supported characters that you can use in regular
expressions.
Source Address Source IP address that is used to establish a match condition.
Do the following:
a. In the IP Address Type field, select either IPv4 or IPv6. This field appears only for ACE
module and ACE appliance software Version A5(1.0) or later, which supports IPv4 and IPv6.
b. In the Source Address field, enter the source IP address for this match condition in the format
based on the address type (IPv4 or IPv6).
c. Depending on the IP address type that you chose, do one of the following:
– For IPv4, in the Source Netmask field, choose the subnet mask for the source IP address.
– For IPv6, in the Source Prefix-length field, enter the prefix length for the address.
Table 14-12 SIP Server Load Balancing Class Map Match Conditions (continued)
Match Condition Description
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Setting Match Conditions for Class Maps
Setting Match Conditions for Layer 7 SIP Deep Packet Inspection Class Maps
You can set match conditions for a SIP deep packet inspection class map.
Assumption
You have configured a SIP deep packet inspection class map and want to establish match criteria.
Procedure
Step 1 Choose Config > Devices > context > Expert > Class Maps.
The Class Maps table appears.
Step 2 In the Class Maps table, choose the SIP deep packet inspection class map that you want to set match
conditions for.
The Match Condition table appears.
Step 3 In the Match Condition table, click Add to add match criteria, or choose the match condition that you
want to modify and click Edit.
The Match Condition configuration window appears.
Step 4 In the Sequence Number field of the Match Condition configuration window, enter a value from 2 to 255.
Step 5 In the Match Condition Type field, choose the match condition type for this class map and configure any
match-specific criteria as described in Table 14-13.
Table 14-13 Layer 7 SIP Deep Packet Inspection Class Map Match Conditions
Match Condition Description
Called Party Destination or called party in the URI of the SIP To header that is used to establish a match
condition. In the Called Party field, enter a regular expression that identifies the called party in the
URI of the SIP To header for this match condition. Valid entries are unquoted text strings with no
spaces and a maximum of 255 alphanumeric characters. The ACE supports regular expressions for
matching string expressions. Table 14-33 lists the supported characters that you can use for
matching string expressions.
Calling Party Source or calling party in the URI of the SIP From header that is used to establish a match
condition. In the Calling Party field, enter a regular expression that identifies the called party in
the URI of the SIP To header for this match condition. Valid entries are unquoted text strings with
no spaces and a maximum of 255 alphanumeric characters. The ACE supports regular expressions
for matching string expressions. Table 14-33 lists the supported characters that you can use for
matching string expressions.
IM Subscriber IM (instant messaging) subscriber that is used to establish a match condition. In the IM Subscriber
field, enter a regular expression that identifies the IM subscriber for this match condition. Valid
entries are unquoted text strings with no spaces and a maximum of 255 alphanumeric characters.
The ACE supports regular expressions for matching string expressions. Table 14-33 lists the
supported characters that you can use for matching string expressions.
Message Path Message coming from or transiting through certain SIP proxy servers that is used to establish a
match condition. In the Message Path field, enter a regular expression that identifies the SIP proxy
server for this match condition. Valid entries are unquoted text strings with no spaces and a
maximum of 255 alphanumeric characters. The ACE supports regular expressions for matching
string expressions. Table 14-33 lists the supported characters that you can use for matching string
expressions.
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Setting Match Conditions for Class Maps
Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. You return to the Match Condition table.
Note If you click Deploy Now, the ACE drops the traffic and then restarts it, even if you have not
made changes. If you have not altered existing match conditions, click Cancel instead of
Deploy Now to ensure uninterrupted traffic.
• Click Cancel to exit this procedure without saving your entries and to return to the Match Condition
table.
SIP Content Length SIP message body length that is used to establish a match condition.
Do the following:
a. In the Content Operator field, confirm that Greater Than is selected.
b. In the Content Length field, enter the maximum size of a SIP message body in bytes that the
ACE is to allow without performing SIP protocol inspection. If a SIP message exceeds the
specified value, the ACE performs SIP protocol inspection as defined in an associated policy
map. Valid entries are from 0 to 65534 bytes.
SIP Content Type Content type in the SIP message body that is used to establish a match condition. In the Content
Type field, enter the a regular expression that identifies the content type in the SIP message body
to use for this match condition. Valid entries are unquoted text strings with no spaces and a
maximum of 255 alphanumeric characters. The ACE supports regular expressions for matching
string expressions. Table 14-33 lists the supported characters that you can use for matching string
expressions.
SIP Request Method SIP request method that is used to establish a match condition. In the Request Method field, choose
the request method that is to be matched.
Third Party Third party who is authorized to register other users on their behalf that is used to establish a match
condition. In the Third Party Registration Entities field, enter a regular expression that identifies
a privileged user authorized for third-party registrations for this match condition. Valid entries are
unquoted text strings with no spaces and a maximum of 255 alphanumeric characters. The ACE
supports regular expressions for matching string expressions. Table 14-33 lists the supported
characters that you can use for matching string expressions.
URI Length SIP URI or user identifier that is used to establish a match condition.
Do the following:
a. In the URI Type field, choose the type of URI to use:
– SIP URI—The calling party URI is used for this match condition.
– Tel URI—A telephone number is used for this match condition.
b. In the URI Operator field, confirm that Greater Than is selected.
c. In the URI Length field, enter the maximum length of the SIP URI or Tel URI in bytes. Valid
entries are integers from 0 to 254 bytes.
Table 14-13 Layer 7 SIP Deep Packet Inspection Class Map Match Conditions (continued)
Match Condition Description
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Configuring Virtual Context Policy Maps
• Click Next to configure another match condition for this class map.
Related Topics
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
Configuring Virtual Context Policy Maps
You can create policy maps for a context that establish traffic policy for the ACE. The purpose of a traffic
policy is to implement specific ACE functions associated with a traffic class.
A traffic policy contains the following:
• A policy map name.
• A previously created traffic class map or, optionally, the class-default class map.
• One or more of the individual Layer 3/Layer 4 or Layer 7 policies that specify the actions to be
performed by the ACE.
The ACE executes actions specified in a policy map on a first-match, multi-match, or all-match basis as
follows:
• First-match—With a first-match policy map, the ACE executes only the action specified against the
first classification that it matches. Layer 3/Layer 4 Management Traffic, Layer 7 Server Load
Balancing, Layer 7 Command Inspection - FTP, and Layer 7 HTTP Optimization policy maps are
first-match policy maps.
• Multi-match—With a multi-match policy map, the ACE executes all possible actions applicable for
a specific classification. Layer 3/Layer 4 Network Traffic policy maps are multi-match policy maps.
• All-match—With an all-match policy map, the ACE attempts to match all specified conditions
against the matching classification and executes the actions of all matching classes until it
encounters a deny for a match request.
You can display a context’s policy maps and their types in the Policy Maps table (Config > Virtual
Contexts > context > Expert > Policy Maps.)
The types of policy maps that you can configure depend on the ACE device type. Table 14-14 lists the
types of policy maps with brief descriptions and the ACE devices that support them.
Table 14-14 Policy Maps and ACE Device Support
Policy Map Type Description
ACE Device
ACE
Module
ACE
Appliance
Layer 3/4 Management Traffic (First-Match) Layer 3 and Layer 4 policy map for network
management traffic received by the ACE
X X
Layer 3/4 Network Traffic (First-Match) Layer 3 and Layer 4 policy map for traffic
passing through the ACE
X X
Layer 7 Command Inspection - FTP
(First-Match)
Layer 7 policy map for inspection of FTP
commands
X X
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Configuring Virtual Context Policy Maps
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, click Add to add a new policy map, or choose an existing policy map and click
Edit to modify it.
Step 3 The Policy Map Name field contains an automatically incremented number for the policy map. Either
leave the entry as it is or enter a different, unique number.
Step 4 In the Type field, choose the type of policy map to create. See Table 14-14 for a list of the policy maps
and their availability for the different ACE models.
Step 5 In the Description field, enter a brief description of the policy map.
Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. To define rules and actions for the policy
map, see Configuring Rules and Actions for Policy Maps, page 14-34.
• Click Cancel to exit this procedure without saving your entries and to return to the Policy Maps
table.
• Click Next to deploy your entries and to configure another policy map.
Layer 7 Deep Packet Inspection - HTTP
(All-Match)
Layer 7 policy map for inspection of HTTP
packets
X X
Layer 7 Deep Packet Inspection - SIP
(All-Match)
Layer 7 policy map for inspection of SIP packets X X
Layer 7 Deep Packet Inspection - Skinny Layer 7 policy map for inspection of Skinny
Client Control Protocol (SCCP)
X X
Layer 7 HTTP Optimization (First-Match) Layer 7 policy map for optimizing HTTP traffic X
Layer 7 Server Load Balancing (First-Match) Layer 7 policy map for HTTP server load
balancing
X X
Server Load Balancing - Generic Generic Layer 7 policy map for server load
balancing
X X
Server Load Balancing - RADIUS
(First-Match)
Layer 7 policy map for RADIUS server load
balancing
X X
Server Load Balancing - RDP (First-Match) Layer 7 policy map for RDP server load
balancing
X X
Server Load Balancing - RTSP (First-Match) Layer 7 policy map for RTSP server load
balancing
X X
Server Load Balancing - SIP (First-Match) Layer 7 policy map for SIP server load balancing X X
Table 14-14 Policy Maps and ACE Device Support (continued)
Policy Map Type Description
ACE Device
ACE
Module
ACE
Appliance
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Configuring Rules and Actions for Policy Maps
Related Topics
• Information About Virtual Contexts, page 6-2
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Rules and Actions for Policy Maps, page 14-34
Configuring Rules and Actions for Policy Maps
Table 14-15 lists the policy maps and related topics for setting rules and actions.
Table 14-15 Topic Reference for Policy Map Rules and Actions
Policy Map Type Topic for Setting Rules and Actions
Layer 3/4 Management Traffic
(First-Match)
Setting Policy Map Rules and Actions for Layer 3/Layer 4 Management Traffic,
page 14-39
Layer 3/4 Network Traffic (First-Match) Setting Policy Map Rules and Actions for Layer 3/Layer 4 Network Traffic,
page 14-41
Layer 7 Command Inspection - FTP
(First-Match)
Setting Policy Map Rules and Actions for Layer 7 FTP Command Inspection,
page 14-48
Layer 7 Deep Packet Inspection - HTTP
(All-Match)
Setting Policy Map Rules and Actions for Layer 7 HTTP Deep Packet Inspection,
page 14-51
Layer 7 Deep Packet Inspection - SIP
(All-Match)
Setting Policy Map Rules and Actions for Layer 7 SIP Deep Packet Inspection,
page 14-68
Layer 7 Deep Packet Inspection - Skinny Setting Policy Map Rules and Actions for Layer 7 Skinny Deep Packet Inspection,
page 14-71
Layer 7 HTTP Optimization
(First-Match)
Setting Policy Map Rules and Actions for Layer 7 HTTP Optimization,
page 14-57
Layer 7 Server Load Balancing
(First-Match)
Setting Policy Map Rules and Actions for Layer 7 Server Load-Balancing Traffic,
page 14-61
Server Load Balancing - Generic
(First-Match)
Setting Policy Map Rules and Actions for Generic Server Load Balancing,
page 14-35
Server Load Balancing - RADIUS
(First-Match)
Setting Policy Map Rules and Actions for RADIUS Server Load Balancing,
page 14-73
Server Load Balancing - RDP
(First-Match)
Setting Policy Map Rules and Actions for RDP Server Load Balancing,
page 14-75
Server Load Balancing - RTSP
(First-Match)
Setting Policy Map Rules and Actions for RTSP Server Load Balancing,
page 14-76
Server Load Balancing - SIP
(First-Match)
Setting Policy Map Rules and Actions for SIP Server Load Balancing, page 14-79
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Chapter 14 Configuring Traffic Policies
Configuring Rules and Actions for Policy Maps
Setting Policy Map Rules and Actions for Generic Server Load Balancing
You can configure the rules and actions for generic traffic received by the ACE.
Assumptions
This topic assumes the following:
• A generic traffic policy map has been configured.
• A class map has been defined for a class map rule if you do not want to use the class-default class
map.
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, choose the generic traffic policy map that you want to set rules and actions for.
The Rule table appears.
Step 3 In the Rule table, click Add to add a new rule, or choose the rule that you want to modify and click Edit.
The Rule window appears.
Step 4 In the Type field of the Rule window, configure rules using the information in Table 14-16.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version
A5(1.0) or later.
Table 14-16 Generic Server Load Balancing Policy Map Rules
Option Description
Class Map Class map to use for this traffic policy.
From the Use Class Map field, do one of the following:
• To use the default class map, choose class-default.
The class-default class map is a reserved, well-known class map created by the ACE. You cannot
delete or modify this class. All traffic that fails to meet the other matching criteria in the named class
map belongs to the default traffic class. If none of the specified classifications matches the traffic,
then the ACE performs the action specified by the class-default class map. The class-default class
map has an implicit match any statement that enables it to match all traffic.
• To use a previously created class map, do the following:
1. Choose others.
2. In the Class Map Name field, choose the class map to use.
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Match Condition Match condition is used for this traffic policy.
Match Condition Name Enter a name for this match condition. Valid entries are unquoted text strings
with no spaces and a maximum of 64 alphanumeric characters.
Match Condition Type Layer 4 Payload Layer 4 payload data that is used for the network matching
criteria.
Do the following:
a. In the Layer 4 Payload RegexMatch Condition field,
enter a Layer 4 payload expression that is contained
within the TCP or UDP entity body. Valid entries are
strings containing 1 to 255 alphanumeric characters.
Table 14-33 lists the supported characters that you can
use for matching string expressions.
b. In the Layer 4 Payload Offset field, enter the absolute
offset in the data where the Layer 4 payload expression
search string starts. The offset starts at the first byte of
the TCP or UDP body. Valid entries are from 0 to 999.
Source Address Client source host IP address and subnet mask that are used
for the network traffic matching criteria.
Do the following:
a. In the IP Address Type field, choose either IPv4 or IPv6.
This field appears only for ACE module and ACE
appliance software Version A5(1.0) or later, which
supports IPv4 and IPv6.
b. In the Source IP v4/v6 Address field, enter the source IP
address of the client in the format based on the address
type (IPv4 or IPv6).
c. Depending on the IP address type that you chose, do one
of the following:
– For IPv4, in the Source Netmask field, choose the
subnet mask for the source IP address.
– For IPv6, in the Source Prefix-length field, enter the
prefix length for the address.
Insert Before a. Indicate whether this rule is to precede another rule for this policy map:
– N/A—This option is not configured.
– False—This rule is not to precede another rule in this policy map.
– True—This rule is to precede another rule in this policy map. The Insert Before Policy Rule field
appears.
b. If you chose True, in the Insert Before Policy Rule field, choose the rule that you want the current
rule to precede.
Table 14-16 Generic Server Load Balancing Policy Map Rules (continued)
Option Description
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Step 5 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The window refreshes and the Action table
appears. Continue with Step 6.
• Click Cancel to exit this procedure without saving your entries and to return to the Rule table.
Note If you chose the Insert Before option described in Table 14-16 and specified True, perform the
following steps to refresh the Rule tab before adding an action for this rule:
1. Click the Rule tab to refresh the Rule table.
2. In the Rule table, choose the newly added rule.
When the window refreshes, an empty action list appears.
Step 6 In the Action table, click Add to add an entry or choose an existing entry to modify and click Edit.
Step 7 In the Id field, accept the automatically incremented entry or assign a unique identifier for this action.
Step 8 In the Action Type field, configure actions for this rule using the information in Table 14-17.
Table 14-17 Generic Server Load Balancing Policy Map Actions
Action Description
Drop Field that instructs the ACE to discard packets that match this policy map. In the Action Log field,
specify whether or not the dropped packets are to be logged in the software:
• N/A—This option is not configured.
• False—Dropped packets are not to be logged in the software.
• True—Dropped packets are to be logged in the software.
Forward Field that instructs the ACE to forward the traffic that matches this policy map to its destination.
Reverse Sticky Feature that applies only to the ACE module version 3.0(0)A2(1.1), ACE appliance version
A4(1.0), or later releases of either device type. Reverse IP stickiness is an enhancement to regular
stickiness and is used mainly in FWLB. It ensures that multiple distinct connections that are
opened by hosts at both ends (client and server) are load-balanced and stuck to the same firewall.
Reverse stickiness applies to such protocols as FTP, RTSP, SIP, and so on where there are separate
control channels and data channels opened by the client and the server, respectively. For complete
details about reverse stickiness, see the Release Note for the Cisco Application Control Engine
Module (Software Version 3.0(0)A2(X)).
In the Sticky Group field, choose an existing IP netmask sticky group that you want to associate
with reverse IP stickiness.
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Step 9 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Action table.
• Click Next to deploy your entries and to configure another action.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
Server Farm Serverfarm that the ACE is to load balance client requests for content.
Do the following:
a. In the Server Farm field, choose the server farm for this policy map action.
b. In the Backup Server Farm field, choose the backup server farm for this action.
c. Check the Sticky Enabled check box to indicate that the backup server farm is sticky.
Uncheck this check box if the backup server farm is not sticky.
d. Check the Aggregate State Enabled check box to indicate that the operational state of the
backup server farm is taken into consideration when evaluating the state of the load-balancing
class in a policy map. Uncheck this check box to indicate that the operational state of the
backup server farm is not taken into consideration when evaluating the state of the
load-balancing class in a policy map.
Server Farm-NAT Dynamic NAT that the ACE is to apply to traffic for this policy map.
Do the following:
a. In the NAT Pool ID field, enter the number of the pool of IP addresses that exist under the
VLAN specified in the VLAN Id field. Valid entries are from 1 to 2147483647. For
information about configuring NAT pools, see “Configuring Virtual Context BVI Interfaces”
section on page 12-19.
b. In the VLAN ID field, choose the VLAN to use for NAT. Valid entries are from 1 to 4094.
c. In the Server Farm Type field, indicate whether the server farm is a backup or primary server
farm.
Set-IP-TOS IP Differentiated Services Code Point (DSCP) bit in the Type of Service (ToS) byte that the ACE
is to set. After the IP DSCP bit is set, other Quality of Service (QoS) services can then operate on
the bit settings.
In the IP TOS Rewrite Value field, enter the IP DSCP value. Valid entries are from 0 to 255.
Sticky Group Sticky group that you want to associate with reverse stickiness.
Sticky Server Farm Sticky server farm that the ACE is to load balance client requests for content.
In the Sticky Group field, choose the sticky server farm that is to be used for requests that match
this policy map.
Table 14-17 Generic Server Load Balancing Policy Map Actions (continued)
Action Description
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Configuring Rules and Actions for Policy Maps
• Configuring Rules and Actions for Policy Maps, page 14-34
Setting Policy Map Rules and Actions for Layer 3/Layer 4 Management Traffic
You can configure the rules and actions for IP management traffic received by the ACE.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version A5(1.0)
or later.
Assumptions
This topic assumes the following:
• A network management policy map has been configured.
• A class map has been defined for a class map rule if you do not want to use the class-default class
map.
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, choose the Layer 3/Layer 4 management traffic policy map that you want to
set rules and actions for.
The Rule table appears.
Step 3 In the Rule table, click Add to add a new rule, or choose the rule that you want to modify and click Edit.
The Rule window appears.
Step 4 In the Type field of the Rule window, confirm that classmap is selected.
Step 5 In the Use Class Map field, do one of the following:
• For an IPv4 default class map, choose the class-default radio button.
• For an IPv6 default class map, choose the class-default-v6 radio button.
• For a previously created class map, go to Step 6.
Step 6 To use a previously created class map for this rule, do the following:
a. In the Use Class Map field, choose the others radio button.
b. In the Class Map Name field, choose the class map to be used.
c. In the Insert Before field, specify whether this rule is to precede another rule in this policy map:
– N/A—This option is not configured.
– False—This rule is not to precede another rule in this policy map.
– True—This rule is to precede another rule in this policy map. The Insert Before Policy Rule
field appears
d. If you chose True, in the Insert Before Policy Rule field, choose the rule that you want the current
rule to precede.
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Step 7 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The Action table appears. To define actions
for this rule, continue with Step 8.
• Click Cancel to exit this procedure without saving your entries and to return to the Policy Maps
table.
• Click Next to deploy your entries and to configure another rule.
Note If you chose the Insert Before option in Step 6 and specified True, perform the following steps
to refresh the Rule tab before adding an action for this rule:
1. Click the Rule tab to refresh the Rule table.
2. In the Rule table, choose the newly added rule.
When the window refreshes, an empty action list appears.
Step 8 In the Action table, click Add to add an action or choose an existing action, and click Edit to modify it.
The Action configuration window appears.
Step 9 In the Id field of the Action configuration window, either accept the automatically incremented entry or
assign a unique identifier for this action.
Step 10 In the Action Type field, confirm that Management Permit is selected to indicate that this action permits
or denies network management traffic.
Step 11 In the Action field, specify the action that is to occur:
• Deny—The ACE is to deny network management traffic when this rule is met.
• Permit—The ACE is to accept network management traffic when this rule is met.
Step 12 Do the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Action table.
• Click Next to deploy your entries and to configure another action.
Related Topics
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Rules and Actions for Policy Maps, page 14-34
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Setting Policy Map Rules and Actions for Layer 3/Layer 4 Network Traffic
You can configure rules and actions for Layer 3/Layer 4 traffic other than network management traffic.
Note Fields and information related to IPv6 require ACE module and ACE appliance software Version A5(1.0)
or later.
Assumptions
This topic assumes the following:
• You have configured a Layer 3/Layer 4 policy map.
• A class map has been defined if you do not want to use the class-default class map.
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, choose the Layer 3/Layer 4 network traffic policy map that you want to set
rules and actions for.
The Rule table appears.
Step 3 In the Rule table, click Add to add a new rule, or choose the rule that you want to modify and click Edit.
The Rule configuration window appears.
Step 4 In the Type field of the Rule configuration window, confirm that Class Map is selected.
Step 5 In the Use Class Map field, choose one of the following:
• For an IPv4 default class map, choose the class-default radio button.
• For an IPv6 default class map, choose the class-default-v6 radio button.
• For a previously created class map, go to Step 6.
Step 6 To use a previously created class map for this rule, do the following:
a. In the Use Class Map field, choose the others radio button.
b. In the Class Map Name field, choose the class map to be used.
c. In the Insert Before field, choose one of the following to indicate whether this rule is to precede
another rule in this policy map:
– N/A—Indicates that this option is not configured.
– False—Indicates that this rule is not to precede another rule in this policy map.
– True—Indicates that this rule is to precede another rule in this policy map.
If you select True, the Insert Before Policy Rule field appears. Select the rule that you want the
current rule to precede.
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Step 7 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The window refreshes and the Action field
appears. To configure actions for this rule, continue with Step 8.
• Click Cancel to exit this procedure without saving your entries and to return to the Policy Maps
table.
• Click Next to deploy your entries and to configure another rule.
Note If you chose the Insert Before option in Step 6 and specified True, perform the following steps
to refresh the Rule tab before adding an action for this rule:
1. Click the Rule tab to refresh the Rule table.
2. In the Rule table, choose the newly added rule.
When the window refreshes, an empty action list appears.
Step 8 In the Action field, click Edit. The Action table appears.
Step 9 In the Action table, click Add to add an action or choose an existing action and click Edit to modify it.
The Action configuration window appears.
Step 10 In the Id field, either accept the automatically incremented entry or assign a unique identifier for this
action.
Step 11 In the Action Type field, choose the type of action to be taken for this rule and configure the related
attributes. See Table 14-18.
Table 14-18 Layer 3/Layer 4 Network Traffic Policy Map Actions
Action Description/Steps
Appl-Parameter-DNS DNS parameter map that contains DNS-related actions that is to be implemented for this rule.
In the Parameter Map field, specify the name of the DNS parameter map to use.
Appl-Parameter-Generic Generic parameter map that is to be implemented for this rule.
In the Parameter Map field, specify the name of the generic parameter map to use.
Appl-Parameter-HTTP HTTP parameter map that contains HTTP-related actions that is to be implemented for this rule.
In the Parameter Map field, specify the name of the HTTP parameter map to use.
Appl-Parameter-RTSP RTSP parameter map that contains RTSP-related actions that is to be implemented for this rule.
In the Parameter Map field, specify the name of the RTSP parameter map to use.
Appl-Parameter-SIP SIP parameter map that contains SIP-related actions that is to be implemented for this rule.
In the Parameter Map field, specify the name of the SIP parameter map to use.
Appl-Parameter-Skinny Skinny parameter map that contains Skinny-related actions that is to be implemented for this rule.
In the Parameter Map field, specify the name of the Skinny parameter map to use.
Connection Connection parameter map that contains TCP/IP connection-related commands that pertain to
normalization and termination that is to be implemented for this rule.
In the Connection Parameter Maps field, choose the Connection parameter map that is to be used.
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HTTP Optimize Option that appears for ACE appliances only.
In the HTTP Optimization Policy field, choose the HTTP optimization policy map to use.
Inspect Application inspection that is to be implemented for this rule.
Do the following:
a. In the Inspect Type field, choose the protocol that is to be inspected.
b. Provide any protocol-specific information.
Table 14-19 describes the available options for application inspection actions.
KAL-ap-Primary-Out-of
-Service
Feature that is supported only for ACE module software Version A2(3.1), ACE appliance
software Version A4(1.0), and later versions of either device type. This feature enables the ACE
to notify a Global Site Selector (GSS) that the primary server farm is down when the backup
server farm is in use.
By default, when you configure a redirect server farm as a backup server farm on the ACE and
the primary server farm fails, the backup server farm redirects client requests to another data
center; however, the VIP remains in the INSERVICE state.
When you configure the ACE to communicate with a GSS, it provides information for server
availability. When a backup server is in use after the primary server farm is down, this feature
enables the ACE to inform the GSS that the VIP for the primary server farm is out of service by
returning a load value of 255. The GSS recognizes that the primary server farm is down and sends
future DNS requests with the IP address of the other data center.
KAL-AP-TAG Feature that is supported only for the ACE module software Version A2(2.0), ACE appliance
software Version A4(1.0), and later versions for both device types. The KAL-AP-TAG feature
allows the Cisco Global Site Selector (GSS) proprietary KAL-AP protocol to extract load and
availability information from the ACE when a firewall is positioned between the GSS and the
ACE. This feature allows you to configure a tag (name) per VIP for a maximum of 4096 tags on
an ACE. This feature does not replace the tag per domain feature. For more information about this
feature, see the Release Note for the Cisco Application Control Engine Module (Software Version
A2(2.0)) or the Cisco Application Control Engine Module Server Load-Balancing Configuration
Guide (Software Version A2(3.0)), the Configuring Health Monitoring chapter.
Note The KAL-AP-TAG selection is not available for the class-default class map.
In the KAL-AP-Tag Name field, enter the name as an unquoted text string with no spaces and a
maximum of 76 alphanumeric characters.
The following scenarios are not supported and will result in an error:
• You cannot configure a tag name for a VIP that already has a tag configuration as part of a
different policy configuration.
• You cannot associate the same tag name with more than one VIP.
• You cannot associate the same tag name with a domain and a VIP.
• You cannot assign two different tags to two different Layer 3 class maps that have the same
VIP, but different port numbers. The KAL-AP protocol considers these class maps to have
the same VIP and calculates the load for both Layer 3 rules together when the GSS queries
the VIP.
Table 14-18 Layer 3/Layer 4 Network Traffic Policy Map Actions (continued)
Action Description/Steps
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NAT Network address translation (NAT) that the ACE is to use for this rule.
Do the following:
a. In the NAT Mode field, choose the type of NAT to be used:
– Dynamic NAT—NAT is to translate local addresses to a pool of global addresses.
Continue with Step c.
– Static NAT—NAT is to translate each local address to a fixed global address. Continue
with Step b.
b. If you chose Static NAT, do the following:
1. In the IP Address Type field, choose either IPv4 or IPv6. This field appears only for
ACE module and ACE appliance software Version A5(1.0) or later, which supports IPv4
and IPv6.
2. In the Static Mapped Address field, enter the IP address to use for static NAT
translation. This entry establishes the globally unique IP address of a host as it appears
to the outside world. The policy map performs the global IP address translation for the
source IP address specified in the ACL (as part of the class-map traffic classification).
3. Depending on the IP address type that you chose, do one of the following:
- For IPv4, in the Static Mapped Netmask field, choose the subnet mask to apply to the
static mapped address.
- For IPv6, in the Static Mapped Prefix-length field, enter the prefix length for the static
mapped address.
4. In the NAT Protocol field, choose the protocol to use for NAT. Choices are as follows:
- N/A—This attribute is not set.
- TCP—The ACE is to use TCP for NAT.
- UDP—The ACE is to use UDP for NAT.
5. In the Static Port field, enter the TCP or UDP port to use for static port redirection.
Valid entries are from 0 to 65535.
6. In the VLAN Id field, choose the VLAN to use for NAT.
c. If you chose Dynamic NAT, do the following:
1. In the NAT Pool Id field, enter the number of the pool of IP addresses that exist under
the VLAN specified in the VLAN Id field. Valid entries are from 1 to 2147483647. See
the “Configuring Virtual Context BVI Interfaces” section on page 12-19.
2. In the VLAN Id field, choose the VLAN to use for NAT.
Note For dynamic NAT, ACE allows you to associate a non-configured NAT pool ID to the
dynamic NAT action. However, the ANM will not discover the dynamic NAT action when
the NAT pool ID is not configured. You must associate the configured NAT pool ID to the
dynamic NAT action for ANM discovery to complete successfully.
Policymap Layer 7 server load-balancing policy map that the ACE is to associate with this Layer 3/Layer 4
policy map.
In the Policy Map field, choose the Layer 7 policy map.
Table 14-18 Layer 3/Layer 4 Network Traffic Policy Map Actions (continued)
Action Description/Steps
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SSL-Proxy SSL proxy server service that defines the SSL parameters that the ACE is to use during the
handshake and subsequent SSL session.
Do the following:
a. In the SSL Proxy field, choose the SSL proxy server service to use in the handshake and
subsequent SSL session when the ACE engages with an SSL client.
b. In the SSL Proxy Type field, confirm that Server is selected to indicate that the ACE is to be
configured so that it is recognized as an SSL server.
UDP-Fast-Age Option that appears for ACE modules only. The ACE is to close the connection immediately after
sending a response to the client, thereby enabling per-packet load balancing for UDP traffic.
VIP-Advertise Option that appears for ACE modules release only. The ACE is to advertise the IP address of a
virtual server as the host route.
Do the following:
a. In the Active field, check the checkbox if you want the ACE to advertises the IP address of
the virtual server as the host route only if there is at least one active real server in the server
farm.
Note Uncheck the Active field check box if you want the ACE to always advertises the IP
address of the virtual server whether there is any active real server associated with the
VIP.
b. If you check the Active field check box, in the Metric Distance field, enter the administrative
distance to include in the routing table. Valid entries are from 1 to 254.
VIP-ICMP-Reply VIP is to send an ICMP ECHO-REPLY response to ICMP requests.
Do the following:
a. In the Active field, check the checkbox to instruct the ACE to reply to an ICMP request only
if the configured VIP is active. If the VIP is not active and the active option is specified, the
ACE discards the ICMP request and the request times out.
b. In the Primary Inservice field, check the checkbox to instruct the ACE to reply to an ICMP
ping only if the primary server farm state is UP, regardless of the state of the backup server
farm. If this option is enabled and the primary server farm state is DOWN, the ACE discards
the ICMP request and the request times out.
VIP-In-Service VIP is to be enabled for server load-balancing operations.
Table 14-18 Layer 3/Layer 4 Network Traffic Policy Map Actions (continued)
Action Description/Steps
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Table 14-19 Layer 3/Layer 4 Network Traffic Policy Map Application Inspection Options
Option Description
DNS Domain Name System (DNS) query inspection is to be implemented. DNS requires application
inspection so that DNS queries will not be subject to the generic UDP handling based on activity
timeouts. Instead, the UDP connections associated with DNS queries and responses are torn down as
soon as a reply to a DNS query has been received. The ACE performs the reassembly of DNS packets
to verify that the packet length is less than the configured maximum length.
In the DNS Max. Length field, enter the maximum length of a DNS reply in bytes. Default for all
modules and ACE 4710 devices is 512. Valid range for ACE 1.0 modules is 64 to 65535, and for all
other supported modules and ACE 4710 devices, 64 to 65535.
FTP FTP inspection is to be implemented. The ACE inspects FTP packets, translates the address and port
embedded in the payload, and opens up secondary channel for data.
a. In the Parameter Map field, specify a previously created parameter map used to define parameters
for FTP inspection.
b. In the FTP Strict field, specify whether or not the ACE is to check for protocol RFC compliance
and prevent Web browsers from sending embedded commands in FTP requests:
– N/A—This attribute is not set.
– False—The ACE is not to check for RFC compliance or prevent Web browsers from sending
embedded commands in FTP requests.
– True—The ACE is to check for RFC compliance and prevent Web browsers from sending
embedded commands in FTP requests.
c. If you chose True, in the FTP Inspect Policy field, choose the Layer 7 FTP command inspection
policy to be implemented for this rule.
HTTP Enhanced Hypertext Transfer Protocol (HTTP) inspection is to be performed on HTTP traffic. The
inspection checks are based on configured parameters in an existing Layer 7 policy map and internal
RFC compliance checks performed by the ACE. By default, the ACE allows all request methods.
Do the following:
a. In the HTTP Inspect Policy field, choose the HTTP inspection policy map to be implemented for
this rule. If you do not specify a Layer 7 policy map, the ACE performs a general set of Layer 3
and Layer 4 protocol fixup actions and internal RFC compliance checks.
b. In the URL Logging field, specify whether or not Layer 3 and Layer 4 traffic is to be monitored:
– N/A—This attribute is not set.
– False—Layer 3 and Layer 4 traffic is not to be monitored.
– True—Layer 3 and Layer 4 traffic is to be monitored. When enabled, this function logs every
URL request that is sent in the specified class of traffic, including the source or destination IP
address and the URL that is accessed.
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ICMP Internet Control Message Protocol (ICMP) payload inspection is to be performed. ICMP inspection
allows ICMP traffic to have a “session” so that it can be inspected similarly to TCP and UDP traffic.
In the ICMP Error field, specify whether or not the ACE is to perform name address translation on
ICMP error messages:
• N/A—This attribute is not set.
• False—The ACE is not to perform NAT on ICMP error messages.
• True—The ACE is to perform NAT on ICMP error messages. When enabled, the ACE creates
translation sessions for intermediate or endpoint nodes that send ICMP error messages based on
the NAT configuration. The ACE overwrites the packet with the translated IP addresses.
ILS Internet Locator Service (ILS) protocol inspection is to be implemented.
RTSP Real Time Streaming Protocol (RTSP) packet inspection is to be implemented. RTSP is used by
RealAudio, RealNetworks, Apple QuickTime 4, RealPlayer, and Cisco IP/TV connections. The ACE
monitors Setup and Response (200 OK) messages in the control channel established using TCP port
554 (no UDP support).
In the Parameter Map field, choose a previously defined parameter map used to define parameters for
RTSP inspection.
SIP SIP protocol inspection is to be implemented. SIP is used for call handling sessions and instant
messaging. The ACE inspects signaling messages for media connection addresses, media ports, and
embryonic connections. The ACE also uses NAT to translate IP addresses that are embedded in the
user-data portion of the packet.
Do the following:
a. In the Parameter Map field, specify a previously created parameter map used to define parameters
for SIP inspection.
b. In the SIP Inspect Policy field, choose a previously created Layer 7 SIP inspection policy map to
implement packet inspection of Layer 7 SIP application traffic.
If you do not specify a Layer 7 policy map, the ACE performs a general set of Layer 3 and Layer
4 HTTP fixup actions and internal RFC compliance checks.
Skinny Cisco Skinny Client Control Protocol (SCCP) protocol inspection is to be implemented. The SCCP is
a Cisco proprietary protocol that is used between Cisco CallManager and Cisco VOiP phones. The
ACE uses NAT to translate embedded IP addresses and port numbers in SCCP packet data.
Do the following:
a. In the Parameter Map field, specify a previously created connection parameter map used to define
parameters for Skinny inspection.
b. In the Skinny Inspect Policy field, choose a previously created Layer 7 Skinny inspection policy
map to implement packet inspection of Layer 7 Skinny application traffic.
If you do not specify a Layer 7 policy map, the ACE performs a general set of Layer 3 and Layer
4 HTTP fixup actions and internal RFC compliance checks.
Table 14-19 Layer 3/Layer 4 Network Traffic Policy Map Application Inspection Options (continued)
Option Description
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Step 12 Do the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Action table.
• Click Next to deploy your entries and to configure another Action.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
Setting Policy Map Rules and Actions for Layer 7 FTP Command Inspection
You can add rules and actions for Layer 7 FTP command inspection policy maps.
File Transfer Protocol (FTP) inspection inspects FTP sessions for address translation in a message,
dynamic opening of ports, and stateful tracking of request and response messages. Each specified FTP
command must be acknowledged before the ACE allows a new command. Command filtering allows you
to restrict specific commands by the ACE. When the ACE denies a command, it closes the connection.
The FTP command inspection process, as performed by the ACE:
• Prepares a dynamic secondary data connection. The channels are allocated in response to a file
upload, a file download, or a directory listing event and must be prenegotiated. The port is negotiated
through the PORT or PASV commands.
• Tracks the FTP command-response sequence. The ACE performs the command checks listed below.
If you specify the FTP Strict field in a Layer 3 and Layer 4 policy map, the ACE tracks each FTP
command and response sequence for the anomalous activity outlined below. The FTP Strict
parameter is used in conjunction with a Layer 7 FTP policy map (nested within the Layer 3 and
Layer 4 policy map) to deny certain FTP commands or to mask the server reply for SYST command.
Note The use of the FTP Strict parameter may affect FTP clients that do not comply with the RFC
standards.
– Truncated command—Checks the number of commas in the PORT and PASV reply command
against a fixed value of five. If the value is not five, the ACE assumes that the PORT command
is truncated and issues a warning message and closes the TCP connection.
– Incorrect command—Checks the FTP command to verify if it ends with characters,
as required by RFC 959. If the FTP command does not end with those characters, the ACE
closes the connection.
– Size of RETR and STOR commands—Checked the size of the RETR and STOR commands
against a fixed constant of 256. If the size is greater, the ACE logs an error message and closes
the connection.
– Command spoofing—Verifies that the PORT command is always sent from the client. If a PORT
command is sent from the server, the ACE denies the TCP connection.
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– Reply spoofing—Verifies that the PASV reply command (227) is always sent from the server.
If a PASV reply command is sent from the client, the ACE denies the TCP connection. This
denial prevents a security hole when the user executes “227 xxxxx a1, a2, a3, a4, p1, p2.”
– Invalid port negotiation—Checks the negotiated dynamic port value to verify that it is greater
than 1024 (port numbers in the range from 2 to 1024 are reserved for well-known connections).
If the negotiated port falls in this range, the ACE closes the TCP connection.
– Command pipelining—Checks the number of characters present after the port numbers in the
PORT and PASV reply command against a constant value of 8. If the number of characters is
greater than 8, the ACE closes the TCP connection.
• Translates embedded IP addresses in conjunction with NAT. FTP command inspection translates the
IP address within the application payload. Refer to RFC 959 for background details.
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, choose the Layer 7 FTP command inspection policy map that you want to set
rules and actions for.
The Rule table appears.
Step 3 In the Rule table, click Add to add a new rule, or choose an existing rule and click Edit to modify it.
The Rule configuration window appears.
Step 4 In the Type field of the Rule configuration window, configure rules using the information in Table 14-20.
Table 14-20 Layer 7 FTP Command Inspection Policy Map Rules
Option Description
Class Map Class map to use for this traffic policy.
Do the following:
a. To use the class-default class map, check the Use Class Default check box.
The class-default class map is a reserved, well-known class map created by the ACE. You cannot
delete or modify this class. All traffic that fails to meet the other matching criteria in the named
class map belongs to the default traffic class. If none of the specified classifications matches the
traffic, then the ACE performs the action specified by the class-default class map. The
class-default class map has an implicit match any statement that enables it to match all traffic.
b. To use a previously created class map, do the following:
1. Clear the Use Class Default check box.
2. In the Class Map Name field, choose the class map to be used.
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Step 5 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The window refreshes and the Action table
appears. Continue with Step 6.
• Click Cancel to exit this procedure without saving your entries and to return to the Policy Maps
table.
• Click Next to deploy your entries and to configure another rule.
Note If you chose the Insert Before option described in Table 14-20 and specified True, perform the
following steps to refresh the Rule tab before adding an action for this rule:
1. Click the Rule tab to refresh the Rule table.
2. In the Rule table, choose the newly added rule.
When the window refreshes, an empty action list appears.
Step 6 In the Action table, click Add to add an entry, or choose an existing entry and click Edit to modify it.
The Action configuration window appears.
Step 7 In the Id field of the Action configuration window, either accept the automatically incremented entry or
assign a unique identifier for this action.
Step 8 In the Action Type field, specify the action to be taken for this rule:
• Deny—The ACE is to deny the specified FTP command when this rule is met.
Match Condition Match condition to use for this traffic policy.
Do the following:
a. In the Match Condition Name field, enter a name for this match condition. Valid entries are
unquoted text strings with no spaces and a maximum of 64 alphanumeric characters.
b. In the Match Condition Type field, confirm that Request Method Name is selected.
c. In the Request Method Name field, choose the FTP command to be inspected for this rule.
Table 14-8 describes the FTP commands that can be inspected.
Insert Before Order of the rules in the policy map.
Do the following:
a. Specify whether or not this rule is to precede another rule for this policy map. Choices are as
follows:
– N/A—This option is not configured.
– False—This rule is not to precede another rule in this policy map.
– True—This rule is to precede another rule in this policy map. The Insert Before Policy Rule
field appears.
b. If you chose True, in the Insert Before Policy Rule field, choose the rule that you want the current
rule to precede.
Table 14-20 Layer 7 FTP Command Inspection Policy Map Rules (continued)
Option Description
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• Mask Reply—The ACE is to mask the reply to the FTP syst command by filtering sensitive
information from the command output. The action applies to the FTP syst command only.
Step 9 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Action table.
• Click Next to deploy your entries and to configure another action for this rule.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
Setting Policy Map Rules and Actions for Layer 7 HTTP Deep Packet Inspection
You can add rules and actions for Layer 7 HTTP deep packet inspection policy maps.
The ACE performs a stateful deep packet inspection of the HTTP protocol. Deep packet inspection is a
special case of application inspection where the ACE examines the application payload of a packet or a
traffic stream and makes decisions based on the content of the data. During HTTP deep inspection, the
main focus of the application inspection process is on HTTP attributes such as HTTP header, URL, and
to a limited extent, the payload. User-defined regular expressions can also be used to detect “signatures”
in the payload.
You define policies to permit or deny the traffic, or to send a TCP reset message to the client or server
to close the connection.
The security features covered by HTTP application inspection include:
• RFC compliance monitoring and RFC method filtering
• Content, URL, and HTTP header length checks
• Transfer-encoding methods
• Content type verification and filtering
• Port 80 misuse
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, choose the Layer 7 deep packet inspection policy map that you want to set rules
and actions for.
The Rule table appears.
Step 3 In the Rule table, click Add to add a new rule, or choose an existing rule and click Edit to modify it.
The Rule configuration window appears.
Step 4 In the Type field of the Rule configuration window, configure rules using the information in Table 14-21.
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Table 14-21 Layer 7 HTTP Deep Packet Inspection Policy Map Rules
Option Description
Class Map Class map to use for this traffic policy.
From the Use Class Map field, do one of the following:
• To use the default class map, choose class-default.
The class-default class map is a reserved, well-known class map created by the ACE. You cannot
delete or modify this class. All traffic that fails to meet the other matching criteria in the named
class map belongs to the default traffic class. If none of the specified classifications matches the
traffic, then the ACE performs the action specified by the class-default class map. The
class-default class map has an implicit match any statement that enables it to match all traffic.
• To use a previously created class map, do the following:
1. Choose others.
2. In the Class Map Name field, choose the class map to use.
Match Condition Match condition to use for this traffic policy.
Do the following:
a. In the Match Condition Name field, enter a name for this match condition. Valid entries are
unquoted text strings with no spaces and a maximum of 64 alphanumeric characters.
b. In the Match Condition Type field, choose the method by which match decisions are to be made
and their corresponding conditions. See Table 14-22 for information about these selections.
Insert Before Order of the rules in the policy map.
Do the following:
a. Specify whether or not this rule is to precede another rule for this policy map. Choices are as
follows:
– N/A—This option is not configured.
– False—This rule is not to precede another rule in this policy map.
– True—This rule is to precede another rule in this policy map. The Insert Before Policy Rule
field appears.
b. If you chose True, in the Insert Before Policy Rule field, choose the rule that you want the current
rule to precede.
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Table 14-22 Layer 7 HTTP Deep Packet Inspection Policy Map Match Conditions
Match Condition Description
Content Content contained within the HTTP entity-body that is used for protocol inspection decisions.
Do the following:
a. In the Content Expression field, enter the content that is to be matched. Valid entries are
alphanumeric strings from 1 to 255 characters.
b. In the Content Offset (Bytes) field, enter the number of bytes to be ignored starting with the
first byte of the Message body, after the empty line (CR,LF,CR,LF) between the headers and
the body of the message. Valid entries are from 1 to 255 bytes.
Content Length Content parse length in an HTTP message that is used for protocol inspection decisions.
Do the following:
a. In the Content Length Operator field, choose the operand to be used to compare content
length:
– Equal To—Content length must equal the number in the Content Length Value (Bytes)
field.
– Greater Than—Content length must be greater than the number in the Content Length
Value (Bytes) field.
– Less Than—Content length must be less than the number in the Content Length Value
(Bytes) field.
– Range—Content length must be within the range specified in the Content Length Lower
Value (Bytes) field and the Content Length Higher Value (Bytes) field.
b. Enter values to apply for content length comparison as follows:
– If you chose Equal To, Greater Than, or Less Than in the Content Length Operator field,
the Content Length Value (Bytes) field appears. In the Content Length Value (Bytes) field,
enter the number of bytes for comparison. Valid entries are from 0 to 4294967295.
– If you chose Range in the Content Length Operator field, the Content Length Lower Value
(Bytes) and the Content Length Higher Value (Bytes) fields appear:
1. In the Content Length Lower Value (Bytes) field, enter the lowest number of bytes to
be used for this match condition. Valid entries are from 0 to 4294967295. The number in
this field must be less than the number entered in the Content Length Higher Value
(Bytes) field.
2. In the Content Length Higher Value (Bytes) field, enter the highest number of bytes to
be used for this match condition. Valid entries are from 1 to 4294967295. The number in
this field must be greater than the number entered in the Content Length Lower Value
(Bytes) field.
Content Type
Verification
Match command that verifies the content MIME-type messages with the header MIME-type. This
inline match command limits the MIME-types in HTTP messages allowed through the ACE. It
verifies that the header MIME-type value is in the internal list of supported MIME-types and the
header MIME-type matches the actual content in the data or entity body portion of the message.
If they do not match, the ACE performs the specified Layer 7 policy map action.
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Header Name and value in an HTTP header that are used for protocol inspection decisions.
Do the following:
a. In the Header field, choose one of the predefined HTTP headers to be matched, or choose
HTTP Header to specify a different HTTP header.
b. If you chose HTTP Header, in the Header Name field, enter the name of the HTTP header to
match. Valid entries are unquoted text strings with no spaces and a maximum of 64
alphanumeric characters.
c. In the Header Value (Bytes) field, enter the header value expression string to compare against
the value in the specified field in the HTTP header. Valid entries are text strings with a
maximum of 255 alphanumeric characters. The ACE supports regular expressions for
matching. To include spaces in the string, enclose the entire string in quotes. All headers in
the header map must be matched. See Table 14-33 for a list of the supported characters that
you can use in regular expressions.
Header Length Length of the header in the HTTP message that is used for protocol inspection decisions.
Do the following:
a. In the Header Length Type field, specify whether or not HTTP header request or response
messages are to be used for protocol inspection decisions:
– Request—HTTP header request messages are to be checked for header length.
– Response—HTTP header response messages are to be checked for header length.
b. In the Header Length Operator field, choose the operand to be used to compare header length:
– Equal To—The header length must equal the number in the Header Length Value (Bytes)
field.
– Greater Than—The header length must be greater than the number in the Header Length
Value (Bytes) field.
– Less Than—The header length must be less than the number in the Header Length Value
(Bytes) field.
– Range—The header length must be within the range specified in the Header Length
Lower Value (Bytes) field and the Header Length Higher Value (Bytes) field.
c. Enter values to apply for header length comparison as follows:
– If you chose Equal To, Greater Than, or Less Than in the Header Length Operator field,
the Header Length Value (Bytes) field appears. In the Header Length Value (Bytes) field,
enter the number of bytes for comparison. Valid entries are from 0 to 255.
– If you chose Range in the Header Length Operator field, the Header Length Lower Value
(Bytes) and the Header Length Higher Value (Bytes) fields appear.
Do the following:
1. In the Header Length Lower Value (Bytes) field, enter the lowest number of bytes to be
used for this match condition. Valid entries are from 0 to 255. The number in this field
must be less than the number entered in the Header Length Higher Value (Bytes) field.
2. In the Header Length Higher Value (Bytes) field, enter the highest number of bytes to
be used for this match condition. Valid entries are from 1 to 255. The number in this field
must be greater than the number entered in the Header Length Lower Value (Bytes) field.
Table 14-22 Layer 7 HTTP Deep Packet Inspection Policy Map Match Conditions (continued)
Match Condition Description
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Header MIME Type Multipurpose Internet Mail Extension (MIME) message types that are used for protocol inspection
decisions. In the Header MIME Type field, choose the MIME message type to be used for this
match condition.
Port Misuse Misuse of port 80 (or any other port running HTTP) that is used for protocol inspection decisions.
In the Port Misuse field, choose the application category to be used for this match condition:
• IM—Instant messaging applications are to be used for this match condition.
• P2P—Peer-to-peer applications are to be used for this match condition.
• Tunneling—Tunneling applications are to be used for this match condition.
Request Method Request method that is used for protocol inspection decisions. By default, ACEs allow all request
and extension methods. This option allows you to configure class maps that define protocol
inspection decisions based on compliance to request methods defined in RFC 2616 and by HTTP
extension methods.
a. In the Request Method Type field, choose the type of compliance to be used for protocol
inspection decision:
– Ext—An HTTP extension method is to be used for protocol inspection decisions.
Note The list of available HTTP extension methods from which to choose varies
depending on the version of software installed in the ACE.
– RFC—A request method defined in RFC 2616 is to be used for protocol inspection
decisions.
b. In the Request Method field, choose the specific request method to be used.
Strict HTTP Internal compliance checks that are performed to verify that a message is compliant with the HTTP
RFC standard, RFC 2616. If the HTTP message is not compliant, the ACE performs the specified
Layer 7 policy map action.
Transfer Encoding HTTP transfer-encoding type that is used for protocol inspection decisions. The transfer-encoding
general-header field indicates the type of transformation, if any, that has been applied to the HTTP
message body to safely transfer it between the sender and the recipient.
In the Transfer Encoding field, choose the type of encoding that is to be checked:
• Chunked—Message body is transferred as a series of chunks.
• Compress—Encoding format that is produced by the UNIX file compression program
compress.
• Deflate—The .zlib format that is defined in RFC 1950 in combination with the DEFLATE
compression mechanism described in RFC 1951.
• Gzip—Encoding format that is produced by the file compression program GZIP (GNU zip)
as described in RFC 1952.
• Identity—Default (identity) encoding which does not require the use of transformation.
Table 14-22 Layer 7 HTTP Deep Packet Inspection Policy Map Match Conditions (continued)
Match Condition Description
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Step 5 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The window refreshes and the Action table
appears. To define actions for this rule, continue with Step 6.
• Click Cancel to exit this procedure without saving your entries and to return to the Policy Maps
table.
• Click Next to deploy your entries and to configure another rule.
URL URL names are used for protocol inspection decisions. In the URL field, enter a URL or a portion
of a URL to match. Valid entries are URL strings from 1 to 255 alphanumeric characters and
include only the portion of the URL following www.hostname.domain. For example, in the URL
www.anydomain.com/latest/whatsnew.html, include only /latest/whatsnew.html.
URL Length URL length that is used for protocol inspection decisions.
Do the following:
a. In the URL Length Operator field, choose the operand to be used to compare URL length:
– Equal To—URL length must equal the number in the URL Length Value (Bytes) field.
– Greater Than—URL length must be greater than the number in the URL Length Value
(Bytes) field.
– Less Than—URL length must be less than the number in the URL Length Value (Bytes)
field.
– Range—URL length must be within the range specified in the URL Length Lower Value
(Bytes) field and the URL Length Higher Value (Bytes) field.
b. Enter values to apply for URL length comparison as follows:
– If you chose Equal To, Greater Than, or Less Than in the URL Length Operator field, the
URL Length Value (Bytes) field appears. In the URL Length Value (Bytes) field, enter the
value for comparison. Valid entries are from 1 to 65535 bytes.
– If you chose Range in the URL Length Operator field, the URL Length Lower Value
(Bytes) and the URL Length Higher Value (Bytes) fields appear.
Do the following:
1. In the URL Length Lower Value (Bytes) field, enter the lowest number of bytes to be
used for this match condition. Valid entries are from 1 to 65535. The number in this field
must be less than the number entered in the URL Length Higher Value (Bytes) field.
2. In the URL Length Higher Value (Bytes) field, enter the highest number of bytes to be
used for this match condition. Valid entries are from 1 to 65535. The number in this field
must be greater than the number entered in the URL Length Lower Value (Bytes) field.
Table 14-22 Layer 7 HTTP Deep Packet Inspection Policy Map Match Conditions (continued)
Match Condition Description
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Note If you chose the Insert Before option described in Table 14-21 and specified True, perform the
following steps to refresh the Rule tab before adding an action for this rule:
1. Click the Rule tab to refresh the Rule table.
2. In the Rule table, choose the newly added rule.
When the window refreshes, an empty action list appears.
Step 6 In the Action table, click Add to add a new action, or choose an existing action and click Edit to modify
it.
The Action configuration window appears.
Step 7 In the Id field of the Action configuration window, either accept the automatically incremented entry or
assign a unique identifier for this action.
Step 8 In the Action Type field, choose the action to be taken for this rule:
• Permit—The HTTP traffic is to be allowed if it meets the match criteria.
• Reset—The HTTP traffic is to be denied if it meets the match criteria. A TCP reset message is sent
to the client or server to close the connection.
Step 9 In the Action Log field, specify whether or not the action taken is to be logged:
• N/A—This option is not configured.
• False—Dropped packets are not to be logged in the software.
• True—Dropped packets are to be logged in the software.
Step 10 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Action table.
• Click Next to configure another action for this policy map and rule.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Rules and Actions for Policy Maps, page 14-34
Setting Policy Map Rules and Actions for Layer 7 HTTP Optimization
Note HTTP optimization policy maps are available for ACE appliances only.
You can add rules and actions for Layer 7 HTTP optimization policy maps.
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Assumptions
This topic assumes the following:
• An action list has been configured. See Configuring an HTTP Optimization Action List, page 15-3
for more information.
• A class map has been defined if you are not using the class-default class map. See Configuring
Virtual Context Class Maps, page 14-6 for more information.
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, choose the Layer 7 HTTP optimization policy map that you want to set rules
and actions for.
The Rule table appears.
Step 3 In the Rule table, click Add to add a new rule, or choose an existing rule and click Edit to modify it.
The Rule configuration window appears.
Step 4 In the Type field of the Rule configuration window, configure rules using the information in Table 14-23.
Table 14-23 Layer 7 HTTP Optimization Policy Map Rules
Option Description
Class Map Class map to use for this traffic policy.
From the Use Class Map field, do one of the following:
• To use the default class map, choose class-default.
The class-default class map is a reserved, well-known class map created by the ACE. You cannot
delete or modify this class. All traffic that fails to meet the other matching criteria in the named
class map belongs to the default traffic class. If none of the specified classifications matches the
traffic, then the ACE performs the action specified by the class-default class map. The
class-default class map has an implicit match any statement that enables it to match all traffic.
• To use a previously created class map, do the following:
1. Choose others.
2. In the Class Map Name field, choose the class map to use.
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Match Condition Match condition to use for this traffic policy.
Do the following:
a. In the Match Condition Name field, enter a name for this match condition. Valid entries are
unquoted text strings with no spaces and a maximum of 64 alphanumeric characters.
b. In the Match Condition Type field, choose the method by which match decisions are to be made
and their corresponding conditions. See Table 14-24 for information about these selections.
Insert Before Order of the rules in the policy map.
Do the following:
a. Specify whether or not this rule is to precede another rule for this policy map:
– N/A—This option is not configured.
– False—This rule is not to precede another rule in this policy map.
– True—This rule is to precede another rule in this policy map. The Insert Before Policy Rule
field appears.
b. If you chose True, in the Insert Before Policy Rule field, choose the rule that you want the current
rule to precede.
Table 14-23 Layer 7 HTTP Optimization Policy Map Rules (continued)
Option Description
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Step 5 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The window refreshes and the Action table
appears. To define actions for this rule, continue with Step 6.
• Click Cancel to exit this procedure without saving your entries and to return to the Rule table.
• Click Next to deploy your entries and to configure another rule.
Table 14-24 Layer 7 HTTP Optimization Policy Map Match Conditions
Match Condition Procedure
Cookie HTTP cookie that is to be used to establish a match condition.
Do the following:
a. In the Cookie Name field, enter a unique cookie name. Valid entries are unquoted text strings
with no spaces and a maximum of 64 alphanumeric characters.
b. In the Cookie Value field, enter a unique cookie value expression. Valid entries are unquoted
text strings with no spaces and a maximum of 255 alphanumeric characters.
c. In the Secondary Cookie field, check the checkbox to specify that the ACE is to use either the
cookie name or the cookie value to satisfy this match condition. Uncheck this check box to
indicate that the ACE is to use either the cookie name or the cookie value to satisfy this match
condition.
Header HTTP header that is to be used to establish a match condition.
Do the following:
a. In the Header field, choose one of the predefined HTTP headers to be matched, or choose
HTTP Header to specify a different HTTP header.
b. If you chose HTTP Header, in the Header Name field, enter the name of the HTTP header to
match. Valid entries are unquoted text strings with no spaces and a maximum of 64
alphanumeric characters.
c. In the Header Value (Bytes) field, enter the header value expression string to compare against
the value in the specified field in the HTTP header. Valid entries are text strings with a
maximum of 255 alphanumeric characters. The ACE supports regular expressions for
matching. To include spaces in the string, enclose the entire string in quotes. All headers in
the header map must be matched. See Table 14-33 for a list of the supported characters that
you can use in regular expressions.
HTTP URL Portion of an HTTP URL that is to be used to establish a match condition.
Do the following:
a. In the URL Expression field, enter a URL or a portion of a URL to match. Valid entries are
URL strings from 1 to 255 alphanumeric characters and include only the portion of the URL
following www.hostname.domain. For example, in the URL
www.anydomain.com/latest/whatsnew.html, include only /latest/whatsnew.html.
b. In the Method Expression field, enter the HTTP method to match. Valid entries are method
names entered as unquoted text strings with no spaces and a maximum of 15 alphanumeric
characters. You can enter either one of the standard HTTP 1.1 method names (OPTIONS,
GET, HEAD, POST, PUT, DELETE, TRACE, or CONNECT) or a text string that must be
matched exactly (for example, CORVETTE).
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Note If you chose the Insert Before option described in Table 14-23 and specified True, perform the
following steps to refresh the Rule tab before adding an action for this rule:
1. Click the Rule tab to refresh the Rule table.
2. In the Rule table, choose the newly added rule.
When the window refreshes, an empty action list appears.
Step 6 In the Action table, click Add to add a new action, or choose an existing action and click Edit to modify
it.
The Action configuration window appears.
Step 7 In the Id field of the Action configuration window, either accept the automatically incremented entry or
assign a unique identifier for this action.
Step 8 In the Action Type field, confirm that Action List is selected.
Step 9 In the Action List field, choose the action list to apply to this policy map and rule.
Step 10 In the Optimization Parameter Map field, choose the optimization parameter map to apply to this policy
map and rule.
Step 11 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries and to return to the Action table.
• Click Next to deploy your entries and to configure another action for this rule.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Rules and Actions for Policy Maps, page 14-34
Setting Policy Map Rules and Actions for Layer 7 Server Load-Balancing Traffic
You can set rules and actions for Layer 7 server load-balancing policy maps.
Assumptions
This topic assumes the following:
• You have configured a load-balancing policy map and want to establish the corresponding rules and
actions.
• If you want to configure an SSL proxy action, you have configured SSL proxy service for this
context.
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• If you want to insert, rewrite, and delete HTTP headers, ensure that an HTTP header modify action
list has been configured (see the “Configuring an HTTP Header Modify Action List” section on
page 14-85).
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, choose the load-balancing policy map you want to set rules and actions for.
The Rule table appears.
Step 3 In the Rule table, click Add to add a new rule, or choose an existing rule and Edit to modify it.
The Rule configuration window appears.
Step 4 From the Type field, choose one of the following rule types to use:
• Class Map—Indicates that the ACE appliance is to use an existing class map that identifies the rules
and corresponding actions. If you choose this rule type, go to Step 5.
• Match Condition—Indicates that the ACE appliance is to use a set of conditions to identify the
rules and corresponding actions. If you choose this rule type, go to Step 6.
Step 5 If you chose Class Map rule type, from the Use Class Map field, either choose class-default to use the
default class map or specify a previously created class map as follows:
a. From the Use Class Map field, choose others. The Class Map field appears.
b. From the Class Map field, choose the class map to use.
c. In the Insert Before field, indicate whether this rule is to precede another rule in this policy map by
choosing on of the following options:
– N/A—Indicates that this option is not configured.
– False—Indicates that this rule is not to precede another rule in this policy map.
– True—Indicates that this rule is to precede another rule in this policy map.
d. If you chose True, the Insert Before Policy Rule field appears. Select the rule that you want the
current rule to precede.
Step 6 If you chose the Match Conditions rule type, do the following:
a. In the Match Condition Name field enter a name for the match condition. Valid entries are unquoted
text strings with no spaces and a maximum of 64 alphanumeric characters.
b. In the Match Condition Type field, select the method by which match decisions are to be made and
their corresponding conditions. See Table 14-25 for information about these selections.
Note Fields and information related to IPv6 require ACE module and ACE appliance software
Version A5(1.0) or later.
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Table 14-25 Layer 7 Server Load Balancing Policy Map Match Conditions
Match Condition Description
HTTP Content Option that appears for ACE modules only. Specific content contained within the HTTP
entity-body is used to establish a match condition.
Do the following:
a. In the Content Expression field, enter the content that is to be matched. Valid entries are
alphanumeric strings from 1 to 255 characters.
b. In the Content Offset (Bytes) field, enter the number of bytes to be ignored starting with the
first byte of the Message body, after the empty line (CR,LF,CR,LF) between the headers and
the body of the message. Valid entries are from 1 to 255.
HTTP Cookie HTTP cookies are to be used for this match condition.
Do the following:
a. In the Cookie Name field, enter a unique cookie name. Valid entries are unquoted text strings
with no spaces and a maximum of 64 alphanumeric characters.
b. In the Cookie Value field, enter a unique cookie value expression. Valid entries are unquoted
text strings with no spaces and a maximum of 255 alphanumeric characters. The ACE supports
regular expressions for matching string expressions. Table 14-33 lists the supported characters
that you can use for matching string expressions.
HTTP Header HTTP header and a corresponding value are to be used for this match condition.
Do the following:
a. In the Header Name field, specify the header to match in one of the following ways:
– To specify an HTTP header that is not one of the standard HTTP headers, choose the first
radio button, then enter the HTTP header name in the Header Name field. Valid entries
are unquoted text strings with no spaces and a maximum of 64 characters.
– To specify a standard HTTP header, click the second radio button, then choose an HTTP
header from the list.
b. In the Header Value (Bytes) field, enter the header-value expression string to compare against
the value in the specified field in the HTTP header. Valid entries are text strings with a
maximum of 255 alphanumeric characters. The ACE supports regular expressions for
matching. To include spaces, enclose the entire string in quotes. All headers in the header map
must be matched. See Table 14-33 for a list of the supported characters that you can use in
regular expressions.
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Step 7 For specific class maps and match conditions, in the Insert Before field, indicate whether this rule is to
precede another defined policy rule by choosing one of the following:
• N/A—Indicates that this option is not applicable.
• False—Indicates that this rule is not to precede another defined policy rule.
• True—Indicates that this rule is to precede another policy rule.
If you select True, in the Insert Before Policy Rule field, select the policy rule that this rule is to
precede.
Step 8 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The window refreshes and the Action table
appears. To define the actions for this rule, continue with Step 9.
• Click Cancel to exit this procedure without saving your entries and to return to the Rule table.
• Click Next to deploy your entries and to configure another rule.
HTTP URL Rule that performs regular expression matching against the received packet data from a particular
connection based on the HTTP URL string.
Do the following:
a. In the URL Expression field, enter a URL, or portion of a URL, to match. Valid entries are
URL strings from 1 to 255 alphanumeric characters. Include only the portion of the URL
following www.hostname.domain in the match statement. For example, in the URL
www.anydomain.com/latest/whatsnew.html, include only /latest/whatsnew.html. To match the
www.anydomain.com portion, the URL string can take the form of a URL regular expression.
The ACE supports regular expressions for matching URL strings. See Table 14-33 for a list of
the supported characters that you can use in regular expressions.
b. In the Method Expression field, enter the HTTP method to match. Valid entries are unquoted
text strings with no spaces and a maximum of 15 alphanumeric characters. The method can
either be one of the standard HTTP 1.1 method names (OPTIONS, GET, HEAD, POST, PUT,
DELETE, TRACE, or CONNECT) or a text string that must be matched exactly (for example,
CORVETTE).
Source Address Client source IP address that is used to establish match conditions.
Do the following:
a. In the IP Address Type field, choose either IPv4 or IPv6. This field appears only for ACE
module and ACE appliance software Version A5(1.0) or later, which supports IPv4 and IPv6.
b. In the Source IP v4/v6 Address field, enter the source IP address of the client in the format
based on the address type (IPv4 or IPv6).
c. Depending on the IP address type that you chose, do one of the following:
– For IPv4, from the Source Netmask field, choose the subnet mask of the IP address.
– For IPv6, from the Source Prefix-length field, enter the prefix length for the address.
Table 14-25 Layer 7 Server Load Balancing Policy Map Match Conditions (continued)
Match Condition Description
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Note If you chose the Insert Before option described in Step 7 and specified True, perform the
following steps to refresh the Rule tab before adding an action for this rule:
1. Click the Rule tab to refresh the Rule table.
2. In the Rule table, choose the newly added rule.
When the window refreshes, an empty action list appears.
Step 9 In the Action table, click Add to add a new action, or choose an existing action and click Edit to modify
it.
Step 10 In the Id field, either accept the automatically incremented entry or assign a unique identifier for this
action.
Step 11 In the Action Type field, choose the action to be taken and configure any action-specific attributes as
described in Table 14-26.
Table 14-26 Layer 7 Server Load Balancing Policy Map Actions
Action Description
Action Action that the ACE is to implement for the rule. In the Action List field, choose an action list to
associate with this rule.
Compress Option that appears for ACE appliances (all versions) and ACE modules version A4(1.0) and later.
The ACE is to compress packets that match this policy map. This option is available only when
you associate an HTTP-type class map with a policy map.
In the Compress Method field, specify the method that the ACE is to use to compress packets:
• Deflate—Indicates that the ACE is to use the DEFLATE compression method when the client
browser supports both the DEFLATE and GZIP compression methods.
• Gzip—Indicates that ACE is to use the GZIP compression method when the client browser
supports both the DEFLATE and GZIP compression methods.
Drop Field that instructs the ACE to discard packets that match the rule. In the Action Log field, specify
whether or not the dropped packets are to be logged in the software:
• N/A—This option is not configured.
• False—Dropped packets are not to be logged in the software.
• True—Dropped packets are to be logged in the software.
Forward Field that instructs the ACE to forward requests that match this policy map without load balancing
the requests.
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Insert-HTTP Field that instructs the ACE to insert an HTTP header for Layer 7 load balancing for requests that
match this policy map. This option allows the ACE to identify a client whose IP address has been
translated using NAT by inserting a generic header and string value in the client HTTP request.
Do the following:
a. In the HTTP Header Name field, enter the name of the generic field in the HTTP header. Valid
entries are unquoted text strings with no spaces and a maximum of 64 alphanumeric
characters.
b. In the HTTP Header Value field, enter the value to be inserted into the HTTP header. Valid
entries are unquoted text strings with a maximum of 255 alphanumeric characters. The ACE
supports regular expressions for matching. To include spaces, enclose the entire string in
quotes. All headers in the header map must be matched. See Table 14-33 for a list of the
supported characters that you can use in regular expressions.
Reverse Sticky Feature that applies only to the ACE module version 3.0(0)A2(1.1), ACE appliance version
A4(1.0), or later releases of either device type. Reverse IP stickiness is an enhancement to regular
stickiness and is used mainly in firewall load balancing (FWLB). It ensures that multiple distinct
connections that are opened by hosts at both ends (client and server) are load-balanced and stuck
to the same firewall. Reverse stickiness applies to such protocols as FTP, RTSP, SIP, and so on
where there are separate control channels and data channels opened by the client and the server,
respectively. For complete details about reverse stickiness, see the Release Note for the Cisco
Application Control Engine Module (Software Version 3.0(0)A2(X)).
In the Sticky Group field, choose the name of a an existing IP netmask sticky group that you want
to associate with reverse IP stickiness.
Server Farm Field that instructs the ACE to load balance client requests for content to a server farm.
Do the following:
a. In the Server Farm field, choose the server farm to which requests for content are to be sent.
b. In the Backup Server Farm field, choose the backup server farm to which requests for content
are to be sent.
Choose N/A to indicate that no backup server farm is to be used.
c. Choose the Sticky Enabled check box to indicate that the sticky group associated with this
policy and applied to the primary server farm is applied to the backup server farm. Clear the
Sticky Enabled check box to indicate that the sticky group associated with this policy and
applied to the primary server farm in that policy is not applied to the backup server farm.
d. Choose the Aggregate State Enabled check box to indicate that the operational state of the
backup server farm is taken into consideration when evaluating the state of the load-balancing
class in a policy map. Clear this check box to indicate that the operational state of the backup
server farm is not taken into consideration when evaluating the state of the load-balancing
class in a policy map.
Table 14-26 Layer 7 Server Load Balancing Policy Map Actions (continued)
Action Description
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Server Farm-NAT Option that appears for ACE modules only. The ACE is to apply dynamic NAT to traffic for this
policy map.
Do the following:
a. In the NAT Pool ID field, enter the number of the pool of IP addresses that exist under the
VLAN specified in the VLAN Id field. Valid entries are from 1 to 2147483647. For
information on configuring NAT pools, see Configuring Virtual Context BVI Interfaces,
page 12-19.
b. In the VLAN ID field, choose the VLAN to use for NAT. Valid entries are from 1 to 4094.
c. In the Server Farm Type field, indicate whether the server farm is a backup or primary server
farm.
Set IP-TOS Set the IP Differentiated Services Code Point (DSCP) bit in the Type of Service (ToS) byte. After
the IP DSCP bit is set, other Quality of Service (QoS) services can then operate on the bit settings.
In the IP TOS Rewrite Value (Bytes) field, enter the IP DSCP value. Valid entries are from 0 to 255.
SSL-Proxy SSL proxy client service that defines the SSL parameters that the ACE is to use during the
handshake and subsequent SSL session.
Do the following:
a. In the SSL Proxy field, choose the SSL proxy service to be used for this action.
b. In the SSL Proxy Type field, confirm that Client is selected to indicate that the ACE is to be
configured so that it is recognized as an SSL client.
Sticky-Server Farm Field that instructs the ACE to load balance requests that match this policy to a sticky server farm.
In the Sticky Group field, choose the sticky server farm that is to be used for requests that match
this policy map.
Table 14-26 Layer 7 Server Load Balancing Policy Map Actions (continued)
Action Description
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Step 12 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Action table.
• Click Next to deploy your entries and to configure another action.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Rules and Actions for Policy Maps, page 14-34
Setting Policy Map Rules and Actions for Layer 7 SIP Deep Packet Inspection
You can configure the rules and actions for a SIP deep packet inspection policy map.
Assumptions
This topic assumes the following:
• A SIP deep packet inspection policy map has been configured.
• A class map has been defined for a class map rule if you do not want to use the class-default class
map.
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, choose the SIP deep packet inspection policy map that you want to set rules
and actions for.
The Rule table appears.
Step 3 In the Rule table, click Add to add a new rule, or choose the rule that you want to modify and click Edit.
The Rule window appears.
Step 4 In the Type field of the Rule window, configure rules using the information in Table 14-27.
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Step 5 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The window refreshes and the Action table
appears. Continue with Step 6.
• Click Cancel to exit this procedure without saving your entries and to return to the Rule table.
• Click Next to deploy your entries and to add another rule.
Table 14-27 Layer 7 SIP Deep Packet Inspection Policy Map Rules
Option Description
Class Map Class map to use for this traffic policy.
From the Use Class Map field, do one of the following:
• To use the default class map, choose class-default.
The class-default class map is a reserved, well-known class map created by the ACE. You
cannot delete or modify this class. All traffic that fails to meet the other matching criteria in
the named class map belongs to the default traffic class. If none of the specified classifications
matches the traffic, then the ACE performs the action specified by the class-default class map.
The class-default class map has an implicit match any statement that enables it to match all
traffic.
• To use a previously created class map, do the following:
1. Choose others.
2. In the Class Map Name field, choose the class map to use.
Match Condition Match condition to use for this traffic policy.
Do the following:
a. In the Match Condition field, enter a name for this match condition. Valid entries are unquoted
text strings with no spaces and a maximum of 64 alphanumeric characters.
b. In the Match Condition Type field, choose the type of match condition to use for this policy
map and configure any type-specific options using the information in Table 7-10.
Insert Before Order of the rules in the policy map.
Do the following:
a. Specify whether or not this rule is to precede another rule for this policy map:
– N/A—This option is not configured.
– False—This rule is not to precede another rule in this policy map.
– True—This rule is to precede another rule in this policy map. The Insert Before Policy
Rule field appears.
b. If you chose True, in the Insert Before Policy Rule field, choose the rule that you want the
current rule to precede.
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Note If you chose the Insert Before option described in Table 14-27 and specified True, perform the
following steps to refresh the Rule tab before adding an action for this rule:
1. Click the Rule tab to refresh the Rule table.
2. In the Rule table, choose the newly added rule.
When the window refreshes, an empty action list appears.
Step 6 In the Action table, click Add to add an entry or choose an existing entry to modify and click Edit.
Step 7 In the Id field, either accept the automatically incremented entry or assign a unique identifier for this
action.
Step 8 In the Action Type field, choose the action to be taken for this rule:
• Drop—The SIP traffic is to be dropped if it meets the specified match criteria.
• Permit—The SIP traffic is to be allowed if it meets the specified match criteria.
• Reset—The SIP traffic is to be denied if it meets the specified match criteria. A TCP reset message
is sent to the client or server to close the connection.
Step 9 In the Action Log field, specify whether the action taken is to be logged:
• N/A—This option is not configured.
• False—Dropped packets are not to be logged in the software.
• True—Dropped packets are to be logged in the software.
Step 10 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Action table.
• Click Next to deploy your entries and to configure another action.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Rules and Actions for Policy Maps, page 14-34
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Setting Policy Map Rules and Actions for Layer 7 Skinny Deep Packet
Inspection
You can configure the rules and actions for a Skinny Client Control Protocol (SCCP) deep packet
inspection policy map.
Assumptions
This topic assumes the following:
• A Skinny deep packet inspection policy map has been configured.
• A class map has been defined for a class map rule if you do not want to use the class-default class
map.
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, choose the Skinny deep packet inspection policy map that you want to set rules
and actions for.
The Rule table appears.
Step 3 In the Rule table, click Add to add a new rule, or choose the rule you want to modify, then click Edit.
The Rule window appears.
Step 4 In the Type field of the Rule window, confirm that Match Condition is selected.
Step 5 In the Match Condition Name field, enter a name for this match condition.
Valid entries are unquoted text strings with no spaces and a maximum of 64 alphanumeric characters.
Step 6 In the Match Condition Type field, confirm that Message ID is selected.
Step 7 In the Message ID Operator field, specify whether of not the match criteria is for a single message
identifier or for a range of message identifiers:
• Equal To—A single message identifier is used for this match condition.
In the Message ID Value field, enter the numerical identifier of a SCCP message. Valid entries are
from 0 to 65535.
• Range—A range of message identifiers is used for this match condition.
Do the following:
a. In the Message ID Low Range Value field, enter the lowest numerical identifier of a range of
SCCP messages. Valid entries are from 0 to 65535.
b. In the Message ID High Range Value field, enter the highest numerical identifier of a range of
SCCP messages. Valid entries are integers from 0 to 65535, and the value in this field must equal or
be greater than the value in the Message ID Low Range Value field.
Step 8 In the Insert Before field, specify whether or not this rule is to precede another rule in this policy map:
• N/A—This option is not configured.
• False—This rule is not to precede another rule in this policy map.
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• True—This rule is to precede another rule in this policy map. The Insert Before Policy Rule field
appears.
Step 9 If you chose True, in the Insert Before Policy Rule field, choose the rule that you want the current rule
to precede.
Step 10 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The window refreshes and the Action table
appears. To define the actions for this rule, continue with Step 11.
• Click Cancel to exit this procedure without saving your entries and to return to the Rule table.
• Click Next to deploy your entries and to configure another rule.
Note If you chose the Insert Before option in Step 8 and specified True, perform the following steps
to refresh the Rule tab before adding an action for this rule:
1. Click the Rule tab to refresh the Rule table.
2. In the Rule table, choose the newly added rule.
When the window refreshes, an empty action list appears.
Step 11 In Action table, click Add to add a new action, or choose an existing action and click Edit to modify it.
The Action configuration window appears.
Step 12 In the ID field, accept the automatically incremented entry or assign a unique identifier for this action.
Step 13 In the Action Type field, confirm that Reset is selected.
Step 14 In the Action Log field, specify whether the action taken is to be logged:
• N/A—This option is not configured.
• False—Dropped packets are not to be logged in the software.
• True—Dropped packets are to be logged in the software.
Step 15 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Action table.
• Click Next to deploy your entries and to configure another action.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Rules and Actions for Policy Maps, page 14-34
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Setting Policy Map Rules and Actions for RADIUS Server Load Balancing
You can configure the rules and actions for RADIUS traffic received by the ACE.
Assumptions
This topic assumes the following:
• A RADIUS server load balancing traffic policy map has been configured.
• A class map has been defined for a class map rule if you do not want to use the class-default class
map.
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, choose the RADIUS server load balancing policy map that you want to set rules
and actions for.
The Rule table appears.
Step 3 In the Rule table, click Add to add a new rule, or choose the rule you want to modify and click Edit.
The Rule window appears.
Step 4 In the Type field of the Rule window, configure rules using the information in Table 14-28.
Table 14-28 RADIUS Server Load Balancing Policy Map Rules
Option Description
Class Map Class map to use for this traffic policy.
From the Use Class Map field, do one of the following:
• To use the default class map, choose class-default.
The class-default class map is a reserved, well-known class map created by the ACE. You cannot
delete or modify this class. All traffic that fails to meet the other matching criteria in the named
class map belongs to the default traffic class. If none of the specified classifications matches the
traffic, then the ACE performs the action specified by the class-default class map. The class-default
class map has an implicit match any statement that enables it to match all traffic.
• To use a previously created class map, do the following:
1. Choose others.
2. In the Class Map Name field, choose the class map to use.
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Step 5 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The window refreshes and the Action table
appears. To enter actions for this rule, continue with Step 6.
• Click Cancel to exit this procedure without saving your entries and to return to the Rule table.
• Click Next to deploy your entries and to configure another rule.
Note If you chose the Insert Before option described in Table 14-28 and specified True, perform the
following steps to refresh the Rule tab before adding an action for this rule:
1. Click the Rule tab to refresh the Rule table.
2. In the Rule table, choose the newly added rule.
When the window refreshes, an empty action list appears.
Step 6 In the Action table, click Add to add an entry or choose an existing entry to modify and click Edit.
Match Condition Match condition to use for this traffic policy.
Do the following:
a. In the Match Condition Name field, enter a name for this match condition. Valid entries are
unquoted text strings with no spaces and a maximum of 64 alphanumeric characters.
b. In the Match Condition Type field, choose the type of match condition to use for this policy map:
– Calling Station ID—A unique identifier of the calling station is used to establish a match
condition.
In the RADIUS Calling Station ID field, enter the calling station identifier to match. Valid
entries are strings containing 1 to 64 alphanumeric characters. See Table 14-33 for a list of the
supported characters that you can use for matching string expressions.
– User Name—A username is used to establish a match condition.
In the User Name field, enter the name to match. Valid entries are strings containing 1 to 64
alphanumeric characters. See Table 14-33 for a list of the supported characters that you can
use for matching string expressions.
Insert Before Order of the rules in the policy map.
Do the following:
a. Indicate whether this rule is to precede another rule for this policy map:
– N/A—This option is not configured.
– False—This rule is not to precede another rule in this policy map.
– True—This rule is to precede another rule in this policy map. The Insert Before Policy Rule
field appears.
b. If you chose True, in the Insert Before Policy Rule field, choose the rule that you want the current
rule to precede.
Table 14-28 RADIUS Server Load Balancing Policy Map Rules (continued)
Option Description
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Step 7 In the Id field, accept the automatically incremented entry or assign a unique identifier for this action.
Step 8 In the Action Type field, configure actions for this rule using the information in Table 14-17.
Step 9 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Action table.
• Click Next to deploy your entries and to configure another action.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Rules and Actions for Policy Maps, page 14-34
Setting Policy Map Rules and Actions for RDP Server Load Balancing
Use this procedure to configure the rules and actions for RDP traffic received by the ACE.
Assumptions
This topic assumes the following:
• An RDP server load balancing traffic policy map has been configured.
• A class map has been defined for a class map rule if you do not want to use the class-default class
map.
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, choose the RDP server load balancing policy map that you want to set rules
and actions for.
The Rule table appears.
Step 3 In the Rule table, click Add to add a new rule.
The Rule window appears.
Step 4 In the Type field of the Rule window, confirm that Class Map is selected.
Step 5 Check the Use Class Default check box.
Note You can only use the default class map (Class Default) with an RDP server load balancing policy
map.
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The class-default class map is a reserved, well-known class map created by the ACE. You cannot delete
or modify this class. The class-default class map has an implicit match any statement that enables it to
match all traffic.
Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The window refreshes and the Action table
appears. To enter actions for this rule, continue with Step 7.
• Click Cancel to exit this procedure without saving your entries and to return to the Rule table.
• Click Next to deploy your entries and to configure another rule.
Step 7 In the Action table, click Add to add an entry, or choose an existing entry to modify and click Edit.
Step 8 In the Id field, accept the automatically incremented entry or assign a unique identifier for this action.
Step 9 In the Action Type field, configure actions for this rule using the information in Table 14-17.
Step 10 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Action table.
• Click Next to deploy your entries and to configure another action.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Rules and Actions for Policy Maps, page 14-34
Setting Policy Map Rules and Actions for RTSP Server Load Balancing
You can configure the rules and actions for RTSP traffic received by the ACE.
Assumptions
This topic assumes the following:
• An RTSP server load balancing traffic policy map has been configured.
• A class map has been defined for a class map rule if you do not want to use the class-default class
map.
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, choose the RTSP server load balancing policy map that you want to set rules
and actions for.
The Rule table appears.
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Step 3 In the Rule table, click Add to add a new rule, or choose the rule that you want to modify and click Edit.
The Rule window appears.
Step 4 In the Type field of the Rule window, configure rules using the information in Table 14-29.
Table 14-29 RTSP Server Load Balancing Policy Map Rules
Option Description
Class Map Class map to use for this traffic policy.
From the Use Class Map field, do one of the following:
• To use the default class map, choose class-default.
The class-default class map is a reserved, well-known class map created by the ACE. You cannot
delete or modify this class. All traffic that fails to meet the other matching criteria in the named
class map belongs to the default traffic class. If none of the specified classifications matches the
traffic, then the ACE performs the action specified by the class-default class map. The
class-default class map has an implicit match any statement that enables it to match all traffic.
• To use a previously created class map, do the following:
1. Choose others.
2. In the Class Map Name field, choose the class map to use.
Match Condition Match condition to use for this traffic policy.
Do the following:
a. In the Match Condition Name field, enter a name for this match condition. Valid entries are
unquoted text strings with no spaces and a maximum of 64 alphanumeric characters.
b. In the Match Condition Type field, choose the type of match condition to use for this policy map
and configure any type-specific options using the information in Table 14-30.
Note Fields and information related to IPv6 require ACE module and ACE appliance software
Version A5(1.0) or later.
Insert Before Order of the rules in the policy map.
Do the following:
a. Indicate whether or not this rule is to precede another rule for this policy map by choosing one of
the following options:
– N/A—This option is not configured.
– False—This rule is not to precede another rule in this policy map.
– True—This rule is to precede another rule in this policy map. The Insert Before Policy Rule
field appears.
b. If you chose True, in the Insert Before Policy Rule field, choose the rule that you want the current
rule to precede.
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Step 5 In the Insert Before field, indicate whether or not this rule is to precede another rule for this policy map:
• N/A—This option is not configured.
• False—This rule is not to precede another rule in this policy map.
Table 14-30 RTSP Policy Map Match Conditions
Match Condition Description
RTSP Header RTSP header information that is used for matching criteria.
Do the following:
a. In the Header Name field, specify the header to match in one of the following ways:
– To specify an RTSP header that is not one of the standard RTSP headers, choose the first
radio button, then enter the RTSP header name in the Header Name field. Valid entries are
unquoted text strings with no spaces and a maximum of 64 characters.
– To specify a standard RTSP header, click the second radio button, then choose an RTSP
header from the list.
b. In the Header Value (Bytes) field, enter the header value expression string to compare against
the value in the specified field in the RTSP header. Valid entries are text strings with a
maximum of 255 alphanumeric characters. The ACE supports regular expressions for
matching. If the string includes spaces, enclose the string with quotes. All headers in the
header map must be matched. See Table 14-33 for a list of the supported characters that you
can use in regular expressions.
RTSP URL URL or portion of a URL that is used for match criteria.
Do the following:
a. In the URL Expr field, enter a URL, or portion of a URL, to match. The ACE performs
matching on whatever URL string appears after the RTSP method, regardless of whether the
URL includes the host name. The ACE supports regular expressions for matching URL
strings. See Table 14-33 for a list of the supported characters that you can use in regular
expressions.
b. In the Method Expr field, enter the RTSP method to match. Valid entries are unquoted text
strings with no spaces and a maximum of 64 alphanumeric characters. The method can be
either one of the standard RTSP method names (DESCRIBE, ANNOUNCE,
GET_PARAMETER, OPTIONS, PAUSE, PLAY, RECORD, REDIRECT, SETUP,
SET_PARAMETER, TEARDOWN) or a text string that must be matched exactly (for
example, STINGRAY).
Source Address Source IP address that is used for match criteria.
Do the following:
a. In the IP Address Type field, choose either IPv4 or IPv6. This field appears only for ACE
module and ACE appliance software Version A5(1.0) or later, which supports IPv4 and IPv6.
b. In the Source Address field, enter the source IP address for this match condition in the format
based on the address type (IPv4 or IPv6).
c. Depending of the IP address type that you chose, do one of the following:
– For IPv4, In the Source Netmask field, choose the subnet mask for the source IP address.
– For IPv6, in the Source Prefix-length field, enter the prefix length for the address.
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• True—This rule is to precede another rule in this policy map. The Insert Before Policy Rule field
appears.
If you chose True, in the Insert Before Policy Rule field, choose the rule that you want the current
rule to precede.
Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The window refreshes and the Action table
appears. Continue with Step 7.
• Click Cancel to exit this procedure without saving your entries and to return to the Rule table.
• Click Next to deploy your entries and to add another rule.
Note If you chose the Insert Before option in Table 14-30 and specified True, perform the following
steps to refresh the Rule tab before adding an action for this rule:
1. Click the Rule tab to refresh the Rule table.
2. In the Rule table, choose the newly added rule.
When the window refreshes, an empty action list appears.
Step 7 In the Action table, click Add to add an entry, or choose an existing entry to modify and click Edit.
Step 8 In the Id field, accept the automatically incremented entry or assign a unique identifier for this action.
Step 9 In the Action Type field, configure actions for this rule using the information in Table 14-17.
Step 10 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Action table.
• Click Next to deploy your entries and to configure another action.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Rules and Actions for Policy Maps, page 14-34
Setting Policy Map Rules and Actions for SIP Server Load Balancing
You can configure the rules and actions for SIP traffic received by the ACE.
Assumptions
This topic assumes the following:
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• A SIP server load balancing traffic policy map has been configured.
• A class map has been defined for a class map rule if you do not want to use the class-default class
map.
Procedure
Step 1 Choose Config > Devices > context > Expert > Policy Maps.
The Policy Maps table appears.
Step 2 In the Policy Maps table, choose the SIP server load balancing policy map that you want to set rules and
actions for.
The Rule table appears.
Step 3 In the Rule table, click Add to add a new rule, or choose the rule that you want to modify and click Edit.
The Rule window appears.
Step 4 In the Type field of the Rule window, configure rules using the information in Table 14-31.
Table 14-31 SIP Server Load Balancing Policy Map Rules
Option Description
Class Map Class map to use for this traffic policy.
From the Use Class Map field, do one of the following:
• To use the default class map, choose class-default.
The class-default class map is a reserved, well-known class map created by the ACE. You cannot
delete or modify this class. All traffic that fails to meet the other matching criteria in the named
class map belongs to the default traffic class. If none of the specified classifications matches the
traffic, then the ACE performs the action specified by the class-default class map. The
class-default class map has an implicit match any statement that enables it to match all traffic.
• To use a previously created class map, do the following:
1. Choose others.
2. In the Class Map Name field, choose the class map to use.
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Match Condition Match condition to use for this traffic policy.
Do the following:
a. In the Match Condition field, enter a name for this match condition. Valid entries are unquoted text
strings with no spaces and a maximum of 64 alphanumeric characters.
b. In the Match Condition Type field, choose the type of match condition to use for this policy map
and configure any type-specific options using the information in Table 14-32.
Note Fields and information related to IPv6 require ACE module and ACE appliance software
Version A5(1.0) or later.
Insert Before Order of the rules in the policy map.
Do the following:
a. Indicate whether or not this rule is to precede another rule for this policy map. Choices are as
follows:
– N/A—This option is not configured.
– False—This rule is not to precede another rule in this policy map.
– True—This rule is to precede another rule in this policy map. The Insert Before Policy Rule
field appears.
b. If you chose True, in the Insert Before Policy Rule field, choose the rule that you want the current
rule to precede.
Table 14-31 SIP Server Load Balancing Policy Map Rules (continued)
Option Description
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Step 5 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The window refreshes and the Action table
appears so you can enter actions for this rule. Continue with Step 6.
• Click Cancel to exit this procedure without saving your entries and to return to the Rule table.
• Click Next to deploy your entries and to add another rule.
Step 6 In the Action table, click Add to add an entry, or choose an existing entry to modify and click Edit.
Step 7 In the Id field, accept the automatically incremented entry or assign a unique identifier for this action.
Step 8 In the Action Type field, configure actions for this rule using the information in Table 14-17.
Table 14-32 SIP Server Load Balancing Policy Map Match Conditions
Match Condition Description
SIP Header SIP header information that is used for matching criteria.
Do the following:
a. In the Header Name field, specify the header to match in one of the following ways:
– To specify a SIP header that is not one of the standard SIP headers, choose the first radio
button, then enter the SIP header name in the Header Name field. Valid entries are
unquoted text strings with no spaces and a maximum of 64 characters.
– To specify a standard SIP header, click the second radio button, then choose an SIP header
from the list.
b. In the Header Value (Bytes) field, enter the header value expression string to compare against
the value in the specified field in the SIP header. Valid entries are text strings with a maximum
of 255 alphanumeric characters. The ACE supports regular expressions for matching. If the
string includes spaces, enclose the string with quotes. All headers in the header map must be
matched. See Table 14-33 for a list of the supported characters that you can use in regular
expressions.
Source Address Source IP address is used for match criteria.
Do the following:
a. In the IP Address Type field, choose either IPv4 or IPv6. This field appears only for ACE
module and ACE appliance software Version A5(1.0) or later, which supports IPv4 and IPv6.
b. In the Source Address field, enter the source IP address for this match condition in the format
based on the address type (IPv4 or IPv6).
c. Depending on the IP address type that you chose, do one of the following:
– For IPv4, in the Source Netmask field, choose the subnet mask for the source IP address.
– For IPv6, in the Source Prefix-length field, enter the prefix length for the address.
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Step 9 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit the procedure without saving your entries and to return to the Action table.
• Click Next to deploy your entries and to configure another action.
Note If you chose the Insert Before option in Table 14-31 and specified True, perform the following
steps to refresh the Rule tab before adding an action for this rule:
1. Click the Rule tab to refresh the Rule table.
2. In the Rule table, choose the newly added rule.
When the window refreshes, an empty action list appears.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Rules and Actions for Policy Maps, page 14-34
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Special Characters for Matching String Expressions
Table 14-33 identifies the special characters that can be used in matching string expressions.
Related Topics
• Configuring Traffic Policies, page 14-1
• Configuring Virtual Context Class Maps, page 14-6
• Configuring Virtual Context Policy Maps, page 14-32
• Configuring Rules and Actions for Policy Maps, page 14-34
Table 14-33 Special Characters for Matching String Expressions
Convention Description
. One of any character.
.* Zero or more of any character.
\. Period (escaped).
\xhh Non-printable character.
[charset] Match any single character from the range.
[^charset] Do not match any character in the range. All other
characters represent themselves.
() Expression grouping.
expr1 | expr2 OR of expressions.
(expr)* 0 or more of expression.
(expr)+ 1 or more of expression.
.\a Alert (ASCII 7).
.\b Backspace (ASCII 8).
.\f Form-feed (ASCII 12).
.\n New line (ASCII 10).
.\r Carriage return (ASCII 13).
.\t Tab (ASCII 9).
.\v Vertical tab (ASCII 11).
.\0 Null (ASCII 0).
.\\ Backslash.
.\x## Any ASCII character as specified in two-digit
hexadecimal notation.
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Configuring Actions Lists
An action list is a named group of actions that you associate with a Layer 7 policy map. The ACE
supports the following types action lists:
• An HTTP optimization action list groups a series of individual application acceleration and
optimization operations that you want the ACE to perform. The HTTP optimization action list is
associated with a Layer 7 HTTP optimization policy map (see the “Setting Policy Map Rules and
Actions for Layer 7 HTTP Optimization” section on page 14-57).
• An HTTP header modify action list performs the following operations:
– Groups a series of individual functions to insert, rewrite, or delete HTTP headers.
– Configures the SSL URL rewrite function.
– Inserts SSL session parameters, client certificate fields, and server certificate fields into the
HTTP requests that the ACE receives over the connection.
The HTTP header action list is associated with a Layer 7 server load-balancing policy map (see the
“Setting Policy Map Rules and Actions for Layer 7 Server Load-Balancing Traffic” section on
page 14-61).
Table 14-34 lists the action lists that you can configure using the ACE.
Configuring an HTTP Header Modify Action List
An HTTP header modify action list groups a series of individual functions to insert, rewrite, or delete
HTTP headers. It can also be used to configure the SSL URL rewrite function.
This section includes the following topics:
• Configuring HTTP Header Insertion, Deletion, and Rewrite, page 14-85
• Configuring SSL URL Rewrite, page 14-88
• Configuring SSL Header Insertion, page 14-89
Configuring HTTP Header Insertion, Deletion, and Rewrite
You can configure an HTTP header modify action list that inserts, rewrites, or deletes HTTP headers.
Procedure
Step 1 Choose Config > Devices > context > Expert > HTTP Header Modify Action Lists.
The HTTP Header Modify Action Lists table appears.
Step 2 In the HTTP Header Modify Action Lists table, click Add to add a new action list, or choose an existing
action list and click Edit to modify it.
Table 14-34 Action Lists
Action List Topic
Optimization Action List Configuring an HTTP Optimization Action List, page 15-3
HTTP Header Modify Action List Configuring an HTTP Header Modify Action List, page 14-85
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Step 3 For a new action list, in the Action List Name field, enter a unique name for the action list.
Valid entries are unquoted text strings with a maximum of 64 alphanumeric characters. Click Deploy
Now when completed to save the configuration and display the editing tabs.
Step 4 Click the Header Action tab.
The Header Action table appears.
Step 5 In the Header Action table, click Add to add a new entry to the table.
The Header Action configuration window appears. Enter the required information as shown in
Table 14-35.
Table 14-35 Header Action Configuration Window Fields
Header Action Field Description / Action
Operator HTTP header modify action that the ACE is to take in an HTTP request from a client, a response from
a server, or both. Choices are as follows:
• Delete—Deletes an HTTP header in a request from a client, in a response from a server, or both.
• Insert—Insert a header name and value in an HTTP request from a client, a response from a server,
or both. When the ACE uses Network Address Translation (NAT) to translate the source IP address
of a client to a VIP, servers need a way to identify that client for the TCP and IP return traffic. To
identify a client whose source IP address has been translated using NAT, you can instruct the ACE
to insert a generic header and string value of your choice in the client HTTP request.
• Rewrite—Rewrite an HTTP header in request packets from a client, response packets from a
server, or both.
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Direction HTTP header modify action that the ACE is to take with respect to the selected operator (Insert, Delete,
or Rewrite). Choices are as follows:
Insert:
• Both—Specifies that the ACE insert an HTTP header in both HTTP request packets and response
packets.
• Request—Specifies that the ACE insert an HTTP header only in HTTP request packets from
clients.
• Response—Specifies that the ACE insert an HTTP header only in HTTP response packets from
servers.
Delete:
• Both—Specifies that the ACE delete the header in both HTTP request packets and response
packets.
• Request—Specifies that the ACE delete the header only in HTTP request packets from clients.
• Response—Specifies that the ACE delete the header only in HTTP response packets from servers.
Rewrite:
• Both—Specifies that the ACE rewrite an HTTP header string in both HTTP request packets and
response packets.
• Request—Specifies that the ACE rewrite an HTTP header string only in HTTP request packets
from clients.
• Response—Specifies that the ACE rewrite an HTTP header string only in HTTP response packets
from servers.
Header Name Identifier of an HTTP header. Enter an unquoted text string with a maximum of 255 alphanumeric
characters.
Header Value Value of the HTTP header that you want to insert or replace in request packets, response packets, or
both. Enter an unquoted text string with no spaces and a maximum of 255 alphanumeric characters.
You can also use the following dynamic replacement strings:
• %is—Inserts the source IP address in the HTTP header
• %id—Inserts the destination IP address in the HTTP header
• %ps—Inserts the source port in the HTTP header
• %pd—Inserts the destination port in the HTTP header
The ACE supports regular expressions for matching. To include spaces in the string, enclose the entire
string in quotes. All headers in the header map must be matched. See Table 14-33 for a list of the
supported characters that you can use in regular expressions.
Replace Pattern string that you want to substitute for the header value regular expression. For dynamic
replacement of the first and second parenthesized expressions from the header value, use %1 and %2,
respectively.
Table 14-35 Header Action Configuration Window Fields (continued)
Header Action Field Description / Action
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Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries.
• Click Next to save your entries.
Related Topics
Setting Policy Map Rules and Actions for Layer 7 Server Load-Balancing Traffic, page 14-61,
Table 14-26
Configuring SSL URL Rewrite
You can configure an HTTP header modify action list that performs SSL URL rewrite.
When a client sends encrypted traffic to the ACE in an SSL termination configuration, the ACE
terminates the SSL traffic and then sends clear text to the server. Because the server is unaware of the
encrypted traffic flowing between the client and the ACE, the server may return to the client a URL in
the Location header of HTTP redirect responses (301: Moved Permanently or 302: Found) in the form
http://www.cisco.com instead of https://www.cisco.com. In this case, the client makes a request to the
unencrypted insecure URL, even though the original request was for a secure URL. Because the client
connection changes to HTTP, the requested data may not be available from the server using a clear text
connection.
To solve this problem, the ACE provides SSLURL rewrite, which changes the redirect URL from http://
to https:// in the Location response header from the server before sending the response to the client. By
using URL rewrite, you can avoid nonsecure HTTP redirects. All client connections to the web server
will be SSL, ensuring the secure delivery of HTTPS content back to the client. The ACE uses regular
expression matching to determine whether the URL needs rewriting. If a Location response header
matches the specified regular expression, the ACE rewrites the URL. In addition, the ACE provides
parameters to add or change the SSL and the clear port numbers.
Procedure
Step 1 Choose Config > Devices > context > Expert > HTTP Header Modify Action Lists.
The HTTP Header Modify Action Lists table appears.
Step 2 In the HTTP Header Modify Action Lists table, click Add to add a new action list, or choose an existing
action list and click Edit to modify it.
Step 3 For a new action list, in the Action List Name field enter a unique name for the action list.
Valid entries are unquoted text strings with a maximum of 64 alphanumeric characters. Click Deploy
Now when completed to save the configuration and display the editing tabs.
Step 4 Click the SSL Action tab.
The SSL Action table appears.
Step 5 In the SSL Action table, click Add to add a new entry to the SSL Action table.
The SSL Action configuration window appears. Enter the required information as shown in Table 14-36.
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Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries.
• Click Next to save your entries.
Related Topics
• Setting Policy Map Rules and Actions for Layer 7 Server Load-Balancing Traffic, page 14-61,
Table 14-26
Configuring SSL Header Insertion
Note This option is available only for the ACE module A2(3.0), ACE appliance A4(1.0), and later releases of
either device type.
You can configure an HTTP header modify action list that performs SSL header insertion.
When a client sends encrypted traffic to the ACE in an SSL termination configuration, the ACE
terminates the SSL traffic and then sends clear text to the server, which is unaware of the encrypted
traffic flowing between the client and the ACE. Using an action list associated with a Layer 7 HTTP
load-balancing policy map, you can instruct the ACE to perform SSL HTTP header insertion. The ACE
provides the server with the following SSL session information by inserting HTTP headers into the
HTTP requests that it receives over the connection:
Table 14-36 SSL Action Configuration Window Fields
Header Action Field Description / Action
URL Expression Field that specifies the rewriting of the URL in the Location response header based on a URL
regular expression match. If the URL in the Location header matches the URL regular expression
string that you specify, the ACE rewrites the URL from http:// to https:// and rewrites the port
number. Enter an unquoted text string with no spaces and a maximum of 255 alphanumeric
characters. Alternatively, you can enter a text string with spaces if you enclose the entire string in
quotation marks (“).
The location regex that you enter must be a pure URL (for example, www\.cisco\.com) with no
port or path designations. To match a port, use the SSL Port and Clear Port parameters. If you need
to match a path, use the HTTP header rewrite feature to rewrite the string. For information about
the HTTP header rewrite feature, see the “Configuring HTTP Header Insertion, Deletion, and
Rewrite” section on page 14-85.
The ACE supports regular expressions for matching. To include spaces in the string, enclose the
entire string in quotes. All headers in the header map must be matched. See Table 14-33 for a list
of the supported characters that you can use in regular expressions.
SSL Port SSL port number from which the ACE translates a clear port number before sending the server
redirect response to the client. Enter a value from 1 to 65535. The default is 443.
Clear Port Clear port number to which the ACE translates the SSL port number before sending a server
redirect response to the client. Enter a value from 1 to 65535. The default is 80.
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• Session Parameters—SSL session parameters that the ACE and client negotiate during the SSL
handshake.
• Server Certificate Fields—Information regarding the SSL server certificate that resides on the ACE.
• Client Certificate Fields—Information regarding the SSL client certificate that the ACE retrieves
from the client when you configure the ACE to perform client authentication.
Note To prevent HTTP header spoofing, the ACE deletes any incoming HTTP headers that match one of the
headers that it is going to insert into the HTTP request.
By default, the ACE inserts the SSL header information into the first HTTP request only that it receives
over the connection. When the ACE and client need to renegotiate their connection, the ACE updates the
HTTP header information that it send to the server to reflect the new session parameters. You can also
instruct the ACE to insert the session information into every HTTP request that it receives over the
connection by creating an HTTP parameter map with either the Header Modify Per-Request or HTTP
Persistence Rebalance options enabled (see the “Configuring HTTP Parameter Maps” section on
page 10-9).
Note The maximum amount of data that the ACE can insert is 512 bytes. The ACE truncates the data if it
exceeds this limit.
Procedure
Step 1 Choose Config > Devices > context > Expert > HTTP Header Modify Action Lists.
The HTTP Header Modify Action Lists table appears.
Step 2 In the HTTP Header Modify Action Lists table, do one of the following:
• To add a new action list, click Add. In the Action List Name field, enter a unique name for the action
list. Valid entries are unquoted text strings with a maximum of 64 alphanumeric characters. Click
Deploy Now when completed to save the configuration and display the editing tabs.
• To edit an existing action list, choose the action list and click Edit to display the editing tabs.
Step 3 Click the SSL Header Insert tab.
The SSL Header Insert table appears.
Step 4 In the SSL Header Insert table, click Add to add a new entry to the SSL Header Insert table.
The SSL Header Insert configuration window appears. Enter the required information as shown in
Table 14-37.
Table 14-37 SSL Action Configuration Window Fields
Header Action Field Description / Action
Request Type of SSL header information to insert into the HTTP request:
• Client-Certificate—Information about the client certificate that the ACE retrieves from the
client.
• Server-Certificate—Information about the server certificate that resides on the ACE.
• Session—Information about the session parameters that the ACE and client negotiated during the
SSL handshake.
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Algorithm Field that appears only when the Request field is set to either Client-Certificate or Server-Certificate.
Specify the following certificate field information to insert into the HTTP request:
• Authority-Key-Id—X.509 authority key identifier.
• Basic-Constraints—X.509 basic constraints.
• Certificate-Version—X.509 certificate version.
• Data-Signature-Algorithm—X.509 hashing and encryption method.
• Fingerprint-SHA1—SHA1 hash of the certificate.
• Issuer—X.509 certificate issuer's distinguished name.
• Issuer-CN—X.509 certificate issuer's common name.
• Not-After—Date after which the certificate is not valid.
• Not-Before—Date before which the certificate is not valid.
• Public-Key-Algorithm—Algorithm used for the public key.
• RSA-Exponent—Public RSA exponent.
• RSA-Modulus—RSA algorithm modulus.
• RSA-Modulus-Size—Size of the RSA public key.
• Serial-Number—Certificate serial number.
• Signature—Certificate signature.
• Signature-Algorithm—Certificate signature algorithm.
• Subject—X.509 subject's distinguished name.
• Subject-CN—X.509 subject's common name.
• Subject-Key-Id—X.509 subject key identifier.
For more information, see the Cisco Application Control Engine Module SSL Configuration Guide.
Table 14-37 SSL Action Configuration Window Fields (continued)
Header Action Field Description / Action
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CipherKey Field that appears only when the Request field is set to Session. Indicate the following session
parameters to insert into the HTTP request:
• Cipher-Key-Size—Symmetric cipher key size.
• Cipher-Name—Symmetric cipher suite name.
• Cipher-Use-Size—Symmetric cipher use size.
• Id—SSL Session ID. The default is 0.
• Protocol-Version—Version of SSL or TLS.
• Step-Up—Use of SGC or StepUp cryptography to increase the level of security by using 128-bit
encryption.
• Verify-Result—SSL session verify result. Possible values are as follows:
– ok—The SSL session is established.
– certificate is not yet valid—The client certificate is not yet valid.
– certificate is expired—The client certificate has expired.
– bad key size—The client certificate has a bad key size.
– invalid not before field—The client certificate notBefore field is in an unrecognized format.
– invalid not after field—The client certificate notAfter field is in an unrecognized format.
– certificate has unknown issuer—The client certificate issuer is unknown.
– certificate has bad signature—The client certificate contains a bad signature.
– certificate has bad leaf signature—The client certificate contains a bad leaf signature.
– unable to decode issuer public key—The ACE is unable to decode the issuer public key.
– unsupported certificate—The client certificate is not supported.
– certificate revoked— The client certificate has been revoked.
– internal error—An internal error exists.
For more information, see the Cisco Application Control Engine Module SSL Configuration Guide.
Value Field that appears only when the Request field is set to either Client-Certificate or Server-Certificate.
Choose one of the following options:
• N/A—Specifies that the selected algorithm or cipher key is inserted without adding a prefix to it
or renaming it.
• Prefix—Enables you to specify a prefix string to place before the specified certificate or session
field name. For example, if you specify the prefix Acme-SSL for the SSL session field name
Cipher-Name, then the field name becomes Acme-SSL-Session-Cipher-Name.
• Rename—Enables you to specify a new name for the specified certificate or session field name.
Prefix Field that appears only when the Value field is set to Prefix. Enter a quoted text string to place before
the specified certificate or session field name. The maximum combined number of prefix string and
field name characters that the ACE permits is 32.
Rename Field that appears only when the Value field is set to Rename. Enter a new name to the specified
certificate or session field name. The name must be an unquoted text string with no spaces. The
maximum number of field name string characters that the ACE permits is 32.
Table 14-37 SSL Action Configuration Window Fields (continued)
Header Action Field Description / Action
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Step 5 Repeat Step 4 for each certificate field or session parameter that you want the ACE to insert.
Step 6 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
• Click Cancel to exit this procedure without saving your entries.
• Click Next to deploy your entries and to add another entry to the SSL Header Insert table.
Related Topics
Setting Policy Map Rules and Actions for Layer 7 Server Load-Balancing Traffic, page 14-61,
Table 14-26
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Configuring Application Acceleration and
Optimization
Date: 3/28/12
With application acceleration and optimization features on ACE appliances, you can configure
application delivery and application acceleration options that increase productivity and efficiency. The
application acceleration features optimize network performance and improve access to critical business
information. This capability accelerates the performance of Web applications, including customer
relationship management, portals, and online collaboration by up to 10 times.
Note Application acceleration performance on the ACE appliance is 50 to 100 Mbps throughput. With typical
page sizes and browser usage patterns, this equates to roughly 1,000 concurrent connections. Subsequent
connections bypass the application acceleration engine. This limitation applies only to traffic that is
explicitly configured to receive application acceleration processing (for example, FlashForward, Delta
Optimization). Traffic that is not configured to receive application acceleration processing is not subject
to these limitations. Also, because the ACE HTTP compression is implemented separately in hardware,
it is not subject to these limitations. For example, if you have a mix of application-accelerated and
non-application-accelerated traffic, the former is limited; the latter is not. If you have 50 Mbps of
application-accelerated traffic, the ACE can still deliver up to 1.9 Gbps throughput for the
non-application-accelerated traffic.
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Optimization Overview, page 15-2
• Optimization Traffic Policies and Typical Configuration Flow, page 15-2
• Configuring an HTTP Optimization Action List, page 15-3
• Configuring Optimization Parameter Maps, page 15-6
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Optimization Overview
• Configuring Traffic Policies for HTTP Optimization, page 15-6
• Enabling HTTP Optimization Using Virtual Servers, page 15-9
• Configuring Global Application Acceleration and Optimization, page 15-9
Optimization Overview
The application acceleration functions of the ACE appliance apply several optimization technologies to
accelerate application performance. This functionality enables enterprises to optimize network
performance and improve access to critical business information.
The ACE appliance provides the following application acceleration and optimization functionality:
• Delta optimization eliminates redundant traffic on the network by computing and transmitting only
the changes that occur in a Web page between successive downloads of the same page or similar
pages.
• FlashForward object acceleration technology eliminates network delays associated with embedded
Web objects able to be cached. such as images, style sheets, and JavaScript files by placing the
responsibility for validating object freshness on the ACE appliance, rather than on the client, making
the client more efficient.
• Just-in-time object acceleration enables acceleration of non-cacheable embedded objects, resulting
in improved application response time by eliminating the need for clients to download these objects
on each request.
• Adaptive dynamic caching accelerates enterprise application performance and improves server
system scalability by enabling the ACE appliance itself to fulfill requests for dynamic content,
which offloads application servers and databases.
Refer to Configuring Application Acceleration and Optimization, page 15-1 or the Cisco 4700 Series
Application Control Engine Appliance Application Acceleration and Optimization Configuration Guide
for more information about application acceleration and optimization.
Related Topics
• Optimization Traffic Policies and Typical Configuration Flow, page 15-2
• Configuring Traffic Policies for HTTP Optimization, page 15-6
• Configuring Global Application Acceleration and Optimization, page 15-9
Optimization Traffic Policies and Typical Configuration Flow
To define the different optimization and application acceleration functions that you want the ACE
appliance to perform, you must configure at least one each of the following:
• HTTP optimization action list—This action list specifies the actions that the ACE is to perform for
application acceleration and optimization. You can configure action lists when configuring a virtual
server, or as a separate procedure. See:
– Configuring Application Acceleration and Optimization, page 7-53
– Configuring an HTTP Optimization Action List, page 15-3
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Configuring an HTTP Optimization Action List
• Layer 7 server load-balancing class map—This class map identifies the Layer 7 server
load-balancing match criteria to apply to incoming traffic, such as URL, HTTP cookie, HTTP
header, or source IP address. See Configuring Virtual Context Policy Maps, page 14-32
• Layer 7 HTTP optimization policy map—This policy map applies the HTTP optimization action list
and optionally an optimization parameter map to Layer 7 HTTP traffic. See Configuring Virtual
Context Policy Maps, page 14-32.
• Layer 3 and Layer 4 class map—By using match criteria, this class map identifies the network traffic
that can pass through the ACE appliance. The match criteria includes the VIP address for the
network traffic. The ACE appliance uses these Layer 3 and Layer 4 traffic classes to perform server
load balancing. See Configuring Virtual Context Policy Maps, page 14-32.
• Layer 3 and Layer 4 policy map—This policy map associates server load-balancing actions and
HTTP optimization action lists with the VIP. See Setting Policy Map Rules and Actions for Layer
3/Layer 4 Network Traffic, page 14-41 and Configuring Traffic Policies for HTTP Optimization,
page 15-6.
• Layer 7 server load-balancing policy map—This policy map specifies the server load-balancing
actions that the ACE appliance is to perform. See Configuring Virtual Context Policy Maps,
page 14-32.
You can also configure:
• Optimization parameter maps—Optimization parameter maps allow you to configure specific
options for action list items. You can configure optimization parameter maps when configuring a
virtual server or as a separate procedure.
When you configure a parameter map with an action list for a class map, the ACE appliance validates
the action list and parameter map configurations before deploying them.
See:
– Configuring Application Acceleration and Optimization, page 7-53
– Configuring Optimization Parameter Maps, page 10-12.
• Global application acceleration and optimization options—The acceleration and optimization
options allow you to apply specific acceleration and optimization features for logging and
debugging on a global level on the ACE appliance. See Configuring Global Application
Acceleration and Optimization, page 15-9.
Related Topics
• Configuring Traffic Policies for HTTP Optimization, page 15-6
• Optimization Overview, page 15-2
Configuring an HTTP Optimization Action List
An HTTP optimization action list groups a series of individual application acceleration and optimization
operations that you want the ACE to perform.
Use this procedure to configure an HTTP optimization action list.
Tip You can also configure action lists when configuring a virtual server. For more information, see
“Configuring Application Acceleration and Optimization” section on page 7-53.
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Configuring an HTTP Optimization Action List
Procedure
Step 1 Choose Config > Devices > context > Expert > Optimization Action List.
The Action List table appears.
Step 2 Click Add to add a new optimization action list, or choose an existing action list and click Edit to modify
it.
Step 3 Configure the optimization action list using the information in Table 15-1.
Table 15-1 Action List Configuration Options
Field Description
Action List Name Unique name for the action list. Valid entries are unquoted text strings with a maximum of 64
alphanumeric characters.
Enable Delta Check box that enables delta optimization for the specified URLs. Delta optimization dynamically
updates client browser caches directly with content differences, or deltas, resulting in faster page
downloads.
Uncheck the check box to disable delta optimization for the specified URLs.
Note The ACE restricts you from enabling delta optimization if you have previously specified
either Cache Dynamic or Dynamic Dynamic Entity Tag.
Enable AppScope Check box that enables AppScope performance monitoring for use with the ACE appliance.
AppScope runs on the Management Console of the optional Cisco AVS 3180A Management Station
and measures end-to-end application performance.
Uncheck the check box to disable AppScope performance monitoring for use with the ACE
appliance.
Flash Forward Feature that reduces bandwidth usage and accelerates embedded object downloading by combining
local object storage with dynamic renaming of embedded objects, thereby enforcing object
freshness within the parent HTML page.
Specify how the ACE appliance is to implement FlashForward:
• N/A—Indicates that this feature is not enabled.
• FlashForward—Indicates that FlashForward is to be enabled for the specified URLs and that
embedded objects are to be transformed.
• FlashForward Object—Indicates that FlashForward static caching is to be enabled for the
objects that the corresponding URLs refer to, such as Cascading Style Sheets (CSS), JPEG, and
GIF files.
Cache Dynamic Check box that enables Adaptive Dynamic Caching for the specified URLs even if the expiration
settings in the response indicate that the content is dynamic. The expiration of cache objects is
controlled by the cache expiration settings based on time or server load.
Uncheck the check box to disable this feature.
Note The ACE restricts you from enabling Cache Dynamic if you have previously specified
either Enable Delta or Dynamic Dynamic Entity Tag.
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Configuring an HTTP Optimization Action List
Step 4 Do one of the following:
• Click Deploy Now to deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files. The ACE appliance validates the action list
configuration.
• Click Cancel to exit this procedure without saving your entries.
• Click Next to save your entries and to configure another action list.
Related Topics
• Optimization Traffic Policies and Typical Configuration Flow, page 15-2
• Configuring Optimization Parameter Maps, page 15-6
• Configuring Traffic Policies for HTTP Optimization, page 15-6
• Configuring Global Application Acceleration and Optimization, page 15-9
Cache Forward Check box that enables the cache forward feature for the corresponding URLs. Cache forward
allows the ACE to serve the object from its cache (static or dynamic) even when the object has
expired if the maximum cache TTL time period has not yet expired (set by specifying the Cache
Time-To-Live Duration (%): field in an Optimization parameter map). At the same time, the ACE
sends an asynchronous request to the origin server to refresh its cache of the object.
Uncheck this check box to disable this feature.
Dynamic Dynamic
Entity Tag
Check box that enables the acceleration of noncacheable embedded objects, which results in
improved application response time. When enabled, this feature eliminates the need for users to
download noncacheable objects on each request.
Check the check box to indicate that the ACE appliance is to implement just-in-time object
acceleration for noncacheable embedded objects.
Uncheck this check box to disable this feature.
Note The ACE restricts you from enabling Dynamic Dynamic Entity Tag if you have previously
specified either Enable Delta or Cache Dynamic.
Table 15-1 Action List Configuration Options
Field Description
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Chapter 15 Configuring Application Acceleration and Optimization
Configuring Optimization Parameter Maps
Configuring Optimization Parameter Maps
You can configure an Optimization parameter map for use with a Layer 3/Layer 4 policy map.
Tip You can also configure optimization parameter maps when configuring a virtual server. For more
information, see “Configuring Application Acceleration and Optimization” section on page 7-53.
Procedure
Step 1 Choose Config > Devices > context > Load Balancing > Parameter Maps > Optimization Parameter
Maps.
The Optimization Parameter Maps table appears.
Step 2 Click Add to add a new parameter map, or choose an existing parameter map and click Edit to modify it.
The Optimization Parameter Maps configuration window appears.
Step 3 In the Parameter Name field, enter a unique name for this parameter map.
Valid entries are unquoted text strings with no spaces and a maximum of 64 alphanumeric characters.
Step 4 Configure optimization using the information in Table 10-6.
Step 5 Do one of the following:
• Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to
the running-configuration and startup-configuration files. The ACE validates the parameter map
configuration and deploys it. This option appears for virtual contexts.
• Click Cancel to exit this procedure without saving your entries and to return to the Parameter Map
table.
• Click Next to accept your entries and to add another parameter map.
Related Topics
• Optimization Traffic Policies and Typical Configuration Flow, page 15-2
• Configuring an HTTP Optimization Action List, page 15-3
• Configuring Traffic Policies for HTTP Optimization, page 15-6
• Configuring Global Application Acceleration and Optimization, page 15-9
Configuring Traffic Policies for HTTP Optimization
Table 15-2 provides a high-level overview of the steps required to configure HTTP optimization on an
ACE appliance.
Note Table 15-2 includes only the significant steps in each task. For detailed information on configuring these
items, select the links provided, click Help in the ANM GUI, or refer to Configuring Traffic Policies,
page 14-1.
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Configuring Traffic Policies for HTTP Optimization
Assumption
A virtual IP address has been configured for the context in which you configure HTTP optimization.
Table 15-2 Configuring Traffic Policies for HTTP Optimization
Task Procedure
Step 1 Create a Layer 7 class map for
server load balancing.
a. Choose Config > Devices > context > Expert > Class Maps.
b. Click Add to add a new class map.
c. In the Class Map Type field, choose Layer 7 Server Load Balancing.
d. In the Match Type field, choose the method the ACE appliance is to use to
evaluate multiple match statements when multiple match conditions exist in
the class map.
e. Click Deploy Now to deploy this configuration on the ACE and save your
entries to the running-configuration and startup-configuration files.
f. Configure match conditions for this class map.
For more information, see:
• Configuring Virtual Context Class Maps, page 14-6
• Setting Match Conditions for Layer 7 Server Load Balancing Class Maps,
page 14-14
Step 2 Create an HTTP optimization
action list to specify the
optimization actions that are to
be performed.
a. Choose Config > Devices > context > Expert > Action Lists.
b. Click Add to add a new action list.
c. Configure the action list using the information in Table 15-1.
d. Click Deploy Now to deploy this configuration on the ACE and save your
entries to the running-configuration and startup-configuration files.
For more information, see Configuring an HTTP Optimization Action List,
page 15-3.
Step 3 Create a Layer 7 HTTP
optimization policy map and
associate it with the server
load-balancing class map in
Step 1 and the action list
configured in Step 2.
a. Choose Config > Devices > context > Expert > Policy Maps.
b. Click Add to add a new policy map.
c. In the Type field, choose Layer 7 HTTP Optimization.
d. Click Deploy Now to deploy this configuration on the ACE and save your
entries to the running-configuration and startup-configuration files.
e. In the Rules table, add the server load-balancing class map created in
Step 1.
f. In the Action table, add the action list created in Step 2.
For more information, see:
• Configuring Virtual Context Policy Maps, page 14-32
• Setting Policy Map Rules and Actions for Layer 7 HTTP Optimization,
page 14-57
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Configuring Traffic Policies for HTTP Optimization
Step 4 Create a Layer 3/Layer 4 class
map for server load balancing.
a. Choose Config > Devices > context > Expert > Class Maps.
b. Click Add to add a new class map.
c. In the Class Map Type field, choose Layer 3/4 Network Traffic.
d. In the Match Type field, choose the method the ACE appliance is to use to
evaluate multiple match statements when multiple match conditions exist in
the class map.
e. Click Deploy Now to deploy this configuration on the ACE and save your
entries to the running-configuration and startup-configuration files.
f. Configure Virtual Address match conditions for this class map.
For more information, see:
• Configuring Virtual Context Class Maps, page 14-6
• Setting Match Conditions for Layer 3/Layer 4 Network Traffic Class Maps,
page 14-9
Step 5 Create a Layer 7 policy map for
server load balancing and
associate it with the Layer 7
server load-balancing class map
from Step 1.
a. Choose Config > Devices > context > Expert > Policy Maps.
b. Click Add to add a new policy map.
c. In the Type field, choose Layer 7 Server Load Balancing.
d. Click Deploy Now to deploy this configuration on the ACE and save your
entries to the running-configuration and startup-configuration files.
e. Associate the Layer 7 server load-balancing class map configured in Step 1
with this policy map by adding it to the Rule table.
For more information, see:
• Configuring Virtual Context Policy Maps, page 14-32
• Setting Policy Map Rules and Actions for Layer 7 Server Load-Balancing
Traffic, page 14-61
Step 6 Create a Layer 3/Layer 4
network traffic policy map and
associate it with the:
• Layer 3/Layer 4 server
load-balancing class map
configured in Step 4
• Layer 7 server
load-balancing policy map
configured in Step 5
• HTTP optimization policy
map configured in Step 3
a. Choose Config > Devices > context > Expert > Policy Maps.
b. Click Add to add a new policy map.
c. In the Type field, choose Layer 3/4 Network Traffic.
d. Click Deploy Now to deploy this configuration on the ACE and save your
entries to the running-configuration and startup-configuration files.
e. In the Rule table, add the Layer 3/Layer 4 server load-balancing class map
configured in Step 4.
f. In the Action table, add the:
– Layer 7 server load-balancing policy map created in Step 5
– HTTP optimization policy map created in Step 3
For more information, see:
• Configuring Virtual Context Policy Maps, page 14-32
• Setting Policy Map Rules and Actions for Layer 3/Layer 4 Network Traffic,
page 14-41
Table 15-2 Configuring Traffic Policies for HTTP Optimization (continued)
Task Procedure
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Enabling HTTP Optimization Using Virtual Servers
Related Topics
• Optimization Traffic Policies and Typical Configuration Flow, page 15-2
• Configuring an HTTP Optimization Action List, page 15-3
• Optimization Overview, page 15-2
Enabling HTTP Optimization Using Virtual Servers
You can configure HTTP optimization using virtual servers.
Procedure
Step 1 Create a virtual server by following the instructions in “Configuring Virtual Servers” section on
page 7-2.
Step 2 Configure HTTP optimization by following the instructions in “Configuring Application Acceleration
and Optimization” section on page 7-53.
Related Topics
• Configuring Traffic Policies for HTTP Optimization, page 15-6
• Optimization Traffic Policies and Typical Configuration Flow, page 15-2
Configuring Global Application Acceleration and Optimization
Note This functionality is available for Admin contexts only and only on ACE appliances.
ANM allows you to configure global application acceleration and optimization options for logging and
debugging as performed by the ACE appliance.
Procedure
Step 1 Choose Config > Virtual Contexts > admin_context > System > Application Acceleration And
Optimization. The Application Acceleration And Optimization configuration window appears.
Step 2 In the Debug Level field, enter the maximum level of system log messages to be sent to the syslog server,
using the values in Table 6-5. The severity level that you specify indicates that you want syslog messages
at that level and the more severe levels. For example, if you enter 3 for Error, syslog displays Error,
Critical, Alert, and Emergency messages.
Step 3 Check the AppScope Log check box to indicate that the ACE appliance is to upload optimization
statistical log information to the optional AVS 3180A Management station. Clear the check box to
indicate that the ACE appliance is not to upload this information.
Step 4 Click Deploy Now to immediately deploy this configuration on the ACE and save your entries to the
running-configuration and startup-configuration files.
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Configuring Global Application Acceleration and Optimization
Related Topics
• Optimization Overview, page 15-2
• Optimization Traffic Policies and Typical Configuration Flow, page 15-2
CHAPTER
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16
Using Configuration Building Blocks
Date: 3/28/12
Note Beginning with ANM software Version 5.1, the building block feature by default is hidden. If you have
used the building block feature in the past and want to continuing using it after upgrading to ANM 5.1,
you must enable it (see the “Enabling the Building Block Feature” section on page 16-5).
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
Building blocks allow authorized users to create and design reusable configuration attributes which can
then be applied to virtual contexts. The ANM also allows you to extract the configuration of an existing
virtual context and tag it as a building block.
In many cases, the same configuration settings can be used in several virtual contexts (for example, it
can offer the same service bundle to many customers). To avoid repeating virtual context configuration
and testing each time you create a virtual context, you can create a building block of many configuration
attributes that can be applied to virtual contexts as appropriate or as needed.
With building blocks, you can also create a variety of configurations that address customers’ differing
needs. The ability to customize configurations to customer needs also allows you to use network
resources most efficiently.
Benefits of configuration building blocks include:
• You can establish baseline versions of working configurations.
• Users can make real-time changes to configurations and roll back to a previously working
configuration, if needed.
• Building blocks can be extracted from proven, working configurations.
• Building blocks can be placed under version control, with tagged versions that cannot be modified.
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Table 16-1 lists the configuration options that are available for each building block type and provides
links to related topics. For descriptive information about the menu options, see “Configuring Virtual
Contexts” section on page 6-8.
Table 16-1 Building Block Configuration Options
Menu Option
Building Block Type
ACE 2.0 Related Topic
ACE 4710
Appliance
System
Primary Attributes X X Configuring Building Block Primary Attributes, page 16-8
Syslog X X Configuring Virtual Context Syslog Settings, page 6-19
SNMP X X Configuring SNMP for Virtual Contexts, page 6-27
Global Policies X X Applying a Policy Map Globally to All VLAN Interfaces, page 6-35
Licenses
Application Acceleration
and Optimization
Resource Classes
Checkpoints
Backup/Restore1
Load Balancing
Virtual Servers
Real Servers X X Configuring Real Servers, page 8-5
Server Farms X X Configuring Server Farms, page 8-30
Health Monitoring X X Configuring Health Monitoring for Real Servers, page 8-51
Stickiness X X Configuring Sticky Groups, page 9-7
HTTP Parameter Map X X Configuring HTTP Parameter Maps, page 10-9
Connection Parameter
Maps
X X Configuring Connection Parameter Maps, page 10-3
Optimization Parameter
Maps
X Configuring Optimization Parameter Maps, page 10-12
Generic Parameter Maps X X Configuring Generic Parameter Maps, page 10-8
RTSP Parameter Maps X X Configuring RTSP Parameter Maps, page 10-20
SIP Parameter Maps X X Configuring SIP Parameter Maps, page 10-21
Skinny Parameter Maps X X Configuring Skinny Parameter Maps, page 10-23
DNS Parameter Maps X X
Secure KAL-AP X X Configuring Secure KAL-AP, page 8-77
SSL
Setup Sequence
Certificates
Keys X X Using SSL Keys, page 11-10
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Parameter Maps X X Configuring SSL Parameter Maps, page 11-18
Chain Group Parameters
CSR Parameters X X Configuring SSL CSR Parameters, page 11-24
Proxy Service
Auth Group Parameters X X Configuring SSL Authentication Groups, page 11-31
Certificate Revocation
Lists (CSL)
X X Configuring CRLs for Client Authentication, page 11-33
Security
ACLs X X Creating ACLs, page 6-79
Object Groups X X Configuring Object Groups, page 6-89
Network
Port Channel
Gigabit Ethernet
Interfaces
VLAN Interfaces X X Configuring Virtual Context VLAN Interfaces, page 12-6
BVI Interfaces X X Configuring Virtual Context BVI Interfaces, page 12-19
NAT Pools2 X Configuring VLAN Interface NAT Pools, page 12-26
Static Routes X X Configuring Virtual Context Static Routes, page 12-28
Global IP DHCP X X Configuring Global IP DHCP, page 12-29
Static NAT Overwrite X Configuring Static VLANs for Over 8000 Static NAT Configurations,
page 12-31
High Availability
Setup
HA Tracking and Failure Detection
Interfaces
Hosts
HSRP Groups
Role-Based Access Control
Users X X Configuring Device RBAC Users, page 5-53
Roles X X Configuring Device RBAC Roles, page 5-56
Domains X X Configuring Device RBAC Domains, page 5-61
Expert
Class Map X X Configuring Virtual Context Class Maps, page 14-6
Policy Map X X Configuring Virtual Context Policy Maps, page 14-32
HTTP Header Modify
Action Lists
X X Configuring an HTTP Header Modify Action List, page 14-85
Table 16-1 Building Block Configuration Options (continued)
Menu Option
Building Block Type
ACE 2.0 Related Topic
ACE 4710
Appliance
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Chapter 16 Using Configuration Building Blocks
Information About Building Block Versions and Tagging
This chapter includes the following sections:
• Information About Building Block Versions and Tagging, page 16-4
• Enabling the Building Block Feature, page 16-5
• Creating Building Blocks, page 16-5
• Extracting Building Blocks from Virtual Contexts, page 16-6
• Configuring Building Blocks, page 16-7
• Tagging Building Blocks, page 16-9
• Applying Building Blocks, page 16-9
• Displaying Building Block Use, page 16-11
Information About Building Block Versions and Tagging
The ANM maintains version history for the building blocks that you create, design, and tag. You can tag
a working building block version at any point during design or configuration, and reuse any tagged
version of a building block.
A building block is not available for deployment until it has been tagged. When you tag a building block,
the ANM publishes it with a version tag, such as 1.0 or 1.1.
You cannot edit tagged versions of a building block. After a building block is tagged, it is “frozen” and
can no longer be modified in any way. When you open a tagged building block for editing, the ANM
does not modify the tagged version, but instead creates a new working copy of the building block for you
to work in. Any changes you make to the working copy are not available for deployment until you tag
the building block under a new version tag.
Related Topics
• Enabling the Building Block Feature, page 16-5
• Using Configuration Building Blocks, page 16-1
• Creating Building Blocks, page 16-5
• Extracting Building Blocks from Virtual Contexts, page 16-6
• Applying Building Blocks, page 16-9
• Tagging Building Blocks, page 16-9
• Displaying Building Block Use, page 16-11
Optimization Action Lists X Configuring an HTTP Optimization Action List, page 15-3
Building Block Audit
1. Backup/Restore is only supported for software version A2(3.0) and higher for the ACE module.
2. NAT pools as a selection under Network is only supported for software version A2(3.0) and higher for the ACE module.
Table 16-1 Building Block Configuration Options (continued)
Menu Option
Building Block Type
ACE 2.0 Related Topic
ACE 4710
Appliance
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Chapter 16 Using Configuration Building Blocks
Enabling the Building Block Feature
Enabling the Building Block Feature
Beginning with ANM software Version 5.1, the building block feature by default is hidden because it has
been replaced with the application template feature introduced in the same release. The application
template feature provides a more efficient and easier way of configuring ACE devices (see Chapter 4,
“Using Application Template Definitions”). If you have used the building block feature in the past and
want to continuing using it after upgrading to ANM 5.1, you must enable it.
This procedure shows how to enable the building block feature on ANM server and ANM Virtual
Appliance.
Procedure
Step 1 Enable the building block feature as follows:
• ANM Server—Open the /opt/CSCOanm/etc/cs-config.properties file in a text editor and add the
following line:
web.buildingblocks.enable=true
• ANM Virtual Appliance—Enter the following command:
anm-property set web.buildingblocks.enable true
Step 2 Restart ANM as follows:
• ANM Server—Enter the following command:
/opt/CSCOanm/bin/anm-tool restart
• ANM Virtual Appliance—Enter the following command:
anm-tool restart
Step 3 From the ANM client devices, close all open ANM browser instances, clear the browser cache, and log
in again.
Failure to clear the browser cache after enabling the building block feature can result in the Extract
Building Block function buttons not displaying.
Creating Building Blocks
Use this procedure to create a building block without using an existing configuration.
To create a building block from an existing virtual context, see Extracting Building Blocks from Virtual
Contexts, page 16-6.
Procedure
Step 1 Choose Config > Building Blocks.
The All Building Blocks table appears.
Step 2 In the All Building Blocks table, click Add.
The New Building Block window appears.
Step 3 In the Name field of the New Building Block window, enter a unique name for this building block.
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Extracting Building Blocks from Virtual Contexts
Step 4 In the Type field, choose the type of building block to create:
• ACE v1.0—Use with virtual contexts on ACE modules using the specified software version.
• ACE v2.0—Use with virtual contexts on ACE modules using the specified software version.
• ACE v2.3—Use with virtual contexts on ACE modules using the specified software version.
• ACE v4.1—Use with virtual contexts on ACE modules using the specified software version.
• ACE v4.2—Use with virtual contexts on ACE modules using the specified software version.
• ACE4710 V 1.0—Use with virtual contexts on ACE appliances using the specified software version.
• ACE4710 V 2.0—Use with virtual contexts on ACE appliances using the specified software version.
• ACE4710 V 4.1—Use with virtual contexts on ACE appliances using the specified software version.
• ACE4710 V 4.2—Use with virtual contexts on ACE appliances using the specified software version.
See Table 16-1 for a list of the available configuration options for each building block type.
Step 5 In the Description field, enter a brief description for this building block.
Step 6 Do one of the following:
• Click Save to save your entries and to continue with building block configuration. The Primary
Attributes configuration window appears.
• Click Cancel to exit this procedure without saving your entries and to return to the All Building
Blocks table.
• Click Tag to save your entries and tag the building block. After you tag a building block, the window
refreshes and provides fields for applying the building block. For more information, see Applying
Building Blocks, page 16-9.
Related Topics
• Enabling the Building Block Feature, page 16-5
• Using Configuration Building Blocks, page 16-1
• Extracting Building Blocks from Virtual Contexts, page 16-6
• Information About Building Block Versions and Tagging, page 16-4
• Applying Building Blocks, page 16-9
• Tagging Building Blocks, page 16-9
• Displaying Building Block Use, page 16-11
Extracting Building Blocks from Virtual Contexts
An alternative to creating a new configuration building block and configuring each attribute individually
is to extract a configuration building block from an existing virtual context. By extracting a building
block from a virtual context, you can reduce the time you spend configuring and testing the
configuration.
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Configuring Building Blocks
Use this procedure to create a working building block from a virtual context configuration.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 In the device tree, choose the ACE with the virtual context whose configuration you want to use as a
building block.
The Virtual Contexts table appears.
Step 3 In the Virtual Contexts table, choose the context with the configuration that you want to extract, and click
Extract Building Block.
A popup window appears, asking for a building block name.
Step 4 In the Name field of the popup window, enter a name for this building block, and click OK. The window
refreshes with the Primary Attributes window for the newly created building block (Config > Global >
building_block).
Step 5 Modify the building block as desired using the information in Table 16-1, or tag and deploy it as
described in “Tagging Building Blocks” section on page 16-9 and “Applying Building Blocks” section
on page 16-9).
Related Topics
• Enabling the Building Block Feature, page 16-5
• Applying Building Blocks, page 16-9
• Tagging Building Blocks, page 16-9
• Displaying Building Block Use, page 16-11
Configuring Building Blocks
You can modify a working version of a configuration building block.
Note You can modify only working versions of building blocks; you cannot modify tagged versions
of building blocks. If you select a tagged building block version, and then select a configuration
option (such as Load Balancing > Health Monitoring), you can view the entries for that tagged
version, but you cannot modify them.
Procedure
Step 1 Choose Config > Building Blocks.
The All Building Blocks table appears.
Step 2 Choose the working version of the building block that you want to modify, then choose the attributes that
you want to configure. For information about building block configuration options, see Table 16-1.
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Configuring Building Blocks
Note While it is possible to configure VLAN and BVI interfaces in a building block, we recommend
that you do not do so. Applying a building block with these attributes configured to a virtual
context with different settings can disrupt network traffic.
Step 3 To apply this building block, tag it, and deploy it as described in “Tagging Building Blocks” section on
page 16-9 and “Applying Building Blocks” section on page 16-9.
Related Topics
• Enabling the Building Block Feature, page 16-5
• Using Configuration Building Blocks, page 16-1
• Information About Building Block Versions and Tagging, page 16-4
• Creating Building Blocks, page 16-5
• Extracting Building Blocks from Virtual Contexts, page 16-6
• Tagging Building Blocks, page 16-9
• Displaying Building Block Use, page 16-11
Configuring Building Block Primary Attributes
Use this procedure to change the description of a configuration building block.
Procedure
Step 1 Choose Config > Building Blocks.
The All Building Blocks table appears.
Step 2 In the All Building Blocks table, choose the building block that you want to modify, and choose
System > Primary Attributes.
The Primary Attributes window appears.
Step 3 In the Description field of the Primary Attributes window, modify the description as desired.
Step 4 Do one of the following:
• Click Save to save your entries. The window refreshes with the saved information.
• Click Tag to tag the building block. To deploy the tagged building block, see “Applying Building
Blocks” section on page 16-9.
Related Topics
• Enabling the Building Block Feature, page 16-5
• Creating Building Blocks, page 16-5
• Configuring Building Blocks, page 16-7
• Tagging Building Blocks, page 16-9
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Tagging Building Blocks
Tagging Building Blocks
You can tag a working copy of a building block. After creating a building block, you must tag it before
you can apply it to virtual contexts.
Procedure
Step 1 Choose Config > Building Blocks.
The All Building Blocks table appears.
Step 2 In the All Building Blocks table, choose the working copy of the building block that you want to tag,
and click Tag.
The All Building Blocks table refreshes with the newly tagged building block identified by its version,
such as 1.2 or 1.3. A working copy of the building block remains available so that you can use it for
future building block versions.
To apply the tagged building block to virtual contexts on your network, see “Applying Building Blocks”
section on page 16-9.
Related Topics
• Enabling the Building Block Feature, page 16-5
• Using Configuration Building Blocks, page 16-1
• Information About Building Block Versions and Tagging, page 16-4
• Creating Building Blocks, page 16-5
• Applying Building Blocks, page 16-9
• Extracting Building Blocks from Virtual Contexts, page 16-6
• Displaying Building Block Use, page 16-11
Applying Building Blocks
You can apply building blocks in two ways:
• By selecting a virtual context, then applying the building block. See “Applying a Building Block to
a Single Virtual Context” section on page 16-10.
• By selecting the tagged building block, then applying it to one or more virtual contexts. See
“Applying a Building Block to Multiple Virtual Contexts” section on page 16-10.
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Applying Building Blocks
Applying a Building Block to a Single Virtual Context
You can apply a tagged building block to a virtual context using virtual context configuration screens.
Note Before applying a building block to a virtual context, confirm that the VLAN and BVI interfaces are
defined correctly for the virtual context. If needed, remove VLAN and BVI interface configuration
information from the building block and then apply it.
Procedure
Step 1 Choose Config > Devices > All Devices.
The device tree appears.
Step 2 Choose the virtual context that you want to apply a building block to, and choose System > Primary
Attributes.
The Primary Attributes window appears.
Step 3 In the Tagged Building Block to Apply field, choose the building block you want to apply to the virtual
context.
Step 4 Click Deploy Now.
Related Topics
• Enabling the Building Block Feature, page 16-5
• Applying a Building Block to Multiple Virtual Contexts, page 16-10
• Using Configuration Building Blocks, page 16-1
• Information About Building Block Versions and Tagging, page 16-4
• Extracting Building Blocks from Virtual Contexts, page 16-6
• Tagging Building Blocks, page 16-9
Applying a Building Block to Multiple Virtual Contexts
You can apply a tagged building block to one or more contexts by using the building block configuration
screens.
Note Before applying a building block to a virtual context, confirm that the VLAN and BVI interfaces are
defined correctly for the virtual context. If needed, remove VLAN and BVI interface configuration
information from the building block and then apply it.
Procedure
Step 1 Choose Config > Building Blocks.
The All Building Blocks table appears.
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Displaying Building Block Use
Step 2 In the All Building Blocks table, choose the tagged building block that you want to apply to one or more
virtual contexts.
Step 3 Choose System > Primary Attributes.
The Primary Attributes configuration window appears.
Step 4 In the Push Building Block to VCs field of the Primary Attributes configuration window, choose the
contexts that you want to apply the building block to in the Available Items list, and click Add.
They appear in the Selected Items list.
To remove contexts that you do not want to apply the building block to, choose them in the Selected
Items list, then click Remove. They items appear in the Available Items list.
Step 5 Click Save. A progress bar reports status and the window refreshes when the operation is complete.
Related Topics
• Enabling the Building Block Feature, page 16-5
• Applying a Building Block to a Single Virtual Context, page 16-10
• Using Configuration Building Blocks, page 16-1
• Information About Building Block Versions and Tagging, page 16-4
• Creating Building Blocks, page 16-5
Displaying Building Block Use
You can identify the virtual contexts using a building block.
Procedure
Step 1 Choose Config > Devices.
The device tree appears.
Step 2 In the device tree, choose All VC.
The Virtual Contexts table appears.
Step 3 In the Virtual Contexts table, use one of the following methods to display the building blocks being used:
• For a small number of contexts, scan the Building Block column to see which building blocks are in
use on virtual contexts.
• For a large number of contexts, click Filter. The window refreshes so that you can enter search
criteria. In the field beneath the Building Block column heading, enter a building block name or
search string, then click Go. The table refreshes with entries that match the search criteria.
Related Topics
• Enabling the Building Block Feature, page 16-5
• Using Configuration Building Blocks, page 16-1
• Information About Building Block Versions and Tagging, page 16-4
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Displaying Building Block Use
• Creating Building Blocks, page 16-5
• Extracting Building Blocks from Virtual Contexts, page 16-6
• Tagging Building Blocks, page 16-9
CHAPTER
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Monitoring Your Network
Date: 3/28/12
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
The ANM Monitor function allows you to monitor key areas of system usage. The following
functionality is provided under Monitor in ANM:
• Dashboards—Operate as a central location for you to view monitoring results and track potential
issues. There are three types of dashboards in ANM: ANM/Group Dashboard, ACE Dashboard, and
Context Dashboard. Each dashboard provides quick access to all relevant monitoring pages. See
“Using Dashboards to Monitor Devices and Virtual Contexts” section on page 17-4.
• Events—Lists events originated from devices through syslog, SNMP traps. See “Monitoring
Events” section on page 17-55.
• Alarm Notifications—Allows you to define thresholds and view alarms. See “Configuring Alarm
Notifications on ANM” section on page 17-57 and “Displaying Alarm Notifications” section on
page 17-65.
• Settings—Allows you to do the following:
– Display the current polling status of all the objects that ANM manages. See the “Displaying the
Polling Status of All Managed Objects” section on page 17-44.
– Set global polling and SMTP configurations. See “Setting Polling Parameters” section on
page 17-46.
– Export historical data. See “Exporting Historical Data” section on page 52.
• Topology maps—Allows you to display a network topology map based on a selected virtual or real
server. See “Displaying Network Topology Maps” section on page 68.
• Tools—Allows you to verify connectivity (using the ping command) between a virtual context and
an IP address that you specify. See “Testing Connectivity” section on page 71.
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Setting Up Devices for Monitoring
Note When ANM is unable to retrieve information for a monitored statistic, it displays one of the following
status conditions in the table cell:
• N/A (Not Available)—Indicates that ANM was unable to poll the device for the information for one
of the following reasons:
– ANM is experiencing polling errors with the device.
– ANM is not able to communicate with the device.
– If a poll was recently initiated, ANM is in the process of gathering information from the device.
• Not Supported—Indicates that the device does not have the capability to provide the information.
This condition can be caused when the device does not have the necessary SNMP instrumentation.
It is possible that another similar device type is able to provide the statistical information because it
has been updated with the necessary SNMP instrumentation.
• Not Applicable—Indicates that the particular information is not valid or not applicable for the
device type, or ANM is unable to retrieve the information from the device because the information
is not available through SNMP for the device type.
Before using the Monitoring functions, make sure that your devices are properly configured for polling
(see “Setting Up Devices for Monitoring” section on page 17-2).
Setting Up Devices for Monitoring
In order for ANM to successfully monitor your devices, you must configure the devices correctly for
polling as show in Table 17-1.
Table 17-1 Configuring Devices for Monitoring
Device Type How to Configure Parameters to Configure
ACE modules Configure parameters on the Admin context
only.
• All devices must have a routable IP address from
the ANM.
• The management policy with the SNMP protocol
must be associated to the IP address.
• You must enable SNMPv2c with a matching
SNMP community string between ANM and the
devices to be polled. (See the “Configuring
Virtual Contexts” section on page 6-1.)
• Before using the Monitoring functions, you must
enable monitoring on all devices that you want
ANM to monitor (see the “Setting Polling
Parameters” section on page 17-46).
ACE appliances Configure parameters on the Admin context
only.
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Device Monitoring Features
Related Topics
• Device Monitoring Features, page 17-3
• Using Dashboards to Monitor Devices and Virtual Contexts, page 17-4
• Monitoring Devices, page 17-24
Device Monitoring Features
ANM provides several features that allow you to monitor your devices when you click Monitor:
• Dashboards—Operate as a central location for you to view device and context monitoring results
and track potential issues. There are three types of Dashboards in ANM: ANM/Group Dashboard,
ACE Dashboard, and ACE Virtual Context Dashboard. Each Dashboard provides quick access to all
relevant monitoring pages. See “Using Dashboards to Monitor Devices and Virtual Contexts”
section on page 17-4.
• System View—Provides device information and a general overview of your system as a whole,
including High Availability (HA) information and licensing information. System View is available
only for CSS and CSM devices. See “Monitoring the System” section on page 17-25.
• Resource Usage—Provides resource usage information on connections and features. See
“Monitoring Resource Usage” section on page 17-26. Resource usage is not available for CSS or
CSM devices.
• Traffic Summary—Provides traffic information for your devices. Traffic Summary is available only
for the ACE module, ACE appliance, and CSS. See “Monitoring Traffic” section on page 17-30.
• Load Balancing—Provides virtual server information and load balancing statistics. See “Monitoring
Load Balancing” section on page 17-33 and “Monitoring Load Balancing Statistics” section on
page 17-41.
CSS Configure parameters on the CSS devices that
you want ANM to monitor. You cannot use
ANM to configure the CSS.
• All devices must have a routable IP address from
the ANM.
• For CSS devices, you must enable SNMPv2c with
a matching SNMP community string between
ANM and the devices to be polled. (See the
“Configuring CSS Primary Attributes” section on
page 5-35.)
• For CSM devices, you must enable SNMPv2c
with a matching SNMP community string on the
Cat6K chassis in which the CSM resides. (See the
“Configuring CSM Primary Attributes” section on
page 5-34.)
• Before using the Monitoring functions, you must
enable monitoring on all devices that you want
ANM to monitor (see the “Setting Polling
Parameters” section on page 17-46).
CSM Configure parameters on the Cat6K chassis (in
which the CSM resides) that you want ANM to
monitor. You cannot use ANM to configure the
CSM.
Table 17-1 Configuring Devices for Monitoring (continued)
Device Type How to Configure Parameters to Configure
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• Application Acceleration—Displays optimization statistics for ACE appliances on which you have
configured application acceleration functions. See the “Monitoring Application Acceleration”
section on page 17-43. This feature is only available on ACE appliances.
• Polling Settings—Allows you to set polling parameters. See the “Setting Polling Parameters”
section on page 17-46.
• Historical Graphs—Allows you to view historical data for a group of monitoring page statistics. See
the “Configuring Historical Trend and Real Time Graphs for Devices” section on page 17-48.
Using Dashboards to Monitor Devices and Virtual Contexts
ANM dashboards allow for faster and more accurate assessment and analysis of device and virtual
context health and usage, as well as performance. Corresponding monitoring views allow for quick
access to details for further investigation into potential problems highlighted in the dashboards. Graphs,
as well as monitoring screens, allow you to view historical data and compare the performance with the
peer objects.
Note All client browsers require that you enable Adobe Flash Player 9 to properly display the monitoring
graphs provided in ANM.
Dashboards in ANM provide:
• A central location for you to view monitoring highlights.
• Emphasis on potential issues that require your attention.
• Quick access to relevant ANM pages for more detailed monitoring data.
In each dashboard, there are a relevant set of dashboard panes. The information shown in the dashboard
panes differ based on the device or groups that you select in the device tree. The dashboard panes are
moveable element inside the dashboard that can be minimized/maximized, moved, and, if desired,
removed from view. You can also display a larger (full) window view for a dashboard window.
Note Changes made to dashboard layout or pane selections are only applicable for the current session. Those
changes are not maintained by ANM the next time you access an ANM dashboard.
The dashboard tables and graphs autorefresh every two minutes. If desired, you can disable autofreshing
by clicking the Pause Autofresh button in the upper-right corner of the dashboard.
Note All dashboard contents are under Role-Based Access Control (RBAC). Options will be grayed or not
displayed if proper permission has not been granted to the logged in user by the administrator. See the
“How ANM Handles Role-Based Access Control” section on page 18-8 for more information about
RBAC in ANM.
This section includes the following topics:
• ACE Dashboard, page 17-5
• ACE Virtual Context Dashboard, page 17-12
• ANM Group Dashboard, page 17-16
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ACE Dashboard
The ACE Dashboard displays the information related to the ACE module or ACE appliance that is
selected in the device tree. You access the ACE Dashboard by selecting Monitor > Devices > ACE >
Dashboard.
Figure 17-1 illustrates the individual components of the ACE Dashboard.
Note The ANM software version that displays across the top of the window varies depending on your version
of ANM.
Figure 17-1 Example ACE Device Dashboard
To enhance your viewing of the monitoring information in the ACE Dashboard, you can perform the
following actions:
• Click and drag an individual dashboard pane to move it to another location within the ACE
Dashboard.
• Use the Collapse/Expand buttons at the top right side of each dashboard pane to minimize/maximize
a pane within the ACE Dashboard.
• Click the Remove button to remove a dashboard pane from the ACE Dashboard. Click the Bring
Back Closed Dashboard Panes button at the top of the ACE Dashboard to open the closed
dashboard pane.
Note When you close any of the panes in a dashboard by clicking the Remove button, all of the headers
in the other dashboard panes turn black to indicate that a pane has been closed. To return the
dashboard panes to normal, click the Bring Back Closed Dashboard Panes button to reload the
removed dashboard pane.
• Click the Screen View (Full)/Screen View (Normal) buttons to display a larger (full) window view
for the ACE Dashboard.
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Changes made to dashboard layout or pane selections are only applicable for the current session. Those
changes are not maintained by ANM the next time you access the ACE Dashboard.
The components of the individual ACE Dashboard panes are described in the following sections.
• Device Information Table, page 17-6
• License Status Table, page 17-6
• High Availability Table, page 17-7
• ACE Device Configuration Summary Table, page 17-7
• Context With Denied Resource Usage Detected Table, page 17-8
• Device Resource Usage Graph, page 17-9
• Top 10 Current Resources Table, page 17-10
• Control Plane CPU/Memory Graphs, page 17-11
Device Information Table
The Device Information table lists the details that will identify the status of the selected ACE. It includes
the following fields:
• Host Name—Host name of the ACE module or ACE appliance.
• Device Status—Device reachability status through SNMP and XML connectivity (Up or Down).
• Device Type—ACE device specifics for the ACE module or ACE appliance.
• Management IP—Management IP address of the admin virtual context.
• Number of Contexts—Number of configured contexts, including the Admin context and configured
user contexts.
• Software Version—Release software version of the ACE module or ACE appliance.
• Last Boot Reason—Reason for the last reboot of the ACE (if available).
• Uptime—Length of time that the ACE has been up and running.
The data shown in this table is collected during device discovery as well as during periodic monitor
polling. The timestamp shown in the status bar is from the last polled time of the Admin virtual context.
License Status Table
The License Status table lists the license status of the selected ACE device. ANM uses the ACE show
license status CLI command to obtain the license details. The timestamp shown in the status bar is from
the last polled time of the Admin virtual context.
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High Availability Table
The HA Peer Information table lists the details of the HA peer, if configured in HA mode. It includes
the following information:
• HA/FT Interface State—State of the local ACE. See the “ACE High Availability Polling” section on
page 13-7.
• My IP Address—IP address of the local ACE.
• Peer IP Address—IP address of the peer ACE.
• Software Compatibility—Status of whether the software version of the local ACE and the software
version of the peer ACE are compatible. Possible states are the INIT, COMPATIBLE, or
INCOMPATIBLE state.
• License Compatibility—Status of whether the license of the local ACE and the license of the peer
ACE are compatible. Possible states are the INIT, COMPATIBLE, or INCOMPATIBLE state.
• Number of FT Groups—Number of configured FT groups.
• Number of Heartbeats Transmitted—Total number of heartbeat packets transmitted.
• Number of Heartbeats Received—Total number of heartbeat packets received.
This data is collected during periodic monitoring polling. The timestamp shown in the status bar is from
the last polled time of the Admin virtual context.
ACE Device Configuration Summary Table
The Device Configuration Summary table displays the following information:
• Virtual Servers—Total count of virtual servers configured in all contexts and the count of virtual
servers that are in the In Service or Out of Service state. ANM also identifies virtual servers that
have a Status Not Available state (due to polled failing, polled disable, and so on) and have a Status
Not Supported state (due to a lack of ACE SNMP support). A hyperlink enables you to view load
balancing virtual server monitoring information based on the identified state (see the “Monitoring
Load Balancing on Virtual Servers” section on page 17-33). For example, if you click the In Service
hyperlink, you will see only the virtual servers that are currently in service.
• Real Servers—Total count of real servers configured in all contexts and the count of real servers that
are in In Service and Out of Service. A hyperlink enables you to view load balancing real server
monitoring information based on the identified state (see the “Monitoring Load Balancing on Real
Servers” section on page 17-37). For example, if you click the In Service hyperlink, you will see
only the real servers that are currently in service.
• Probes—Total count of probes configured in all contexts and the count of probes that are in the In
Service and Out of Service state. A hyperlink enables you to view load balancing probe monitoring
information based on the identified state (see the “Monitoring Load Balancing on Probes” section
on page 17-40). For example, if you click the In Service hyperlink, you will see only the probes that
are currently in service.
• Gigabit Ethernets—(ACE appliance only) Total count of Gigabit Ethernet physical interfaces
configured on the ACE appliance based on their operational status of Up and Down. A hyperlink
enables you to view traffic summary information based on the identified state (see the “Monitoring
Traffic” section on page 17-30). For example, if you click the Up hyperlink, you will see only the
Gigabit Ethernet physical interfaces that currently have an operational status of Up.
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• VLANs—Total count of VLANs configured and the count of VLANs based on operational status -
Up and Down. A hyperlink enables you to view traffic summary information based on the identified
state (see the “Monitoring Traffic” section on page 17-30). For example, if you click the Up
hyperlink, you will see only the VLAN interfaces that currently have an operational status of Up.
• Port Channels—(ACE appliance only) Total count of port channels configured on the ACE appliance
based on their operational status of Up and Down. A hyperlink enables you to view traffic summary
information based on the identified state (see the “Monitoring Traffic” section on page 17-30). For
example, if you click the Up hyperlink, you will see only the port channels that currently have an
operational status of Up.
• BVIs—Total count of BVI interfaces and the count of BVI interfaces based on their operational
status of Up and Down. A hyperlink enables you to view traffic summary information based on the
identified state (see the “Monitoring Traffic” section on page 17-30). For example, if you click the
Up hyperlink, you will see only the BVI interfaces that currently have an operational status of Up.
• Certificates—Total count of SSL certificates and the count of SSL certificates that are expiring
beyond 30 days, expired, or that are expiring within 30 days. A hyperlink accesses a popup window
for you to view the SSL certificates list based on the selection, displaying the certificate name,
device name, days to expire, expiration date, and the date it was evaluated for you to determine the
days to expire. Certificates are considered expired it their expiration date is within the next day
(rounded down the next day). A hyperlink in the device name allows you to navigate to the
context-based SSL Certificate configuration page (see the “Using SSL Certificates” section on
page 11-5).
This data is collected during discovery as well as during periodic monitoring polling. The timestamp
shown in the status bar indicates a varying poll time; that is, different virtual contexts were polled and
those context had different time stamps. The earliest time stamp of the polled virtual contexts is
displayed in the status bar.
All counts shown in the Device Configuration Summary table are based on the operational status of the
monitored objects listed above.
• Out Of Service—Indicates any status other than In Service (for example, Out Of Service, Failed, or
Disabled).
• Status not available—Indicates that ANM was unable to poll the operational status of this object.
The display of this operational status could be due to polling errors or the device was unreachable.
Also, if a poll was recently initiated, this operational status could indicate that ANM is in the process
of collecting data.
• Status not supported—Indicates that the device does not have the capability to provide an
operational status of this object. The display of this operational status could be due to missing
SNMP instrumentation on earlier ACE devices.
Context With Denied Resource Usage Detected Table
The Context With Denied Resource Usage Detected table lists all contexts for which the resource request
is denied after reaching the maximum limit. An increase in the deny count (that is, the deny rate) results
in the relevant context resource type appearing in this table. ANM obtains the count information by using
the ACE show resource usage CLI command, which collects the information from the following MIBs:
crlResourceLimitReqsDeniedCount and crlRateLimitResourceReqsDeniedCount.
This table includes the following information:
• Context—Name of the configured context that contains a denied resource.
• Resource Type—Type of system resource in the context.
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• Denies/Second—Number of denied resources (per second) as a result of oversubscription or
resource depletion.
• Total Deny Count—Number of denied uses of the resource since the resource statistics were last
cleared.
• Last Polled Count—Date and time of the last time that ANM polled the device to display the current
values.
Note The Context With Denied Resource Usage Detected table does not display the sticky denied resource
count because this count does not increment when the ACE sticky resources are exhausted. The ACE’s
sticky table can hold a maximum of four million entries (four million simultaneous users). When the
table reaches the maximum number of entries, additional sticky connections cause the table to wrap and
the first users become unstuck from their respective servers.
A hyperlink allows you to access the Resource Usage monitoring page to view a detailed list of resources
used and denied counts (see the “Monitoring Resource Usage” section on page 17-26).
Device Resource Usage Graph
For each resource type, the ACE Dashboard displays the Top 3 virtual contexts that consume the
resources in the Device Resource Usage graph (Figure 17-2). A tooltip is added to display the Top 3
context names and their consumption, consumption of the resource by rest of the contexts and the total
consumption by all contexts. This data is collected by ANM by using the ACE show resource usage CLI
command. The timestamp shown in the status bar indicates a varying poll time; that is, different virtual
contexts were polled and those context had different time stamps. The earliest time stamp of the polled
virtual contexts is displayed in the status bar.
Figure 17-2 Device Resource Usage Graph
To toggle the display of the Device Resource Usage graph in the monitoring window:
• Click View As Chart to display the object data as a graph.
• Click View As Grid to display the object data as a numerical line grid.
Note If you want to save the graph as a JPEG file for archive or other purposes, click the Show As Image
button. When you mouse over the graph, the Image Toolbar appears. From the Image Toolbar, you can
save the graph as a JPEG or send it in an email. You can also print the graph if desired.
If you want to export object data to Microsoft Excel for archive or other purposes, click the Export to
Excel link in the View As Grid object display.
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Hyperlinks allow you to access the individual resource usage page for more details (see the “Monitoring
Resource Usage” section on page 17-26).
Note ACL Memory (for ACE module and ACE appliance) and Application Acceleration (for ACE appliance
only) do not appear in the Device Resource Usage graph. To view the detailed counters, click the
hyperlink to access individual resource usage page.
Top 10 Current Resources Table
The Top 10 Resource Usage table (Figure 17-3) displays the Top 10 resource types that have been
evaluated for high resource utilization. The resource with highest utilization appears at the top. This data
is collected by ANM by using the ACE show resource usage CLI command.
Figure 17-3 Top 10 Current Resources Table—ACE Dashboard
This table includes the following information:
• Last Hour—Plot of high resource utilization during the past hour.
• Resource Name—Type of system resource in the context.
• Used By—Name of the virtual context that is placing the high demands on the resource. The Global
Pool usage is critical in the setup where one or more contexts are configured to make use of the
global pool once their reserved resource are depleted and resource is free in the global pool. In this
situation, if the global pool is depleted, multiple contexts may be starved for resource.
Note Contexts configured to make use of the global pool will not be evaluated for the Top 10 Resource
Usage table.
• Current Usage—Active concurrent instances or the current rate of the resource.
• Average—Average value of resource usage (based on the last hour).
• Max.—Highest value of resource usage (based on the last hour).
• Last Polled Time—Date and time of the last time that ANM polled the device to display the current
values.
Hyperlinks allow you to access the individual resource usage page for more details (see the “Monitoring
Resource Usage” section on page 17-26).
You can choose to show or hide the syslog buffer information that displays in the Top 10 Current
Resources pane. You may want to hide this information because it will always show 100 percent after
the buffer becomes full and starts to wrap. For more information, see the “Managing the Syslog Buffer
Display in the All Devices Dashboard” section on page 18-66.
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Control Plane CPU/Memory Graphs
The Control Plane CPU/Memory graphs (Figure 17-4) show the utilization of the ACE CPU. This data
consists of two graphs:
• The Control Plane CPU Usage graph shows the utilization of the ACE CPU as a percentage.
• The Control Plane Memory graph displays the consumed memory on Kbytes. A tooltip is added to
display the Cache Memory, Total Memory, Shared Memory, Buffer Memory, and Free Memory
usage as a percentage.
To toggle the display of the Control Plane CPU/Memory graph in the monitoring window:
• Click View As Chart to display the object data as a graph.
• Click View As Grid to display the object data as a numerical line grid.
Note If you want to save the graph as a JPEG file for archive or other purposes, click the Show As Image
button. When you mouse over the graph, the Image Toolbar appears. From the Image Toolbar, you can
save the graph as a JPEG or send it in an email. You can also print the graph if desired.
If you want to export object data to Microsoft Excel for archive or other purposes, click the Export to
Excel link in the View As Grid object display.
Figure 17-4 Control Plane CPU/Memory Graphs
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ACE Virtual Context Dashboard
The ACE Virtual Context Dashboard displays monitoring information for an ACE virtual context
selected from the device tree,. You access the ACE Virtual Context Dashboard by selecting Monitor >
Devices > virtual_context > Dashboard.
Figure 17-5 illustrates the individual components of the ACE Virtual Context Dashboard.
Note The ANM software version that displays across the top of the window varies depending on your version
of ANM.
Figure 17-5 ACE Virtual Context Dashboard
To enhance your viewing of the monitoring information in the ACE Virtual Context Dashboard, you can
perform the following actions:
• Click and drag an individual dashboard pane to move it to another location within the ACE Virtual
Context Dashboard.
• Use the Collapse/Expand buttons at the top right side of each dashboard pane to minimize/maximize
a pane within the ACE Virtual Context Dashboard.
• Click the Remove button to remove a dashboard pane from the ACE Virtual Context Dashboard.
Click the Bring Back Closed Dashboard Panes button at the top of the ACE Virtual Context
Dashboard to open the closed dashboard pane.
Note When you close any of the panes in a dashboard by clicking the Remove button, all of the headers
in the other dashboard panes turn black to indicate that a pane has been closed. To return the
dashboard panes to normal, click the Bring Back Closed Dashboard Panes button to reload the
removed dashboard pane.
• Click the Screen View (Full)/Screen View (Normal) buttons to display a larger (full) window view
for the ACE Dashboard.
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Changes made to dashboard layout or pane selections are only applicable for the current session. Those
changes are not maintained by ANM the next time you access the ACE Virtual Context Dashboard.
The components of the individual ACE Virtual Context Dashboard panes are described in the following
sections.
• ACE Virtual Context Device Configuration Summary Table, page 17-13
• Context With Denied Resource Usage Detected Table, page 17-14
• Context Resource Usage Graph, page 17-15
• Load Balancing Servers Performance Graphs, page 17-15
ACE Virtual Context Device Configuration Summary Table
The Device Configuration Summary table displays the following information:
• Virtual Servers—Total count of virtual servers configured in all contexts and the count of virtual
servers that are in the In Service and Out of Service state. ANM also identifies virtual servers that
have a Status Not Available state (due to polled failing, polled disable, and so on) and have a Status
Not Supported state (due to a lack of ACE SNMP support). A hyperlink enables you to view load
balancing virtual server monitoring information based on the identified state (see the “Monitoring
Load Balancing on Virtual Servers” section on page 17-33). For example, if you click the In Service
hyperlink, you will see only the virtual servers that are currently in service.
• Real Servers—Total count of real servers configured in all contexts and the count of real servers that
are in In Service and Out of Service. A hyperlink enables you to view load balancing real server
monitoring information based on the identified state (see the “Monitoring Load Balancing on Real
Servers” section on page 17-37). For example, if you click the In Service hyperlink, you will see
only the real servers that are currently in service.
• Probes—Total count of probes configured in all contexts and the count of probes that are in the In
Service and Out of Service state. A hyperlink enables you to view load balancing probe monitoring
information based on the identified state (see the “Monitoring Load Balancing on Probes” section
on page 17-40). For example, if you click the In Service hyperlink, you will see only the probes that
are currently in service.
• Gigabit Ethernets—(ACE appliance only) Total count of Gigabit Ethernet physical interfaces
configured on the ACE appliance based on their operational status of Up and Down. A hyperlink
enables you to view traffic summary information based on the identified state (see the “Monitoring
Traffic” section on page 17-30). For example, if you click the Up hyperlink, you will see only the
Gigabit Ethernet physical interfaces that currently have an operational status of Up.
• VLANs—Total count of VLANs configured and the count of VLANs based on operational status -
Up and Down. A hyperlink enables you to view traffic summary information based on the identified
state (see the “Monitoring Traffic” section on page 17-30). For example, if you click the Up
hyperlink, you will see only the VLAN interfaces that currently have an operational status of Up.
• Port Channels—(ACE appliance only) Total count of port channels configured on the ACE appliance
based on their operational status of Up and Down. A hyperlink enables you to view traffic summary
information based on the identified state (see the “Monitoring Traffic” section on page 17-30). For
example, if you click the Up hyperlink, you will see only the port channels that currently have an
operational status of Up.
• BVIs—Total count of BVI interfaces and the count of BVI interfaces based on their operational
status of Up and Down. A hyperlink enables you to view traffic summary information based on the
identified state (see the “Monitoring Traffic” section on page 17-30). For example, if you click the
Up hyperlink, you will see only the BVI interfaces that currently have an operational status of Up.
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• Certificates—Total count of SSL certificates and the count of SSL certificates that are expiring
beyond 30 days, expired, or that are expiring within 30 days. A hyperlink accesses a popup window
for you to view the SSL certificates list based on the selection, displaying the certificate name,
device name, days to expire, expiration date, and the date it was evaluated for you to determine the
days to expire. Certificates are considered expired it their expiration date is within the next day
(rounded down the next day). A hyperlink in the device name allows you to navigate to the
context-based SSL Certificate configuration page (see the “Using SSL Certificates” section on
page 11-5).
Counts are based on the selected ACE virtual context and not for all ACE virtual contexts.
This data is collected during discovery as well as during periodic monitoring polling. The timestamp
shown in the status bar indicates a varying poll time; that is, different virtual contexts were polled and
the contexts had different time stamps. The earliest time stamp of the polled virtual contexts is displayed
in the status bar.
All counts shown in the Device Configuration Summary table are based on the operational status of the
monitored objects listed above.
• Out Of Service—Indicates any status other than In Service (for example, Out Of Service, Failed, or
Disabled).
• Status not available—Indicates that ANM was unable to poll the operational status of this object.
The display of this operational status could be due to polling errors or the device was unreachable.
Also, if a poll was recently initiated, this operational status could indicate that ANM is in the process
of collecting data.
• Status not supported—Indicates that the device does not have the capability to provide an
operational status of this object. The display of this operational status could be due to missing
SNMP instrumentation on earlier ACE devices.
Context With Denied Resource Usage Detected Table
The Context With Denied Resource Usage Detected table lists all contexts for which the resource request
is denied after reaching the maximum limit. An increase in the deny count (that is, the deny rate) will
result in the relevant context resource type to appear in this table. This data is collected by ANM by using
the ACE show resource usage CLI command.
This table includes the following information:
• Context—Name of the configured context that contains a denied resource.
• Resource Type—Type of system resource in the context.
• Denies/Second—Number of denied resources (per second) as a result of oversubscription or
resource depletion.
• Total Deny Count—Number of denied uses of the resource since the resource statistics were last
cleared.
• Last Polled Count—Date and time of the last time that ANM polled the device to display the current
values.
Note This information is collected from the following MIBs: crlResourceLimitReqsDeniedCount and
crlRateLimitResourceReqsDeniedCount.
A hyperlink allows you to access the Resource Usage monitoring page to view a detailed list of resources
used and denied counts (see the “Monitoring Resource Usage” section on page 17-26).
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Context Resource Usage Graph
The Context Resource Usage graph (see Figure 17-5) displays the details of each resource type utilized
by the selected contexts. For each resource type, the graph includes the following monitoring statistics:
Used, Global Available, and Guaranteed. This data is collected by ANM by using the ACE show
resource usage CLI command.
To toggle the display of the Context Resource Usage graph in the monitoring window:
• Click View As Chart to display the object data as a graph.
• Click View As Grid to display the object data as a numerical line grid.
Note If you want to save the graph as a JPEG file for archive or other purposes, click the Show As Image
button. When you mouse over the graph, the Image Toolbar appears. From the Image Toolbar, you can
save the graph as a JPEG or send it in an email. You can also print the graph if desired.
If you want to export object data to Microsoft Excel for archive or other purposes, click the Export to
Excel link in the View As Grid object display.
Hyperlinks allow you to access the individual resource usage page for more details (see the “Monitoring
Resource Usage” section on page 17-26).
Note ACL Memory (for ACE module and ACE appliance) and Application Acceleration (for ACE appliance
only) do not appear in the Device Resource Usage graph. To view the detailed counters, click the
hyperlink to access individual resource usage page.
Load Balancing Servers Performance Graphs
The Load Balancing Servers Performance graphs (Figure 17-6) include:
• Top 5 Virtual Servers—Displays the top five virtual servers in the selected virtual context. You can
select from server statistics (such as High Connection Rate, Dropped Connection Rate, and so on)
that are collected by ANM polling for top performance evaluation.
• Top 5 Real Servers—Displays the top five real servers in the selected virtual context. You can select
from server statistics (such as High Connection Rate, Dropped Connection Rate, and so on) that are
collected by ANM polling for top performance evaluation.
You select the statistic from the Select Statistics drop-down list.
To toggle the display of a Load Balancing Servers Performance graph in the monitoring window:
• Click View As Chart to display the object data as a graph.
• Click View As Grid to display the object data as a numerical line grid.
Note If you want to save the graph as a JPEG file for archive or other purposes, click the Show As Image
button. When you mouse over the graph, the Image Toolbar appears. From the Image Toolbar, you can
save the graph as a JPEG or send it in an email. You can also print the graph if desired.
If you want to export object data to Microsoft Excel for archive or other purposes, click the Export to
Excel link in the View As Grid object display.
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Hyperlinks allow you to access the corresponding monitoring screens for more details:
• Monitoring Load Balancing on Virtual Servers, page 17-33
• Monitoring Load Balancing on Real Servers, page 17-37
Figure 17-6 Load Balancing Servers Performance Graphs
ANM Group Dashboard
The ANM Group Dashboard displays overall information of the ANM server. You can specify to view
details for the ANM-created All Devices Group and for a user-defined ANM device group (see the
“Monitoring Device Groups” section on page 17-23). You access the ANM Group Dashboard by
choosing Monitor > Devices > Groups > All Devices > Dashboard.
Figure 17-7 illustrates the individual components of the ANM Group Dashboard.
Note The ANM software version that displays across the top of the window varies depending on your version
of ANM.
Figure 17-7 ANM Group Dashboard
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To enhance your viewing of the monitoring information in the ANM Group Dashboard, you can perform
the following actions:
• Click and drag an individual dashboard pane to move it to another location within the ANM Group
Dashboard.
• Use the Collapse/Expand buttons at the top right side of each dashboard pane to minimize/maximize
a pane within the ANM Group Dashboard.
• Click the Remove button to remove a dashboard pane from the ANM Group Dashboard. Click the
Bring Back Closed Dashboard Panes button at the top of the ANM Group Dashboard to open the
closed dashboard pane.
Note When you close any of the panes in a dashboard by clicking the Remove button, all of the headers
in the other dashboard panes turn black to indicate that a pane has been closed. To return the
dashboard panes to normal, click the Bring Back Closed Dashboard Panes button to reload the
removed dashboard pane.
• Click the Screen View (Full)/Screen View (Normal) buttons to display a larger (full) window view
for the ACE Dashboard.
Changes made to dashboard layout or pane selections are only applicable for the current session. Those
changes are not maintained by ANM the next time you access the ANM Group Dashboard.
The components of the individual ANM Group Dashboard panes are described in the following sections.
• Managed Devices Table, page 17-17
• Context With Denied Resource Usage Detected Table, page 17-18
• ANM Group Device Configuration Summary Table, page 17-18
• Top 10 Current Resources Table, page 17-20
• Latest 5 Alarms Notifications Table, page 17-21
• Latest 5 Critical Events Table, page 17-21
• Contexts Performance Overview Graph, page 17-22
Managed Devices Table
The Managed Devices table displays the total count of devices in the selected ANM device group and
the count based on the state (Up or Down) of the imported ACE modules, ACE appliances, CSM, GSS,
and CSS devices. The data shown in this table are collected during device discovery as well as during
periodic monitor polling. The state of the individual device is identified from its XML connectivity and
SNMP status (whichever is applicable). The most recent information is used to identify device status.
Click the Device Details hyperlink to view a popup window containing the following device
information:
• Device Name—Name of the device managed by ANM.
• State—Operational state of the device (Up or Down). If the State is Down, ANM displays whether
the state has been detected through SNMP or XML.
• Device Type—Device type assigned to the imported device by ANM (for example, ACE v 2.0).
• # of VCs—Number of configured ACE virtual contexts, including the Admin context and configured
user contexts. This value is only applicable for the ACE module and ACE appliance.
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• Last Polled Time—Date and time of the last time that ANM polled the device to display the current
values.
The data shown in this table is collected during device discovery as well as during periodic monitor
polling. The timestamp shown in the status bar indicates a varying poll time; that is, different virtual
contexts were polled and the contexts had different time stamps. The earliest time stamp of the polled
virtual contexts is displayed in the status bar.
Hyperlinks in the popup window allow you to access the individual ACE Device Dashboard for more
details (see the “ACE Dashboard” section on page 17-5).
Context With Denied Resource Usage Detected Table
The Context With Denied Resource Usage Detected table lists all contexts for which the resource request
is denied after reaching the maximum limit. An increase in the deny count (that is, the deny rate) will
result in the relevant context resource type to appear in this table. This data is collected by ANM by using
the ACE show resource usage CLI command.
This table includes the following information:
• Context—Name of the configured context that contains a denied resource.
• Resource Type—Type of system resource in the context.
• Denies/Second—Number of denied resources (per second) as a result of oversubscription or
resource depletion.
• Total Deny Count—Number of denied uses of the resource since the resource statistics were last
cleared.
• Last Polled Count—Date and time of the last time that ANM polled the device to display the current
values.
Note This information is collected from the following MIBs: crlResourceLimitReqsDeniedCount and
crlRateLimitResourceReqsDeniedCount.
A hyperlink allows you to access to Resource Usage monitoring page to view a detailed list of resources
used and denied counts (see the “Monitoring Resource Usage” section on page 17-26).
ANM Group Device Configuration Summary Table
The Device Configuration Summary table displays the following information:
• Virtual Servers—(ACE only) Total count of virtual servers configured in all contexts and the count
of virtual servers that are in the In Service and Out of Service state. ANM also identifies virtual
servers that have a Status Not Available state (due to polled failing, polled disable, and so on) and
have a Status Not Supported state (due to a lack of ACE SNMP support). A hyperlink enables you
to view load balancing virtual server monitoring information based on the identified state (see the
“Monitoring Load Balancing on Virtual Servers” section on page 17-33). For example, if you click
the In Service hyperlink, you will see only the virtual servers that are currently in service.
• Real Servers—(ACE only) Total count of real servers configured in all contexts and the count of real
servers that are in In Service and Out of Service. A hyperlink enables you to view load balancing
real server monitoring information based on the identified state (see the “Monitoring Load
Balancing on Real Servers” section on page 17-37). For example, if you click the In Service
hyperlink, you will see only the real servers that are currently in service.
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• Probes—(ACE only) Total count of probes configured in all contexts and the count of probes that
are in the In Service and Out of Service state. A hyperlink enables you to view load balancing probe
monitoring information based on the identified state (see the “Monitoring Load Balancing on
Probes” section on page 17-40). For example, if you click the In Service hyperlink, you will see only
the probes that are currently in service.
• Gigabit Ethernets—(ACE appliance only) Total count of Gigabit Ethernet physical interfaces
configured on the ACE appliance based on their operational status of Up and Down. A hyperlink
enables you to view traffic summary information based on the identified state (see the “Monitoring
Traffic” section on page 17-30). For example, if you click the Up hyperlink, you will see only the
Gigabit Ethernet physical interfaces that currently have an operational status of Up.
• VLANs—(ACE only) Total count of VLANs configured and the count of VLANs based on
operational status - Up and Down. A hyperlink enables you to view traffic summary information
based on the identified state (see the “Monitoring Traffic” section on page 17-30). For example, if
you click the Up hyperlink, you will see only the VLAN interfaces that currently have an operational
status of Up.
• Port Channels—(ACE appliance only) Total count of port channels configured on the ACE appliance
based on their operational status of Up and Down. A hyperlink enables you to view traffic summary
information based on the identified state (see the “Monitoring Traffic” section on page 17-30). For
example, if you click the Up hyperlink, you will see only the port channels that currently have an
operational status of Up.
• BVIs—(ACE only) Total count of BVI interfaces and the count of BVI interfaces based on their
operational status of Up and Down. A hyperlink enables you to view traffic summary information
based on the identified state (see the “Monitoring Traffic” section on page 17-30). For example, if
you click the Up hyperlink, you will see only the BVI interfaces that currently have an operational
status of Up.
• Certificates—(ACE only) Total count of SSL certificates and the count of SSL certificates that are
valid, expired, or that are expiring within 30 days. A hyperlink accesses a popup window for you to
view the SSL certificates list based on the selection, displaying the certificate name, device name,
days to expire, expiration date, and the date it was evaluated for you to determine the days to expire.
Certificates are considered expired it their expiration date is within the next day (rounded down the
next day). A hyperlink in the device name allows you to navigate to the context-based SSL
Certificate configuration page (see the “Using SSL Certificates” section on page 11-5).
• GSS VIP Answers—(GSS only) Total number of configured VIP answers and their operating state,
which is either Active or Other. The Other state can indicate any of the following states: Suspended,
Operational Suspended, Unknown, Failed, or N/A.
• GSS DNS Rules—(GSS only) Total number of configured DNS rules and their operating state,
which is either Active or Other. The Other state can indicate either the Suspended or N/A states.
This data is collected during discovery as well as during periodic monitoring polling. The timestamp
shown in the status bar indicates a varying poll time; that is, different virtual contexts were polled and
the contexts had different time stamps. The earliest time stamp of the polled virtual contexts is displayed
in the status bar.
All counts shown in the Device Configuration Summary table are based on the operational status of the
monitored objects listed above.
• Out Of Service—Indicates any status other than In Service (for example, Out Of Service, Failed, or
Disabled).
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• Status not available—Indicates that ANM was unable to poll the operational status of this object.
The display of this operational status could be due to polling errors or the device was unreachable.
Also, if a poll was recently initiated, this operational status could indicate that ANM is in the process
of collecting data.
• Status not supported—Indicates that the device does not have the capability to provide an
operational status of this object. The display of this operational status could be due to missing
SNMP instrumentation on the CSS or on earlier ACE devices.
Top 10 Current Resources Table
The Top 10 Resource Usage table (Figure 17-8) displays the top 10 resource types that have been
evaluated for high resource utilization. The resource with highest utilization appears at the top. This data
is collected by ANM by using the ACE show resource usage CLI command.
Figure 17-8 Top 10 Current Resources Table—ANM Group Dashboard
This table includes the following information:
• Last Hour—Plot of high resource utilization during the past hour.
• Resource Name—Type of system resource in the context.
• Used By—Name of the virtual context that is placing the high demands on the resource. The Global
Pool usage is critical in the setup where one or more contexts are configured to make use of the
global pool once their reserved resource are depleted and resource is free in the global pool. In this
situation, if the global pool is depleted, multiple contexts may be starved for resource.
Note Contexts configured to make use of the global pool will not be evaluated for the Top 10 Resource
Usage table.
• Current Usage—Active concurrent instances or the current rate of the resource.
• Average—Average value of resource usage (based on the last hour).
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• Max.—Highest value of resource usage (based on the last hour).
• Last Polled Time—Date and time of the last time that ANM polled the device to display the current
values.
Hyperlinks allow you to access the individual resource usage page for more details (see the “Monitoring
Resource Usage” section on page 17-26).
You can choose to show or hide the syslog buffer information that displays in the Top 10 Current
Resources pane. You may want to hide this information because it will always show 100 percent after
the buffer becomes full and starts to wrap (see the “Managing the Syslog Buffer Display in the All
Devices Dashboard” section on page 18-66).
Latest 5 Alarms Notifications Table
The Latest 5 Alarm Notification table (Figure 17-9) displays the most recent five alarms for ANM along
with a summary that explains the number of Critical, Major, Minor, and Informational alarms. This
function interacts with the user-configured ANM alarm and threshold features (see the “Configuring
Alarm Notifications on ANM” section on page 17-57).
Figure 17-9 Latest 5 Alarms Notifications Table
Note By default, no thresholds are configured in ANM.
This table includes the following information:
• Device—Name of the ACE device (appliance or module).
• Severity— Severity level of the threshold, which can be one of the following: Info, Critical, Major,
Minor.
• Time—ANM timestamp at which the alarm occurred.
• Category—Alarm name.
• Details—Additional information about the alarm.
A hyperlink allow you to view alarm notifications (see the “Displaying Alarm Notifications” section on
page 17-65).
Latest 5 Critical Events Table
The Latest 5 Critical Events table display most recent five critical events that ANM receives from
devices, including traps and high severity syslogs. ANM displays a summary that explains the number
of Emergency, Alert, and Critical alarms. ANM displays critical events if the imported ACE device has
been configured to send syslogs and traps to ANM. For information about configuring the ACE to send
syslogs and traps, see either the Cisco Application Control Engine Module System Message Guide or the
Cisco 4700 Series Application Control Engine Appliance System Message Guide.
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Figure 17-10 Latest 5 Critical Events Table
The following details are shown in the Critical Events table:
• Device/Context—ACE device name and virtual context where the event occurred.
• Time—ANM timestamp at which the alarm occurred.
• Type—Displays if the event appears in a syslog or a trap.
• Details—Additional information about the critical event.
A hyperlink allow you to view all events collected by ANM (see the “Monitoring Events” section on
page 17-55).
Contexts Performance Overview Graph
The Contexts Performance Overview graph displays the top five virtual contexts based on
user-configurable resource statistic such as ACL Memory, Bandwidth, and so on. You select the resource
from the Select Statistics drop-down list. This data is collected by ANM by using the ACE show
resource usage CLI command.
Figure 17-11 Context Performance Graph
To toggle the display of the top five virtual context chart in the Contexts Performance Overview graph:
• Click View As Chart to display the resource statistic as a graph.
• Click View As Grid to display the resource statistic as a numerical line grid.
Note If you want to save the graph as a JPEG file for archive or other purposes, click the Show As Image
button. When you mouse over the graph, the Image Toolbar appears. From the Image Toolbar, you can
save the graph as a JPEG or send it in an email. You can also print the graph if desired.
If you want to export object data to Microsoft Excel for archive or other purposes, click the Export to
Excel link in the View As Grid object display.
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Monitoring Device Groups
You can display monitoring information for device groups that you create in Cisco License Manager (see
Configuring User-Defined Groups, page 5-72). When you choose Monitor > Devices > Groups >
device_group, all monitoring features that are supported on any of the devices in the device group are
displayed. Because some monitoring features, for example, Application Acceleration, are not supported
on all device types, you can click the following buttons at the bottom of the Monitor screens to change
what information appears:
• Show Polled Devices—By default, only the devices in the device group that support the specified
feature are displayed.
• Show All Devices—All devices in the device group are shown on the Monitoring results window,
whether or not the feature you selected is supported on all the devices.
For example, if you create a device group that contains an ACE appliance and several other different
device types, then choose Monitor > Devices > Groups > device_group > Application Acceleration,
by default, only the ACE appliance appears in the Application Acceleration window because the other
device types in the device group do not support this feature. If you click Show Polled Devices, all
devices in the device group are displayed.
When viewing monitoring information, you might see N/A, which indicates that ACE Device Manager
was not able to obtain the specified value. In addition, the monitoring window displays N/A in certain
fields for which polling has not been executed.
Related Topics
• Setting Up Devices for Monitoring, page 17-2
• Device Monitoring Features, page 17-3
• Using Dashboards to Monitor Devices and Virtual Contexts, page 17-4
• Monitoring Devices, page 17-24
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Monitoring Devices
ANM monitors activities on ACE, CSS, and CSM devices. When you choose Monitor > Devices, you
can view device information. Using SNMP and CLI commands, ANM gathers information about your
devices and displays the information.
Note If you get a warning message indicating that monitoring is not enabled or functioning, you must enable
statistic monitoring on the device. See the “Setting Polling Parameters” section on page 17-46.
Table 17-2 lists the features that appear under Monitor > Devices, depending on which device type you
choose in the device tree.
Related Topics
• Using Dashboards to Monitor Devices and Virtual Contexts, page 17-4
• Monitoring the System, page 17-25
• Setting Up Devices for Monitoring, page 17-2
• Device Monitoring Features, page 17-3
• Setting Polling Parameters, page 17-46
• Configuring Historical Trend and Real Time Graphs for Devices, page 17-48
Table 17-2 Supported Features According to Device Type
Device Type Selected in
the
Device Tree
Supported Features Displayed Under
Dashboard System View
Resource
Usage1
1. See the “Monitoring Resource Usage” section on page 17-26 for information about the options available under Resource Usage.
Traffic
Summary
Load
Balancing
Application
Acceleration
Polling
Settings
ACE
module
X – X X X – –
Admin
context
X – X X X – X
User context X – X X X – X
ACE
appliance
X – X X X X –
Admin
context
X – X X X X X
User context X – X X X X X
CSS – X – X X2
2. CSS devices support Virtual Servers only, so you do not see the Load Balancing > Statistics menu option.
– X
CSM – X – – X – X
GSS – – – – – – X
Groups3
3. By default, all monitoring features that are supported on any of the devices in the device group appear when you select a device group. See the “Using
Dashboards to Monitor Devices and Virtual Contexts” section on page 17-4 for more information about monitoring various device types within a device
group.
X – X X X X –
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Chapter 17 Monitoring Your Network
Monitoring the System
Monitoring the System
Cisco License Manager provides a System View that displays device information and a general overview
of your system as a whole. System View is available only for CSS and CSM devices. If a CSM has
crashed, you can use the System View to find out when and why the crash occurred and display
information that affects the module. The System View also displays High Availability (HA) information
and licensing information.
Note To monitor the ACE module or appliance, use the Device Dashboard function of ANM. See the “Using
Dashboards to Monitor Devices and Virtual Contexts” section on page 17-4 for details.
Note ANM does not support monitoring of chassis.
Procedure
Step 1 Choose Monitor > Devices > device > System View.
The information that appears depends on what device type you select in the device tree.
The System View displays the following information:
• Device Information
• High Availability
• License Status
• Module Information (for CSS devices only)
Note You can sort the information displayed in the table by clicking on a column heading.
Step 2 Click Poll Now to instruct ANM to poll the devices and display the current values.
Step 3 Click OK when asked if you want to poll the devices for data now.
Related Topics
• Setting Up Devices for Monitoring, page 17-2
• Device Monitoring Features, page 17-3
• Setting Polling Parameters, page 17-46
• Monitoring Traffic, page 17-30
• Configuring Historical Trend and Real Time Graphs for Devices, page 17-48
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Monitoring Resource Usage
Monitoring Resource Usage
ANM provides resource usage so that you can easily determine if you need to reallocate resources to a
particular virtual context, view traffic usage in your contexts, or determine available usage for your
contexts. There are three modes in which ANM provides resource usage for ACEs:
• Virtual-context based resource usage—You must select a virtual context from the device tree to view
resource usage specific to the context (see the “Monitoring Virtual Context Resource Usage” section
on page 17-26).
• System-wide resource usage—You must select an ACE module or appliance from the device tree to
view system-wide information and to display the following options:
– Connections—Displays traffic resource usage information. See the “Monitoring System Traffic
Resource Usage” section on page 17-27.
– Features—Displays non-connection based resource usage information. See the “Monitoring
System Non-Connection Based Resource Usage” section on page 17-29.
• Dashboard usage—You can select an ACE module, ACE appliance, or ACE virtual context from the
device tree, and then choose Monitor > Devices > ACE > Dashboard. See the “Using Dashboards
to Monitor Devices and Virtual Contexts” section on page 17-4.
See the “Configuring Virtualization” chapter of either the Cisco Application Control Engine Module
Virtualization Configuration Guide or the Cisco 4700 Series Application Control Engine Appliance
Virtualization Configuration Guide for the maximum resource usage value for each attribute.
Monitoring Virtual Context Resource Usage
ANM displays resource usage for virtual contexts as explained in the following steps.
See the “Configuring Virtualization” chapter of either the Cisco Application Control Engine Module
Virtualization Configuration Guide or the Cisco 4700 Series Application Control Engine Appliance
Virtualization Configuration Guide for the maximum resource usage value for each attribute.
Procedure
Step 1 Choose Monitor > Devices > virtual_context > Resource Usage.
The information in Table 17-3 appears in the Resource Usage window.
Table 17-3 Virtual Context Resource Usage Field Descriptions
Field Description
ACL Memory (Bytes) ACL memory usage
Application Acceleration (Connections) Number of application acceleration connections.
Note This field displays if you selected an ACE appliance in the device
tree.
Bandwidth (Bytes/Sec) Bandwidth in bytes per second.
Concurrent Connections (Connections) Number of simultaneous connections.
Connection Rate (Connections/Sec) Connections per second.
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Step 2 (Optional) Click Poll Now to instruct ANM to poll the devices and display the current values, and click
OK when prompted if you want to poll the devices for data now.
Step 3 (Optional) To display a historical trend graph of resource data for the virtual context, select up to four
resources from the list and click Graph.
The Resource Usage Graph appears (see the “Configuring Historical Trend and Real Time Graphs for
Devices” section on page 17-48 for details).
Related Topics
• Monitoring System Traffic Resource Usage, page 17-27
• Monitoring System Non-Connection Based Resource Usage, page 17-29
• Configuring Historical Trend and Real Time Graphs for Devices, page 17-48
Monitoring System Traffic Resource Usage
ANM displays system-wide traffic resource usage as explained in the following steps. See the
“Configuring Virtualization” chapter of either the Cisco Application Control Engine Module
Virtualization Configuration Guide or the Cisco 4700 Series Application Control Engine Appliance
Virtualization Configuration Guide for the maximum resource usage value for each attribute.
HTTP-comp rate HTTP compression rate.
Note This field displays when you select one of the following device
types from the device tree: An ACE appliance (any version) or an
ACE module version A4(1.0) or later.
Inspect Connection Rate (Connections/Sec) RTSP/FTP inspection connections per second.
MAC Miss Rate (Connections/Sec) MAC miss traffic punted to CP packets per second.
Management Connection Rate (Connections) Number of management connections.
Management Traffic Rate (Connections/Sec) Management traffic bytes per second.
Proxy Connection Rate (Connections) Proxy connections.
Regular Expression Memory (Bytes) Regular expressions usage in bytes.
SSL Connection Rate (Transactions/Sec) SSL (Secure Sockets Layer) connections per second.
Sticky Entries Number of sticky table entries.
Syslog Buffer Size (Bytes) Syslog message buffer size in bytes.
Syslog Message Rate (Messages/Sec) Syslog messages transmitted in messages per seconds.
Throughput (Bytes/Sec) Displays through-the-ACE traffic. This is a derived value (you cannot
configure it directly) and it is equal to the bandwidth rate minus the
mgmt-traffic rate for the 1-Gbps and 2-Gbps licenses.
Translation Entries Current number of network and port address translations.
Table 17-3 Virtual Context Resource Usage Field Descriptions (continued)
Field Description
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Note You must select an ACE module or appliance from the device tree to view system-wide traffic resource
usage information as shown in the following steps.
Procedure
Step 1 Choose Monitor > Devices > ACE > Resource Usage > Connections.
The current resource usage information appears as shown in Table 17-4.
Note There might be a slight delay because the resource usage information is gathered in real-time.
Note If any of the percentages that display in the Resource Usage Connections table exceed 100 percent, this
is an indication that a license on the ACE was recently installed or uninstalled using either ANM or the
CLI. To correct the display problem, manually synchronize the Admin context of the ACE with the CLI
(see the “Synchronizing Virtual Context Configurations” section on page 6-105).
Step 2 Click Poll Now to instruct ANM to poll the devices and display the current values.
Table 17-4 Resource Usage Connections Field Descriptions
Field Description
Context Name of the virtual context
Conc. Conn. % Number of simultaneous connections
Mgmt. Conn. % Number of management connections
Proxy Conn. % Proxy connections
Bandwidth (Bytes/S) % Bandwidth in bytes per second
Throughput (Bytes/S) Note This field appears when you select an ACE in the device tree.
Throughput in bytes per second
Conn. Rate (Conn./S) % Connections per second
SSL Conn. Rate (Trans./S) % SSL (Secure Sockets Layer) connections per second
Mgmt. Traffic Rate
(Conn./S) %
Management traffic connections per second
MAC Miss Rate (Conn./S) % MAC miss traffic punted to CP packets per second
Insp. Conn. Rate (Conn./S) % RTSP/FTP inspection connections per second
App. Acc. Conn. % Number of application acceleration connections.
Note This field appears when you select an ACE appliance in the device tree.
HTTP-Comp Rate % HTTP compression rate.
Note This field appears when you select one of the following device types from the device
tree: An ACE appliance (any version) or an ACE module version A4(1.0) or later.
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Step 3 Click OK when asked if you want to poll the devices for data now.
Related Topics
• Monitoring Virtual Context Resource Usage, page 17-26
• Monitoring System Non-Connection Based Resource Usage, page 17-29
Monitoring System Non-Connection Based Resource Usage
ANM displays system-wide, non-connection-based resource usage as explained in the following steps.
Note You must select an ACE module or appliance from the device tree to view the non-connection based
resource usage information as shown in the following steps.
Step 1 Choose Monitor > Devices > ACE > Resource Usage > Features.
The current resource usage information appears shown in Table 17-5.
Note There might be a slight delay because the resource usage information is gathered real-time.
Step 2 Click Poll Now to instruct ANM to poll the devices and display the current values.
Step 3 Click OK when asked if you want to poll the devices for data now.
Related Topics
• Monitoring Virtual Context Resource Usage, page 17-26
• Monitoring System Traffic Resource Usage, page 17-27
• Configuring Historical Trend and Real Time Graphs for Devices, page 17-48
Table 17-5 Resource Usage Features Field Descriptions
Field Description
Context Name of the virtual context
Translation Entries % Current number of network and port address translations
ACL Memory (Bytes) % ACL memory usage in bytes
RegEx Memory (Bytes) % Regular expressions memory usage in bytes
Syslog Buffer Size (Bytes) % Syslog message buffer size in bytes
Syslog Message Rate (Messages/S) % Syslog messages per second
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Chapter 17 Monitoring Your Network
Monitoring Traffic
Monitoring Traffic
ANM determines traffic information for your ACE module, ACE appliance, or CSS devices by
calculating the delta traffic values since the last polling cycle and displays the resulting values. You can
view traffic summary information as shown in the steps below.
Note To get traffic data polled directly from a device, click on an interface name that appears in the Interface
column. See Displaying Device-Specific Traffic Data, page 17-31.
Procedure
Step 1 Choose Monitor > Devices > device > Traffic Summary.
The information shown in Table 17-6 appears in the Traffic Summary page.
Note You can click on any column heading to sort the table by that column.
Table 17-6 Traffic Summary Fields
Field Description
Device Fully-qualified device name. This field does not appear for CSS devices.
Interface Name of the interface. Click the interface hyperlink to get traffic data polled directly from the device
as shown in Table 17-7.
Admin Status User-specified status of the device, which can be one of the following states:
• Up
• Down
• Testing, which indicates that no operational packets can be passed.
Operational Status Current operational status of the device, which can be one of the following states:
• Up
• Down
• Testing, which indicates that no operational packets can be passed
• Unknown
• Dormant, which indicates the interface is waiting for external actions (such as a serial line
waiting for an incoming connection)
• Not present, which indicates the interface has missing components
Packets In / Sec This field appears for ACEs only.
Per second, the number of packets delivered by this sub-layer to a higher (sub-)layer, which were not
addressed to a multicast or broadcast address at this sub-layer.
Packets Out / Sec This field appears for ACEs only.
Per second, the total number of packets that higher-level protocol requested be transmitted, and which
were not addressed to a multicast or broadcast address at this sub-layer, including those that were
discarded or not sent.
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Step 2 (Optional) Click Poll Now to instruct ANM to poll the devices and display the current values and click
OK when prompted if you want to poll the devices for data now.
Step 3 (Optional) To display a historical trend graph of traffic information, select up to four interfaces from the
list and click Graph.
The Resource Usage Graph appears (see the “Configuring Historical Trend and Real Time Graphs for
Devices” section on page 17-48 for details).
Step 4 (Optional) Choose a device, and click Details to see specific traffic information for the selected device
(see the “Displaying Device-Specific Traffic Data” section on page 17-31).
Related Topic
• Displaying Device-Specific Traffic Data, page 17-31
• Configuring Historical Trend and Real Time Graphs for Devices, page 17-48
Displaying Device-Specific Traffic Data
You can display device-specific traffic data.
Procedure
Step 1 Choose Monitor > Devices > device > Traffic Summary.
Hyperlinked device names appear in the Interface column.
Step 2 Choose a hyperlinked device name.
The Traffic Summary Details window appears. The information shown in Table 17-7 appears.
Note You can click on a column heading to sort the table by that column.
Bytes In / Sec Number of octets received, including framing characters, per second.
Bytes Out / Sec Number of octets per second transmitted out of the interface, including framing characters.
Errors In / Sec Number of inbound packets discarded per second because they contained errors or because of an
unknown or unsupported protocol.
Errors Out / Sec Number of outbound packets discarded per second because they contained errors or because of an
unknown or unsupported protocol.
Last Polled Date and time of the last time that ANM polled the device to display the current values. This field
appears if viewing traffic summary data at a device level or at a device group level in the device tree.
Note The Last Polled time stamp appears in the table heading if viewing traffic summary data at a
virtual context level.
Table 17-6 Traffic Summary Fields (continued)
Field Description
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Step 3 Click OK to close the window and return to the Traffic Summary window.
Related Topic
Monitoring Traffic, page 17-30
Table 17-7 Traffic Summary Details Window Description
Device Type Field Description
ACE and CSS Bytes In Total number of octets received on the interface, including framing characters
Bytes Out Total number of octets transmitted out of the interface, including framing
characters
Discarded Inbound
Packets
Number of inbound packets which were discarded even though no errors were
detected to prevent their being delivered to a higher-layer protocol
Discarded Outbound
Packets
Number of outbound packets which were discarded even though no errors were
detected to prevent their being transmitted
Inbound Packet Errors Total number of inbound packet errors
Inbound Packets with
Unknown Protocol
Total number of packets received via the interface which were discarded
because of an unknown or unsupported protocol
Outbound Packet Errors Total number of outbound packet errors
Packets In Number of packets delivered by this sub-layer to a higher (sub-)layer, which
were not addressed to a multicast or broadcast address at this sub-layer.
Packets Out Number of packets that higher-level protocols requested be transmitted, and
which were not addressed to a multicast or broadcast address at this sub-layer,
including those that were discarded or not sent.
CSS only Active TCP Current number of active TCP flows on the interface
Active UDP Current number of active UDP flows on the interface
FCB Count Number of unused fastpath flow control blocks for the interface
TCP Average Five second moving average of TCP flows per second on the interface
TCP Current Number of new TCP flows within last second on the interface
TCP High Maximum number of TCP flows in any one second interval on the interface
TCP Total Total TCP flows on the interface
UDP Average Five second moving average of UCP flows per second on the interface
UDP Current Number of new UDP flows within last second on the interface
UDP High Maximum number of UDP flows in any one second interval on the interface
UDP Total Total UDP flows on the interface
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Chapter 17 Monitoring Your Network
Monitoring Load Balancing
Monitoring Load Balancing
ANM monitors load balancing and allows you to view the information associated with virtual servers,
real servers, probes, and load balancing statistics.
This section includes the following topics:
• Monitoring Load Balancing on Virtual Servers, page 17-33
• Monitoring Load Balancing on Real Servers, page 17-37
• Monitoring Load Balancing on Probes, page 17-40
• Monitoring Load Balancing Statistics, page 17-41
Monitoring Load Balancing on Virtual Servers
ANM monitors load balancing and allows you to display the associated virtual server information as
shown in the following steps.
Note You can display additional load-balancing information about real servers, such as the number of servers
that are functioning properly, and probes, such as viewing if an excessing number of probes are failing,
by clicking the hyperlink in the respective columns in Table 17-8.
Procedure
Step 1 Choose Monitor > Devices > device > Load Balancing > Virtual Servers.
Depending on the device type you selected in the device tree, the information described in Table 17-8
appears.
Note For the ACE appliance and the ACE module running A2(3.0), click the Advanced Editing
Mode button to show/hide additional load balancing virtual server monitoring fields.
Note If you select a CSS device from the device tree, the navigation path does not include Load
Balancing; the path is Monitor > Devices > CSS_device > Virtual Servers.
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Table 17-8 Load Balancing Virtual Server Monitoring Information
Device Type Field Description
All Virtual Server Name of the virtual server.
Note If a virtual server is associated with primary and backup server farms, two
entries appear in the table: One for the primary server farm and one for the
backup server farm.
To view statistics for a selected virtual server, click the virtual server hyperlink. The
Virtual Server Details popup window appears containing the individual statistic,
associated counter value, and a description of the statistic. Click OK to close the
popup window.
IP Address IP address of the virtual server.
Port Port to be used for the specified protocol.
# Rservers Up Number of servers up/Number of total servers configured.
Note You can click on the hyperlink in this column to view statistics for the real
servers configured for the specified virtual server. See the “Monitoring
Load Balancing on Real Servers” section on page 17-37.
ACEs, CSM # Probes Failed For the ACE, this field displays Number of probes failed/Number of probes
configured.
For the CSM, this field displays Number of probes failed.
Note For an ACE, you can click on the number displayed to view the statistics
for the probes configured for the specified virtual server. See the
“Monitoring Load Balancing on Probes” section on page 17-40.
Operational Status The state of the server, which can be:
• Inservice—Indicates the server is in service.
• Out of Service—Indicates the server is out of service.
Current
Connections
Current number of connections.
Conns/Sec. Number of connections per second that the device receives.
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ACEs only Device Fully-qualified device name.
Protocol Protocol the virtual server supports, which can be:
• Any—Indicates the virtual server is to accept connections using any IP
protocol.
• TCP—Indicates that the virtual server is to accept connections that use TCP.
• UDP—Indicates that the virtual server is to accept connections that use UDP.
Service Policy Policy map applied to the device.
DWS Operating state of the Dynamic Workload Scaling feature for the associated server
farm, which can be:
• N/A—Not applicable; the virtual server’s server farm is not configured for
Dynamic Workload Scaling.
• Local—The server farm is configured for Dynamic Workload Scaling, but the
ACE is load-balancing traffic to the local VM Controller VMs only.
• Expanded—The server farm is configured for Dynamic Workload Scaling and
the ACE is sending traffic to the local and remote VM Controller VMs.
Dropped
Conns/Sec.
Number of connections per second that the ACE discarded.
Server Farm Name of the server farm associated with the virtual server.
Action Indicates if the device is functioning as a primary server (Primary) or a backup
server (Backup).
Algorithm Type of predictor algorithm specified on the load balancer, which can be:
• Roundrobin
• Leastconn
• Hash URL
• Hash Address
• Hash Cookie
• Hash Header
Last Polled Date and time of the last time that ANM polled the device to display the current
values. This field appears if viewing virtual server data at a device level or at a
device group level in the device tree.
Note The Last Polled time stamp appears in the table heading if viewing virtual
server data at a virtual context level.
Table 17-8 Load Balancing Virtual Server Monitoring Information (continued)
Device Type Field Description
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Step 2 (Optional) Use the display toggle button ( ) located above the table to control which virtual servers
ANM displays as follows:
• Show ANM Recognized Virtual Servers—Displays only virtual servers that match ANM’s virtual
server definition (see the “Virtual Server Configuration and ANM” section on page 7-2).
• Show All Virtual Servers—Displays virtual servers that match ANM’s virtual server definition and
those that do not match this definition but that ANM can recognize as virtual servers using SNMP
polling.
Note The display toggle button displays only when you have the “Display All Virtual Servers in
Monitoring & Operations page” advanced setting feature enabled (see the “Managing the
Display of Virtual Servers in the Operations and Monitoring Windows” section on page 18-66).
Step 3 (Optional) Use the function buttons described in Table 17-9 to update the virtual server information
displayed, view graph information, or view the topology map.
ACE appliance,
ACE module
running A2(3.0)
(Advanced Editing
Mode button)
Client Packets/Sec Number of packets per second received from the client.
Client Bytes/Sec Number of bytes per second received from the client.
Server Packets/Sec Number of packets per second received from the server.
Server Bytes/Sec Number of bytes per second received from the server.
Drops/Sec Conn
Rate Limit
Number of active connection drops per second based on the connection rate limit
of the real server
Drops/Sec Max
Conn Limit
Number of active connection drops per second based on the maximum allowable
number of active connections to a real server.
ACEs, CSS, CSM Admin Status User-specified status of the virtual server, which can be:
• In Service—Indicates the server is in service.
• Out of Service—Indicates the server is out of service.
Table 17-8 Load Balancing Virtual Server Monitoring Information (continued)
Device Type Field Description
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Related Topics
• Monitoring Load Balancing on Real Servers, page 17-37
• Monitoring Load Balancing on Probes, page 17-40
• Configuring Historical Trend and Real Time Graphs for Devices, page 17-48
Monitoring Load Balancing on Real Servers
ANM monitors load balancing and allows you to view the associated real server information.
Procedure
Step 1 Choose Monitor > Devices > device > Load Balancing > Real Servers.
Depending on the device type you selected in the device tree, the information described in Table 17-10
appears.
Table 17-9 Virtual Server Monitoring Window Function Buttons
Function Button Description
Poll Now Instructs ANM to poll the devices and display the current values. Choose one or
more virtual servers and click Poll Now.
Graph Displays a historical trend graph of virtual server information for a specific virtual
server. Choose 1 to 4 virtual servers and click Graph.
For more information, see the “Configuring Historical Trend and Real Time
Graphs for Devices” section on page 17-48.
Topology Displays the network topology map for a specific virtual server. Choose a virtual
server and click Topology.
Note The topology map feature is not available when the Virtual Server table
is set to Show All Virtual Servers. Use the display toggle button ( )
to ensure that the Virtual Servers table is set to Show ANM
Recognized Virtual Servers (see Step 2).
The ANM Topology window appears, displaying the virtual server and associated
network nodes. For information about using the topology map, see the
“Displaying Network Topology Maps” section on page 17-68.
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Table 17-10 Load Balancing Real Server Monitoring Information
Device Type Field Description
All Real Server Name of the real server. To view statistics for a selected real server, click the real
server hyperlink. The Real Server Details popup window appears containing the
individual statistic, associated counter value, and a description of the statistic.
Click OK to close the popup window.
IP Address IP address of the real server. This field appears only for real servers specified as
hosts.
Port Port number used for the server port address translation (PAT).
Admin Status The specified state of the server, which can be:
• Inservice—Indicates the server is in service.
• Out of Service—Indicates the server is out of service.
• In Service Standby—Indicates the server is a backup server and remains
inactive unless the primary server fails. If the primary server fails, the backup
server becomes active and starts accepting connections.
Operational Status The state of the server, which can be:
• Inservice—Indicates the server is in service.
• Out of Service—Indicates the server is out of service.
• Inservice Standby—Indicates the server is a backup server and remains
inactive unless the primary server fails. If the primary server fails, the backup
server becomes active and starts accepting connections.
• Probe Failed—Indicates that ANM did not receive a response to a health
probe that it sent to the server.
VM Indicator that the real server is, or is not, a VMware virtual machine as follows:
• – (dash)—The real server is not a VMware VM.
• Yes—The real server is a VMware VM. To view details about the VM, click
Yes. The Virtual Machine Details popup window appears and provides the
following information about the VM:
– Full path—Full path to the VM.
– DNS Name—DNS name of the VM.
– IP Address—VM IP address.
– State—Operating state of the VM (for example, poweredOn).
– Guest OS—Guest operating system (for example, Red Hat Enterprise
Linux 5 (32-bit)).
– Host—Host IP address.
– Memory (MB)—Amount of memory.
– CPU (MHz)—CPU frequency.
– Triggered Alarms—Number of recorded triggered alarm conditions.
Click OK to close the Virtual Machine Details popup window.
Weight Weight assigned to the real server.
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Step 2 (Optional) Use the function buttons described in Table 17-11 to update or change the real server
information displayed.
ACE, CSM Server Farm Primary server farm to use for load balancing.
Current
Connections
Number of current connections to this server. If this field indicates N/A, the
database does not have any information about current connections. If this field is
0, the database received an SNMP response of 0.
Connections Rate Connections per second.
Dropped
Connections Rate
Dropped connections per second.
ACEs Only Device Fully qualified device name.
Locality Field that pertains to the ACE module A4(2.0), ACE appliance A4(2.0), and later
releases of either device type only. Locality also requires that you have the ACE
configured for Dynamic Workload Scaling (see the “Configuring Dynamic
Workload Scaling” section on page 8-26).
Possible values for real server locality are as follows:
• N/A—Not available; the ACE cannot determine the real server location
(local or remote). A possible cause for this issue is that Dynamic Workload
Scaling is not configured correctly.
• Local—The real server is located in the local network.
• Remote—The real server is located in the remote network. The ACE bursts
traffic to this server when the local real server's CPU and/or memory usage
reaches the specified maximum threshold value.
Last Polled Date and time of the last time that ANM polled the device to display the current
values. This field appears if viewing virtual server data at a device level or at a
device group level in the device tree.
Note The Last Polled time stamp appears in the table heading if viewing virtual
server data at a virtual context level.
CSSs Only Total Connections Total number of connections.
Table 17-10 Load Balancing Real Server Monitoring Information (continued)
Device Type Field Description
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Related Topics
• Monitoring Load Balancing, page 17-33
• Monitoring Load Balancing on Probes, page 17-40
• Configuring Historical Trend and Real Time Graphs for Devices, page 17-48
Monitoring Load Balancing on Probes
To check the health and availability of a real server, the ACE periodically sends a probe to the real server.
If you notice an excessive number of probes failing, you can view the monitoring information as shown
in the following steps.
Procedure
Step 1 Choose Monitor > Devices > ACE > Load Balancing > Probes.
The probe information described in Table 17-12 appears.
Table 17-11 Real Server Monitoring Window Function Buttons
Function Button Description
Poll Now Instructs ANM to poll the devices and display the current values. Choose one or more real servers and
click Poll Now. Click OK when asked if you want to poll the devices for data now.
Graph Displays a historical trend graph of real server information for the specified real servers. Choose 1 to
4 real servers and click Graph. Choosing multiple real servers allows you to compare information.
For more information, see the “Configuring Historical Trend and Real Time Graphs for Devices”
section on page 17-48.
Topology Displays the network topology map for the specified real server. Choose a real server and click
Topology.
The ANM Topology window appears, displaying the real server and associated network nodes. For
information about using the topology map, see the “Displaying Network Topology Maps” section on
page 17-68.
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Monitoring Load Balancing
Step 2 (Optional) Click Poll Now to instruct ANM to poll the devices and display the current values.
Step 3 (Optional) To view the details associated with a specific probe, choose a probe from the list and click
Details.
The show probe probe_name detail CLI command output appears in a popup window.
Step 4 Click OK when asked if you want to poll the devices for data now.
Related Topics
• Monitoring Load Balancing, page 17-33
• Monitoring Load Balancing Statistics, page 17-41
• Configuring Historical Trend and Real Time Graphs for Devices, page 17-48
Monitoring Load Balancing Statistics
You can monitor load balancing on your ACE and CSM devices as shown in the following procedure.
Table 17-12 Load Balancing Probes Monitoring Information
Field Description
Device Name of the ACE managed by ANM.
Probe Name of the probe.
To view statistics for a selected probe, click the probe hyperlink. The Probe Details popup window appears
containing the following probe statistics:
• Failed Probes—Total number of failed probes.
• Health of Probes—Health of the probe. Possible values are PASSED or FAILED.
• Probes Passed—Total number of passed probes.
Click OK to close the Probe Details popup window.
Type Type of probe. For a complete list of probe types and their descriptions, see Table 8-11.
Real Server Name of the real server that the probe is associated with.
Server Farm Name of the server farm that the probe is associated with.
Port Port number that the probe uses. By default, the probe uses the port number based on its type.
Probe IP
Address
Destination or source address for the probe.
Probed Port Source of the probe's port number.
Probe Health Health of the probe. Possible values are PASSED or FAILED.
Passed Rate Rate of passed probes
Failed Rate Rate of failed probes
Last Polled Time stamp for the last probe. This field appears if viewing probe data at a device level or at a device group
level in the device tree.
Note The Last Polled time stamp appears in the table heading if viewing probe data at a virtual context
level.
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Procedure
Step 1 Choose Monitor > Devices > device > Load Balancing > Statistics.
The Load Balancing Statistics Monitoring Information window displays the information described in
Table 17-13.
Step 2 (Optional) Click Poll Now to instruct ANM to poll the devices and display the current values and click
OK when prompted if you want to poll the devices for data now.
Step 3 (Optional) To display a historical trend graph of load balancing statistics, select up to four objects from
the list and click Graph.
The Resource Usage Graph appears (see the “Configuring Historical Trend and Real Time Graphs for
Devices” section on page 17-48 for details).
Related Topic
• Testing Connectivity, page 17-71
• Configuring Historical Trend and Real Time Graphs for Devices, page 17-48
Table 17-13 Load Balancing Statistics Monitoring Information
Device Type Field Description
ACEs only Device Name of the device
L4 Policy Connections Number of Layer 4 policy connections
L7 Policy Connections Number of Layer 7 policy connections
Failed Connections Number of failed connections
Dropped L4 Policy
Connections
Number of dropped Layer 4 policy connections
Dropped L7 Policy
Connections
Number of dropped Layer 7 policy connections
Rejected Connections Due
To No Policy Match
Number of connections rejected because they did not match policies
Rejected Connections Due
To ACL Deny
Number of connections rejected due to ACL parameters
Rejected Connections Due
To L7 Config Changes
Number of rejected connections due to Layer 7 configuration changes
Connection Timed Out Number of times the connection timed out.
Last Polled Date and time of the last time that ANM polled the device to display the
current values.
CSM only Statistic Name of the monitored statistic.
Value Statistic value.
Rate Statistic rate.
Description Explanation of the monitored CSM statistic.
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Chapter 17 Monitoring Your Network
Monitoring Application Acceleration
Monitoring Application Acceleration
If you have configured application acceleration functions on the ACE, you can monitor the optimization
statistics as shown in the following steps.
Step 1 Choose Monitor > Devices > device > Application Acceleration.
The Application Acceleration information appears as shown in Table 17-14.
Note For connection-based syslogs, the following additional parameters are displayed: Source IP,
Source Port, Destination IP, Destination Port, and Protocol Information. This allows you to sort
and filter on these fields if desired.
.
Table 17-14 Application Acceleration Monitoring View
Field Statistic Description
Condenser Information Total HTTP Unoptimized
Requests Received
Total number of end-user HTTP request the condenser has
received that cannot be optimized
Accumulated Bytes Received Accumulated size (in bytes) of each end-user requested object
Total Responses in Bytes Accumulated size (in bytes) of responses, both for condensable
and non-condensable end-user HTTP requests
Total Abandons of Delta
Optimization
Total number of abandons of delta optimization requests
Cacheable Objects
Statistics
Total Objects Served from
Cache
Total number of cacheable objects served from the cache,
excluding the not-modified replies
Accumulated Bytes Served Accumulated size (in bytes) of the cacheable objects served from
the cache, excluding not-modified replies
Total Objects Not Found in
Cache
Total number of cacheable objects not found in the cache
Accumulated Bytes Not Found Accumulated size (in bytes) of the cacheable objects not found in
the cache
Total IMS Requests for Valid
Cache
Total number of IMS requests for valid copies of objects in the
cache
Total Missed IMS Requests Total number of IMS request for objects that either do not exist
or are stale in the cache
Total Non-Cacheable Object
Requests
Total number of non-cacheable object requests
Total Requests with Not
Modified Responses
Total number of requests for stale objects that have the response
from the origin server as not modified
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Displaying the Polling Status of All Managed Objects
Step 2 Click Poll Now to instruct ANM to poll the devices and display the current values.
Step 3 Click OK when asked if you want to poll the devices for data now.
Related Topics
Configuring Application Acceleration and Optimization, page 15-1
Displaying the Polling Status of All Managed Objects
You can display the polling status of the following objects that ANM manages: ACE virtual contexts and
CSS, CSM, and GSS devices. Because ACE devices are partitioned into virtual contexts that can be
polled individually, the polling status window displays the status of each ACE virtual context. From the
polling status window, you have the option to restart polling to a virtual context or device that currently
has polling disabled.
Guidelines and Restrictions
The time it takes the Polling Status window to reflect global changes that you make to the polling status
or polling interval varies depending on the number of managed objects being polled. For information
about making global polling changes, see the “Enabling Polling on All Devices” section on page 17-47.
Procedure
Step 1 Choose Monitor > Settings > Polling Status.
The Polling Status window appears.
Flash Forward Objects
Statistics
Successful Transformations Total number of successful transformations for FlashForward
objects
Unsuccessful Transformations Total number of unsuccessful transformations for FlashForward
objects
Total HTTP Requests Total number of HTTP requests (excluding the IMS requests) for
the transformed FlashForward objects
Total IMS Requests Total number of IMS requests for transformed FlashForward
objects
Table 17-14 Application Acceleration Monitoring View (continued)
Field Statistic Description
Table 17-15 Polling Status Window
Field Description
Name Name of the object polled. For all ACE devices, the context names associated with each
ACE. For all other object types, such as a GSS, the device name.
Type Type of object polled. The type will either be Virtual Context to indicate an ACE virtual
context or a specific device type, such as GSS.
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Polling Config Polling configuration operational state: Enabled or Disabled. For more information, see
the “Setting Polling Parameters” section on page 17-46.
Polling Interval Frequency at which ANM polls the object.
Polling Status Current polling status of the managed object:
• Missing SNMP Credentials—SNMP credentials are not configured for this object;
statistics are not collected. Add SNMPv2c credentials to fix this error.
• Not Polled—SNMP polling has not started. For a virtual context, this problem might
occur when the virtual context is first created from ANM and the SNMP credentials
are not configured. Add SNMPv2c credentials to fix this error.
• Polling Failed—SNMP polling failed due to some internal error. Try restarting
polling to enable SNMP collection again.
• Polling Started—No action is required. Everything is working properly. Polling
states will display activity.
• Polling Timed Out—SNMP polling has timed out. This problem might occur if the
wrong credentials were configured or might be caused by an internal error (such as
SNMP was configured incorrectly or the destination is not reachable). Verify that
SNMP credentials are correct. If the problem persists, restart polling to enable SNMP
collection again.
• Unknown—SNMP polling is not working due to one of the above-mentioned
conditions. Check the SNMPv2c credential configuration.
Last Polled Time Time stamp of the last time ANM polled the object.
CLI Sync Status (ACE virtual contexts only) Administrative configuration status of the context as follows:
• Import Failed—The context did not import successfully. This problem could have
occurred when the device was added to ANM or when the context was synchronized.
Synchronize the context so that you can manage it (Config > Devices > ACE >
context > Sync).
• OK—The context is synchronized with the ACE CLI.
• Out of Sync—The context is managed by ANM but the configuration for the context
on the device differs from the configuration managed by ANM. For information on
synchronizing contexts, see the “Synchronizing Virtual Context Configurations”
section on page 6-105.
• Unprovisioned—The context has been removed from the ACE using the CLI but has
not been removed from ANM. To remove unprovisioned contexts, synchronize the
associated Admin context.
For all polled objects that are not virtual contexts, the value N/A appears in this column
because ANM does not support auto synchronization for the CSS, CSM, or GSS devices.
Last CLI Sync Status Change (ACE virtual contexts only) Time stamp of the last CLI synchronization with ANM.
For all polled objects that are not virtual contexts, the value N/A appears in this column
because ANM does not support auto synchronization for the CSS, CSM, or GSS devices.
Table 17-15 Polling Status Window (continued)
Field Description
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Setting Polling Parameters
Step 2 (Optional) To restart polling of an object, check the check box associated with the object and click
Restart Polling.
Related Topics
Setting Polling Parameters, page 17-46
Setting Polling Parameters
You set polling parameters differently depending on the device type:
• ACE devices—You set polling on specific virtual contexts or configure global polling.
• CSM devices—You specify a single polling setting used by ANM.
• CSS devices—You specify a single polling setting used by ANM.
• GSS devices—You specify a single polling setting used by ANM for VIP Answers operation and
configuration states and DNS Rules configuration states.
When you choose Monitoring, the monitoring data for your devices is extracted from cache. The
Monitoring window refreshes every two minutes as new monitoring data is gathered.
When you import a context or device into ANM, the polling interval is set to 5 minutes by default. You
can modify the polling parameter on each device (see the “Enabling Polling on Specific Devices” section
on page 17-46) or you can modify the global parameter polling setting to change the polling parameters
for all devices (see the “Enabling Polling on All Devices” section on page 17-47).
This section includes the following topics:
• Enabling Polling on All Devices, page 17-47
• Disabling Polling on Specific Devices, page 17-47
• Enabling Polling on Specific Devices, page 17-46
• Disabling Polling on All Devices, page 17-48
Enabling Polling on Specific Devices
Procedure
Step 1 Choose Monitor > Devices > context > Polling Settings.
Step 2 In the Polling Stats field, click Enable.
Step 3 From the Background Polling Interval field, choose a polling interval.
Step 4 Click Deploy Now to save and apply the polling parameters.
Related Topics
• Disabling Polling on Specific Devices, page 17-47
• Enabling Polling on All Devices, page 17-47
• Disabling Polling on All Devices, page 17-48
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Setting Polling Parameters
• Displaying the Polling Status of All Managed Objects, page 17-44
Disabling Polling on Specific Devices
Procedure
Step 1 Choose Monitor > Devices > context > Polling Settings.
Step 2 In the Polling Stats field, click Disable.
Step 3 Click Deploy Now to disable polling.
Related Topics
• Enabling Polling on Specific Devices, page 17-46
• Enabling Polling on All Devices, page 17-47
• Disabling Polling on All Devices, page 17-48
• Displaying the Polling Status of All Managed Objects, page 17-44
Enabling Polling on All Devices
You can enable polling and set the polling interval for all devices as shown in the following procedure.
Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
• Currently this feature is available for any user under the ANM Inventory role task. When a user is
assigned this task, global polling configuration changes made are applied to all devices, irrespective
of the domains that are assigned for this user.
• The time it takes the Polling Status window to reflect global changes that you make to the polling
status or polling interval varies depending on the number of managed objects being polled. For
information about viewing polling information, see the “Displaying the Polling Status of All
Managed Objects” section on page 17-44.
Procedure
Step 1 Choose Monitor > Settings > Global Polling Configuration.
Step 2 In the Polling Stats field, click Enable.
Step 3 From the Background Polling Interval field, choose a polling interval.
Step 4 Click OK to save and apply the polling parameters.
Related Topics
• Enabling Polling on Specific Devices, page 17-46
• Disabling Polling on Specific Devices, page 17-47
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Configuring Historical Trend and Real Time Graphs for Devices
• Disabling Polling on All Devices, page 17-48
• Displaying the Polling Status of All Managed Objects, page 17-44
Disabling Polling on All Devices
You can disable polling all devices as shown in the following steps.
Procedure
Step 1 Choose Monitor > Settings > Global Polling Configuration.
Step 2 In the Polling Stats field, click Disable.
Step 3 Click OK.
Polling is disabled.
Related Topics
• Enabling Polling on Specific Devices, page 17-46
• Disabling Polling on Specific Devices, page 17-47
• Enabling Polling on All Devices, page 17-47
• Displaying the Polling Status of All Managed Objects, page 17-44
Configuring Historical Trend and Real Time Graphs for Devices
ANM allows you to store historical data for a selected list of statistics calculated over the last hour,
2-hour, 4-hour, 8-hour, 24-hour, or month interval. You can view this historical data as a statistical graph
from specific Monitor > Devices monitoring screens. For each monitoring page, default statistics are
defined and the graph is drawn for the selected object(s) from the page. ANM also allows you to display
real-time statistical information related to the selected monitoring window.
Note All client browsers require that you enable Adobe Flash Player 9 to properly display the monitoring
graphs provided in ANM.
Historical graphs are available from the following Monitor > Device monitoring windows:
• Traffic Summary window (CSS and ACE devices)
• Load Balancing > Virtual Server window (CSM and ACE)
• Load Balancing > Real Server window (CSM, CSS, and ACE devices)
• Load Balancing > Statistics window (ACE and CSM devices)
• Virtual Context-Based Resource Usage (ACE devices)
In each monitoring view window, click the Graph button to view the Graph page. From this page, you
can view up to a maximum of four individual graphs of object data. Tooltips appears within each graph
to allow you to see the datapoint values used for plotting.
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Configuring Historical Trend and Real Time Graphs for Devices
If you choose, you can overlay multiple objects for comparison on the same graph. Each graph grid
provides a comma-separated list of select statistics.
ANM supports a maximum of four lines per historical graph. The number of lines in a graph indicates
the number of combinations of statistics and the objects (which can be a virtual server, real server, virtual
context, and so on). For example, if you select two statistics and two real servers, then the number of
possible combinations that can be displayed in a graph is four.
Note The time displayed in all graphs is shown in ANM server time, not in client time.
Procedure
Step 1 Choose Monitor > Devices to view device information.
Step 2 Choose the specific monitoring window from which you want to display historical data graphs for a
selected list of items.
Table 17-16 shows the different monitoring window types and how to select one.
Step 3 Check the check boxes of up to four objects in the selected monitoring window that you want to view
and click Graph.
The graph window appears. ANM updates the monitoring window with the graph of the selected objects
(see Figure 17-12).
Note The ANM software version that displays across the top of the window varies depending on your
version of ANM.
Table 17-16 Selecting a Monitoring Window
To Access.... Select...
Resource Usage window Monitor > Devices > virtual_context > Resource Usage
Traffic Summary window Monitor > Devices > Traffic Summary
Virtual Servers window Monitor > Devices > Load Balancing > Virtual Servers
Real Servers window Monitor > Devices > Load Balancing > Real Servers
Statistics window Monitor > Devices > Load Balancing > Statistics
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Figure 17-12 Displaying Historical Graphs
Step 4 (Optional) To enhance your viewing of the graphs, use the Collapse/Expand buttons to minimize or
maximize a graph in the monitoring window.
Step 5 (Optional) Use the graphing tools described in Table 17-17 to modify the display.
Table 17-17 Historical Graph Tools
Tool Description
Add Graph button Adds a graph to the selected monitoring window.
View As Chart
and
View As Grid icons
Toggles the display of an object graph in the monitoring window between a
grid and a graph.
The grid displays include the Export to Excel hyperlink that allows you to
export object data to Microsoft Excel for archiving or other purposes.
Show As Image icon Allows you to save the graph as a JPEG file for archiving or other purposes.
When you mouse over the graph, the Image Toolbar appears. From the Image
Toolbar, you can save the graph as a JPEG or send it in an e-mail. You can
also print the graph if desired.
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Select button (upper) Allows you to add one or more objects to a graph in the monitoring window
to compare the performance of one object with its peer for the selected
statistics. Do the following:
a. In the graph that contains the object you want to replace, click the upper
Select button.
Note You cannot perform this function from the Resource Usage
graph window, which contains only one Select button. This
button is used for selecting multiple statistics (see Select button
(lower)).
The Objects Selector popup window appears.
b. From the Objects Selector popup window, choose up to four objects and
do one of the following:
– Click OK to return to the graph window, which displays your
selected objects.
– Click Cancel to ignore any selections and return to the original
graph.
Select button (lower) To select multiple statistics for display in a graph in the monitoring window,
perform the following steps:
a. In the graph of the object that you want to add statistics, click the lower
Select button within the graph.
The Select Stats popup window appears.
Note The Resource Usage graph window contains only one Select
button; click this button.
b. From the Select Stats popup window, choose the statistics to add to the
graph.
You can choose up to four statistics for display in a graph and the object
statistics must be of the same unit of measure (for example, bytes/sec.).
The selected statistics appear in the existing object graph in the
monitoring window.
Do one of the following:
– Click OK to return to the graph window, which displays your
selected statistics.
– Click Set As Default And Draw Graph to set the current selections
as the default objects to graph and return to the graph window, which
displays your selected statistics.
– Click Cancel to ignore any selections and return to the original
graph.
Table 17-17 Historical Graph Tools
Tool Description
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Exporting Historical Data
Step 6 To exit the display of graphs, click Exit Graph.
Exporting Historical Data
Note The data export feature requires either the ANM_ADMIN role or a role with a ANM_System privilege
other than no-access.
You can enable or disable the data export feature that allows ANM to export the historical data that it
collects on the network devices that it manages. You create a data file purging policy to enable or disable
the data export feature and define the purging attributes associated with this feature.
By default, the data export feature is enabled, allowing ANM to export the raw statistical data that it
collects during a polling session to the comma-separated values (CSV) data files in the following
directory:
/var/lib/anm/export/historical-data/date-stamp
where date-stamp is the directory name, which is based on the date when the file was created and uses
the format YYYY-MM-DD. For example, 2010-05-25. The exported data is saved to the files according
to device type (for example, ACE_MODULE, CSS, or CSM) and its record type (for example, RT_INT
or RT_CPU).
Time drop-down list Modifies the time interval for the accumulated statistics displayed in a graph.
Time interval choices include the average data calculated during the last
hour, 2-hour, 4-hour, 8-hour, 24-hour, or 30-day (last month) interval. The
time choices also include the Real Time option, which displays a maximum
of 3 minutes of data at 10-second intervals (not configurable).
Note the following usage considerations for the time interval for
accumulated statistics:
• When you specify to view average data calculated during the last hour,
2-hour, 4-hour, or 8-hour interval, raw data points collected by ANM
within the selected time period will be displayed. For example, when you
specify to view the data of the last hour, if ANM has been collecting data
for over an hour at a default 5-minute interval, you will see 12 data points
on the graph.
• When you specify to view average data calculated during the last
24-hour interval, consolidated hourly data points will be displayed. For
example, if ANM has been collecting data for more than 24 hours, you
will see 24 data points on the graph.
• When you specify to view average data calculated during the last 30-day
interval, consolidated daily data points will be displayed. For example,
if ANM has been collecting data for over 30 days, you will see 30 data
points on the graph.
Table 17-17 Historical Graph Tools
Tool Description
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Exporting Historical Data
The data export feature includes a data dictionary (stats-export.dict), which defines the device type and
record type and can be used to interpret the data content and format of the exported files. You can
download the data dictionary, which is written in XML, and display its content using IE browser or any
XML editor/viewer, such as Stylus Studio. The data dictionary can be used as a tool when writing a script
to extract specific data from a data file. For example, you can create a script that extracts data based on
a device type, such as an ACE, that shows interface statistics for a virtual context within the ACE.
Each record/row in the exported data file contains the following information:
• Timestamp (in the format defined by the data dictionary)
• Device-type
• Optional record-type (defined in the data dictionary and used to define the format of each record)
• Managed entity name (fully qualified name of the managed object with which the statistical data is
associated; it should have the same name shown in the historical graph)
• List of statistical data (list order is defined in the data dictionary associated with the record-type)
The first line of each exported data file is a header describing the column of each row. Each field of the
record is separated by the separator character, which is currently defined in the data dictionary as the
comma. If the metric value is unknown, its value is left empty. Each record is separated by a new line
character.
The following data file content sample shows the data file header followed by the statistical information:
DeviceType, RecordType, Timestamp, ManagedEntity, Current Connections, Total Connections,
Dropped Connections, Total Client Packets, Total Server Packets, Total Client Bytes, Total
Server Bytes, Total Drops Due To Maximum Connection Limit, Total Drops Due To Connection
Rate Limit, Total Drops Due To Bandwidth Limit
DT-ACE-VC,RT-VS,2010-05-28-14:21:08,172.23.244.130:2:Admin/test/global,0,0,0,0,0,0,0,0,0,0
DT-ACE-APPLIANCE-VC,RT-VS,2010-05-28-14:21:08,172.23.244.212:Admin/test_vs_3/global,0,0,0,
0,0,0,0,0,0,0
The header column names DeviceType, RecordType, Timestamp, and ManagedEntity are mandatory.
The definitions of the mandatory headers can be found in the following data dictionary XML tags:
• DeviceType definition is inside the device-type tag.
• RecordType definition is inside the record-type tag.
• ManagedEntity definition is inside the managed-entity tag.
The column names that follow the mandatory names are the display names of the statistic.
Guidelines and Restrictions:
The data export guidelines and restrictions are as follows:
• The time at which ANM exports the data file is not configurable.
• By default, ANM exports raw historical data only. Snapshots and consolidated historical data
(average, minimum, maximum) are not exported.
The data export purging operation guidelines and restrictions are as follows:
• ANM purges exported data according to the configurable purging policy. By default, the purging
policy instructs ANM to purge the data file if it stays for more than 32 days or the total combined
export data is bigger than 10000 M (10 G) of disk space or the disk usage is more than 80 percent.
• You can configure ANM to send an email notification to up to five recipients when the disk space
usage is higher than the defined threshold.
• Each purge action removes at least one day of exported statistical data.
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Exporting Historical Data
Procedure
Step 1 Choose Monitor > Settings > Historical Data Export.
The Historical Data Export window appears.
Step 2 Configure the data export purging policy as shown in Table 17-18.
Table 17-18 Historical Data Export Fields
Item Description
Retention Period (In Days) Maximum number of days that ANM is to keep the exported data files. The
valid range is 1 to 365 days. The default is 32.
Maximum Size Of Exported Data (In MBytes) Maximum allowable size of the data file to export. The valid range is 100 MB
to 100000 MB. The default is 10000 MB.
Current Size Of Exported Data (In MBytes) (Read only) Current size of the data file.
Disk Space Utilization Threshold (In %) Percentage of disk space that the data file can utilize.
Current Disk Space Utilization (In %) (Read only) Current amount of disk space that the data file is utilizing.
Do You Want To Disable Data Export Check box for enabling or disabling the data export feature as follows:
• Unchecked—Data export is enabled. This is the default setting.
• Checked—Data export is disabled.
E-mail Address To Send Notification When
Disk Usage Is Greater Than Disk Space
Utilization Threshold Setting
Email addresses that ANM sends a notification to when the amount of disk
space utilized by the data file exceeds the specified Disk Space Utilization
Threshold value. ANM sends an email notification only once every 24 hours
even when threshold-exceeding condition persists.
Enter an email address and click the right arrow to add it to the list of email
addresses to receive notifications. You can specify up to five email addresses.
To edit or remove an address from the list, use the left arrow or double-click
the address to move it to the edit box where you can modify or delete it.
Note For email notifications, you must specify an SMTP server to use for
outgoing emails (see the “Configuring SMTP for Email
Notifications” section on page 17-68).
Status Current status of the data export feature as follows:
• RUNNING—Data export is enabled. An alert message may display in
parenthesis next to the Running status.
• STOP—Data export is disabled.
To change the status, see the Do You Want To Disable Data Export checkbox.
Statistical Data Last Purge At (Read only) Server time when ANM last purged the data file.
Reason For Purging (Read only) Reason why ANM purged the data file; retention period, total
size of the exported data file, or disk space usage.
Location Of Exported Data (Read only) Path to the exported data files:
/var/lib/anm/export/historical-data.
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Monitoring Events
Step 3 (Optional) To download a copy of the data dictionary in zip file format, click Download Data
Dictionary.
Step 4 To save the current data file purging policy, click Save.
Related Topics
• Configuring SMTP for Email Notifications, page 17-68
Monitoring Events
The events captured in the Events table include both ACE syslog events and SNMP trap events. A
procedure for viewing both types of events and details of information extracted from the syslog are
shown below. Fields providing traffic-oriented sorting capability, specifically the information signified
by the column heads in the Events Fields window, shown in Table 17-19 (Source IP, Source Port,
Destination IP, Destination Port, and Protocol) are only available for the ACE syslogs.
Note We do not recommend that you send a high volume of syslogs to ANM. ANM will only process and
persist syslogs at 100 messages per second. Any additional syslogs sent to ANM beyond that rate will
be discarded. To address this behavior, set the syslog severity level to a setting that is no higher than the
warning level (a severity level of 4-Warning). See the “Configuring Virtual Context Syslog Settings”
section on page 6-19 for details.
Assumptions
To receive events from devices, the devices must have syslog and SNMP traps configured correctly. See
the “Configuring Virtual Context Syslog Settings” section on page 6-19 and the “Configuring SNMP for
Virtual Contexts” section on page 6-27.
Procedure
Step 1 Choose Monitor > Events.
ANM displays all events received from ACE for Syslog and SNMP traps for all virtual contexts. See
Table 17-19 for a description of the displayed information, which is extracted from the syslog.
You can sort information in the table by clicking on a column heading. This allows you to group events
and help troubleshooting traffic information.
Table 17-19 Monitor > Events Fields
Field Description
Syslog ID/SNMP
ID
Displays the Syslog ID and SNMP ID. If the event is a trap, this field is empty.
Severity Indicates the syslog severity level as described in Table 6-5.
Origination Time Date and time that the event was last changed in the database.
Source IP Displays the source name that is reporting the event, for example, :virtual_context.
Source Port Displays the source port.
Destination IP Displays the IP address of the destination if available.
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Table 17-20 displays the complete list of published ACE syslogs where source and destination IP, ports
and protocols are parsed so that the designated table fields populate.
Note Only the ACE syslog messages shown in this table will populate the Events window fields explained in
Table 17-19. Syslogs and traps not in this table will populate fields with a 0.
Destination Port Displays the destination port if available.
Protocol Protocol used in the syslog.
Detail Provides additional detail about the event.
Table 17-19 Monitor > Events Fields (continued)
Field Description
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Related Topics
• Monitoring Devices, page 17-24
• Performing Device Audit Trail Logging, page 18-59
Configuring Alarm Notifications on ANM
To set up Monitoring alarm notifications, you define a threshold group and specify the statistics to be
monitored by ANM for the threshold group. When the value for a specific statistic rises above the setting
you specify, an alarm is issued to alert you.
Note CISCO-EPM-NOTIFICAITON-MIB is used for ANM alarms notification.
Table 17-20 ACE Syslogs Fields with Perishable Traffic Oriented Sorting Information
Syslog Message Contents
ACE-1-106021 Deny protocol reverse path check from source_address to dest_address on interface
interface_name
ACE-4-106023 Deny protocol number | name src incoming-interface:src-ip dst outgoing-interface:dst-ip
by access-group "acl-name" (hash 1, hash 2)
ACE-6-302022 Built TCP connection id for interface:real-address/real-port
(mapped-address/mapped-port) to interface:real-address/real-port
(mapped-address/mapped-port)
ACE-6-302023 Teardown TCP connection id for interface:real-address/real-port to
interface:real-address/real-port duration hh:mm:ss bytes bytes [reason]
ACE-6-302024 Built UDP connection id for interface:real-address/real-port
(mapped-address/mapped-port) to interface:real-address/real-port
(mapped-address/mapped-port)
ACE-6-302025 Teardown UDP connection id for interface:real-address/real-port to
interface:real-address/real-port duration hh:mm:ss bytes bytes
ACE-6-302026 Built ICMP connection for faddr/NATed_ID gaddr/icmp_type laddr/icmpID
ACE-6-302027 Teardown ICMP connection for faddr/NATed ID gaddr/icmp_type laddr/icmpID
ACE-6-302028 Built TCP connection id for interface: real-address/real-port
(mapped-address/mapped-port) to interface: real-address/real-port
(mapped-address/mapped-port)
ACE-6-302029 Teardown TCP connection id for interface: real-address/real-port to interface:
real-address/real-port duration hh:mm:ss bytes bytes [reason]
ACE-6-302030 Built UDP connection id for interface: real-address/real-port
(mapped-address/mapped-port) to interface: real-address/real-port
(mapped-address/mapped-port)
ACE-6-302031 Teardown UDP connection id for interface: real-address/real-port to interface:
real-address/real-port duration hh:mm:ss bytes bytes
ACE-4-313004 Denied ICMP type=icmp_type, from source_address on interface interface_name to
dest_address:no matching session
ACE-4-410001 Dropped UDP DNS packet_type from source_interface:source_address/source_port to
dest_interface:dest_address/dest_port; error_length_type length length bytes exceeds
max_length_type limit of maximum_length bytes.
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You can specify how you are notified when thresholds are crossed:
• Alarm notification, which you view at Monitor > Alarm Notifications > Alarms.
• Email notification.
• Traps.
• Mobile device alarm notification. This method requires ANM 5.1 or later and a supported mobile
device with the Cisco ANM Mobile app. For more information about ANM Mobile, see Chapter 19,
“Using ANM Mobile.”
Note Threshold crossing is detected using periodic polling. If a threshold is crossed between polling cycles,
it is possible that ANM License Manager might not issue an alert if the condition recovers before the
next polling cycle.
Guidelines and Restrictions
For certificates that you have loaded on the ACE, you can configure ANM to issue an alarm notification
when the certificate expiration date is approaching. ANM performs certificate expiration computations
every 24 hours. The computation begins each time ANM is started. Every subsequent computation
occurs 24 hours thereafter.
Note The Certificates window (Config > Devices > context > SSL > Certificates) contains the Expiry Date
field, which displays the certificate expiration date. Due to a known issue with the ACE module and
appliance, it is possible that this field displays either “Null” or characters that cannot be parsed or that
are unreadable. When this issue occurs, ANM cannot track the certificate expiration date. If the
certificate is defined in a threshold group configured for certificate expiration alarm notifications and
this issue occurs, ANM may not issue an expiration alarm when expected or it may issue a false alarm.
If you encounter this issue, remove the certificate from the ACE, reimport it, and then verify that the
correct expiration date appears in the Certificates window.
Prerequisites
For email notifications, you have specified an SMTP server to use for outgoing emails (see the
“Configuring SMTP for Email Notifications” section on page 17-68).
Procedure
Step 1 Choose Monitor > Alarm Notifications > Threshold Groups, and click Add.
Step 2 In the Properties section, enter the name and description for the threshold group.
Step 3 In the Threshold Settings section, click Add and then enter the following information shown in
Table 17-21.
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Table 17-22 provides details for the Category field found in Table 17-21.
Table 17-21 Threshold Settings Fields
Field Description
Device Type Choose the device type to include in the threshold group. VC indicates ACE virtual context.
Category Choose a statistic to include in the threshold group. Table 17-22 identifies and describes the types of
statistics available for each device type.
Note We do not recommend that you include ACL Memory (ACE module and ACE appliance) or
Current Application Acceleration Connections (ACE appliance only) as statistics in a threshold
group. The values provide through the associated show resource usage CLI command regarding
the utilization of these two threshold parameters does not accurately reflect the real usage of
these two resources.
Assert on Value Enter a value to define the threshold. When the statistic exceeds this value, an alarm is issued. Some
values are displayed as percentages as indicated by the percent sign (%).
In the case of SSL certificate expiration, assert on value indicates the number of days before certificate
expiration. Alarms will be updated daily to indicate the number of days remaining until certificate
expiration. If the email is configured, you will be sent email daily alerting you to the number of days
left before expiration.
Clear Value Enter a value on which to clear the alarm.
In the case of SSL certificate expiration, the setting has no relevance. When an expired certificate is
deleted, the alarm is removed from ANM on the subsequent certificate evaluation. This happens every
24 hours.
Notify on Clear Check the Notify on Clear check box to receive an email notification to the specified address when the
alarm is cleared.
Severity Choose a severity level for this threshold, which can be Critical, Info, Major, or Minor.
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Table 17-22 Monitoring Thresholds by Device Type
Category Threshold Description
ACE 4710 Appliance
ACL Memory Percentage of memory allocated for ACLs.
Note We do not recommend that you include ACL
Memory as a statistic in a threshold group. The
value provided through the associated show
resource usage CLI command regarding the
utilization of ACL memory does not accurately
reflect the real usage of this resource.
Bandwidth Percentage of throughput.
Concurrent Connections Percentage of simultaneous connections.
Current Application
Acceleration Connections
Percentage of application acceleration connections.
Note We do not recommend that you include Current
Application Acceleration Connections as a
statistic in a threshold group. The value
provided through the associated show
resource usage CLI command regarding the
utilization of application acceleration
connections does not accurately reflect the real
usage of this resource.
Current Connection Rate Percentage of connections of any kind.
Current HTTP Compression
Rate
Percentage of compression for HTTP data.
Inspect Connection Rate Percentage of application protocol inspection
connections.
MAC Miss Rate Percentage of messages destined for the ACE that are
sent to the control plane when the encapsulation is not
correct in packets.
Management Connections Percentage of management connections.
Management Traffic Rate Percentage of management traffic connections.
Proxy Connections Rate Percentage of proxy connections.
Regular Expression Memory Percentage of regular expression memory.
SSL Connection Rate Percentage of SSL connections.
Syslog Buffer Size Percentage of the syslog buffer.
Syslog Message Rate Percentage of syslog messages per second.
Translation Entries Percentage of network and port address translations.
Device Device Status ACE operating status changes from Up to Down and
vice versa.
ACE 4710 Appliance VC
Application Acceleration Condenser State State of the condenser.
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HA Redundancy State ACE virtual context HA or fault tolerance (FT) state
changes. Possible FT states are Active, Standby Hot,
and Other, which represents all other FT states,
including the following:
• Non-Redundant—Virtual context is not included
in any FT group.
• Unknown—Virtual context becomes inaccessible,
for example if the ACE that it resides in becomes
unresponsive.
Interface Interface Operational State Operational state of the interface.
Probes Probe Health State Operational health of the health monitoring probe.
Real Server1 Real Server Current Connections Number of current connections on a real server.
Real Server Operational State Operational state of a real server.
SLB Stat Layer 4 Policy Connections Number of Layer 4 policy connections.
Layer 7 Policy Connections Number of Layer 7 policy connections.
SSL Certificate Management SSL certificate expiration (in
days)
Number of days left before SSL certificate expires
whose value minus one will send a warning email with
the specified severity. ANM updates this field daily.
Virtual Server1 Virtual Server Current
Connections
Number of active virtual server connections.
Virtual Server Operational State Operational state of a virtual server.
Table 17-22 Monitoring Thresholds by Device Type (continued)
Category Threshold Description
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ACE Module
ACL Memory Percentage of memory allocated for ACLs.
Note We do not recommend that you include ACL
Memory as a statistic in a threshold group. The
value provided through the associated show
resource usage CLI command regarding the
utilization of ACL memory does not accurately
reflect the real usage of this resource.
Bandwidth Percentage of bandwidth.
Concurrent Connections Percentage of simultaneous connections.
Current Connection Rate Percentage of connections of any kind.
Current HTTP Compression
Rate
Percentage of compression for HTTP data. This field
appears only for an ACE module version A4(1.0) or
later.
Inspect Connection Rate Percentage of application protocol inspection
connections.
MAC Miss Rate Percentage of messages destined for the ACE that are
sent to the control plane when the encapsulation is not
correct in packets.
Management Connections Percentage of management connections.
Management Traffic Rate Percentage of management traffic connections.
Proxy Connections Rate Percentage of proxy connections.
Regular Expression Memory Percentage of regular expression memory.
SSL Connection Rate Percentage of SSL connections.
Syslog Buffer Size Percentage of the syslog buffer.
Syslog Message Rate Percentage of syslog messages per second.
Throughput Percentage of throughput.
Translation Entries Percentage of network and port address translations.
Device Device Status ACE operating status changes from Up to Down and
vice versa.
ACE VC
HA Redundancy State ACE virtual context HA or fault tolerance (FT) state
changes. Possible FT states are Active, Standby Hot,
and Other, which represents all other FT states,
including the following:
• Non-Redundant—Virtual context is not included
in any FT group.
• Unknown—Context becomes inaccessible, for
example if the ACE that it resides in becomes
unresponsive.
Interface Interface Operational State Operational state of the interface.
Table 17-22 Monitoring Thresholds by Device Type (continued)
Category Threshold Description
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Probes Probe Health State Operational health of the health monitoring probe.
Real Server1 Real Server Current Connections Number of current connections on a real server.
Real Server Operational State Operational state of a real server.
SLB Stat Layer 4 Policy Connections Number of Layer 4 policy connections.
Layer 7 Policy Connections Number of Layer 7 policy connections.
SSL Certificate Management SSL certificate expiration (in
days)
Number of days left before SLL certificate expires
whose value minus one will send a warning email with
the specified severity. ANM updates this field daily.
Virtual Server1 Virtual Server Current
Connections
Number of active virtual server connections.
Virtual Server Operational State Operational state of a virtual server.
CSM Module
Real Server Real Server Connections Number of real server connections.
Real Server Current State Operational state of a real server.
SLB Stat Current Opened Connections Number of open connections.
Layer 4 Policy Connections Number of Layer 4 policy connections.
Layer 7 Policy Connections Number of Layer 7 policy connections.
SLB Virtual Server Virtual Server Connections Number of virtual server connections.
Virtual Server State Operational state of a virtual server.
System CSM Fault Tolerance State Fault tolerance state of the CSM.
Device Device Status CSM operating status changes from Up to Down and
vice versa.
CSS
Interface Average TCP Packets Average number of TCP packets.
Interface Operational State Operational state of the interface.
Max TCP Packets Maximum number of TCP packets.
Real Server Active Service Connections Number of active real server connections.
Real Server State State of a real server.
System CSS Fault Tolerance State Fault tolerance state of the CSS.
CSS Module State State of a CSS module.
Virtual Server Virtual Server State Current state of a virtual server.
Device Device Status CSS operating status changes from Up to Down and
vice versa.
GSS
Device Device Status GSS operating status changes from Up to Down and
vice versa.
1. Category choices support mobile device notifications.
Table 17-22 Monitoring Thresholds by Device Type (continued)
Category Threshold Description
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Step 4 Click OK.
Step 5 In Device Selection, choose the device type to include in the threshold group.
The available devices appear in the Available Items field.
Note Make sure that the device type you select in this field is supported by the threshold that you
selected in the Category field in Step 3. If the device type you select is not supported by the
threshold you selected, you will not receive alarm notifications.
Step 6 Click on a device in the Available Items field, and then the arrow (>) to move the device to the Selected
Items field.
Step 7 In the Notify By section, do the following:
a. In the E-mail field, enter the email address that you want to receive notification email.
See the “Displaying Email Notifications” section on page 17-66 for information contained in the
email notifications. If you do not select this field, you must view alarm notifications by selecting
Monitor > Alarm Notifications > Alarm.
Note You must configure the required host parameters, IP address and port, to send email
notifications. See the “Configuring SMTP for Email Notifications” section on page 17-68.
b. Check the Domain sensitive email notification check box to receive filtered email about certificate
expirations for the certificates defined in the current domain only. The emails are sent to the email
address configured for the RBAC user definition (see the “Managing User Accounts” section on
page 18-17). Uncheck this check box to disable this feature.
Note This attribute appears only when the selected device type is either the ACE 4710 VC or the
ACE VC and the category type is set to SSL Certificate expirations (in days).
c. In the Traps field, enter the host IP Address and port number of the machine to which the traps are
sent.
See the “Displaying Traps” section on page 17-67 for information contained in the traps.
d. Check the Mobile Notifications check box to allow ANM to send alarm notifications to supported
smart devices that use the ANM Mobile app. This notification option is available when you choose
threshold settings in Step 3 for real or virtual servers for device types ACE 4710 VC and ACE VC.
See the “Setting Up and Viewing Mobile Device Alarm Notifications” section on page 19-13 for
information about setting up alarm notifications on your mobile device.
Step 8 Do one of the following:
• Click Save to save the threshold group settings.
• Click Cancel to cancel the threshold group settings and return to the Threshold Groups page.
Related Topics
• Configuring SMTP for Email Notifications, page 17-68
• Displaying Alarm Notifications, page 17-65
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Displaying Alarm Notifications
You can display the alarm notification that ANM issues when the value for a statistic exceeds a specified
threshold value. Depending on how you specified to be notified when a threshold is crossed, you can
view all alarm notifications, email notifications, or alarm traps.
Guidelines and Restrictions
Threshold crossing is detected using periodic polling. If a threshold is crossed between polling cycles,
it is possible that ANM License Manager might not issue an alert if the condition recovers before the
next polling cycle.
Prerequisites
You have configured alarm notifications as described in the “Configuring Alarm Notifications on ANM”
section on page 17-57.
This section includes the following topics:
• Displaying Alarms in ANM, page 17-65.
• Displaying Email Notifications, page 17-66.
• Displaying Traps, page 17-67.
Displaying Alarms in ANM
You can display the alarms that ANM issues when the value for a statistic exceeds a specified threshold
value.
Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
• ANM displays only the alarms for the devices that are in the domain definition of the RBAC user
logged into ANM.
• If an alarm has been cleared, it does not appear on the Monitor > Alarm Notifications > Alarms page.
This page displays active alarms only.
Prerequisites
You have configured alarm notifications as described in the “Configuring Alarm Notifications on ANM”
section on page 17-57.
Procedure
Step 1 Choose Monitor > Alarm Notifications > Alarms.
The Alarms window appears, displaying the list of alarm notifications issued by ANM. Table 17-23
describes the information displayed for each notification.
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:
Step 2 (Optional) To view a statistical graph of a component with an issue, choose an alarm notification and
click Graph The Component With Issue.
The Graph popup window appears, showing an analysis of the default statistical units being measured
(y-axis) to date and time (x-axis). The component type determines the default statistical units being
measured. For example, the units being measured for the real server component type is the number of
connections.
Note This button can only be used with alarm notifications for the following component types: real
server, virtual server, or interface.
Related Topics
• Configuring SMTP for Email Notifications, page 17-68
• Configuring Alarm Notifications on ANM, page 17-57
• Displaying Email Notifications, page 17-66
Displaying Email Notifications
After you configure alarm notifications (see the “Configuring Alarm Notifications on ANM” section on
page 17-57) and specify to receive notification email, when the value for a specific statistic rises above
the setting you specify, ANM sends an email to alert you.
Table 17-24 describes the information contained in the email alarm notification.
Table 17-23 ANM Alarm Notification Content
Field Description
Source ID ANM server IP address that issued the alarm
Severity Specified severity level of the threshold, which can be one of the following:
• Info
• Critical
• Major
• Minor
Origination Time Time the alarm was issued
Threshold Group Specified threshold group name
Category Alarm name
Component Component name, for example, VLAN20
State/Value Specified state or value of the alarm
Detail Displays additional information about the alarm.
Notes Allows you to add any notes to this alarm.
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Related Topics
• Configuring Alarm Notifications on ANM, page 17-57
• Displaying Alarm Notifications, page 17-65
Displaying Traps
After you configure alarm notifications (see the “Configuring Alarm Notifications on ANM” section on
page 17-57) and specify to send traps to a trap receiver, when the value for a specific statistic rises above
the setting you specify, ANM issues a trap to alert you.
Related Topics
• Configuring Alarm Notifications on ANM, page 17-57
• Displaying Alarm Notifications, page 17-65
Table 17-24 Email Alarm Notification Content
Field Description
ANM Server Host Name ANM server host name
ANM Server IP Address ANM server IP address
Device ID Device name
Component Name Component name, for example, VLAN20
Severity Specified severity level of the threshold, which can be one of the
following:
• Info
• Critical
• Major
• Minor
Time Time the alarm was issued
Alarm Name Specified name of the alarm
Alarm Value Specified value of the alarm
Threshold Assert Value Specified value on when to issue the alarm
Threshold Group Name Specified threshold group name
Alarm State State of the alarm which can be one of the following:
• Active
• Clear
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Configuring SMTP for Email Notifications
Configuring SMTP for Email Notifications
You can specify that email notifications be sent each time a monitoring threshold is crossed. You can
request alert emails when configuring a threshold group (Monitor > Alarm Notifications > Threshold
Groups) or when enabling the historical data export feature (Monitor > Settings > Historical Data
Export).
Note You must configure ANM with your SMTP server information to receive email notifications.
Assumption
You have configured threshold crossing alerts (see the “Configuring Alarm Notifications on ANM”
section on page 17-57) or enabled the historical data export feature (see the “Exporting Historical Data”
section on page 17-52).
Procedure
Step 1 Choose Monitor > Settings > SMTP Configuration.
Step 2 In the SMTP Server to Send E-mail Notifications field, enter your SMTP server.
Step 3 (Optional) In the MAIL FROM for all Email notifications field, enter the source email address to use for
email notifications.
By default, the Mail From address is anm@hostname.
Step 4 Click Deploy Now to apply the SMTP configuration.
Related Topics
• Exporting Historical Data, page 17-52
• Monitoring Events, page 17-55
• Configuring Alarm Notifications on ANM, page 17-57
• Displaying Email Notifications, page 17-66
Displaying Network Topology Maps
This section shows how to display and use the network topology maps that display the nodes on your
network based on the virtual or real server that you select. Figure 17-13 shows a sample network
topology map.
Note The ANM software version that displays across the top of the window varies depending on your version
of ANM.
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Figure 17-13 Sample ANM Topology Map
Table 17-25 describes the callouts shown in Figure 17-13.
279805
3 3a 3b
1 2
Table 17-25 Network Topology Map Components
Item Description
1 Topology map tool bar that contains the following tools:
• Layout—Changes the direction in which the network map appears. Choose one of the following options from the
drop-down list: Top to Bottom or Left to Right.
• Zoom—Modifies the size of the network map. Click and drag the slide bar pointer to adjust the map size.
• Magnifier—Toggle button that enables or disables the magnifier tool. When enabled, moving your mouse over the
the topology map magnifies the area that the mouse is over.
• Fit Content—Fits the topology map to the window.
• Overview—Toggle button that enables or disables the Overview Window tool (see Callout 3).
• Undo—Sets the network node icons back to their previous positions.
• Redo—Redoes the changes that you made before you clicked Undo.
• Print—Sends the topology map to the network printer.
• Exit—Closes the topology map and returns to the previous window.
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Table 17-26 shows the locations in the ANM GUI where you can access the topology maps for real
servers and virtual servers.
2 Topology Map—Displays network node mapping.
The node icons display the following information related to the node:
• Name
• IP address (virtual and real servers only)
• Port (real servers only)
• Operational state (virtual and real servers only)
When you hover over a network node icon, the node type appears, for example ACE Virtual Server, Server Farm, or
Real Server. Other possible operations when you hover over a network node icon are as follows:
• Real servers only—When you have an ACE configured for Dynamic Workload Scaling and you mouseover an
associated real server icon, information appears that identifies which data center the real server is located in: local
or remote. A timestamp also appears that specifies when the information was obtained.
• Server farms only—When you mouseover a server farm icon, the following Dynamic Workload Scaling status
information appears:
– Local—The ACE is using the server farm’s local real servers only for load balancing. A timestamp specifies
when the information was obtained.
– Burst—The ACE is bursting traffic to the server farm’s remote real servers because the load of the local real
servers has exceeded the specified usage threshold (based on the average CPU and/or memory usage). A
timestamp specifies when the information was obtained.
– N/A—Not applicable (Dynamic Workload Scaling is not available).
For more information about Dynamic Workload Scaling, see the “Dynamic Workload Scaling Overview” section on
page 8-4.
To view details about a network node, right-click on the node and choose Show Details from the popup menu. To
reposition a node in the map, click and drag the node icon to a new position. The node interconnect lines move with
the node.
3 Overview Window—Provides a combined functionality of the scroll bars and zoom tool as follows:
• Position tool (a)—Click and drag the shaded box to move around the topology map.
• Zoom tool (b)—Click and drag the shaded box handle (located in lower right corner) and to zoom in or out of the
topology map.
Click the Overview toggle button in the map tool bar to display or hide the Overview window.
Table 17-25 Network Topology Map Components (continued)
Item Description
Table 17-26 ANM Topology Map GUI Locations
GUI location For more information, see . . .
Config > Operations > Real Servers Using the Real Server Topology Map, page 8-23
Config > Operations > Virtual Servers Using the Virtual Server Topology Map, page 7-85
Monitor > Devices > Loadbalancing > Real Servers This section.
Monitor > Devices > Loadbalancing > Virtual Servers
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Procedure
Step 1 Do one of the following:
• Display the list of virtual servers by choosing Monitor > Devices > context > Loadbalancing >
Virtual Servers.
The Virtual Servers window appears with the table of configured virtual servers.
• Display the list of real servers, choose Monitor > Devices > context > Loadbalancing > Real
Servers.
The Real Servers window appears with the table of configured virtual servers.
Step 2 From the servers table, check the check box next to the server whose topology map you want to display.
Step 3 From the servers window, click Topology.
The ANM Topology window displays the topology map for the selected virtual or real server. For
information about using the topology map tools, see Figure 17-13 and Table 17-25.
Step 4 (Optional) To close the topology map and return to the previous window, from the ANM Topology
window, click Exit.
Testing Connectivity
You can verify the connectivity (using the ping command) between ANM and the IP address you specify.
Note The Ping feature is disabled if you have not imported any devices into the ANM server.
Procedure
Step 1 Choose Monitor > Tools > Ping.
Step 2 From the object selector field, choose the device you want to test.
Step 3 Enter the information shown in Table 17-27.
Step 4 Click Start to run the connectivity test.
Table 17-27 Ping Fields
Field Description
IP Address Type Choose either IPv4 or IPv6 for the address type of the real server. This field
appears only for ACE module and ACE appliance software version A5(1.0) or
later, which supports IPv4 and IPv6.
IP Address IP address of the real server to which you want to ping.
Elapsed Time Elapsed time before the ping request is declared a failure.
Repeat Number of times to repeat the test.
Datagram Size Value for the argument size (size of the packet) of the ping command.
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Chapter 17 Monitoring Your Network
Testing Connectivity
After the test completes, the results are displayed.
Step 5 Do one of the following:
• Click New to enter new parameters and create a new ping test.
• Click Restart to rerun the connectivity test.
Related Topic
Setting Up Devices for Monitoring, page 17-2
CHAPTER
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Administering the Cisco Application Networking
Manager
Date: 3/28/12
This chapter describes how to administer, maintain, and manage the ANM management system. Previous
topics described how to manage your network devices on ANM, while this topic describes how to
perform procedures on the system itself.
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Overview of the Admin Function, page 18-2
• Controlling Access to Cisco ANM, page 18-3
• How ANM Handles Role-Based Access Control, page 18-8
• Configuring User Authentication and Authorization, page 18-9
• Managing User Accounts, page 18-17
• Displaying or Terminating Current User Sessions, page 18-24
• Managing User Roles, page 18-25
• Managing Domains, page 18-32
• Using an AAA Server for Remote User Authentication and Authorization, page 18-38
• Disabling the ANM Login Window Change Password Feature, page 18-50
• Managing ANM, page 18-51
• Administering the ANM Mobile Feature, page 18-67
• Lifeline Management, page 18-72
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Overview of the Admin Function
Overview of the Admin Function
Note Some of the Admin options might not be visible to some users; the roles assigned to your login determine
which options are available.
Table 18-1 describes the options that are displayed when you click Admin.
Table 18-1 Admin Menu Options
Menu Option Description Reference
Role-Based Access
Control
Organizations Manage organizations, configure
remote authentication mechanisms
“Configuring User Authentication and
Authorization” section on page 18-9
Users Manage users “Managing User Accounts” section on
page 18-17
Active Users Display active users “Displaying or Terminating Current User
Sessions” section on page 18-24
Roles Manage user roles “Managing User Roles” section on
page 18-25
Domains Manage domains “Managing Domains” section on
page 18-32
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Controlling Access to Cisco ANM
Controlling Access to Cisco ANM
Access to ANM is based on usernames and passwords, which can be authenticated to a local database
on the ANM system or to a remote RADIUS, Active Directory/Lightweight Directory Access Protocol
(AD/LDAPS), or TACACS+ server. For detailed procedures about remote authentication, see the
“Configuring Authentication and Accounting Services” chapter of either the Cisco ACE Module Security
Configuration Guide or Cisco ACE 4700 Series Appliance Security Configuration Guide on
www.cisco.com.
Note ANM supports LDAPS through Active Directory (AD) only.
ANM Management ANM Checks the status of the ANM
server.
“Checking the Status of the ANM Server”
section on page 18-52
License
Management
Views ANM license state, add more
licenses, and tracks license
information on your ACE
“Using ANM License Manager to Manage
ANM Server or Demo Licenses” section on
page 18-54
Statistics Displays ACE statistics (for
example, CPU, disk, and memory
usage).
“Displaying ANM Server Statistics” section
on page 18-56
Statistics
Collection
Enables ACE server statistics
polling.
“Configuring ANM Statistics Collection”
section on page 18-57
Audit Log
Settings
Allows you to specify number of
audit logs saved and how many days
logs are saved.
“Configuring Audit Log Settings” section
on page 18-58
ANM Change
Audit Log
Allows you to display audit logs
recording any user input.
“Displaying Change Audit Logs” section on
page 18-61
ANM Auto-Sync
Settings
Allows you to specify ANM server
auto sync settings
“Configuring Auto Sync Settings” section
on page 18-61
Advanced
Settings
Allows you to configure the
following Advanced Settings
functions:
• Enable or disable overwrite of
the ACE logging device-id
while setting up syslog for
autosync using Config >
Devices > Setup Syslog for
Autosync.
• Enable or disable write memory
on a Config > Operations
configuration.
“Configuring Advanced Settings” section
on page 18-62
Lifeline Management Use this tool to report a problem to
the Cisco support line and generate a
diagnostic package
“Lifeline Management” section on
page 18-72
Table 18-1 Admin Menu Options (continued)
Menu Option Description Reference
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Controlling Access to Cisco ANM
When a user logs into the system, the specific tasks they can perform and areas of the system that they
can use are controlled by organizations, roles, and domains. An organization is a virtual group of users,
their roles, and domains managed by a specific server that provides authentication to its users. Each
organization has its own set of users. See the “Understanding Organizations” section on page 18-7 for
information about organizations.
The role assigned to a user defines the tasks that a user can perform and the items in the hierarchy that
they can see. Roles are either pre-defined or set up by the system administrator. See the “Understanding
Roles” section on page 18-6 for more information.
A domain is a collection of managed objects. When a user is given access to a domain, it acts as a filter
for a sub-set of objects on the network which are displayed as a virtual context. The types of objects in
the system that are domain controlled are as follows:
• Chassis (with VLANs)
• Virtual contexts
• Resource classes
• Real servers
• Virtual servers
Thus, role-based access control ensures that a user or organization can view only the devices or services
or perform the actions that are included in the domains to which they have been given access (see
Figure 18-1).
Figure 18-1 Role-Based Access Control Containment Overview
Default Organization
System Objects
AAA Setup
Roles
1 to 1
Users
Tasks Network Objects
All associations are one to many,
reading from topto bottom
(unless noted otherwise)
Objects contained within an organization
Domains
240741
Organization
used by service providers
to resell management
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The following is an example of RBAC containment.
All other user interfaces, such as configuration and monitoring, respect this role-based access control
policy:
• Roles limit the screens (or functions on those screens) that a user can see.
• Domains limit the objects that are listed on any window that the roles allow.
• Users (other than the system administrator) can only create subdomains of the domains to which
they are assigned.
• The system administrator user can see and modify all objects. All other users are subject to the
role-based access controls illustrated in Figure 18-1.
Related Topics
• Types of Users, page 18-5
• Understanding Roles, page 18-6
• Understanding Operations Privileges, page 18-6
• Understanding Domains, page 18-7
• Understanding Organizations, page 18-7
• Managing User Accounts, page 18-17
Types of Users
Two types of users configure and monitor the ANM system:
• Default users—Individuals associated with the data center or IT department where ANM is
installed. The default administrative account (user ID is admin) is a system user account that is
preconfigured on ANM. The default administrative password (admin) is also preconfigured on
ANM. You can change the password for the admin user account in the same manner as any other
user password (see the “Managing User Accounts” section on page 18-17).
System roles are defined by the system administrator when ANM is first set up. System roles are
specified in terms of resource types and operations privileges. For each system role, the system
administrator specifies which resource types a role can work with and what operations a role can
perform on each resource type.
Organization
Webmasters
Domains
East Coast servers Central servers West Coast servers
Role
Web server administrator
Users
User A User B User C
Note Each association is one-to-many. Because the organization itself is a
collection, it is possible for a role to be used in many organizations.
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• Organization users—Users who work for the customer of a service provider or AAA server that
segments your users and to whom you want to grant access to ANM. Organization users
automatically have their access limited to the organization to which they belong.
Related Topics
• Configuring User Authentication and Authorization, page 18-9
• Managing User Accounts, page 18-17
• Using an AAA Server for Remote User Authentication and Authorization, page 18-38
Understanding Roles
Roles in ANM are defined by the system administrator. Roles are specified in terms of resource types
and operations privileges. For each role, the system administrator specifies which resource types a role
can work with and what operations a role can perform on each resource type.
When users are created, they are assigned at least one system role and inherit the operations privileges
specified for each of the resource types assigned to that role.
The options a user sees in the menu are filtered according to that user’s role (see the “Displaying User
Roles and Associated Tasks and ANM Menu Privileges” section on page 18-28).
Roles can be applied to both default and organization users. All users are strictly limited by the
combination of their operations privileges and user access. For example, a user cannot create another
user who has greater privileges or access.
Related Topics
• Configuring User Authentication and Authorization, page 18-9
• Managing User Accounts, page 18-17
• Managing User Roles, page 18-25
Understanding Operations Privileges
Operations privileges define what users can do in the designated resource types. For example, each
command and function on ANM has an assigned privilege. If a user’s privileges are not sufficient, the
command or function will not be available to them. The following operations privileges can be granted:
• No Access—The user has no access to this command or function.
Note If a user is configured with no access to virtual contexts, it means absolutely no access to
them. The most a user with this access can do is activate or suspend real servers.
• View—Allows the user to view statistics and specify parameter collection and threshold settings.
Gives the user read-only or view access to system objects and information.
• Modify—Allows the user to change the persistent information associated with system objects, such
as an organization record, or configuration.
• Debug—Gives the user read-only or view access to system objects and information.
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• Create—Allows the user to control system objects, for example, creating them, enabling them, or
powering up. Also allows the user to control system objects, for example, deleting them, disabling
them, or powering down.
Note The Create privilege includes the functions associated with the Modify privilege; however,
the reverse is not true (a user with Modify privileges cannot create items).
Privileges are hierarchical. If a user has Modify privileges, they have View privileges as well. If a user
has Create or Debug privileges, they have View privileges as well.
Related Topics
• How ANM Handles Role-Based Access Control, page 18-8
• Managing User Roles, page 18-25
• Guidelines for Managing User Roles, page 18-25
• Understanding Predefined Roles, page 18-26
• Using an AAA Server for Remote User Authentication and Authorization, page 18-38
Understanding Domains
Domains in ANM are defined by the system administrator. A domain is a collection of managed objects
to which a user is given access. By setting up a domain, you are filtering for a subset of objects on the
network. The user is then given access to this virtual context.
The table rows that a user sees in any table are filtered according to the domain to which that user has
access.
Understanding Organizations
An organization allows you to configure AAA server lookup for your users or set up users who work for
a service provider customer. Organizations in ANM are defined by the system administrator.
When you use an ACE device as a AAA server, you may want to segment them for customer, business,
or security reasons. If you use more than one authentication server, then you can use organizations to
configure them to authenticate your users.
For example, if your company has four servers, one each for local, RADIUS, TACACS+, and LDAPS
authentication, then organizations could reflect that. The Default organization in ANM is set up to act
as the local server.
ANM supports different device types that have unique ways of configuring authentication access, which
helps with future device support. ANM can configure which users are authenticated by which
authentication servers, but does not act as an AAA server itself because this would be in conflict of its
role as a RBAC administrator and allows for the separation of authority that is needed to perform RBAC
successfully.
Related Topics
• Using an AAA Server for Remote User Authentication and Authorization, page 18-38
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How ANM Handles Role-Based Access Control
How ANM Handles Role-Based Access Control
This section describes how and why a system administrator might want to use the ANM RBAC features.
ANM supports two distinct, but related RBAC capabilities as follows:
• ANM RBAC—ANM acts as a system and network device overseer allowing it to globally implement
its use of RBAC.
• Device RBAC—ANM devices enforce RBAC.
Understanding ANM RBAC
ANM is a central place where you can globally set the RBAC for users, roles, and domains (as well as
for virtual contexts or device types using device RBAC).
As a system administrator, you may need to delegate authority to allow another administrator to perform
specific tasks on specific devices, such as activating, suspending, and monitoring traffic flow to specific
real servers, yet restrict them from accessing all other capabilities. ANM enables you to accomplish this
delegation with more control. For a description of how the roles map to the functions, see “Displaying
User Roles and Associated Tasks and ANM Menu Privileges” section on page 18-28.
Understanding Device RBAC
ANM’s device RBAC allows you to set up device permission levels of a more granular nature. You no
longer have to provide “all-or-nothing” roles-based access of devices and device modules. Without
ANM, some devices may be open to users who can perform every task on that device or module,
regardless of their authorization due to permission level requirements on modules and or switches. ANM
provides a central place to grant special access to users you specify. Device users, roles, and domain data
are not part of, nor can they be used by ANM. Device RBAC is only for CLI access directly to the
context.
For example, some users may need level 3 access when direct troubleshooting of ACE hardware is
required. You can set up these users with or without ANM, but ANM centralizes the capability to do so.
If you want to configure a network engineer with a special role, for example either ACE-Admin or
Network-Admin, to provide the level 3 access. ANM accesses the ACE as a level 15 user and an admin
supervisor and uses the RBAC to determine the level of access (to device types, segments, elements,
subelements, and so on).
Some Cisco devices have the ability to configure RBAC directly on the device, for example the ACE.
The CSS and CSM are examples of Cisco devices that do not have the capability to have its their own
RBAC.
When you configure remote authentication (AAA, RADIUS, LDAPS, or TACACs+) for the ACE
through ANM, users no longer have to log out to access their device using Telnet. When you manually
log into a CSS, the CSS performs user authentication in a Telnet session. Telnet does not provide any
domain enforcement, so it is less secure. For an overview of the steps that you perform to configure
remote authentication using an AAA server, see the “Using an AAA Server for Remote User
Authentication and Authorization” section on page 18-38.
If you are an admin using a CSS module outside of the ANM application, then you might have
permission to do anything on this switch. If you are using ANM, you can set up better authorization for
your administrators for specific devices. Better authorization controls are one of the advantages of using
the ANM rather than using only the CLI on the ACE hardware. You can now configure separate access
for one function for this user in this domain only. ANM allows this high level of granularity and with it,
more control over who does what to your devices.
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Note When configuring device RBAC though Config > Devices, a message displays reminding you that you
are configuring RBAC outside of ANM for direct access. Be aware that this may contradict your ANM
settings.
For more information on centralizing direct access to devices through RBAC on individual devices, see
the “Configuring ACE Module and Appliance Role-Based Access Controls” section on page 5-53.
Case Example
In this example, a CSM device must have a level 15 access which by default makes the admin a
supervisor on everything in the switch (and everything in the module). Another way of looking at this is
providing read-only access to everything or configuration access to everything.
ACE hardware can be configured on a virtual context to perform that task on a subset domain for every
individual module, on every context, but this type of configuration must be configured individually.
A system administrator might need to configure a network admin to manage two CSM modules, one out
of six virtual contexts, and all East Coast web servers. With ANM, the admin could create one
configuration set that includes a user account with a Network-Admin role and a domain that includes
these objects. ANM then becomes the security window through which this user passes to get to their
destination for that domain and for that virtual context.
If there were six users, nine domains, and three virtual contexts, there would be 54 entries required into
a AAA Server and ACE module. In ANM there is one entry completed for each of the six users.
Configuring User Authentication and Authorization
In ANM, you can configure authentication for your users by specifying the authentication method to use
for specific user; the local method using ANM or a remote method using an AAA servers. You do this
through organizations. An organization allows you to configure your local or AAA server lookup for
your users, then associate specific users, roles, and domains with those organizations.
The following sections describe the organization authentication tasks that you can complete in ANM:
• Adding a New Organization, page 18-10
• Configuring AAA Server lookup for your users—See Adding a New Organization, page 18-10
• Changing server passwords—See Changing Authentication Server Passwords, page 18-14
• Modifying Organizations, page 18-14
• Duplicating an Organization, page 18-15
• Displaying Authentication Server Organizations, page 18-16
• Deleting Organizations, page 18-16
The Default organization (in which all users belong) authenticates users through the ANM internal
mechanism, which is based on the RBAC security model. This mechanism authenticates users through
the local authentication module and a local database of user IDs and passwords. If you choose to use a
remote authentication method, you must specify the authentication server and port.
Many organizations, however, already have an authentication service. To use your own authentication
service instead of the local module, you can choose one of the alternate modules:
• TACACS+
• RADIUS
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• AD/LDAPS
Note For detailed procedures about remote authentication, see the “Configuring Authentication and
Accounting Services” chapter of either the Cisco ACE Module Security Configuration Guide or Cisco
ACE 4700 Series Appliance Security Configuration Guide on www.cisco.com.
After you configure an organization, all authentication transactions are performed by the authentication
service associated with that organization. Users log in with the user ID and password associated with the
current authentication module.
Related Topics
• Managing User Accounts, page 18-17
• Managing User Roles, page 18-25
• Managing Domains, page 18-32
• Using an AAA Server for Remote User Authentication and Authorization, page 18-38
Adding a New Organization
You can add organizations, which define the mechanism for authenticating ANM users: local using
ANM or remote using RADIUS, TACACS+, or AD/LDAPS. When you configure an organization for
remote authentication, users within that organization have their passwords validated using the specified
remote AAA server.
You can also configure an organization to use a TACACS+ server for remote authorization of ANM
users. To use remote authorization, you must also configure the TACACS+ server with the role and
domains associated with a user or user group (see the “Configuring Remote User Authorization Using a
TACACS+ Server” section on page 18-45).
When you use the services of a a remote AAA server, you can configure the organization to fall back to
using local authentication and authorization when the remote AAA server becomes unavailable.
Procedure
Step 1 Choose Admin > Role-Based Access Control > All Organizations.
Step 2 Click Add.
Step 3 Enter the name of the new organization and notes if required, and click Save.
Step 4 Enter the attributes described in Table 18-2.
Certain attributes will display when specific options are selected.
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Table 18-2 Organization Attributes
Attribute Description
Notes Description of the organization or notes to administrator.
Organization Name Company, department, or division of the organization that administers the ANM server.
This can be different from the organization name above. Default name entered appears.
Account Number Account number for the organization.
Contact Name Name of the individual who is the contact in the organization.
Email Address for the organization’s contact person.
Telephone # Telephone number for the organization’s contact person. The format is free text with
no embedded spaces.
Alternative Telephone # Alternative telephone number for the organization’s contact person.
Street Address Street for the organization.
City City where the organization is located.
Zip Code Zip code for the organization’s address.
Country Country where the organization is located.
Authentication Mechanism that the system uses to authenticate users. The default authentication
mechanism is ANM's internal mechanism (local), which is based on ANM's security
model. For remote authentication, you must specify the authentication server and port
number.
Options are as follows:
• Local—Specifies the use of the local database.
• RADIUS
• TACACS+
• AD/LDAPS (ANM requires that a Domain Controller Server certificate be
installed on the Active Directory Server. For a document containing the detailed
instructions, see the “Configuring an LDAP Server” section in the “Configuring
Authentication and Accounting Services” chapter of either the Cisco ACE Module
Security Configuration Guide or Cisco ACE 4700 Series Appliance Security
Configuration Guide on www.cisco.com.)
Note: The attributes listed below appear only when the Authentication attribute is set to AD/LDAPS, RADIUS, or TACACS+.
For detailed instructions about configuring these attributes, see the “Configuring Authentication and Accounting Services”
chapter of either the Cisco ACE Module Security Configuration Guide or Cisco ACE 4700 Series Appliance Security
Configuration Guide on www.cisco.com.
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Authentication Server Hostname or IP address of a RADIUS, TACACS+, or LDAPS server for remote user
authentication.
Note Setting the server with this command is mandatory if you set the Authentication
attribute to anything other than the default (local).
If you select a remote authentication method, you might need to specify a separate user
ID for the authentication server.
For AD/LDAPS, you must provide the FQDN of the server (which must be in the users
authenticating domain).
Note ANM supports LDAPS only through Active Directory (AD).
Authentication Port (Optional) Destination port for communicating authentication requests to the
authentication server as follows:
• RADIUS—By default, the RADIUS authentication port is 1812 (as defined in RFC
2138 and RFC 2139). If your RADIUS server uses a port other than 1812,
configure ANM for the appropriate port. Valid values are from 1 to 65535.
• TACACS+—By default, the TACACS+ authentication port is 49 (as defined in
RFC 1492). If your TACACS+ server uses a port other than 49, configure ANM for
the appropriate port. Valid values are from 1 to 65535.
• LDAPS—By default, the LDAP server port is 636. If your LDAP server uses a port
other than 636, configure ANM for the appropriate port. Valid values are from 1 to
65535.
Secondary Authentication Server (Optional) Hostname or IP address for the secondary RADIUS, TACACS+, or LDAPS
server used for authentication in case the primary server is unavailable.
Secondary Authentication Port (Optional) Destination port on the secondary RADIUS, TACACS+, or LDAPS server
for communicating authentication requests if the primary server is unavailable.
Authentication Secret String used to encrypt the traffic between Cisco ANM and the AAA server. This string
must be identical on both servers.
Remote Authorization (Optional) Field that appears only when the Authentication attribute is set to
TACACS+.
Determines whether ANM or the TACACS+ server performs user authorization.
Uncheck the check box to have ANM perform user authorization locally (this is the
default setting). Check the check box to enable remote authorization by the TACACS+
server.
If you enable remote authorization, you must configure the TACACS+ server with the
role and domain information associated with each user (see the “Configuring Remote
User Authorization Using a TACACS+ Server” section on page 18-45).
Note All role and domain definitions are stored locally on ANM (see the “Managing
User Roles” section on page 18-25 and the “Managing Domains” section on
page 18-32).
Table 18-2 Organization Attributes (continued)
Attribute Description
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Step 5 Click Save.
Related Topics
• Managing User Accounts, page 18-17
ANM Unique IDs Field that appears only when the Remote Authorization check box is checked for a
TACACS+ server. Enter the value that matches the ANM identifier that you configure
on the TACACS+ server (see the “Configuring Remote User Authorization Using a
TACACS+ Server” section on page 18-45). The default value is ANM.
Depending on how you configure the TACACS+ server for user authorization, you may
need to specify multiple, comma-separated ANM IDs in the ANM Unique IDs field as
follows:
anm_1,anm2,anm3
For example, when configuring ANM user authorization on the TACACS+ server, you
can use a maximum of 160 characters to specify an ANM unique ID and associated user
role and user domain information. To work around this limitation, on the TACACS+
server you can specify additional domain information for the role by entering multiple
ANM identifiers.
When multiple ANM organizations share the same TACACS+ server, specify a
different ANM identifier for each organization.
When multiple ANMs share the same TACACS+ server, specify a different ANM
identifier for each ANM.
Fallback to Local Enables ANM to use local authentication (and local user authorization for TACACS+
applications) if the remote primary and secondary AAA servers are not available, such
as when there is a timeout issue, connectivity issue, wrong IP address, and so forth.
Note To use the fallback option, you must configure a local user on ANM that ANM
can use when fallback is invoked.
When you enable Fallback to Local for RADIUS and AD/LDAP, ANM falls back to
local user authentication only when the AAA server is unreachable. If the AAA server
is reachable but remote authentication fails, ANM does not fall back to local and the
login is rejected.
When you enable Fallback to Local for TACACS+, ANM falls back to local user
authentication and authorization only when the AAA server is unreachable. If the
remote server is reachable but remote authentication fails, ANM does not fall back to
local and the login is rejected. If Remote Authorization is not enabled, after remote
authentication is complete, ANM performs user authorization by checking the local
user for role and domain information. If Remote Authorization is enabled and no valid
role or domain information is found on the TACACS+ server, including the ANM IP
attributes not being set on the TACACS+ server, ANM does not fall back to the local
user and rejects the login (see the “Configuring Remote User Authorization Using a
TACACS+ Server” section on page 18-45).
Table 18-2 Organization Attributes (continued)
Attribute Description
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• Changing the Admin Password, page 18-14
Changing Authentication Server Passwords
Note Your user role determines whether you can use this option.
You can change the authentication server password.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization.
Step 2 Choose the organization that you want to modify and click Edit.
Step 3 Change the password attribute in the attributes table (see Table 18-5).
Step 4 Click Save.
The Edit User Details window appears.
Step 5 Make any changes and click Save.
Step 6 When all the details are correct, click Cancel.
The User Management table is displayed.
Related Topics
• Managing User Accounts, page 18-17
• Changing the Admin Password, page 18-14
Changing the Admin Password
Each ANM has an admin user account built into the device. The root user ID is admin, and the password
is set when the system is installed. For information about changing the Admin password, see the
“Changing Your Account Password” section on page 1-6.
Note For details about resetting the Admin password, see the Installation Guide for Cisco Application
Networking Manager 3.0.
Modifying Organizations
Note Your user role determines whether you can use this option.
You can modify an existing organization.
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Assumptions
This topic assumes the following:
• ANM is installed and running.
• The organization exists in the ANM database.
• You have reviewed the guidelines for managing customer organizations (see the “Adding a New
Organization” section on page 18-10).
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organizations.
Step 2 Choose the organization that you want to modify and click Edit.
The Edit Organization window appears.
Step 3 In the attributes table of the Edit Organization window, modify any of the attributes in the attributes table
(see Table 18-2).
Step 4 Click Save.
Related Topics
• Configuring User Authentication and Authorization, page 18-9
Duplicating an Organization
Note Your user role determines whether you can use this option.
You can create a new organization from an existing one.
Assumptions
This topics assumes the following:
• ANM is installed and running.
• The organization exists in the ANM database.
• You have reviewed the guidelines for managing customer organizations (see the “Adding a New
Organization” section on page 18-10).
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organizations.
The Organizations window appears.
Step 2 In the Organizations window, choose the organization that you want to copy.
Step 3 Click Duplicate.
A script popup window appears.
Step 4 At the prompt in the popup window, enter a name for the new organization.
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Step 5 Click OK.
The popup window closes and the new organization copy is added to the Organization window.
Step 6 (Optional) Choose the new organization and click Edit to make changes to the organization settings.
The Edit Organization window appears.
Step 7 In the attributes table of the Edit Organization window, modify any of the attributes in the attributes table
(see Table 18-2).
Step 8 Click Save.
Related Topics
• Configuring User Authentication and Authorization, page 18-9
Displaying Authentication Server Organizations
Note Your user role determines whether you can use this option.
To display the authentication server organizations, choose Admin > Role-Based Access Control > All
Organizations. The Organizations window appears with a list of customer organizations. From this
window you can create a users, roles, and domains that are associated with this specific organization.
You can also access organizations by selecting the organization from the object selector that displays in
the top right portion of the content area.
Related Topics
• Understanding Organizations, page 18-7
• Configuring User Authentication and Authorization, page 18-9
Deleting Organizations
Note Your user role determines whether you can use this option.
You can delete an organization.
Assumptions
This topic assumes the following:
• ANM is installed and running.
• The organization exists in the ANM database.
• You have reviewed the guidelines for managing customer organizations (see Adding a New
Organization, page 18-10).
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Managing User Accounts
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organizations.
The Organizations window appears.
Step 2 In the Organizations window, choose the organization to delete.
Step 3 Click Delete.
All users, domains, and roles within that organization are removed.
Related Topics
Configuring User Authentication and Authorization, page 18-9
Managing User Accounts
You use the User Management feature to specify the people that are allowed to log onto the system.
Note You can create users in the organization in which you are a member. You will see users only in the
organizations in which you are a member.
This section includes the following topics:
• Guidelines for Managing User Accounts, page 18-17
• Displaying a List of Users, page 18-18
• Creating User Accounts, page 18-19
• Duplicating a User Account, page 18-20
• Modifying User Accounts, page 18-21
• Resetting Another User’s Password, page 18-22
• Deleting User Accounts, page 18-23
Guidelines for Managing User Accounts
This topic includes the following guidelines:
• A user cannot log in until they have one domain and one user role associated through an
organization. This can be the Default domain but a role must be specified.
• Users cannot be moved from one organization to another. Organizations are designed to be separate
and distinct.
• Only users with create permissions can reset other user's password. See the “Resetting Another
User’s Password” section on page 18-22.
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Displaying a List of Users
You can display a list of ANM users, which includes ANM Mobile users if you have ANM configured
to use this feature (for more information, see Chapter 19, “Using ANM Mobile”).
Guidelines and Restrictions
The list of ANM users does not include users that are remotely authenticated and authorized using a
AAA server unless ANM is configured as a backup for user authentication and authorization.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Active Users.
The Users table appears. Table 18-3 describes the default user information that displays.
Step 2 (Optional: Mobile ANM users only) To display the list of mobile devices used by a user, choose a user
from the list and click Mobile Notifications.
The Mobile Devices popup window appears, displaying device-specific information (see Table 18-18).
Step 3 (Optional: Mobile ANM users only) To display the list of favorite objects associated with a user, choose
the user from the list and click Favorites.
The User Favorites popup window appears. Table 18-4 describes the information displayed.
Step 4 (Optional) To specify the user information that displays in the Users table, hover over the Customize
button ( ) to display and choose one of the following options:
• Default—Displays only the fields described in Table 18-3.
• Configure—Opens the Users List Configuration popup window that allows you to specify the user
information that displays (see the “Customizing Tables” section on page 1-15).
Note The list of user fields that you can choose from includes the Available Objects option, which
lists the domain objects available to the user. Because the list of available domain objects
for a user can be too extensive to display in the User table, the Excel spreadsheet is the only
output format that displays this information (see Step 5).
Table 18-3 Users Table Default Fields
Field Description
Login Name Full name of the user.
Role Role assigned to the user.
Domains Domains to which the user belongs.
Table 18-4 Mobile Device User’s Favorites
Field Description
Object Type ACE object type accessed by the user, such a real server or virtual server.
Device Name ACE device (virtual context) name accessed by the user.
Object Name Name assigned to the object.
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Step 5 (Optional) To output the user information as raw data or in an Excel spreadsheet, hover over the Save
button ( ) to display and choose one of the following output options:
• Raw data—Displays the user information as raw data in a new window.
• Excel spreadsheet—Displays user information in an Excel spreadsheet in a new window.
Related Topics
• Creating User Accounts, page 18-19
• Duplicating a User Account, page 18-20
• Modifying User Accounts, page 18-21
• Resetting Another User’s Password, page 18-22
• Deleting User Accounts, page 18-23
• Displaying Mobile Device Notifications and Testing the Notification Channel, page 18-70
• Chapter 19, “Using ANM Mobile”
Creating User Accounts
Note Your user role determines whether or not you can use this option.
You can create new user accounts for an organization.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Users.
The Users table appears.
Step 2 Click Add.
The New Organization User window appears.
Step 3 In the New Organization User window, configure the user attributes as described in Table 18-5:
Note If your web browser supports the Remember Passwords option and you enable this option, the
web browser may fill in the Name and Password fields when the New Organization User window
loads. By default, these fields should be empty. You can change the name and password fields
from whatever the web browser inserts into the two fields.
Table 18-5 User Attributes
Field Description
Login Name Name by which the user is to be identified in the system (up to 24 characters). Only letters, numbers,
underscore (_), and backslash (\) can be used. The field is case sensitive.
Name Full name of the user. The format is free text.
Password Password for the user account.
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Step 4 Click Save to save the user account information.
Related Topics
• Displaying a List of Users, page 18-18
• Duplicating a User Account, page 18-20
• Modifying User Accounts, page 18-21
• Resetting Another User’s Password, page 18-22
• Deleting User Accounts, page 18-23
Duplicating a User Account
Note Your user role determines whether you can use this option.
You can create a new user account using settings from an existing user.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Users.
The Users table appears.
Step 2 Choose the user account you want to copy and click Duplicate.
Confirm Password confirmation for the account.
Email Email address for the user.
Telephone# Telephone number for the user. The format is free text with no embedded spaces.
Role Predefined role from the drop-down list.
Domains Domains to which this user belongs. Use the Add and Remove buttons to choose the domains to which
this user belongs.
Allowed Login IP IP address or a subnetwork from which the user is allowed to log in. You can define up to ten different
addresses for a single user. Unless you specifically define IP addresses or subnetworks using this option,
the user can log in from any IP address. When you enter an allowed single IP address or an allowed
subnet, then the user is only allowed to log in from the specified addresses. To restrict access to a
specific subnetwork, enter the IP address and the mask, for example, 10.1.200.60/255.255.255.0.
Note IP addresses 1.1.1.1 and 0.0.0.0 cannot be entered in this field.
Description Notes about the user.
First menu Menu that displays when this user first logs in. Choose one from the drop-down list.
Last Login Last time (local time) this user logged in.
Table 18-5 User Attributes (continued)
Field Description
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A script popup window appears.
Step 3 At the prompt in the popup window, enter a name for the new user account and click OK.
The popup window closes and the Users table displays the new user account.
Step 4 (Optional) To make changes to the user account, from the Users table, choose the user account and click
Edit.
The Edit Organization User window appears.
Step 5 In the Edit Organization User window, modify the user account settings as described in Table 18-6.
Step 6 Click Save to save the user account information.
The Users window appears.
Related Topics
• Displaying a List of Users, page 18-18
• Creating User Accounts, page 18-19
• Modifying User Accounts, page 18-21
• Resetting Another User’s Password, page 18-22
• Deleting User Accounts, page 18-23
Modifying User Accounts
Note Your user role determines whether you can use this option.
You can modify existing user accounts.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Users.
The Users table appears.
Step 2 Choose the user account you want to modify and click Edit.
The Edit Organization User window appears.
Step 3 In the Edit Organization User window, modify any of the attributes in the attributes table (see
Table 18-6).
.
Table 18-6 Modify User Attributes
Field Description
Login Name Name you specified when you created the user you want to duplicate. This is the name by which the user
is to be identified in the system (up to 24 characters). Only letters, numbers, and underscore can be used.
The field is case sensitive.
Name Full name of the user. The format is free text.
Email Email address for this user.
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Step 4 Click Save to save the user account information.
Related Topics
• Displaying a List of Users, page 18-18
• Creating User Accounts, page 18-19
• Duplicating a User Account, page 18-20
• Resetting Another User’s Password, page 18-22
• Deleting User Accounts, page 18-23
Resetting Another User’s Password
Note You must have create permissions in order to reset another user’s password.
Use this procedure to reset another users’s password.
Step 1 Log in to Cisco License Manager making sure the login username has create permissions.
Step 2 Choose Admin > Users.
The Users window appears.
Step 3 In the Users window, choose the username for which the password needs to be reset and click the Reset
Password button.
The Reset Password popup window appears with the selected username in the username field.
Step 4 Enter and confirm the new password.
Telephone# Telephone number for this user. The format is free text with no embedded spaces.
Role Predefined role from the list.
Domains Domains to which this user belongs. Use the Add and Remove buttons to choose domains to which this
user belongs.
Allowed Login IP IP address or a subnetwork from which the user is allowed to log in. You can define up to ten different
addresses for a single user. Unless you specifically define IP addresses or subnetworks using this option,
the user can log in from any IP address. When you enter an allowed single IP address or an allowed
subnet, then the user is only allowed to log in from the specified addresses. To restrict access to a specific
subnetwork, enter the IP address and the mask, for example, 10.1.200.60/255.255.255.0.
Note IP addresses 1.1.1.1 and 0.0.0.0 cannot be entered in this field.
Description Notes about the user.
First Menu Menu that is displayed when this user first logs in. Choose one from the drop-down list.
Last Login Last time (local time) that this user logged in and the IP address that was used.
Table 18-6 Modify User Attributes (continued)
Field Description
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Step 5 Click OK to save the password information.
The Password has been reset message displays if there are no errors.
Related Topics
• Displaying a List of Users, page 18-18
• Creating User Accounts, page 18-19
• Duplicating a User Account, page 18-20
• Modifying User Accounts, page 18-21
• Deleting User Accounts, page 18-23
• Displaying or Terminating Current User Sessions, page 18-24
Deleting User Accounts
Note Your user role determines whether you can use this option.
You can delete a user account.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Users.
The Users table appears.
Step 2 Choose the user account to delete and click Delete.
Step 3 The confirmation popup window appears.
Step 4 In the confirmation popup window, do one of the following:
• Click OK to confirm the deletion request. The user account is removed from the ANM database.
• Click Cancel to ignore the deletion request.
Related Topics
• Displaying a List of Users, page 18-18
• Creating User Accounts, page 18-19
• Duplicating a User Account, page 18-20
• Modifying User Accounts, page 18-21
• Resetting Another User’s Password, page 18-22
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Displaying or Terminating Current User Sessions
Displaying or Terminating Current User Sessions
Note Your user role determines whether you can use this option.
You can display a list of the users currently logged into the system and end their sessions, if required.
You can only display the users in your organization.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Active Users.
The Active User Sessions window displays the following information for each active user who is logged
in:
Step 2 (Optional) To terminate an active session, click Terminate.
When a user session is terminated, the user is logged out of the interface from which the user session
was initiated. If the user was making changes to a configuration, the configuration lock is released and
any uncommitted configuration change is discarded.
If a user session is terminated while an operation is in progress, the current operation is not stopped, but
any subsequent operation is denied.
For more details on terminating active users, see the “Displaying or Terminating Current User Sessions”
section on page 18-24.
Related Topics
• Controlling Access to Cisco ANM, page 18-3
• Managing User Accounts, page 18-17
Table 18-7 Active User Session Information
Column Description
Name Name used to log into the Cisco ANM.
Type Of Login Method used to log in, for example WEB.
User Type Method used to authenticate and authorize the user:
• Local—ANM is used to authenticate and/or authorize the user.
• Remote— AAA server is used to both authenticate and authorize
the user.
Login From IP IP address of host.
Time Of Login Time user logged in.
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Managing User Roles
You use the Roles Management feature to add, modify, and delete user-defined roles and to modify
predefined roles.A user’s role determines the tasks the user can access. Each role is associated with
permissions or rules that define what feature access this role contains. For example, if you design a role
that provides access to virtual servers, the role automatically includes access to all real servers that could
be included in the virtual server.
ANM provides several predefined user roles that you can modify but not delete. For more information
about predefined user roles, including the list of the predefined user roles, see the “Understanding
Predefined Roles” section on page 18-26.
This section includes the following topics:
• Guidelines for Managing User Roles, page 18-25
• Understanding Predefined Roles, page 18-26
• Displaying User Role Relationships, page 18-27
• Displaying User Roles and Associated Tasks and ANM Menu Privileges, page 18-28
• Creating User Roles, page 18-29
• Duplicating a User Role, page 18-31
• Modifying User Roles, page 18-31
• Deleting User Roles, page 18-32
Guidelines for Managing User Roles
This topic includes the following guidelines:
• System Administrators can view and modify all roles.
• Organization administrator users can only see and modify the users, roles, and domains in their
organization.
• Other users can only view the user, roles, and domains assigned to them.
• User-defined roles can be created but follow strict rules about which tasks can be selected or
deselected. See the user interface for specific dependencies or the “Displaying User Roles and
Associated Tasks and ANM Menu Privileges” section on page 18-28 for role to task mapping
information.
• You must have the ability to create real servers in your role and at least one virtual context in your
domain before you can create real servers.
• You must have the ability to create virtual contexts in your role and an Admin context in your
domain before you can create virtual contexts.
• If you upgrade to ANM 2.2 any custom roles that are migrated retain their associations but have
different role definitions. We encourage you to use the ANM 2.2 predefined default roles.
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Understanding Predefined Roles
You must have one of the predefined roles in the Admin context in order to use the changeto command,
which allows users to visit other contexts. Non-admin/user contexts do not have access to the changeto
command; they can only visit their home context. Context administrators, who have access to multiple
contexts, must explicitly log in to other contexts to which they have access.
The predefined roles and their default privileges are defined in Table 18-8. For information about
viewing user role details, see the “Displaying User Roles and Associated Tasks and ANM Menu
Privileges” section on page 18-28. For detailed information on RBAC, see either the Cisco Application
Control Engine Module Virtualization Configuration Guide or the Cisco 4700 Series Application
Control Engine Appliance Virtualization Configuration Guide.
Table 18-8 ANM Predefined Role Tasks
Predefined Role Description Role Tasks/Operation Privileges1
ACE-Admin Access to create virtual contexts and monitor threshold
information.
• View Threshold
• Create Device Events
• Create Virtual Context+
ANM-Admin Access to create virtual contexts and monitor threshold
information. Provides access to all features and
functions.
• Create ANM System
• Create ANM User Access
• Create VM Mapping
• Create ANM Inventory+
Network-Admin Admin for L3 (IP and Routes) and L4 VIPs • View Threshold
• Create Device Events
• Create Switch
• Create Routing
• Create Interface
• Create NAT
• Create Connection
Network-Monitor Monitoring for all features • View ANM Inventory+
Org-Admin Access to create role-based access control and import
and update device data.
• Create ANM User
• Create VM Mapping
• Create ANM Inventory+
Security-Admin Security features • Create AAA
• Modify Interface
• Create NAT
• Create Inspect
• Create Connection
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Displaying User Role Relationships
Note Your user role determines whether you can use this option.
You can display which users are associated to specific roles.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organizations > Roles.
The Roles table appears.
Step 2 In the Roles table, choose a role and click Users.
Server-Appln-Maintenance Server maintenance and L7 policy application • View Threshold
• View VIP
• View Virtual Inservice
• Create LoadBalancer+
Server-Maintenance Server maintenance, monitoring, and debugging • View Threshold
• View VIP+
• Modify Real Server
• Debug Probe
• Create Real Inservice
SLB-Admin Load-balancing features • View Threshold
• Create Building Block
• Modify Interface
• Create Expert+
SSL-Admin SSL features • Create SSL+
SSL-Cert-Key-Admin SSL certificate and key management features • Import, generate, or delete
keys
• Import or delete certificates
• Generate a certificate signing
request (CSR)
• Monitor certificate expiration
though the dashboard GUI
and threshold modifications
VM-Mapper Virtual machine (VM) mapping feature • Create VM to real server map
1. Where the plus sign (+) is indicated, all permissions included in this folder are included at the same privilege level, unless otherwise noted. For example,
Virtual Contexts tasks are comprised of tasks such as AAA, Building Blocks, and so on. These tasks are depicted as columns in the Roles table.
Table 18-8 ANM Predefined Role Tasks (continued)
Predefined Role Description Role Tasks/Operation Privileges1
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Managing User Roles
The Users With Role window appears. From this window you can delete or duplicate a user. For
information about how roles map to users, see the “Displaying User Roles and Associated Tasks and
ANM Menu Privileges” section on page 18-28.
Related Topics
• Duplicating a User Account, page 18-20
• Managing User Roles, page 18-25
Displaying User Roles and Associated Tasks and ANM Menu Privileges
Note Your user role determines whether you can use this option.
You can view the list of predefined and user defined roles and see how each role is configured to manage
what a user can do within ANM. Figure 18-2 shows a sample of the role information available for the
predefined ANM-Admin role. Each Role Task is assigned a privilege level (No Access, View, Modify,
Debug, or Create) that determines what displays in the Resulting Menu Items list on the right. This list
indicates which ANM GUI items the role allows a user to access.
Figure 18-2 Edit Role Window
Procedure
Step 1 Choosing Admin > Role-Based Access Control > Organizations > Roles.
The Roles table appears, displaying the list of predefined and user defined roles. The table includes the
available role tasks and associated privilege level: No Access, View, Modify, Debug, or Create.
Step 2 To view the ANM menu items available to a specific user role, choose a user role and click the Edit icon.
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The Edit Role window appears (see Figure 18-2), displaying the Role Task tree and list of Resulting
Menu Items, which is based on the privilege levels selected for each role task.
Note The information available from the Edit Role window can vary depending on the version of
ANM being used.
Step 3 (Optional) Click Cancel to return to the Roles table where you can perform the following tasks:
• Create a new role (see the “Creating User Roles” section on page 18-29).
• View the users assigned to a role (see the “Displaying User Role Relationships” section on
page 18-27).
• Modify an existing role to which you have access (see the “Modifying User Roles” section on
page 18-31).
• Duplicate any existing role to which you have access (see the “Duplicating a User Role” section on
page 18-31).
• Delete any existing role to which you have access (see the “Deleting User Roles” section on
page 18-32).
Related Topics
• Understanding Operations Privileges, page 18-6
• Managing User Roles, page 18-25
Creating User Roles
Note Your user role determines whether you can use this option.
You can edit the predefined roles, or you can create new, user-defined roles. When you create a new role,
you specify a name and description of the new role, then choose the privileges for each task. You can
also assign this role to one or more users.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Roles.
The Roles table appears.
Step 2 Click Add.
The New Role window appears.
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Step 3 Enter the following attributes as shown in Table 18-9.
Step 4 Click Save.
The new role is added to the list of user roles.
Step 5 (Optional) To assign this new role to one or more users, go to Admin > Organizations > Users.
For detailed steps, see the “Modifying User Accounts” section on page 18-21.
Related Topics
• Understanding Operations Privileges, page 18-6
• Managing User Roles, page 18-25
Table 18-9 Role Attributes
Attribute Description
Name Name of the role.
Description Brief description of the role.
Role Tasks Role task tree that defines the operation privileges associated with each task. The tasks are
arranged in a hierarchy of parent and subordinate tasks. Click on the + sign of a parent task to
display its subordinate tasks as shown in the following example for the ANM Inventory task.
– ANM Inventory -->parent task
Threshold -->subordinate tasks
DNS Answer
UDG
Device Events
Switch
+ Virtual Context -->subordinate task that has its own set of subordinate tasks as
indicated by the + sign
You assign one of the following operating privileges to each of the tasks: No Access, View,
Modify, Debug, or Create. When you assign an operating privilege to a parent task, by default,
the same privilege is assigned the subordinates. You can assign a different operating privilege to
the subordinates if needed; however, you can only assign an operating privilege that is greater
than or equal to the operating privilege assigned to the parent task.
If you set the parent task to Modify or Debug, the Create privilege is the only privilege allowed
for the subordinate tasks and by default, is assigned to the subordinate tasks.
For more information about operating privileges, see the “Understanding Operations Privileges”
section on page 18-6.
Resulting Menu Items Synchronized list of features in the form of menus that this role is able to access after setting the
role task operation privileges.
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Duplicating a User Role
Note Your user role determines whether you can use this option.
You can create a new user-defined role from an existing one.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Roles.
The Roles table appears.
Step 2 In the Roles table, choose the role you want to copy and click Duplicate.
A script popup window appears.
Step 3 At the prompt in the script popup window, enter a name for the new role.
Step 4 Click OK.
Step 5 The script popup window closes and Roles tables displays the new role.
Step 6 (Optional) To make changes to the new role’s attributes, in the Roles table, choose the role and click
Edit.
The Edit Role window appears.
Step 7 Make the required changes and click Save to save the changes.
Related Topics
• Understanding Operations Privileges, page 18-6
• Managing User Roles, page 18-25
Modifying User Roles
Note Your user role determines whether you can use this option.
You can modify any user-defined roles.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Roles.
The Roles table appears.
Step 2 Choose the role you want to modify and click Edit.
The Edit Role window appears.
Step 3 Make the required modifications.
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Step 4 Click Save.
Related Topics
• Understanding Operations Privileges, page 18-6
• Managing User Roles, page 18-25
Deleting User Roles
Note Your user role determines whether you can use this option.
You can delete any user-defined roles.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Roles.
The Users table appears.
Step 2 Choose the role to delete and click Delete.
Step 3 The confirmation popup window appears.
Step 4 In the confirmation popup window, click OK to confirm the deletion.
Users that have the deleted role no longer have that access.
Related Topics
Managing User Roles, page 18-25
Managing Domains
Network domains provide a means for organizing the devices and their components (physical and
logical) in your network and permitting access according to the way your site is organized. You can allow
access to a domain by assigning it to an organization. Examples are specific virtual contexts or specific
servers within a context.
The following sections describe how to manage domains:
• Guidelines for Managing Domains, page 18-33
• Displaying Network Domains, page 18-33
• Creating a Domain, page 18-34
• Duplicating a Domain, page 18-35
• Modifying a Domain, page 18-36
• Deleting a Domain, page 18-37
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Managing Domains
Guidelines for Managing Domains
This topic includes the following guidelines:
• Domains are logical concepts. You do not delete a member of a domain when you delete the domain.
• Domains can include supported Cisco chassis, ACE modules, ACE appliances, and CSS or CSM
devices, as well as their virtual contexts, building blocks, resource classes, and real and virtual
servers.
• Choose the Allow All setting to include current and future device objects in a domain.
• Objects must already exist in ANM. To add objects, see the “Importing Network Devices into ANM”
section on page 5-10.
• You must have the ability to create real servers in your role and at least one virtual context in your
domain before you can create real servers.
• You must have the ability to create virtual contexts in your role and an Admin context in your
domain before you can create virtual contexts.
• Domains continue to display device information even after you remove that device from ANM. This
allows the domain information to be easily reassociated if you reimport the device. The device name
must remain the same for this to work properly.
• (GSS domain objects only) ANM does not allow you to add a VIP answer to a domain if the answer
contains a space in its name.
Caution Domain objects are hierarchical. If you include a parent object in a domain, the child object is also
included even though they do not display in the Object selector tree when you add or edit domains.
For example:
– Inclusion of a Catalyst 6500 series switch includes all cards, virtual contexts, real servers and
virtual servers.
– Inclusion of an ACE 4710 includes all virtual contexts, real servers, and virtual servers.
– Inclusion of a virtual context, CSM module or CSS device includes all associated objects.
Related Topics
• Creating a Domain, page 18-34
• Modifying a Domain, page 18-36
• Displaying Network Domains, page 18-33
• Duplicating a Domain, page 18-35
• Deleting a Domain, page 18-37
Displaying Network Domains
Note Your user role determines whether you can use this option.
You can display the network domains and a domain’s attributes.
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Managing Domains
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Domains.
The Domains table appears.
Step 2 Expand the table until you can see all the network domains.
Step 3 Choose a domain from the Domains table to view and click Edit.
The Edit Domains window appears, displaying the domain’s attributes.
Related Topics
• Managing Domains, page 18-32
• Guidelines for Managing Domains, page 18-33
• Creating a Domain, page 18-34
• Duplicating a Domain, page 18-35
• Modifying a Domain, page 18-36
• Deleting a Domain, page 18-37
Creating a Domain
Note Your user role determines whether you can use this option.
You can create a new domain.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Domains.
The Domains table appears.
Step 2 Click Add.
Step 3 Define the domain attributes as described in Table 18-10.
Table 18-10 Domain Attributes
Field Description
Name Name of the domain.
Description Description of the domain.
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Step 4 Click Save.
The Domains Edit window updates and displays the total object number next to the object name.
Related Topics
• Managing Domains, page 18-32
• Guidelines for Managing Domains, page 18-33
• Displaying Network Domains, page 18-33
• Creating a Domain, page 18-34
• Duplicating a Domain, page 18-35
• Modifying a Domain, page 18-36
• Deleting a Domain, page 18-37
Duplicating a Domain
Note Your user role determines whether you can use this option.
You can create a new domain from an existing one.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Domains.
The Domains table appears.
Step 2 Choose the domain to copy and click Duplicate.
Step 3 A script popup window appears.
Allow All Check box that enables all objects within this domain (current and future objects). If this check box is left
unchecked, the Objects tree displays.
Objects Collection of objects that comprise this domain. Choose an object name and use the arrows to move it from
the available to selected column.
For example, selecting a virtual context selects all real servers within that virtual context, or selecting a
chassis selects the virtual contexts on that chassis. The interface does not explicitly display this in the table,
but the objects are, in fact, selected.
Note When you add objects such as real servers to a domain on an ACE that has an HA peer, ANM
automatically adds the redundant objects from the HA peer to the list of selected objects.
See the “Guidelines for Managing Domains” section on page 18-33 for domain rules about creating virtual
contexts and real servers.
Table 18-10 Domain Attributes (continued)
Field Description
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Step 4 At the prompt in the script popup window, enter a name for the new domain and click OK.
The script popup window closes and the Domains table displays the new domain.
Step 5 Click Save.
Related Topics
• Managing Domains, page 18-32
• Guidelines for Managing Domains, page 18-33
• Displaying Network Domains, page 18-33
• Creating a Domain, page 18-34
• Modifying a Domain, page 18-36
• Deleting a Domain, page 18-37
Modifying a Domain
Note Your user role determines whether you can use this option.
You can modify the settings in a domain.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Domains.
The Domains table appears.
Step 2 In the Domains table, choose the domain you want to change and click Edit.
The Edit Domains window appears.
Step 3 In the Edit Domains window, modify the domain settings.
For detailed domain attribute descriptions, see Table 18-10 on page 18-34.
Step 4 Click Save.
Related Topics
• Managing Domains, page 18-32
• Guidelines for Managing Domains, page 18-33
• Displaying Network Domains, page 18-33
• Creating a Domain, page 18-34
• Duplicating a Domain, page 18-35
• Deleting a Domain, page 18-37
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Deleting a Domain
Note Your user role determines whether you can use this option.
You can delete a network domain from the systems. You do not delete objects associated with that
domain when you delete the domain.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Organization > Domains.
The Domains table appears.
Step 2 In the Domains table, choose the domain to delete and click Delete.
The confirmation popup window appears.
Step 3 In the confirmation popup window, click OK.
The domain is removed from the ANM database.
Related Topics
• Managing Domains, page 18-32
• Guidelines for Managing Domains, page 18-33
• Displaying Network Domains, page 18-33
• Creating a Domain, page 18-34
• Duplicating a Domain, page 18-35
• Modifying a Domain, page 18-36
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Using an AAA Server for Remote User Authentication and Authorization
Using an AAA Server for Remote User Authentication and
Authorization
ANM allows you to centrally control user authentication and authorization. User authentication, which
manages access to ANM, can be performed locally using a database that resides in ANM or remotely
using a database that resides on an AAA server, such as an Active Directory (AD) server using LDAPS,
RADIUS, or TACACS+. In ANM, you can configure authentication for your users by specifying which
AAA servers are used for specific users. You configure authentication through organizations. An
organization allows you to configure your AAA server lookup for your users and then associate specific
users, roles, and domains with those organizations.
User authorization, which manages access to different ANM functionality, can also be performed locally
using a database that resides in ANM or remotely using a database that resides on a TACACS+ server.
ANM supports the use of a TACACS+ server only for remote authorization.
The information provided in this section is intended as a guide to help you ensure proper communication
with the AAA server and ANM operating as the AAA client. For details about configuring the Cisco
Secure ACS, Active Directory, or another AAA server, see the documentation that is provided with the
software.
This section includes the following topics:
• Information About Using AD/LDAPS for Remote User Authentication, page 18-38
• Configuring Remote User Authentication Using a TACACS+ Server, page 18-39
• Configuring Remote User Authorization Using a TACACS+ Server, page 18-45
Information About Using AD/LDAPS for Remote User Authentication
This section describes how ANM uses AD/LDAPS for remote user authentication. ANM performs the
following steps to authenticate and authorize a user when configured to use AD/LDAPS for user
authentication:
1. ANM verifies that the user organization exists locally on the ANM database. ANM makes this
determination based on the part of the user login name that follows the @ character.
2. ANM uses the configured AD server to authenticate the user.
3. ANM authorizes the user locally. ANM verifies that the user’s name is associated with one of the
defined roles in the Roles table (Admin > Role-Based Access Control > Organization > Roles).
After ANM completes these three steps, the user is permitted access according to their account settings
in the Roles table and Domains table (Admin > Role-Based Access Control > Organization > Domains).
If any of the authentication and authorization checks fail, ANM logs the error in the audit log (Admin >
ANM Management > ANM Change Audit Log).
One of the following error messages display depending on when the failure occurs:
• If Step 1 fails, the message is as follows:
User authentication failed: Organization does not exist.
• If Step 2 fails, the message is as follows:
User authentication failed: ... , reason=User password check failed - error code XXX -
.
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This message means that the AD server rejected the user. The list of possible error codes and
respective descriptions are as follows:
– 525—User is not found
– 52e—User credentials are invalid
– 530—User is not permitted to log on at this time
– 531—User is not permitted to log on from this workstation
– 532—Password has expired
– 533—Account is disabled
– 701—Account has expired
– 773—User must reset their password
– 775—Account is locked out
• If Step 3 fails, the message is as follows:
User authorization failed: User is not defined in the organization.
Configuring Remote User Authentication Using a TACACS+ Server
This section describes how to configure ANM and a TACACS+ server for remote user authentication.
Note For background information about configuring an AAA server, see the “Configuring Authentication and
Accounting Services” chapter of either the Cisco ACE Module Security Configuration Guide or Cisco
ACE 4700 Series Appliance Security Configuration Guide on www.cisco.com.
Assumptions
This topic assumes the following:
• For purposes of this example, assume usage of a Cisco Secure ACS version 4.1 server.
• Your user role determines whether you can perform the procedures outlined in this section.
• Administrative login rights are required to access the Cisco Secure ACS HTML interface.
Table 18-11 provides a high-level overview of the steps required to authenticate ANM users with a
TACACS+ server.
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Table 18-11 Authenticating ANM Users with a TACACS+ Server
Task Procedure
Step 1 Create an organization and
define the remote TACACS+
server used
(ANM)
Note Your user role determines whether you can use this option.
Remote authentication servers are defined in ANM as organizations. A single
server can be used in multiple organizations. To configure authentication for
your users by creating an organization and defining TACACS+ as the method of
authentication, do the following:
a. Choose Admin > Role-Based Access Control > All Organizations. The
Organizations window appears.
b. Click Add.
c. Enter the name of the new organization and notes if required.
d. Click Save.
e. Choose the new organization and click Edit.
f. Enter the attributes as described in Table 18-2. Certain attributes appear
when you choose specific options. Include the following organization
attributes to authenticate ANM users with a TACACS+ server:
– Organization name
– TACACS+ as authentication method
– IP address of TACACS+ server
– Authentication port number
– Authentication secret
g. Click Save.
See the “Adding a New Organization” section on page 18-10 for details about
this procedure.
Step 2 Creating a role for RBAC
(ANM)
Note Your user role determines whether you can use this option.
You can edit the predefined roles or you can create user-defined roles. When you
create a role, you specify a name and description of the new role, and then
choose the privileges for each task. You can also assign this role to one or more
users.
Do the following:
a. Choose Admin > Role-Based Access Control > Organization > Roles.
The Roles table appears.
b. Click Add. The New Role form appears.
c. Enter the attributes as described in Table 18-9.
d. Click Save. The new role is added to the list of user roles.
See the “Creating User Roles” section on page 18-29 for details on this
procedure.
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Step 3 Create a domain for an RBAC
user
(ANM)
Note Your user role determines whether you can use this option.
A domain defines which objects that the RBAC user will have access to. The
assigned role defines which actions that user will be able to perform on those
objects.
To configure a domain for an RBAC user, do the following:
a. Choose Admin > Role-Based Access Control > Organization > Domains.
The Domains table appears.
b. In the Domains table, click Add.
c. For the new domain, enter the attributes as described in Table 18-10.
Note If you check the Allow All checkbox, this selection enables all
objects within this domain (current and future objects). If you leave
this check box unchecked, the Objects tree displays. To allow a user
to have access to the entire context, highlight the Virtual Contexts
folder in the Objects tree, locate the specific user context, and then
click the arrow to send it to the Selected box. The context name
format is ::
d. Click Save when all the objects that you want to allow access to are listed
in the Selected box.
See the “Creating a Domain” section on page 18-34 for details on this
procedure.
Step 4 Create an organization user
(ANM)
Note Your user role determines whether you can use this option.
Organization users are users who work for the customer of a service provider or
AAA server that segments your users and to whom you want to grant access to
ANM.
Do the following:
a. Choose Admin > Role-Based Access Control > Organization > Users.
The Users window appears.
b. In the Users window, click Add.
c. Enter the attributes as described in Table 18-5. Include the following
organization user attributes:
– Login name
– Predefined role
– Domains to which this user belongs
d. Click Save. The Users table appears.
See the “Creating User Accounts” section on page 18-19 for details on this
procedure.
Table 18-11 Authenticating ANM Users with a TACACS+ Server (continued)
Task Procedure
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Step 5 Access the AAA server
(Cisco Secure ACS server)
Note Administrative login rights are required to access the Cisco Secure ACS
HTML interface.
To access the Cisco Secure ACS HTML interface, do the following:
a. Open a web browser for the URL of the Cisco Secure ACS HTML interface.
b. In the Username box, type a valid Cisco Secure ACS administrator name.
c. In the Password box, type the password for the administrator name that you
specified.
d. Click Login. The Cisco Secure ACS HTML interface appears.
For details on configuring the Cisco Secure ACS HTML server, see the
documentation that is provided with the software.
Step 6 Create a network device group
(Cisco Secure ACS Server)
To create a group of TACACS+ clients and servers on the Cisco Secure ACS
HTML server, do the following:
a. Go to the Network Configuration section of the Cisco Secure ACS HTML
interface.
b. In the navigation bar, click the Network Configuration button. The
Network Configuration page appears in the Cisco Secure ACS HTML
interface.
c. Under the Network Device Groups table, click the Add Entry button to
create a new group of TACACS+ clients and servers. Type the name of the
new group (for example ANM).
d. Click Submit.
For details on configuring the Cisco Secure ACS HTML server, see the
documentation that is provided with the software.
Table 18-11 Authenticating ANM Users with a TACACS+ Server (continued)
Task Procedure
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Step 7 Specify the AAA client setup for
ANM
(Cisco Secure ACS Server)
To define the AAA client setup for ANM on the Cisco Secure ACS HTML
server, do the following:
a. Click Add Entry below the AAA Clients table. The Add AAA Client
window appears.
b. In the Add AAA Client window, specify the following attributes:
– AAA Client IP Address—Client IP address of ANM that will be used
for communicating with the TACACS+ server
– Shared Secret—Shared secret specified on ANM
– Network Device Group—ANM
– Authenticate Using—TACACS+ (Cisco IOS)
Note The TACACS+ (Cisco IOS) drop-down item specifies the Cisco
TACACS+ authentication function. This selection activates the
TACACS+ option when using Cisco Systems access servers,
routers, and firewalls that support the TACACS+ authentication
protocol, including support for ANM as well.
c. Click Submit + Apply.
For details on configuring the Cisco Secure ACS HTML server, see the
documentation that is provided with the software.
Step 8 Specify the AAA server setup
(Cisco Secure ACS Server)
To define the AAA server setup for ANM on the Cisco Secure ACS HTML
server, do the following:
a. Click Add Entry below the AAA Servers table. The Add AAA Servers
window appears.
b. In the Add AAA Servers window, specify the following attributes:
– AAA Server IP Address—IP address of the TACACS+ server
– Key—Shared secret specified on ANM
– Log Update/Watchdog Packets from This Remote AAA
Server—Enabled
– Network Device Group—ANM
– AAA Server Type—TACACS+
– Traffic Type—Inbound/Outbound
c. Click Submit + Apply.
For details on configuring the Cisco Secure ACS HTML server, see the
documentation that is provided with the software.
Table 18-11 Authenticating ANM Users with a TACACS+ Server (continued)
Task Procedure
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Step 9 Create the ANM user on the
TACACS+ server
(Cisco Secure ACS Server)
To create the ANM user on the Cisco Secure ACS HTML server, do the
following:
a. Click the User Setup button. The User Setup window appears.
b. In the User text box of the User Setup window, enter the user name of the
organization user that you created in ANM (see Step 3, the Create an
domain for a RBAC user task).
c. Click the Add/Edit button.
d. Specify the following user attributes:
– Real Name—Real name of the ANM user.
– Description—Brief description of the user for the administrator.
– Password Authentication—ACS Internal Database.
– Password—Password for this user account. Enter this password a
second time in the Confirm Password text box.
For details on configuring the Cisco Secure ACS HTML server, see the
documentation that is provided with the software.
Table 18-11 Authenticating ANM Users with a TACACS+ Server (continued)
Task Procedure
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Figure 18-3 Example of Authentication Communication Between ANM and a TACACS+ Server
Related Topics
• Controlling Access to Cisco ANM, page 18-3
• How ANM Handles Role-Based Access Control, page 18-8
• Configuring Remote User Authorization Using a TACACS+ Server, page 18-45
Configuring Remote User Authorization Using a TACACS+ Server
You can configure a TACACS+ server to perform remote authorization of ANM users by configuring the
authorization settings on the AAA server, which includes a unique ANM identifier, user role, and domain
information. After you configure the TACACS+ server and ANM for remote authorization, when ANM
authorizes a user, it sends an authorization request to the TACACS+ server, which returns with the names
of the role and domains that are assigned to the user and defined on ANM.
Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
• You can configure ANM remote authorization on a TACACS+ server only. This feature is not
available for AD/LDAPS or RADIUS.
• Cisco has approved the use of Cisco Secure Access Control System (ACS) only for remote
authorization (Cisco has not approved the use of other TACACS+ servers for this purpose). The
Cisco Secure ACS can accept an authorization request and send the following attribute in the
request:
Step 10 Log in to ANM using the newly
created account
To test the new login credentials for user authentication, do the following:
a. Log in to ANM by entering the new user account in the ANM login window.
Enter the username using the following format:
@.
b. Click Login. Authentication occurs between ANM and the TACACS+
server (see Figure 18-3). All authentication transactions are performed by
the TACACS+ authentication service associated with the associated
organization.
c. ANM appears with the virtual contexts that you included as part of the
domain for the RBAC user in Step 3 (the Create an domain for a RBAC user
task).
Table 18-11 Authenticating ANM Users with a TACACS+ Server (continued)
Task Procedure
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ANM_UniqueID=RoleNameDomain1Domain2 . . .
ANM/IP should be used as the TACACS_Service/TACACS_Protocol pair for an authorization
request and response.
• You configure the user authorization attributes on the TACACS+ server using the following format:
ANM_UniqueID=RoleNameDomain1Domain2 . . .
The number of characters allowed for the ANM identifier, role, and domain information is limited
to 160 characters, including spaces. You can use additional characters by adding a new ANM Unique
ID entry for domain attributes as follows:
ANM_UniqueID_1=RoleNameDomain1Domain2
ANM_UniqueID_2=Domain3Domain4
ANM_UniqueID_3=Domain5
You must assign a different ANM identifier to each entry. Make sure that you configure the ANM
organization with each ANM unique ID (see the “Adding a New Organization” section on
page 18-10).
• You can define user authorization at the user level, user group level, or both. We recommend
configuring authorization at the user group level, which allows you to assign a common set of
authorization attributes to multiple users. When you configure the authorization attributes at both
the user level and user group level, the user attributes take precedence over user group attributes.
The procedure in this section includes all three configuration options.
• You can configure ANM to revert to local user authorization if the TACACS+ server becomes
unavailable (see the “Adding a New Organization” section on page 18-10).
Prerequisites
ANM has a user organization that is configured for remote authorization (see the “Adding a New
Organization” section on page 18-10).
This section includes the following topics:
• Configuring Remote User Authorization Using Cisco Secure ACS Version 5.1, page 18-46
• Configuring Remote User Authorization Using Cisco Secure ACS Version 4.2, page 18-48
Configuring Remote User Authorization Using Cisco Secure ACS Version 5.1
You can use Cisco Secure ACS Version 5.1 for configuring a remote server to perform remote
authorization of ANM users.
Note This procedure describes only the ANM-specific attributes for creating user groups and users on Cisco
Secure ACS. For information about configuring the other attributes, see the User Guide for Cisco Secure
Access Control Server located on Cisco.com.
Procedure
Step 1 From the Cisco Secure ACS HTML GUI, create a new Device Type to identify requests coming from the
ANM server.
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Do the following:
a. From the sidebar menu, choose Network Device Groups > Device Type. The Device Group
General window appears.
b. In the Name field, enter ANM.
c. (Optional) In the Description Field, enter a description. For example, ANM Server.
d. In the Parent field, select All Device Types.
e. Click Submit.
Step 2 From the sidebar menu, choose Network Device Groups > Network Devices and AAA Clients to add
a device. The Network Devices and AAA Clients window appears.
Do the following:
a. In the Name field, enter ANM.
b. From the Network Device Groups pane, do the following:
– In the Location field, select All Locations.
– In the Device Type field, select All device Types:ANM, which is the device type that you
created in Step 1.
c. From the IP Address pane, do the following:
– Choose the IP Range(s) radio button.
– From the IP and Mask fields, enter the IP address and Mask to use and click Add to add the
values to the IP/Mask table.
d. From the Authentication Options pane, check the TACACS+ check box.
e. Click Submit.
Step 3 From the sidebar menu, choose Users and Identity Stores > Identity Groups to create an Identity
Group, which will be used later to map users to a specific role. The Identity Groups General window
appears.
Do the following:
a. In the Name field, enter a name for the group. For example, ACE-Admin.
b. (Optional) In the Description field, enter a description for the group. For example, ACE devices
admin.
c. In the Parent field, select ALL Groups:ANM-Groups.
d. Click Submit. The Identity Groups window appears.
e. From the Identity Groups window, drill down and check the check box of an organization
division/roll to associate with the group. For example, check the ACE-Groups check box (All
Groups > ANM-Groups > ACE-Admin).
f. Click Create.
g. Repeat Step 3 for every Identity Group that you need to create.
Step 4 From the sidebar menu, choose Users and Identity Stores > Internal Identity Stores > Users to create
a user. The Users General window appears.
Do the following:
a. In the Name field, enter a user name.
b. From the Status drop-down list, set the status for the user account. For example, Enabled.
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c. (Optional) In the Description field, enter a description for the user account.
d. In the Identity Group field, select one of the groups created in Step 3 to associate with the user.
e. Click Submit.
Step 5 From the sidebar menu, choose Policy Elements > Authorization and Permissions > Device
Administration > Shell Profiles to create a shell profile for each Identity Group that you created in
Step 3. The shell is used to pass the user’s role and domain list to the ANM server. The Shell Profiles
window appears.
Do the following:
a. Click the Custom Attributes tab.
b. From the Attribute field, enter the attribute name, which is the ANM unique ID that you configured
in the ANM organization on ANM. The ANM unique ID is followed by the role and domain names
as a name/value pair (NV Pair) using the following format:
ANM_UniqueID=RoleNameDomain1Domain2 . . .
For example:
ANM=Role1 Domain1 Domain2 Domain6
The ANM_UniqueID variable must match the ANM unique ID that you configured in the ANM
organization on ANM (see the “Adding a New Organization” section on page 18-10). This line
cannot exceed 254 characters. If you need to use more than 254 characters, add another ANM
Unique ID entry to specify the domains associated with the role specified in the first entry (for
details, see the Guidelines and Restrictions associated with this topic).
c. Click Add. The attribute name is added to the Manually Entered pane.
d. Click Submit.
Related Topics
• Managing User Roles, page 18-25
• Managing Domains, page 18-32
• Adding a New Organization, page 18-10
• Using an AAA Server for Remote User Authentication and Authorization, page 18-38
• Configuring Remote User Authorization Using Cisco Secure ACS Version 4.2, page 18-48
Configuring Remote User Authorization Using Cisco Secure ACS Version 4.2
You can use Cisco Secure ACS Version 4.2 for configuring a remote server to perform remote
authorization of ANM users.
Note This procedure describes only the ANM-specific attributes for creating user groups and users on Cisco
Secure ACS. For information about configuring the other attributes, see the User Guide for Cisco Secure
Access Control Server located on Cisco.com.
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Procedure
Step 1 From the Cisco Secure ACS HTML GUI, configure the interface as follows:
a. From the side menu bar, click Interface Configuration.
The Interface Configuration window appears.
b. From the Advanced Options pane of the Interface Configuration window, check the Per-user
TACACS+/RADIUS Attributes check box and click Submit.
c. From the New Services pane of the Interface Configuration window, check the Service and Protocol
check boxes and add a new service as follows:
– In the Service text box, enter ANM.
– In the Protocol text box, enter IP.
d. Click Submit.
Step 2 Do one of the following:
• Configure a user group for the users that you create—Go to Step 3.
• Configure a user only—Skip to Step 4.
Step 3 To configure a user group, do the following:
a. From the side menu bar, click Group Setup.
The Group Setup window appears.
b. From the Group Setup window, create a user group and set the following ANM attributes:
– Check the ANM IP service check box.
– Check the Custom attributes check box and enter the ANM unique identifier followed by the
role and domain names as a name/value pair (NV Pair) in the Custom Attributes pane using the
following format:
ANM_UniqueID=RoleNameDomain1Domain2 . . .
For example:
ANM=Role1 Domain1 Domain2 Domain6
The ANM_UniqueID variable must match the ANM unique ID that you configured in the ANM
organization on ANM (see the “Adding a New Organization” section on page 18-10). This line
cannot exceed 160 characters. If you need to use more than 160 characters, add another ANM
Unique ID entry to specify the domains associated with the role specified in the first entry (for
details, see the Guidelines and Restrictions associated with this topics).
c. Click Submit.
The user group is now ready for adding users (go to Step 4).
Step 4 Create a user as follows:
a. From the side menu bar, click User Setup.
The User Setup window appears.
b. To assign the user to the user group that you created in Step 3, from the User Setup window, choose
the group from the following drop-down list: Group to which the user is assigned.
Skip this step if the user is not to be included in a user group.
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Disabling the ANM Login Window Change Password Feature
c. Configure the ANM-specific attributes. Perform this step for either of the following reasons;
otherwise, skip this step:
– The user is not to be included in a user group.
– The user is included in a user group but requires different authorization attributes (user
attributes have precedence over user group attributes).
To configure the ANM-specific attributes, from the User Setup window, do the following:
– Check the ANM IP service check box.
– Check the Custom attributes check box, enter the ANM unique ID and role and domain names
as NV Pair in the Custom Attributes pane using the following format:
ANM_UniqueID=RoleNameDomain1Domain2 . . .
For example:
ANM=Role1 Domain1 Domain2 Domain6
The ANM_UniqueID variable must match the ANM Unique ID that you configured in the ANM
organization (see the “Adding a New Organization” section on page 18-10). This line cannot
exceed 160 characters. If you need to use more that 160 characters, add another ANM Unique
ID entry to specify the domains associated with the role (for details, see this topic’s Guidelines
and Restrictions):
d. Click Submit.
Related Topics
• Managing User Roles, page 18-25
• Managing Domains, page 18-32
• Adding a New Organization, page 18-10
• Using an AAA Server for Remote User Authentication and Authorization, page 18-38
• Configuring Remote User Authorization Using Cisco Secure ACS Version 5.1, page 18-46
Disabling the ANM Login Window Change Password Feature
When you log into ANM from the login window, you have the option to change your password at that
time. This feature is enabled by default; however, you can disable it by modifying the ANM
cs-config.properties file. When disabled, the login window no longer displays the Change Password
hyperlink.
Procedure
Step 1 Disable the Change Password option on the ANM login window as follows:
• ANM Server—Open the /opt/CSCOanm/etc/cs-config.properties file in a text editor and change the
state of the following line from true to false:
changeANMPassword.enable=false
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• ANM Virtual Appliance—Enter the following command:
anm-property set changeANMPassword.enable false
Step 2 Restart ANM as follows:
• ANM Server—Enter the following command:
/opt/CSCOanm/bin/anm-tool restart
• ANM Virtual Appliance—Enter the following command:
anm-tool restart
Related Topics
• Logging In To the Cisco Application Networking Manager, page 1-5
• Changing Your Account Password, page 1-6
Managing ANM
When you choose Admin > ANM Management, you can display the following information:
• ANM—Allows you to check the status of your ANM server. See the “Checking the Status of the
ANM Server” section on page 18-52.
• License Management—Displays the ANM license information. See the “Using ANM License
Manager to Manage ANM Server or Demo Licenses” section on page 18-54.
• Statistics—Displays the ANM server statistics. See the “Displaying ANM Server Statistics” section
on page 18-56.
• Statistics Collection—Allows you to enable or disable ANM server statistic collection. See the
“Configuring ANM Statistics Collection” section on page 18-57.
• Audit Log Settings—Allows you to determine how long audit log records are kept. See the
“Configuring Audit Log Settings” section on page 18-58.
• Change Audit Log—Displays ANM server logs. See the “Displaying Change Audit Logs” section
on page 18-61.
• Auto Sync Settings—Allows you to allow ANM to automatically sync with CLI when it detects out
of band changes between itself and the ACE. See the “Configuring Auto Sync Settings” section on
page 18-61.
• Advanced Settings—Allows you to set the following advanced settings for ANM:
– Enable or disable overwrite of the ACE logging device-id while setting up syslog for autosync
using Config > Devices > Setup Syslog for Autosync.
– Enable or disable write memory on a Config > Operations configuration.
– Enable features for displaying details about real or virtual servers.
– Enable mobile notifications from ANM.
– Hide syslog buffer details in the Dashboard pane Top 10 Current Resources.
– Display all virtual servers that have class-map and policy-map definitions in the monitoring and
operations windows.
See the “Configuring Advanced Settings” section on page 18-62.
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• Virtual Center Plugin Registration—Allows you register the ANM plugin to integrate ANM in a
VMware virtual data center environment. See Appendix B, “Using the ANM Plug-In With Virtual
Data Centers.”
Checking the Status of the ANM Server
Note Your user role determines whether you can use this option.
You can check if ANM has a backup server and to view the server status.
The ANM server can be configured as either of the following:
• A non-HA ANM. The non-HA ANM consists of only one host and is referred to as a standalone
ANM.
• An HA (high availability or fault-tolerant) ANM, which consists of two hosts: an active ANM and
a standby ANM. An HA ANM has a virtual IP address that is always assigned to the active ANM.
Users log into this virtual IP address—they never log into the real IP addresses of the hosts. In
addition, an HA ANM has a secondary NIC and IP address on each host over which “heartbeat”
messages are used to arbitrate which host is active and which is standby.
Procedure
Step 1 Choose Admin > ANM Management > ANM.
The ANM Server status window appears. This window contains the following information:
Table 18-12 ANM Server Status Information
Field Description
HA Replication State HA replication state as follows:
• OK—This is an HA ANM and is running properly.
• Standalone—This is a non-HA ANM; therefore, the HA attributes and operations are not
meaningful.
• Stopped—This is HA ANM and this state indicates that the active ANM is copying its
entire database contents to the standby ANM. This normally happens when the standby
ANM initially starts up or it has been stopped and restarted later. This process normally
takes a few seconds to a few minutes depending on the size of the ANM configuration data
and monitoring data. During this time, the active ANM cannot be stopped, restarted, or
failover.
• Failed—This is an HA ANM and database replication cannot proceed. Most likely this is
because the standby ANM is unresponsive or is unreachable.
Version Version of the ANM software.
Build Number and Build
Timestamp
Build identification information.
Time Server Started Date and time the ANM server started.
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Related Topics
• Using ANM License Manager to Manage ANM Server or Demo Licenses, page 18-54
• Displaying ANM Server Statistics, page 18-56
Virtual IP Address Virtual IP address that associates with the active host. This IP address must be on the same
subnet as the primary IP addresses of both Node 1 and Node 2.
Active Name Name of Node 1, which can be displayed by issuing the uname -n command on the host.
Active IP IP address used by Node 1 for normal (non-heartbeat related) communication. This IP address
must be on the same subnet as the primary address for Node 2.
Active Heartbeat IP IP address associated with the crossover network interface for Node 1. This IP address must
be on the same subnet as the Heartbeat IP address for Node 2.
Standby Name Name of Node 2, which can be returned by issuing the uname -n command on the host.
Standby IP IP address used by Node 2 for normal (non-heartbeat related) communication. This IP address
must be on the same subnet as the primary IP address for Node 1.
Standby Heartbeat IP IP address associated with the crossover network interface for Node 2. This IP address must
be on the same subnet as the Heartbeat IP address for Node 1.
License Server State License server state as follows:
• OK—There is a valid license on the host.
• Invalid—The host either contains an invalid license or there is no license present.
• Unknown—It is not possible to communicate with the host's license manager, therefore,
the license state is unknown.
Note The Unknown and Invalid states will not display for the active (local) ANM. If the
standby ANM has an Invalid license state, you should install a valid license. If the
standby ANM has an Unknown license state, check that the standby ANM has been
installed correctly.
• DEMO—Used for the demonstration purposes. It lasts for 30, 60, or 90 days from the
issue day of the license. It allows you to use all features.
Standby License Server State Standby license server state as follows:
• OK—There is a valid license on Node 2.
• Invalid—Node 2 either contains an invalid license or there is no license present.
• Unknown—It is not possible to communicate with the license manager on Node 2,
therefore, the license state is unknown.
Note The Unknown and Invalid states will not display for the active (local) ANM. If the
standby ANM has an Invalid license state, you should install a valid license. If the
standby ANM has an Unknown license state, check that the standby ANM has been
installed correctly.
• DEMO—Used for the demonstration purposes. It lasts for 30, 60, or 90 days from the
issue day of the license. It allows you to use all features.
Table 18-12 ANM Server Status Information (continued)
Field Description
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• Configuring ANM Statistics Collection, page 18-57
Using ANM License Manager to Manage ANM Server or Demo Licenses
You can use the ANM License Manager feature to manage to the ANM license required to use ANM
beyond the 90-day evaluation period.
Note Your user role determines whether you can use this option.
Table 18-13 describes the available ANM licenses and their purpose.
ANM licenses are available at no charge. When you install the ANM software, you are provided with a
90-day evaluation period that does not require a license; however, to continue using ANM beyond the
evaluation period, you must install the ANM server license as follows:
• To install the server license before the evaluation period expires, you can use ANM License Manager
(see the “Displaying and Adding ANM Licenses to License Management” section on page 18-54).
Optionally, you can use the CLI to install the license as described in the next bullet.
• To install the server license after the evaluation period expires, you must use the CLI (see the
Installation Guide for Cisco Application Networking Manager 5.2 or the Installation Guide for the
Cisco Application Networking Manager 5.2 Virtual Appliance for instructions).
Note ANM uses TCP port 10444 for the ANM License Manager. For other port numbers, see Appendix A,
“ANM Ports Reference.”
This section includes the following topics:
• Displaying and Adding ANM Licenses to License Management, page 18-54
• Removing an ANM License File, page 18-55
Displaying and Adding ANM Licenses to License Management
Note Your user role determines whether you can use this option.
You can add a license to the license manager. You need to add a license before the 90-day evaluation
period expires or when you convert from a demo license to an ANM server license.
Table 18-13 ANM License Descriptions
License Name Description
ANM-DEMO or DEMO Used for demonstration purposes. It lasts for 90 days from the issue day of the license and allows
you to use all features.
ANM-SERVER-50-K9 Used to allow access to the ANM server. Beginning with ANM 4.1, ANM does not perform a
license version number check; it will accept any version ANM license.
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Guidelines and Restrictions
The license manager does not display information related to the 90-day evaluation period that allows you
to use ANM immediately after you install the software. When there are 10 days or less remaining to the
evaluation period, ANM issues daily warnings that the evaluation period is about to expire. You must
install the ANM server license to continue using ANM.
Procedure
Step 1 Choose Admin > ANM Management > License Management.
The Licenses table appears. Table 18-14 describes the contents of this table.
Step 2 To add new license, from the Licenses table, click Add.
The New License window appears.
Step 3 In the New License window, click Browse to locate the new license name.
Use the browser to choose the license file.
Step 4 Click Upload to install the license you added onto the ANM Server or Cancel to exit.
The license file appears in the License Files table.
From the License Files table you can see the Install Status of the license file and if there are any errors.
Related Topics
• ANM Licenses, page 1-7
• Managing ACE Licenses, page 6-36
• Using ANM License Manager to Manage ANM Server or Demo Licenses, page 18-54
• Removing an ANM License File, page 18-55
Removing an ANM License File
For ANM server, if your license file does not work in ANM due to file errors, you need to remove it from
the ANM host and request another license file from Cisco. There is no ANM GUI remove license
command. You must remove the license from the operating system by deleting the file.
Table 18-14 License Files
Field Description
File Name Name of the ANM server or demo license file that you have installed on the ANM host.
Install Status Status of the license file. Any licensing errors display here. For ANM server, if errors display,
see the “Removing an ANM License File” section on page 18-55 for details about how to
remove this file and import a working file. You cannot remove a license from ANM Virtual
Appliance; however, a license that displays in error is not a probelm as long as a valid license
is also installed.
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Guidelines and Restrictions
You can remove a license file from ANM server; however, you cannot remove a license file from ANM
Virtual Appliance. If you are using ANM Virtual Appliance and have a license that displays in error, it
is not an issue as long as a valid license is also installed.
Procedure
Step 1 Log in as the root user.
Step 2 To remove the license file, enter the following:
rm /opt/CSCOanm/etc/license/
The license file is removed from the ANM host.
Step 3 Restart ANM to allow it to update the licenses table data.
To restart ANM, see instructions in the Installation Guide forCisco Application Networking Manager
5.2.
To request another license from Cisco to replace the one that had errors, open a service request using the
TAC Service Request Tool or call the Technical Assistance Center. Add the license into ANM.
Related Topics
• ANM Licenses, page 1-7
• Using ANM License Manager to Manage ANM Server or Demo Licenses, page 18-54
• Displaying and Adding ANM Licenses to License Management, page 18-54
Displaying ANM Server Statistics
You can display ANM statistics (for example, CPU, disk, and memory usage on the ACE).
Procedure
Step 1 Choose Admin > ANM Management > Statistics.
The statistics viewer displays the fields in Table 18-15.
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Related Topics
• Checking the Status of the ANM Server, page 18-52
• Configuring ANM Statistics Collection, page 18-57
Configuring ANM Statistics Collection
You can enable ACE server statistics polling.
Procedure
Step 1 Choose Admin > ANM Management > Statistics Collection.
The Primary Attributes configuration window appears.
Step 2 In the Polling Stats field, click Enable to start background polling or Disable to stop background
polling.
Step 3 In the Background Polling Interval field, choose the polling interval appropriate for your networking
environment.
Step 4 Click Deploy Now to save your entries.
Related Topics
• Checking the Status of the ANM Server, page 18-52
• Displaying ANM Server Statistics, page 18-56
Table 18-15 ACE Server Statistics
Name Description
Owner Process where statistics are collected.
Statistic Statistical information, includes the following:
• CPU Usage—Overall ACE CPU busy percentage in the last 5-minute period.
• Disk Usage—Amount of disk space being used by the ANM server or ACE device.
• Memory Usage—Amount of memory being used by the ANM server or ACE hardware.
• Process Uptime—Amount of time since this system was last initialized, or the amount of time
since the network management portion of the system was last reinitialized.
Value Value of the statistic.
Description Information that the statistic gathered.
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Configuring Audit Log Settings
You can determine how long audit logs are kept in the database.
Audit Log Purge Settings allow you to specify the following:
• How many days the log records in the database will be kept (default is 31).
• The maximum of log records that will be stored in the ANM database (default 100,000).
Audit Log File Purge Settings allows you to specify the following:
• The number of days worth of log record files that will be stored in the ANM database (default 31
days).
• The number of daily rolling files that will be stored in the ANM database (default 10 files each day,
allowable file size is 2 Megabytes and is not configurable).
Procedure
Step 1 Choose Admin > ANM Management > Audit Log Settings.
The Audit Log Settings configuration window appears. Audit Log Purge Settings fields let you
determine whether audit log table entries will be deleted after a certain number of days (default is 31
days) or after the table entries reach a certain size (default is 100 entries).
Step 2 Enter the greatest number of days that you would like entries to be retained in the Number of Days field.
Step 3 Enter the maximum amount of log records to be stored in the ANM database in the audit log tables in
the Number of Entries (Thousand) field (default 100,000).
Audit Log File Purge Settings fields let you determine whether to retain log files according by age
(default is 31 days) or by amount saved in a given day (default is 10 entries).
Step 4 Enter the greatest number of days that you would like entries to be retained in Number of Days field.
Step 5 Enter the greatest number of log files that you would like retained in the Number of Daily Rolling Log
Files field.
Step 6 Do one of the following:
• Click Reset to Default to erase changes and restore the default values.
• Click Save Now to save your entries.
Related Topics
• Performing Device Audit Trail Logging, page 18-59
• Displaying Change Audit Logs, page 18-61
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Performing Device Audit Trail Logging
Certain configuration and deployment changes are logged in the ANM database and available for
displaying according to your role, which is restricted by the ACE virtual context as established by
RBAC. Log files are located /var/lib/anm/events/date/audit, where date is in YYYYMMDD format (for
example, 20091109 for November 9, 2009).
The following changes are logged in ANM:
• Configuration deployments to devices
• Device or virtual context synchronization operations
• Device or virtual context import and deletions
• Creation/updates/deletion of the to-be-deployed later by the virtual server
Procedure
Step 1 Choose Config > device(s) to view > Device Audit.
ANM displays all operations described above on the specified devices. See Table 18-16 for a description
of the displayed information, some of which is extracted from the syslog.
You can sort information in the table by clicking on a column heading, adjust the viewable time range
using the drop-down list, and export the table for reporting and troubleshooting purposes.
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Table 18-16 Config > Device Audit Fields
Field Description
Time ANM server timestamp when the action is complete.
Client IP Source IP address initiating action.
User Email address in the following format: username@organization name for
example, admin@cisco.com.
Device Device or ACE virtual context target of user action.
Action The action name of the operation, including the following:
• add staging object
• allocate vlan
• change credential
• create
• create vc
• create vc-template
• create-vip
• delete
• delete-vip
• deploy staging object
• disable polling
• enable polling
• export-certificate-key
• generate-csr
• import device
• import-certificate-key
• import module
• remove device
• remove vc
• restart monitoring
• syncup config
• syslog-setup
• unmanage module
• update
• update staging object
• update-vip
Target Name of the target configuration object (for example, Serverfarm sf1).
Status Indicates whether operation succeeded or not.
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Related Topics
• Configuring Audit Log Settings, page 18-58
• Displaying Change Audit Logs, page 18-61
Displaying Change Audit Logs
You can display ANM change audit logs for example, user login attempts, create/update/delete objects
such as RBAC, Global Resource Class, Credential, device group, and threshold setting. Any key or
change related activities to the ANM server will be logged and viewed according to your role.
To display the change audit logs, choose Admin > ANM Management > ANM Change Audit Log. The
audit log displays the fields in Table 18-17.
Related Topics
• Checking the Status of the ANM Server, page 18-52
• Configuring Audit Log Settings, page 18-58
• Performing Device Audit Trail Logging, page 18-59
Configuring Auto Sync Settings
You can configure ANM server auto sync settings.
Procedure
Step 1 Choose Admin > ANM Management > ANM Auto Sync Settings.
The Setup ANM Auto-Sync Settings window appears.
Step 2 In the ANM Auto-Sync field of the Setup ANM Auto-Sync Settings window, do one of the following:
Detail CLI commands sent to the device and/or error messages. ANM truncates the
display if the number of characters for the CLI commands exceeds 100,000
characters. You can view the complete audit output in the audit log file.
Table 18-16 Config > Device Audit Fields (continued)
Field Description
Table 18-17 Server Audit Log
Name Description
Time Server time stamp when user action is complete.
Client IP IP address where action originated.
User Email address in the following format: username@organization name for example, admin@cisco.com.
Message Boilerplate text descriptive of action taken, usually self-explanatory (for example “User authentication
succeeded.”
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• Click Enable to have the ANM server automatically sync with ACE CLI when it detects out of band
changes.
• Click Disable to have the ANM server warn but not take independent action when it detects out of
band changes between the server and ACE CLI.
Step 3 In the Polling Interval field, choose the polling interval you want the ANM server to employ.
Step 4 Click OK to save your entries.
Related Topic
Synchronizing Virtual Context Configurations, page 6-105
Configuring Advanced Settings
This section discusses the Advanced Settings window.
This section includes the following topics:
• Configuring the Overwrite ACE Logging device-id for the Syslog Option, page 18-62
• Configuring the Enable Write Mem on the Config > Operations Option, page 18-63
• Enabling the ACE Real Server Details Popup Window Option, page 18-64
• Enabling the ACE Server Farm Details Popup Window Option for Virtual Servers, page 18-65
• Enable Mobile Notifications from ANM, page 18-66
• Managing the Syslog Buffer Display in the All Devices Dashboard, page 18-66
• Managing the Display of Virtual Servers in the Operations and Monitoring Windows, page 18-66
Configuring the Overwrite ACE Logging device-id for the Syslog Option
Yo can overwrite the ACE logging device-id.
By default, ANM Autosync relies on the ACE logging device-id to be of type “String.” A device-id
setting adds explicit information that is appended to the syslog message and is used by ANM to identify
the source of a syslog message. If you configure ANM to manage syslog settings for Autosync on a
virtual context (Config > Devices > Setup Syslog for Autosync) and the logging device-id is defined as
something other than type “String” for the context, the operation fails and ANM displays “Syslog device
is already configured for other purpose.”
You can instruct ANM to overwrite the ACE logging device-id when you enable the synchronization of
syslog messages setup of syslog for Autosync from the ACE. If any of the contexts that you are trying
to set up a syslog the syslog for Autosync has a device-id setup for a type other than string, ANM will
override the device-id with the ANM preferred string.
Procedure
Step 1 Choose Admin > ANM Management > Advanced Settings.
The Advanced Settings configuration window appears.
Step 2 In the Overwrite ACE Logging Device ID field of the Advanced Settings configuration window, do one
of the following:
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• Click Enable to overwrite the logging device-id during Setup Syslog for Autosync.
• Click Disable to prevent overwriting the existing logging device-id if it has been previously set up
with a type other than string. If the selected context from Setup Syslog for Autosync already has a
device-id that is set up with a type other than string, then the operation reports an error and ANM
does not overwrite this setting. This is the default setting.
Step 3 Click OK to accept your entries on the Advanced Settings configuration window.
Related Topics
• Enabling a Setup Syslog for Autosync for Use With an ACE, page 5-27
Configuring the Enable Write Mem on the Config > Operations Option
You can configure the Enable Write Mem on the Config > Operations feature.
By default, ANM initiates a write memory command action after you activate or suspend changes on
the ACE, CSM, or CSS through the different ANM Operations Pages (Config > Operations). In certain
situations, such as those that involve large configurations, a write memory action can take an extended
period of time to complete. In this case, the ANM GUI may time out. If a write memory action is not
performed before a device reload occurs, the changes will be lost. You can instruct ANM to enable or
disable write memory on a Config > Operations configuration.
Note The write memory command is the same as the copy running-config startup-config command; both
commands save changes to the configuration.
Note The CSS Expert mode must be disabled if you wish to disable the Write Mem on Config > Operations
feature. The Expert mode allows you to turn the CSS confirmation capability on or off; turning Expert
mode on disables the CSS from prompting for confirmation when configuration changes are made. If
Expert mode is enabled on the CSS, this function will cause the CSS to perform an implicit write
memory action after each operational change.
Procedure
Step 1 Choose Admin > ANM Management > Advanced Settings.
The Advanced Settings configuration window appears.
Step 2 In the Enable Write Mem on Config > Operations field of the Advanced Settings configuration window,
do one of the following:
• Click Enable to instruct ANM to activate the write memory action on the Config > Operations
window. This is the default.
• Click Disable to deactivate the write memory action on the Config > Operations window. This
option will require you to periodically access the CLI for the ACE context, the CSM, or the CSS and
enter the write memory command to commit the change to the startup-configuration file.
Step 3 Click OK to accept your entries on the Advanced Settings configuration window.
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Enabling the ACE Real Server Details Popup Window Option
You can enable the ACE real server Details popup window option that displays real server details by
issuing the show rserver detail command to the selected ACE in the real servers operation window
(Config > Operations > Real Servers). This top level real server show command displays information
that includes total statistics about every serverfarm real server associated with the selected rserver. The
ACE real server Details popup window feature is disabled by default.
Caution When you enable the ACE real server Details popup window option, the information that displays in the
Details popup window may exceed the RBAC restrictions assigned to the user.
The following example shows how enabling the ACE real server Details popup window option in ANM
can display information that may exceed the RBAC restrictions assigned to a user. In the following CLI
example, the ACE displays information for rbac-test:80 and rbac-test:443 in response to the show
rserver rbac-test detail command:
switch/Admin# sh rserver rbac-test detail
rserver : rbac-test, type: HOST
state : OUTOFSERVICE
---------------------------------
----------connections-----------
real weight state current total
---+---------------------+------+------------+----------+--------------------
serverfarm: sf-rbac-test
0.0.0.0:80 8 OUTOFSERVICE 0 0
serverfarm: sf1-rbac-test
0.0.0.0:443 8 OUTOFSERVICE 0 0
switch/Admin(config-sfarm-host-rs)#
When you enable the Details option in ANM, the popup window displays the same information even if
the user requesting the information is configured in ANM to have access to rbac-test:80 only.
Procedure
Step 1 Choose Admin > ANM Management > Advanced Settings.
The Advanced Settings configuration window appears.
Step 2 In the Enable Details popup window for Config > Operations > Real Servers field of the Advanced
Settings configuration window, do one of the following:
• Click Enable to enable the ACE real server Details popup window option.
• Click Disable to disable the ACE real server Details popup window option. This is the default.
Step 3 Click OK to accept your entries on the Advanced Settings configuration window.
Related Topics
• Displaying Real Servers, page 8-18
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Managing ANM
Enabling the ACE Server Farm Details Popup Window Option for Virtual Servers
You can enable the ACE Server Farm Details popup window option that displays details about the server
farms associated with a virtual server. When you enable this feature, the server farms listed in the virtual
servers operation window (Config > Operations > Virtual Servers) become hyperlinks that open a popup
details window. When you click a server farm associated with a virtual server, ANM issues the show
serverfarm detail command to the ACE and displays the command output in the popup window.
This top level virtual server show command displays information that includes statistical information
related to the real servers associated with the server farm. The ACE Server Farm Details popup window
feature is disabled by default.
Caution When you enable the ACE Server Farm Details popup window option, the information that displays in
the popup window may exceed the RBAC restrictions assigned to the user. For example, information
related to real severs that a user is not permitted to access may display.
The following is an example of the show serverfarm test-sf detail command output:
serverfarm : test-sf, type: REDIRECT
total rservers : 1
active rservers: 0
description : -
state : INACTIVE
predictor : ROUNDROBIN
failaction : -
back-inservice : 0
partial-threshold : 0
num times failover : 0
num times back inservice : 0
total conn-dropcount : 0
---------------------------------
----------connections-----------
real weight state current total failures
---+---------------------+------+------------+----------+----------+---------
rserver: anm-vm-119
0.0.0.0:0 8 OUTOFSERVICE 0 0 0
description : -
max-conns : - , out-of-rotation count : -
min-conns : -
conn-rate-limit : - , out-of-rotation count : -
bandwidth-rate-limit : - , out-of-rotation count : -
retcode out-of-rotation count : -
Procedure
Step 1 Choose Admin > ANM Management > Advanced Settings.
The Advanced Settings configuration window appears.
Step 2 In the “Enable Details popup window for Config > Operations > Virtual Servers” field of the Advanced
Settings configuration window, do one of the following:
• Click Enable to enable the ACE Server Farm Details popup window option.
• Click Disable to disable the ACE Server Farm Details popup window option. This is the default.
Step 3 Click OK to accept your entries on the Advanced Settings configuration window.
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Managing ANM
Related Topic
“Displaying Virtual Servers” section on page 7-81
Enable Mobile Notifications from ANM
You can enable ANM to send alarm notifications to supported mobile devices that are using the ANM
Mobile app. By default, this feature is disabled. For details about the enabling this advanced setting, see
the “Globally Enabling or Disabling Mobile Device Notifications” section on page 18-69.
Related Topics
• Globally Enabling or Disabling Mobile Device Notifications, page 18-69
• Configuring Alarm Notifications on ANM, page 17-57
• Administering the ANM Mobile Feature, page 18-67
• Chapter 19, “Using ANM Mobile”
Managing the Syslog Buffer Display in the All Devices Dashboard
You can choose to show or hide the syslog buffer information that displays in the Top 10 Current
Resources pane of the All Devices Dashboard window (Monitor > Devices > Dashboard >All Devices).
You may want to hide this information because it will always show 100 percent after the buffer becomes
full and starts to wrap.
Procedure
Step 1 Choose Admin > ANM Management > Advanced Settings.
The Advanced Settings configuration window appears.
Step 2 Check the Hide 'Syslog Buffer' details in 'Top 10 Current Resources' in Dashboard Pane (All
devices dashboard) check box to hide the syslog information. Uncheck the check box to display the
syslog information.
Step 3 Click OK to accept your entries on the Advanced Settings configuration window.
Step 4 (Optional) Choose Monitor > Devices > Dashboard >All Device to view the change to the Top 10
Current Resources pane. For more information, see the “Top 10 Current Resources Table” section on
page 17-20.
Managing the Display of Virtual Servers in the Operations and Monitoring Windows
You can choose to show only ANM recognized virtual servers or all virtual servers in the virtual server
windows for Config Operations (Config > Operations > Virtual Servers) and Monitor Devices (Monitor
> Devices > Load Balancing > Virtual Servers).
ANM recognized virtual servers are virtual servers that match ANM’s virtual server definition (see
“Virtual Server Configuration and ANM” section on page 7-2). When you have the display set to display
all virtual servers, it includes virtual servers that match ANM’s virtual server definition and those that
do not match this definition but that ANM can recognize as virtual servers using SNMP polling
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Administering the ANM Mobile Feature
Procedure
Step 1 Choose Admin > ANM Management > Advanced Settings.
The Advanced Settings configuration window appears.
Step 2 Do one of the following to specify the virtual server types that display in the Operations and Monitor
windows for virtual servers:
• Check the Display All Virtual Servers in Monitoring & Operations page (Virtual Servers that
have class-map/policy-map definitions) check box to display virtual servers that match ANM’s
virtual server definition and those that do not match this definition but that ANM can recognize as
virtual servers using SNMP polling.
When this option is checked, the virtual server windows for Config Operations and Monitor Devices
includes a display toggle button ( ) located above the table that allows you to change from
viewing all virtual servers to viewing only ANM recognized virtual servers.
• Uncheck the check box to display only virtual servers that match ANM’s virtual server definition
(see the “Information About Using ANM to Configure Virtual Servers” section on page 7-4. This is
the default.
Step 3 Click OK to accept your entries on the Advanced Settings configuration window.
Step 4 (Optional) Choose Config > Operations > Virtual Servers to view the change.
Administering the ANM Mobile Feature
ANM Mobile is a mobile device app that allows supported mobile devices to access your ANM server
or ANM Virtual Appliance and manage the network objects in much the same way you do from an ANM
client as described in Chapter 19, “Using ANM Mobile.” This section describes how to configure ANM
to send alarm notifications to ANM Mobile, which requires configuring ANM with a push notification
proxy server and globally enabling the mobile notification feature. For remotely authorized users, you
must also modify the ANM configuration to allow ANM to send this user type mobile notifications.
After you have ANM configured to issue mobile notifications, you can send a test message to test the
notification channel between ANM and the mobile device. You can also view a list that shows the last
notification that ANM issued to each mobile device.
This section includes the following topics:
• Configuring ANM with a Proxy Server for ANM Mobile Push Notifications, page 18-67
• Enabling Mobile Device Notifications for Remotely Authorized Users, page 18-69
• Globally Enabling or Disabling Mobile Device Notifications, page 18-69
• Displaying Mobile Device Notifications and Testing the Notification Channel, page 18-70
Configuring ANM with a Proxy Server for ANM Mobile Push Notifications
You can modify the ANM properties file for ANM Mobile push (or alarm) notifications. ANM is
preconfigured to send ANM Mobile notifications directly to the Cisco proxy service. If your network
does not allow direct access to the proxy service, you can configure ANM to send notifications to your
proxy server, which in turn forwards the notifications to the Cisco proxy service.
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Administering the ANM Mobile Feature
Prerequisites
ANM has alarm threshold groups configured for mobile device alarm notifications (see the “Configuring
Alarm Notifications on ANM” section on page 17-57).
Procedure
Step 1 Specify a proxy server to use as follows:
• ANM Server—Open the /opt/CSCOanm/etc/cs-config.properties file in a text editor and modify the
following lines:
– proxy-type=type
Specify a type of either ssl or socks depending on your network requirements.
– proxy-server=proxy_IPaddress
Specify the IP address of your proxy server.
– proxy-server-port=port_number
Specify the port to use to communicate with your proxy server.
• ANM Virtual Appliance—Enter the following commands:
– anm-property set proxy-type type
Specify a type of either ssl or socks depending on your network requirements.
– anm-property set proxy-server proxy_IPaddress
Specify the IP address of your proxy server.
– anm-property set proxy-server-port port_number
Specify the port to use to communicate with your proxy server.
Step 2 Restart ANM as follows:
• ANM Server—Enter the following command:
/opt/CSCOanm/bin/anm-tool restart
• ANM Virtual Appliance—Enter the following command:
anm-tool restart
Step 3 Allow ANM to send alarm notifications to supported mobile devices.
For more information, see the “Globally Enabling or Disabling Mobile Device Notifications” section on
page 18-69.
Step 4 (Optional) Send a test notification to a mobile device.
For more information, see the “Displaying Mobile Device Notifications and Testing the Notification
Channel” section on page 18-70.
Related Topics
• Enabling Mobile Device Notifications for Remotely Authorized Users, page 18-69
• Globally Enabling or Disabling Mobile Device Notifications, page 18-69
• Displaying Mobile Device Notifications and Testing the Notification Channel, page 18-70
• Chapter 19, “Using ANM Mobile”
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Administering the ANM Mobile Feature
Enabling Mobile Device Notifications for Remotely Authorized Users
You can modify the ANM configuration when you need to send mobile device alarm notifications to
users that are authorized remotely using an AAA server.
Guidelines and Restrictions
When you enable alarm notifications to remotely authorized users, ANM does not perform any RBAC
filtering of alarms to users, which means that remotely authorized users receive all alarm notifications
regardless of the roles and domains assigned to them.
Procedure
Step 1 Enable mobile device notifications for remotely authorized users as follows:
• ANM Server—Open the /opt/CSCOanm/etc/cs-config.properties file in a text editor and change the
state of the following line from false to true:
send.mobile.notifications.to.remote.users=true
• ANM Virtual Appliance—Enter the following command:
anm-property set send.mobile.notifications.to.remote.users true
Step 2 Restart ANM as follows:
• ANM Server—Enter the following command:
/opt/CSCOanm/bin/anm-tool restart
• ANM Virtual Appliance—Enter the following command:
anm-tool restart
Step 3 Globally enable ANM to send mobile device alarm notifications (see the “Globally Enabling or
Disabling Mobile Device Notifications” section on page 18-69).
Related Topics
• Configuring ANM with a Proxy Server for ANM Mobile Push Notifications, page 18-67
• Globally Enabling or Disabling Mobile Device Notifications, page 18-69
• Displaying Mobile Device Notifications and Testing the Notification Channel, page 18-70
• Chapter 19, “Using ANM Mobile”
Globally Enabling or Disabling Mobile Device Notifications
You can globally enable or disable mobile device notifications from ANM.
Prerequisites
This topic includes the following prerequisites:
• ANM has alarm threshold groups configured for mobile device alarm notifications (see the
“Configuring Alarm Notifications on ANM” section on page 17-57).
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Administering the ANM Mobile Feature
• ANM is allowed to send alarm notifications outside your network to the Cisco proxy service either
directly (default) or through a specified proxy server (see the “Configuring ANM with a Proxy
Server for ANM Mobile Push Notifications” section on page 18-67).
• For remotely authorized users only, you must modify the ANM config.properties file to allow ANM
to send notifications to this user type (see the “Enabling Mobile Device Notifications for Remotely
Authorized Users” section on page 18-69).
Procedure
Step 1 Choose Admin > ANM Management > Advanced Settings.
The Advanced Settings configuration window appears.
Step 2 In the “Enable mobile notifications from ANM” field of the Advanced Settings configuration window,
do one of the following:
• Click Enable to allow ANM to send alarm notifications to mobile devices using ANM Mobile.
• Click Disable to not allow ANM to send alarm notification to mobile devices. This is the default.
Step 3 Click OK to accept your entries on the Advanced Settings configuration window.
Step 4 (Optional) Send a test notification to a mobile device.
For more information, see the “Displaying Mobile Device Notifications and Testing the Notification
Channel” section on page 18-70.
Related Topics
• Configuring Advanced Settings, page 18-62
• Configuring ANM with a Proxy Server for ANM Mobile Push Notifications, page 18-67
• Enabling Mobile Device Notifications for Remotely Authorized Users, page 18-69
• Displaying Mobile Device Notifications and Testing the Notification Channel, page 18-70
• Chapter 19, “Using ANM Mobile”
Displaying Mobile Device Notifications and Testing the Notification Channel
You can display the list of ANM Mobile alarm notifications and send a customized test message to a
mobile device.
Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
• ANM displays only the last notification sent to a mobile device.
• You can send a test message to a mobile device even when you have globally disabled mobile device
alarm notifications in ANM. For information about managing mobile device alarm notifications, see
the “Globally Enabling or Disabling Mobile Device Notifications” section on page 18-69.
Procedure
Step 1 Choose Admin > Role-Based Access Control > Mobile Notifications.
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Administering the ANM Mobile Feature
The Mobile Notifications window appears. Table 18-18 describes the information displayed.
Step 2 (Optional) To manage which fields display in the Mobile Notifications window, do the following:
a. Click the Customize button ( ) and choose Configure from the menu that appears. The Mobile
Notifications List Configuration popup window appears.
b. From the popup window, choose the fields that you want to display and make any other display
modifications that you want to see. Be sure to enter a name in the List Customization Name field if
you want to assign a name to the customized display. This option allows you to recall the customized
display if you return to the default display.
c. Do one of the following:
– Click Save to save the settings to the name that you provided in the List Customization Name
field.
– Click Cancel to exit the popup window without making any changes.
– Click Apply to apply the changes to the Mobile Notifications window without saving the
display settings to a new name.
Step 3 (Optional) To test the notification channel between ANM and a mobile device, send the device a test
message by doing the following:
a. Choose the device from the Mobile Devices window and click Send Test Message.
The Send Test Message to Device dialog box appears.
b. In the dialog box, enter a message (150 characters maximum) to send the device and click Send.
ANM sends the test message, which can be verified on the targeted device.
Related Topics
• Displaying a List of Users, page 18-18
• Configuring ANM with a Proxy Server for ANM Mobile Push Notifications, page 18-67
• Enabling Mobile Device Notifications for Remotely Authorized Users, page 18-69
• Globally Enabling or Disabling Mobile Device Notifications, page 18-69
• Chapter 19, “Using ANM Mobile”
Table 18-18 Mobile Notifications Window
Field Description
Owner Mobile device owner.
UUID Unique ID of the user who last logged in to ANM from the mobile device.
Device Type Mobile device type.
Device OS Mobile device operating system information.
Last Registration Time Last time the mobile device passed a device token to ANM.
Time Zone1
1. This field is not shown in the default view of the Mobile Notifications window. See Step 2 to manage which fields display.
Time zone associated with the mobile device.
Last Notification Time1 Last time that ANM sent an alarm notification to the mobile device.
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Lifeline Management
Lifeline Management
You can use the troubleshooting and diagnostics tools provided by the Lifeline feature to report a critical
problem to the Cisco support line and generate a diagnostic package. For more information about this
feature, see the “Using Lifeline” section on page 20-7.
CHAPTER
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19
Using ANM Mobile
Date: 3/28/12
This chapter describes Cisco ANM Mobile, which allows you to access your ANM server or ANM
Virtual Appliance and manage your devices using a mobile device such as an iPhone or Android
smartphone.
This chapter contains the following sections:
• Information About ANM Mobile, page 19-2
• ANM Mobile Prerequisites and Supported Devices, page 19-4
• Guidelines and Restrictions, page 19-5
• Using ANM Mobile, page 19-5
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Information About ANM Mobile
Information About ANM Mobile
ANM Mobile allows supported mobile devices to access to your ANM server or ANM Virtual Appliance
and manage the network objects in much the same way you do from an ANM client. Using a mobile
device, you can run ANM Mobile as a native application (app) or inside the mobile device browser.
Using either the native app or the mobile device browser, you can perform the following tasks:
• Activate or suspend a real server, virtual server, VIP answer, or DNS rule.
• Access the status and details of a real server, virtual server, VIP answer, or DNS rule.
• Change the weight of a real server.
• Display a real-time chart of a real or virtual server statistical metric, such as the number of
connections.
• Display the Operation Summary (similar to the Device Configuration Summary Panel inside the
ANM dashboard) by object type (Real Server, Virtual Server, VIP Answer or DNS Rule) in category
of healthy, unhealthy, and others. You can drill down to see the list of objects in the selected category
and object type.
• (Native app only) Receive alarm notifications from ANM when conditions exist that require your
attention.
• Add frequently accessed objects to the Favorite screen.
• Use the search feature to find managed objects, such as a device, real server, virtual server, VIP
answer, or DNS rule.
• View the alarm summary and details.
• Change the real time chart polling interval and connection time out values.
• Save your access credentials.
• From ANM’s Mobile Devices window (Admin > Role-Based Access Control > Mobile Devices),
system administrators can view the list of registered mobile users and send a test push notification
message to a user’s mobile device.
Table 19-1 shows the main differences between using ANM Mobile as a native app or using it in the
mobile device’s browser.
Figure 19-1 provides an overview of ANM Mobile, including the components that are available with the
native app only.
Table 19-1 Major ANM Mobile Differences Between Native App and Mobile Browser
Category Native Application Mobile Browser
ANM Notification Service
(native app only)
Supported Not supported
Client application (ANM
Mobile) download and
installation
Required Not required1
1. When using a mobile device browser, you enter the ANM server IP address in the browser address bar, at which point you
are redirected to ANM Mobile.
Upgrade Required download and installation
of latest version
Part of the ANM server upgrade
process
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Information About ANM Mobile
Figure 19-1 ANM Mobile Overview
The components in Figure 19-1 are as follows:
1. ANM Mobile app—Obtain the no-cost Cisco ANM Mobile app from the app store or market
associated with the mobile device.
2. Mobile device login—Enter ANM IP address, username, and password to log in to ANM server or
ANM Virtual Appliance from the mobile device. After a successful login, ANM associates the
mobile device with the user (see the “Displaying a List of Users” section on page 18-18).
3. Access ANM—Access ANM functionality to monitor your network and perform operational tasks.
For more information, see the “Using ANM Mobile” section on page 19-5.
4. Alarm Notifications—ANM sends alarm notifications to a mobile device (native app required)
through a proxy service.
For more information, see the “Setting Up and Viewing Mobile Device Alarm Notifications” section
on page 19-13.
5. Cisco Proxy Service—Standalone server (managed by Cisco IT) that forwards notification messages
from ANM to the Apple or Google Push Notification Service. The proxy service, which is hosted
by Cisco and used for alarm notifications, manages the push notification messages that ANM issues
by forwarding them to the Apple or Android Push Notification Services.
For more information, see the “Configuring ANM with a Proxy Server for ANM Mobile Push
Notifications” section on page 18-67.
6. Push notification service—Allows a third-party server, such as the ANM server, to send notification
messages securely to a mobile device. The push notification services provided by APPLE and
Google are used for alarm notifications and are best effort; therefore, the push notification service
provided by Cisco is also best-effort.
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Chapter 19 Using ANM Mobile
ANM Mobile Prerequisites and Supported Devices
Related Topics
• ANM Mobile Prerequisites and Supported Devices, page 19-4
• Guidelines and Restrictions, page 19-5
• Using ANM Mobile, page 19-5
ANM Mobile Prerequisites and Supported Devices
This section describes the ANM and mobile device requirements needed to use ANM Mobile.
ANM Server and ANM Virtual Appliance Requirements
Your ANM server or ANM Virtual Appliance must be using ANM software Version 5.1 or later to access
ANM Mobile. To utilize the alarm notification feature, ANM must be configured to send notifications
(see the “Administering the ANM Mobile Feature” section on page 18-67).
Mobile Device Requirements
Table 19-2 shows the mobiles devices that ANM Mobile version 1.0 supports.
Use following links to download the ANM Mobile app to your smartphone:
• ANM Mobile on iPhone
• ANM Mobile on Android
• ANM Mobile on Cisco Cius
Related Topics
• Information About ANM Mobile, page 19-2
• Guidelines and Restrictions, page 19-5
• Using ANM Mobile, page 19-5
Table 19-2 Supported Devices
OS Platform Tested Version
Native
Application Mobile Browser Tested Device Types
Apple iOS 4.2 and 4.3 Yes Safari iPhone, iPod, iPad
Android 2.2, 2.3.3, 2.3.6 Yes Default Android
Browser
Tested on the following
Android handsets: HTC
Inspire 4G, HTC Desire,
Google Nexus One, Cisco
Cius
Note ANM Mobile may
also work on other
Android devices,
but testing was
performed on the
above-mentioned
set of Android
handsets.
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Guidelines and Restrictions
Guidelines and Restrictions
ANM Mobile includes the following guidelines and restrictions:
• Communication guidelines are as follows:
– Communication between ANM Mobile and ANM is secure over HTTPS.
Note Ensure that your mobile device network setting permits access to ANM.
– User authentication is required to access the web services.
– The existing ANM user account is used to log in to ANM from the mobile device.
– All the existing RBAC (role-based access control) for the login user are enforced.
• The alarm notification feature requires access to the Internet. Depending on your network
requirements, ANM can communicate directly with the Cisco proxy service or you can configure
ANM to use your proxy server when issuing alarm notifications to the proxy service. For more
information, see the “Configuring ANM with a Proxy Server for ANM Mobile Push Notifications”
section on page 18-67.
• The number of ANM Mobile users that can simultaneously connect to a single ANM server or ANM
Virtual Appliance is limited to 35.
• (Android devices only) When navigating within the ANM Mobile native app, you must use the
navigation tools provided by the native app because the native Android navigation tools are not
supported.
Related Topics
• Information About ANM Mobile, page 19-2
• ANM Mobile Prerequisites and Supported Devices, page 19-4
• Using ANM Mobile, page 19-5
Using ANM Mobile
This section shows how to log in to ANM Mobile from your mobile device and then use its features to
manage your network. If you are using the ANM Mobile app and want to use the alarm notification
feature, this section also describes how to configure ANM and the ANM Mobile to enable this feature.
This section includes the following topics:
• Logging In and Out of ANM Mobile, page 19-6
• Using the Favorites Feature, page 19-6
• Monitoring Managed Object Status, page 19-7
• Modifying an Object’s Operating State or Weight, page 19-10
• Displaying Real Time Charts, page 19-12
• Using the ANM Mobile Setting Feature, page 19-12
• Setting Up and Viewing Mobile Device Alarm Notifications, page 19-13
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Using ANM Mobile
Logging In and Out of ANM Mobile
This section shows how to log in to and out of ANM Mobile from your mobile device.
Prerequisite
If you want to log in and use the native app version of ANM Mobile, you must have the Cisco ANM
Mobile app loaded on your mobile device. This no-charge app is available at the application store or
market associated with any supported mobile device type.
Procedure
Step 1 From your mobile device, do one of the following depending on whether you are using a browser to
access ANM Mobile or using the ANM Mobile native app:
• Browser—Open the browser and in the address box, enter the IP address of the ANM server or
ANM VA using the following format:
https://ANM_IPaddress
The Login window appears. Enter your username and password.
• ANM Mobile app—Do the following:
a. Click the ANM Mobile app icon to launch the application. The Login window appears.
b. From the login window, enter the IP address and port number of the ANM server or ANM Virtual
Appliance and your username and password.
c. (Optional) Change the Save Credentials setting by doing the following:
- Click ON to save your user credentials. This is the default. When set to ON, you just have to click
Log In to log back in to ANM Mobile.
- Click OFF to not save your user credentials.
Step 2 Click Log In.
The monitor page appears unless you have at least one favorite object specified, in which case the
Favorites windows appears (see the “Using the Favorites Feature” section on page 19-6).
Step 3 To log out of ANM Mobile, click Settings and click Log Out.
Using the Favorites Feature
The favorites feature allows you to create short cuts to ANM objects that you frequently access. When
you specify at least one favorite object, the Favorites window becomes the home page that appears when
you log in to ANM Mobile.
Guidelines and Restrictions
• Favorite objects that are no longer available are grayed out. Object may no longer be available for
the following reasons:
– The object no longer exists in the ANM server because the object or the object’s host Virtual
Context was deleted.
– An RBAC change was made that prevents access by the user.
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Using ANM Mobile
To remove a grayed out object from the favorites list, you must delete it.
• If you are using the ANM Mobile native app and want to receive alarm notifications from ANM, you
must specify favorites on ANM Mobile that match the objects that you select for alarm notifications
when configuring an alarm threshold group on ANM. For more information, see the “Setting Up and
Viewing Mobile Device Alarm Notifications” section on page 19-13.
Procedure
Step 1 Display the Favorites window by clicking the Favorites button located at the bottom of the window.
The Favorites window appears.
Step 2 To view a favorite object, click the object from the Favorites list.
Step 3 To add an object to the Favorites window, do one of the following:
• From the Favorites window, click the Add icon (+) to open the search GUI, from which you can
locate and choose the object. To add multiple objects, repeat this step for each object.
• From the detailed managed object window, click the Add icon (+). For more information, see the
“Monitoring Managed Object Status” section on page 19-7.
Step 4 To delete a favorite from the list, do the following:
a. Click the favorite to delete and click Edit. The Edit view appears.
b. From the Edit view, click the red Delete icon (–) located next to the favorite listing to delete. ANM
Mobile removes the favorite from the list.
Monitoring Managed Object Status
You can monitor the operating status of the managed objects and drill down for details. Figure 19-2
shows a sample of the Device Monitor windows, which can display objects sorted as follows:
• Service—Displays objects sorted by the following service types: Real Server, Virtual Servers, VIP
Answers, and DNS Rules.
• Device—Displays objects sorted by the following device types: ACE Modules, ACE Appliance,
CSS, CSM, and GSS.
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Figure 19-2 ANM Mobile Monitor Windows: Service Type and Device Type
Each object type includes three color-coded status function buttons that list the number of object types
in each of the following operational states:
• Up (green)—Objects in service.
• Down (red)—Objects out of service.
• Unknown (yellow)—Object operating state cannot be determined by ANM.
The status function buttons allow you to display only the objects of the specified object type and
operating state.
Table 19-3 lists the details that you can view for each object type when you set the monitor display to
Service.
Table 19-3 Managed Object Details
Object Type Attribute
Virtual Server Name
Policy Map
IP address, protocol, and port number
Device
Admin status
Operating status
Server Farm
Current Connections
Connections per second
Dropped Connections per second
Dynamic Workload Scaling (DWS)
Stat Age
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Guidelines and Restrictions
ANM Mobile is limited to approximately 7 KB of memory for the monitored objects list. If you have
more than 100 monitored objects, ANM Mobile may exhibit performance issues. To avoid performance
issues associated with a large number of monitored objects, do the following:
• Do not drill down to the detail list screen from the Monitor home page (see Figure 19-2). To display
the detail information or the health status of a monitored object, use the search function from the
Monitor home page by clicking the search icon (magnifying glass) and entering the object identifier.
Real Server Name
IP address
Port
Server Farm
Device
Admin status
Operating status
Weight
Current connections
Connections per second
Dropped connections per second
Virtual Machine (indicates if the real server is a virtual machine)
Locality (OTV)
Statistics Age
VIP Answer SLB name
VIP answer name
IP address
Config state
PGSSM operation status
Answer group
Location
PGSSM time
DNS Rule Device name
DNS Rule name
Source name
Domains
Config state
Answer group
Owner
PGSSM time
Table 19-3 Managed Object Details (continued)
Object Type Attribute
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If needed, refine your search criteria until the number of objects displayed is reduced to less than
100.
When in the search window, limit your use of the drill down (>) option, which can also create
performance issues.
• For monitored objects that you track frequently, add them to your list of Favorites and access their
information from there (see the “Using the Favorites Feature” section on page 19-6).
Procedure
Step 1 Click Monitor.
The View All window appears.
Step 2 Click one of the color-coded function buttons associated with an object type to drill down and display a
list of objects associated with an object type and operating state (up, down, or unknown).
The specified object type details windows appears, displaying a list of the objects in the chosen operating
state (up, down, or unknown).
Step 3 Do any of the following:
• Click a specific object from the list to display details about the object. The information that displays
varies depending on the object type (see Table 19-3).
From the object details window, you can do the following:
– Activate, suspend, or change the weight of an object (see the “Modifying an Object’s Operating
State or Weight” section on page 19-10).
– Display a real time chart of monitored statistics (see the “Displaying Real Time Charts” section
on page 19-12).
• Click the Search icon to open the search text box and search for a specific object. Begin entering
the search criteria. Object matches display and become more specific as you narrow the search by
entering additional search criteria.
• Click the Refresh icon to refresh the display.
• Click Back to return to the object details window.
Related Topics
• Modifying an Object’s Operating State or Weight, page 19-10
• Displaying Real Time Charts, page 19-12
Modifying an Object’s Operating State or Weight
You can use ANM Mobile to activate or suspend a real server, virtual server, VIP answer or DNS rule.
For real servers only, you can change the weight assigned to the server.
Procedure
Step 1 Use one of the following methods to display the details window of a specific object:
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• Choose Monitor > Service, choose a specific device type, and drill down (>) to the object details
window.
• Click Favorites, choose a specific favorite and drill down (>) to the object details window.
• Click the Search icon (magnifying glass), enter the device search criteria, choose the device, and
drill down (>) to the object details window.
• Click Alarm, choose a specific device type and drill down (>) to the object details window.
Step 2 From the object details window, do one of the following:
• Click Activate to activate an object that s currently suspended. The Activate dialog box appears. In
the dialog box, do the following:
a. Enter a reason for the change.
b. Click Deploy to execute the change or Cancel to ignore the change.
• Click Suspend to suspend an object currently activated. The Suspend dialog box appears. In the
dialog box, do the following:
a. Enter a reason for the change.
b. Choose one of the following types of suspend operations from the drop-down list:
- Suspend—Takes the object out of service.
For a real server, the ACE resets all non-TCP connections to the server. For TCP connections,
existing flows are allowed to complete before the ACE takes the real server out of service. No
new connections are allowed. The ACE resets all Secure Sockets Layer (SSL) connections to
the real server.
- Graceful—When executed on a primary server, the ACE gracefully shuts down the server with
sticky connections as follows:
– Tears down existing non-TCP connections to the server.
– Allows current TCP connections to complete.
– Allows new sticky connections for existing server connections that match entries in the sticky
database.
– Load balances all new connections (other than the matching sticky connections mentioned
above) to the other servers in the server farm.
– When executed on a backup real server, the ACE places the backup server in service standby
mode.
- Suspend and Clear Connections—The ACE performs the tasks described for Suspend and
clears the existing connections to this server.
c. Click Deploy to execute the change or Cancel to ignore the change.
• (Real server only) Click Change Weight to change weight assigned to a real server. The Change
Weight dialog box appears. In the dialog box, do the following:
a. Enter a reason for the change.
b. Enter the new weight value. The valid range is 1 to 100.
c. Click Deploy to execute the change or Cancel to ignore the change.
The activity indicator appears for 30 seconds until it is determined that the operation succeeded, failed,
or timed out. If the operation is successful, the object detail window is reloaded with the latest data and
updated timestamp.
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Displaying Real Time Charts
You can display real time statistical information about the connections of a real server or a virtual server.
Information that you can display in chart form are current connections, connections per second, or
dropped connections per second.
Guidelines and Restrictions
The chart never displays more than 5 minutes worth of statistical information.
Procedure
Step 1 Use one of the following methods to display the details window of a specific real server or a virtual
server:
• Choose Monitor > Service, choose a specific device type, and drill down (>) to the object details
window.
• Click Favorites, choose a specific favorite and drill down (>) to the object details window.
• Click the Search icon (magnifying glass), enter the device search criteria, choose the device, and
drill down (>) to the object details window.
• Click Alarm, choose a specific device type and drill down (>) to the object details window.
Step 2 From the details window, click the Chart icon located next to the statistic to chart.
The chart window appears.
Step 3 Do the following:
• Click the Refresh icon to refresh the display.
• To adjust the polling time, click Settings (see the“Using the ANM Mobile Setting Feature” section
on page 19-12). The default polling time is 10 seconds.
• Click Back to return to the object details window.
Using the ANM Mobile Setting Feature
The ANM Mobile Setting feature allows you to do the following:
• Display the ANM IP address.
• Display ANM Mobile software information.
• Adjust the connection timeout value and polling interval.
• Enable or disable push notifications, sound, and alerts.
• Submit an ANM user feedback form to Cisco.
Procedure
Step 1 From the All Devices or Favorites window, click Settings.
The Settings window appears.
Step 2 From the Settings window, do the following:
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• Click About to do the following:
– Display details about the version of ANM Mobile that you are using and the version of ANM
software being used by the ANM server or ANM Virtual Appliance that you are accessing.
– Click UDID to display the unique device ID (UDID).
• Click Advanced to access the Advanced Details window and modify the following settings:
– Connection Timeout—Sets the amount of idle time (in seconds) at which the connection closes.
Choose 10, 30 (default), or 60.
– Polling Interval—Sets the frequency (in seconds) at which real time information, such as graph
information, is updated. Choose 5, 10 (default), or 30.
• Click the ON/OFF toggle buttons to enable or disable the following features:
– Push Notifications—When enabled (ON), allows your mobile device to receive alarm
notifications that ANM issues to a push notification service. For more information, see the
“Setting Up and Viewing Mobile Device Alarm Notifications” section on page 19-13.
– Sound—(Android only) When enabled (ON), your mobile device sounds an alert to let you
know that it received an alarm notification from ANM.
Note To modify this setting on an iPod, see the “Managing iPod Alarm Notification Sound
and Alerts” section on page 19-16.
– Alert—(Android only) When enabled (ON), your mobile device displays an alert message to let
you know that it received an alarm notification from ANM.
Note To modify this setting on an iPod, see the “Managing iPod Alarm Notification Sound
and Alerts” section on page 19-16.
• Click the Form pen icon ( ) to fill out and submit the ANM user feedback form hosted on
www.ciscofeedback.vovici.com.
Setting Up and Viewing Mobile Device Alarm Notifications
Note The alarm notifications feature requires the ANM Mobile app on your mobile device.
You can receive alarm notifications that ANM sends to your mobile device (see Figure 19-1) when
specific virtual context alarm thresholds are exceeded. ANM Mobile app users can enable or disable the
alarm notification feature, which allows them to choose when to receive alarm notifications from ANM.
ANM administrators can enable or disable the alarm notification feature, which allows them to choose
when to transmit alarm notifications to the ANM Mobile app.
Supported real and virtual server alarm conditions are as follows:
• Current connections—ANM can send an alarm notification when the number of active connections
to a server exceeds a specific amount.
• Operational state—ANM can send an alarm when a server’s operational state changes.
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Guidelines and Restrictions
This topics includes the following guidelines and restrictions:
• The ANM objects that you select for alarm notifications when configuring an alarm threshold group
must match objects that you select as favorites on ANM Mobile. Alarm threshold groups are
configured at the virtual context level; therefore, to receive alarm notifications for an object that you
specify as a favorite, the object favorite must be part of the virtual context in the threshold group.
• The alarms that ANM Mobile displays depends on how the user is authorized as follows:
– Locally authorized users—ANM displays only alarms that are permitted based on the domains
and roles assigned to the user account (see the Prerequisites for this topic).
– Remotely authorized users—By default, ANM does not send alarm notifications to remotely
authorized user accounts; however, you can modify the ANM configuration so that ANM sends
all alarm notifications to this user type regardless of the domains and roles assigned to them (see
the Prerequisites for this topic).
• From ANM, you can do the following:
– Enable or disable the alarm notification feature, which allows you to choose when to transmit
alarm notifications to the ANM Mobile app (see the “Enabling Alarm Notifications on ANM
Mobile” section on page 19-15).
– Send a test alarm notification to a mobile device to test the notification channel (see the
“Displaying Mobile Device Notifications and Testing the Notification Channel” section on
page 18-70). You can send a test message to a mobile device even when you have globally
disabled mobile alarm notifications in ANM.
Prerequisites
The prerequisites for this topic are as follows:
• ANM prerequisites:
– ANM software Version 5.1 or later.
– Alarm threshold groups are configured on ANM for mobile device alarm notifications. For
details about creating an alarm threshold group, see the “Configuring Alarm Notifications on
ANM” section on page 17-57.
– Alarm notifications are enabled globally in ANM. For details, see the “Enable Mobile
Notifications from ANM” section on page 18-66.
– For locally authorized users, their user account has the required role and domains associated
with it.
Note The user role must have the anm_threshold attribute set at least to View.
For more information, see the “Managing User Accounts” section on page 18-17.
– For remotely authorized users, the ANM configuration is modified to enable ANM to send these
users alarm notifications. For more information, see the “Enabling Mobile Device Notifications
for Remotely Authorized Users” section on page 18-69.
• Mobile device prerequisites:
– The ANM Mobile app is loaded on your supported mobile device.
– ANM objects specified as favorites on your mobile device match the objects in an ANM alarm
threshold group. For example, specific real or virtual servers that are favorites on your mobile
device are also specified as objects in an ANM alarm threshold group.
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For information about specifying favorites on your mobile device, see the “Using the Favorites
Feature” section on page 19-6.
This section includes the following topics:
• Enabling Alarm Notifications on ANM Mobile, page 19-15
• Viewing Alarm Notifications from ANM Mobile, page 19-15
Enabling Alarm Notifications on ANM Mobile
From your mobile device, you can specify whether to receive or not receive alarm notifications from
ANM by using the Setting button to modify the ANM Mobile operational settings. For details about
using this button, see the “Using the ANM Mobile Setting Feature” section on page 19-12.
Related Topics
• Using the ANM Mobile Setting Feature, page 19-12
• Setting Up and Viewing Mobile Device Alarm Notifications, page 19-13
• Viewing Alarm Notifications from ANM Mobile, page 19-15
• Managing iPod Alarm Notification Sound and Alerts, page 19-16
Viewing Alarm Notifications from ANM Mobile
From your mobile device, you can view alarm notifications that ANM sends to the device. For each
notification, you can drill down to view the device details.
Procedure
Step 1 Click Alarms.
The Alarm Summary window appears, displaying the list of received alarms that you are permitted to
view (see the Prerequisites for this topic).
Step 2 (Optional) Click the drill-down icon (>) associated with a specific alarm to display details about the
alarm.
The Alarm Detail window appears, displaying the following information:
• Timestamp
• Severity
• Device
• Service
• Threshold Group
• Category
• Stat/Value
Step 3 (Optional) From the Service category, click the drill-down (>) icon to display the object Details window
related to the real or virtual server associated with the alarm notification.
Step 4 (Optional) From the object Details window, do any of the following:
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• Click View Graph to display the graphs associated the following real server and virtual server
items: Current Connections, Connections/Sec, or Dropped Connection/Sec. For more information,
see the “Displaying Real Time Charts” section on page 19-12.
• Click Activate, Suspend, or Change Weight to change the object’s operating state or weight. For
more information, see the “Modifying an Object’s Operating State or Weight” section on
page 19-10.
Related Topics
• Setting Up and Viewing Mobile Device Alarm Notifications, page 19-13
• Enabling Alarm Notifications on ANM Mobile, page 19-15
• Managing iPod Alarm Notification Sound and Alerts, page 19-16
• Using the ANM Mobile Setting Feature, page 19-12
Managing iPod Alarm Notification Sound and Alerts
You can manage the alarm notification sound and alert features on your iPod that let you know when an
alarm notification is received from ANM.
Note To manage the alarm notification sound and alert features on your Android device, see the “Using the
ANM Mobile Setting Feature” section on page 19-12.
Procedure
Step 1 From your IPod Setting window, choose Notifications > ANM Mobile to drill down to the ANM Mobile
settings.
The Notifications, ANM Mobile window appears.
Step 2 From the Notifications, ANM Mobile window, click the ON/OFF toggle buttons to enable or disable the
following features:
– Sound—When enabled (ON), your iPod sounds an alert to let you know that it received an alarm
notification from ANM.
– Alert—When enabled (ON), your iPod displays an alert message to let you know that it received
an alarm notification from ANM.
Related Topics
• Enabling Alarm Notifications on ANM Mobile, page 19-15
• Viewing Alarm Notifications from ANM Mobile, page 19-15
CHAPTER
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Troubleshooting Cisco Application Networking
Manager Problems
Date: 3/28/12
This chapter describes how to troubleshoot ANM issues.
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This chapter includes the following sections:
• Changing ANM Software Configuration Attributes, page 20-1
• Discovering and Adding a Device Does Not Work, page 20-7
• Cisco License Manager Server Not Receiving Syslog Messages, page 20-7
• Using Lifeline, page 20-7
• Backing Up and Restoring Your ANM Configuration, page 20-11
For additional troubleshooting information, see the Installation Guide forCisco Application Networking
Manager 5.2 or the Installation Guide forCisco Application Networking Manager 5.2 Virtual Appliance
Changing ANM Software Configuration Attributes
After you have installed the ANM, you can reconfigure ANM software configuration attributes, such as
enabling HTTP(S) for Web Services, or the ports that ANM uses for communication with the network
devices. For information about the ports that ANM uses, see Appendix A, “ANM Ports Reference.”
This section includes the following topics:
• Changing ANM Configuration Properties, page 20-2
• Example ANM Standalone Configuration, page 20-4
• Example ANM HA Configuration, page 20-5
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• Example ANM Advanced Options Configuration Session, page 20-6
Changing ANM Configuration Properties
This section shows how to change the ANM configuration properties. The procedure varies slightly
depending on the ANM application type; ANM server or ANM Virtual Appliance.
Procedure
Step 1 Do one of the following depending on the ANM application type:
• ANM server: From the Linux command line, log in as the root user.
• ANM Virtual Appliance: Log in as administrator using SSH or console.
Step 2 Do one of the following:
• For a standard configuration change, enter the following depending on the ANM application type:
– ANM server: /opt/CSCOanm/bin/anm-tool configure
– ANM Virtual Appliance: anm-tool configure
• To reconfigure with the advanced-options, enter the following depending on the ANM application
type:
– ANM server: /opt/CSCOanm/bin/anm-tool --advanced-options=1 configure
– ANM Virtual Appliance: anm-tool configure advanced-options
• (ANM server only) To switch between an HA and a non-HA system configuration, do one of the
following:
– To switch from a HA to a non-HA system configuration, enter the following:
/opt/CSCOanm/bin/anm-tool --ha=0 configure
– To switch from a non-HA to a HA system configuration, enter the following:
/opt/CSCOanm/bin/anm-tool --ha=1 configure
The Keep existing ANM configuration? [y/n]: prompt appears.
Step 3 At the prompt, enter n (no).
The current configuration information appears. For each configuration property, the current value is
displayed in square brackets.
Step 4 Do one of the following:
• To accept the current value for a configuration property, press Enter.
• To change a configuration property, enter the appropriate information.
When reconfiguring ANM using the advanced-options command, the configuration sequence includes
prompts applicable to the web server that serves requests for the ANM Web Service API. The Web
Service API provides SOAP-based programmatic access to the functionality of ANM. By default, it is
disabled. You can enable it using this option.
The advanced options attributes and their default setting are as follows:
• Enable HTTP for Web Server: false
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Caution Remember that enabling HTTP makes the connection to ANM less secure.
• Inbound Port for HTTP traffic to ANM Default: 80
• Enable HTTPS for Web Server: true
• Inbound Port for HTTPS traffic to ANM Default: 443
• HTTP Port of Web Services: 8080
• Enable HTTP for Web Services: false
• HTTPS Port of Web Services: 8443
• Enable HTTPS for Web Services: false
• Idle session timeout in msec: 1800000
The idle session timeout applies to user sessions for the ANM GUI. Users who are idle for an amount
of time greater than this value are automatically logged off the application. By default, this setting
is 1800000 milliseconds, or 30 minutes.
• Change the memory available to ANM process: low
Check the available physical memory; if it is less than 3.5 G, then set the memory size to low (1 G),
which is the default. If the available physical memory is greater than 3.5 G, set the memory size to
high (2 G).
Note If you set the memory size to high and ANM determines that there is not enough available
physical memory, it sets the memory size to low.
Note (ANM server only) When modifying the memory size in an ANM HA configuration,
perform the change as follows:
a. Stop both ANM servers (active and standby).
b. Change the memory size on both ANM servers (Steps 1 to 4 above).
c. Restart the ANM server that you want to operate in the active state (Step 5 below).
d. Restart the standby ANM server (Step 5 below).
After you have accepted or changed all of the configuration property values, a list of all the properties
appears and the “Commit these values? [y/n/q]” prompt appears.
Step 5 At the Commit prompt, do one of the following:
• To accept the value and restart the ANM, enter y (yes).
Note If you modified the advanced options, restarting ANM may interfere with active sessions in
the ANM web interface.
Note If you receive errors when attempting to change the HA properties configuration values,
check the node ID to be sure they are not switched.
• To go through the list of configuration properties again, enter n (no).
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• To retain the original property values and exit the configuration session, enter q (quit).
Example ANM Standalone Configuration
This section contains an example of a configuration session for an ANM standalone system.The values
shown in the brackets are the currently configured values.
/opt/CSCOanm/bin/anm-tool configure
Configuring ANM
Checking ANM configuration files
Keep existing ANM configuration? [y/n]: n
Creating config file (/opt/CSCOanm/etc/cs-config.properties)
Enable HTTP for Web Server [true]:
Inbound Port for HTTP traffic to ANM Default [80]:
Enable HTTPS for Web Server [true]:
Inbound Port for HTTPS traffic to ANM Default [443]:
These are the values:
Enable HTTP for Web Server: true
Inbound Port for HTTP traffic to ANM Default: 80
Enable HTTPS for Web Server: true
Inbound Port for HTTPS traffic to ANM Default: 443
Commit these values? [y/n/q]: y
Committing values ... done
Keeping existing configuration: /opt/CSCOanm/lib/java/thirdparty/ctm_config.txt
Stopping services
Stopping monit services (/etc/monit.conf) ... (0)
Stopping monit ... Stopped
Stopping heartbeat ... Stopped
Installing system configuration files
Backing up //opt/CSCOanm/etc/my-local.cnf
Setting service attributes
Enabling mysql for SELinux
setsebool: SELinux is disabled.
Service monit is started by OS at boot time
Starting mysql ... Started
mysql status ... Ready
Configuring mysql
Checking mysql user/password
Setting mysql privileges
Disabling mysql replication
Starting services
Starting monit ...Starting monit daemon with http interface at [*:2812]
Started
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Changing ANM Software Configuration Attributes
Example ANM HA Configuration
Note The information in this section pertains to the ANM server application only.
The following is an example of a configuration session for an ANM HA system. Standalone systems will
not contain any HA properties but will include a limited property value configuration. The values shown
in the brackets are the currently configured values.
/opt/CSCOanm/bin/anm-tool configure
Configuring ANM
Checking ANM configuration files
Keep existing ANM configuration? [y/n]: n
Creating config file (/opt/CSCOanm/etc/cs-config.properties)
Enable HTTP for Web Server [false]: true
Inbound Port for HTTP traffic to ANM Default [80]: 80
Enable HTTPS for Web Server [true]:
Inbound Port for HTTPS traffic to ANM Default [443]:
Database Password [nI4ewPbmV51S]: passme
HA Node 1 UName []: anm49.cisco.com
HA Node 2 UName []: anm50.cisco.com
HA Node 1 Primary IP [0.0.0.0]: 10.77.240.126
HA Node 2 Primary IP [0.0.0.0]: 10.77.240.100
HA Node 1 HeartBeat IP [0.0.0.0]: 10.10.10.1
HA Node 2 HeartBeat IP [0.0.0.0]: 10.10.10.2
HA Virtual IP [0.0.0.0]: 10.77.240.101
HA Node ID [1 or 2] []: 1
These are the values:
Enable HTTP for Web Server: true
Inbound Port for HTTP traffic to ANM Default: 80
Enable HTTPS for Web Server: true
Inbound Port for HTTPS traffic to ANM Default: 443
Database Password: passme
HA Node 1 UName: anm49.cisco.com
HA Node 2 UName: anm50.cisco.com
HA Node 1 Primary IP: 10.77.240.126
HA Node 2 Primary IP: 10.77.240.100
HA Node 1 HeartBeat IP: 10.10.10.1
HA Node 2 HeartBeat IP: 10.10.10.2
HA Virtual IP: 10.77.240.101
HA Node ID [1 or 2]: 1
Commit these values? [y/n/q]: y
Committing values ... done
Keeping existing configuration: /opt/CSCOanm/lib/java/thirdparty/ctm_config.txt
Stopping services
Stopping monit services (/etc/monit.conf) ... (0)
Stopping monit ... Stopped
Stopping heartbeat ... Stopped
Installing system configuration files
Setting service attributes
Enabling mysql for SELinux
Service monit is started by OS at boot time
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Starting mysql ... Started
Configuring mysql
Checking mysql user/password
Setting mysql privileges
Enabling mysql replication
Setting up database
executing /opt/CSCOanm/lib/install/etc/dcmdb.sql ... done
Starting services
Starting monit ... Started
Example ANM Advanced Options Configuration Session
The following is an example of a configuration session for an ANM advanced options.The values shown
in the brackets are the currently configured values.
Note The anm-tool command in the example uses the ANM server version of the command for modifying the
advanced options. The ANM Virtual Appliance version of the command is anm-tool configure
advanced-options. The information that displays after entering the command is the same for both
applications.
/opt/CSCOanm/bin/anm-tool --advanced-options=1 configure
Configuring ANM
Checking ANM configuration files
Keep existing ANM configuration? [y/n]: n
Creating config file (/opt/CSCOanm/etc/cs-config.properties)
Enable HTTP for Web Server [false]:
Inbound Port for HTTP traffic to ANM Default [80]:
Enable HTTPS for Web Server [true]:
Inbound Port for HTTPS traffic to ANM Default [443]:
HTTP Port of Web Services [8080]:
Enable HTTP for Web Services [false]:
HTTPS Port of Web Services [8443]:
Enable HTTPS for Web Services [false]:
Idle session timeout in msec [1800000]:
Change the memory available to ANM process [low|high] [low]:
These are the values:
Enable HTTP for Web Server: false
Inbound Port for HTTP traffic to ANM Default: 80
Enable HTTPS for Web Server: true
Inbound Port for HTTPS traffic to ANM Default: 443
HTTP Port of Web Services: 8080
Enable HTTP for Web Services: false
HTTPS Port of Web Services: 8443
Enable HTTPS for Web Services: false
Idle session timeout in msec: 1800000
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Discovering and Adding a Device Does Not Work
Change the memory available to ANM process [low|high]: low
Commit these values? [y/n/q]: y
Committing values ... done
Keeping existing configuration: /opt/CSCOanm/lib/java/thirdparty/ctm_config.txt
Stopping services
Stopping monit services (/etc/monit.conf) ... (0)
Discovering and Adding a Device Does Not Work
After IP discovery has checked the network and made a list of devices of each type, the device import
may have failed when you tried to import the device. The device import may not have worked because
IP discovery uses Telnet and SNMP to discover potential devices, while ANM requires SSH to import a
device. So it is likely that IP discovery may have found some devices that cannot be imported or may not
have found devices that could be imported.
To update the device so that it can be imported by ANM, see the “Preparing Devices for Import” section
on page 5-4.
To add the device, use the Config > Devices > Add method. For detailed procedures, see the “Importing
Network Devices into ANM” section on page 5-10.
Cisco License Manager Server Not Receiving Syslog Messages
Firewall settings are implemented as IP tables with Red Hat Enterprise Linux 5.2, and might drop syslog
traffic.
If you are not receiving syslog messages even after following the procedure documented in the “Enabling
a Setup Syslog for Autosync for Use With an ACE” section on page 5-27, perform the procedure in this
section.
Procedure
Step 1 Update the rules in your IP tables using the command line.
Step 2 Make sure the default syslog port 514 is open as noted in Appendix A, “ANM Ports Reference.”
Using Lifeline
Diagnosing network or system-related problems that happen in real time can consume a considerable
amount of time and lead to frustration even for a system expert. When a critical problem occurs within
the ANM system or the network components managed by the ANM, you can use the troubleshooting and
diagnostics tools provided by the Lifeline feature to report to the Cisco support line and generate a
diagnostic package. Support engineers and developers can subsequently reconstruct your system and
debug the problem using the comprehensive information captured in the lifeline.
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Using Lifeline
Lifeline takes a snapshot of the running system configuration, status, buffers, logs, thread dumps,
messages, CLI device configuration commands, device show run commands, and so on. It gathers a
period of historical network and system events that have been recorded directly preceding the event. If
required, Lifeline can back up and package the ANM database or a file subdirectory or trace and package
a period of traffic flow packets for a specified virtual context.
The following sections describe how to use the Lifeline feature:
• Guidelines for Using Lifeline, page 20-8
• Creating a Lifeline Package, page 20-8
• Downloading a Lifeline Package, page 20-9
• Adding a Lifeline Package, page 20-10
• Deleting a Lifeline Package, page 20-11
Guidelines for Using Lifeline
Lifelines can be created when unwanted events occur. Under such circumstances, available resources
could be extremely low (CPU and memory could be nearly drained). You should be aware of the
following:
• Create a Lifeline package after you encounter a problem that might require customer support
assistance. The package is meant to be viewed by customer support.
• Lifeline collects debug data from diagnostic generators based on priority – most important to least
important. When the total data size reaches 200 MB, the collector stops collecting, and data from
generators with lower priorities can be lost. For details on content, size, time, state, and any dropped
data, see the Readme file included in each Lifeline package.
• Lifeline collects the last 25 MB of data from the file and truncates the beginning content.
• Lifelines are automatically packaged by the system in zip files. The naming convention for a lifeline
package is “lifeline-yyMMdd-hhmmss.zip”. For example, lifeline-07062-152140.zip is a Lifeline
package created at 3:21:40 PM, June 22, 2007.
• Only one Lifeline package is created at a time. The system will reject a second request made before
the first Lifeline has been packaged.
• Lifeline times out in 60 minutes.
• A maximum of 20 Lifeline packages are stored at a time.
Creating a Lifeline Package
You can create a lifeline package.
Assumptions
This section assumes the following:
• ANM is installed and running.
• You have reviewed the guidelines for managing lifelines (see the “Guidelines for Using Lifeline”
section on page 20-8).
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Using Lifeline
• You have opened a case with Cisco technical support.
Procedure
Note Your user role determines whether you can use this option.
Step 1 Choose Admin > Lifeline Management.
Step 2 Enter a description for the package (required).
The description can include information about why the package is being created, who requested the
package, and so forth.
Step 3 Click Save.
The package is created in the following format: lifeline-yyMMdd-hhmmss.zip, and displays in the
Lifelines pane.The package size, name, and generation date display in the New Lifeline window.
Note Do not perform any module maintenance until the package is created.
Step 4 After the package is created, do one of the following:
• Click Download to save the package to a directory on your computer or to view the package
contents. See the “Downloading a Lifeline Package” section on page 20-9.
• Click Add to add the package to the ANM database. See the “Adding a Lifeline Package” section
on page 20-10.
• Click Delete to delete the package. See the “Deleting a Lifeline Package” section on page 20-11.
Related Topics
• Using Lifeline, page 20-7
• Creating a Lifeline Package, page 20-8
• Adding a Lifeline Package, page 20-10
• Downloading a Lifeline Package, page 20-9
Downloading a Lifeline Package
Note Your user role determines whether you can use this option.
You can download a package for displaying or saving to your local drive.
Assumption
You have created a package (see the “Creating a Lifeline Package” section on page 20-8).
Procedure
Step 1 Choose Admin > Lifeline Management.
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Using Lifeline
Step 2 Choose the package (Lifeline) from the list.
Step 3 Click Download.
The package is sent to your web browser, with which you can save or view the package.
Note Do not perform any module maintenance until the package download to your web browser has
completed.
Related Topics
• Using Lifeline, page 20-7
• Creating a Lifeline Package, page 20-8
• Adding a Lifeline Package, page 20-10
• Deleting a Lifeline Package, page 20-11
Adding a Lifeline Package
Note Your user role determines whether you can use this option.
You can add a package to the ANM database.
Assumption
You have created a package (see the “Creating a Lifeline Package” section on page 20-8).
Procedure
Step 1 Choose Admin > Lifeline Management.
The Lifeline Management window appears.
Step 2 In the Lifeline Management window, enter a description and click Add.
The package is added to the Lifelines list, and the window refreshes.
Note Do not perform any module maintenance until the package is added to the list.
Related Topics
• Using Lifeline, page 20-7
• Creating a Lifeline Package, page 20-8
• Downloading a Lifeline Package, page 20-9
• Deleting a Lifeline Package, page 20-11
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Backing Up and Restoring Your ANM Configuration
Deleting a Lifeline Package
Note Your user role determines whether you can use this option.
You can delete a package.
Procedure
Step 1 Choose Admin > Others > Lifeline Management.
The Lifeline Management window appears.
Step 2 From the list of lifelines in the Lifeline Management window, choose a lifeline to delete.
The details of the lifeline display.
Step 3 Click Delete.
A confirmation popup window displays that requests you confirm the deletion.
Step 4 Click OK to delete the package.
The Lifeline Management window display updates.
Related Topics
• Using Lifeline, page 20-7
• Creating a Lifeline Package, page 20-8
• Adding a Lifeline Package, page 20-10
• Downloading a Lifeline Package, page 20-9
Backing Up and Restoring Your ANM Configuration
You can create a backup of your ANM configuration and restore it if necessary. We recommend that you
periodically create a backup of ANM.
The procedures for creating a backup and restoring your ANM configuration vary depending on which
of the following ANM applications you are using:
• ANM server: See the Installation Guide forCisco Application Networking Manager 5.2 for the
backup and restore procedures.
• ANM Virtual Appliance: See the Installation Guide forCisco Application Networking Manager 5.2
Virtual Appliance for the backup and restore procedures.
Note For details about using the ACE device backup and restore functions in ANM, see the “Performing
Device Backup and Restore Functions” section on page 6-59. The backup and restore functions allow
you to back up or restore the configuration and dependencies of an entire ACE or of a particular virtual
context.
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Backing Up and Restoring Your ANM Configuration
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APPENDIX A
ANM Ports Reference
Date: 3/28/12
ANM uses specific ports for its processes. Figure A-1 illustrates a typical ANM server deployment in a
network. This illustration identifies the protocols and ports used by the different network devices in a
typical deployment.
• Table A-1 lists the ports used for ANM client (browser) or ANM server and ANM high availability
communication.
• Table A-2 lists the ports used for communication between ANM and managed devices.
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Appendix A ANM Ports Reference
Figure A-1 ANM Server Deployment
HTTP (TCP:80) or
HTTPS (TCP:443)
ANM
(HA Primary)
ANM
(HA Secondary)
SSH (TCP:22)
HA (TCP:10444 & TCP: 10445)
GSS Java RMI (TCP:2001 & TCP:3009)
CSS
DB (TCP: 3306)
SSH (TCP:22) or Telnet (TCP:23)
SNMP (UDP:161 & UDP:162)
ACE module SSH (TCP:22) & HTTPS (TCP:443)
SNMP (UDP:161 & UDP:162)
SYSLOG (UDP:514)
Chassis
(C6K switch
or 7600 router)
SSH (TCP:22) or Telnet (TCP:23)
CSM SNMP (UDP:161 & UDP:162)
Note: For CSM, all communication is performed
with the Chassis (Cat6K or 7600).
SMTP (TCP: 25)
User
Email Gateway
External
NMS application
SNMP (UDP: 162)
199929
ACE appliance SSH (TCP:22) & HTTPS (TCP:10443)
SNMP (UDP:161 & UDP:162)
SYSLOG (UDP:514)
VMware Default HTTPS (TCP:443) vCenter
Server
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Appendix A ANM Ports Reference
Table A-1 Ports Used by ANM in a Network Deployment1
1. It is highly recommended that you run ANM on a stand-alone device. However, if you run ANM on a shared
device, please note that ANM locally opens the following ports for internal communication:
TCP Ports: 8980, 10003, 10004, 10023, 10443, 40000, 40001, 40002, 40003
UDP Ports: 6120, 10003
Port Description
TCP (80) Default port if ANM is configured for access using HTTP (using
anm-installer).
TCP (443) Default port if ANM is configured for access using HTTPS (using
default install option).
TCP (3306) MySQL Database system (ANM HA installation opens this port to
communicate with the peer ANM).
TCP (10444) and
TCP (10445)
ANM License Manager (ANM HA installation opens these two
ports to communicate with the peer ANM).
TCP (25) Port used by ANM server to communicate to Email Gateway
through SMTP.
UDP (162) Port used by ANM server to send out trap notification to external
NMS application.
HTTP(8080) and
HTTPS (8443)
Web service ports.
Table A-2 Ports Used by ANM for Communication with Managed Devices
Device Type Port Description
Chassis (Catalyst
6500 switch or
Cisco 7600 router)
SSH (TCP:22) or Telnet
(TCP:23)
Discover chassis configuration.
ACE (appliance or
module)
HTTPS (TCP:443) For ACE module: XML/HTTPS interface on
the device used to discover, configure, and
monitor using specific show CLI commands.
HTTPS (TCP:10443) For ACE appliance: XML/HTTPS interface on
the device used to discover, configure, and
monitor using specific show CLI commands.
SSH (TCP: 22) Discovery and configuration of ACE licenses,
certificates/keys (crypto) licensing, scripts, and
checkpoints.
SNMP (UDP: 161 & UDP:162) Monitor ACE through SNMP requests
(UDP: 161) and receive trap notifications
(UDP: 162).
CSM SNMP (UDP: 161 & UDP:162) Monitor CSM through SNMP requests
(UDP: 161) and receive trap notifications
(UDP: 162).
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Appendix A ANM Ports Reference
CSS SSH (TCP:22) or Telnet
(TCP:23)
Discover chassis configuration.
SNMP (UDP: 161 & UDP:162) Monitor CSS through SNMP requests
(UDP: 161) and receive trap notifications
(UDP: 162)
GSS SSH (TCP:22) Discover chassis configuration and monitoring
operational status of DNS rules and VIP
answers.
RMI (TCP:2001 & TCP:3009) Activate/suspend DNS rules and VIP answers.
vCenter Server Default HTTPS (TCP:443) Communicate with the vCenter Server and
vSphere Client in a VMware virtual data center
environment.
For more information about using the plug-in
that is available with ANM to integrate ANM
with a VMware virtual data center environment,
see Appendix B, “Using the ANM Plug-In With
Virtual Data Centers.”
Table A-2 Ports Used by ANM for Communication with Managed Devices (continued)
Device Type Port Description
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APPENDIX B
Using the ANM Plug-In With Virtual Data Centers
Date: 3/28/12
This appendix describes how to integrate ANM sever with VMware vCenter Server, which is a
third-party product for creating and managing virtual data centers. Using VMware vSphere Client, you
can access ANM functionality and manage the ACE real servers that provide load-balancing services for
the virtual machines in your virtual data center.
Note When naming ACE objects (such as a real server, virtual server, parameter map, class map, health probe,
and so on), enter an alphanumeric string of 1 to 64 characters, which can include the following special
characters: underscore (_), hyphen (-), dot (.), and asterisk (*). Spaces are not allowed.
If you are using ANM with an ACE module or ACE appliance and you configure a named object at the
ACE CLI, keep in mind that ANM does not support all of the special characters that the ACE CLI allows
you to use when configuring a named object. If you use special characters that ANM does not support,
you may not be able to import or manage the ACE using ANM.
This appendix includes the following sections:
• Information About Using ANM With VMware vCenter Server, page B-2
• Information About the Cisco ACE SLB Tab in vSphere Client, page B-3
• Prerequisites for Using ANM With VMware vSphere Client, page B-4
• Guidelines and Restrictions, page B-5
• Registering or Unregistering the ANM Plug-in, page B-5
• Logging In To ANM from VMware vSphere Client, page B-7
• Using the Cisco ACE SLB Tab, page B-8
• Managing ACE Real Servers From vSphere Client, page B-12
• Using the VMware vSphere Plug-in Manager, page B-22
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Appendix B Using the ANM Plug-In With Virtual Data Centers
Information About Using ANM With VMware vCenter Server
Information About Using ANM With VMware vCenter Server
This section describes how you can integrate ANM server into a VMware virtual data center
environment. This feature enables you to access ANM functionality from within the VMware
environment to provision the application delivery services that the ACE real servers provide.
ANM version 3.1and later includes the ANM plug-in for vCenter Server that enables the integration of
ANM with the VMware environment as shown in Figure B-1.
Figure B-1 ANM Integrated With VMware vCenter Server and vSphere Client
From the ANM GUI, you register the ANM plug-in by specifying a VMware vCenter Server and ANM
server attributes that enables ANM to communicate with VMware vCenter Server and vSphere Client
using HTTPS and default port 443. When the plug-in is registered, the VMware vSphere Client GUI
displays the Cisco ACE SLB tab when you select a virtual machine (VM) from the client GUI.
You click on the Cisco ACE SLB tab to log into ANM from the VMware vSphere Client and perform
the following tasks:
• Define a virtual machine (VM) as a real server on ANM and associate it with an existing ACE virtual
context and server farm.
• Monitor application traffic flow for virtual machines through the ACE.
• Activate and suspend application traffic flows through the ACE for the associated real servers.
• Add or delete real servers from the list of servers associated with a VM.
VM VM VM
199935
VMware
vCenter
VMware
vSphere
Client
Cisco
Application
Control Engine
(ACE)
Client
Client
Client Network
Infrastructure
Cisco
ANM
Dedicated Server
or
Virtual Appliance
VMware
ESX (i) Host
VM VM VM
VMware
ESX (i) Host
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Information About the Cisco ACE SLB Tab in vSphere Client
Note In addition to ACE devices, the Cisco ACE SLB tab also displays services on the Content Services
Switch (CSS) and real servers on the Cisco Content Switching Module (CSM) devices associated with
a virtual machine. For these device types, from the Cisco ACE SLB tab, you can activate or suspend the
services or real servers but you cannot add or delete these items.
For information about how ANM maps real servers to VMware virtual machines, see the “Mapping Real
Servers to VMware Virtual Machines” section on page 5-68.
For more information about the Cisco ACE SLB tab, see the “Information About the Cisco ACE SLB
Tab in vSphere Client” section on page B-3 and “Using the Cisco ACE SLB Tab” section on page B-8.
Information About the Cisco ACE SLB Tab in vSphere Client
This section describes the components of the Cisco ACE SLB tab that display in vSphere Client when
you choose a VM from the VM tree (see Figure B-2).
Figure B-2 Cisco ACE SLB Tab in vSphere Client
Table B-1 describes the callouts in Figure B-2.
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Appendix B Using the ANM Plug-In With Virtual Data Centers
Prerequisites for Using ANM With VMware vSphere Client
Prerequisites for Using ANM With VMware vSphere Client
The prerequisites for integrating ANM with VMware vCenter Server and vSphere Client are as follows:
• You must use ANM version 3.1 or later with VMware vSphere 4 or vSphere 5.
• You must register the ANM plug-in from within ANM to enable communication between the two
applications (see the “Registering or Unregistering the ANM Plug-in” section on page B-5).
• If you are running VMware vSphere Client on a Windows Server 2003 or 2008 operating system,
make sure that the following Internet security options (Internet options > Security setting) are
enabled:
– Allow META REFRESH
– Allow scripting of Internet Explorer web browser control
These options are not enabled by default. If they are disabled, the ANM plug-in will not allow you
to log in to ANM for security reasons or you may encounter refresh problems with the Cisco ACE
SLB tab.
Note We recommend that you have VMware Tools installed on the guest OS of each VM to allow ANM to
match a real server with a VM based on the IP address rather than a server name (see the “Mapping Real
Servers to VMware Virtual Machines” section on page 5-68).
Table B-1 Cisco ACE SLB Tab Components
Item Description
1 Content area that displays the ACE real servers associated with the VM that you select from the VM tree located
on the left (see the “Using the Cisco ACE SLB Tab” section on page B-8).
2 Upper set of function buttons that enable you to add or delete real servers from the content area and manage the
displayed information (see the “Using the Cisco ACE SLB Tab” section on page B-8).
3 Cisco ACE SLB tab that you click to display and manage the ACE real servers for the selected VM.
4 Session information that provides the following information and functions:
• Current user logged into ANM.
• Logout link that you click on to close the session.
• Help link that you click on to open the ANM online help for the Cisco ACE SLB tab.
• ANM server time stamp of when the information displayed in the tab was last updated.
5 Recent Tasks area that displays VMware tasks.
6 Lower set of function buttons that you use to update the information displayed, activate or suspend a real sever,
change the weight assigned to a real server, view real server connection information in graph form, view the
topology map associated with a real server.
For more information about these function buttons, see the following sections:
• “Using the Cisco ACE SLB Tab” section on page B-8
• “Managing ACE Real Servers From vSphere Client” section on page B-12).
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Appendix B Using the ANM Plug-In With Virtual Data Centers
Guidelines and Restrictions
Guidelines and Restrictions
Follow these guidelines and restrictions when integrating ANM with VMware vCenter Server and
vSphere Client:
• There are no shared logins or trust established between ANM and vCenter Server when you open a
session between the two servers.
• You can configure both ANM and vCenter Server to use Active Directory for authentication.
• From ANM, you must register the ANM plug-in before you can see the Cisco ACE SLB tab from
VMware vSphere Client (see the “Registering or Unregistering the ANM Plug-in” section on
page B-5). When you register the plug-in, the VMware vSphere Client display refreshes and
displays the Cisco ACE SLB tab.
• ANM supports one registered ANM plug-in instance only, which means that you can register only
one plug-in at any given time.
For example, if you register the plug-in from ANM Server A and then register the plug-in from ANM
Server B, the following actions occur:
– The ANM Server A plug-in is unregistered.
– Any VMware vSphere Client that was running when the ANM Server B plug-in was registered
will continue to display ANM Server A’s information in the Cisco ACE SLB tab. You must
restart VMware vSphere Client to access and display ANM Server B’s information.
• If you are going to uninstall ANM from the ANM server, make sure that you unregister the ANM
plug-in before you uninstall ANM. If you do not unregister the plug-in before the uninstall, from
VMware vSphere Client, the plug-in will display as registered but will fail to load.
For information about unregistering the ANM plug-in, see the “Registering or Unregistering the
ANM Plug-in” section on page B-5. For information about uninstalling ANM, see one of the
following guides depending on your ANM application:
– Installation Guide for Cisco Application Networking Manager 5.2
– Installation Guide for the Cisco Application Networking Manager 5.2 Virtual Appliance
Registering or Unregistering the ANM Plug-in
Note This feature requires the admin role for ANM.
This section describes how to register the ANM plug-in from ANM, which allows you to access ANM
ACE real server functionality from VMware vSphere Client. Registering the plug-in provides the client
with a URL to access ANM and retrieve the required XML definition file. ANM uses HTTPS for
communication with VMware vCenter Server.
You can also unregister the ANM plug-in from ANM.
Note Unregistering the ANM plug-in does not prevent access to the ANM server or remove the Cisco ACE
SLB tab from any VMware vSphere Client display that was running when you unregistered the plug-in.
You must restart the client to remove the Cisco ACE SLB tab from the display. A VMware vSphere
Client restart is also required when you unregister a ANM plug-in from one ANM server and register
another plug-in from a second ANM server.
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Appendix B Using the ANM Plug-In With Virtual Data Centers
Registering or Unregistering the ANM Plug-in
Guidelines and Restrictions
When registering the ANM plug-in, you specify the VMware vCenter Server and ANM server. If you
specify the servers using server names rather than IP addresses, the names must be in DNS and must be
consistent throughout the network. If the server names reside only in local /etc/host files, then use IP
addresses in place of the server names; otherwise, the ANM server and vCenter Server may not be able
to communicate and errors may occur, including the inability to enable the plug-in or the inability for
real server mapping (empty tables).
Procedure
Step 1 From ANM, choose Admin > ANM Management > Virtual Center Plugin Registration.
The VMware Virtual Center PlugIn Registration window appears.
Step 2 Register or unregister the ANM plug-in using the information in Table B-2.
Table B-2 Virtual Center Plugin Registration
Field Description
Virtual Center Server IP address of the VMware vCenter Server.
Note Do not use a DNS name to specify the vCenter Server.
Port Port number of the VMware vCenter Server.
Virtual Center Server Username VMware vCenter Server username that has the administrator role or an equivalent role that
has privilege on “Extension.”
Virtual Center Server Password Password that corresponds to the VMware vCenter Server username.
ANM Server DNS name or IP address of the ANM server that will be used by VMware vSphere Client.
By default, ANM populates this field with the virtual IP address or hostname or all of the
available IP addresses. If you enter a DNS name, make sure that the name can be resolved
on the VMware vSphere Client side of the network.
Note For ANM servers operating in an HA configuration, choose the shared alias IP
address or VIP address for the HA pair so that the plug-in can still be used after
an HA failover occurs.
Status Current status of the registration or unregistration operation.
Possible status states are as follows:
• Blank (no status displayed)—The registration operation has not been invoked.
• Success in registration—ANM has successfully completed the registration operation.
• Failure—ANM is unable to complete the registration operation and displays an error
message that indicates the problem encountered (see Table B-3).
• Registering—ANM is in the process of registering the ANM plug-in. This state
displays when you click the Registration button a second time before the process is
complete.
• Success in unregistration—ANM has successfully completed the unregistration
operation.
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Logging In To ANM from VMware vSphere Client
Step 3 Do one of the following:
• Click Register to register the ANM plug-in. ANM can now be accessed through VMware vSphere
Client (see the “Logging In To ANM from VMware vSphere Client” section on page B-7).
• Click UnRegister to unregister the ANM plug-in.
Table B-3 describes the error messages that ANM can display when it encounters a problem with
registering the plug-in.
Logging In To ANM from VMware vSphere Client
This section describes how to log into ANM from VMware vSphere Client and establish a session for
accessing ANM functionality. The session remains active unless there is a web timeout, you log out, or
there is an ANM or VMware vCenter Server restart. The default web session inactivity timeout is 30
minutes.
Prerequisites
From ANM, you must have the ANM plug-in registered before you can log into ANM from VMware
vSphere Client (see the “Registering or Unregistering the ANM Plug-in” section on page B-5).
Guidelines and Restrictions
This topic includes the following guidelines and restrictions:
• When registering the ANM plug-in, you specify the VMware vCenter Server and ANM server. If
you specify the servers using server names rather than IP addresses, the names must be in DNS and
must be consistent throughout the network. If the server names reside only in local /etc/host files,
then use IP addresses in place of the server names; otherwise, the ANM server and vCenter Server
may not be able to communicate and errors may occur, including the inability to enable the plug-in
and log in to ANM or the inability for real server mapping (empty tables). For information about
registering the plug-in, see the “Registering or Unregistering the ANM Plug-in” section on
page B-5.
Table B-3 Virtual Center Registration Failure Messages
Error Message Root Cause
Virtual center is not reachable, please correct value
for the virtual center IP address or DNS name.
The ANM server is unable to ping the specified VMware vCenter Server
DNS name or IP address.
Cannot access virtual center web service interface,
please make sure that the value of the virtual center
server is correct or the virtual server is up and
running.
The ANM server is able to ping VMware vCenter Server but it cannot
connect to the webservice API. Most likely, the specified DNS name or
IP address does not have the virtual center server running or the virtual
server is not running.
Invalid username or password for virtual center,
please make sure that the username and password
is correct.
The specified username or password for VMware vCenter Server is not
valid.
User does not have permission to register or
unregister plugin on virtual center server.
The specified username is not the VMware vCenter Server administrator
or does not have privilege on extension (plugin
register/unregister/update).
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Using the Cisco ACE SLB Tab
• When logging into ANM from VMware vSphere Client and you have ANM configured to use remote
authentication, such as RADIUS, TACACS+, or LDAPS/AD, use the credentials assigned to you for
the specific remote authentication method.
Procedure
Step 1 From VMware vSphere Client, do one of the following:
• To access ANM within the VMware vSphere Client window, choose a VM from the VM tree and
click the Cisco ACE SLB tab.
• To access ANM in a new browser window, right-click on a VM in the VM tree to open the submenu
and choose Cisco ACE Activate/Suspend.
The Security Alert popup window appears. This popup appears because ANM uses a Cisco self-signed
certificate.
Step 2 From the Security Alert popup window, click Yes to proceed.
The popup window closes and the ANM login window appears. By default, the name of the user
currently logged into VMware vSphere Client displays in the User Name field.
Step 3 Enter your username (if it is not already displayed) and password.
Step 4 Click Login.
The Cisco Application Networking Manager window appears in the Cisco ACE SLB tab. For information
about what displays in this window, see the “Using the Cisco ACE SLB Tab” section on page B-8. For
information about how to use this window to manage the real servers, see the “Managing ACE Real
Servers From vSphere Client” section on page B-12.
Step 5 (Optional) To log out of ANM, click Logout.
The session closes and the ANM login window appears in the Cisco ACE SLB tab.
Using the Cisco ACE SLB Tab
This section describes the Cisco device information and management functionality that is available when
you click the Cisco ACE SLB tab.
Note The ACE real server information displays only after you log into ANM from VMware vSphere Client
(see the “Logging In To ANM from VMware vSphere Client” section on page B-7).
The Cisco ACE SLB tab contains the ACE Reals (real servers) table. Table B-4 describes the real server
information available in the table.
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Table B-4 ACE Reals Table Fields
Field Description
Name Name of real server on the ACE, CSS, CSM, or CSM-S. Although the Cisco ACE SLB tab is primarily
used to monitor and manage ACE real servers, you can also monitor, activate, and suspend CSS, CSM,
and CSM-S devices from this tab.
The real server name is a link that displays the Real Server Details popup window, which provides
operating information about the server (see the “Monitoring Real Server Details Using vSphere Client”
section on page B-19).
IP Address Real server IP address.
Port Real server port number.
Admin State Administrative state of the real server as follows:
• In Service
• Out Of Service
• In Service Standby.
Note For CSM and CSM-S real servers, ANM infers the admin state based on the operational state
that it receives through SNMP rather than the CLI, which may result in an admin state display
that is not correct. For example, when you change the operational state of a CSM real server
from Out of Service to Inservice, the admin state display should also change to In Service;
however, the admin state display may remain set to Out of Service.
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Oper State Operational state of the real server as follows:
• ARP Failed—Corresponding VLAN interface is not configured for the real server.
• Failed—Server has failed and will not be retried for the amount of time specified by its retry timer.
• Inband probe failed—Server has failed the inband Health Probe agent.
• Inservice—Server is in use as a destination for server load balancing client connections.
• Inservice standby—Server is the backup real server, which remains inactive unless the primary
real server fails.
• Operation wait—Server is ready to become operational but is waiting for the associated redirect
virtual server to be in service.
• Out of service—Server is not in use by a server load balancer as a destination for client
connections.
• Probe failed—Server load-balancing probe to this server has failed. No new connections will be
assigned to this server until a probe to this server succeeds.
• Probe testing—Server has received a test probe from the server load balancer.
• Ready to test—Server has failed and its retry timer has expired; test connections will begin flowing
to it soon.
• Return code failed—Server has been disabled because it returned an HTTP code that matched a
configured value.
• Test wait—Server is ready to be tested. This state is applicable only when the server is used for
HTTP redirect load balancing.
• Testing—Server has failed and has been given another test connection. The success of this
connection is not known.
• Throttle: DFP—DFP has lowered the weight of the server to throttle level; no new connections
will be assigned to the server until DFP raises its weight.
• Throttle: max clients—Server has reached its maximum number of allowed clients.
• Throttle: max connections—Server has reached its maximum number of connections and is no
longer being given connections.
• Unknown—State of the server is not known.
Conns Number of concurrent connections.
Weight Weight assigned to the real server.
Server Farm Server farm that the real server is associated with.
Vserver Name of the Vserver.
Table B-4 ACE Reals Table Fields (continued)
Field Description
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Using the Cisco ACE SLB Tab
In the table, N/A indicates that either the information is not available from the database or that it is not
being collected through SNMP.
The Cisco ACE SLB tab also contains a number of function buttons that enable you to manage the
displayed information and the real servers. Figure B-3 shows the function buttons that are located at the
top of the ACE Reals table.
Figure B-3 Cisco ACE SLB Tab Upper Function Buttons
Table B-5 describes each of the function buttons shown in Figure B-3
Device ACE, CSS, CSM, or CSM-S on which the real server is configured.
HA Indicators that display when the real server is part of a high availability pair. The indicators are as
follows:
• Asterisk (*)—The real server is associated with an HA pair and the HA configuration is complete.
• Red dash (-)—The real server is associated with an HA pair; however, the HA configuration is
incomplete. Typically, the HA pair are not properly configured for HA or only one of the servers
has been imported into ANM. Ensure that both servers are imported into ANM and that they are
configured as described in the “Configuring ACE High Availability” section on page 13-14.
The table displays HA pair real servers together in the same row and they remain together no matter
how you sort the information.
Table B-4 ACE Reals Table Fields (continued)
Field Description
248665
1 2 3 4 5 6
Table B-5 The Cisco ACE SLB Tab Upper Function Button Descriptions
Number Function Description
1 Add Adds a real server to the list of servers that can service the VM (see the “Adding a Real Server”
section on page B-13).
Note This feature is available for ACE devices only.
2 Delete Deletes the selected server from the list of servers that can service the VM (see the “Deleting a Real
Server Using vSphere Client” section on page B-14).
Note This feature is available for ACE devices only.
3 AutoRefresh Enables the auto refresh feature and sets the refresh cycle time. Values are Off, 30 seconds, 1 minute,
2 minutes, or 5 minutes.
4 Filter Enables the column filter and provides access to saved filters.
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Table B-6 describes the function buttons located across the bottom of the Cisco ACE SLB tab.
Related Topics
• Information About Using ANM With VMware vCenter Server, page B-2
• Logging In To ANM from VMware vSphere Client, page B-7
• Managing ACE Real Servers From vSphere Client, page B-12
• Using the VMware vSphere Plug-in Manager, page B-22
Managing ACE Real Servers From vSphere Client
This section describes how to perform real server management tasks from the Cisco ACE SLB tab after
you log into ANM from VMware vSphere Client (see the “Logging In To ANM from VMware vSphere
Client” section on page B-7). These tasks include adding a VM as a real server to an existing server farm
or suspending and activating the operation of a real server associated with a VM.
This section includes the following topics:
• Adding a Real Server, page B-13
• Deleting a Real Server Using vSphere Client, page B-14
• Activating Real Servers Using vSphere Client, page B-15
• Suspending Real Servers Using vSphere Client, page B-16
• Modifying Real Server Weight Value Using vSphere Client, page B-18
• Monitoring Real Server Details Using vSphere Client, page B-19
5 Refresh Refreshes the window.
6 Filter tool Filters over all columns.
Table B-5 The Cisco ACE SLB Tab Upper Function Button Descriptions
Number Function Description
Table B-6 Cisco ACE SLB Tab Lower Function Button Descriptions
Function Description
Poll Now Polls the device to update the displayed information (see the “Refreshing the Displayed Real Server
Information” section on page B-20.
Activate Activates the services of the selected server (see the “Activating Real Servers Using vSphere Client”
section on page B-15).
Suspend Suspends the services of the selected server (see the “Suspending Real Servers Using vSphere Client”
section on page B-16).
Change Weight Changes the weight of the selected server (see the “Modifying Real Server Weight Value Using vSphere
Client” section on page B-18).
Graph Displays connection information for a selected real server in graph form. To exit a graph view and return
to the ACE Real Server table, click Exit Graph.
Topology Displays a network topology map for a selected real server (see “Displaying Network Topology Maps”
section on page 17-68). To exit a topology map and return to the ACE Real Server table, click Exit.
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• Refreshing the Displayed Real Server Information, page B-20
Adding a Real Server
You can add one or more real servers to the list of ACE real servers associated with a VM. The Cisco
ACE SLB tab allows you select a VM and define it as a real server on ANM, associating it with an
existing ACE virtual context and server farm.
Guidelines and Limitations
You can add only one real server at a time. Repeat the procedure in this section for each real server that
you want to add.
Procedure
Step 1 From the VM tree in VMware vSphere Client, do one of the following:
• To display the ACE real server information in the current window, click on a VM and then click the
Cisco ACE SLB tab.
• To display the ACE real server information in a new window, right-click on a VM to open the
submenu and choose Cisco ACE Activate/Suspend.
The Security Alert popup window appears. This popup window appears because ANM uses a Cisco
self-signed certificate.
Step 2 From the Security Alert popup window, click Yes to proceed.
The popup window closes and the Cisco Application Networking Manager window appears, displaying
the ACE Reals table.
Step 3 From the ACE Reals table, click Add.
The Real Server Configurations dialog box appears.
Step 4 From the Real Server Configurations dialog window, configure the real server to add using the
information in Table B-7.
Table B-7 Real Server Attributes
Field Description
Real Server Name Unique name for this server. By default, the name of the selected VM is displayed. Valid
entries are unquoted text strings with no spaces and a maximum of 64 characters.
Real Server IP Address Unique IP address in dotted-decimal format (such as 192.168.11.1). The drop-down list is
populated with the IP address or addresses assigned to the selected VM. If no IP addresses
were found for the VM, you can manually enter an IP address in this field.
Real Server Port Real server port number. Valid entries are from 1 to 65535.
Real Server Weight Weight to assign to this real server in a server farm. Valid entries are 1 to 100. The default is 8.
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Step 5 Do one of the following:
• Click Deploy Now. The Real Server Configurations dialog box closes and ANM adds the real server
to the list of servers that can service the VM depending on how you set the Real Server State
attribute.
• Click Cancel. The Real Server Configurations dialog box closes and no real server is added.
Related Topics
• Logging In To ANM from VMware vSphere Client, page B-7
• Using the Cisco ACE SLB Tab, page B-8
• Deleting a Real Server Using vSphere Client, page B-14
• Activating Real Servers Using vSphere Client, page B-15
• Suspending Real Servers Using vSphere Client, page B-16
• Modifying Real Server Weight Value Using vSphere Client, page B-18
• Monitoring Real Server Details Using vSphere Client, page B-19
• Refreshing the Displayed Real Server Information, page B-20
Deleting a Real Server Using vSphere Client
You can remove a real server from the list of servers that service the VM.
Procedure
Step 1 From the VM tree in VMware vSphere Client, do one of the following:
• To display the ACE real server information in the current window, click on a VM and then click the
Cisco ACE SLB tab.
• To display the ACE real server information in a new window, right-click on a VM to open the
submenu and choose Cisco ACE Activate/Suspend.
Real Server State State of the real server:
• In Service—ANM places the real server in the in service state when it is added. This is
the default setting.
• In Service Standby—ANM places the real server in the service standby state when it is
added.
• Out Of Service—ANM places the real server in the out of service state when it is added.
ACE Virtual Context ACE virtual context that has the server farm that the real server is to be associated with.
Serverfarm Server farms associated with the selected ACE virtual context.
Virtual Servers Virtual server names and VIPs that are associated with the selected server farm.
Table B-7 Real Server Attributes (continued)
Field Description
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The Security Alert popup window appears. This popup window appears because ANM uses a Cisco
self-signed certificate.
Step 2 From the Security Alert popup window, click Yes to proceed.
The popup window closes and the Cisco Application Networking Manager window appears, displaying
the ACE Reals table.
Step 3 From the ACE Reals table, check the checkbox of each server that you want to delete from the table.
Step 4 Click Delete.
The confirmation popup window appears requesting you to verify that you want to delete the server.
Step 5 In the confirmation popup window, click OK.
The popup window closes and ANM removes the selected servers from the list of real servers.
Related Topics
• Logging In To ANM from VMware vSphere Client, page B-7
• Using the Cisco ACE SLB Tab, page B-8
• Adding a Real Server, page B-13
• Activating Real Servers Using vSphere Client, page B-15
• Suspending Real Servers Using vSphere Client, page B-16
• Modifying Real Server Weight Value Using vSphere Client, page B-18
• Monitoring Real Server Details Using vSphere Client, page B-19
• Refreshing the Displayed Real Server Information, page B-20
Activating Real Servers Using vSphere Client
You can activate a real server that services a VM.
Note If you are not using the ANM plug-in for vCenter Server to access ANM, see the “Activating Real
Servers” section on page 8-14.
Procedure
Step 1 From the VM tree in VMware vSphere Client, do one of the following:
• To display the ACE real server information in the current window, click on a VM and then click the
Cisco ACE SLB tab.
• To display the ACE real server information in a new window, right-click on a VM to open the
submenu and choose Cisco ACE Activate/Suspend.
The Security Alert popup window appears. This popup window appears because ANM uses a Cisco
self-signed certificate.
Step 2 From the Security Alert popup window, click Yes to proceed.
The popup window closes and the Cisco Application Networking Manager window appears, displaying
the ACE Reals table.
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Step 3 From the ACE Reals table, check the check box of the servers that you want to activate and click
Activate.
The Activate Server window appears.
Step 4 In the Reason field of the Activate Server window, enter a reason for this action.
You might enter a trouble ticket, an order ticket, or a user message.
Note Do not enter a password in this field.
Step 5 Do one of the following:
• Click OK to activate the server and to return to the ACE Reals table. The server appears in the table
with the status Inservice.
• Click Cancel to exit this procedure without activating the server and to return to the ACE Reals
table.
Related Topics
• Logging In To ANM from VMware vSphere Client, page B-7
• Using the Cisco ACE SLB Tab, page B-8
• Suspending Real Servers Using vSphere Client, page B-16
• Modifying Real Server Weight Value Using vSphere Client, page B-18
• Monitoring Real Server Details Using vSphere Client, page B-19
• Refreshing the Displayed Real Server Information, page B-20
Suspending Real Servers Using vSphere Client
You can suspend a real server that services a VM.
Note If you are not using the ANM plug-in for vCenter Server to access ANM, see the “Suspending Real
Servers” section on page 8-15.
Procedure
Step 1 From the VM tree in VMware vSphere Client, do one of the following:
• To display the ACE real server information in the current window, click on a VM and then click the
Cisco ACE SLB tab.
• To display the ACE real server information in a new window, right-click on a VM to open the
submenu and choose Cisco ACE Activate/Suspend.
The Security Alert popup window appears. This popup window appears because ANM uses a Cisco
self-signed certificate.
Step 2 From the Security Alert popup window, click Yes to proceed.
The popup window closes and the Cisco Application Networking Manager window appears, displaying
the ACE Reals table.
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Step 3 In the ACE Reals table, check the check box of the servers that you want to suspend and click Suspend.
The Suspend Real Servers window appears.
Step 4 In the Reason field of the Suspend Real Servers window, enter the reason for this action.
You might enter a trouble ticket, an order ticket, or a user message.
Note Do not enter a password in this field.
Step 5 From the Suspend Real Servers Type drop-down list, choose one of the following:
• Graceful—When executed on a primary server, the ACE gracefully shuts down the server with
sticky connections as follows:
– Tears down existing non-TCP connections to the server
– Allows current TCP connections to complete
– Allows new sticky connections for existing server connections that match entries in the sticky
database
– Load balances all new connections (other than the matching sticky connections mentioned
above) to the other servers in the server farm
When executed on a backup real server, the ACE places the backup server in service standby mode.
Note For the CSS, when the device is in the In Service admin state and you perform a graceful suspend
operation, ANM saves the last known non-zero service (or real server) weight, and then sets the
weight to zero. ANM references the saved weight when performing an Activate operation. If the
current weight is zero, and a non-zero weight has been saved for that service (or real server), the
Activate operation also sets the weight to the saved value.
To allow ANM to save and reset the weight value when gracefully suspending and then
activating the CSS, you must have the device configured to permit SNMP traffic. For each device
type, see the corresponding configuration guide to configure the device to permit SNMP traffic.
When the CSS is in the In Service Standby admin state and you perform a graceful suspend
operation, ANM does not set the weight to zero.
• Suspend—The ACE resets all non-TCP connections to the server. For TCP connections, existing
flows are allowed to complete before the ACE takes the real server out of service. No new
connections are allowed. The ACE resets all Secure Sockets Layer (SSL) connections to the real
server.
• Suspend and Clear Connections—The ACE performs the tasks described for Suspend and clears
the existing connections to this server.
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Step 6 Do one of the following:
• Click Deploy Now to suspend the server and to return to the ACE Reals table. The server appears
in the table with the status Out Of Service.
• Click Cancel to exit this procedure without suspending the server and to return to the ACE Reals
table.
Related Topics
• Logging In To ANM from VMware vSphere Client, page B-7
• Using the Cisco ACE SLB Tab, page B-8
• Adding a Real Server, page B-13
• Deleting a Real Server Using vSphere Client, page B-14
• Activating Real Servers Using vSphere Client, page B-15
• Modifying Real Server Weight Value Using vSphere Client, page B-18
• Monitoring Real Server Details Using vSphere Client, page B-19
• Refreshing the Displayed Real Server Information, page B-20
Modifying Real Server Weight Value Using vSphere Client
You can modify the weight value assigned to a real server that defines the connection capacity of the
server in relation to the other real servers. The ACE uses the weight value that you specify for a server
in the weighted round-robin and least-connections load-balancing predictors. Servers with a higher
configured weight value have a higher priority with respect to connections than servers with a lower
weight. For example, a server with a weight of 5 would receive five connections for every one connection
for a server with a weight of 1.
Note If you are not using the ANM plug-in for vCenter Server to access ANM, see the “Modifying Real Server
Weight Value” section on page 8-17.
Procedure
Step 1 From the VM tree in VMware vSphere Client, do one of the following:
• To display the ACE real server information in the current window, click on a VM and then click the
Cisco ACE SLB tab.
• To display the ACE real server information in a new window, right-click on a VM tree to open the
submenu and choose Cisco ACE Activate/Suspend.
The Security Alert popup window appears. This popup window appears because ANM uses a Cisco
self-signed certificate.
Step 2 From the Security Alert popup window, click Yes to proceed.
The popup window closes and the Cisco Application Networking Manager window appears, displaying
the ACE Reals table.
Step 3 In the ACE Reals table, check the check box of the server that you want modify and click Change
Weight.
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The Change Weight Real Servers window appears.
Step 4 In the Change Weight Real Servers window, enter the following information for the selected server:
• Reason for change such as trouble ticket, order ticket, or user message.
Note Do not enter a password in this field.
• Weight value (for allowable ranges for each device type, see Table 8-5).
Step 5 Do one of the following:
• Click Deploy Now to accept your entries and to return to the ACE Reals table. The server appears
in the table with the updated information.
• Click Cancel to exit this procedure without saving your entries and to return to the ACE Reals table.
Related Topics
• Logging In To ANM from VMware vSphere Client, page B-7
• Using the Cisco ACE SLB Tab, page B-8
• Adding a Real Server, page B-13
• Deleting a Real Server Using vSphere Client, page B-14
• Activating Real Servers Using vSphere Client, page B-15
• Monitoring Real Server Details Using vSphere Client, page B-19
• Refreshing the Displayed Real Server Information, page B-20
Monitoring Real Server Details Using vSphere Client
You can display detailed operating information about a real server.
Procedure
Step 1 From the VM tree in VMware vSphere Client, do one of the following:
• To display the ACE real server information in the current window, click on a VM and then click the
Cisco ACE SLB tab.
• To display the ACE real server information in a new window, right-click on a VM to open the
submenu and choose Cisco ACE Activate/Suspend.
The Security Alert popup window appears. This popup window appears because ANM uses a Cisco
self-signed certificate.
Step 2 From the Security Alert popup window, click Yes to proceed.
The popup window closes and the Cisco Application Networking Manager window appears, displaying
the ACE Reals table.
Step 3 In the ACE Reals table, click on the name of the real server whose details you want to view.
The Real Server Details popup window appears and displays the following ACE statistical information:
• Total Connections—Total number of load-balanced connections to this real server in the serverfarm.
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• Connections Rate—Connections per second.
• Dropped Connections—Total number of dropped connections because the current connection count
exceeds the maximum number of allowed connections.
• Dropped Connections Rate—Dropped connections per second.
• Minimum Connections—Minimum number of connections that need to be supported by the real
server in the serverfarm.
• Maximum Connections—Maximum number of connections that can be supported by this real server
in the serverfarm.
Note The statistical information that ANM displays for the CSM and CSM-S is different from the ACE
information described above. Also, ANM does not display the Real Server Details popup window for the
CSS.
Note To close the Real Server Details popup window, you may need to expand the display to access
the “X” (close) located in the upper right hand section of the window.
Related Topics
• Logging In To ANM from VMware vSphere Client, page B-7
• Using the Cisco ACE SLB Tab, page B-8
• Adding a Real Server, page B-13
• Deleting a Real Server Using vSphere Client, page B-14
• Activating Real Servers Using vSphere Client, page B-15
• Suspending Real Servers Using vSphere Client, page B-16
• Modifying Real Server Weight Value Using vSphere Client, page B-18
• Refreshing the Displayed Real Server Information, page B-20
Refreshing the Displayed Real Server Information
You can refresh the information that ANM displays for a real server.
Procedure
Step 1 From the VM tree in VMware vSphere Client, do one of the following:
• To display the ACE real server information in the current window, click on a VM and then click the
Cisco ACE SLB tab.
• To display the ACE real server information in a new window, right-click on a VM to open the
submenu and choose Cisco ACE Activate/Suspend.
The Security Alert popup window appears. This popup window appears because ANM uses a Cisco
self-signed certificate.
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Step 2 From the Security Alert popup window, click Yes to proceed.
The popup window closes and the Cisco Application Networking Manager window appears, displaying
the ACE Reals table.
Step 3 In the ACE Reals table, check the checkbox next to the name of the real server whose information you
want to refresh.
Step 4 Click Poll Now.
ANM polls the selected device and updates the displayed information.
Related Topics
• Logging In To ANM from VMware vSphere Client, page B-7
• Using the Cisco ACE SLB Tab, page B-8
• Adding a Real Server, page B-13
• Deleting a Real Server Using vSphere Client, page B-14
• Activating Real Servers Using vSphere Client, page B-15
• Suspending Real Servers Using vSphere Client, page B-16
• Modifying Real Server Weight Value Using vSphere Client, page B-18
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Using the VMware vSphere Plug-in Manager
Using the VMware vSphere Plug-in Manager
You can use the VMware vSphere Client Plug-in Manager to verify that the ANM plug-in (Cisco ACE)
is registered, view error messages, and enable or disable the plug-in.
Procedure
Step 1 From the VMware vSphere Client main menu, choose Plug-ins > Manage Plug-ins.
The Plug-in Manager window appears. Table B-8 describes the Cisco plug-in information that displays
in the Plug-in Manager window.
Step 2 (Optional) To enable or disable the plug-in, from the list of plug-ins, right-click on the Cisco ACE
plug-in and do one of the following:
• Choose Enable. The Cisco ACE SLB tab appears in the VMware vSphere Client content area. This
is the default setting.
• Choose Disable. The Cisco ACE SLB tab is removed from the VMware vSphere Client content area.
Related Topics
Registering or Unregistering the ANM Plug-in, page B-5
Table B-8 VMware vSphere Client Plug-in Manager
Item Description
Plug-in Name Name of the Cisco plug-in, which is Cisco ACE.
Vendor This field is blank. The vendor name, Cisco, is included in the plug-in name.
Version Plug-in version number.
Status Plug-in operating status: Enabled or Disabled.
Description Plug-in description, which is Cisco ACE.
Progress N/A
Errors Errors related to the Cisco ACE plug-in, such as when the VMware vSphere Client cannot find the
ANM server because it cannot resolve the server name.
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GLOSSARY
Date: 3/28/12
A
ACE Cisco Application Control Engine, available as a module that resides in a Cisco Catalyst 6500 series
chassis, Cisco 7600 series router, or as a standalone appliance. The ACE offers high-performance
server load balancing (SLB), routing and bridging configuration, traffic policies, redundancy (high
availability), virtualization for resource management, SSL, security features, and application
acceleration and optimization.
ACL Access Control List. A mechanism in computer security used to enforce privilege separation. An ACL
identifies the privileges and access rights a user or client has to a particular object, such as a server, file
system, or application.
activate Places an entity into the resource pool for load balancing content requests or connections and starts the
keepalive function. See also suspend.
administrative
distance
The first criterion a router uses to determine which routing protocol to use if two protocols provide
route information for the same destination. Administrative distance is a measure of the trustworthiness
of the source of the routing information. Administrative distance has only local significance, and is not
advertised in routing updates.
The smaller the administrative distance value, the more reliable the protocol. The values range from 0
(zero) for a connected interface and 1 for a static route, to 255 for an unknown protocol.
AES Advanced Encryption Standard. One of the possible encryption algorithms available for use in SNMP
communications.
ANM Mobile ANM feature that allows supported mobile devices to access to your ANM server or ANM Virtual
Appliance and manage the network objects in much the same way you do from an ANM client. Using
a mobile device, you can run ANM Mobile as a native application (app) or inside the mobile device
browser.
ANM server Dedicated server with ANM server software and Red Hat Enterprise Linux (RHEL) operating system
installed on it.
ANM Virtual
Appliance
VMware virtual appliance with ANM server software and Cisco Application Delivery Engine
Operating System (ADE OS) installed on it. Cisco distributes ANM Virtual Appliance in Open Virtual
Appliance (.OVA) format.
ARP Address Resolution Protocol. Internet protocol used to map an IP address to a MAC address. Defined
in RFC 826.
Glossary
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B
building block Reusable configuration attributes that can be applied to virtual contexts for consistent, standardized
implementation.
BVI Bridge-Group Virtual Interface. Logical Layer 3-only interface associated with a bridge group when
integrated routing and bridging (IRB) is configured.
C
CCM Cisco CallManager. A Cisco product that provides the software-based, call-processing component of
the Cisco IP Telephony Solutions for the Enterprise, part of Cisco AVVID (Architecture for Voice,
Video, and Integrated Data). CallManager acts as a signaling proxy for call events initiated over other
common protocols such as SIP, ISDN (Integrated Services Digital Network), or MGCP (Media
Gateway Control Protocol).
certificate chain A certificate chain is a hierarchal list of certificates used in SSL that includes the subject’s certificate,
the root CA certificate, and any intermediate CA certificates.
certificate signing
request
See CSR.
checkpoint A snapshot in time of a known stable ACE running configuration before you begin to modify it. If you
encounter a problem with the modifications to the running configuration, you can roll back the
configuration to the previous stable configuration checkpoint.
Cisco.com Replaces the Cisco Connection Online website. Use this site to access customer service and support.
class map A mechanism for classifying types of network traffic. The ANM uses class maps to classify the network
traffic that is received and transmitted by the ACE. Types of traffic include Layer 3/Layer 4 traffic that
can pass through the ACE, network management traffic that can be received by the ACE, and Layer 7
HTTP load-balancing traffic.
CSR Certificate Signing Request. A message sent to a certificate authority, such as VeriSign and Thawte to
a apply for a digital identity certificate for use with SSL. The request includes information that
identifies the SSL site, such as location and serial number, and a public key that you choose. The
request may also provide any additional proof of identity required by the certificate authority.
Cisco IOS Software The Cisco system software that allows centralized, integrated, and automated installation and
management of internetworks, while ensuring support for a wide variety of protocols, media, services,
and platforms.
context See virtual context.
D
DES Data Encryption Standard. One of the possible encryption algorithms available for use in SNMP
communications.
Glossary
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DFP Dynamic Feedback Protocol. A protocol that allows load-balanced servers (both local and remote) to
dynamically report changes in their status and their ability to provide services.
distinguished name Used for SSL, a set of attributes that provides the certificate authority with the information it needs to
authenticate your site.
Dynamic Workload
Scaling (DWS)
ACE feature that permits on-demand access to remote resources, such as VMs, that you own or lease
from an Internet service provider or cloud service provider.
E
event A message from the ANM that informs you of activities on parts of the system, including each virtual
context, the management system, and hardware components.
event type Alarm, Log, Audit, Attack Log
exception A group of related faults.
F
fault An abnormal condition that occurs when a system component exceeds a performance threshold or is
not functioning properly.
File Transfer
Protocol
See FTP.
FTP File Transfer Protocol. Application protocol, part of the TCP/IP protocol stack, used for transferring
files between network nodes. FTP is defined in RFC 959.
H
H.323 An umbrella recommendation from the ITU Telecommunication Standardization Sector (ITU-T) that
defines the protocols that provide audio-visual communication sessions on any packet network. It is a
part of the H.32x series of protocols which also address communications over Integrated Services
Digital Network (ISDN), Public switched telephone network (PSTN) or Signaling System 7 (SS7).
H.323 is commonly used in Voice over IP (VoIP, Internet Telephony, or IP Telephony) and Internet
Protocol (IP)-based videoconferencing.H.323 defines a common set of CODECs, call setup and
negotiating procedures, and basic data transport methods.
HSRP Hot Standby Router Protocol. A networking protocol that provides network redundancy for IP
networks, ensuring that user traffic immediately and transparently recovers from first hop failures in
network edge devices or access circuits.
Glossary
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I
ICMP Internet Control Message Protocol. Network layer Internet protocol that reports errors and provides
other information relevant to IP packet processing. Documented in RFC 792.
Internet Control
Message Protocol
See ICMP.
interface 1. A network connection.
2. A connection between two systems or devices.
3. In telephony, a shared boundary defined by common physical interconnection characteristics, signal
characteristics, and meanings of interchanged signals.
L
load balancing An action that spreads network requests among available servers within a cluster of servers, based on
a variety of algorithms.
M
MD5 Message Digest 5 or Message-Digest Algorithm. One of the possible encryption algorithms available
for use in SNMP communications.
MIB Database of network management information that is used and maintained by a network management
protocol, such as SNMP or CMIP. The value of a MIB object can be changed or retrieved using SNMP
or CMIP commands, usually through a GUI network management system. MIB objects are organized
in a tree structure that includes public (standard) and private (proprietary) branches.
N
NAT Name Address Translation. A method of connecting multiple computers to the Internet (or any other IP
network) using one IP address.
O
object group A logical grouping of similar objects, such as servers, clients, services, or networks. Creating an object
group allows you to apply common attributes to a number of objects without specifying each object
individually.
organizations An organization allows you to configure AAA server lookup for your users or set up users who work
for a service provider customer. Organizations in the Cisco ANM system are defined by the system
administrator.
Glossary
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P
PAT Port Address Translation. A mechanism that allows many devices on a LAN to share one IP address by
allocating a unique port address at Layer 4.
ping A common method for troubleshooting the accessibility of devices.
A ping tests an ICMP echo message and its reply. Because ping is the simplest test for a device, it is
the first to be used. If ping fails, try using traceroute.
Run ping to view the packets transmitted, packets received, percentage of packet loss, and round-trip
time in milliseconds.
port 1. An interface on an internetworking device (such as a router); a physical entity.
2. In IP terminology, an upper-layer process that receives information from lower layers. Ports are
numbered, and each numbered port is associated with a specific process. For example, SMTP is
associated with port 25. A port number is also called a well-known address.
3. To rewrite software or microcode so that it will run on a different hardware platform or in a different
software environment than that for which it was originally designed.
R
RAS Registration, Admission, and Status Protocol. Protocol that is used between endpoints and the
gatekeeper to perform management functions. RAS signalling function performs registration,
admissions, bandwidth changes, status, and disengage procedures between the VoIP gateway and the
gatekeeper.
RBAC Role-Based Access Control. A mechanism that allows privileges to be assigned to defined roles. The
roles are then assigned to real users, allowing or limiting access to specific features as appropriate for
each role.
real server A real server is a physical device assigned to a server farm.
redundancy In internetworking, the duplication of devices, services, or connections so that, in the event of a failure,
the redundant devices, services, or connections can perform the work of those that failed.
resource class A defined set of resources and allocations available for use by a device (such as an ACE). Using
resource classes prevents a single device from using all available resources.
role See user role.
RSA Rivest, Shamir, and Adelman Signatures. A public-key cryptographic system used for authentication.
RTSP Real Time Streaming Protocol. A client-server multimedia presentation control protocol, designed to
address the needs for efficient delivery of streamed multimedia over IP networks.
Glossary
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S
SCCP Skinny Client Control Protocol. A proprietary terminal control protocol owned and defined by Cisco
as a messaging set between a skinny client and the Cisco CallManager (CCM). Examples of skinny
clients include the Cisco 7900 series of IP phone such as the Cisco 7960, Cisco 7940 and the 802.11b
wireless Cisco 7920, along with Cisco Unity voicemail server. See also Skinny.
server farm A collection of servers that contain the same content.
Server Load
Balancer
See SLB.
service A destination location where a piece of content resides physically. Also referred to in general terms for
this release as including content rules, owners, virtual servers, real servers, and so on.
Simple Message
Transfer Protocol
See SMTP.
SIP Session Initiation Protocol. Protocol developed by the IETF MMUSIC Working Group as an alternative
to H.323. SIP features are compliant with IETF RFC 2543, published in March 1999. SIP equips
platforms to signal the setup of voice and multimedia calls over IP networks.
Skinny Skinny is a lightweight protocol which allows for efficient communication with Cisco CallManager.
See also SCCP.
SLB Server Load Balancer. A device that makes load balancing decisions based on application availability,
server capacity, and load distribution algorithms, such as round robin or least connections. Using load
balancing and server/application feedback, an SLB device determines a real server for the packet flow
and sends this information to the requesting forwarding agent. After the optimal destination is decided
on, all other packets in the packet flow are directed to a real server by the forwarding agent, increasing
packet throughput.
special
configuration file
Managed file resource on an ACE module, such as a piece of a configuration file or a keep-alive script.
SMTP Simple Message Transfer Protocol. Internet protocol that provides email services.
sticky A feature that ensures that the same client gets the same server for multiple connections. It is used when
applications require a consistent and constant connection to the same server. If you are connecting to
a system that keeps state tables about your connection, sticky allows you to get back to the same real
server again and retain the statefulness of the system.
suspend Removes an entity from the resource pool for future load-balancing content requests or connections.
Suspending a service or device does not affect existing content flows, but it prevents additional
connections from accessing the suspended entity or content. See also activate.
T
TCP Transport Control Protocol. Connection-oriented transport layer protocol that provides reliable
full-duplex data transmission. TCP is part of the TCP/IP protocol stack.
template See building block.
Glossary
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threshold A range in which you expect your network to perform. If a threshold is exceeded or goes below the
expected bounds, you examine the areas for potential problems. You can create thresholds for a specific
device.
traceroute A diagnostic tool that helps you understand why ping fails or why applications time out. Using it, you
can view each hop (or gateway) on the route to your device and how long each took.
Transport Control
Protocol
See TCP.
U
URI Uniform Resource Identifier. Type of formatted identifier that encapsulates the name of an Internet
object, and labels it with an identification of the name space, thus producing a member of the universal
set of names in registered name spaces and of addresses referring to registered protocols or name
spaces. [RFC 1630]
user role A mechanism for granting access to features and functionality to a user account. The Cisco Application
Networking Manager includes four predefined roles: System Administrator, Server Manager, Network
Manager, and Service Provider Customer.
V
virtual context A concept that allows users to partition an ACE into multiple virtual devices. Each virtual context
contains its own set of policies, interfaces, resources, and administrators, allowing administrators to
more efficiently manage system resources and services.
There are two types of contexts; the Admin context and a user context. The Admin context is the default
context that the ACE provides. The Admin context, which contains the basic settings for each virtual
device or context, allows a user to configure and manage all contexts. When a user logs into the Admin
context, he or she has full system administrator access to the entire ACE and all contexts and objects
within it. The Admin context provides access to network-wide resources, for example, a syslog server
or context configuration server. All global commands for ACE settings, contexts, resource classes, and
so on, are available only in the Admin context.
A user context, which is created by a user, has access to the resources in which the context was created.
For example, a user context that was created by an administrator while in Admin context, by default,
has access to all resources in an ACE device. Any user created by someone in a user-defined context,
only has access to the resources within that context. In addition, roles are assigned to users, which
determine the commands and resources that are available to that user.
VLAN Virtual LAN. Group of devices on one or more LANs that are configured (using management software)
so that they can communicate as if they were attached to the same wire, when in fact they are located
on a number of different LAN segments. Because VLANs are based on logical instead of physical
connections, they are extremely flexible.
VLAN Trunking
Protocol
See VTP.
virtual server A virtual server represents groups of real servers and are associated with a real server farm.
Glossary
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VMware vCenter
Server
Third-party product for creating and managing virtual data centers, which includes VMware vSphere
Client and virtual machines.
VTP VLAN Trunking Protocol. A Layer 2 messaging protocol that maintains VLAN configuration
consistency by managing the addition, deletion, and renaming of VLANs within a VTP domain. VTP
minimizes misconfigurations and configuration inconsistencies that can result in a number of problems,
such as duplicate VLAN names, incorrect VLAN-type specifications, and security violations.
VTP domain Also called a VLAN management domain, a domain composed of one or more network devices that
share the same VTP domain name and that are interconnected with trunks.
W
Web server A machine that contains Web pages that are accessible by others.
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INDEX
Numerics
7600 series router
adding VLANs 5-48
configuring
access ports 5-43
interfaces 5-42
primary attributes 5-38
routed ports 5-46
switch virtual interfaces 5-45
trunk ports 5-44
managing 5-66
synchronizing configurations 5-66
viewing
all modules 5-79
ports 5-42
VLAN
managing 5-48
modifying 5-51
viewing 5-49
A
AAA server, authenticating ANM users 18-38
About button 1-9
acceleration
configuring 7-53
configuring globally on ACE appliances 15-9
FlashForward 15-2
traffic policies 15-2
typical configuration flow 15-2
access control, configuring on VLAN interfaces 12-14
access control list (ACL) 6-78
access credentials, configuring 5-29
access ports, configuring 5-43
account password 1-6
accounts
user, managing 18-17
ACE
changing passwords 5-77
class map
configuring 14-7
match conditions 14-8
configuration options 6-11
definition GL-1
license
ANM license requirements 6-36
details 6-42
managing 6-36
removing 6-39
updating 6-40
viewing 6-36
parameter maps 10-2
policy map
configuring 14-32
rules and actions 14-34
traffic policies 14-2
viewing license details 6-42
virtual server protocols 7-11
ACE 1.0 module
class maps 14-7
configuration building block 16-6
parameter maps 10-2
policy maps 14-32
traffic policies 14-2
virtual server protocols 7-11
Index
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ACE 2.0 module
class map
types 14-7
configuration building block 16-6
parameter map
generic 10-8
RTSP 10-20
SIP 10-21
Skinny 10-23
parameter maps 10-2
policy maps 14-32
sticky types 9-2
traffic policies 14-2
virtual server protocols 7-11
ACE appliance
changing passwords 5-75
class maps 14-7
configuration building block 16-6
configuring 5-34
licenses
configuration 6-42
statistics 6-42
optimization parameter map 10-12
parameter maps 10-2
policy maps 14-32
synchronizing configurations 5-66
traffic policies 14-2
updating passwords 5-75
virtual server protocols 7-11
ACE appliances
SSH, enabling 5-6
ACE license
and required ANM licenses 6-36
details 6-42
managing 6-36
removing 6-39
updating 6-40
viewing 6-36
ACE module
configuring 5-34
configuring access credentials 5-29
discovery
enabling SSH access 5-28
process 5-31
monitoring discovery status 5-33
replace 5-82
synchronizing configurations 5-67
viewing
by 7600 series router 5-79
by chassis 5-79
ACE modules
ACE 2.0 SNMP polling 5-7
adding to ANM 5-16
HTTPS, enabling 5-6
OK/Pass state requirement 5-16
SSH, enabling 5-6
ACE network topology
overview 3-12
ACL
configuration overview 6-78
configuring
EtherType attributes 6-87
extended ACL attributes 6-82
for VLANs 12-14
object groups 6-89
creating 6-79
deleting 6-100
managing 6-99
objects
ICMP service parameters 6-97
IP addresses 6-91
protocols 6-93
subnet objects 6-92
TCP/UDP service parameters 6-94
resequencing 6-87
viewing by context 6-99
ACL object group
configuring 6-89
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network objects
IP addresses 6-91
subnet objects 6-92
service objects
ICMP service parameters 6-97
protocols 6-93
TCP/UDP service parameters 6-94
ACLs, creating 6-79
action, setting for policy maps 14-34
action list
application acceleration, configuring 14-85, 15-3
configuration options 7-55
HTTP header modify, configuring 14-85
HTTP header modify, SSL header insertion,
configuring 14-85
HTTP header modify, SSL URL rewrite,
configuring 14-85
activate, definition GL-1
activating
DNS rules for GSS 7-75
real servers 8-14, B-15
virtual servers 7-71
adding
ACE modules 5-16
CSM 5-19, 5-20
devices to ANM 5-10
domains 5-63
resource classes 6-46
SSL
CSR parameters 11-25
parameter map cipher info 11-20
parameter maps 11-18, 11-27
user-defined groups 5-72
Admin context, first virtual context 6-2
administrative distance, definition GL-1
admin password 18-14
advanced editing mode 1-16
AES, definition GL-1
alarms
configuring for notification 17-57
viewing 17-65
all-match policy map 14-32
ANM
customizing default page 2-4
homepage 2-1, 2-3
ANM applications 1-2
ANM interface
logging in 1-5
overview 1-8
password, changing
account 1-7
login 1-7
table
conventions 1-14
customizing 1-15
ANM server
auto-sync settings 18-61
change audit logs 18-61
change audit logs, viewing 18-61
configuring
attributes 18-57
license file name 18-54
polling, enabling 18-57
statistics 18-56
ANM template editor
edit application template definition 4-18
overview 4-29
application acceleration
configuring 7-53
action lists 7-55
globally on ACE appliances 15-9
monitoring 17-43
overview 15-2
traffic policies 15-2
typical configuration flow 15-2
virtual server, additional configuration options 7-57
application definition definitions
create 4-20
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delete 4-29
export 4-26
import 4-26
test 4-28
application template definitions
ANM template editor 4-29
edit 4-15
edit with ANM template editor 4-18
edit with external editor 4-19
managing 4-15
overview 4-1
system template 4-1
user-defined template 4-2
application template instance
overview 4-2
application template instances
create 4-4
delete
deleting
application template instance 4-13
deploy 4-7
duplicate 4-10
edit 4-9
list of instances 4-3
managing 4-3
view details 4-12
applying configuration building blocks 16-9
Appscope, configuration options 7-60
ARP
definition GL-1
attributes
BVI interfaces 12-20
DNS probes 8-57
Echo-TCP probes 8-58
Echo-UDP probes 8-58
Finger probes 8-58
for sticky group types 9-11
FTP probes 8-59
health monitoring 8-53
high availability 13-15
HTTP content sticky group 9-11
HTTP cookie sticky group 9-12
HTTP header sticky group 9-13
HTTP probes 8-60
HTTPS probes 8-61
IMAP probes 8-63
IP netmask sticky group 9-13
Layer 4 payload sticky group 9-14
new device 5-12
parameter map
connection 10-3
DNS 10-25
generic 10-8
HTTP 10-10
optimization 10-12
RTSP 10-20
SIP 10-21
Skinny 10-24
POP probes 8-64
predictor method 7-42, 8-40
RADIUS
sticky groups 9-14
RADIUS probes 8-65
real servers 8-6, 8-37
resource class 6-45
resource classes 6-45
RTSP
header sticky groups 9-15
probes 8-65
scripted probes 8-66
server farms 7-34, 8-31
SIP-TCP probes 8-67
SIP-UDP probes 8-68
SMTP probes 8-69
SNMP 6-27
SNMP probes 8-69
SSL
certificate export 11-16
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certificate import 11-8, 11-9
CSR parameters 11-25
for virtual servers 7-17
key export 11-17
key pair import 11-12
parameter map cipher info 11-20
parameter maps 11-18, 11-27
sticky group 9-8
TCP probes 8-70
Telnet probes 8-70
UDP probes 8-71
V6 prefix sticky group 9-13
virtual context 6-3, 6-13, 6-14
virtual servers 7-8
VLAN interfaces 12-6
VM probes 8-72
auditing
building block configuration 6-101
resource classes 6-49
audit log
configuring
purge settings 18-58
audit logs
ANM server change audit 18-61
audit sync settings
configuring 18-61
authenticating ANM users with AAA server 18-38
authorization group certificate, configuring for SSL 11-32
autostate, enabling supervisor VLAN notification 12-5
autosync
setting up syslog settings for 6-105
B
backup
defaults 6-61
bandwidth optimization, configuring 7-53
building block
applying 16-9
configuration
audit 6-101
changes and version numbers 16-4
options 16-2
primary attributes 16-8
configuring 16-7
creating 16-5
enable feature 16-5
extracting from virtual contexts 16-6
overview 16-1
primary attributes 16-8
tagging 16-4, 16-9
types 16-6
using 16-1
versions 16-4
viewing use 16-11
buttons
descriptions 1-11
Graph The Component With Issue 17-66
BVI, definition GL-2
BVI interfaces
attributes 12-20
configuring 12-19
viewing by context 12-25
C
caching, dynamic 15-2
certificate
exporting for SSL 11-15
importing for SSL 11-7
SSL 11-5
certificate chain, definition GL-2
certificate signing request, definition GL-2
chain group certificate, configuring for SSL 11-23
chain group parameters, configuring for SSL 11-23
changing
account password 1-7
admin password 18-14
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domain information 5-63
login password 1-7
role rules 5-61
user passwords 18-14
chassis
adding VLANs 5-48
changing passwords 5-75
configuring 5-34
access credentials 5-29
access ports 5-43
interfaces 5-42
primary attributes 5-38
routed ports 5-46
switch virtual interfaces 5-45
trunk ports 5-44
discovery process 5-31
managing 5-66
monitoring
discovery status 5-33
running discovery 5-31
SSH, enabling 5-5
synchronizing configurations 5-66
Telnet default 5-5
viewing
all modules 5-79
ports 5-42
VLAN
managing 5-48
modifying 5-51
viewing 5-49
checking status of the Cisco ANM server 18-52
checkpoint, configuration
creating 6-55
deleting 6-56
displaying 6-57
rolling back to 6-56
Cisco IOS software, definition GL-2
cisco-sample-cert 11-6
cisco-sample-key 11-6
class map
ACE device support 14-7, 14-8
configuring 14-6
definition GL-2
deleting 14-6, 14-8
match conditions
generic server load balancing 14-23
Layer 3/4 management traffic 14-12
Layer 3/4 network traffic 14-9
Layer 7 FTP command inspection 14-22
Layer 7 HTTP deep packet inspection 14-17
Layer 7 server load balancing 14-14
Layer 7 SIP deep packet inspection 14-30
RADIUS server load balancing 14-25
RTSP server load balancing 14-26
SIP server load balancing 14-27
overview 14-2, 14-3
setting match conditions 14-8
use with real servers 8-3
command inspection, FTP commands 14-22
configuration
back up and restore overview 6-59
create a backup 6-62
restore 6-66
configuration attributes
Appscope 7-60
delta optimization 7-57
device VLAN 5-48
extended ACL 6-83
health monitoring 8-53
high availability 13-15
HTTP return code maps 8-46
parameter map
connection 10-3
DNS 10-25
generic 10-8
HTTP 10-10
optimization 10-12
RTSP 10-20
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SIP 10-21
Skinny 10-24
predictor method 7-42, 8-40
probe
DNS 8-57
Echo-TCP 8-58
Echo-UDP 8-58
Finger 8-58
FTP 8-59
HTTP 8-60
HTTPS 8-61
IMAP 8-63
POP 8-64
RADIUS 8-65
RTSP 8-65
scripted 8-66
SIP-TCP 8-67
SIP-UDP 8-68
SMTP 8-69
SNMP 8-69
TCP 8-70
Telnet 8-70
UDP 8-71
VM 8-72
real server 8-6, 8-37
resource class 6-45
server farm 7-34, 8-31
SNMP users 6-30
SSL 7-17
sticky group 9-8
sticky type 7-47
syslog 6-20
trunk ports 5-44
virtual context 6-3
virtual server 7-8
configuration building block
applying 16-9
configuring 16-7
creating 16-5
options 16-2
overview 16-1
tagging 16-4, 16-9
using 16-1
versions 16-4
configuration checkpoint and rollback service
creating configuration checkpoint 6-55
deleting configuration checkpoint 6-56
displaying checkpoint information 6-57
overview 6-54
rolling back configuration 6-56
configuration options
building blocks 16-2
by ACE device type 6-11
virtual contexts 6-9
configuration primary attributes
virtual context 6-14
configurations
synchronizing
for ACE modules 5-67
for devices 5-66
for high availability 13-30
for virtual contexts 6-105
configuration synchronization 13-11
configuration template. See building block.
configuration values, changing 20-1
configuring
7600 series router 5-34, 5-38
access ports 5-43
interfaces 5-42
switch virtual interfaces 5-45
trunk ports 5-44
acceleration 7-53
access credentials 5-29
access ports 5-43
ACE appliance passwords 5-75
ACE passwords 5-77
ACE SNMP for polling 5-7
ACE syslog messages 5-27, 18-62
Index
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User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
ACLs 6-79, 12-14
EtherType 6-87
extended 6-82
object groups 6-89
resequencing 6-87
action lists 7-55
action lists for application acceleration 15-3
action lists for HTTP header modify 14-85
application acceleration action lists 7-55
bandwidth optimization 7-53
building block primary attributes 16-8
building blocks 16-7
BVI interfaces 12-19
chassis 5-34, 5-38
access ports 5-43
interfaces 5-42
trunk ports 5-44
chassis passwords 5-75
class map match conditions
generic server load balancing 14-23
Layer 3/4 management traffic 14-12
Layer 3/4 network traffic 14-9
Layer 7 FTP command inspection 14-22
Layer 7 HTTP deep packet inspection 14-17
Layer 7 server load balancing 14-14
Layer 7 SIP deep packet inspection 14-30
RADIUS server load balancing 14-25
RTSP server load balancing 14-26
SIP server load balancing 14-27
class maps 14-6
CSM 5-34
CSS 5-34, 5-35
CSS passwords 5-75
devices 5-34
DNS probe expect address 8-73
gigabit Ethernet interfaces 12-32
global
application acceleration on ACE appliances 15-9
optimization on ACE appliances 15-9
GSS 5-36
GSS passwords 5-75
health monitoring general attributes 8-53
high availability
groups 13-17, 13-19
host tracking 13-25
interface tracking 13-24
peer host probes 13-28
peers 13-15
synchronization 13-11
tracking and failure detection 13-23
host probes for high availability 13-26
HTTP probe headers 8-74
HTTP retcode maps 8-46
HTTPS probe headers 8-74
latency optimization 7-53
Layer 2 VLANs 5-50
Layer 3 VLANs 5-51
Layer 7 default load balancing 7-50
load balancing
real servers 8-5
server farms 8-30
sticky groups 9-7
virtual servers 7-30
NAT 7-63, 12-26
object groups
ICMP service parameters 6-97
IP addresses 6-91
protocols 6-93
subnet objects 6-92
TCP/UDP service parameters 6-94
OID for SNMP probes 8-76
optimization 7-53
action lists 7-55
traffic policies 15-6
organization passwords 18-10
parameter maps
connection 10-3
DNS 10-25
Index
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User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
generic 10-8
HTTP 10-9
optimization 10-12, 15-6
RTSP 10-20
SIP 10-21
Skinny 10-23
PAT 12-27
policy map rules and actions 14-34
generic server load balancing 14-35
Layer 3/4 management traffic 14-39
Layer 3/4 network traffic 14-41
Layer 7 FTP command inspection 14-48
Layer 7 HTTP deep packet inspection 14-51
Layer 7 HTTP optimization 14-57
Layer 7 server load balancing 14-61
Layer 7 SIP deep packet inspection 14-68
Layer 7 Skinny deep packet inspection 14-71
RADIUS server load balancing 14-73
RDP server load balancing 14-75
RTSP server load balancing 14-76
SIP server load balancing 14-79
policy maps 14-32
port channel interfaces 12-35
probe attributes 8-56
probe expect status 8-74
protocol inspection 7-18
real servers 8-17, B-18
resource classes
global 6-46
local 6-52
routed ports 5-46
server farm predictor method 8-39
shared objects 7-10
SNMP 6-27
communities 6-28
credentials 5-30
notification 6-33
on virtual contexts 6-27
trap destination hosts 6-32
version 3 users 6-29
SSL
chain group parameters 11-23
CSR parameters 11-24
for virtual servers 7-17
OCSP service 11-29
parameter map 11-18
parameter map cipher 11-20
proxy service 11-27
static routes 5-39, 12-28
sticky groups 7-47, 9-7
sticky statics 9-15
switch virtual interfaces 5-45
syslog
logging 6-19
log hosts 6-23
log messages 6-24
log rate limits 6-26
Telnet
credentials 5-29
Telnet on chassis 5-5
traffic policies 14-1
trunk ports 5-44
virtual context 6-1, 6-8, 6-106
class maps 14-6
global policies 6-35
policy maps 14-32
primary attributes 6-14
resource classes 6-52
system attributes 6-13
virtual server
configuration overview 7-2
default load balancing 7-50
Layer 7 load balancing 7-30
NAT 7-63
optimization 15-9
properties 7-11
protocol inspection 7-18
shared objects 7-9
Index
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User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
SSL termination service 7-17
VLAN
interface access control 12-14
interface policy maps 12-14
interfaces 12-6
Layer 2 5-50
Layer 3 5-51
VLAN groups 5-52
VSS passwords 5-75
connection parameter map
attributes 10-3
configuring 10-3
TCP options 10-7
using 8-77
connectivity, testing between devices 17-71
context
back up and restore overview 6-59
configuration options 6-9
configuring 6-8
application acceleration 15-1
BVI interfaces 12-19
global policies 6-35
load balancing 7-1
optimization 15-1
primary attributes 6-14
resource classes 6-52
static routes 12-28
traffic policies 14-1
virtual servers 7-1
VLAN interfaces 12-6
create a configuration backup 6-62
creating 6-2
definition GL-7
deleting 6-107
editing 6-106
extracting configurations for building blocks 16-6
modifying 6-106
polling
restarting 6-108
viewing status 6-104
restore a configuration 6-66
synchronizing configurations 6-105
sync status 6-103
upgrading 6-107
using for configuration building blocks 16-6
controlling access to Cisco ANM 18-3
conventions in ANM
table 1-14
cookie
client 9-3
sticky client identification 9-3
copying
ACE licenses 6-37
creating
ACLs 6-79
application template definition 4-20
application template instance 4-4
building blocks 16-5
domains 18-34
user accounts 18-19
user roles 18-29
virtual contexts 6-2
creating ACLs 6-79
credentials
modifying 5-30
SNMP 5-30
Telnet 5-29
CSM
adding to ANM 5-19, 5-20
configuring 5-34
primary attributes 5-34
viewing by chassis 5-79
CSR
configuring parameters 11-24
definition GL-2
generating for SSL 11-26
CSS
changing passwords 5-75
Index
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User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
configuring 5-34
primary attributes 5-35
synchronizing configurations 5-66
customizing
tables 1-15
D
Data Center Interconnect (DCI)
overview 1-3
data dictionary 17-53
deep packet inspection
HTTP
class map match conditions 14-17
policy map rules and actions 14-51
SIP
class map match conditions 14-30
policy map rules and actions 14-68
Skinny policy map rules and actions 14-71
default distance values 5-40
deleting
ACLs 6-100
application template definition 4-29
class map in use 14-6
device RBAC user accounts 5-56
domains 5-65, 18-37
high availability groups 13-23
host probes for high availability 13-27
organizations 18-16
peer host probes 13-29
resource classes 6-51, 6-53
role rules 5-61
roles or domains 5-54
SSL objects 11-2
user accounts 18-23
user-defined groups 5-75
user roles 5-60, 18-32
virtual contexts 6-107
delta optimization
configuration options 7-57
description 15-2
deploying
application template instance 4-7
configuration building blocks 16-9
staged virtual servers 7-87
DES, definition GL-2
device
adding to ANM 5-10
back up and restore overview 6-59
configuring 5-34
create a configuration backup 6-62
management overview 5-2
managing 5-1
monitoring 17-24
polling
restarting 5-78
status 5-79
restore a configuration 6-66
viewing
All Devices table 5-78
device audit trail logs
monitoring 18-59
device groups, monitoring 17-23
device tree
overview 1-10
discovery
enabling
SSH on ACE modules 5-28
monitoring progress 5-31, 5-33
process 5-31
running 5-31
displaying
current user sessions 18-24
list of users 18-18
network domains 18-33
organizations 18-16
user roles 18-28
users who have a selected role 18-29
Index
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User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
distinguished name, definition GL-3
DNS
configuring protocol inspection 7-19
parameter map
attributes 10-25
configuring 10-25
probe
attributes 8-57
expect address 8-73
DNS rules, and GSS 7-75
domains
deleting 5-54
duplicate
application template instance 4-10
duplicating
domains 18-35
organizations 18-15
user accounts 18-20
user-defined groups 5-74
user roles 18-31
dynamic caching 15-2
Dynamic Workload Scaling
brief summary and illustration 1-3
configure
Nexus 7000 8-27
overview 8-26
VM controller 8-29
server farm 7-36, 8-33
E
Echo-TCP probe attributes 8-58
Echo-UDP probe attributes 8-58
e-commerce
applications, sticky requirements 9-1
using stickiness 9-4
edit
application template definition 4-15
application template instance 4-9
role rules 5-61
enabling
ACE syslog messages 5-27
setup syslog for Autosync 5-27
SNMP polling from ANM 5-7
write mem on Config > Operations 18-63
Ethernet interfaces, configuring 12-32
EtherType ACL, configuring 6-87
event
definition GL-3
monitoring 17-55
event type, definition GL-3
exception, definition GL-3
expert options, for virtual contexts 6-101
export
application template definition 4-26
export historical statistics 17-52
exporting
SSL
certificates 11-15
key 11-17
key pair 11-16
extended ACL
configuration options 6-83
resequencing entries 6-87
F
failover 13-9
fault, definition GL-3
fault tolerance
groups 13-8
task overview 13-14
Feedback button 1-9
filtering tables 1-14
Finger probe attributes 8-58
first-match policy map 14-32
FlashForward object acceleration 15-2
FTP, configuring protocol inspection 7-19
Index
IN-13
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
FTP command inspection
available commands 14-22
class map match conditions 14-22
policy map rules and actions 14-48
FTP probe attributes 8-59
FTP strict, and RFP standards 14-48
FT VLAN 13-10
G
generic parameter map
attributes 10-8
configuring 10-8
generic server load balancing
class map match conditions 14-23
policy map rules and actions 14-35
global acceleration and optimization, ACE
appliances 15-9
global policies, configuring for virtual contexts 6-35
global resource class 6-44
applying to contexts 6-47
auditing 6-49
configuring 6-46
deleting 6-51
deploying 6-48
modifying 6-50
using 6-46
graphs, historical trend and real time 17-48
Graph The Component With Issue button 17-66
groups
GSS DNS rules, managing 7-76
GSS VIP answers, managing 7-76
real servers, managing 8-10
virtual servers, managing 7-67
VLAN, assigning 12-4
VLAN, creating 12-3
GSS
Answer Table 7-73, 7-75
changing passwords 5-75
DNS rules, activating suspending 7-75
DNS rules groups, managing 7-76
primary attributes 5-36
VIP answer groups, managing 7-76
VIP Answer table, managing 7-73
guided setup
ACE hardware setup 3-5
ACE network topology overview 3-12
application setup 3-14
importing devices 3-4
operating considerations 3-4
overview 3-1
tasks and related topics 3-2
virtual context setup 3-10
guidelines for managing
domains 18-33
user accounts 18-17
user roles 18-25
H
hash load-balancing methods
address 8-2
cookie 8-2
header 8-2
url 8-3
header
deletion 14-86
insertion 14-85, 14-86
rewrite 14-85, 14-86
health monitoring
configuring 8-49
for real servers 8-51
general attributes 8-53
inband 7-37, 8-34
overview 8-49
probe types 8-51
TCL scripts 8-50
heartbeat packets 13-9
Index
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User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
Help button 1-9
high availability
ANM requirements 5-8
clearing
links between ACE appliances 13-17
pairs 13-17
configuration attributes 13-15
configuring
groups 13-17
host probes 13-26
host tracking process 13-25
interface tracking process 13-24
overview 13-6
peer host probes 13-28
peers 13-15
deleting
groups 13-23
host probes 13-27
peer host probes 13-29
failover detection 13-23
importance of synchronizing configurations 13-30
modifying groups 13-19
protocol 13-8
reconciling an SSL certificate/key pair 13-32
switching over a group 13-22
task overview 13-14
tracking status 13-23
historical statistics, export 17-52
historical trend graph 17-48
homepage
customizing default page 2-4
link descriptions 2-1
overview 2-1
pages in ANM 2-3
HSRP, definition GL-3
HTTP
configuring protocol inspection 7-20
content
sticky group attributes 9-11
sticky type 9-3
cookie
sticky group attributes 9-12
sticky type 9-3
deep packet inspection
class map match conditions 14-17
policy map rules and actions 14-51
header
sticky client identification 9-4
sticky group attributes 9-13
sticky type 9-4
load balancing conditions and options 7-32
optimization policy map rules and actions 14-57
parameter map
attributes 10-10
configuring 10-9
parameter maps 8-77
probe
attributes 8-60
configuring headers 8-74
retcode maps 8-46
return code map configuration options 8-46
protocol inspection conditions and options 7-23
HTTP header
deletion 14-86
insertion 14-85, 14-86
rewrite 14-85, 14-86
HTTP header insertion 14-85
HTTPS
ACE modules, enabling 5-6
configuring protocol inspection 7-20
load balancing conditions and options 7-32
probe
attributes 8-61
configuring headers 8-74
protocol inspection conditions and options 7-23
Index
IN-15
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
I
ICMP service parameters, for object groups 6-97
IMAP probe attributes 8-63
import
application definition definition 4-26
Import Failed, configuration status 6-103, 6-105
importing
ACE licenses 6-37
ACE modules 5-16
CSM 5-19, 5-20
device failures 20-7
overview 5-10
SSL
certificates 11-7
keys 11-11
inband health monitoring 7-37, 8-34
connection failure count 7-37, 8-34
reset timeout 7-37, 8-34
resume service 7-38, 8-35
installing ACE appliance licenses 6-37
interface
ANM 1-8
buttons 1-11
configuring
on 7600 series routers 5-42
on chassis 5-42
definition GL-4
gigabit Ethernet, configuring 12-32
table conventions 1-14
IP addresses, for object groups 6-91
IP discovery
failure 20-7
IP netmask
for sticky client identification 9-4
sticky group attributes 9-13
sticky type 9-4
IPv6 considerations 1-3
IPv6 prefix
sticky type 9-4
K
key
exporting for SSL 11-17
importing for SSL 11-11
SSL 11-10
key pair, generating 11-14
L
latency optimization, configuring 7-53
Layer 2 VLANs, configuring 5-50
Layer 3/4
management traffic
class map match conditions 14-12
policy map rules and actions 14-39
network traffic
class map match conditions 14-9
policy map rules and actions 14-41
Layer 3 VLANs, configuring 5-51
Layer 4 payload
sticky group attributes 9-14
sticky type 9-4
Layer 7
configuring load balancing 7-30
default load balancing on virtual servers 7-50
FTP command inspection
class map match conditions 14-22
policy map rules and actions 14-48
HTTP deep packet inspection
class map match conditions 14-17
policy map rules and actions 14-51
HTTP optimization policy map rules and
actions 14-57
load balancing
HTTP/HTTPS conditions and options 7-32
setting match conditions 7-31
Index
IN-16
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
server load balancing
class map match conditions 14-14
policy map rules and actions 14-61
SIP deep packet inspection
class map match conditions 14-30
policy map rules and actions 14-68
Skinny deep packet inspection policy map rules and
actions 14-71
least bandwidth, load-balancing method 8-3
leastconns, load-balancing method 8-3
least loaded, load-balancing method 8-3
license
errors, removing 18-55
managing for ACE devices 6-36
relationship between ANM and ACE licenses 6-36
removing ACE licenses 6-39
updating ACE licenses 6-40
viewing ACE license details 6-42
licenses
ANM, removing 18-55
installing 6-37
lifeline
guidelines for use 20-8
overview 20-7
lifeline management 18-72
load balancing
configuration overview 7-1
configuring
real servers 8-1, 8-5
server farms 8-1, 8-30
sticky groups 9-7
virtual servers 7-30
definition GL-4
hash address 8-2
hash cookie 8-2
hash header 8-2
hash url 8-3
least bandwidth 8-3
leastconns 8-3
least loaded 8-3
monitoring on probes 17-40
monitoring on real servers 17-37
monitoring on statistics 17-41
monitoring on virtual servers 17-33
overview 7-1, 8-1
predictors 8-2
response 8-3
roundrobin 8-3
local resource class 6-44
auditing 6-49
configuring 6-52
deleting 6-53
using 6-51
logging, syslog levels 6-19
logging in
to ANM 1-5
Logout button 1-9
M
managing
7600 series routers 5-66
ACLs 6-99
ANM 18-51
chassis 5-66
devices 5-1
domains 18-32
organizations 18-9
real servers 8-9
resource classes 6-43
user accounts 18-17
user roles 18-25
virtual contexts 6-103
virtual servers 7-66
VLANs 5-48
map real server to vCenter Server 5-68
match condition
class map
Index
IN-17
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
generic server load balancing 14-23
Layer 3/4 management traffic 14-12
Layer 3/4 network traffic 14-9
Layer 7 FTP command inspection 14-22
Layer 7 HTTP deep packet inspection 14-17
Layer 7 server load balancing 14-14
Layer 7 SIP deep packet inspection 14-30
RADIUS server load balancing 14-25
RTSP server load balancing 14-26
SIP server load balancing 14-27
setting for
class maps 14-8
Layer 7 load balancing 7-31
optimization 7-54
SIP protocol inspection 7-27
MD5, definition GL-4
menus, understanding 1-9
merged ACL 6-78
MIB, definition GL-4
MIME types, supported 10-26
mobile device
registered devices 18-70
modifying
deployed virtual servers 7-88
domains 5-65, 18-36
global resource class 6-50
high availability groups 13-19
organizations 18-14
real servers 8-17, B-18
staged virtual servers 7-88
user accounts 5-55, 18-21
user-defined groups 5-73
user roles 5-60, 18-31
virtual contexts 6-106
module
configuring access credentials 5-29
discovery process 5-31
monitoring discovery progress 5-31
running discovery 5-31
viewing
by chassis 5-79
by router 5-79
monitoring
alarms 17-65
device audit trail logs 18-59
devices 17-3
events 17-55
load balancing 17-33, 17-37, 17-40
load balancing statistics 17-41
traffic 17-30
MSFC, adding switched virtual interface to 12-5
multi-match policy map 14-32
N
Name Address Translation
configuring 12-26
definition GL-4
NAT
configuring 12-26
configuring for virtual servers 7-63
definition GL-4
Navigation pane 1-9
network object group
configuring 6-89
IP addresses 6-91
subnet objects 6-92
network topology maps 17-68
O
object, configuring for virtual servers 7-9
object group
configuring
for ACLs 6-89
GSS VIP answers and DNS rules 7-76
real servers 8-10
Index
IN-18
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
virtual servers 7-67
ICMP service parameters 6-97
IP addresses 6-91
protocols 6-93
subnet objects 6-92
TCP/UDP service parameters 6-94
OCSP service, configuring for SSL 11-29
optimization
additional configuration options 7-57
configuration overview 15-6
configuring 7-53
action lists 7-55
globally on ACE appliances 15-9
match conditions 7-54
parameter maps 15-6
traffic policies 15-6
delta optimization 15-2
enabling on virtual servers 15-9
match criteria 7-54
overview 15-2
parameter maps 8-77
traffic policies 15-2
typical configuration flow 15-2
virtual server, additional configuration options 7-57
optimization parameter map
attributes 10-12
configuring 10-12
organizations
definition GL-4
Out of Sync, configuration status 6-103, 6-105
Overlay Transport Virtualization (OTV) 1-3
overview
ACL configuration 6-78
adding supported devices 5-10
admin icon 18-2
application acceleration 15-2
building blocks 16-1
class maps 14-2, 14-3
configuration building blocks 16-1
global and local resource classes 6-44
health monitoring 8-49
importing devices 5-10
load balancing 7-1, 8-1
load-balancing predictors 8-2
managing devices 5-2
optimization 15-2
optimization traffic policies 15-6
parameter maps 10-1
policy maps 14-2, 14-4
protocol inspection 14-6
real server 8-3
resource classes 6-43
server farm 8-3, 8-5
server health monitoring 8-49
server load balancing 8-1
SSL 11-1
stickiness 9-1
sticky group 9-6
sticky table 9-6
traffic policies 14-1
user-defined groups 5-72
using SSL keys and certificates 11-3
virtual server 7-2
P
parameter expander functions 7-61, 10-18
parameter map
ACE device support 10-2
attributes
connection 10-3
DNS 10-25
generic 10-8
HTTP 10-10
optimization 10-12
RTSP 10-20
SIP 10-21
Skinny 10-24
Index
IN-19
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
configuring
connection 10-3
DNS 10-25
for SSL 11-18
generic 10-8
HTTP 10-9
optimization 10-12, 15-6
RTSP 10-20
SIP 10-21
Skinny 10-23
overview 10-1
types of 10-2
using with
Layer 3/Layer 4 policy maps 14-5
policy maps 10-1
using with Layer 3/Layer 4 policy maps 8-77
parameter map cipher, configuring for SSL 11-20
passwords, changing
admin 18-14
for accounts 1-7
for ACE appliance 5-75
for chassis 5-75
for CSS 5-75
for GSS 5-75
for the ACE 5-77
for VSS 5-75
in login window 1-7
PAT
configuring 12-27
definition GL-5
peers, high availability 13-15
ping
between devices 17-71
definition GL-5
policy map 14-34
ACE device support 14-32
associating with VLAN interface 12-14
configuring 14-32
match type
all-match 14-32
first-match 14-32
multi-match 14-32
overview 14-2, 14-4
rule and action topic reference 14-34
rules and actions
generic server load balancing 14-35
Layer 3/4 management traffic 14-39
Layer 3/4 network traffic 14-41
Layer 7 FTP command inspection 14-48
Layer 7 HTTP deep packet inspection 14-51
Layer 7 HTTP optimization 14-57
Layer 7 server load balancing 14-61
Layer 7 SIP deep packet inspection 14-68
Layer 7 Skinny deep packet inspection 14-71
RADIUS server load balancing 14-73
RDP server load balancing 14-75
RTSP server load balancing 14-76
SIP server load balancing 14-79
setting rules and actions 14-34
polling
enabling 18-57
parameters, setting 17-46
restarting
for devices 5-78
for virtual contexts 6-108
status
for devices 5-79
for virtual contexts 6-104
POP probe attributes 8-64
port
number, configuring for probes 8-54
Port Address Translation
configuring 12-27
definition GL-5
port channel interfaces
attributes 12-37
configuring 12-35
ports
Index
IN-20
User Guide for the Cisco Application Networking Manager 5.2
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ANM, used for ANM client (browser) to ANM server
communication A-1
ANM, used for managed device communication A-1
definition GL-5
reference A-1
predictor
hash address 8-2
hash cookie 8-2
hash header 8-2
hash url 8-3
least bandwidth 8-3
leastconns 8-3
least loaded 8-3
response 8-3
roundrobin 8-3
predictor method
attributes 7-42, 8-40
configuring for server farms 8-39
primary attributes
7600 series routers 5-38
chassis 5-38
configuration building blocks 16-8
CSM 5-34
CSS 5-35
GSS 5-36
virtual contexts 6-14
probe
attribute tables 8-56
configuring expect status 8-74
configuring for health monitoring 8-51
configuring SNMP OIDs 8-76
DNS 8-57
Echo-TCP 8-58
Echo-UDP 8-58
Finger 8-58
FTP 8-59
HTTP 8-60
HTTPS 8-61
IMAP 8-63
POP 8-64
port number 8-54
RADIUS 8-65
RTSP 8-65
scripted 8-66
scripting using TCL 8-50
SIP-TCP 8-67
SIP-UDP 8-68
SMTP 8-69
SNMP 8-69
TCP 8-70
Telnet 8-70
types for real server monitoring 8-51
UDP 8-71
VM 8-72
process, for traffic classification 14-3
protocol inspection
configuring for virtual servers 7-18
configuring match criteria
HTTP and HTTPS 7-22
SIP 7-27
HTTP/HTTPS conditions and options 7-23
overview 14-6
SIP conditions and options 7-28
virtual server options 7-19
protocol names and numbers 6-86
protocols
for object groups 6-93
for virtual servers 7-11
proxy service, configuring for SSL 11-27
R
RADIUS
probe attributes 8-65
server load balancing
class map match conditions 14-25
policy map rules and actions 14-73
sticky group attributes 9-14
Index
IN-21
User Guide for the Cisco Application Networking Manager 5.2
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sticky type 9-5
RBAC, definition GL-5
RDP server load balancing policy map rules and
actions 14-75
real server
activating 8-14, B-15
adding to server farm 8-37
configuration attributes 8-6, 8-37
configuring 8-5
load balancing service 8-1
definition GL-5
groups 8-10
health monitoring 8-49, 8-51
modifying 8-17, B-18
overview 8-3
suspending 8-15, B-16
viewing all 8-18
real time graph 17-48
redundancy
configuration requirements 13-12
configuration synchronization 13-11
definition GL-5
FT VLAN 13-10
protocol 13-8
task overview 13-14
registered mobile device list 18-70
removing
ACE license 6-39
ANM license files 18-55
rules from roles 5-61
resource, required for sticky groups 9-7
resource class
adding 6-46
allocation constraints 6-44
applying global resource classes 6-47
attributes 6-45
auditing local and global resource classes 6-49
configuring
globally 6-46
locally 6-52
definition GL-5
deleting
global resource class 6-51
local resource class 6-53
deploying global resource class 6-48
global 6-44
local 6-44
managing 6-43
modifying 6-50
overview 6-43
using
global classes 6-46
local classes 6-51
viewing use by contexts 6-54
resources, allocation constraints 6-44
resource usage, viewing 17-26
response load-balancing method 8-3
restarting
ANM (see the Installation Guide) 18-56
restarting device polling 5-78
restore
defaults 6-61
role
definition GL-7
deleting 5-54
role-based access control
authenticating ANM users with AA server 18-38
containment overview 18-4
definition GL-5
roundrobin, load-balancing predictor 8-3
routed ports, configuring 5-46
routes, configuring static routes 5-39
RSA, definition GL-5
RTSP
header
sticky group attributes 9-15
sticky type 9-5
parameter map
Index
IN-22
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
attributes 10-20
configuring 10-20
probe attributes 8-65
server load balancing
class map match conditions 14-26
policy map rules and actions 14-76
rule
changing for roles 5-61
setting for policy maps 14-34
S
sample SSL certificate and key pair 11-6
screens, understanding 1-9
scripted probe
attributes 8-66
overview 8-50
secondary IP addresses 12-14
secondary IP groups 12-14
security ACL 6-78
server
activating
real 8-14, B-15
virtual 7-71
managing 8-9
suspending
real 8-15, B-16
virtual 7-72
server farm
adding real servers 8-37
configuration attributes 7-34, 8-31
configuring
HTTP return error-code checking 8-46
load balancing 8-1, 8-30
predictor method 8-39
definition GL-6
Dynamic Workload Scaling 7-36, 8-33
health monitoring 8-49
inband health monitoring 7-37, 8-34
overview 8-3, 8-5
predictor method attributes 7-42, 8-40
viewing list of 8-48
Server Load Balancer (SLB), definition GL-6
server load balancing
generic class map match conditions 14-23
generic policy map rules and actions 14-35
Layer 7 class map match conditions 14-14
Layer 7 policy map rules and actions 14-61
overview 7-1, 8-1
RADIUS class map match conditions 14-25
RADIUS policy map rules and actions 14-73
RDP policy map rules and actions 14-75
RTSP class map match conditions 14-26
RTSP policy map rules and actions 14-76
SIP class map match conditions 14-27
SIP policy map rules and actions 14-79
service, definition GL-6
service object group
configuring 6-89
ICMP service parameters 6-97
protocols 6-93
TCP/UDP service parameters 6-94
setup sequence
SSL 11-4
setup syslog for Autosync, enabling 5-27
shared object
and deleting virtual servers 7-10
configuring 7-10
configuring for virtual servers 7-9
SIP
configuring protocol inspection 7-21
deep packet inspection
class map match conditions 14-30
policy map rules and actions 14-68
header sticky type 9-5
parameter map
attributes 10-21
configuring 10-21
Index
IN-23
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
protocol inspection conditions and options 7-28
server load balancing
class map match conditions 14-27
policy map rules and actions 14-79
SIP-TCP probe attributes 8-67
SIP-UDP probe attributes 8-68
Skinny
deep packet inspection policy map rules and
actions 14-71
parameter map
attributes 10-24
configuring 10-23
SMTP
configuring for email notifications 17-68
probe attributes 8-69
SNMP
configuration attributes 6-27
configuring
communities 6-28
for virtual contexts 6-27
notification 6-33
trap destination hosts 6-32
version 3 users 6-29
credentials 5-30
enabling collection 6-108
enabling polling 5-7
probe attributes 8-69
supported versions 5-7
trap destination host configuration 6-32
user configuration attributes 6-30
special characters for matching string expressions 14-84
special configuration file, definition GL-6
SSH
ACE appliance, enabling 5-6
ACE modules, enabling 5-6
chassis, enabling 5-5
enabling on ACE modules for discovery 5-28
SSHv2, chassis requirement in ANM 5-6
SSL
certificate
exporting 11-15
exporting attributes 11-16
importing 11-7
importing attributes 11-8, 11-9
overview 11-3
sample 11-6
using 11-5
configuring
authorization group certificates 11-32
chain group certificates 11-23
chain group parameters 11-23
CSR parameters 11-24
for virtual servers 7-17
OCSPservice 11-29
parameter map 11-18
parameter map cipher 11-20
proxy service 11-27
CSR parameters 11-25
editing
CSR parameters 11-25
parameter map cipher info 11-20
parameter maps 11-18, 11-27
exporting
certificates 11-15
key pairs 11-16
keys 11-17
generating
CSR 11-26
key pair 11-14
header insertion, configuring 14-89
importing
certificates 11-7
keys 11-11
key
exporting 11-17
importing 11-11
overview 11-3
using 11-10
Index
IN-24
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
key pair
exporting 11-16
generating 11-14
importing attributes 11-12
sample 11-6
objects, deleting 11-2
overview 11-1
parameter map cipher table 11-20
parameter maps 11-18, 11-27
procedure overview 11-3
redirect authentication failure 11-21
sample certificate and key pair 11-6
setup sequence
using 11-4
URL rewrite, configuring 14-88
SSL certificate, using 11-5
SSL header insertion, configuring 14-85, 14-89
SSL key, using 11-10
SSL setup sequence, using 11-4
SSL URL rewrite, configuring 14-85
staged virtual server
deploying 7-87
viewing all 7-87
static route
configuring 5-39, 12-28
statistics
ANM server 18-56
status, Cisco ANM server 18-52
Status bar 1-9
stickiness
cookie-based 9-3
HTTP content 9-3
HTTP cookie 9-3
HTTP header 9-4
IP netmask 9-4
IPv6 prefix 9-4
Layer 4 payload 9-4
overview 9-1
RADIUS 9-5
RTSP header 9-5
SIP header 9-5
sticky group 9-6
sticky table 9-6
types 9-2
sticky
cookies for client identification 9-3
definition GL-6
e-commerce application requirements 9-1
groups 9-6
HTTP header for client identification 9-4
IP netmask for client identification 9-4
overview 9-2
types 9-2
sticky group
attributes
HTTP content 9-11
HTTP cookie 9-12
HTTP header 9-13
IP netmask 9-13
Layer 4 payload 9-14
RADIUS 9-14
RTSP header 9-15
V6 prefix 9-13
configuration options 7-47, 9-8
configuring
load balancing 9-7
sticky statics 9-15
overview 9-6
required resource allocation 9-7
type-specific attributes 9-11
viewing 9-15
sticky statics, configuring for sticky groups 9-15
sticky table overview 9-6
sticky type
IP netmask 9-4
HTTP content 9-3
HTTP cookie 9-3
Index
IN-25
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
HTTP header 9-4
IPv6 prefix 9-4
Layer 4 payload 9-4
RADIUS 9-5
RTSP header 9-5
SIP header 9-5
string expression, special characters 14-84
subnet objects, for object groups 6-92
supervisor
assigning VLAN groups to the ACE 12-4
supervisor module, viewing by chassis 5-79
suspend, definition GL-6
suspending
DNS rules for GSS 7-75
real servers 8-15, B-16
virtual servers 7-72
switched virtual interface, adding to MSFC 12-5
switchover 13-9
switch virtual interfaces, configuring 5-45
synchronization of configuration 13-11
synchronizing
ACE module configurations 5-67
configurations for high availability 13-30
contexts created in CLI 7-2, 7-4
device configurations 5-66
virtual context configurations 6-105
sync status, virtual contexts 6-103
syslog
configuration attributes 6-20
configuring
logging 6-19
logging levels 6-19
log hosts 6-23
log messages 6-24
log rate limits 6-26
settings for synchronizing with ACE CLI
autosync 6-105
syslog, setup for Autosync 5-27
syslog logging, configuring 6-19
syslog messages
enabling ACE 5-27
overwriting the ACE logging device-id 18-62
system templates 4-1
T
table
conventions 1-14
customizing 1-15
default distance values 5-40
filtering information in 1-14
ICMP type numbers and names 6-98
protocol names and numbers 6-86
topic reference for policy map rules and actions 14-34
table conventions 1-14
tables
for probe attributes 8-56
for sticky group attributes 9-11
TACACS+ server, authenticating ANM users 18-38
tagging building blocks 16-4, 16-9
takeover, forcing in high availability 13-22
task overview, redundancy 13-14
TCL script
health monitoring 8-50
overview 8-50
TCP
options for connection parameter maps 10-7
probe attributes 8-70
service parameters for object groups 6-94
Telnet
configuring credentials 5-29
import method for chassis 5-5
probe attributes 8-70
template. See building block.
template editor 4-29
edit application template definition 4-18
templates
system 4-1
Index
IN-26
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
user-defined 4-2
terminating
current user sessions 18-24
test
application definition definition 4-28
threshold, definition GL-7
topic reference for configuring rules and actions 14-34
topology maps 17-68
traceroute, definition GL-7
traffic, monitoring 17-30
traffic class components 14-4
traffic classification process 14-3
traffic policy
ACE device support 14-2
components 14-4
configuring 14-1
for application acceleration 15-2
for optimization 15-2
lookup order 14-5
overview 14-1
troubleshooting
importing, ACE module state 5-16
IP discovery 20-7
troubleshooting, using lifeline 20-7
trunk ports, configuring 5-44
types of user 18-5
U
UDP probe attributes 8-71
UDP service parameters, for object groups 6-94
understanding
domains 18-7
operations privileges 18-6
roles 18-6
user groups 18-7
Unprovisioned, configuration status 6-103, 6-105
updating, configuration values 20-1
updating ACE licenses 6-40
upgrading virtual contexts 6-107
URL rewrite, configuring 14-88
user-defined groups
adding 5-72
deleting 5-75
duplicating 5-74
modifying 5-73
overview 5-72
user-defined templates 4-2
user roles, definition GL-7
using
ACLs 6-78
building blocks 16-1
virtual contexts 6-2
V
V6 prefix
sticky group attributes 9-13
versions of building blocks 16-4
view
application template instance details 4-12
viewing 18-61
7600 series router VLANs 5-49
ACE license details 6-36
ACLs by context 6-99
all devices 5-78
all real servers 8-18
all server farms 8-48
all sticky groups 9-15
all virtual servers 7-81
building block use 16-11
BVI interfaces by context 12-25
chassis VLANs 5-49
configuration building block use 16-11
current user sessions 18-24
license information 6-42
ports 5-42
resource class use on contexts 6-54
Index
IN-27
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
staged virtual servers 7-87
virtual server details 7-81
virtual servers by context 7-65
VLAN interfaces by context 12-18
VIP Answer table, and GSS 7-73
virtual context
back up and restore overview 6-59
comparing configuration with building block 6-101
configuration
attributes 6-3
audit 6-101
options 6-8, 6-9
primary attributes 6-14
configuring 6-1
BVI interfaces 12-19
class map match conditions 14-8
class maps 14-6
global policies 6-35
load balancing services 7-1
policy map rules and actions 14-34
policy maps 14-32
primary attributes 6-14
resource classes 6-52
SNMP 6-27
static routes 12-28
syslog 6-19
system attributes 6-13
VLAN interfaces 12-6
create a configuration backup 6-62
creating 6-2
definition GL-7
deleting 6-107
description 6-2
expert options 6-101
managing 6-103
modifying 6-106
monitoring resource usage 17-26
polling
restarting 6-108
viewing status 6-104
restore a configuration 6-66
synchronizing configurations 6-105
sync status 6-103
syslog setup for autosync 6-105
upgrading 6-107
using
for configuration building blocks 16-6
overview 6-2
viewing
all contexts 6-103
BVI interfaces 12-25
polling status 6-104
resource class use 6-54
sync status 6-103
VLANS 12-18
virtual data center B-1, B-2
Virtual Local Area Network (VLAN), definition GL-7
virtual server 7-30, 7-57
activating 7-71
additional options 7-3
advanced view properties 7-12
and user roles 7-3
application acceleration 7-53
application acceleration, additional configuration
options 7-57
basic view properties 7-16
configuration
methods 7-4
recommendations 7-4
configuration subsets 7-8
configuring 7-1, 7-2, 7-7
application acceleration 7-53
default Layer 7 load balancing 7-50
in ANM 7-2
in CLI 7-2, 7-4
Layer 7 load balancing 7-30
NAT 7-63
optimization 7-53, 15-9
Index
IN-28
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
properties 7-11
protocol inspection 7-18
shared objects 7-9
SSL 7-17
definition GL-7
deleting and shared objects 7-10
deployed servers, modifying 7-88
deploying staged servers 7-87
groups 7-67
GSS answer table 7-73, 7-75
load balancing
default 7-50
Layer 7 7-30
managing 7-66
minimum configuration 7-2
modifying
deployed servers 7-88
staged servers 7-88
optimization 7-53
overview 7-2
properties
advanced view 7-12
basic view 7-16
protocols 7-11
recommendations for configuring 7-4
shared objects 7-5, 7-9
SSL attributes 7-17
staged servers
deploying 7-87
modifying 7-88
viewing 7-87
suspending 7-72
viewing
all 7-81
by context 7-65
details 7-81
servers 7-65
staged servers 7-87
VLAN
adding to 7600 series router 5-48
adding to chassis 5-48
configuring
access control 12-14
ACLs 12-14
Layer 2 VLANs 5-50
Layer 3 VLANs 5-51
NAT 12-26
policy maps 12-14
creating VLAN groups 5-52
definition GL-7
FT VLAN for redundancy 13-10
interface
access control 12-14
attributes 12-6
configuring 12-6
NAT pools 12-26
policy maps 12-14
viewing 12-18
managing 5-48
modifying
on 7600 series router 5-51
on chassis 5-51
viewing
by 7600 series router 5-49
by chassis 5-49
VLAN group, creating 5-52
VLAN interfaces
attributes 12-6
configuring 12-6
access control 12-14
for virtual contexts 12-6
policy maps 12-14
viewing by context 12-18
VLANs
configuring 12-3
configuring on the supervisor 12-3
enabling autostate supervisor notification 12-5
groups, assigning 12-4
Index
IN-29
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
groups, creating 12-3
secondary IP addresses, configuring 12-14
switched virtual interfaces, adding to MSFC 12-5
VLAN Trunking Protocol, definition GL-8
VM probe attributes 8-72
VMware
ANM plug-in B-2
Cisco ACE SLB tab
details B-3
overview B-3
information about B-2
mananging real servers B-12
map real server to vCenter Server 5-68
vCenter Server B-2
vSphere Client B-2
VSS
changing passwords 5-75
VTP, definition GL-8
VTP domain, definition GL-8
W
Web server, definition GL-8
weighted roundrobin. See roundrobin
write mem on Config > Operations, enabling 18-63
Index
IN-30
User Guide for the Cisco Application Networking Manager 5.2
OL-26572-01
Mode de introduction manuel de profil de
configuration d'IPSec sur RV160 et RV260
Objectif
L'objectif de ce document est de t'afficher comment configurer le profil IPSec pour le mode
de introduction manuel sur des Routeurs de gammes RV160 et RV260.
Introduction
IPsec s'assure que vous avez la communication privée sécurisée au-dessus de l'Internet. Il
donne deux ou plus héberge l'intimité, l'intégrité, et l'authenticité pour les informations
confidentielles de transmission au-dessus de l'Internet. IPsec est utilisé généralement dans
un réseau privé virtuel (VPN), mis en application à la couche IP, et peut aider beaucoup
d'applications qui manquent de la Sécurité. Un VPN est utilisé pour fournir un mécanisme de
communication protégée pour les données sensibles et les informations IP qui sont
transmises par un réseau unsecure tel que l'Internet. Il fournit une solution flexible pour que
des utilisateurs distants et l'organisation protège n'importe quelles informations
confidentielles contre d'autres interlocuteurs sur le même réseau.
Le mode de introduction manuel réduit la flexibilité et les options d'IPsec. Il exige de
l'utilisateur de fournir le matériel de base et les informations nécessaires d'association de
sécurité à chaque périphérique qui est configuré. L'introduction de manuel ne mesure pas
bien car il est habituellement meilleur utilisé dans un petit environnement.
Il est seulement recommandé d'utiliser cette méthode si l'implémentation de l'échange de
clés Internet (IKE) (IKE)v1 ou IKEv2 sur ce routeur n'est pas identique que votre routeur
distant ou si un des Routeurs ne prend en charge pas l'IKE. Dans des ces cas, vous pourriez
manuellement entrer les clés. Il est recommandé pour configurer le mode de introduction
automatique pour le profil IPSec au lieu du mode de introduction manuel si votre routeur
prend en charge IKEv1 ou IKEv2 et suit les mêmes normes.
En utilisant le manuel introduisant le mode, assurez-vous que votre clé dedans sur votre
routeur local est la clé sur le routeur distant et la clé dedans sur votre routeur distant est la
clé sur votre routeur local.
Un exemple de la configuration pour les deux Routeurs serait :
Guide de l'utilisateur du téléphone IP Cisco Unified 7931G pour
Cisco Unified Communications Manager 9.0 (SCCP et SIP)
Première publication: 1 Janvier 02012
Dernière modification: 18 Juin 2012
Americas Headquarters
Cisco Systems, Inc.
170 West Tasman Drive
San Jose, CA 95134-1706
USA
http://www.cisco.com
Tel: 408 526-4000
800 553-NETS (6387)
Fax: 408 527-0883
LES SPÉCIFICATIONS ET INFORMATIONS RELATIVES AUX PRODUITS PRÉSENTÉS DANS CE MANUEL SONT SUSCEPTIBLES DE MODIFICATIONS SANS PRÉAVIS.
TOUTES LES DÉCLARATIONS, INFORMATIONS ET RECOMMANDATIONS FOURNIES DANS CE MANUEL SONT EXACTES À NOTRE CONNAISSANCE, MAIS SONT
PRÉSENTÉES SANS GARANTIE D'AUCUNE SORTE, EXPRESSE OU IMPLICITE. LES UTILISATEURS ASSUMENT L'ENTIÈRE RESPONSABILITÉ DE L'APPLICATION DE
TOUT PRODUIT.
LA LICENCE DE LOGICIEL ET LA GARANTIE LIMITÉE DU PRODUIT CI-JOINT SONT DÉFINIES DANS LES INFORMATIONS FOURNIES AVEC LE PRODUIT ET SONT
INTÉGRÉES AUX PRÉSENTES SOUS CETTE RÉFÉRENCE. SI VOUS NE TROUVEZ PAS LA LICENCE DE LOGICIEL OU LA GARANTIE LIMITÉE, CONTACTEZ VOTRE
REPRÉSENTANT CISCO POUR EN OBTENIR UNE COPIE.
Les informations ci-dessous concernent la conformité FCC des dispositifs de classe A : Cet équipement a été testé et respecte les limites relatives aux dispositifs numériques de classe A
conformément au chapitre 15 des règles FCC. Ces limites sont destinées à fournir une protection raisonnable contre les interférences nuisibles causées lorsque l'équipement est utilisé dans
un environnement commercial. Cet équipement génère, utilise et peut émettre des fréquences radio et, s'il n'est pas installé et utilisé conformément au manuel de l'utilisateur, peut causer
des interférences susceptibles de perturber les communications radio. L'utilisation de cet équipement dans un environnement résidentiel est susceptible de causer des interférences nuisibles,
auquel cas les utilisateurs sont priés de corriger ces interférences à leurs frais.
Les informations ci-dessous concernent la conformité FCC des dispositifs de classe B : Cet équipement a été testé et respecte les limites relatives aux dispositifs numériques de classe B
conformément au chapitre 15 des règles FCC. Ces limites sont destinées à fournir une protection raisonnable contre les interférences nuisibles causées lorsque l'équipement est utilisé dans
un environnement résidentiel. Cet équipement génère, utilise et peut émettre desfréquencesradio et,s'il n'est pasinstallé et utilisé conformément aux instructions, peut causer desinterférences
susceptibles de perturber les communicationsradio. Nous ne pouvonstoutefois pas vous garantir qu'aucune installation ne causera desinterférences. Si l'équipement provoque desinterférences
au niveau de la réception de la radio ou de la télévision, ce qui peut être constaté en l'allumant et en l'éteignant, l'utilisateur est invité à essayer de remédier à ces interférences en appliquant
une ou plusieurs des mesures ci-dessous :
• Réorientez ou déplacez l'antenne de réception.
• Augmentez la distance entre l'équipement et le récepteur.
• Connectez l'équipement à une prise sur un autre circuit que celui sur lequel le récepteur est connecté.
• Rapprochez-vous d'un revendeur ou d'un technicien radio/TV expérimenté pour obtenir de l'aide.
Toute modification apportée à ce produit sans l'autorisation de Cisco peut invalider l'approbation FCC ainsi que votre droit à utiliser le produit.
L'implémentation par Cisco de la compression d'en-tête TCP est une adaptation d'un programme développé par l'Université de Californie, Berkeley (UCB) dans le cadre de la version du
domaine public de l'UCB du système d'exploitation UNIX. Tous droits réservés. Copyright © 1981, Regents of the University of California.
PAR DÉROGATION À TOUTE AUTRE GARANTIE DÉFINIE ICI, TOUS LES FICHIERS DE DOCUMENTATION ET LOGICIELS DE CES FOURNISSEURS SONT FOURNIS
"EN L'ÉTAT" AVEC TOUS LEURS DÉFAUTS. CISCO ET LES FOURNISSEURS SUSMENTIONNÉS DÉCLINENT TOUTE GARANTIE EXPLICITE OU IMPLICITE, NOTAMMENT
CELLES DE QUALITÉ MARCHANDE, D'APTITUDE À UN BUT PARTICULIER ET DE NON-CONTREFAÇON, AINSI QUE TOUTE GARANTIE EXPLICITE OU IMPLICITE
LIÉE A DES NÉGOCIATIONS, À UN USAGE OU À UNE PRATIQUE marques Cisco.
EN AUCUN CAS CISCO OU SES FOURNISSEURS NE SAURAIENT ÊTRE TENUS POUR RESPONSABLES DE DOMMAGES INDIRECTS, SPÉCIAUX, CONSÉQUENTS OU
ACCIDENTELS, Y COMPRIS ET SANS LIMITATION, LA PERTE DE PROFITS OU LA PERTE OU LES DOMMAGES DE DONNÉES CONSÉCUTIVES À L'UTILISATION OU
À L'IMPOSSIBILITÉ D'UTILISER CE MANUEL, MÊME SI CISCO OU SES FOURNISSEURS ONT ÉTÉ AVERTIS DE LA POSSIBILITÉ DE TELS DOMMAGES.
Cisco et le logo Cisco sont des marques ou des marques déposées de Cisco et/ou de ses filiales aux États-Unis et dans d'autres pays. Pour afficher la liste des marques Cisco, rendez-vous
à l'adresse :http://www.cisco.com/go/trademarkshttp://www.cisco.com/go/trademarks. Les autres marques mentionnées sont la propriété de leurs détenteurs
respectifs. L'utilisation du mot "partenaire" n'implique aucune relation de partenariat entre Cisco et toute autre entreprise. (1110R)
Les adresses IP (Internet Protocol) utilisées dans ce document sont fictives. Tous les exemples, sorties d'affichage de commandes et chiffres présents dans ce document ne sont donnés qu'à
titre indicatif. Toute utilisation d'une adresse IP réelle dans un contenu illustratif serait involontaire et pure coïncidence.
© 2012 Cisco Systems, Inc. All rights reserved.
TABLE DES MATIÈRES
Préface xi
Introduction xi
Informations complémentaires xii
Didacticiels d'apprentissage électronique du téléphone IP Cisco Unified 7900 Series xii
Consignes de sécurité et informations relatives aux performances xiii
Coupure de courant xiii
Périphériques externes xiii
Sécurité des produits Cisco xiv
Fonctions d'accessibilité xiv
Fonctions de votre téléphone IP Cisco Unified 1
Boutons et matériel 1
Définitions de ligne et d'appel 5
Icônes de ligne et d'appel 6
Fonctions de l'écran du téléphone 7
Navigation dans le menu d'application 8
Système d'aide du téléphone 9
Disponibilité des fonctions 9
Protocoles de signalisation SIP et SCCP 10
Économies d'énergie 11
Installation du téléphone 13
Connexions du téléphone IP Cisco Unified 7931G 13
Verrouillage de câble du téléphone 14
Réglage du support du combiné 15
Enregistrement TAPS 15
Prise en charge de casques 16
Qualité audio 16
Informations sur le casque sans fil 16
Fonctions d'appel 17
Guide de l'utilisateur du téléphone IP Cisco Unified 7931G pour Cisco Unified Communications Manager 9.0 (SCCP
et SIP)
iii
Options d'appels de base 17
Passage d'un appel 18
Passage d'un appel à l'aide du haut-parleur 18
Passage d'un appel à l'aide du casque 19
Rappel d'un numéro 19
Composition d'un numéro à partir d'un journal des appels 19
Options des appels supplémentaires 19
Passage d'un appel lorsqu'un autre est actif (sur une ligne différente) 20
Passage d'un appel à l'aide de la numérotation simplifiée 20
Composition d'un numéro depuis le répertoire d'entreprise sur le téléphone 20
Avertissement lorsque le poste occupé ou qui sonne est disponible (rappel) 21
Passage d'un appel prioritaire (qui a la préséance) 21
Composition d'un numéro à partir d'une entrée du carnet d'adresses personnel 21
Passage d'un appel à l'aide d'un code de facturation ou de suivi 22
Utiliser la fonction d'accès vocal mobile pour passer un appel depuis un téléphone
portable 22
Passage d'un appel à l'aide de la numérotation simplifiée 22
Passage d'un appel à l'aide du carnet d'adresses personnel 22
Réponse à un appel 23
Déconnexion de l'appel 24
Mise en attente et reprise des appels 25
Mettre un appel en attente 26
Reprendre un appel mis en attente sur la ligne active 26
Plusieurs appels 26
Mouvement des appels en cours 26
Transférer un appel en cours d'un téléphone portable vers un téléphone de bureau qui partage
la même ligne (transfert de session) 27
Transférer un appel en cours d'un téléphone portable vers un téléphone de bureau 27
Transférer un appel en cours d'un téléphone portable vers des périphériques Cisco Unified
qui partagent la même ligne (transfert de session) 27
Coupure micro 28
Désactiver ou rétablir le son de l'appel 28
Transfert des appels 28
Transfert d'un appel sans parler au destinataire du transfert 29
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Comment informer le destinataire du transfert avant de lui transférer un appel (transfert par
consultation) 29
Transfert de l'appel vers le système de messagerie vocale 29
Transférer un appel actif, qui sonne ou en attente vers un système de messagerie vocale 30
Renvoi d'appels 30
Configurer et annuler le renvoi de tous les appels à partir du téléphone 31
Configuration ou annulation du renvoi d'appels 32
Ne pas déranger 32
Activation et désactivation de la fonction NPD 32
Configuration des paramètres NPD 33
Conférences 33
Conférence ad hoc 33
Création d'une conférence en appelant chacun des participants 34
Ajout de participants à la conférence 34
Comment se joindre à la conférence 35
Joindre des appels existants sur une même ligne téléphonique 35
Comment joindre des appels existants sur plusieurs lignes téléphoniques 35
Conférence Meet-Me 36
Démarrage d'une conférence Meet-Me 36
Comment se joindre à une conférence Meet-Me 36
Liste des participants à la conférence 37
Contrôle de la conférence à l'aide de la liste des participants 37
Vérification de la sécurité de la conférence 38
Appels intercom 38
Passage d'un appel intercom vers le numéro intercom préconfiguré 39
Passage d'un appel intercom vers un numéro intercom 39
Réception d'un appel intercom 39
Gestion avancée des appels 39
Numérotation simplifiée 40
Passage d'un appel à l'aide des boutons de numérotation simplifiée 40
Passage d'un appel à l'aide de la numérotation simplifiée avec le combiné raccroché 40
Passage d'un appel avec la numérotation simplifiée avec le combiné décroché 41
Établir une conférence avec la numérotation simplifiée avec le combiné décroché 41
Transférer un appel avec la numérotation simplifiée avec le combiné décroché 41
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Passage d'un appel avec la numérotation simplifiée avec le combiné décroché dans un
appel en attente 42
Passage d'un appel à l'aide de la numérotation simplifiée 42
Interception d'appels 42
Réponse à un appel entrant qui sonne sur un autre poste de votre groupe d'interception
d'appels 43
Réponse à un appel qui sonne sur un autre poste en dehors de votre groupe de prise
d'appel 43
Réponse à un appel qui sonne sur un autre poste dans le groupe ou dans le groupe
associé 43
Réponse à un appel qui sonne sur un poste donné (numéro de ligne) 44
Parcage d'appels 44
Stocker et récupérer l'appel actif à l'aide du Parcage d'appels 45
Diriger et stocker un appel actif vers un numéro de parcage d'appels dirigé 45
Récupérer un appel parqué depuis un numéro de parcage d'appels dirigé 45
Envoi, stockage et récupération un appel actif vers un numéro de parcage d'appels
dirigé 46
Groupes de recherche 46
Connexion et déconnexion des groupes de recherche 46
Lignes partagées 46
Icône Utilisé à distance 47
Informations sur les appels et l'insertion 47
Confidentialité 47
Informations ligne partagée 47
Empêcher ou autoriser les autres personnes à afficher ou vos appels sur une ligne
partagée ou à s'y insérer 48
Fonctions de supervision de ligne occupée 48
Utiliser l'interception d'appels FLO pour répondre à un appel qui sonne 49
Appels sécurisés 49
Suivi des appels douteux 51
Informer l'administrateur système d'un appel douteux ou malveillant 51
Appels prioritaires 51
Cisco Extension Mobility 52
Connexion au service EM 53
Déconnexion du service EM 53
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Modifier PIN à l'aide du service Modifier les informations d'identification 53
Modifier le PIN à l'aide de la touche Modifier le PIN 54
Appels professionnels à l'aide d'un seul numéro de téléphone 54
Mobile Connect et Accès vocal mobile 54
Mettre en attente l'appel intercepté sur un téléphone portable 55
Vous connecter à la fonction d'accès vocal mobile 56
Activation de Mobile Connect depuis un téléphone portable 56
Désactiver Mobile Connect depuis un téléphone portable 56
Activer ou désactiver l'accès de connexion mobile à toutesles destinations distantes à partir
de votre téléphone de bureau 57
Combiné, casque et haut-parleur 59
Combiné 59
Casque 60
Casque large bande 60
Haut-parleur 60
Réponse automatique avec casque ou haut-parleur 61
Personnalisation du téléphone 63
Personnalisation des sonneries et de l'indicateur de messages 63
Modifier la sonnerie 63
Régler le niveau de la sonnerie du téléphone 64
Modifier le mode de fonctionnement du témoin de message vocal sur le combiné 64
Modification de l'indicateur sonore du message vocal 64
Personnalisation de l'écran du téléphone 64
Modifier la luminosité de l'écran du téléphone 65
Modifier la langue de l'écran du téléphone 65
Changer le libellé de ligne 65
Régler le contraste 66
Paramètre du rétroéclairage 66
Journaux des appels et répertoires 67
Journaux des appels 67
Affichage des journaux d'appels 68
Affichage des détails d'un enregistrement d'appel donné 68
Effacer l'ensemble des enregistrements des appels de tous les journaux des appels 68
Effacer tous les enregistrements des appels d'un journal spécifique 68
Effacer un seul enregistrement d'appel 69
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Composition d'un numéro à partir d'un journal des appels lorsqu'aucun autre appel n'est en
cours 69
Composition d'un numéro à partir d'un journal des appels avec un autre appel en cours 69
Recomposer un numéro international à partir des journaux des appels reçus et en
absence. 70
Fonctions du répertoire 70
Répertoire d'entreprise 71
Composition d'un numéro à partir d'un répertoire d'entreprise lorsqu'aucun autre appel
n'est en cours 71
Composition un numéro à partir d'un répertoire d'entreprise avec un appel en cours 71
Répertoire personnel 72
Accéder au répertoire personnel pour le carnet d'adresses personnel et les codes de
numérotation rapide 72
Recherche d'une entrée du carnet d'adresses personnel 72
Composition d'un numéro à partir d'une entrée du carnet d'adresses personnel 73
Supprimer une entrée du carnet d'adresses personnel 73
Modifier une entrée du carnet d'adresses personnel 73
Ajout d'une entrée au carnet d'adresses personnel 74
Ajouter un nouveau code de numérotation simplifiée sans utiliser d'entrée du carnet
d'adresses personnel 74
Rechercher des codes de numérotation simplifiée 74
Passage d'un appel à l'aide de la numérotation rapide 75
Supprimer un code de numérotation rapide 75
Se déconnecter du répertoire personnel 75
Messages vocaux 77
Identification du message vocal 77
Configurer le service de messagerie vocale 78
Écouter des messages vocaux ou accéder au système de messagerie vocale 78
Pages Web Options utilisateur 79
Connexion et déconnexion des pages Web Options utilisateur 79
Sélection d'un périphérique depuis la page Web Options utilisateur 80
Opérations de la page Web Options utilisateur 80
Sélectionner une option de configuration 80
Configuration des fonctions et des systèmes sur le Web 80
Répertoire personnel sur le Web 81
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Ajout d'une nouvelle entrée au carnet d'adresses personnel 81
Recherche d'une entrée du carnet d'adresses personnel 81
Modification d'une entrée du carnet d'adresses personnel 81
Suppression d'une entrée du carnet d'adresses personnel 82
Affecter un bouton de ligne à votre carnet d'adresses personnel 82
Outil de synchronisation du carnet d'adresses 82
Paramétrage de la numérotation rapide 83
Affectation d'un code de numérotation rapide à une entrée du carnet d'adresses
personnel 83
Affectation d'un code de numérotation rapide au numéro de téléphone sans entrée du carnet
d'adresses personnel 83
Recherche d'une entrée de numérotation rapide 84
Modifier un numéro de téléphone correspondant à un numéro rapide 84
Supprimer un numéro rapide du carnet d'adresses personnel 84
Affectation d'une touche de fonction pour la numérotation rapide 85
Configuration de la numérotation simplifiée sur le Web 85
Configuration des boutons de numérotation simplifiée 85
Configurer des codes de numérotation abrégée 86
Configuration du service téléphonique sur le Web 86
S'abonner à un service 87
Recherche de services 87
Modification ou résiliation de services 87
Modification du nom de service 88
Ajout de service au bouton de fonction programmable 88
Paramètres des utilisateurs 88
Modification du mot de passe du navigateur 89
Changer le PIN 89
Modification de la langue des options utilisateur 89
Modification de la langue de l'écran du téléphone 89
Paramètres de ligne sur le Web 90
Configurer le renvoi d'appels par ligne 90
Modification du paramètre d'indicateur de message vocal par ligne 90
Modification du paramètre d'indicateur de message vocal audible par ligne 91
Modification du libellé de ligne pour l'écran du téléphone 91
Téléphone et liste d'accès pour Mobile Connect 91
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Création d'une liste d'accès 92
Ajout d'une nouvelle destination distante 92
Cisco WebDialer 93
Utiliser WebDialer avec le répertoire Options utilisateur 94
Utiliser WebDialer avec un autre répertoire d'entreprise en ligne (au lieu du répertoire
Options utilisateur) 94
Vous déconnecter de WebDialer 94
Configuration, affichage ou modification des préférences de WebDialer 95
Options supplémentaires 97
Dépannage 99
Problèmes 99
Pas de tonalité ou impossible de passer un appel 99
Touche manquante 100
Impossible d'utiliser la fonction Rappel 100
Message d'erreur de renvoi de tous les appels 100
Le téléphone ne répond pas 101
Message d'erreur de sécurité 101
Impossible d'accéder au menu Paramètres 101
Données de dépannage du téléphone 102
Outil de génération de rapports qualité 102
Garantie 103
Conditions générales de la garantie matérielle limitée à un an de Cisco 103
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Préface
Le Guide de l'utilisateur du téléphone IP Cisco Unified 7931 pour Cisco Unified Communications Manager
explique comment installer et utiliser le téléphone IP Cisco Unified 7931.
Ce chapitre contient les sections ci-dessous :
• Introduction, page xi
• Informations complémentaires, page xii
• Didacticiels d'apprentissage électronique du téléphone IP Cisco Unified 7900 Series, page xii
• Consignes de sécurité et informations relatives aux performances, page xiii
• Sécurité des produits Cisco, page xiv
• Fonctions d'accessibilité, page xiv
Introduction
Ce guide propose une présentation générale des fonctions disponibles sur votre téléphone. Parcourez-le dans
son intégralité pour prendre connaissance de toutesles possibilités de votre téléphone. Vous pouvez également
consulter le tableau ci-après, qui permet d'accéder d'un seul clic aux sections les plus utilisées.
Pour... Procédez comme suit
Lorsque vous avez besoin d'aide, appuyez sur la touche ( ) >
du téléphone.
Apprendre à utiliser le téléphone par
vous-même
Reportez-vous à Consignes de sécurité et informations relatives
aux performances, à la page xiii.
Prendre connaissance des consignes de
sécurité importantes
Raccorder le téléphone Reportez-vous à Installation du téléphone, à la page 13.
Reportez-vous à Fonctions de votre téléphone IP Cisco Unified,
à la page 1.
Utiliser le téléphone une fois qu'il est
installé
En savoir plussur les Boutons et touches Reportez-vous à Boutons et matériel, à la page 1.
de fonctions
Guide de l'utilisateur du téléphone IP Cisco Unified 7931G pour Cisco Unified Communications Manager 9.0 (SCCP
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xi
Pour... Procédez comme suit
Passer des appels Reportez-vous à Options d'appels de base, à la page 17.
Reportez-vous à Mise en attente et reprise des appels, à la page
25.
Mettre des appels en attente
Désactiver le micro durant les appels Reportez-vous à Coupure micro, à la page 28.
Transférer les appels Reportez-vous à Transfert des appels, à la page 28.
Établir des conférences Reportez-vous à Conférences, à la page 33.
Configurer la numérotation simplifiée Reportez-vous à Numérotation simplifiée, à la page 40.
Partager un numéro de téléphone Reportez-vous à Interception d'appels, à la page 42.
Utiliser le mode haut-parleur du Reportez-vous à Combiné, casque et haut-parleur, à la page 59.
téléphone
Reportez-vous à Personnalisation des sonneries et de l'indicateur
de messages, à la page 63.
Modifier le volume de la sonnerie ou de
l'appel
Consulter les appels en absence Reportez-vous à Journaux des appels, à la page 67.
Écouter vos messages vocaux Reportez-vous à Messages vocaux, à la page 77.
Informations complémentaires
Vous pouvez accéder à la documentation Cisco la plus récente à l'adresse :
http://www.cisco.com/en/US/products/hw/phones/ps379/tsd_products_support_series_home.html
Vous pouvez accéder au site Web de Cisco à l'adresse :
http://www.cisco.com/
Les informations les plus récentes sur les licences sont disponibles à l'adresse :
http://www.cisco.com/en/US/docs/voice_ip_comm/cuipph/all_models/openssl_license/7900_ssllic.html
Didacticiels d'apprentissage électronique du téléphone IP
Cisco Unified 7900 Series
(Uniquement sur les téléphones SCCP)
Les didacticiels d'apprentissage électronique du téléphone IP Cisco Unified 7900 utilisent le son et l'animation
pour présenter lesfonctions d'appel de base. Depuis un ordinateur, vous pouvez accéder en ligne aux didacticiels
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Préface
Informations complémentaires
d'apprentissage électronique de plusieurs modèles de téléphones. Pour rechercher le didacticiel (en anglais
uniquement) correspondant à votre modèle de téléphone, reportez-vous à la liste des documentations à l'adresse :
http://www.cisco.com/en/US/products/hw/phones/ps379/products_user_guide_list.html
Même s'il n'existe pas de didacticiel d'apprentissage électronique pour votre modèle de téléphone,
reportez-vous aux didacticiels du téléphone IP Cisco Unified 7900 pour découvrir les caractéristiques et
fonctions communes aux téléphones IP Cisco Unified.
Remarque
Consignes de sécurité et informations relatives aux
performances
Les sections ci-dessous contiennent des informations sur l'impact des coupures de courant et des périphériques
externes sur votre téléphone IP Cisco Unified.
Coupure de courant
Pour accéder au service d'urgence, votre téléphone doit être sous tension. En cas de coupure de courant, le
service d'appel d'urgence et de réparation ne fonctionnera pastant que le courant n'est pasrétabli. Il est possible
que vous deviez alorsréinitialiser ou reconfigurer l'équipement pour pouvoir utiliser le service d'appel d'urgence
et de réparation.
Périphériques externes
Cisco recommande d'utiliser des périphériques externes (par exemple, des casques), des câbles et des
connecteurs de bonne qualité, blindés contre les interférences produites par les signaux de fréquences radio
et audio.
En fonction de la qualité de ces périphériques et de leur proximité par rapport à d'autres appareils, comme
des téléphones portables ou des radios bidirectionnelles, des parasites sonores sont toujours susceptibles de
se produire. Dans ce cas, Cisco vous recommande d'appliquer une ou plusieurs des mesures ci-dessous :
• Éloignez le périphérique externe de la source émettrice des signaux de fréquences radio ou audio.
• Maintenez les câbles du périphérique externe éloignés de la source émettrice des signaux de fréquences
radio ou audio.
• Utilisez des câbles blindés pour le périphérique externe ou des câbles dotés d'un blindage supérieur et
d'un meilleur connecteur.
• Raccourcissez le câble du périphérique externe.
• Utilisez des structures en ferrite ou d'autres dispositifs de ce type pour les câbles du périphérique externe.
Cisco ne peut pas garantir les performances des périphériques, des câbles et des connecteurs externes.
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Préface
Consignes de sécurité et informations relatives aux performances
Dans les pays de l'Union européenne, n'utilisez que des haut-parleurs, des microphones et des casques
externes conformes à la Directive 89/336/CE sur la compatibilité électromagnétique (CEM).
Précaution
Sécurité des produits Cisco
Ce produit, qui intègre des fonctions cryptographiques, est soumis aux lois des États-Unis et des autres pays
qui en régissent l'importation, l'exportation, le transfert et l'utilisation. La fourniture de produits cryptographiques
Cisco n'autorise pas un tiers importer, à exporter, à distribuer ou à utiliser le chiffrement. Les importateurs,
exportateurs, distributeurs et utilisateurs sont responsables du respect des lois des États-Unis et des autres
pays. Lorsque vous utilisez ce produit, vous acceptez de respecter les lois et les réglementations applicables.
Si vous n'êtes pas en mesure de respecter les lois des États-Unis et celles des autres pays, renvoyez-nous ce
produit immédiatement.
Pour plus d'informations sur les réglementations américaines concernant les exportations, reportez-vous à
l'adresse suivante :
http://www.access.gpo.gov/bis/ear/ear_data.html.
Fonctions d'accessibilité
Les téléphones IP Cisco Unified de la série 7900 offrent des fonctions d'accessibilité pour les malvoyants, les
malentendants et les personnes à mobilité réduite.
Pour plus d'informations sur les fonctions de ces téléphones, reportez-vous à Fonctions d'accessibilité du
téléphone IP Cisco Unified 7900.
Pour plus d'informations sur l'accessibilité, vous pouvez également vous reporter au site Web Cisco :
http://www.cisco.com/web/about/responsibility/accessibility/index.html
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Sécurité des produits Cisco
CHAPITRE 1
Fonctions de votre téléphone IP Cisco Unified
Le téléphone IP Cisco Unified 7931G est un téléphone haut de gamme qui permet une communication vocale
via le réseau de données utilisé par votre ordinateur. Ainsi, vous pouvez émettre et recevoir des appels, en
mettre en attente, en transférer, établir des conférences, etc.
Il est conçu pour répondre aux besoins de communication dans un environnement de trafic téléphonique
modéré et d'exigences d'appelspécifiques. Doté de touches dédiées de mise en attente, de rappel et de transfert
facilitant la gestion des appels, il intègre également des fonctions d'amélioration de la productivité qui
permettent d'accroître vos capacités d'administration :
• L'accès aux données du réseau, aux applications XML et aux services Web.
• La personnalisation en ligne des fonctions et des services du téléphone à partir de vos pages Web
Options utilisateur Cisco Unified CM.
• Un système d'aide en ligne complet qui affiche des informations sur l'écran du téléphone.
Ce chapitre contient les sections ci-dessous :
• Boutons et matériel, page 1
• Définitions de ligne et d'appel, page 5
• Fonctions de l'écran du téléphone, page 7
• Navigation dans le menu d'application, page 8
• Système d'aide du téléphone, page 9
• Disponibilité des fonctions, page 9
• Protocoles de signalisation SIP et SCCP, page 10
• Économies d'énergie, page 11
Boutons et matériel
Utilisez l'illustration ci-dessous pour identifier les boutons et les composants matériels du téléphone.
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Fonctions de votre téléphone IP Cisco Unified
Boutons et matériel
Élément Description
En fonction de la configuration du téléphone, les boutons programmables (ou
touches de ligne) permettent d'accéder aux éléments ci-dessous :
• Lignes téléphoniques et lignes intercom (boutons de ligne)
• Numérossimplifiés(boutons de numérotation simplifiée, y compris avec
la fonction FLO)
• Services Web (par exemple, bouton du carnet d'adresses personnel)
• Fonctions d'appel (par exemple, Confidentialité et Conférence)
• Fonctions locales (par exemple, menu d'application, Casque et
Paramètres)
Les boutons s'allument pour indiquer les états :
Vert, fixe : appel actif ou appel intercom bidirectionnel
Vert, clignotant : appel en attente
Orange fixe : fonction de confidentialité en cours d'utilisation, appel
intercom unidirectionnel, NPD, connexion établie à un groupe de recherche
ou activation d'une fonction locale, notamment d'un casque
Orange clignotant : appel entrant ou renvoyé
Rouge fixe : ligne distante en cours d'utilisation (ligne partagée, état FLO
ou appel mobile en cours)
Rouge clignotant : appel distant en attente
Les touches de ligne sont numérotées de 24 à 1, dans l'ordre décroissant et de
la gauche et vers la droite alternativement.
1 Boutons programmables
2 Étiquette papier Identifie chaque bouton par des informations sur la ligne ou la fonction.
3 Touches Chacune de ces touches active une option (affichée sur l'écran du téléphone).
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Fonctions de votre téléphone IP Cisco Unified
Boutons et matériel
Élément Description
4 Bouton Attente Met les appels en attente.
5 Bouton Transfert Transfère un appel vers un autre numéro.
6 Bouton Bis Appelle le dernier numéro composé.
Permet de composer des numéros de téléphone, de saisir des lettres et de
sélectionner des options de menu.
7 Clavier
Active ou désactive le microphone. Lorsque le microphone est coupé, le bouton
est allumé.
8 Bouton Coupure du micro
Contrôle le volume du combiné, du casque et du haut-parleur (en mode
décroché), ainsi que le volume de la sonnerie (en mode raccroché).
9 Bouton Volume
Active ou désactive le mode haut-parleur. Lorsque le mode haut-parleur est
activé, le bouton est allumé.
10 Bouton haut-parleur
11 Combiné Fonctions identiques à celles d'un combiné traditionnel.
Signale un appel entrant ou un nouveau message vocal. Clignote pour indiquer
un appel entrant et reste allumé lorsqu'un message est en attente.
12 Témoin lumineux du combiné
Affiche des informations telles que l'état de la ligne et des appels, les numéros
de téléphone et la touche.
13 Écran du téléphone
Modèle de téléphone IP Cisco Indique le numéro du modèle de votre téléphone IP Cisco Unified.
Unified
14
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Fonctions de votre téléphone IP Cisco Unified
Boutons et matériel
Élément Description
Bouton de navigation
• Permet de faire défiler vers le haut ou vers le bas de façon à afficher les
menus et à sélectionner leurs options
• Permet de faire défiler vers la gauche pour ouvrir l'écran Détails et
afficher les numéros d'annuaire, ainsi que lesfonctions affectées à chaque
bouton de ligne (dans l'écran d'appel)
• Permet de faire défiler vers la droite pour fermer l'écran Détails
Pavé de navigation à 4 directions
et bouton Sélectionner (au centre)
15
Bouton Sélectionner : sélectionnez une ligne à l'aide du bouton de navigation,
puis procédez comme suit :
• Si le bouton est mis en correspondance avec un numéro d'annuaire et :
◦ Si la ligne est inactive, appuyez sur pour passer un appel.
◦ Si un appel en attente est sur la ligne, appuyez sur le bouton
pour reprendre l'appel.
◦ Si un appel est actif sur la ligne, le bouton Sélectionner est sans
effet.
• Si le bouton est mis en correspondance avec une fonction, appuyez sur
pour accéder à celle-ci.
Définitions de ligne et d'appel
Il est facile de faire l'amalgame entre les termes lignes et appels.
• Lignes : Le téléphone compte 24 boutons programmables (reportez-vous à Boutons et matériel, à la
page 1). En général, l'administrateur système affecte un certain nombre de ces lignes (jusqu'à 24) à
l'établissement et à la réception des appels. Chacune est associée à un numéro d'annuaire ou à un numéro
intercom que vos contacts peuvent utiliser pour vous appeler.
Certaines lignes peuvent partager le même numéro d'annuaire, tandis que d'autres peuvent avoir un
numéro spécifique.Pour afficher voslignestéléphoniques, utilisez le bouton de navigation pour parcourir
la liste d'affichage des boutons programmables (reportez-vous à Fonctions de l'écran du téléphone, à la
page 7).
Les boutons configurés comme deslignes affichent le numéro d'annuaire et le numéro de bouton associés.
Par exemple, si le numéro d'annuaire “3105” est affecté au bouton 1, la ligne s'affiche sous la forme de
"3105:01" sur l'écran du téléphone. Chaque ligne est également associée à une icône afin que vous
puissiez identifier la fonction (reportez-vous à Icônes de ligne et d'appel, à la page 6).
• Appels : chaque ligne peut prendre en charge un seul appel. Même si plusieurs lignes partagent un
numéro d'annuaire, chacune peut prendre en charge un appel.
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Fonctions de votre téléphone IP Cisco Unified
Définitions de ligne et d'appel
Icônes de ligne et d'appel
Votre téléphone affiche des icônes destinées à déterminer l'état de la ligne et celui de l'appel, ainsi que
l'accessibilité des fonctions sur chaque ligne.
État de la ligne ou de Description
l'appel
Icône
État de l'appel
Combiné raccroché Aucune activité d'appel sur cette ligne.
Combiné décroché Vous êtes en train de composer un numéro ou un appel sortant sonne.
Appel connecté Vous êtes connecté avec votre interlocuteur.
Transfert des appels Le renvoi d'appel est activé sur cette ligne.
activé
Un appel sonne sur l'une de vos lignes ou une ligne surveillée par FLO
sonne ( Interception d'appels FLO). Reportez-vous à Fonctions de
supervision de ligne occupée, à la page 48.
Appel qui sonne
Vous avez mis un appel en attente. Reportez-vous à Mise en attente et
reprise des appels, à la page 25.
Appel en attente
Un autre téléphone qui partage votre ligne a mis un appel en attente.
Reportez-vous à Mise en attente et reprise des appels, à la page 25.
Appel distant en
attente
Un autre téléphone qui partage votre ligne a un appel connecté.
Reportez-vous à Lignes partagées, à la page 46.
Utilisé à distance
Appel authentifié Reportez-vous à Appels sécurisés, à la page 49.
Appel chiffré Reportez-vous à Appels sécurisés, à la page 49.
La ligne intercom n'est pas utilisée. Reportez-vous à Appels intercom,
à la page 38.
Ligne intercom
inactive
La ligne intercom envoie ou reçoit des données audio unidirectionnelles.
Reportez-vous à Appels intercom, à la page 38.
Intercom
unidirectionnel
Appuyez sur le bouton de la ligne intercom pour activer le son
bidirectionnel avec l'appelant intercom. Reportez-vous à Appels
intercom, à la page 38.
Intercom
bidirectionnel
Accès aux fonctions
Le menu d'application est affecté à cette touche de ligne. Reportez-vous
à Navigation dans le menu d'application, à la page 8.
Menu d'application
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Fonctions de votre téléphone IP Cisco Unified
Icônes de ligne et d'appel
État de la ligne ou de Description
l'appel
Icône
Le menu Paramètres est affecté à cette touche de ligne. Reportez-vous
à Personnalisation du téléphone, à la page 63.
Menu Paramètres
Le menu Répertoires est affecté à cette touche de ligne. Reportez-vous
à Journaux des appels et répertoires, à la page 67.
Menu Répertoires
Le menu Messages est affecté à cette touche de ligne. Reportez-vous à
Messages vocaux, à la page 77.
Menu Messages
Le menu Services est affecté à cette touche de ligne. Reportez-vous à
Configuration du service téléphonique sur le Web, à la page 86.
Menu Services
Cette option permet d'utiliser un casque avec votre téléphone.
Reportez-vous à Combiné, casque et haut-parleur, à la page 59.
Bouton Casque
La fonction Conférence est affectée à cette touche de ligne.
Reportez-vous à Conférences, à la page 33.
Bouton Conférence
Une fonction d'appel est affectée à cette touche de ligne. Reportez-vous
au texte de description en regard de l'icône pour vérifier la fonction.
Autre fonction
d'appel
La fonction d'accès mobile est affectée à cette touche de ligne.
Reportez-vous à Appels professionnels à l'aide d'un seul numéro de
téléphone, à la page 54.
Mobilité
Une fonction d'appel affectée à cette touche de ligne est activée.
Reportez-vous au texte de description en regard de l'icône pour vérifier
la fonction.
Fonction activée
Un bouton de numérotation simplifiée est affecté à cette touche de ligne.
Reportez-vous à Interception d'appels, à la page 42, à Configuration
du service téléphonique sur le Web, à la page 86 et à Fonctions de
supervision de ligne occupée, à la page 48.
Numérotation
simplifiée ou
fonction FLO
associée
Astuce
L'administrateursystème peut vousremettre une étiquette papier préimprimée destinée à rappeler l'affectation
des touches de ligne. Si ce n'est pas le cas, enlevez l'étiquette vierge et apposez-y vos propres libellés.
Fonctions de l'écran du téléphone
La figure ci-dessous représente l'écran de votre téléphone lorsqu'il est inactif. Il s'agit de l'écran “Aperçu.”
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Fonctions de votre téléphone IP Cisco Unified
Fonctions de l'écran du téléphone
1 Date et heure Affiche la date et l'heure actuelles.
Affiche le numéro de téléphone (numéro d'annuaire) de votre ligne
téléphonique principale.
2 Ligne téléphonique principale
Les boutons programmables peuvent servir pour les lignes
téléphoniques, les lignes intercom, la numérotation simplifiée, les
services téléphoniques, ainsi que les fonctions d'appel ou locales.
Indicateurs des boutons
programmables
3
Les icônes et les descriptions précisent la configuration de ces
boutons. Pour connaître la signification des icônes, reportez-vous
à Icônes de ligne et d'appel, à la page 6.
4 Étiquettes de touche Chacune décrit la fonction d'une touche.
Affiche les icônes du mode audio, les informations d'état et les
invites.
5 Ligne d'état
La figure ci-dessousreprésente l'écran de votre téléphone principal en cours d'appel. Ils'agit de l'écran “Détails.”
1 Aperçu Affiche le numéro et l'icône d'état de chaque ligne.
Affiche les détails concernant les fonctions locales et d'appel affectées à la touche
de ligne sélectionnée. Dans l'exemple ci-dessus, l'écran affiche des informations
2 Écran Détails
sur l'appel connecté, comme le numéro d'annuaire, la durée de connexion et l'état
de l'appel. Utilisez le bouton de navigation pour faire défiler les détails et consulter
ceux relatifs à d'autres lignes.
Les fonctions locales et d'appel affichent les noms d'étiquette et les icônes dans
l'écran Détails. Reportez-vous à Icônes de ligne et d'appel, à la page 6.
Navigation dans le menu d'application
Le menu d'application permet d'accéder aux fonctions locales du téléphone.
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Fonctions de votre téléphone IP Cisco Unified
Navigation dans le menu d'application
Pour... Procédez comme suit...
Appuyez sur > pour afficher la liste des applications: Messages, Répertoire,
Paramètres, Services et Aide. (En général, le menu d'application est affecté au
bouton 24 , en haut de la colonne de gauche.)
Accéder au menu
d'application
Faire défiler une liste ou Utilisez le bouton de navigation.
un menu
Utilisez le bouton de navigation pour mettre en surbrillance l'option de menu
souhaitée, puis appuyez sur ou Sélect. Vous pouvez également composer sur
le clavier le numéro de l'option de menu.
Sélectionner une option
de menu
Appuyez sur Quitter. (Si vous appuyez sur Quitter alors que vous êtes dans le
niveau supérieur d'un menu, ce dernier se ferme.)
Remonter d'un niveau
dans un menu
Fermer un menu (et Appuyez une ou plusieurs fois sur Quitter jusqu'à ce que le menu se ferme.
revenir au menu
d'application)
Quitter Appuyez sur ou sur Quitter.
le menu
d'application
Astuce
Vous pouvez également affecter des boutons à certaines options du menu d'application (Paramètres, Répertoires,
Services, Messages). Utilisez le bouton de navigation pour parcourir l'aperçu et reportez-vous à Icônes de
ligne et d'appel, à la page 6 pour identifier ces lignes.
Système d'aide du téléphone
Votre téléphone comprend un système complet d'aide en ligne.
Pour afficher l'aide du téléphone, appuyez sur, puis sélectionnez > > Aide.
En général, le menu d'application est affecté au bouton 24, situé en haut de la colonne de gauche.
Disponibilité des fonctions
En fonction de la configuration de votre système téléphonique, certaines fonctions décrites dans ce guide sont
susceptibles de ne pas être disponibles dans votre cas ou de fonctionner différemment.Pour plus d'informations
sur le fonctionnement ou sur la disponibilité des fonctions, contactez un membre de l'équipe d'assistance ou
votre administrateur système.
Vous pouvez accéder aux fonctions en utilisant les touches ou en appuyant sur une touche de ligne. Vous
pouvez configurer certaines de ces fonctions, mais votre administrateur contrôle la plupart d'entre elles.
Voici quelques informations concernant l'accès aux fonctions au moyen des touches et des boutons de ligne.
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Fonctions de votre téléphone IP Cisco Unified
Système d'aide du téléphone
Fonction Touche Étiquette et icône du bouton de ligne
Rappel Rappel Rappel
Renvoi d'appels RenvTt Renvoi de tous les appels
Parcage d'appels Parquer Parquer
Interception d'appels Intrcpt Intrcpt
Conférence Conf. Conférence
Liste de conférence ListConf Liste de conférence
Ne pas déranger NPD Ne pas déranger
Comment mettre fin à un appel FinApp Comment mettre fin à un appel
Interception d'appels de groupe GrpIntr Interception d'appels de groupe
Attente Attente bouton
Groupe de recherche Groupmt Groupe de recherche
Identification d'un appel malveillant IDAM ID des appels malveillants
Conférences Meet-Me Meet-Me Meet-Me
Mobilité Mobilité Mobilité
NvAppel NvAppel NvAppel
Autre interception AGrpIntr Autre interception
bouton Bis Bis
Supprimer le dernier participant à une conférence SupDerA Supprimer dernier participant
bouton Transfert Transfert
Prise en charge vidéo ModeVid. Vidéo
Protocoles de signalisation SIP et SCCP
Votre administrateur système configure votre téléphone avec un des deux protocoles de signalisation : SIP
(Session Initiation Protocol) ou SCCP (Skinny Call Control Protocol).
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Fonctions de votre téléphone IP Cisco Unified
Protocoles de signalisation SIP et SCCP
Les fonctions disponibles sur le téléphone dépendent du protocole choisi. Le présent manuel définit les
fonctions spécifiques à chaque protocole. Pour savoir quel protocole est utilisé par votre téléphone, contactez
votre administrateur système.
Économies d'énergie
Votre téléphone prend en charge le programme EnergyWise de Cisco. Afin d'économiser de l'énergie, votre
administrateursystème a défini des périodes de veille (arrêt) et de réveil (mise en marche)sur votre téléphone.
Si votre administrateur système a activé l'alerte sonore, une sonnerie retentit dix minutes avant l'heure prévue
de mise en veille. Cette alerte respecte le calendrier suivant :
• 10 minutes avant l'arrêt, l'alerte retentit quatre fois
• 7 minutes avant l'arrêt, l'alerte retentit quatre fois
• 4 minutes avant l'arrêt, l'alerte retentit quatre fois
• 30 secondes avant l'arrêt, l'alerte retentit 15 fois ou sonne jusqu'à ce que le téléphone s'arrête
Si votre téléphone est inactif au moment de l'arrêt, un message vous rappelle qu'il est sur le point de s'arrêter.
Pour qu'il reste allumé, appuyez sur n'importe quelle touche de votre téléphone. Si vous n'appuyez sur aucune
touche, votre téléphone s'arrête.
Si votre téléphone est actif (un appel est en cours, par exemple), votre téléphone attend d'être inactif pendant
un certain temps avant de vous informer qu'il est sur le point de s'arrêter. Avant l'arrêt, un message vous
rappelle que le téléphone est sur le point de s'arrêter.
Votre téléphone se met en marche à l'heure définie. Pour réveiller le téléphone avant l'heure prévue, contactez
votre administrateur.
Les périodes de veille et de réveil ont également été définies en fonction de vos jours de travail habituels. Si
ces conditions évoluent (par exemple,si vos horaires ou vosjours de travail ne sont plusles mêmes), demandez
à votre administrateur système de reconfigurer votre téléphone.
Pour plus d'informations sur le programme EnergyWise et votre téléphone, contactez votre administrateur
système.
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Fonctions de votre téléphone IP Cisco Unified
Économies d'énergie
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Fonctions de votre téléphone IP Cisco Unified
Économies d'énergie
CHAPITRE 2
Installation du téléphone
Ce chapitre présente les sections ci-dessous sur la façon d'installer manuellement votre téléphone.
• Connexions du téléphone IP Cisco Unified 7931G, page 13
• Réglage du support du combiné, page 15
• Enregistrement TAPS, page 15
• Prise en charge de casques, page 16
Connexions du téléphone IP Cisco Unified 7931G
La figure et le tableau ci-dessous indiquent comment connecter votre téléphone.
1 Port de l'adaptateur CC (CC48V)
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2 Port réseau (10/100 SW)
3 Port d'accès (10/100 PC)
4 Port casque
5 Port du combiné
Verrouillage de câble du téléphone
Vous pouvez sécuriser le téléphone IP Cisco Unified sur un bureau à l'aide d'un système de verrouillage de
câble d'ordinateur portable. Le verrou se connecte à la fente de sécurité à l'arrière du téléphone et le câble
peut être attaché au bureau de manière sécurisée.
La fente de sécurité est adaptée à un verrou de 20 mm. Les câbles de verrouillage d'ordinateurs portables
compatibles comprennent le verrouillage de câble d'ordinateur portable Kensington et les câbles de verrouillage
d'ordinateur portable d'autres fabricants qui peuvent s'adapter dans la fente de sécurité à l'arrière du téléphone.
Reportez-vous à la figure ci-dessous.
Figure 1: Connecter un système de verrouillage de câble au téléphone IP Cisco Unified
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Installation du téléphone
Verrouillage de câble du téléphone
Réglage du support du combiné
Si votre téléphone est fixé au mur, vous devrez peut-être régler le support pour éviter que le combiné ne s'en
détache.
Procédure
Étape 1 Décrochez le combiné et retirez la plaquette en plastique du support du combiné.
Étape 2 Faites pivoter la plaquette de 180 degrés.
Étape 3 Tenez la plaquette entre deux doigts, les encoches tournées dans votre direction.
Étape 4 Alignez la plaquette avec l'emplacement dans le support, puis appuyez dessus de façon égale pour l'y insérer.
Une extension ressort en haut de la plaquette qui a pivoté.
Étape 5 Replacez le combiné sur son support.
Enregistrement TAPS
TAPS peut être utilisé pour un nouveau téléphone ou pour en remplacer un existant. Pour enregistrer un
téléphone à l'aide de l'outil TAPS, décrochez le combiné, saisissez le numéro de poste TAPS fourni par votre
administrateur système, puis suivez les instructions vocales. Il est possible que vous deviez saisir la totalité
de votre numéro de poste, y compris l'indicatif régional. Lorsque votre téléphone affiche un message de
confirmation, raccrochez. Le téléphone redémarre.
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Installation du téléphone
Réglage du support du combiné
Prise en charge de casques
Bien que CiscoSystemsréalise certains essaisinternessur des casques de fournisseurstierssusceptibles d'être
utilisés avec les téléphones IP Cisco Unified, Cisco ne certifie ni ne promeut de produits de fournisseurs de
casques ou de combinés.
Cisco recommande d'utiliser des casques de bonne qualité, blindés contre les interférences produites par les
signaux de fréquences radio (RF) ou audio (AF). En fonction de la qualité des casques et de leur proximité
par rapport à d'autres périphériques tels que des téléphones portables et des radios bidirectionnelles, des
parasites sonores ou des échos sont toujours susceptibles de se produire. Un ronflement ou un bourdonnement
peut être entendu soit par l'interlocuteur uniquement, soit par l'interlocuteur et par l'utilisateur du téléphone IP
Cisco Unified. Lesronflements et les bourdonnements peuvent être provoqués par diversessources extérieures:
lampes électriques, moteurs électriques ou grands écrans d'ordinateur, par exemple.
Dans certains cas, il est possible de réduire ou d'éliminer le ronflement à l'aide d'un groupe amplificateur
de, puissance local ou d'un injecteur de, puissance.
Remarque
En raison de ces contraintes environnementales et matérielles liées aux différents sites de déploiement des
téléphonesIP Cisco Unified, il n'existe pas de solution de casque unique optimale pour tousles environnements.
Cisco recommande aux clients de tester les casques dans l'environnement prévu afin de déterminer leurs
performances avant de prendre une décision d'achat et de les déployer à grande échelle.
Rubriques connexes
Périphériques externes, à la page xiii
Qualité audio
Au delà des performances physiques, mécaniques et techniques, la qualité du son d'un casque doit sembler
bonne pour l'utilisateur comme pourson interlocuteur. La qualité sonore estsubjective et Cisco ne peut garantir
les performances d'aucun casque. Un certain nombre de casques de grandsfabricants ont toutefois été signalés
comme fonctionnant bien avec les téléphones IP Cisco Unified. Pour plus d'informations, reportez-vous à la
documentation du casque.
Informations sur le casque sans fil
Vousrechercherez plus d'informationssur les casquessansfil fonctionnant avec la commande de commutation
à distance pour casque sans fil à l'adresse suivante (en anglais) :
http://www.cisco.com/pcgi-bin/ctdp/Search.pl
1 Dans la zone de liste Enter Solution, choisissez IP Communications. La zone de liste Select a Solution
Category s'affiche.
2 Choisissez l'option IP Phone Headsets pour afficher une liste des partenaires du programme de
développement technologique.
Si vous voulez rechercher un partenaire du Programme de développement de technologies en particulier,
saisissez le nom de ce partenaire dans le champ Saisir le nom d'une société.
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Installation du téléphone
Prise en charge de casques
CHAPITRE 3
Fonctions d'appel
Lestâches de gestion de base des appelss'appuientsur un ensemble de fonctions et de services. La disponibilité
des fonctions peut varier. Pour plus d'informations, contactez votre administrateur système.
Ce chapitre contient les sections ci-dessous :
• Options d'appels de base, page 17
• Options des appels supplémentaires, page 19
• Réponse à un appel, page 23
• Déconnexion de l'appel, page 24
• Mise en attente et reprise des appels, page 25
• Plusieurs appels, page 26
• Mouvement des appels en cours, page 26
• Coupure micro, page 28
• Transfert des appels, page 28
• Transfert de l'appel vers le système de messagerie vocale, page 29
• Renvoi d'appels, page 30
• Ne pas déranger, page 32
• Conférences, page 33
• Appels intercom, page 38
• Gestion avancée des appels, page 39
Options d'appels de base
Les procédures ci-dessous décrivent des méthodes simples pour passer un appel depuis votre téléphone IP
Cisco Unified.
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Astuces
• Vous pouvez composer un numéro avec le combiné raccroché et sans tonalité (prénumérotation). Pour
utiliser la prénumérotation, saisissez un numéro, soulevez le combiner pour décroche, puis appuyez sur
Composer, sur ( ) ou sur .
• Lors de la prénumérotation, le téléphone tente d'anticiper le numéro que vous êtes en train de composer.
Pour ce faire, il utilise le journal des appels composés afin d'afficher les numéros correspondants (le cas
échéant). Cette opération s'appelle la numérotation automatique. Pour appeler un numéro affiché par le
biais de cette fonction, accédez à celui-ci, puis décrochez le combiné ou appuyez sur le bouton Sélect.
• Si vous faites une erreur lorsque vous composez le numéro, appuyez sur << pour effacer les chiffres.
• Si les interlocuteurs d'un appel entendent un bip, l'appel est peut-être surveillé ou enregistré. Pour plus
d'informations, contactez votre administrateur système.
• Pour démarrer ou pour arrêter un enregistrement, appuyez sur Enregistrer sur votre téléphone.
• Votre téléphone peut être configuré pour la consignation des appels internationaux, qui est indiquée par
un symbole “+” sur les journaux des appels, le rappel ou les entrées du répertoire des appels. Pour plus
d'informations, contactez votre administrateur système.
Rubriques connexes
Combiné, casque et haut-parleur, à la page 59
Journaux des appels, à la page 67
Passage d'un appel
Procédure
Décrochez le combiné, puis composez le numéro.
Passage d'un appel à l'aide du haut-parleur
Procédure
Étape 1 Appuyez sur
Étape 2 Saisissez un numéro.
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Fonctions d'appel
Passage d'un appel
Passage d'un appel à l'aide du casque
Procédure
Appuyez sur ( ), puis saisissez un numéro.
(La touche 23 est généralement affectée au casque.)
Rappel d'un numéro
Procédure
Appuyez sur pour composer le numéro.
Composition d'un numéro à partir d'un journal des appels
Procédure
Étape 1 Appuyez sur , puis sélectionnez Répertoires.
Étape 2 Sélectionnez l'une des options ci-dessous :
• Appels en absence
• Appels reçus
• Appels composés
Étape 3 Faites défiler jusqu'au numéro souhaité, puis appuyez sur Composer.
Options des appels supplémentaires
Vous pouvez passer des appels à l'aide des fonctions et services spéciaux éventuellement disponibles sur votre
téléphone. Pour plus d'informations sur ces options supplémentaires, contactez votre administrateur système.
Astuces
• Pour passer un appel à l'aide de votre profil Extension Mobility, connectez-vous au service Extension
Mobility sur un téléphone.
• Pour vérifier si une ligne associée à un numéro simplifié est occupée avant de l'appeler, recherchez les
indicateurs de fonction de ligne occupée.
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Fonctions d'appel
Passage d'un appel à l'aide du casque
Rubriques connexes
Cisco Extension Mobility, à la page 52
Fonctions de supervision de ligne occupée, à la page 48
Mise en attente et reprise des appels, à la page 25
Numérotation simplifiée, à la page 40
Journaux des appels, à la page 67
Appels prioritaires, à la page 51
Répertoire personnel, à la page 72
Appels professionnels à l'aide d'un seul numéro de téléphone, à la page 54
Répertoire personnel sur le Web, à la page 81
Paramétrage de la numérotation rapide, à la page 83
Passage d'un appel lorsqu'un autre est actif (sur une ligne différente)
Procédure
Étape 1 Appuyez sur pour ouvrir une nouvelle ligne. Le premier appel est automatiquement mis en attente.
Étape 2 Saisissez un numéro.
Passage d'un appel à l'aide de la numérotation simplifiée
Procédure
Effectuez l'une des opérations ci-dessous :
a) Appuyez sur ( ).
b) Utilisez la fonction de numérotation abrégée.
c) Utilisez la fonction de numérotation rapide.
Composition d'un numéro depuis le répertoire d'entreprise sur le téléphone
Procédure
Étape 1 Appuyez sur ( ) > Répertoires > Répertoire d'entreprise
Étape 2 (le nom peut varier).
Étape 3 Saisissez un nom, puis appuyez sur Recher.
Étape 4 Mettez une entrée de la liste en surbrillance et décrochez.
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Fonctions d'appel
Passage d'un appel lorsqu'un autre est actif (sur une ligne différente)
Avertissement lorsque le poste occupé ou qui sonne est disponible (rappel)
Remarque La fonction Rappel n'est pas disponible lorsqu'un appel est chaperonné.
Procédure
Étape 1 Appuyez sur Rappel lorsque vous entendez la tonalité d'occupation ou la sonnerie.
Étape 2 Raccrochez. Le téléphone vous avertit lorsque la ligne se libère.
Étape 3 Passez de nouveau l'appel.
Passage d'un appel prioritaire (qui a la préséance)
Procédure
Étape 1 Saisissez le numéro d'accès MLPP.
Étape 2 Saisissez un numéro de téléphone.
Composition d'un numéro à partir d'une entrée du carnet d'adresses personnel
Procédure
Étape 1 Appuyez sur ( ) > Répertoires > Répertoire personnel pour vous connecter.
Étape 2 Sélectionnez Carnet d'adresses personnel, puis recherchez une liste.
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Fonctions d'appel
Avertissement lorsque le poste occupé ou qui sonne est disponible (rappel)
Passage d'un appel à l'aide d'un code de facturation ou de suivi
Procédure
Étape 1 Composez un numéro.
Étape 2 Lorsque vous entendez la tonalité, saisissez un code d'affaire client (CMC) ou un code d'autorisation forcée
(FAC).
Utiliser la fonction d'accès vocal mobile pour passer un appel depuis un
téléphone portable
Procédure
Étape 1 Pour connaître votre numéro d'accès vocal mobile et votre PIN, contactez votre administrateur système.
Étape 2 Composez le numéro d'accès vocal mobile qui vous a été attribué.
Étape 3 Saisissez le numéro de votre téléphone portable, si vous y êtes invité, ainsi que votre PIN.
Étape 4 Appuyez sur 1 pour passer un appel vers un téléphone IP d'entreprise.
Étape 5 Composez le numéro d'un téléphone de bureau autre que le vôtre.
Passage d'un appel à l'aide de la numérotation simplifiée
Pour que vous puissiez utiliser cette option, votre administrateur système doit la configurer et affecter une
URL de service au bouton de ligne. Pour plus d'informations, contactez votre administrateur système.
Procédure
Étape 1 Appuyez sur le bouton de ligne Numérotation simplifiée.
Étape 2 Faites défiler la liste ou saisissez le code de numérotation simplifiée pour rechercher et sélectionner une entrée.
Le système compose le numéro spécifié.
Passage d'un appel à l'aide du carnet d'adresses personnel
Pour que vous puissiez utiliser cette option, votre administrateur système doit la configurer et affecter une
URL de service au bouton de ligne. Pour plus d'informations, contactez votre administrateur système.
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Fonctions d'appel
Passage d'un appel à l'aide d'un code de facturation ou de suivi
Procédure
Étape 1 Appuyez sur le bouton de ligne de votre carnet d'adresses personnel.
Étape 2 Accédez au contact, puis sélectionnez le numéro.
Le système compose le numéro spécifié.
Réponse à un appel
Pour répondre à un appel, décrochez le combiné ou utilisez les autres options éventuellement disponibles sur
le téléphone.
Pour plus d'informations,
reportez-vous à...
Pour... Procédez comme suit...
Combiné, casque et
haut-parleur, à la page 59
Appuyez sur la touche ( ) si elle éteinte.
Ou,si la touche ( ) est allumée, appuyez
sur Répondre ou sur la touche
(clignotante).
La ligne qui sonne est
automatiquementsélectionnée.
Contactez votre administrateur
système concernant les options
permettant de toujours
sélectionner la ligne principale.
Remarque
Si vous utilisez un casque sans fil,
reportez-vous à la documentation qui
l'accompagne.
Répondre avec un casque
Combiné, casque et
haut-parleur, à la page 59
Appuyez sur , sur Répondre ou sur le
bouton (clignotant).
La ligne qui sonne est
automatiquementsélectionnée.
Contactez votre administrateur
système concernant les options
permettant de toujours
sélectionner la ligne principale.
Remarque
Répondre avec le
haut-parleur
Mise en attente et reprise des
appels, à la page 25
Appuyez sur Répondre ou, si l'appel sonne
sur une autre ligne, sur (clignotant).
Répondre à un nouvel appel
à partir d'un appel déjà
connecté
Mise en attente et reprise des
appels, à la page 25
Répondre à l'aide de la Appuyez sur Répondre.
fonction d'appel en attente
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Fonctions d'appel
Réponse à un appel
Pour plus d'informations,
reportez-vous à...
Pour... Procédez comme suit...
Transfert de l'appel vers le
système de messagerie vocale,
à la page 29
Transférer un appel vers un Appuyez sur Rvoi Im.
système de messagerie
vocale
Réponse automatique avec
casque ou haut-parleur, à la page
61
Se connecter Utilisez la fonction de réponse automatique.
automatiquement à des
appels
Utilisez le Parcage d'appels, le Parcage Parcage d'appels, à la page 44
d'appels dirigé ou le Parcage d'appels dirigé
assisté.
Récupérer un appel parqué
sur un autre téléphone
Interception d'appels, à la page
42
Utiliser votre téléphone pour Utilisez la fonction d'interception d'appels.
répondre à un appel qui
sonne sur un autre téléphone
Appels prioritaires, à la page
51
Raccrochez pour mettre fin à l'appel en
cours, puis appuyez sur Répondre.
Réponse à un appel
prioritaire
Appels professionnels à l'aide
d'un seul numéro de téléphone,
à la page 54
Activez Mobile Connect et répondez sur
votre téléphone.
Si vous avez configuré jusqu'à quatre
téléphones IP ou un softphone en tant que
lignes partagées, les téléphones
supplémentaires s'arrêtent de clignoter
lorsque vous activez Mobile Connect et
prenez l'appel sur votre téléphone portable.
Réponse à un appel depuis
votre téléphone portable ou
depuis une autre destination
distante
Astuces
• Si les interlocuteurs d'un appel entendent un bip, l'appel est peut-être surveillé ou enregistré. Pour plus
d'informations, contactez votre administrateur système.
• Si voustravaillez dans un centre d'appel ou dans un environnement de ce type, vous pouvez créer, mettre
à jour et supprimer votre propre message d'accueil pré-enregistré qui se lance automatiquement
lorsqu'Agent Greeting est configuré sur votre téléphone. Pour plus d'informations, contactez votre
administrateur système.
• Un utilisateur Chaperon des appels ne peut pas répondre à un appel entrant lorsque les appels sont
chaperonnés.
Déconnexion de l'appel
Pour mettre fin à un appel, raccrochez. Le tableau ci-dessous vous fournit de plus amples informations.
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Fonctions d'appel
Déconnexion de l'appel
Pour... Procédez comme suit...
Raccrochez le combiné. Vous pouvez également appuyer sur
FinApp.
Raccrocher lorsque vous utilisez le
combiné
Appuyez sur ( ). Pour maintenir le mode casque actif, vous
pouvez également appuyer sur FinApp.
Raccrocher lorsque vous utilisez un casque
Raccrocher Appuyez sur ou sur FinApp.
lorsque vous utilisez le
haut-parleur
Mise en attente et reprise des appels
Vous pouvez mettre des appels en attente et les reprendre. Lorsque vous mettez un appel en attente, l'icône
d'attente apparaît à droite dansla zone desinformations d'appel et le bouton de ligne correspondant clignote
en vert . Dans le cas d'une ligne partagée, le bouton de ligne clignote en vert et le téléphone affiche l'icône
de mise en attente locale lorsque vous mettez un appel en attente. Lorsqu'un autre téléphone met un appel en
attente, le bouton de ligne clignote en rouge et le téléphone affiche l'icône de mise en attente à distance .
Si un autre utilisateur met en attente une ligne partagée, le bouton associé à celle-ci affiche (clignotant).
Vous (et toute personne de cette ligne partagée) pouvez reprendre l'appel.
Si la fonction Récupérer l'appel en attente est activée sur votre téléphone, un appel que vous avez mis en
attente sonne à nouveau au bout d'un certain temps. L'appel “à reprendre” reste en attente jusqu'à ce que vous
le repreniez ou que cette fonction expire.
Votre téléphone peut vous indiquer la présence d'un appel à reprendre de diverses manières :
• En vous avertissant à intervallesréguliers par une sonnerie (ou par un clignotement ou un bip, en fonction
de la configuration de votre ligne téléphonique).
• En affichant brièvement le message Récupérer l'appel en attente dans la barre d'état, en bas de l'écran
du téléphone.
• En affichant l'icône animée de récupération d'appel en attente en regard de l'ID de l'appelant mis
en attente.
• En affichant un bouton de ligne (voyant clignotant, en fonction de l'état de la ligne).
Astuces
• En règle générale, de la musique est diffusée (lorsque Musique d'attente est configurée) ou un bip retentit
au démarrage de la fonction d'attente.
• Si vous êtes informé au même moment de l'arrivée d'un appel entrant et d'un appel à reprendre, l'écran
de votre téléphone affiche en priorité l'appel entrant (par défaut). Votre administrateur système peut
modifier ce paramètre de priorité.
• Si vous utilisez une ligne partagée, la fonction Récupérer l'appel en attente permet d'appliquer la sonnerie
uniquement au téléphone qui a mis l'appel en attente et non aux autres téléphones qui partagent la ligne.
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Fonctions d'appel
Mise en attente et reprise des appels
• Votre administrateur système détermine le délai entre les alertes de la fonction Récupérer l'appel en
attente.
• La fonction Attente n'est pas disponible lorsque les appels sont chaperonnés.
Mettre un appel en attente
Procédure
Étape 1 Vérifiez que l'appel concerné est en surbrillance.
Étape 2 Appuyez sur .
Reprendre un appel mis en attente sur la ligne active
Procédure
Étape 1 Pour l'appel en attente clignotant, appuyez sur l'un des boutons ci-dessous : , , ou .
Étape 2 Si plusieurs appelssont en attente, mettez l'appelsouhaité en surbrillance, puis appuyez Reprendre ou appuyez
sur .
Plusieurs appels
Vous pouvez passer d'un appel à l'autre sur des lignes différentes.
Pour... Procédez comme suit...
Appuyez sur le bouton (clignotant) de la ligne sur laquelle vous basculez. Passer à un appel en
attente sur une autre ligne
Appuyez sur (clignote). Les appels en cours sont mis en attente et l'appel
sélectionné est repris.
Passer d'un appel
connecté à un appel qui
sonne
Mouvement des appels en cours
Les procédures ci-dessous donnent des détailssur le transfert d'un appel en cours de votre téléphone de bureau
vers votre portable ou vers une autre destination distante.
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Fonctions d'appel
Mettre un appel en attente
Transférer un appel en cours d'un téléphone portable vers un téléphone de
bureau qui partage la même ligne (transfert de session)
Procédure
Étape 1 Sur votre téléphone portable, saisissez le code d'accès de la fonction de transfert de session (par exemple,
*74). Contactez votre administrateur système pour obtenir la liste des codes d'accès.
Étape 2 Raccrochez le téléphone portable pour le déconnecter sans interrompre l'appel.
Étape 3 Appuyez sur la touche Réponse à un appel de votre téléphone de bureau dans un délai de 10 secondes et
commencez à parler sur ce téléphone. Votre administrateur système détermine le délai maximum en secondes
dont vous disposez pour prendre l'appel sur votre téléphone de bureau.
Les autres périphériques Cisco Unified qui partagent la même ligne affichent le message Utilisé à
distance.
Transférer un appel en cours d'un téléphone portable vers un téléphone de
bureau
Procédure
Étape 1 Raccrochez le téléphone portable pour le déconnecter sans interrompre l'appel.
Étape 2 Appuyez sur la touche Réponse à un appel de votre téléphone de bureau dans un délai de 4 secondes et
commencez à parler sur ce téléphone.
Transférer un appel en cours d'un téléphone portable vers des périphériques
Cisco Unified qui partagent la même ligne (transfert de session)
Procédure
Étape 1 Raccrochez le téléphone portable pour le déconnecter sans interrompre l'appel.
Étape 2 Appuyez sur Répondre sur l'un de vos périphériques Cisco Unified dans un délai de 10 secondes et commencez
à parler au téléphone.
Les autres périphériques Cisco Unified qui partagent la même ligne affichent le message Utilisé à distance.
Le délai (en secondes) pour reprendre l'appel dépend de la configuration définie par votre administrateur
système.
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Fonctions d'appel
Transférer un appel en cours d'un téléphone portable vers un téléphone de bureau qui partage la même ligne (transfert
de session)
Coupure micro
Lorsque la coupure micro est activée, vous pouvez entendre vos interlocuteurs, mais ces derniers ne peuvent
pas vous entendre. Vous pouvez utiliser cette fonction avec le combiné, le haut-parleur ou le casque.
Désactiver ou rétablir le son de l'appel
Procédure
Étape 1 Pour désactiver le son d'un appel, appuyez sur .
Étape 2 Pour rétablir le son d'un appel, appuyez sur .
Transfert des appels
Le transfert permet de renvoyer un appel connecté. La cible est le numéro vers lequel vous voulez transférer
l'appel. Lorsque vous transférez un appel, votre téléphone utilise une nouvelle ligne pour initier le transfert.
Astuces
• Si le transfert en mode combiné raccroché est activé sur votre téléphone, raccrochez pour mettre fin à
l'appel ou appuyez sur , puis raccrocher.
• Si le transfert en mode combiné raccroché n'est pas activé sur votre téléphone et si vous raccrochez sans
appuyer une nouvelle fois sur , l'appel est mis en attente.
• Vous ne pouvez pas utiliser pour renvoyer un appel en attente. Appuyez sur Reprendre pour reprendre
l'appel avant de le transférer.
• La fonction Transfert n'est pas disponible lorsque les appels sont chaperonnés.
• Pour renvoyer un appel sur un système de messagerie vocale, appuyez sur Rvoi Im. Pour plus
d'informations, reportez-vous à Transfert de l'appel vers le système de messagerie vocale, à la page 29.
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Fonctions d'appel
Coupure micro
Transfert d'un appel sans parler au destinataire du transfert
Procédure
Étape 1 À partir d'un appel actif, appuyez sur .
Étape 2 Saisissez le numéro cible.
Étape 3 Appuyez de nouveau sur le bouton pour terminer l'opération ou sur FinApp pour l'annuler.
Étape 4 Si la fonction de transfert en mode combiné raccroché est activée sur votre téléphone, raccrochez pour terminer
le transfert.
Comment informer le destinataire du transfert avant de lui transférer un appel
(transfert par consultation)
Procédure
Étape 1 À partir d'un appel actif, appuyez sur .
Étape 2 Saisissez le numéro cible.
Étape 3 Patientez quelques instants pour laisser le temps au destinataire du transfert de répondre.
Étape 4 Appuyez de nouveau sur le bouton pour terminer l'opération ou sur FinApp pour l'annuler.
Étape 5 Si la fonction de transfert en mode combiné raccroché est activée sur votre téléphone, raccrochez pour terminer
le transfert.
Transfert de l'appel vers le système de messagerie vocale
Vous pouvez utiliser Rvoi Im pour renvoyer un appel en cours, qui sonne ou en attente vers votre système
de messagerie vocale. En fonction de la nature de l'appel et de la configuration du téléphone, vous pouvez
également utiliser Rvoi Im pour faire basculer l'appel sur la messagerie vocale d'une tierce personne.
• Si, initialement, l'appel a été transféré sur un autre téléphone, Rvoi Im permet de renvoyer l'appel vers
votre propre système de messagerie vocale ou vers celui de la personne initialement appelée. Votre
administrateur système doit au préalable avoir activé cette option pour vous.
• Si l'appel vous était directement destiné (sans avoir été transféré ou redirigé vers votre poste) ou si votre
téléphone ne prend pas en charge l'option décrite ci-dessus, l'utilisation de Rvoi Im redirige l'appel vers
votre système de messagerie vocale.
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Fonctions d'appel
Transfert d'un appel sans parler au destinataire du transfert
Astuces
• Si votre téléphone affiche un menu qui disparaît avant que vous n'ayez pu faire votre choix, vous pouvez
appuyer à nouveau sur Rvoi Im afin que le menu s'affiche à nouveau. Vous pouvez également contacter
votre administrateur système pour définir une valeur de temporisation plus longue.
• Lorsque vous transférez un appel en cours de votre téléphone portable vers des périphériques Cisco
Unified qui partagent la même ligne (transfert de session), la fonction Rvoi Im est désactivée sur ces
derniers. Rvoi Im redevient disponible lorsque l'appel est terminé.
• Si l'appel vous était directement destiné (sans avoir été transféré ou redirigé vers votre poste) ou si votre
téléphone ne prend pas en charge l'option décrite ci-dessus, l'utilisation de Rvoi Im redirige l'appel vers
votre système de messagerie vocale.
• Lorsque vous transférez un appel en cours de votre téléphone portable vers des périphériques Cisco
Unified qui partagent la même ligne (transfert de session), la fonction Rvoi Im est désactivée sur ces
derniers. Rvoi Im redevient disponible lorsque l'appel est terminé.
Transférer un appel actif, qui sonne ou en attente vers un système de
messagerie vocale
Procédure
Étape 1 Appuyez sur Rvoi Im.
Si aucune option de redirection n'est disponible, l'appel est transféré vers votre système de messagerie vocale.
Étape 2 Si des options de redirection sont disponibles, votre téléphone affiche un nouveau menu. Sélectionnez une
option pour renvoyer l'appel.
Renvoi d'appels
Les fonctions de renvoi d'appels permettent de renvoyer tous les appels entrants de votre téléphone vers un
autre numéro.
Votre administrateur système peut vous autoriser à choisir entre deux types de fonctions de renvoi d'appels :
• Transfert des appels sans condition (Renvoi de tous les appels) : s'applique à tous les appels que vous
recevez.
• Transfert des appels conditionnel (Renvoisisansréponse, Renvoisi occupé, Renvoisi pas de couverture) :
s'applique à certains appels que vous recevez, sous certaines conditions.
Vous pouvez accéder à la fonction de renvoi de tous les appels sur votre téléphone ou à partir des pages Web
Options utilisateur Cisco Unified Communications Manager. Les fonctions de renvoi d'appels conditionnel
sont accessibles uniquement à partir des pages Web Options utilisateur. Votre administrateursystème détermine
les fonctions de renvoi d'appels auxquelles vous avez accès.
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Fonctions d'appel
Transférer un appel actif, qui sonne ou en attente vers un système de messagerie vocale
Astuces
• Saisissez le numéro cible du renvoi d'appels exactement comme si vous le composiez depuis votre
téléphone. Par exemple, saisissez un code d'accès ou l'indicatif régional, si nécessaire.
• Vous pouvez renvoyer vos appels vers un téléphone analogique traditionnel ou vers un autre téléphone IP,
même si votre administrateur système peut limiter la fonction de renvoi d'appels aux numéros utilisés
au sein de votre société.
• Le renvoi d'appels dépend de la ligne téléphonique. Ainsi, si un appel arrive sur une ligne où la fonction
de renvoi d'appels n'est pas activée, le téléphone sonne comme d'habitude et l'appel n'est pas renvoyé.
• Votre administrateur système active une fonction d'annulation de renvoi permettant à la personne qui
reçoit vos appels transférés de vous joindre. Lorsque l'annulation est activée, les appels passés à partir
du téléphone cible vers votre téléphone ne sont pas transférés, mais ils déclenchent une sonnerie sur
votre poste.
• Il est possible que votre tentative de configuration du renvoi de tousles appels directementsur le téléphone
soit refusée si le numéro cible saisi risque de créer une boucle de renvoi d'appel ou de dépasser le nombre
maximum de liens autorisés dans une chaîne de renvoi d'appel.
• Lorsque vous transférez un appel en cours de votre téléphone portable vers des périphériques Cisco
Unified qui partagent la même ligne (transfert de session), la fonction de renvoi d'appels est désactivée
sur ces derniers. Cette fonction redevient disponible lorsque l'appel est terminé.
• Lorsque le renvoi d'appels est activé, observez :
◦ L'icône de renvoi d'appel en regard du numéro de téléphone principal : , qui se trouve
toujours sur la touche de ligne 1.
◦ Le numéro cible du renvoi d'appels dans la ligne d'état.
Rubriques connexes
Opérations de la page Web Options utilisateur, à la page 80
Paramètres de ligne sur le Web, à la page 90
Configurer et annuler le renvoi de tous les appels à partir du téléphone
Procédure
Étape 1 Pour configurer le renvoi de tousles appels, appuyez sur RenvTt, puissaisissez un numéro de téléphone cible.
Le téléphone affiche des informations visuelles pour indiquer qu'il renvoie tous les appels.
Étape 2 Pour annuler le renvoi de tous les appels, appuyez sur RenvTt.
L'écran du téléphone supprime les indications visuelles qui indiquent que le numéro de téléphone est renvoyé.
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Fonctions d'appel
Configurer et annuler le renvoi de tous les appels à partir du téléphone
Configuration ou annulation du renvoi d'appels
Lorsque la fonction de renvoi d'appels est activée pour une autre ligne que la ligne principale, aucun signal
sur le téléphone ne confirme que les appelssont renvoyés. Au lieu de cela, vous devez confirmer vos paramètres
dans les pages Web Options utilisateur.
Procédure
Étape 1 Connectez-vous à vos pages Web Options utilisateur.
Étape 2 Accédez à vos paramètres de renvoi d'appels.
Ne pas déranger
La fonction NPD (Ne pas déranger) désactive toutes les notifications sonores et visuelles des appels entrants.
L'activation de cette fonction sur votre téléphone requiert l'intervention de votre administrateur système.
Lorsque les fonctions NPD et Transfert des appels sont activées sur votre téléphone, les appels sont renvoyés
immédiatement et l'appelant n'entend pas de tonalité d'occupation.
Les interactions de la fonction NPD avec d'autres types des appels sont :
• NPD n'affecte pas les appels intercom ni les appels prioritaires non-intercom.
• Si les fonctions NPD et Réponse automatique sont activées, seuls les appels intercom font l'objet d'une
réponse automatique.
• Lorsque voustransférez un appel en cours de votre téléphone portable vers destéléphones Cisco Unified
qui partagent la même ligne (transfert de session), le téléphone désactive la fonction NPD. Cette fonction
redevient disponible lorsque l'appel est terminé.
Activation et désactivation de la fonction NPD
Procédure
Étape 1 Pour activer la fonction NPD, appuyez sur NPD.
“Ne pas déranger” s'affiche sur le téléphone, le témoin NPD s'éclaire (fixe) et la sonnerie est désactivée.
Étape 2 Pour désactiver de nouveau la fonction NPD, appuyez sur NPD.
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Fonctions d'appel
Configuration ou annulation du renvoi d'appels
Configuration des paramètres NPD
Si votre administrateur système a configuré les paramètres NPD de manière à ce qu'ils s'affichent dans la page
Options utilisateur, procédez comme suit :
Procédure
Étape 1 Connectez-vous à vos pages Web Options utilisateur.
Étape 2 Dans le menu déroulant, choisissez Options utilisateur > Périphérique.
Étape 3 Vous pouvez définir les options ci-dessous :
• Ne pas déranger : active ou désactive la fonction NPD.
• Option NPD : choisissez Refus d'appel (pour désactiver toutes les notifications sonores et visuelles) ou
Sonnerie désactivée (pour désactiver uniquement la sonnerie).
• Alerte d'appel entrant avec la fonction NPD (s'applique aux deux configurations de l'option NPD) :
configurez l'alerte sur Bip seulement ou sur Clignotement seulement, désactivez l'alerte ou choisissez
“Aucun” (pour utiliser le mode “Alerte” configuré par votre administrateur système).
Conférences
Votre téléphone IP Cisco Unified permet de réunir trois personnes ou plus dans une même conversation
téléphonique en établissant une conférence.
Vous pouvez créer une conférence de différentes manières, en fonction de vos besoins et des fonctions
disponibles sur votre téléphone.
• Conférence : permet de créer une conférence standard (ad hoc) en appelant chaque participant. Utilisez
la touche Conférence ou le bouton Conférence. La fonction Conférence est disponible sur la plupart des
téléphones.
• Joindre : permet de créer une conférence standard (ad hoc) en combinant des appels existants. Utilisez
la touche Joindre.
• Meet-Me : permet de créer ou de joindre une conférence en appelant un numéro de conférence. Utilisez
la touche ou le bouton Meet-Me.
Conférence ad hoc
La fonction Conférence permet d'appeler chaque participant. La fonction Conférence est disponible sur la
plupart des téléphones.
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Fonctions d'appel
Configuration des paramètres NPD
Astuces
• S'il vous arrive souvent de joindre plus de deux interlocuteurs dans une seule conférence, vous
rechercherez peut-être pratique de sélectionner tout d'abord les appels à joindre, puis d'appuyer sur
Joindre pour terminer l'opération.
• Une fois l'opération Joindre terminée, l'ID de l'appelant devient “Conférence.”
• Un utilisateur Chaperon des appels peut mettre en conférence uniquement le premier appelant. Les autres
appelants peuvent être ajoutés à la conférence par les autres participants.
• Pour obtenir la liste des participants à la conférence, reportez-vous à Liste des participants à la conférence,
à la page 37.
Création d'une conférence en appelant chacun des participants
Procédure
Étape 1 À partir d'un appel connecté, appuyez sur Conf. ou sur Conférence. Il est possible que vous deviez au préalable
appuyer sur la touche Autres pour afficher l'option Conf.
Étape 2 Saisissez le numéro de téléphone du participant.
Étape 3 Attendez que l'appel soit établi.
Étape 4 Appuyez de nouveau sur Conf. ou sur Conférence pour ajouter le participant à votre conversation.
Étape 5 Répétez cette procédure pour ajouter d'autres participants.
Ajout de participants à la conférence
Votre administrateur système détermine si vous pouvez ajouter ou supprimer des participants si vous n'êtes
pas l'organisateur de la conférence.
Procédure
Étape 1 À partir d'un appel connecté, appuyez sur Conf. ou sur Conférence. Il est possible que vous deviez au préalable
appuyer sur la touche Autres pour afficher l'option Conf.
Étape 2 Saisissez le numéro de téléphone du participant.
Étape 3 Attendez que l'appel soit établi.
Étape 4 Appuyez de nouveau sur Conf. ou sur Conférence pour ajouter le participant à votre conversation.
Étape 5 Répétez cette procédure pour ajouter d'autres participants.
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Fonctions d'appel
Ajout de participants à la conférence
Comment se joindre à la conférence
La fonction Joindre permet de combiner plusieurs appels existants afin de créer une conférence à laquelle
vous participez.
Astuces
• S'il vous arrive souvent de joindre plus de deux interlocuteurs dans une seule conférence, vous
rechercherez peut-être pratique de sélectionner tout d'abord les appels à joindre, puis d'appuyer sur
Joindre pour terminer l'opération.
• Une fois l'opération Joindre terminée, l'ID de l'appelant devient Conférence.
• Pour obtenir la liste des participants à la conférence, reportez-vous à Liste des participants à la conférence,
à la page 37.
Joindre des appels existants sur une même ligne téléphonique
Procédure
Étape 1 À partir d'un appel en cours, appuyez sur Joindre. Il est possible que vous deviez au préalable appuyer sur
la touche Autres pour afficher l'option Joindre.
Étape 2 Appuyez sur le bouton de ligne clignotant vert des appels que vous voulez ajouter à la conférence.
L'un des événements ci-dessous se produit :
a) Les appels sont joints.
b) Une fenêtre s'ouvre sur l'écran du téléphone ; celle-ci permet de sélectionner les appels à joindre. Mettez
les appels en surbrillance, puis appuyez sur Sélect., puis sur Joindre pour terminer l'opération.
Comment joindre des appels existants sur plusieurs lignes téléphoniques
Procédure
Étape 1 À partir d'un appel en cours, appuyez sur Joindre. Il est possible que vous deviez au préalable appuyer sur
la touche Autres pour afficher l'option Joindre.
Étape 2 Appuyez sur le bouton de ligne clignotant vert des appels que vous voulez ajouter à la conférence.
Si votre téléphone ne prend pas en charge la fonction Joindre dansle cas des appelssur plusieurs
lignes, transférez les appels vers une ligne unique. Vous pourrez alors utiliser la fonction Joindre.
Remarque
Étape 3 Si une fenêtre s'ouvre sur l'écran de votre téléphone et vous invite à sélectionner les appels à joindre, mettez
les appels en surbrillance, appuyez sur Sélectionner, puis appuyez sur Joindre pour terminer l'opération.
Les appels sont joints.
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Fonctions d'appel
Comment se joindre à la conférence
Conférence Meet-Me
La conférence Meet-Me permet de démarrer une conférence ou de s'y connecter en composant son numéro.
Astuce
• Si vous composez le numéro d'une conférence Meet-Me depuis un téléphone non sécurisé, celui-ci
affiche Périphérique non autorisé.Pour plus d'informations, reportez-vous à Appelssécurisés,
à la page 49.
• Une conférence Meet-Me se termine une fois que tous les participants ont raccroché.
• Si l'organisateur de la conférence se déconnecte, la conférence continue jusqu'à ce que tousles participants
aient raccroché.
Démarrage d'une conférence Meet-Me
Les participants ne peuvent pas joindre la conférence tant que l'initiateur n'a pas démarré la conférence.
Procédure
Étape 1 Demandez un numéro de téléphone Meet-Me à votre administrateur système.
Étape 2 Communiquez ce numéro à tous les participants.
Étape 3 Lorsque vous êtes prêt à démarrer la réunion, décrochez le combiné pour obtenir une tonalité, puis appuyez
sur Meet-Me.
Étape 4 Composez le numéro de la conférence Meet-Me.
Pour joindre la conférence, les utilisateurs peuvent maintenant composer le numéro Meet-Me.
Comment se joindre à une conférence Meet-Me
Procédure
Étape 1 Composez le numéro de la conférence Meet-Me que vous a communiqué l'initiateur de la conférence.
Étape 2 Si vous entendez une tonalité d'occupation, l'initiateur de la conférence n'a pas encore rejoint la conférence.
Attendez une minute, puis essayez de rappeler.
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Fonctions d'appel
Conférence Meet-Me
Liste des participants à la conférence
Lors d'une conférence standard (ad hoc), vous pouvez afficher la liste des participants et supprimer des
participants. Les participants sont affichés dans l'ordre dans lequel ils rejoignent la conférence ; les derniers
à la joindre apparaissent en tête de liste.
La liste des participants à la conférence (ListConf), peut afficher jusqu'à 16 personnes. Bien qu'il soit
possible d'ajouter autant de participants qu'un pont de conférence, puisse en prendre en charge, ListConf
n'affichera jamais plus de 16 participants. Au fur et à mesure que les participants rejoignent la conférence,
ListConf affiche le nom des 16 dernières personnes arrivées.
Remarque
Pour ajouter plus de participants, reportez-vous à Ajout de participants à la conférence, à la page 34
Contrôle de la conférence à l'aide de la liste des participants
La liste des participants à la conférence ListConf peut afficher jusqu'à 16 personnes. Bien qu'il soit possible
d'ajouter autant de participants qu'un pont de conférence peut en prendre en charge, ListConf n'affichera jamais
plus de 16 participants. Au fur et à mesure que les participants rejoignent la conférence, ListConf affiche le
nom des 16 dernières personnes arrivées.
Procédure
Étape 1 Appuyez sur ListConf ou sur Liste de conférence.
Les participants sont affichés dans l'ordre dans lequel ils rejoignent la conférence ; les derniers à la joindre
apparaissent en tête de liste.
Étape 2 Pour obtenir une liste à jour des participants à la conférence, appuyez sur MàJ.
Étape 3 Poursavoir qui a initié la conférence, recherchez le participant qui apparaît au bas de la liste, avec un astérisque
(*) en regard de son nom.
Étape 4 Pour supprimer un participant de la conférence, mettez le nom du participant en surbrillance, puis appuyez
sur Supprimer.
Étape 5 Pour déconnecter le dernier participant ajouté à la conférence, appuyez sur SupDerA.
Vous ne pouvez exclure des participants que si vous êtes l'initiateur de la conférence.
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Fonctions d'appel
Liste des participants à la conférence
Vérification de la sécurité de la conférence
Procédure
Étape 1 Pour vérifier la sécurité de la conférence, appuyez sur ListCfn ou sur Liste de conférence
Étape 2 Pour vérifier si une conférence est sécurisée, recherchez l'icône ou après “Conférence” sur l'écran du
téléphone.
Étape 3 Pour vérifier qu'un participant appelle depuis un téléphone sécurisé, recherchez l'icône ou en regard du
nom du participant sur l'écran du téléphone.
Appels intercom
Vous pouvez passer un appel intercom à destination d'un téléphone qui répond automatiquement à l'appel en
mode haut-parleur et coupe le micro. L'appel intercom unidirectionnel permet d'envoyer un message court au
destinataire. Le son est lu dans le combiné ou dans le casque, si l'un d'entre eux est en cours d'utilisation. Si
le destinataire a déjà un appel en cours, celui-ci continue simultanément.
Lorsque vous entendez une tonalité d'alerte intercom, vous pouvez choisir une des options ci-dessous :
• Écouter l'appelant, son microphone étant coupé (il peut écouter l'appelant, mais celui-ci ne peut pas
l'entendre).
• Comment mettre fin à l'appel intercom en appuyant sur la touche FinApp. Cette option permet de ne
pas écouter le message.
• Parler à l'appelant à l'aide du bouton intercom actif en mode combiné, casque ou haut-parleur. L'appel
intercom devient une connexion bidirectionnelle permettant de communiquer avec l'appelant.
Lorsque vous utilisez la fonction intercom, n'oubliez pas les points ci-dessous :
• Depuis une ligne intercom, vous ne pouvez appeler qu'une autre ligne intercom.
• Vous ne pouvez utiliser qu'une seule ligne intercom à la fois.
• Vous pouvez recevoir et émettre des appels intercom lorsque votre appel actif est surveillé ou enregistré.
• Vous ne pouvez pas mettre un appel intercom en attente.
Si vous vous connectez quotidiennement au même téléphone à l'aide de votre profil Cisco Extension
Mobility, assurez-vous que votre administrateur système affecte la grille des boutons du téléphone à ce
profil et qu'il définisse le téléphone comme périphérique intercom par défaut pour la ligne intercom.
Remarque
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Fonctions d'appel
Appels intercom
Passage d'un appel intercom vers le numéro intercom préconfiguré
Procédure
Étape 1 Appuyez sur (ligne intercom cible).
Étape 2 Lorsque vous entendez la tonalité d'alerte intercom, commencez à parler.
Passage d'un appel intercom vers un numéro intercom
Procédure
Étape 1 Appuyez sur ( ).
Étape 2 Saisissez le numéro intercom cible ou appuyez sur le numéro simplifié cible.
Étape 3 Lorsque vous entendez la tonalité d'alerte intercom, commencez à parler.
Réception d'un appel intercom
Procédure
Lorsque vous entendez la tonalité d'alerte intercom, vous pouvez traiter l'appel de l'une des manières ci-dessous:
• Écouter le message par voie audio unidirectionnelle.
• Parler à l'appelant en appuyant sur le bouton (ligne intercom active).
• Mettre la ligne intercom en surbrillance et appuyer sur FinApp.
Gestion avancée des appels
Lestâches de gestion avancée des appels comprennent desfonctionsspéciales que votre administrateursystème
peut configurer sur votre téléphone, en fonction de vos besoins en la matière et de votre environnement de
travail.
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Fonctions d'appel
Passage d'un appel intercom vers le numéro intercom préconfiguré
Numérotation simplifiée
La numérotation simplifiée permet de saisir un code, d'appuyer sur un bouton ou de sélectionner un élément
de l'écran du téléphone pour passer un appel. En fonction de sa configuration, votre téléphone peut prendre
en charge plusieurs fonctions de numérotation simplifiée :
• Boutons de numérotation simplifiée
• Numérotation abrégée
• Numéros rapides
Pour configurer des boutons de numérotation rapide et de numérotation rapide, vous devez accéder aux pages
Web Options utilisateur. Pour configurer des numéros rapides, vous devez accéder à la fonction de répertoire
personnel. Votre administrateur système peut également configurer des fonctions de numérotation simplifiée
à votre attention.
Rubriques connexes
Opérations de la page Web Options utilisateur, à la page 80
Répertoire personnel, à la page 72
Fonctions de supervision de ligne occupée, à la page 48
Passage d'un appel à l'aide des boutons de numérotation simplifiée
Si votre téléphone prend en charge la fonction de numérotation simplifiée d'affichage de ligne occupée (FLO),
vous pouvez savoir si le numéro simplifié est occupé avant de le composer.
Procédure
Étape 1 Configurez les boutons de numérotation simplifiée.
Étape 2 Pour passer un appel, appuyez sur ( ).
Passage d'un appel à l'aide de la numérotation simplifiée avec le combiné raccroché
Procédure
Étape 1 Configurez des codes de numérotation simplifiée.
Étape 2 Pour passer un appel, saisissez le code de numérotation simplifiée, puis appuyez sur NumAbr.
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Fonctions d'appel
Numérotation simplifiée
Passage d'un appel avec la numérotation simplifiée avec le combiné décroché
Procédure
Étape 1 Décrochez le combiné.
Étape 2 Appuyez sur la touche NumAbr, puis saisissez le code de numérotation simplifiée à l'aide du clavier.
Étape 3 Appuyez de nouveau sur la touche NumAbr.
Établir une conférence avec la numérotation simplifiée avec le combiné décroché
Procédure
Étape 1 Appuyez sur la touche Conf. L'utilisateur entend une tonalité.
Étape 2 Appuyez sur la touche NumAbr, puis saisissez le code de numérotation simplifiée à l'aide du clavier.
Étape 3 Appuyez de nouveau sur la touche NumAbr.
Étape 4 Appuyez de nouveau sur la touche Conf.
Transférer un appel avec la numérotation simplifiée avec le combiné décroché
Procédure
Étape 1 Appuyez sur la touche Transfert. L'utilisateur entend une tonalité.
Étape 2 Appuyez sur la touche NumAbr, puis saisissez le code de numérotation simplifiée à l'aide du clavier.
Étape 3 Appuyez de nouveau sur la touche NumAbr.
Étape 4 Appuyez de nouveau sur la touche Transfert.
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Fonctions d'appel
Numérotation simplifiée
Passage d'un appel avec la numérotation simplifiée avec le combiné décroché dans un appel
en attente
Procédure
Étape 1 Appuyez sur la touche NvAppel.
Étape 2 Appuyez sur la touche NumAbr, puis saisissez le code de numérotation simplifiée à l'aide du clavier.
Étape 3 Appuyez de nouveau sur la touche NumAbr.
Passage d'un appel à l'aide de la numérotation simplifiée
Procédure
Étape 1 Créez une entrée du carnet d'adresses personnel et affectez-lui un code de numérotation simplifiée.
Étape 2 Pour passer un appel, accédez au service de numérotation simplifiée de votre téléphone.
Interception d'appels
Grâce à cette fonction, vous pouvez renvoyer un appel qui sonne sur le téléphone d'un collègue vers votre
appareil pour y répondre. Vous pouvez utiliser la fonction Interception d'appels si vous êtes plusieurs à gérer
les appels.
Astuces
• Si plusieurs appels peuvent être interceptés, votre téléphone intercepte d'abord l'appel le plus ancien
(l'appel qui sonne depuis le plus longtemps).
• Si vous appuyez sur GrpIntr ou Interception d'appels de groupe, puis saisissez un numéro de ligne,
votre téléphone intercepte l'appel qui sonne sur cette ligne (le cas échéant).
• Si vous avez plusieurs lignes et voulez prendre l'appel sur une ligne secondaire, appuyez sur le bouton
de la ligne souhaitée, puis sur une touche ou un bouton d'interception d'appel.
• En fonction de la configuration du téléphone, vous pouvez recevoir un signal sonore ou visuel à propos
d'un appel vers votre groupe de prise d'appel.
• Si vous utilisez la fonction d'interception d'appels FLO sur votre téléphone, reportez-vous à Fonctions
de supervision de ligne occupée, à la page 48.
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Fonctions d'appel
Interception d'appels
Réponse à un appel entrant qui sonne sur un autre poste de votre groupe d'interception
d'appels
Procédure
Étape 1 Appuyez sur la touche Intrcpt. Vous devrez peut-être décrocher pour afficher la touche.
Si votre téléphone prend en charge l'interception automatique des appels, vous êtes maintenant connecté à
l'appel.
Étape 2 Si l'appel sonne, appuyez sur Répondre pour vous y connecter.
Réponse à un appel qui sonne sur un autre poste en dehors de votre groupe de prise d'appel
Procédure
Étape 1 Appuyez sur la touche GrpIntr. Vous devrez peut-être décrocher pour afficher la touche.
Étape 2 Saisissez le numéro d'interception d'appels de groupe.
Si votre téléphone prend en charge l'interception automatique des appels, vous êtes maintenant connecté à
l'appel.
Étape 3 Si l'appel sonne, appuyez sur Répondre pour vous y connecter.
Réponse à un appel qui sonne sur un autre poste dans le groupe ou dans le groupe associé
Procédure
Étape 1 Appuyez sur la touche AGrpIntr. Vous devrez peut-être décrocher pour afficher la touche.
Si votre téléphone prend en charge l'interception automatique des appels, vous êtes maintenant connecté à
l'appel.
Étape 2 Si l'appel sonne, appuyez sur Répondre pour vous y connecter.
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Fonctions d'appel
Interception d'appels
Réponse à un appel qui sonne sur un poste donné (numéro de ligne)
Procédure
Étape 1 Appuyez sur la touche GrpIntr. Vous devrez peut-être décrocher pour afficher la touche.
Étape 2 Saisissez le numéro de ligne qui correspond à l'appel que vous voulez intercepter. Par exemple, si l'appel à
intercepter sonne sur la ligne 12345, saisissez 12345.
Si votre téléphone prend en charge l'interception automatique des appels, vous êtes maintenant connecté à
l'appel.
Étape 3 Si l'appel sonne, appuyez sur Répondre pour vous y connecter.
Parcage d'appels
Si vous voulez stocker un appel, vous pouvez le parquer afin que les utilisateurs puissent le récupérer sur un
autre poste de téléconférence du système Cisco Unified Communications Manager (par exemple, le poste de
téléconférence d'un collègue ou celui d'une salle de conférence). Vous pouvez parquer un appel à l'aide des
méthodes ci-dessous.
• Parcage d'appels : utilisez la touche Parquer pour stocker l'appel. Le téléphone affiche le numéro de
parcage où le système a stocké l'appel. Vous devez enregistrer ce numéro et l'utiliser pour récupérer
l'appel.
• Parcage d'appels dirigé : Appuyez sur la touche Transfert pendant un appel. Pour stocker un appel,
composez le numéro de parcage d'appels dirigé, puis appuyez de nouveau sur Transfert.
• Parcage d'appels dirigé assisté : Utilisez le bouton Parcaged'appelsdirigé assisté affichant un indicateur
d'état de ligne inactif. Pour récupérer un appel à partir de l'un des téléphones IP Cisco Unified de votre
réseau, appuyez sur le bouton Parcage d'appels dirigé assisté clignotant.
Astuces
• Vous disposez d'un délai limité pour récupérer l'appel parqué avant qu'il ne recommence à sonner sur
le poste auquel il était destiné à l'origine. Pour plus d'informations, contactez votre administrateur
système.
• Votre administrateur système peut affecter des boutons de parcage d'appel dirigé à des boutons de ligne
disponibles sur le téléphone.
• Vous pouvez composer des numéros de parcage d'appels dirigé si vous n'avez pas de boutons de parcage
d'appels dirigé sur le téléphone. Vous ne pourrez toutefois pas voir l'état du numéro de parcage d'appels
dirigé.
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Fonctions d'appel
Parcage d'appels
Stocker et récupérer l'appel actif à l'aide du Parcage d'appels
Procédure
Étape 1 Au cours d'un appel, appuyez sur Parquer. Il est possible que vous deviez au préalable appuyer sur la touche
Autres pour afficher l'option Parquer.
Étape 2 Notez le numéro de parcage affiché sur l'écran du téléphone.
Étape 3 Raccrochez.
Étape 4 Pour intercepter l'appel parqué, saisissez le numéro de parcage d'appels à partir de n'importe quel téléphone IP
Cisco Unified de votre réseau.
Diriger et stocker un appel actif vers un numéro de parcage d'appels dirigé
Procédure
Étape 1 Au cours d'un appel, appuyez sur .
Étape 2 Composez le numéro de parcage d'appels dirigé.
Étape 3 Appuyez de nouveau sur Transfert pour mettre fin au stockage de l'appel.
Récupérer un appel parqué depuis un numéro de parcage d'appels dirigé
Procédure
Étape 1 Depuis un téléphone IP Cisco Unified de votre réseau, saisissez le préfixe de récupération de parcage, puis
Étape 2 Effectuez l'une des opérations ci-dessous :
• Composez le numéro de parcage d'appels dirigé.
• Appuyez sur le bouton (clignotant) ( ) pour vous connecter à l'appel.
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Fonctions d'appel
Parcage d'appels
Envoi, stockage et récupération un appel actif vers un numéro de parcage d'appels dirigé
Procédure
Étape 1 Lors d'un appel, appuyez sur le bouton Parcage d'appels dirigé assisté affichant un indicateur d'état de ligne
inactif .
Étape 2 Pour récupérer l'appel, appuyez sur le bouton Parcage d'appels dirigé assisté qui clignote.
Si votre administrateur n'a pas configuré de numéro de répertoire de récupération, l'appel parqué est récupéré
sur le téléphone de parcage de l'appel.
Groupes de recherche
Si votre organisation reçoit de nombreux appels entrants, il est possible que vous fassiez partie d'un groupe
de recherche, lequel inclut une série de numéros d'annuaire qui se partagent la charge des appels entrants.
Lorsque le premier numéro d'annuaire du groupe de recherche est occupé, le système recherche le prochain
numéro d'annuaire disponible dans le groupe et dirige les appels vers ce téléphone.
Lorsque vous êtes loin de votre téléphone, vous pouvez vous déconnecter des groupes de recherche afin que
le téléphone ne sonne pas.
Astuce
• Vous déconnecter des groupes de recherche n'empêche pas les appels autres que ceux des groupes de
recherche de sonner sur votre téléphone.
• Une fois connecté, le bouton Groupe de recherche est allumé.
Connexion et déconnexion des groupes de recherche
Procédure
Étape 1 Appuyez sur Groupmt. Vous êtes maintenant connecté au groupe de recherche.
Étape 2 Appuyez sur Groupmt. L'écran du téléphone affiche Déconnecté du groupement.
Lignes partagées
Votre administrateur système peut vous demander d'utiliser une ligne partagée si :
• Vous disposez de plusieurs téléphones et vous voulez avoir un seul numéro
• Vous partagez des tâches de gestion des appels avec des collègues
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Fonctions d'appel
Groupes de recherche
• Vous gérez des appels pour le compte d'un manager
Icône Utilisé à distance
L'icône Utilisé à distance s'affiche lorsqu'un appel est en cours sur un téléphone qui partage votre ligne.
Vous pouvez émettre et recevoir des appels normalement sur la ligne partagée, même si l'icône Utilisé à
distance s'affiche.
Informations sur les appels et l'insertion
Les téléphones qui partagent une ligne affichent des informations sur les appels émis et reçus sur la ligne
partagée. Ces informations incluent notamment l'ID de l'appelant et la durée d'appel (pour les exceptions,
reportez-vous à Confidentialité, à la page 47).
Sur une ligne partagée, les utilisateurs d'autres modèles de téléphones IP Cisco Unified sont susceptibles de
se joindre à votre appel actif. Par défaut, votre téléphone ne prend pas en charge cette fonction d'insertion. Si
vous voulez l'utiliser, contactez votre administrateur système. Dans le cas contraire, vous pouvez activer la
fonction de confidentialité pour empêcher vos collègues de se joindre à vos appels.
Confidentialité
Si vous ne voulez pas que les collègues qui partagent votre ligne puissent afficher les informations sur vos
appels, activez la fonction de confidentialité. Vos collègues ne peuvent alors pas savoir qui vous appelez, ni
se joindre à vos appels.
Informations ligne partagée
Sur une ligne partagée, vous pouvez afficher des informations sur les appels qui y ont lieu, récupérer un appel
mis en attente par l'un de vos collègues et empêcher l'insertion.
Pour... Procédez comme suit...
Recherchez l'icône Utilisé à distance en regard d'un bouton de ligne
rouge (fixe).
Savoirsi la ligne partagée est en cours
d'utilisation
Appuyez sur le bouton de ligne rouge (fixe) correspondant à la
ligne utilisée à distance. Tout appel non confidentiel est affiché dans
la zone d'activité des appels de l'écran du téléphone.
Afficher les détails concernant les
appels en cours sur la ligne partagée
Appuyez sur le bouton de ligne rouge (clignotant) correspondant
à la ligne utilisée à distance.
Récupérer un appel en attente sur une
ligne partagée
Astuces
• Si vous partagez la ligne avec un téléphone dont la confidentialité est activée, vous pouvez passer et
recevoir des appels normalement sur cette ligne.
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Fonctions d'appel
Lignes partagées
• La fonction de confidentialité s'applique à toutes les lignes partagées de votre téléphone. Si vous avez
plusieurs lignes partagées et si la fonction de confidentialité est activée, vos collègues ne peuvent donc
afficher les appels sur aucune de ces lignes et ne peuvent pas non plus s'y connecter.
Empêcher ou autoriser les autres personnes à afficher ou vos appels sur une ligne partagée ou à s'y insérer
Procédure
Étape 1 Pour empêcher d'autres personnes d'afficher vos appels sur une ligne partagée ou de s'y insérer.
a) Appuyez sur Confidentiel ( ).
b) Pour vérifier que la confidentialité est activée, recherchez l'icône de fonction activée en regard d'un
bouton de ligne orange .
Étape 2 Pour autoriser les autres personnes à afficher vos appels sur une ligne partagée ou à s'y insérer.
a) Appuyez sur Confidentiel ( ).
b) Pour vérifier que la confidentialité est désactivée, recherchez l'icône de fonction désactivée en regard
d'un bouton de ligne éteint .
Fonctions de supervision de ligne occupée
La Fonction de ligne occupée (FLO) permet d'afficher l'état d'une ligne téléphonique associée à un bouton de
numérotation simplifiée, un journal des appels ou une entrée de répertoire sur votre téléphone.Si vous utilisez
la fonction d'interception d'appels FLO, vous pouvez répondre à un appel qui sonne sur la ligne que vous
surveillez. Votre administrateur système détermine les fonctions FLO configurées sur votre téléphone.
Pour... Procédez comme suit...
Recherchez les indicateurs FLO en regard du numéro de la ligne :
• La ligne est en cours d'utilisation.
• La ligne est inactive.
Consulter l'état d'une
ligne figurant dans un
journal des appels ou un
répertoire
Recherchez les indicateurs FLO en regard du numéro de la ligne :
• La ligne est en cours d'utilisation.
• La ligne est inactive.
• Une ligne surveillée par FLO sonne ( Interception d'appels FLO)
Afficher l'état d'une ligne
de numérotation
simplifiée
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Fonctions d'appel
Lignes partagées
Astuces
• Il est possible qu'un indicateur sonore retentisse sur votre téléphone lorsqu'un appel sonne sur la ligne
surveillée (Interception d'appels FLO uniquement).
• La fonction d'interception d'appels FLO répond d'abord à l'appel le plus ancien (si plusieurs appels
sonnent sur la ligne surveillée).
• Si vous appuyez sur le bouton d'interception d'appels FLO alors que la ligne surveillée ne sonne pas,
votre téléphone compose le numéro simplifié de la ligne.
Utiliser l'interception d'appels FLO pour répondre à un appel qui sonne
Procédure
Étape 1 Si la ligne actuelle sonne, appuyez sur le bouton Interception d'appels FLO. .
L'appel est redirigé vers la ligne suivante disponible sur votre téléphone.
Étape 2 Pour indiquer une ligne particulière, appuyez d'abord sur un bouton de ligne, puis sur le bouton FLO.
Si votre téléphone prend en charge l'interception automatique des appels, l'appel est connecté automatiquement.
Étape 3 Si l'appel sonne sur votre téléphone, répondez-y.
Appels sécurisés
En fonction de la façon dont l'administrateur a configuré votre système téléphonique, votre téléphone peut
prendre en charge l'émission et la réception des appels sécurisés. Pour déterminer si vous pouvez passer des
appels sécurisés, contactez votre administrateur.
Votre téléphone peut prendre en charge les types d'appels ci-dessous.
• Appel authentifié : les identités des téléphones qui participent à l'appel ont été vérifiées.
• Appel chiffré : le téléphone reçoit et transmet des signaux audio chiffrés (votre conversation) sur le
réseau Cisco Unified Communications Manager. Les appels chiffrés sont authentifiés.
• Appel protégé : le téléphone est un appareil sécurisé (chiffré et approuvé) sur le serveur Cisco Unified
Communications Manager ; il est configuré comme “Périphérique protégé” dans Cisco Unified
Communications Manager Administration.
Lorsque la fonction “Jouer tonalité de sécurisation” est activée (vraie) dans Cisco Unified Communications
Manager Administration, le téléphone protégé émet une tonalité de sécurisation ou non-sécurisation au
début de l'appel :
◦ Lorsque lessupportssécurisés de bout en boutsont établis via le protocoleSRTP(Secure Real-Time
TransferProtocol) et que l'état de l'appel est sécurisé, le téléphone émet une tonalité de sécurisation
(trois longs bips entrecoupés de courtes pauses).
◦ Lorsque les supports non sécurisés de bout en bout sont établis via le protocole RTP (Real-Time
Protocol) et que l'état de l'appel est non sécurisé, le téléphone émet une tonalité de non-sécurisation
(six bips courts entrecoupés de courtes pauses).
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Fonctions d'appel
Appels sécurisés
Lorsque la fonction Jouer tonalité de sécurisation est désactivée (fausse), vous n'entendez aucune
tonalité.
• Appel non protégé : le téléphone n'est pas configuré comme “Périphérique protégé” dans Cisco Unified
Communications Manager. Le téléphone émet une tonalité de non-sécurisation.
• Appel non sécurisé : le téléphone n'est pas protégé sur le serveur Cisco Unified Communications Manager
et l'état de l'appel n'est pas sécurisé.
Pour plus d'informations, contactez votre administrateur système.
Le tableau ci-dessous décrit les moyens de vérifier les informations d'appel.
Pour... Procédez comme suit...
Regardez si l'une des icônes de sécurité ci-dessous apparaît en haut à droite
de la zone d'activité des appels, en regard de l'indicateur de durée d'appel :
Conférence ou appel authentifié
Conférence ou appel chiffré
Conférence ou appel non sécurisé
Contrôler le niveau d'un appel
ou d'une conférence
Vérifiez que vous entendez bien la tonalité de sécurisation au début de
l'appel.
• État de l'appel sécurisé : lorsque le téléphone est protégé, que la
fonction “Jouer tonalité de sécurisation” est activée et que l'état de
l'appel est sécurisé, le téléphone protégé joue une tonalité de
sécurisation en début d'appel (trois bips longs entrecoupés de pauses).
L'icône en forme de verrou indique également que l'appel est sécurisé.
• État de l'appel non sécurisé : lorsque le téléphone est protégé, que la
fonction “Jouer tonalité de sécurisation” est activée et que l'état de
l'appel est non sécurisé, le téléphone protégé joue une tonalité de
non-sécurisation en début d'appel (six bips courts entrecoupés de
courtes pauses). L'icône de lecture en forme de flèche indique
également que l'appel n'est pas sécurisé.
Pour plus d'informations, contactez votre administrateur système.
Vérifier que la connexion du
téléphone (état de l'appel) est
sécurisée
Des interactions, des restrictions et des limites peuvent affecter l'exécution des fonctions de sécurité de
votre téléphone. Pour plus d'informations, contactez votre administrateur système.
Remarque
Un périphérique en cours d'appel est sécurisé ou n'est pas sécurisé. Les icônes en forme de bouclier ou de
verrou ne s'affichent pas sur l'écran des téléphones IP Cisco Unified lorsqu'un appel est passé vers ou
depuis un périphérique non approuvé, même si l'appel est sans danger.
Remarque
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Fonctions d'appel
Appels sécurisés
Suivi des appels douteux
Si vous faites l'objet d'appels douteux ou malveillants, votre administrateur système peut ajouter la fonction
d'identification des appels malveillants (IDAM) à votre téléphone. Cette fonction permet d'identifier un appel
actif douteux, ce qui lance une série de messages automatisés de suivi et de notification.
Informer l'administrateur système d'un appel douteux ou malveillant
Procédure
Appuyez sur IDAM.
Vous entendez une tonalité et le message IDAM réussi s'affiche sur votre téléphone. Votre administrateur
reçoit la notification sur l'appel avec desinformations complémentaires pour prendre les mesures appropriées.
Appels prioritaires
Dans certains environnements spécialisés, tels que les bureaux de l'Armée ou de l'État, il est possible que vous
ayez besoin de passer et de recevoir des appels urgents ou critiques. Si vous avez besoin de ce traitement
spécialisé des appels, votre administrateur système peut ajouter une fonction de préséance et de préemption
à plusieurs niveaux (Multilevel Precedence and Preemption, MLPP) sur votre téléphone.
Gardez ces définitions à l'esprit :
• La préséance indique la priorité associée à un appel.
• La préemption est le processus qui permet de mettre fin à un appel existant dont la priorité est inférieure,
tout en acceptant un appel de priorité supérieure envoyé vers votre téléphone.
Si vous... Procédez comme suit...
Contactez votre administrateur système pour obtenir la liste des
numéros de préséance correspondant aux appels.
Voulez pouvoir choisir le niveau de
priorité (préséance) d'un appel sortant
Saisissez le numéro d'accès MLPP (fourni par votre administrateur
système), puis le numéro de téléphone.
Voulez passer un appel prioritaire (qui
a la préséance)
Vous recevez un appel prioritaire (qui a la préséance). Une icône
MLPPs'affiche sur l'écran de votre téléphone pour indiquer le niveau
de priorité de l'appel.
Entendez une sonnerie différente (plus
simplifié que d'habitude) ou une tonalité
d'attente spéciale
Voulez afficher le niveau de priorité Recherchez l'icône MLPP sur l'écran de votre téléphone :
d'un appel Appel prioritaire
Appel d'importance moyenne (immédiat)
Appel très important (simplifié)
Appel de la plus haute importance (suppression simplifiée) ou
appel prioritaire
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Fonctions d'appel
Suivi des appels douteux
Les appels les plus importants s'affichent en haut de la liste des
appels.Si aucune icône MLPPn'apparaît, il s'agit d'un appel normal
(routine).
Cela signifie que vous ou votre interlocuteur recevez un appel qui
est prioritaire sur l'appel en cours. Raccrochez immédiatement pour
permettre à l'appel plus important de sonner sur votre téléphone.
Entendez une tonalité continue qui
interrompt votre appel
Astuces
• Lorsque vous passez ou que vous recevez un appel compatible MLPP, vous entendez une sonnerie et
une tonalité d'attente spéciales, différentes des sonnerie et tonalité standard.
• La fonction MLPP est prioritaire sur le mode NPD (Ne pas déranger).
• Si vous saisissez un numéro d'accès MLPP incorrect, un message vocal vous en avertit.
• Un appel MLPP reste prioritaire lorsque vous :
◦ Mettez l'appel en attente
◦ Transférez l'appel
◦ Ajoutez l'appel à une conférence à trois
◦ Répondez à l'appel par interception
Cisco Extension Mobility
Cisco Extension Mobility (EM) permet de configurer temporairement un téléphone IP Cisco Unified comme
étant le vôtre. Lorsque vous vous connectez à EM, le téléphone adopte votre profil utilisateur, y compris vos
lignes téléphoniques, fonctions, services établis et paramètres Web. Seul l'administrateur système peut
configurer Extension Mobility.
La fonction de modification du PIN de Cisco Extension Mobility permet de modifier votre PIN depuis votre
téléphone IP Cisco Unified.
Astuces
• Vous êtes automatiquement déconnecté du service EM au bout d'un certain temps. Ce délai est déterminé
par l'administrateur système.
• Les modifications que vous apportez à votre profil EM dans les pages Web Options utilisateur Cisco
Unified Communications Manager sont prises en compte immédiatement si vous êtes connecté à la
fonction Extension Mobility sur votre téléphone. Sinon, elles ne seront prises en compte qu'à votre
prochaine connexion.
• Les modifications que vous apportez à votre téléphone dans les pages Web Options utilisateur sont prises
en compte immédiatement si vous vous êtes déconnecté du service EM. Sinon, elles ne seront prises en
compte qu'à votre prochaine déconnexion.
• Les paramètres locaux réglables sur le téléphone ne sont pas enregistrés dans votre profil EM.
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Fonctions d'appel
Cisco Extension Mobility
Connexion au service EM
Procédure
Étape 1 Sélectionnez ( ) > Services > Service EM (le nom de cette fonction peut varier).
Étape 2 Saisissez votre ID utilisateur et votre PIN (fournis par votre administrateur système).
Étape 3 Si vous y êtes invité, sélectionnez un profil de périphérique.
Déconnexion du service EM
Procédure
Étape 1 Sélectionnez ( ) > Services > Service EM (le nom de cette fonction peut varier).
Étape 2 Lorsque vous êtes invité à vous déconnecter, appuyez sur Oui.
Modifier PIN à l'aide du service Modifier les informations d'identification
Procédure
Étape 1 Sélectionnez ( ) > Services > Modifier les informations d'identification.
Étape 2 Saisissez votre ID utilisateur dans le champ ID utilisateur.
Étape 3 Saisissez votre PIN dans le champ PIN actuel.
Étape 4 Dans le champ Nouveau PIN, spécifiez votre nouveau PIN.
Étape 5 Dans le champ Confirmer le PIN, spécifiez à nouveau votre nouveau PIN.
Étape 6 Appuyez sur Modifier.
Un message indique que le PIN a été modifié.
Étape 7 Appuyez sur Quitter.
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Fonctions d'appel
Cisco Extension Mobility
Modifier le PIN à l'aide de la touche Modifier le PIN
Procédure
Étape 1 Sélectionnez ( ) > Services > Service EM (le nom de cette fonction peut varier).
Étape 2 Appuyez sur Modifier le PIN.
Étape 3 Saisissez votre PIN dans le champ PIN actuel.
Étape 4 Dans le champ Nouveau PIN, spécifiez votre nouveau PIN.
Étape 5 Dans le champ Confirmer le PIN, spécifiez à nouveau votre nouveau PIN.
Étape 6 Appuyez sur Modifier.
Un message indique que le PIN a bien été modifié.
Étape 7 Appuyez sur Quitter.
Appels professionnels à l'aide d'un seul numéro de téléphone
Intelligent Session Control associe le numéro de votre téléphone portable à celui de votre téléphone IP
professionnel. Lorsque vousrecevez un appelsur votre destination distante (téléphone portable), votre téléphone
de bureau ne sonne pas et seule votre destination distante sonne. Lorsque vous répondez à un appel entrant
sur votre téléphone portable, votre téléphone de bureau affiche le message Utilisé à distance.
Au cours d'un appel, vous pouvez également utiliser lesfonctions de votre téléphone portable.Si, par exemple,
vous recevez un appel sur votre numéro mobile, vous pouvez le prendre depuis votre téléphone de bureau ou
le transférer sur ce dernier depuis votre téléphone portable.
Le tableau qui suit décrit le mode de transfert des appels.
Pour... Procédez comme suit...
Utilisez les différentes fonctions de votre téléphone portable (par exemple,
*74). Contactez votre administrateur système pour obtenir la liste des codes
d'accès.
Transférer un appel entrant en
cours sur votre téléphone
portable vers un téléphone de
bureau
Mobile Connect et Accès vocal mobile
Lorsque lesfonctions de connexion et d'accès vocal mobilessont installées, vous pouvez utiliser votre téléphone
portable pour gérer les appels associés au numéro de votre téléphone de bureau.
• Votre bureau et vos destinations distantes reçoivent les appels simultanément.
• Lorsque vous prenez l'appel sur votre téléphone de bureau, les destinations distantes cessent de sonner,
sont déconnectées et affichent un message d'appel en absence.
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Fonctions d'appel
Appels professionnels à l'aide d'un seul numéro de téléphone
• Lorsque vous prenez l'appel sur une destination distante, les autres destinations distantes cessent de
sonner, sont déconnectées et affichent un message d'appel en absence.
Pour... Procédez comme suit...
Les pages Web Options utilisateur permettent de configurer des destinations
distantes et de créer des listes d'accès destinées à autoriser ou à bloquer les
appels passés vers ces destinations depuis des numéros spécifiques.
Reportez-vous à Téléphone et liste d'accès pour Mobile Connect, à la page
91.
Configurer Mobile Connect
Réponse à un appel sur votre Reportez-vous à Réponse à un appel, à la page 23.
téléphone portable
Faire basculer un appel en Reportez-vous à Mouvement des appels en cours, à la page 26.
cours entre votre téléphone de
bureau et un téléphone
portable
Passage d'un appel depuis Reportez-vous à Options des appels supplémentaires, à la page 19.
votre téléphone portable
Astuces
• En cas d'utilisation de l'accès vocal mobile, vous devez saisir le numéro depuis lequel vous appelez et
votre PIN si l'une des conditions ci-dessous s'applique :
◦ Le numéro depuis lequel vous appelez n'est pas l'une de vos destinations distantes.
◦ Le numéro est bloqué par votre opérateur ou vous-même (affiché comme “Numéro inconnu”).
◦ Le numéro ne se présente pas exactement de la même manière dans la base de données Cisco
Unified Communications Manager. Par exemple, votre numéro est le 510-666-9999 (ou
le 408-999-6666) maisil estspécifié dansla base de données comme 666-9999 (ou 1-408-999-6666).
• Si vous vous trompez trois fois de suite dans la saisie des informations demandées telles que le numéro
de téléphone portable ou le PIN, vous ne disposez plus de la fonction d'accès vocal mobile et l'accès
vous est refusé pendant une certaine durée.Pour obtenir de l'aide, contactez votre administrateursystème.
Rubriques connexes
Mouvement des appels en cours, à la page 26
Mettre en attente l'appel intercepté sur un téléphone portable
Procédure
Étape 1 Appuyez sur Attente d'entreprise (ce nom peut varier).
Votre interlocuteur est mis en attente.
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Fonctions d'appel
Appels professionnels à l'aide d'un seul numéro de téléphone
Étape 2 Sur votre téléphone portable, appuyez sur Reprendre (ce nom peut varier).
Vous connecter à la fonction d'accès vocal mobile
Procédure
Étape 1 Composez le numéro d'accès vocal mobile qui vous a été attribué depuis n'importe quel téléphone.
Étape 2 Saisissez le numéro depuis lequel vous appelez, si vous y êtes invité, ainsi que votre PIN.
Activation de Mobile Connect depuis un téléphone portable
Procédure
Étape 1 Composez le numéro d'accès vocal mobile qui vous a été attribué.
Étape 2 Saisissez le numéro de votre téléphone portable, si vous y êtes invité, ainsi que votre PIN.
Étape 3 Appuyez sur 2 pour activer Mobile Connect.
Étape 4 Vous pouvez activer Mobile Connect pour tous les téléphones configurés ou pour un seul :
• Tous les téléphones : saisissez 2.
• Un téléphone : saisissez 1, puis le numéro à ajouter comme destination distante, suivi de dièse (#).
Désactiver Mobile Connect depuis un téléphone portable
Procédure
Étape 1 Composez le numéro d'accès vocal mobile qui vous a été attribué.
Étape 2 Saisissez le numéro de votre téléphone portable, si vous y êtes invité, ainsi que votre PIN.
Étape 3 Appuyez sur 3 pour désactiver Mobile Connect.
Étape 4 Vous pouvez désactiver Mobile Connect pour tous les téléphones configurés ou pour un seul :
• Tous les téléphones : saisissez 2.
• Un téléphone : saisissez 1, puis saisissez le numéro que vous voulez supprimer comme destination
distante, suivi de dièse (#).
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Fonctions d'appel
Appels professionnels à l'aide d'un seul numéro de téléphone
Activer ou désactiver l'accès de connexion mobile à toutes les destinations distantes à partir
de votre téléphone de bureau
Procédure
Étape 1 Appuyez sur le bouton Mobilité pour afficher l'état actuel de la destination distante (activée ou désactivée).
Étape 2 Appuyez sur Sélect pour modifier l'état.
Étape 3 Appuyez sur Quitter.
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Fonctions d'appel
Appels professionnels à l'aide d'un seul numéro de téléphone
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Fonctions d'appel
Appels professionnels à l'aide d'un seul numéro de téléphone
CHAPITRE 4
Combiné, casque et haut-parleur
Vous pouvez utiliser votre téléphone avec ces périphériques audio : un combiné, un casque ou un haut-parleur.
Le téléphone est décroché lorsque le combiné est soulevé ou lorsqu'un autre périphérique audio est en cours
d'utilisation. Le téléphone est raccroché lorsque le combiné est sur son support et qu'aucun autre périphérique
audio n'est utilisé.
Ce chapitre contient les sections ci-dessous :
• Combiné, page 59
• Casque, page 60
• Haut-parleur, page 60
• Réponse automatique avec casque ou haut-parleur, page 61
Combiné
Le tableau qui suit décrit l'utilisation du combiné.
Pour... Procédez comme suit...
Levez-le pour décrocher ; remettez-le en place pour raccrocher.
La ligne qui sonne est automatiquement sélectionnée. Contactez votre
administrateur système concernant les options permettant de toujours
sélectionner la ligne principale.
Utiliser le combiné
Appuyez sur ou ( ), puis raccrochez le combiné. Passer en mode haut-parleur ou
casque en cours d'appel
Appuyez sur le bouton Volume pendant l'appel ou après obtention de
la tonalité.
Appuyez sur Enregistrer pour conserver le niveau de volume pour les
appels ultérieurs.
Régler le volume d'un appel
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Casque
Pour les casques à fil, votre téléphone prend en charge les prises casque à quatre ou six fils. Pour plus
d'informations sur l'achat de casques, reportez-vous à Prise en charge de casques, à la page 16.
Vous pouvez utiliser un casque avec toutes les commandes de votre téléphone, notamment le bouton Volume
et .
Pour... Procédez comme suit...
Appuyez sur ( ) pour activer/désactiver le mode casque. (En général,
le bouton 23 est affecté au casque.)
Activer ou désactiver le mode
casque
Passer en mode combiné Décrochez le combiné (n'appuyez sur aucun bouton).
Appuyez sur le bouton Volume pendant l'appel ou après obtention de
la tonalité.
Appuyez sur Enregistrer pour conserver le niveau de volume pour les
appels ultérieurs.
Régler le volume d'un appel
Si vous utilisez la fonction de réponse automatique, reportez-vous à Réponse automatique avec casque ou
haut-parleur, à la page 61.
Casque large bande
Si vous utilisez un casque large bande, vous devriez bénéficier d'une meilleure sensibilité audio en activant
le paramètre large bande de votre téléphone (ce paramètre est désactivé par défaut).Pour accéder au paramètre,
sélectionnez ( ) > Paramètres > Préférences utilisateur > Préférences audio > Casque large bande.
Si le paramètre Casque large bande apparaît en grisé, vous ne pouvez pas le modifier.
Assurez-vous auprès de l'administrateur que votre système téléphonique est bien configuré pour le mode large
bande. Si ce n'est pas le cas, vous risquez de ne pas pouvoir détecter de sensibilité audio supplémentaire,
même en utilisant un casque large bande. Pour connaître les caractéristiques de votre casque, reportez-vous
à la documentation qui l'accompagne ou contactez votre administrateur système.
Haut-parleur
La plupart des opérations que vous pouvez effectuer pour composer un numéro ou répondre à un appel
déclenche automatiquement le mode haut-parleur, à condition que le combiné soit raccroché et que le témoin
(casque) ne soit pas allumé.
Pour... Procédez comme suit...
Activer Appuyez sur .
ou désactiver le mode
haut-parleur
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Combiné, casque et haut-parleur
Casque
Pour... Procédez comme suit...
Passer en mode combiné Décrochez le combiné (n'appuyez sur aucun bouton).
Appuyez sur le bouton Volume pendant l'appel ou après obtention de
la tonalité.
Appuyez sur Enregistrer pour conserver le niveau de volume pour les
appels ultérieurs.
Régler le volume d'un appel
Réponse automatique avec casque ou haut-parleur
Lorsque la fonction de réponse automatique est activée, votre téléphone répond automatiquement aux appels
entrants après quelques sonneries. Votre administrateur système doit configurer la fonction de réponse
automatique pour qu'elle fonctionne soit avec votre haut-parleursoit avec votre casque. La fonction de réponse
automatique est particulièrement utile si vous recevez un grand nombre des appels entrants.
Si vous... Procédez comme suit...
Restez en mode casque (le témoin ( ) doit rester allumé) même lorsque
vous n'êtes pas en ligne.
Pour que le mode casque reste activé, procédez comme suit :
• Appuyez sur FinApp pour raccrocher.
• Appuyez sur NvAppel ou Composer pour effectuer de nouveaux appels.
Si votre téléphone est configuré pour utiliser la fonction de réponse automatique
en mode casque, il ne prend les appels automatiquement que si le témoin
( ) est allumé. Dans le cas contraire, les appels sonnent normalement et vous
devez y répondre manuellement.
Utilisez la fonction de
réponse automatique avec
un casque
Laissez le combiné raccroché et gardez le mode casque inactif ( ( ) éteint).
Dansle cas contraire, les appelssonnent normalement et vous devez y répondre
manuellement.
Utilisez la fonction de
réponse automatique avec
le haut-parleur
Astuce
En mode Ne pas déranger, la fonction Réponse automatique est désactivée.
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Combiné, casque et haut-parleur
Réponse automatique avec casque ou haut-parleur
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Combiné, casque et haut-parleur
Réponse automatique avec casque ou haut-parleur
CHAPITRE 5
Personnalisation du téléphone
Pour personnaliser votre téléphone IP Cisco Unified, définissez la sonnerie, le volume et d'autres paramètres.
Ce chapitre contient les sections ci-dessous :
• Personnalisation des sonneries et de l'indicateur de messages, page 63
• Personnalisation de l'écran du téléphone, page 64
Personnalisation des sonneries et de l'indicateur de messages
Vous pouvez personnaliser la manière dont votre téléphone signale les appels entrants et les nouveaux messages
vocaux. Vous pouvez également régler le volume de la sonnerie de votre téléphone
Rubriques connexes
Opérations de la page Web Options utilisateur, à la page 80
Paramètres de ligne sur le Web, à la page 90
Modifier la sonnerie
Procédure
Étape 1 Sélectionnez ( ) > Répertoires > Préférences utilisateur > Sonneries.
Étape 2 Choisissez une ligne téléphonique ou la sonnerie par défaut.
Étape 3 Sélectionnez une sonnerie pour en entendre un extrait.
Étape 4 Pour définir la sonnerie, appuyez sur Sélectionner et sur Enregistrer. Sinon, appuyez sur Annuler.
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Régler le niveau de la sonnerie du téléphone
Contactez votre administrateur système à propos des paramètres du volume minimum de sonnerie.
Procédure
Appuyez sur Volume lorsque le combiné est raccroché. Le nouveau volume de la sonnerie est enregistré
automatiquement.
Modifier le mode de fonctionnement du témoin de message vocal sur le
combiné
Procédure
Étape 1 Connectez-vous à vos pages Web Options utilisateur.
Étape 2 Choisissez Modifier la politique d'indicateur de messages en attente.
Étape 3 Accédez à vos paramètres d'indicateur de message. La politique par défaut du système consiste généralement
à indiquer les nouveaux messages vocaux via un témoin fixe sur la bande lumineuse du combiné.
Modification de l'indicateur sonore du message vocal
Procédure
Étape 1 Connectez-vous à vos pages Web Options utilisateur.
Étape 2 Accédez à vos paramètres d'indicateur de message.
Personnalisation de l'écran du téléphone
Vous pouvez modifier les paramètres de l'écran du téléphone.
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Personnalisation du téléphone
Régler le niveau de la sonnerie du téléphone
Modifier la luminosité de l'écran du téléphone
Procédure
Étape 1 Sélectionnez ( ) > Paramètres > Préférences utilisateur > Luminosité.
Étape 2 Pour modifier les réglages, appuyez sur Volume.
Étape 3 Appuyez sur Enregistrer ou sur Annuler.
Si vous modifiez le réglage de luminosité de votre téléphone, ne débranchez pas le téléphone
de l'alimentation électrique pendant au moins une minute, faute de quoi le nouveau réglage ne
sera pas enregistré.
Remarque
Modifier la langue de l'écran du téléphone
Procédure
Étape 1 Connectez-vous à vos pages Web Options utilisateur.
Étape 2 Accédez à vos paramètres des utilisateurs.
Étape 3 Sélectionnez une langue.
Changer le libellé de ligne
Procédure
Étape 1 Connectez-vous à vos pages Web Options utilisateur.
Étape 2 Accédez à vos paramètres de libellé de ligne.
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Personnalisation du téléphone
Modifier la luminosité de l'écran du téléphone
Régler le contraste
Procédure
Étape 1 Sélectionnez ( ) > Paramètres > Préférences utilisateur > Contraste.
Étape 2 Pour modifier les réglages, appuyez sur le bouton Volume.
Étape 3 Appuyez sur Enregistrer ou sur Annuler.
Paramètre du rétroéclairage
Contactez votre administrateursystème pour la disponibilité de cette option. Cette fonction permet de désactiver
le rétroéclairage pendant une durée prédéterminée (par votre administrateur système).
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Personnalisation du téléphone
Régler le contraste
CHAPITRE 6
Journaux des appels et répertoires
Cette section explique comment utiliser les journaux des appels et les répertoires. Pour accéder aux deux
fonctions, utilisez le bouton Répertoires ( )Répertoires.
• Journaux des appels, page 67
• Fonctions du répertoire, page 70
Journaux des appels
Votre téléphone tient à jour des journaux des appels. Les journaux des appels contiennent des enregistrements
des appels émis, reçus et en absence.
L'administrateur de votre téléphone détermine si les appels en absence sont consignés dans votre répertoire
Appels en absence pour une apparence de ligne donnée sur votre téléphone.
Astuces
• (Téléphones SCCP et SIP) Votre téléphone peut être configuré pour la consignation des appels
internationaux, qui est indiquée par un symbole “+” danslesjournaux des appels, le rappel ou les entrées
du répertoire des appels. Pour plus d'informations, contactez votre administrateur système.
• (Téléphones SCCP uniquement) Pour afficher l'enregistrement d'appel complet d'un appel à plusieurs
interlocuteurs (par exemple, d'un appel qui a été redirigé ou transféré sur votre poste), mettez en
surbrillance l'enregistrement d'appel, puis appuyez sur Détails. L'enregistrement Détails affiche deux
entrées pour chaque appel avec plusieurs interlocuteurs en absence ou reçu. Les entrées apparaissent
dans l'ordre chronologique inverse :
◦ La première entrée enregistrée contient le nom ou le numéro du dernier appel avec plusieurs
interlocuteurs terminé, reçu sur votre téléphone.
◦ La deuxième entrée enregistrée contient le nom ou le numéro du premier appel avec plusieurs
interlocuteurs terminé, reçu sur votre téléphone.
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Affichage des journaux d'appels
Procédure
Sélectionnez ( ) > Répertoires > Appels en absence, Appels composés, ou Appels reçus. Chacun peut
contenir jusqu'à 100 enregistrements.
Affichage des détails d'un enregistrement d'appel donné
Procédure
Étape 1 Sélectionnez ( ) > Répertoires > Appels en absence, Appels composés ou Appels reçus.
Étape 2 Mettez en surbrillance un enregistrement d'appel.
Étape 3 Appuyez sur Détails. Les informations, telles que le numéro appelé, celui de l'appelant, l'heure de l'appel et
sa durée (uniquement pour les appels émis et reçus) s'affichent.
Effacer l'ensemble des enregistrements des appels de tous les journaux des
appels
Procédure
Étape 1 Sélectionnez ( ) > Répertoires.
Étape 2 Appuyez sur Effacer.
Effacer tous les enregistrements des appels d'un journal spécifique
Procédure
Étape 1 Sélectionnez ( ) > Répertoires > Appels en absence, Appels composés, ou Appels reçus.
Étape 2 Mettez en surbrillance un enregistrement d'appel.
Étape 3 Appuyez sur Effacer. Il est possible que vous deviez au préalable appuyer sur la touche Autres pour afficher
l'option Effacer.
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Journaux des appels et répertoires
Affichage des journaux d'appels
Effacer un seul enregistrement d'appel
Procédure
Étape 1 Sélectionnez ( ) > Répertoires > Appels en absence, Appels composés, ou Appels reçus.
Étape 2 Mettez en surbrillance un enregistrement d'appel.
Étape 3 Appuyez sur Supprimer.
Composition d'un numéro à partir d'un journal des appels lorsqu'aucun autre
appel n'est en cours
Procédure
Étape 1 Sélectionnez ( ) > Répertoires > Appels en absence, Appels composés ou Appels reçus.
Étape 2 Mettez en surbrillance un enregistrement d'appel.
Si la touche Détails s'affiche, l'appel représente l'entrée principale d'un appel à plusieurs interlocuteurs.
Étape 3 Si vous devez modifier le numéro affiché, appuyez sur ModNum,, puis sur << ou sur >>.
Étape 4 Pour supprimer le numéro, appuyez sur ModNum, puis sur Supprimer. Il est possible que vous deviez au
préalable appuyer sur la touche Autres pour afficher l'option Supprimer.
Étape 5 Pour passer l'appel, décrochez le combiné.
Composition d'un numéro à partir d'un journal des appels avec un autre appel
en cours
Procédure
Étape 1 Sélectionnez ( ) > Répertoires > Appels en absence, Appels composés ou Appels reçus.
Étape 2 Mettez en surbrillance un enregistrement d'appel.
Si la touche Détails s'affiche, l'appel représente l'entrée principale d'un appel à plusieurs
interlocuteurs.
Remarque
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Journaux des appels et répertoires
Effacer un seul enregistrement d'appel
Étape 3 Si vous devez modifier le numéro affiché, appuyez sur ModNum,, puis sur << ou sur >>.
Étape 4 Pour supprimer le numéro, appuyez sur ModNum, puis sur Supprimer. Il est possible que vous deviez au
préalable appuyer sur la touche Autres pour afficher l'option Supprimer.
Étape 5 Appuyez sur Composer.
Étape 6 Choisissez une option de menu pour traiter l'appel initial.
a) Attente : met le premier appel en attente et compose le second.
b) Transfert : transfère le premier interlocuteur vers le second et vous déconnecte de l'appel. Appuyez de
nouveau sur après avoir composé le numéro pour terminer l'opération.
c) Conférence : établit une conférence entre tous les interlocuteurs, vous compris. Appuyez de nouveau sur
( ) après avoir composé le numéro pour terminer l'opération.
d) FinApp : déconnecte le premier appel et compose le second.
Recomposer un numéro international à partir des journaux des appels reçus
et en absence.
Procédure
Étape 1 Sélectionnez ( ) > Répertoires > Appels en absence ou Appels reçus.
Étape 2 Mettez en surbrillance l'enregistrement de l'appel que vous voulez recomposer.
Si la touche Détails s'affiche, l'appel représente l'entrée principale d'un appel à plusieurs interlocuteurs.
Étape 3 Appuyez sur ModNum.
Étape 4 Maintenez la touche “*” enfoncée pendant au moins 1 seconde pour ajouter le signe “+” devant un numéro
de téléphone.
Le signe + ne peut être placé qu'au début du numéro.
Étape 5 Appuyez sur Composer.
Fonctions du répertoire
En fonction de la configuration de votre téléphone, celui-ci dispose peut-être de fonctions de répertoire
d'entreprise et personnel.
• Répertoire d'entreprise : contacts d'entreprise auxquels vous pouvez accéder depuis votre téléphone. Il
est configuré et géré par votre administrateur système.
• Répertoire personnel : il s'agit, le cas échéant, de contacts personnels et de codes de numérotation
simplifiée associés que vous pouvez configurer et auxquels vous pouvez accéder à partir de votre
téléphone et de vos pages Web Options utilisateur Cisco Unified Communications Manager. Le répertoire
personnel comprend le carnet d'adresses personnel et les numéros simplifiés :
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Journaux des appels et répertoires
Recomposer un numéro international à partir des journaux des appels reçus et en absence.
◦ Le carnet d'adresses personnel est un répertoire qui contient vos contacts personnels.
◦ Les numéros simplifiés sont des codes affectés aux entrées du carnet d'adresses personnel et
permettent de composer les numéros rapidement.
Répertoire d'entreprise
Le répertoire d'entreprise permet d'émettre des appels à destination de vos collègues.
Astuce
Utilisez le clavier pour saisir des caractères sur l'écran du téléphone. Utilisez le bouton denavigationde votre
téléphone pour passer d'un champ de saisie à un autre.
Composition d'un numéro à partir d'un répertoire d'entreprise lorsqu'aucun autre appel n'est
en cours
Procédure
Étape 1 Sélectionnez ( ) > Répertoires > Répertoire d'entreprise (le nom exact de ce service peut varier).
Étape 2 Utilisez votre clavier pour saisir un nom entier ou partiel, puis appuyez sur Rechercher.
Étape 3 Pour composer un numéro, sélectionnez ou recherchez une entrée dans la liste, puis décrochez le téléphone.
Composition un numéro à partir d'un répertoire d'entreprise avec un appel en cours
Procédure
Étape 1 Sélectionnez ( ) > Répertoires > Répertoire d'entreprise (le nom exact de ce service peut varier).
Étape 2 Utilisez votre clavier pour saisir un nom entier ou partiel, puis appuyez sur Rechercher.
Étape 3 Accédez à une entrée, puis appuyez sur Composer.
Étape 4 Choisissez une option de menu pour traiter l'appel initial.
a) Attente : met le premier appel en attente et compose le second.
b) Transfert : transfère le premier interlocuteur vers le second et vous déconnecte de l'appel. Appuyez de
nouveau sur après avoir composé le numéro pour terminer l'opération.
c) Conférence : établit une conférence entre tous les interlocuteurs, vous compris. Appuyez de nouveau sur
( ) après avoir composé le numéro pour terminer l'opération.
d) FinApp : déconnecte le premier appel et compose le second.
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Journaux des appels et répertoires
Répertoire d'entreprise
Répertoire personnel
Le répertoire personnel comprend le carnet d'adresses personnel et les numéros rapides. Cette section explique
comment configurer et utiliser le répertoire personnel sur votre téléphone. Vous pouvez également vous
reporter à la section Répertoire personnel sur le Web, à la page 81.
Astuces
• L'administrateur système peut vous fournir l'ID utilisateur et le PIN nécessaires pour vous connecter au
répertoire personnel.
• Le répertoire personnel vous déconnecte automatiquement au bout d'un certain temps. Ce délai est
variable. Pour plus d'informations, contactez votre administrateur système.
• Utilisez le pavé numérique pour saisir des caractères sur l'écran du téléphone. Utilisez le bouton de
navigation de votre téléphone pour passer d'un champ de saisie à un autre.
• Votre téléphone peut être configuré pour la journalisation des appels internationaux, ce qui est indiqué
par un symbole “+” dans les journaux des appels, les rappels ou les entrées du répertoire des appels.
Pour plus d'informations, contactez votre administrateur système.
Accéder au répertoire personnel pour le carnet d'adresses personnel et les codes de
numérotation rapide
Procédure
Étape 1 Sélectionnez ( ) > Répertoires > Pépertoire personnel (le nom exact de ce service peut varier).
Étape 2 Saisissez votre ID utilisateur Cisco Unified Communications Manager et votre PIN, puis appuyez sur Soum.
Recherche d'une entrée du carnet d'adresses personnel
Procédure
Étape 1 Accédez à Répertoire personnel.
Étape 2 sélectionnez carnet d'adresses personnel.
Étape 3 Saisissez les critères de recherche, puis appuyez sur Soumettre.
Étape 4 Parcourez les entrées à l'aide de Précédent et de Suivant.
Étape 5 Mettez en surbrillance l'entrée du carnet d'adresses personnel souhaitée, puis appuyez sur Sélectionner.
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Journaux des appels et répertoires
Répertoire personnel
Composition d'un numéro à partir d'une entrée du carnet d'adresses personnel
Procédure
Étape 1 Recherchez une entrée.
Étape 2 Mettez l'entrée en surbrillance, puis appuyez sur Sélectionner.
Étape 3 Appuyez sur Composer. Il est possible que vous deviez au préalable appuyer sur la touche Autres pour
afficher l'option Composer.
Supprimer une entrée du carnet d'adresses personnel
Procédure
Étape 1 Recherchez une entrée.
Étape 2 Mettez l'entrée en surbrillance, puis appuyez sur Supprimer.
Étape 3 Appuyez sur Modifier.
Étape 4 Appuyez sur Supprimer.
Étape 5 Choisissez OK pour confirmer la suppression.
Modifier une entrée du carnet d'adresses personnel
Procédure
Étape 1 Recherchez une entrée.
Étape 2 Mettez l'entrée en surbrillance, puis appuyez sur Sélectionner.
Étape 3 Pour modifier un nom ou une adresse e-mail, appuyez sur Modifier.
Étape 4 Le cas échéant, sélectionnez Téléphone pour modifier un numéro de téléphone.
Étape 5 Appuyez sur MàJ.
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Ajout d'une entrée au carnet d'adresses personnel
Procédure
Étape 1 Accédez à Répertoire personnel.
Étape 2 Sélectionnez Carnet d'adresses personnel.
Étape 3 Appuyez sur Soumettre pour accéder à la page Rechercher. Il n'est pas nécessaire de commencer par saisir
les informations de recherche.
Étape 4 Appuyez sur Nouveau.
Étape 5 Utilisez le clavier de votre téléphone pour saisir un nom et un e-mail.
Étape 6 Sélectionnez Téléphones et utilisez le clavier pour saisir des numéros de téléphone. N'oubliez pas d'inclure
les codes d'accès nécessaires, tels que 9 ou 1.
Étape 7 Sélectionnez Soumettre pour ajouter l'entrée à la base de données.
Ajouter un nouveau code de numérotation simplifiée sans utiliser d'entrée du carnet d'adresses
personnel
Procédure
Étape 1 Appuyez sur , puis sélectionnez Répertoires > Répertoire personnel > Numéros simplifiés personnels.
Étape 2 Mettez en surbrillance un code de numérotation simplifiée non affecté, puis appuyez sur Affecter.
Étape 3 Saisissez un numéro de téléphone.
Étape 4 Appuyez sur MàJ.
Rechercher des codes de numérotation simplifiée
Procédure
Étape 1 Sélectionnez ( ) > Répertoires > Répertoire personnel > Numéros simplifiés personnels.
Étape 2 Sélectionnez Suivant pour parcourir les entrées.
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Journaux des appels et répertoires
Répertoire personnel
Passage d'un appel à l'aide de la numérotation rapide
Procédure
Étape 1 Recherchez le code de numérotation rapide.
Étape 2 Appuyez sur Composer.
Supprimer un code de numérotation rapide
Procédure
Étape 1 Recherchez le code de numérotation rapide.
Étape 2 Mettez en surbrillance l'entrée souhaitée, puis appuyez sur Supprimer.
Étape 3 Appuyez de nouveau sur Supprimer.
Se déconnecter du répertoire personnel
Procédure
Étape 1 Sélectionnez ( ) > Répertoires > Répertoire personnel (le nom exact de l'option peut varier).
Étape 2 Sélectionnez Déconn.
Étape 3 Appuyez sur OK.
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CHAPITRE 7
Messages vocaux
Pour accéder aux messages vocaux, utilisez le bouton Messages ( ) > Messages.
Votre société détermine le service de messagerie vocale utilisé par votre système téléphonique. Pour plus
d'informations précises et détaillées sur ce service, reportez-vous à la documentation correspondante.
Ce chapitre contient les sections ci-dessous :
• Identification du message vocal, page 77
• Configurer le service de messagerie vocale, page 78
• Écouter des messages vocaux ou accéder au système de messagerie vocale, page 78
Identification du message vocal
Lorsque vous avez un message vocal, recherchez :
• Un témoin lumineux rouge fixe sur votre combiné. Cet indicateur peut varier. Reportez-vous à
Personnalisation des sonneries et de l'indicateur de messages, à la page 63.
• Une icône de message en attente et un message sur l'écran du téléphone.
Le témoin lumineux rouge et l'icône de message en attente ne s'affichent que lorsque vous avez un
message sur votre ligne principale, même si vous recevez des messages vocaux sur d'autres lignes.
Lorsque vous avez un message vocal, attendez :
• Une tonalité accélérée dans le combiné, dans le casque ou dans le haut-parleur lorsque vous émettez un
appel.
La tonalité accélérée est propre à la ligne. Vous ne l'entendez que si vous utilisez la ligne associée au
message en attente.
Pour diriger un appel directement sur la messagerie vocale, appuyez sur Rvoi Im. Pour plus d'informations,
reportez-vous à Transfert de l'appel vers le système de messagerie vocale, à la page 29.
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Configurer le service de messagerie vocale
Procédure
Étape 1 Appuyez sur ( ) > Messages, puis suivez les instructions vocales.
Étape 2 Si un menu apparaît sur l'écran du téléphone, sélectionnez une option de menu appropriée.
Écouter des messages vocaux ou accéder au système de
messagerie vocale
Lorsque vous vous connectez à un service de messagerie vocale, la ligne associée à un message vocal est
sélectionnée par défaut.Si plusieurslignes comportent un message vocal, la première disponible estsélectionnée.
Contactez votre administrateur concernant les options afin que le système se connecte toujours au service de
messagerie vocale sur la ligne principale.
Procédure
Étape 1 Appuyez sur .
En fonction de votre service de messagerie vocale, cette opération permet de composer automatiquement le
numéro du service de messagerie ou d'afficher un menu sur l'écran tactile.
Étape 2 Si un menu s'affiche, sélectionnez l'option de menu.
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Messages vocaux
Configurer le service de messagerie vocale
CHAPITRE 8
Pages Web Options utilisateur
Votre téléphone IP Cisco Unified est un périphérique réseau qui peut partager des informations avec les
autres périphériques du réseau de votre entreprise, notamment votre ordinateur. Vous pouvez utiliser votre
ordinateur pour vous connecter à vos pages Web Options utilisateur Cisco Unified Communications Manager,
depuis lesquelles vous pouvez contrôler les fonctions, les paramètres et les services de votre téléphone IP
Cisco Unified. Par exemple, vous pouvez configurer les boutons de numérotation rapide depuis les pages
Web Options utilisateur.
Ce chapitre contient les sections ci-dessous :
• Connexion et déconnexion des pages Web Options utilisateur, page 79
• Sélection d'un périphérique depuis la page Web Options utilisateur, page 80
• Opérations de la page Web Options utilisateur, page 80
• Configuration des fonctions et des systèmes sur le Web, page 80
Connexion et déconnexion des pages Web Options utilisateur
Pour pouvoir accéder à vos options utilisateur, par exemple à la numérotation simplifiée ou au carnet d'adresses
personnel, vous devez vous connecter. Une fois que vous avez terminé d'utiliser les pages Web Options
utilisateur, vous devez vous déconnecter.
Dans certains cas, vous pouvez accéder à vos pages Web Options utilisateur sans devoir vous connecter. Pour
plus d'informations, contactez votre administrateur système.
Procédure
Étape 1 Demandez à votre administrateur système de vous fournir l'URL, un ID utilisateur et un mot de passe par
défaut pour vos Options utilisateur.
Étape 2 Ouvrez un navigateur Web sur votre ordinateur, puis saisissez l'URL.
Étape 3 Si vous êtes invité à accepter les paramètres de sécurité, sélectionnez Oui ou Installer le certificat.
Étape 4 Dans le champ Nom d'utilisateur, saisissez votre ID utilisateur.
Étape 5 Dans le champ Mot de passe, saisissez votre mot de passe.
Étape 6 Sélectionnez Connexion.
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La page d'accueil Options utilisateur Cisco Unified CM s'affiche. Dans cette page, vous pouvez sélectionner
Options utilisateur pour choisir un périphérique, mais aussi accéder aux paramètres des utilisateurs, aux
fonctions de répertoire, à votre carnet d'adresses personnel et aux numéros simplifiés.
Étape 7 Pour vous déconnecter des pages Web Options utilisateur, sélectionnez Déconnexion.
Sélection d'un périphérique depuis la page Web Options
utilisateur
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Périphérique.
La fenêtre Configuration du périphérique s'affiche. Les boutonssituéssur la barre d'outils en haut de la fenêtre
Configuration du périphérique sont propres au type de périphérique sélectionné.
Étape 2 (facultatif) Si plusieurs périphériques vous sont affectés, sélectionnez le périphérique approprié (modèle de
téléphone, profil Extension Mobility ou profil de destination distante) dans le menu déroulant Nom.
Opérations de la page Web Options utilisateur
Cette section explique comment vous connecter et sélectionner un périphérique de téléphonie.
Sélectionner une option de configuration
Procédure
Étape 1 Après vous être connecté à vos pages Web Options utilisateur, sélectionnez Options utilisateur pour accéder
aux paramètres des utilisateurs, au répertoire, au carnet d'adresses personnel, aux numéros simplifiés et aux
paramètres de mobilité.
Étape 2 Pour revenir à la page Configuration du périphérique depuis une autre page, sélectionnez Optionsutilisateur
> Périphérique.
Configuration des fonctions et des systèmes sur le Web
Les rubriques de cette section vous expliquent comment configurer les fonctions et les services depuis de vos
pages Web Options utilisateur après vous y être connecté. Reportez-vous à Opérations de la page Web Options
utilisateur, à la page 80.
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Pages Web Options utilisateur
Sélection d'un périphérique depuis la page Web Options utilisateur
Répertoire personnel sur le Web
Le répertoire personnel sur le Web est composé de :
• Carnet d'adresses personnel (PAB, Personal Address Book)
• Numéros rapides
• Outil de synchronisation du carnet d'adresses Cisco Unified Communications Manager.
Vous pouvez également accéder au carnet d'adresses personnel et aux numérosrapides depuis votre téléphone.
Reportez-vous à Répertoire personnel, à la page 72.
Cette section explique comment utiliser le carnet d'adresses personnel depuisles pages Web Options utilisateur.
Ajout d'une nouvelle entrée au carnet d'adresses personnel
Procédure
Étape 1 Depuis votre page Web Options utilisateur,sélectionnez Optionsutilisateur > Carnetd'adressespersonnel.
Étape 2 Sélectionnez Ajouter un nouveau.
Étape 3 Saisissez les informations de l'entrée.
Étape 4 Sélectionnez Enregistrer.
Recherche d'une entrée du carnet d'adresses personnel
Procédure
Étape 1 Depuis votre page Web Options utilisateur,sélectionnez Optionsutilisateur > Carnetd'adressespersonnel.
Étape 2 Spécifiez les informations de recherche, puis sélectionnez Rechercher.
Modification d'une entrée du carnet d'adresses personnel
Procédure
Étape 1 Connectez-vous à la page Web Options utilisateur.
Étape 2 Recherchez une entrée dans le carnet d'adresses personnel.
Étape 3 Sélectionnez un pseudonyme.
Étape 4 Modifiez l'entrée si nécessaire, puis sélectionnez Enregistrer.
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Pages Web Options utilisateur
Répertoire personnel sur le Web
Suppression d'une entrée du carnet d'adresses personnel
Procédure
Étape 1 Connectez-vous à la page Web Options utilisateur.
Étape 2 Recherchez une entrée dans le carnet d'adresses personnel.
Étape 3 Sélectionnez une ou plusieurs entrées.
Étape 4 Sélectionnez Supprimer la sélection.
Affecter un bouton de ligne à votre carnet d'adresses personnel
Pour que vous puissiez affecter un bouton de ligne à votre carnet d'adresses personnel, votre administrateur
système doit configurer le téléphone pour l'affichage des services. Pour plus d'informations, contactez
votre administrateur système.
Remarque
Procédure
Étape 1 Sélectionnez Options utilisateur > Périphérique.
Étape 2 Cliquez sur URL de service.
Étape 3 Sélectionnez le service Carnet d'adresses personnel dans la liste déroulante des boutons.
Étape 4 Saisissez une étiquette de téléphone pour le bouton.
Étape 5 Cliquez sur Enregistrer.
Étape 6 Cliquez sur Réinitialiser, puis sur Redémarrer pour actualiser la configuration du téléphone.
Vous pouvez maintenant appuyersur le bouton de ligne pour accéder aux codes du carnet d'adresses personnel.
Outil de synchronisation du carnet d'adresses
Vous pouvez utiliser l'outil de synchronisation du carnet d'adresses (SynchCA) pour synchroniser votre carnet
d'adresses Microsoft Windows existant (le cas échéant) avec votre carnet d'adresses personnel.
À partir d'une application Microsoft Windows application : Utilisez l'outil de synchronisation du carnet
d'adresses(SynchCA) poursynchroniser votre carnet d'adresses personnel avec votre carnet d'adresse Microsoft
Windows (WAB). Si vous voulez utiliser le carnet d'adresses Microsoft Outlook (OAB), vous devez d'abord
importer les données de ce carnet d'adresses vers le carnet d'adresses Windows (WAB). La fonctionSynchCA
peut alors être utilisée pour synchroniser le carnet d'adresses Windows avec votre carnet d'adresses personnel.
Votre administrateur système peut vous donner accès à l'outil SynchCA et vous fournir des instructions
détaillées.
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Pages Web Options utilisateur
Répertoire personnel sur le Web
Paramétrage de la numérotation rapide
Dans la page Web Options utilisateur, vous pouvez ajouter, supprimer ou mettre à jour des entrées de numéros
rapides.
Vous pouvez créer jusqu'à 500 entrées de numéros rapides et de carnet d'adresses personnel. Vous pouvez
créer une nouvelle entrée de numérotation rapide sans utiliser d'entrée du carnet d'adresses personnel. Ces
entrées de numéros rapides sont répertoriées comme “brutes” dans les pages Web Options utilisateur et
n'affichent pas d'étiquette de texte configurable.
Affectation d'un code de numérotation rapide à une entrée du carnet d'adresses personnel
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Numéros rapides.
Étape 2 Sélectionnez Ajouter un nouveau.
Étape 3 Utilisez la zone Options de recherche pour rechercher l'entrée souhaitée dans le carnet d'adresses personnel.
Étape 4 Dans la zone Résultats de la recherche, sélectionnez un numéro de téléphone.
Étape 5 (facultatif) Changez le code de numérotation rapide.
Étape 6 Sélectionnez Enregistrer.
Affectation d'un code de numérotation rapide au numéro de téléphone sans entrée du carnet
d'adresses personnel
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Numéros rapides.
Étape 2 Sélectionnez Ajouter un nouveau.
Étape 3 (facultatif) Changez le code de numérotation rapide.
Étape 4 Saisissez un numéro de téléphone.
Étape 5 Sélectionnez Enregistrer.
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Pages Web Options utilisateur
Paramétrage de la numérotation rapide
Recherche d'une entrée de numérotation rapide
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Numéros rapides.
Étape 2 Spécifiez les informations de recherche, puis sélectionnez Rechercher.
Modifier un numéro de téléphone correspondant à un numéro rapide
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Numéros rapides.
Étape 2 Recherchez l'entrée de numérotation rapide à modifier.
Étape 3 Sélectionnez un composant de l'entrée.
Étape 4 Modifiez le numéro de téléphone.
Étape 5 Sélectionnez Enregistrer.
Supprimer un numéro rapide du carnet d'adresses personnel
Procédure
Étape 1 Depuis votre page Web Options utilisateur, recherchez une entrée de numérotation rapide.
Étape 2 Sélectionnez une ou plusieurs entrées.
Étape 3 Sélectionnez Supprimer la sélection.
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Pages Web Options utilisateur
Paramétrage de la numérotation rapide
Affectation d'une touche de fonction pour la numérotation rapide
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Périphérique.
Étape 2 Sélectionnez l'URL de service fournie par votre administrateur système.
Étape 3 Sélectionnez le service Numérotation rapide dans la liste déroulante des boutons.
Étape 4 Saisissez une étiquette de téléphone pour le bouton.
Étape 5 Sélectionnez Enregistrer.
Étape 6 Sélectionnez Réinitialiser, puis sélectionnez Redémarrer pour actualiser la configuration du téléphone.
Configuration de la numérotation simplifiée sur le Web
En fonction de sa configuration, votre téléphone peut prendre en charge plusieurs fonctions de numérotation
simplifiée :
• Boutons de numérotation simplifiée
• Numérotation abrégée
• Numéros rapides
Pour obtenir de l'aide sur l'utilisation des fonctions de numérotation simplifiée, reportez-vous à Numérotation
simplifiée, à la page 40.
Configuration des boutons de numérotation simplifiée
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Périphérique.
Étape 2 Sélectionnez un téléphone dans le menu déroulant Nom.
Étape 3 Sélectionnez Numérotations simplifiées.
Étape 4 Dans la zone Paramètres de numérotation simplifiée, saisissez un numéro et un libellé pour un bouton de
numérotation simplifiée sur votre téléphone.
Étape 5 Sélectionnez Enregistrer.
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Pages Web Options utilisateur
Configuration de la numérotation simplifiée sur le Web
Configurer des codes de numérotation abrégée
Procédure
Étape 1 Sélectionnez Options utilisateur > Périphérique.
Étape 2 Sélectionnez un téléphone dans le menu déroulant Nom.
Étape 3 Cliquez sur Numérotations simplifiées.
Étape 4 Saisissez le numéro et le libellé d'un code de numérotation abrégée.
Étape 5 Cliquez sur Enregistrer.
Configuration du service téléphonique sur le Web
Les services téléphoniques peuvent inclure des fonctions spéciales, des données du réseau et des informations
basées sur le Web (par exemple, les cours de la bourse ou les programmes de cinéma). Vous devez vous
abonner à un service téléphonique pour y accéder depuis votre téléphone.
Utilisez les boutons de ligne pour sélectionner les menus Services, Messages et Répertoires.
•
( ) > Services
•
( ) > Messages
•
( ) > Répertoires
Si un seul service est configuré, ce service s'ouvre par défaut.
Si plusieurs services sont configurés, sélectionnez une option du menu à l'écran.
Les services disponibles sur votre téléphone dépendent de la configuration du système téléphonique et
des services auxquels vous êtes abonné.Pour plus d'informations, contactez votre administrateur système.
Remarque
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Pages Web Options utilisateur
Configuration du service téléphonique sur le Web
S'abonner à un service
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Périphérique.
Étape 2 Sélectionnez un téléphone dans le menu déroulant Nom.
Étape 3 Sélectionnez Services téléphoniques.
Étape 4 Sélectionnez Ajouter un nouveau.
Étape 5 Sélectionnez un service dans la liste déroulante, puis sélectionnez Suivant.
Étape 6 (facultatif) Changez l'intitulé du service ou saisissez des informations supplémentaires sur le service, le cas
échéant.
Étape 7 Sélectionnez Enregistrer.
Recherche de services
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez un périphérique.
Étape 2 Sélectionnez Services téléphoniques.
Étape 3 Sélectionnez Rechercher.
Modification ou résiliation de services
Procédure
Étape 1 Depuis votre page Web Options utilisateur, recherchez les services.
Étape 2 Sélectionnez une ou plusieurs entrées.
Étape 3 Sélectionnez Supprimer la sélection.
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Pages Web Options utilisateur
Configuration du service téléphonique sur le Web
Modification du nom de service
Procédure
Étape 1 Depuis votre page Web Options utilisateur, recherchez les services.
Étape 2 Sélectionnez un nom de service.
Étape 3 Modifiez les informations, puis sélectionnez Enregistrer.
Ajout de service au bouton de fonction programmable
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Périphérique.
Étape 2 Sélectionnez un téléphone dans le menu déroulant Nom.
Étape 3 Sélectionnez URL de service.
Votre administrateur système configure un bouton d'URL de service pour votre téléphone.
Étape 4 Sélectionnez un service dans la liste déroulante Bouton Service.
Étape 5 (facultatif) Si vous voulez renommer le service, modifiez les champs d'étiquette.
Si votre téléphone ne prend pas en charge les jeux de caractères à deux octets, il utilise des champs Étiquette
ASCII.
Étape 6 Sélectionnez Enregistrer.
Étape 7 Sélectionnez Réinitialiser pour réinitialiser votre téléphone afin que la nouvelle étiquette du bouton s'affiche
sur votre téléphone.
Paramètres des utilisateurs
Les paramètres des utilisateurs incluent votre mot de passe, votrePIN et votre langue (paramètres régionaux).
Astuce
Votre PIN et votre mot de passe permettent d'accéder à plusieurs fonctions et services. Par exemple, utilisez
votre PIN pour vous connecter au service Cisco Extension Mobility ou au répertoire personnel de votre
téléphone. Utilisez votre mot de passe pour vous connecter à vos pages Web Options utilisateur et à Cisco
WebDialer depuis votre ordinateur. Pour plus d'informations, contactez votre administrateur système.
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Paramètres des utilisateurs
Modification du mot de passe du navigateur
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Paramètres des utilisateurs.
Étape 2 Saisissez votre mot de passe actuel.
Étape 3 Saisissez votre nouveau mot de passe.
Étape 4 Dans le champ Confirmer le mot de passe, saisissez une nouvelle fois votre nouveau mot de passe.
Étape 5 Sélectionnez Enregistrer.
Changer le PIN
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Paramètres des utilisateurs.
Étape 2 Saisissez votre PIN actuel.
Étape 3 Saisissez votre nouveau PIN.
Étape 4 Dans le champ Confirmer le PIN, saisissez une nouvelle fois votre nouveau PIN.
Étape 5 Sélectionnez Enregistrer.
Modification de la langue des options utilisateur
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Paramètres des utilisateurs.
Étape 2 Dans la zone Langue utilisateur, choisissez une option dans la liste déroulante Langue.
Étape 3 Sélectionnez Enregistrer.
Modification de la langue de l'écran du téléphone
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Périphérique.
Étape 2 Sélectionnez une option dans la liste déroulante Langue utilisateur.
Étape 3 Sélectionnez Enregistrer.
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Paramètres des utilisateurs
Paramètres de ligne sur le Web
Les paramètres de ligne ont une incidence sur une ligne (numéro d'annuaire) spécifique de votre téléphone.
Les paramètres de ligne peuvent inclure le renvoi d'appels, les indicateurs de message vocal, les modèles de
sonneries et les libellés de ligne.
Vous pouvez configurer d'autres paramètres de ligne directement sur votre téléphone :
• Configurer le renvoi d'appels sur votre ligne téléphonique principale : voir Renvoi d'appels, à la page
30.
• Modifier les sonneries, l'affichage et d'autres paramètres spécifiques au modèle de téléphone : voir
Personnalisation du téléphone, à la page 63.
Configurer le renvoi d'appels par ligne
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Périphérique.
Étape 2 Sélectionnez un téléphone dans le menu déroulant Nom.
Étape 3 Sélectionnez Paramètres de ligne.
Étape 4 Si plusieurs numéros d'annuaire (lignes) sont affectés à votre téléphone, sélectionnez une ligne dans le menu
déroulant Ligne.
Étape 5 Dans la zone Transfert des appels entrants, sélectionnez les paramètres de renvoi d'appels correspondant aux
différentes situations.
Étape 6 Sélectionnez Enregistrer.
Modification du paramètre d'indicateur de message vocal par ligne
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Périphérique.
Étape 2 Sélectionnez un téléphone dans le menu déroulant Nom.
Étape 3 Sélectionnez Paramètres de ligne.
Étape 4 (facultatif) Si plusieurs numéros d'annuaire (lignes) sont affectés à votre téléphone, sélectionnez une ligne
dans le menu déroulant Ligne.
Étape 5 Dans la zone Indicateur de messages en attente, choisissez parmi les différents paramètres.
Généralement, le paramètre par défaut de messages en attente invite votre téléphone à afficher un témoin
lumineux rouge fixe sur la bande lumineuse du combiné pour signaler la présence d'un nouveau message
vocal.
Étape 6 Sélectionnez Enregistrer.
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Paramètres de ligne sur le Web
Modification du paramètre d'indicateur de message vocal audible par ligne
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Périphérique.
Étape 2 Sélectionnez un téléphone dans le menu déroulant Nom.
Étape 3 Sélectionnez Paramètres de ligne.
Étape 4 Si plusieurs numéros d'annuaire (lignes) sont affectés à votre téléphone, sélectionnez une ligne dans le menu
déroulant Ligne.
Étape 5 Dans la zone Indicateur de message vocal en attente, choisissez le paramètre souhaité.
Étape 6 Sélectionnez Enregistrer.
Modification du libellé de ligne pour l'écran du téléphone
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Périphérique.
Étape 2 Sélectionnez un téléphone dans le menu déroulant Nom.
Étape 3 Sélectionnez Paramètres de ligne.
Étape 4 Si plusieurs numéros d'annuaire (lignes) sont affectés à votre téléphone, sélectionnez une ligne dans le menu
déroulant Ligne.
Étape 5 Dans la zone Libellé de ligne, saisissez un libellé.
Étape 6 Sélectionnez Enregistrer.
Téléphone et liste d'accès pour Mobile Connect
Vous devez ajouter votre téléphone portable (et tous les autres téléphones que vous utilisez) à Cisco Mobile
Connect avant de pouvoir passer et recevoir des appels avec les mêmes numéros de répertoire que votre
téléphone de bureau. Ces téléphones sont appelés destinations distantes. Vous pouvez également définir des
listes d'accès pour interdire ou pour autoriser l'envoi sur votre téléphone portable des appels de certains
numéros.
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Téléphone et liste d'accès pour Mobile Connect
Création d'une liste d'accès
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Paramètres de mobilité >
Listes d'accès.
Étape 2 Sélectionnez Ajouter un nouveau.
Étape 3 (facultatif) Saisissez un nom pour identifier la liste d'accès et donnez une description.
Étape 4 Indiquez si la liste d'accès autorise ou bloque les appels indiqués.
Étape 5 Sélectionnez Enregistrer.
Étape 6 Sélectionnez Ajouter un membre pour ajouter des numéros de téléphone ou des filtres à la liste.
Étape 7 Sélectionnez une option dans la liste déroulante Masque de filtre.
Vous pouvez filtrer un numéro d'annuaire ou les appels dont l'ID de l'appelant est restreint (Non disponible)
ou anonyme (Confidentiel).
Étape 8 Si vous sélectionnez un numéro d'annuaire dans la liste déroulante Masque de filtre, saisissez un numéro de
téléphone ou un filtre dans le champ Masque NR.
Pour définir un filtre, vous pouvez utiliser les caractères génériques ci-dessous :
X (majuscule ou minuscule)
Remplace un seul chiffre.Par exemple, 408555123X correspond aux numéros compris entre 4085551230
et 4085551239.
!
Remplace un nombre indéfini de chiffres. Par exemple, 408! correspond à n'importe quel numéro qui
commence par 408.
#
Remplace un chiffre pour créer une correspondance exacte.
Étape 9 Pour ajouter ce membre à la liste d'accès, sélectionnez Enregistrer.
Étape 10 Pour enregistrer la liste d'accès, sélectionnez Enregistrer.
Ajout d'une nouvelle destination distante
Procédure
Étape 1 Depuis votre page Web Options utilisateur, sélectionnez Options utilisateur > Paramètres de mobilité >
Destinations distantes.
Étape 2 Sélectionnez Ajouter un nouveau.
Étape 3 Saisissez les informations ci-dessous :
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Téléphone et liste d'accès pour Mobile Connect
• Nom : donnez un nom au téléphone portable (ou autre).
• Numéro de destination : saisissez votre numéro de téléphone portable.
Étape 4 Sélectionnez votre profil de destination distante dans la liste déroulante.
Votre profil de destination distante contient les paramètres qui s'appliquent aux destinations distantes que
vous créez.
Étape 5 Cochez la case Téléphone portable pour autoriser votre destination distante à accepter un appel envoyé
depuis votre téléphone de bureau.
Étape 6 Cochez la case Activer Mobile Connect pour autoriser votre destination distante à sonner en même temps
que votre téléphone de bureau.
Étape 7 Sélectionnez l'une des options ci-dessous dans la zone Calendrier des appels :
• En permanence : sélectionnez cette option si vous ne voulez pas appliquer de restriction de jour et
d'heure pour faire sonner la destination distante.
• Comme spécifié ci-dessous: choisissez cette option, puissélectionnez l'une des options ci-dessous pour
définir un calendrier des appels en fonction du jour et de l'heure.
◦ Cochez les cases correspondant aux jours de la semaine au cours desquels les appels peuvent faire
sonner la destination distante.
◦ Pour chaque jour, sélectionnez Toute la journée ou sélectionnez les heures de début et de fin dans
les listes déroulantes.
◦ Sélectionnez le fuseau horaire dans la liste déroulante.
Les listes déroulantes du calendrier des appels ne contiennent que les listes d'accès que vous avez créées.
Étape 8 Sélectionnez l'une de ces options de sonnerie :
• Toujours faire sonner cette destination.
• Faire sonner cette destination seulement si l'appelant fait partie de la liste d'accès autorisée sélectionnée.
• Ne pas faire sonner cette destination si l'appelant fait partie de la liste d'accès bloquée sélectionnée.
Étape 9 Sélectionnez Enregistrer.
Cisco WebDialer
Cisco WebDialer permet de passer des appels depuis votre téléphone IP Cisco Unified vers des contacts du
répertoire via un clic sur des éléments dans un navigateur Web. Votre administrateur système configure cette
fonction à votre place.
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Cisco WebDialer
Utiliser WebDialer avec le répertoire Options utilisateur
Procédure
Étape 1 Connectez-vous à vos pages Web Options utilisateur.
Étape 2 Sélectionnez Options utilisateur > Répertoire, puis recherchez un collègue.
Étape 3 Cliquez sur le numéro à composer.
Étape 4 Si vous utilisez WebDialer pour la première fois, configurez les préférences dans la page Passage d'un appel.
Étape 5 Cliquez sur Composer.
Votre téléphone émet l'appel.
Étape 6 Pour mettre fin à un appel, cliquez sur Raccrocher ou raccrochez votre téléphone.
Utiliser WebDialer avec un autre répertoire d'entreprise en ligne (au lieu du répertoire Options
utilisateur)
Procédure
Étape 1 Connectez-vous à un répertoire d'entreprise compatible WebDialer, puis recherchez des collègues.
Étape 2 Cliquez sur le numéro à composer.
Étape 3 Lorsque vous y êtes invité, saisissez votre ID utilisateur et votre mot de passe.
Étape 4 Si vous utilisez WebDialer pour la première fois, configurez les préférences dans la page Passage d'un appel.
Étape 5 Cliquez sur Composer.
Votre téléphone émet l'appel.
Étape 6 Pour mettre fin à un appel, cliquez sur Raccrocher ou raccrochez votre téléphone.
Vous déconnecter de WebDialer
Procédure
Cliquez sur l'icône Déconnexion dans la page Passage d'un appel ou dans la page Raccrocher.
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Cisco WebDialer
Configuration, affichage ou modification des préférences de WebDialer
Procédure
Étape 1 Accédez à la page Passage d'un appel.
La page Passage d'un appel s'affiche lorsque vous utilisez WebDialer pour la première fois (après la sélection
du numéro à composer).
Étape 2 (facultatif) Modifiez vos paramètres.
La page Passage d'un appel contient les options ci-dessous :
• Langue souhaitée : détermine la langue utilisée pour les paramètres et les invites de WebDialer.
• Utilisez le périphérique de votre choix : identifie le téléphone IP Cisco Unified (périphérique qui appelle)
et le numéro d'annuaire (ligne qui appelle) que vous allez utiliser pour passer des appels WebDialer. Si
votre téléphone dispose d'une seule ligne, ce téléphone et cette ligne sontsélectionnés automatiquement.
Sinon, choisissez un téléphone ou une ligne. Si vous avez plusieurs téléphones, l'appareil sera spécifié
par type de périphérique et adresse MAC. (Pour afficher l'adresse MAC de votre téléphone, sélectionnez
> Paramètres > Configuration réseau > Adresse MAC.)
Si vous disposez d'un profil Extension Mobility, vous pouvez sélectionner le périphérique
connecté à ce service dans le menu Périphérique appelant.
Remarque
• Ne pas afficher la confirmation d'appel :si cette option estsélectionnée, elle invite WebDialer à supprimer
la page Passage d'un appel. Cette page s'affiche par défaut lorsque vous cliquez sur un numéro de
téléphone dans un répertoire en ligne compatible WebDialer.
• Désactiver la fermeture automatique : si cette option est sélectionnée, la fenêtre d'appel ne se ferme pas
automatiquement au bout de quinze secondes.
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Cisco WebDialer
CHAPITRE 9
Options supplémentaires
Votre administrateur système peut configurer votre téléphone de manière à ce que vous puissiez utiliser des
modèles spécifiques de boutons et de touches, associés à des fonctions et à des services particuliers. Le
tableau ci-dessous présente les options de configuration que vous pouvez demander à votre administrateur
système, en fonction de vos besoins en matière des appels ou de votre environnement de travail.
Les guides destéléphones et autres documents auxquelsil est fait référence dans ce tableau sont disponibles
à l'adresse : http://www.cisco.com/en/US/products/hw/phones/ps379/tsd_products_support_series_
home.html
Remarque
Si vous... Procédez comme suit... Pour plus d'informations...
Contactez votre administrateur
système ou l'équipe d'assistance
téléphonique.
Contactez votre administrateur système
pour qu'il configure un ou plusieurs
numéros d'annuaire supplémentaires.
Avez besoin de plusieurs
lignes téléphoniques
Reportez-vous à Numérotation
simplifiée, à la page 40.
Vérifiez d'abord que vous utilisez déjà la
totalité des boutons de numérotation
simplifiée disponibles.
Si vous avez effectivement besoin de
boutons de numérotation simplifiée
supplémentaires, utilisez la fonction de
numérotation simplifiée ou abonnez-vous
au service de numérotation simplifiée.
Avez besoin de plus de
boutons de numérotation
simplifiée
Reportez-vous à Lignes partagées,
à la page 46.
Demandez une ligne partagée. Par
exemple, cela permet d'utiliser un numéro
de poste unique pour les téléphones de
votre bureau et de votre laboratoire.
Voulez utiliser un même
numéro de poste pour
plusieurs téléphones
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Si vous... Procédez comme suit... Pour plus d'informations...
Contactez votre administrateur
système à propos de ces fonctions et
reportez-vous aux sections
ci-dessous :
• Gestion avancée des appels, à
la page 39.
• Lignes partagées, à la page 46.
• Cisco Extension Mobility, à la
page 52.
Pensez à utiliser :
• La fonction de parcage d'appels
pourstocker et récupérer des appels
sans utiliser la fonction de transfert.
• La fonction d'interception d'appels
pour répondre à des appels qui
sonnent sur un autre téléphone.
• Une ligne partagée pour afficher les
appels de vos collègues.
• La fonction Cisco Extension
Mobility pour affecter votre numéro
de téléphone et votre profil
utilisateur à un téléphone IP Cisco
Unified partagé.
Partagez vos téléphones
ou votre bureau avec des
collègues
Reportez-vous à Réponse
automatique avec casque ou
haut-parleur, à la page 61.
Contactez votre administrateur système
pour configurer la réponse automatique
de votre téléphone.
Répondez à de nombreux
appels ou gérez des
appels pour une autre
personne
Si vous avez besoin d'aide, contactez
votre administrateur système et
reportez-vous aux documents Guide
de l'utilisateur et Guide de
démarrage simplifié de Cisco Unified
VT Advantage.
Pensez à utiliser Cisco Unified Video
Advantage pour réaliser des appels vidéo
en utilisant votre téléphone IP Cisco
Unified, votre PC et une caméra vidéo
externe.
Devez effectuer des
appels vidéo
Reportez-vous à Fonctions de
supervision de ligne occupée, à la
page 48.
Contactez votre administrateur pour
configurer la Fonction ligne occupée
(BLF) sur votre téléphone.
Déterminez l'état d'une
ligne téléphonique
associée à une touche de
numérotation simplifiée
sur votre téléphone
Reportez-vous à Cisco Extension
Mobility, à la page 52.
Contactez votre administrateur système
à propos de Cisco Extension Mobility
Service.
Voulez affecter
temporairement vos
numéro de téléphone et
paramètres à un
téléphone IP Cisco
Unified partagé
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Options supplémentaires
CHAPITRE 10
Dépannage
Cette section fournit des informations de dépannage concernant le téléphone IP Cisco Unified.
• Problèmes, page 99
• Données de dépannage du téléphone, page 102
• Outil de génération de rapports qualité, page 102
Problèmes
La présente section donne des indications destinées à vous aider à résoudre les problèmes classiques que vous
êtes susceptible de rencontrer avec votre téléphone. Pour plus d'informations, contactez votre administrateur
système.
Pas de tonalité ou impossible de passer un appel
Problème
Vous n'entendez pas de tonalité ou vous ne parvenez pas à passer un appel.
Cause
Cela peut être dû à une ou à plusieurs des raisons ci-dessous :
• Vous n'êtes pas connecté au service Extension Mobility.
• Le système exige un code d'affaire client (CMC) ou un code d'autorisation forcée (FAC) après la
composition d'un numéro. (Uniquement sur les téléphones SCCP)
• Votre téléphone est soumis à des restrictions horaires qui vous empêchent d'utiliser certaines fonctions
à certaines heures de la journée.
Solution
Essayez la méthode suivante :
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• Connectez-vous au service Extension Mobility.
• Saisissez un CMC ou un FAC après avoir composé un numéro. (Uniquement sur les téléphones SCCP)
• Modifiez les restrictions horaires qui vous empêchent d'utiliser certaines fonctions à certaines heures de
la journée. Pour plus d'informations, contactez votre administrateur système.
Touche manquante
Problème
La touche que vous voulez utiliser ne s'affiche pas.
Cause
Cela peut être dû à une ou à plusieurs des raisons ci-dessous :
• D'autres touches peuvent être affichées.
• L'état de la ligne détermine les touches du téléphone.
• Votre téléphone n'est pas configuré pour prendre en charge la fonction associée à cette touche.
Solution
Utilisez l'une des options ci-dessous :
• Appuyez sur Autres pour afficher les touches supplémentaires.
• Modifiez l'état de la ligne (par exemple, décrocher ou avoir un appel connecté).
• Pour pouvoir accéder à cette fonction, contactez votre administrateur système.
Impossible d'utiliser la fonction Rappel
Problème
Le rappel échoue.
Cause
Votre interlocuteur a peut-être activé la fonction de renvoi d'appels.
Message d'erreur de renvoi de tous les appels
Problème
Le téléphone affiche un message d'erreur lorsque vous tentez de configurer le renvoi de tous les appels.
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Dépannage
Touche manquante
Cause
Il est possible que votre tentative de configuration du renvoi de tous les appels directement sur le téléphone
soit refusée parce que le numéro cible saisi a pour effet de créer une boucle de renvoi de tous les appels ou
de dépasser le nombre maximum de liens autorisés dans une chaîne de renvoi de tous les appels (également
appelé nombre maximum de sauts).
Solution
Pour plus d'informations, contactez votre administrateur système.
Le téléphone ne répond pas
Problème
L'écran du téléphone n'affiche rien et le bouton Affichage est éteint.
Cause
Le téléphone est arrêté (mode veille) afin d'économiser de l'énergie.
Solution
Le téléphone se met en marche (réveil) lorsque le système envoie un message de réveil. Vous ne pouvez pas
réveiller le téléphone avant l'heure prévue de mise en marche.
Message d'erreur de sécurité
Problème
Votre téléphone affiche Erreur de sécurité.
Cause
Le micrologiciel de votre téléphone a rencontré une erreur interne.
Solution
Si le message persiste, contactez votre administrateur système.
Impossible d'accéder au menu Paramètres
Problème
Le menu Paramètre n'est pas disponible dans le menu Application.
Cause
Votre administrateur système a peut-être désactivé l'option Paramètres sur votre téléphone.
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Dépannage
Le téléphone ne répond pas
Solution
Contactez votre administrateur système.
Données de dépannage du téléphone
Votre administrateursystème peut vous demander d'accéder à des données d'administration sur votre téléphone
en vue du dépannage.
Si vous devez... Procédez comme suit...
Sélectionnez ( ) > Paramètres > Configuration réseau, puis l'élément de
configuration réseau que vous voulez afficher.
Accéder aux données de
configuration du réseau
Sélectionnez ( ) > Paramètres > État,, puis l'élément d'état que vous voulez
afficher.
Accéder aux données
d'état
Accéder Sélectionnez ( ) > Paramètres > Caractéristiques.
aux
caractéristiques du
téléphone
Accéder Sélectionnez ( ) > Paramètres > État > Statistiques d'appel.
aux
informations relatives
aux appels et à la
qualité vocale du
téléphone
Outil de génération de rapports qualité
L'administrateur système peut configurer temporairement votre téléphone avec la fonction Outil de génération
de rapports qualité (QRT, Quality Reporting Tool) afin de résoudre les problèmes de performances. Appuyez
sur QRT pour soumettre des informations à votre administrateur système. En fonction de la configuration de
votre téléphone, l'outil QRT permet :
• De signaler immédiatement un problème audio sur un appel en cours
• De sélectionner un problème général dans une liste de catégories et de choisir des codes motifs
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Dépannage
Données de dépannage du téléphone
CHAPITRE 11
Garantie
• Conditions générales de la garantie matérielle limitée à un an de Cisco, page 103
Conditions générales de la garantie matérielle limitée à un an
de Cisco
Des conditions spéciales s'appliquent à votre garantie matérielle et aux services qui sont à votre disposition
au cours de la période couverte par la présente garantie.
Votre déclaration de garantie formelle, les garanties et les accords de licence applicables aux logiciels Cisco
sont disponibles sur Cisco.com à l'adresse :
http://www.cisco.com/en/US/docs/general/warranty/English/1Y1DEN__.html
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Garantie
Conditions générales de la garantie matérielle limitée à un an de Cisco
4-1
Cisco 850 Series and Cisco 870 Series Access Routers Cabling and Setup Quick Start Guide
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CHAPITRE 4
Configuration et câblage des gammes
de routeurs d'accès Cisco 850 et
Cisco 870 – Guide de démarrage
rapide
Table des matières
• Garantie limitée Cisco d'un an sur le matériel, page 4-2
• Localisation de la référence du produit, page 4-4
• Vérification des éléments livrés avec le routeur, page 4-5
• Routeurs câblés, page 4-7
• Lecture des mises en garde et recommandations relatives à la sécurité,
page 4-7
• Connexion de l'antenne au routeur sans fil (opération facultative), page 4-8
• Connexion du module PoE (Power-over-Ethernet) au routeur (opération
facultative), page 4-10
• Installations types des gammes de routeurs Cisco 850 et Cisco 870, page 4-12
• Connexion du routeur, page 4-17
• Installation du logiciel SDM et configuration du routeur, page 4-19
• Documentation associée, page 4-20
• Obtention de documentation, page 4-21
Français
Chapitre 4 Configuration et câblage des gammes de routeurs d'accès Cisco 850 et Cisco 870 – Guide de démarrage rapide
Garantie limitée Cisco d'un an sur le matériel
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• Vos commentaires sur la documentation, page 4-22
• Assistance technique, page 4-22
• Obtention de publications et d'informations complémentaires, page 4-25
Garantie limitée Cisco d'un an sur le matériel
Des conditions spécifiques s'appliquent à la garantie de votre matériel et aux
prestations de services dont vous pouvez bénéficier pendant la période de validité
de cette garantie. Votre déclaration formelle de garantie, qui inclut la garantie et
les accords de licence applicables aux logiciels Cisco, est disponible sur le site
Cisco.com. Pour accéder aux informations Cisco (Cisco Information Packet), à la
garantie et aux accords de licence et les télécharger à partir du site Cisco.com,
procédez comme suit :
1. Démarrez votre navigateur et accédez à l'URL suivante :
http://www.cisco.com/univercd/cc/td/doc/es_inpck/cetrans.htm
La page relative aux accords de licence et aux garanties s'affiche.
2. Pour consulter le Cisco Information Packet, procédez comme suit :
a. Dans le champ Information Packet Number (Référence des
informations), sélectionnez la référence 78-5235-03A0.
b. Sélectionnez la langue souhaitée pour le document.
c. Cliquez sur Go (Aller à).
La page relative à la garantie limitée Cisco et à la licence d'utilisation du
logiciel pour la référence sélectionnée s'affiche.
d. Vous pouvez alors consulter le document en ligne ou cliquer sur l'icône
PDF pour télécharger et imprimer le document au format PDF (Adobe
Portable Document Format).
Remarque Vous devez disposer d'Adobe Acrobat Reader pour pouvoir
afficher et imprimer les fichiers PDF. Ce programme peut
être téléchargé à partir du site Web d'Adobe à l'adresse :
http://www.adobe.com
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Chapitre 4 Configuration et câblage des gammes de routeurs d'accès Cisco 850 et Cisco 870 – Guide de démarrage rapide
Garantie limitée Cisco d'un an sur le matériel
3. Pour obtenir une traduction des informations relatives à la garantie
s'appliquant à votre produit, procédez comme suit :
a. Dans le champ correspondant au numéro du document de la garantie,
indiquez la référence suivante :
78-10747-01C0
b. Sélectionnez la langue désirée pour le document.
c. Cliquez sur Go (Aller à).
La page relative à la garantie Cisco s'affiche.
d. Vous pouvez alors consulter le document en ligne ou cliquer sur l'icône
PDF pour télécharger et imprimer le document au format PDF (Adobe
Portable Document Format).
Vous pouvez également vous rendre sur le site Web de l'assistance technique et
des services Cisco pour obtenir une aide :
http://www.cisco.com/public/Support_root.shtml.
Durée de la garantie sur le matériel
Un (1) an
Procédure de remplacement, réparation ou remboursement du matériel
Cisco ou son centre de service sera en mesure d'expédier une pièce de rechange
dans un délai de dix (10) jours suivant la réception de la demande d'autorisation
de retour de matériel (ARM). Le délai effectif de livraison pourra varier en
fonction de la destination.
Cisco se réserve le droit de rembourser le prix d'achat comme seule garantie.
Pour recevoir un numéro d'autorisation de retour de matériel (ARM)
Contactez la société auprès de laquelle vous avez acheté le produit. Si vous avez
acheté le produit directement auprès de Cisco, contactez votre responsable des
ventes Cisco.
Chapitre 4 Configuration et câblage des gammes de routeurs d'accès Cisco 850 et Cisco 870 – Guide de démarrage rapide
Localisation de la référence du produit
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Complétez les informations ci-dessous et conservez-les comme référence.
Localisation de la référence du produit
L'étiquette mentionnant la référence du routeur se trouve à l'arrière du châssis,
au-dessus des ports réseau Ethernet. (Reportez-vous à la Figure 4-1.)
Figure 4-1 Emplacement de la référence du produit
Vendeur du produit
Numéro de téléphone du vendeur
Modèle du produit
Référence du produit
Numéro du contrat de maintenance
120729, 78-16262-01 Rev A0
G.SHDSL ISDN S/T LAN
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Chapitre 4 Configuration et câblage des gammes de routeurs d'accès Cisco 850 et Cisco 870 – Guide de démarrage rapide
Vérification des éléments livrés avec le routeur
Vérification des éléments livrés avec le routeur
Le Tableau 4-1 répertorie le nombre d'éléments fournis avec chaque modèle de
routeur des gammes Cisco 850 et Cisco 870. La Figure 4-2 représente les
différents éléments.
Assurez-vous que les éléments indiqués dans le Tableau 4-1 ont bien été livrés
avec le routeur. Si l'un des éléments manque ou est endommagé, contactez votre
service clientèle.
Tableau 4-1 Éléments fournis avec les gammes de routeurs Cisco 850 et Cisco 870
Élément
Cisco 851 et
Cisco 871
Cisco 857 et
Cisco 877 Cisco 876 Cisco 878
Câble Ethernet (direct) 1 1 1 1
Câble DSL1 (pour ADSL et
G.SHDSL)
1. DSL = ligne d'abonné numérique. Utilisé pour une ligne d'abonné numérique asynchrone (ADSL) ou une ligne d'abonné
numérique symétrique haut débit (G.SHDSL). Un câble RJ-11 à RJ-11 est fourni, à moins que le câble RJ-11 à RJ-45 ne soit
spécifié.
Non applicable Facultatif Facultatif Facultatif
Câble de console 1 1 1 1
Adaptateur secteur 1 1 1 1
Cordon d'alimentation2
2. Les cordons d'alimentation sont commandés en fonction du pays ou de la zone géographique.
1 1 1 1
Documentation Cisco3
3. Inclut le document Regulatory Compliance and Safety Information for Cisco 800 Series Routers (Gamme de routeurs
Cisco 800 – Informations relatives au respect des réglementations et à la sécurité) ainsi que le présent document
Configuration et câblage des gammes de routeurs d'accès Cisco 850 et Cisco 870 – Guide de démarrage rapide.
1 1 1 1
CD Cisco Router and Security
Device Manager (SDM)
1111
Antenne doublet pivotante (pour
routeurs sans fil uniquement)
Cisco 851 :
1 antenne
Cisco 871 :
2 antennes
Cisco 857 :
1 antenne
Cisco 877 :
2 antennes
2 2
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Vérification des éléments livrés avec le routeur
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Figure 4-2 Éléments fournis avec les gammes de routeurs Cisco 850 et Cisco 870
Les câbles ci-après ne sont pas fournis avec le routeur. Vous devez les commander
séparément.
• Câble modem : permet de connecter le port console du routeur à un modem
asynchrone pour doter le routeur de fonctionnalités de sauvegarde et de
gestion à distance.
• Câble S/T RNIS orange : permet de connecter des périphériques au port
S/T RNIS.
1 Câble Ethernet jaune 5 Cordon d'alimentation noir pour adaptateur
2 Câble DSL bleu lavande (facultatif) 6 Documentation produit
3 Câble de console bleu clair 7 CD Cisco SDM
4 Adaptateur secteur du routeur 8 Antenne doublet pivotante (pour routeurs sans
fil uniquement)
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Chapitre 4 Configuration et câblage des gammes de routeurs d'accès Cisco 850 et Cisco 870 – Guide de démarrage rapide
Routeurs câblés
Routeurs câblés
Le présent document contient des sections non applicables aux modèles câblés
des gammes de routeurs Cisco 850 et Cisco 870. Certaines illustrations présentent
le routeur doté d'antennes, alors que les routeurs câblés ne sont pas équipés
d'antennes ni de connecteurs d'antenne sur le panneau arrière. Toutefois, à
l'exception de la section « Connexion de l'antenne au routeur sans fil (opération
facultative) », la procédure de connexion des routeurs sans fil est identique à celle
des routeurs câblés.
Lecture des mises en garde et recommandations
relatives à la sécurité
Avant d'entreprendre de connecter votre routeur, lisez le document Regulatory
Compliance and Safety Information for Cisco 800 Series Routers (Gamme de
routeurs Cisco 800 – Informations relatives au respect des réglementations et à la
sécurité) fourni avec le routeur. Ce document contient d'importantes mises en
garde et recommandations en matière de sécurité.
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Connexion de l'antenne au routeur sans fil (opération facultative)
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Connexion de l'antenne au routeur sans fil
(opération facultative)
Les routeurs sans fil de la gamme Cisco 850 doivent être utilisés avec une seule
antenne de 2,4 GHz. (Reportez-vous à la Figure 4-3.) Les routeurs sans fil de la
gamme Cisco 870 sont utilisables avec deux antennes de 2,4 GHz.
(Reportez-vous à la Figure 4-4.)
Figure 4-3 Routeur sans fil Cisco 857 doté d'une seule antenne
LAN ADSLoPOTS
FE0 FE1 FE2 FE3
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Connexion de l'antenne au routeur sans fil (opération facultative)
Figure 4-4 Routeur sans fil Cisco 871 doté de deux antennes
Pour connecter une ou plusieurs antennes à un routeur sans fil, procédez
comme suit :
Étape 1 Fixez chaque antenne à un connecteur Neill-Concelman vissé de polarité inversée
(RP-TNC) situé à l'arrière du routeur, puis verrouillez le connecteur
manuellement.
Étape 2 Après avoir fixé l'antenne à l'arrière du routeur, positionnez-la à la verticale.
LAN
FE0 FE1 FE2 FE3
Cisco 871W
CONSOLE
AUX
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LEFT RIGHT / PRIMARY
1
0
WAN
FE4
122241
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Connexion du module PoE (Power-over-Ethernet) au routeur (opération facultative)
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Connexion du module PoE (Power-over-Ethernet) au
routeur (opération facultative)
Si vous avez acheté un module d'alimentation par câble Ethernet (PoE), connectez
les quatre câbles Ethernet jaunes du module aux quatre ports Ethernet LAN du
routeur. (Reportez-vous à la Figure 4-5.) Assurez-vous de bien connecter les
quatre câbles Ethernet.
Si les câbles sont trop rapprochés les uns des autres pour cette opération, éloignez
le protège-câble en plastique de l'extrémité des câbles équipée des connecteurs.
Prudence Pour assurer le bon fonctionnement du module d'alimentation par câble Ethernet
(PoE), ne le reliez pas à l'adaptateur secteur avant de l'avoir connecté au routeur.
La Figure 4-5 présente le routeur Cisco 871 relié à un module PoE. Notez
toutefois que cette connexion fonctionne pour tous les modèles de routeur des
gammes Cisco 870.
Remarque Lorsque vous connectez un appareil (tel qu'un PC ou un téléphone IP) au module
d'alimentation par câble Ethernet (PoE), vous pouvez attendre une à deux
secondes avant que le voyant lumineux indique que le port est activé.
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Connexion du module PoE (Power-over-Ethernet) au routeur (opération facultative)
Figure 4-5 Connexion du module PoE au routeur
1 Routeur de la gamme Cisco 870 5 Adaptateur secteur du routeur
2 Câbles Ethernet du module PoE 6 Fiche secteur PoE
3 Module PoE 7 Fiche secteur du routeur
4 Adaptateur secteur PoE
122351
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1
0
WAN
FE4
1
2
4
6
To LAN 0 1 2 3
PWR
3
5
7
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Installations types des gammes de routeurs Cisco 850 et Cisco 870
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Installations types des gammes de routeurs
Cisco 850 et Cisco 870
Les installations types des gammes de routeurs Cisco 850 et Cisco 870 sont
illustrées de la Figure 4-6 à la Figure 4-9, dans l'ordre suivant :
• routeurs Cisco 851 et Cisco 871 : voir la Figure 4-6 ;
• routeurs Cisco 857 et Cisco 87 : voir la Figure 4-7 ;
• routeur Cisco 876 : voir la Figure 4-8 ;
• routeur Cisco 878 : voir la Figure 4-9.
La Figure 4-6 présente l'installation type d'un routeur Cisco 851 ou Cisco 871.
Cette figure illustre le panneau arrière d'un routeur Cisco 871, équipé de deux
ports USB (Universal Serial Bus). Le routeur Cisco 851 ne comporte aucun port
USB ; toutefois, les connexions des autres ports du routeur Cisco 851 sont
identiques à celles du routeur Cisco 871.
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Installations types des gammes de routeurs Cisco 850 et Cisco 870
Figure 4-6 Installation type d'un routeur Cisco 851 ou Cisco 871
1 Connexion Ethernet à un commutateur externe 4 Port console
2 Connexion Ethernet à un PC 5 Adaptateur secteur
3 Connexion WAN (réseau étendu) à Internet à
l'aide d'un modem à large bande
LAN
4 3 2 1
Cisco 871W
CONSOLE
AUX
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LEFT RIGHT / PRIMARY
1
0
WAN
FE0 FE1 FE2 FE3 FE4
1X
2X
1X
2X
1
Internet
1 2 3 4 5
122237
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Installations types des gammes de routeurs Cisco 850 et Cisco 870
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La Figure 4-7 présente l'installation type d'un routeur Cisco 857 ou Cisco 877.
Figure 4-7 Installation type d'un routeur Cisco 857 ou Cisco 877
1 Connexion Ethernet à un commutateur externe 4 Port console
2 Connexion Ethernet à un PC 5 Adaptateur secteur
3 Connexion ADSL sur POTS (service
téléphonique traditionnel)
RIGHT / PRIMARY
ETHERNET LAN ADSLoPOTS
3 2 1 0
Cisco 877W
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LEFT
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1X
2X
1X
2X
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1 2 3 5
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Installations types des gammes de routeurs Cisco 850 et Cisco 870
La Figure 4-8 présente l'installation type d'un routeur Cisco 876.
Figure 4-8 Installation type d'un routeur Cisco 876
1 Connexion Ethernet à un commutateur externe 4 Connexion ADSL sur RNIS
2 Connexion Ethernet à un PC 5 Port console
3 Connexion S/T RNIS 6 Adaptateur secteur
LAN ISDN S/T ADSL o ISDN
FE0 FE1 FE2 FE3
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1X
2X
1X
2X
1
1 2 6
122239
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Installations types des gammes de routeurs Cisco 850 et Cisco 870
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La Figure 4-9 présente l'installation type d'un routeur Cisco 878.
Figure 4-9 Installation type d'un routeur Cisco 878
1 Connexion Ethernet à un commutateur externe 4 Connexion G.SHDSL
2 Connexion Ethernet à un PC 5 Port console
3 Connexion S/T RNIS 6 Adaptateur secteur
LAN ISDN S/T G.SHDSL
FE0 FE1 FE2 FE3
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1X
2X
1X
2X
1
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Connexion du routeur
Connexion du routeur
Connectez le routeur en vous reportant à l'installation type de votre modèle de
routeur illustrée à la section « Installations types des gammes de routeurs
Cisco 850 et Cisco 870 » la section sur la page 4-12.
Procédez comme suit pour connecter le routeur à l'adaptateur secteur, à votre
réseau local et au réseau de votre fournisseur d'accès :
Étape 1 Modèles sans fil uniquement : vérifiez que les antennes ont été fixées au routeur
conformément aux instructions de la section « Connexion de l'antenne au routeur
sans fil (opération facultative) » la section sur la page 4-8.
Étape 2 Si vous utilisez un module PoE, assurez-vous qu'il est connecté au routeur
(reportez-vous à la section « Connexion du module PoE (Power-over-Ethernet) au
routeur (opération facultative) » la section sur la page 4-10). Connectez les
périphériques Ethernet au module PoE, mais non au routeur.
Étape 3 Si vous connectez plus de quatre PC au routeur, raccordez ce dernier à un
commutateur ou à un concentrateur à l'aide d'un câble Ethernet jaune, comme
illustré de la Figure 4-6 à la Figure 4-9.
Étape 4 Connectez un PC directement au routeur, comme illustré de la Figure 4-6 à la
Figure 4-9. Mettez le PC hors tension afin qu'il obtienne une adresse IP du routeur
lorsqu'il sera remis sous tension. Vous pouvez connecter d'autres PC aux ports
Ethernet numérotés restants.
Étape 5 Le port console est un port de service auquel vous pouvez connecter un terminal
ou un PC pour configurer le logiciel à l'aide de l'interface CLI (interface de ligne
de commande) ou pour résoudre les problèmes rencontrés avec le routeur. Si vous
avez besoin d'accéder à la console du routeur, connectez un PC ou un terminal au
port console.
Remarque En connectant le port console à un modem asynchrone à l'aide du
câble modem pour routeur disponible en option, vous pouvez doter le
routeur de fonctionnalités de sauvegarde et de gestion à distance.
Étape 6 Routeurs Cisco 851 et Cisco 871 uniquement : connectez le second câble Ethernet
jaune entre le port WAN Ethernet du routeur et un port disponible sur un modem
DSL, câblé ou Ethernet LRE (longue portée) déjà installé, comme illustré à la
Figure 4-6.
Pour choisir le port de connexion sur le modem, suivez les instructions livrées
avec votre modem à large bande. Si ce dernier est éteint, mettez-le sous tension.
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Connexion du routeur
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Étape 7 Routeur Cisco 871 uniquement : Connectez les périphériques USB pris en charge,
tels que des modules de mémoire Flash ou des eTokens, aux deux ports USB. Pour
plus d'informations, reportez-vous au document Cisco Access Router USB Flash
Module and USB eToken Hardware Installation Guide (Modules Flash USB et
eTokens USB pour routeurs d'accès Cisco – Guide d'installation matérielle), puis
passez à l'Étape 12.
Étape 8 Routeurs Cisco 857 et Cisco 877 uniquement : connectez le port ADSLoPOTS du
routeur à la prise téléphonique murale à l'aide du câble DSL bleu lavande. Si la
ligne ADSL sert aussi à la communication vocale, vous pouvez empêcher toute
interruption de la transmission de données en connectant le routeur à un filtre
ADSL ou en installant des microfiltres entre les téléphones ou les télécopieurs et
la prise murale. Passez à l'Étape 12.
Étape 9 Routeurs Cisco 876 et Cisco 878 uniquement : pour disposer de fonctions de
sauvegarde et de gestion à distance, vous pouvez connecter le port S/T RNIS à une
terminaison réseau (NT1) ou à un filtre ADSL à l'aide du câble S/T RNIS orange
(disponible en option). Passez à l'Étape 10 ou à l'Étape 11, selon le modèle de
routeur dont vous disposez.
Étape 10 Routeurs Cisco 876 uniquement : branchez le câble DSL sur le port ADSLoRNIS
du routeur et sur le filtre ADSL ou sur la prise murale. Si vous utilisez un filtre
ADSL, connectez-le à la prise murale à l'aide d'un câble à paire torsadée non
blindée de catégorie 5. Passez à l'Étape 12.
Étape 11 Routeurs Cisco 878 uniquement : branchez le câble DSL sur le port G.SHDSL du
routeur et sur la prise murale.
Étape 12 Tous les modèles de routeurs : raccordez le cordon d'alimentation au routeur, puis
mettez le routeur sous tension. Assurez-vous d'utiliser l'adaptateur secteur livré
avec le routeur. Le routeur n'accepte pas d'autres adaptateurs secteur.
Lorsque vous connectez le routeur à une source d'alimentation, le témoin vert OK
du panneau avant du routeur doit s'allumer. Le routeur est alors prêt à l'emploi.
Si le témoin vert OK ne s'allume pas, reportez-vous au chapitre
« Troubleshooting » (« Dépannage ») du document Cisco 850 Series and
Cisco 870 Series Routers Hardware Installation Guide (Gammes de routeurs
Cisco 850 et Cisco 870 – Guide d'installation matérielle).
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Installation du logiciel SDM et configuration du routeur
Remarque Dans le cas des routeurs Cisco 857, Cisco 876, Cisco 877 et
Cisco 878, la ligne DSL doit avoir été fournie par votre fournisseur
d'accès et être correctement configurée. Vérifiez l'état de détection de
porteuse (CD) indiqué par le témoin CD ADSL ou G.SHDSL du
routeur. Si le témoin CD ADSL ou G.SHDSL ne s'allume pas,
contactez votre fournisseur d'accès.
Étape 13 Si vous avez connecté un module PoE au routeur, branchez l'adaptateur secteur du
module PoE sur la prise d'entrée située sur le panneau arrière du module. Le
témoin vert situé sur le panneau avant du module PoE s'allume et les périphériques
connectés au module sont alimentés.
Pour obtenir des instructions de connexion détaillées, reportez-vous au document
Cisco 850 Series and Cisco 870 Series Routers Hardware Installation Guide
(Gammes de routeurs Cisco 850 et Cisco 870 – Guide d'installation matérielle).
Installation du logiciel SDM et configuration du
routeur
Pour installer le logiciel Cisco SDM permettant de configurer le routeur, procédez
comme suit :
Étape 1 Connectez un PC à n'importe quel port LAN du routeur, comme illustré de la
Figure 4-7, Figure 4-8 et Figure 4-9.
Étape 2 Insérez le CD du logiciel Cisco SDM dans le lecteur de CD du PC. Un assistant
d'installation s'exécute à partir du CD. Installez le logiciel Cisco SDM en suivant
les instructions de l'interface utilisateur de l'assistant d'installation.
Étape 3 Utilisez le logiciel Cisco SDM pour configurer le routeur conformément aux
instructions du document Cisco Router and Security Device Manager (SDM)
Quick Start Guide (Guide de démarrage rapide de SDM).
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Documentation associée
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Documentation associée
Le présent document décrit les procédures élémentaires de câblage et de
configuration des gammes de routeurs Cisco 850 et Cisco 870. Pour plus
d'informations, reportez-vous aux documents suivants :
• Cisco 850 Series and Cisco 870 Series Access Routers Hardware Installation
Guide (Gammes de routeurs d'accès Cisco 850 et Cisco 870 – Guide
d'installation matérielle) : fournit des informations détaillées concernant le
câblage et le matériel des routeurs Cisco 850 et Cisco 870.
• Cisco Router and Security Device Manager (SDM) Quick Start Guide (Guide
de démarrage rapide de SDM) : fournit des instructions détaillées concernant
la configuration du routeur et des fonctionnalités sans fil de ce dernier à l'aide
de l'interface utilisateur graphique Cisco SDM.
• Cisco 850 Series and Cisco 870 Series Access Routers Software
Configuration Guide (Gammes de routeurs d'accès Cisco 850 et Cisco 870 –
Guide de configuration logicielle) : fournit des informations et des exemples
de configuration logicielle des routeurs Cisco 850 et Cisco 870.
• Cisco Access Router Wireless Configuration Guide (Routeurs d'accès
Cisco – Guide de configuration sans fil) : fournit des informations
concernant la configuration logicielle sans fil des routeurs d'accès Cisco,
englobant les gammes de routeurs Cisco 850 et Cisco 870.
• Upgrading Memory in Cisco 800 Series Routers (Routeurs Cisco 800 – Mise
à niveau de la mémoire) : fournit des informations sur la mise à niveau de la
mémoire des routeurs Cisco 800.
• Regulatory Compliance and Safety Information for Cisco 800 Series and
SOHO Series Routers (Routeurs des gammes Cisco 800 et SOHO –
Informations relatives au respect des réglementations et à la sécurité) : fournit
des informations sur les normes de sécurité et les réglementations
internationales pour les routeurs des gammes Cisco 800 et SOHO.
• Cisco Access Router USB Flash Module and USB eToken Hardware
Installation Guide (Modules Flash USB et eTokens USB pour routeurs
d'accès Cisco – Guide d'installation matérielle) fournit des informations
concernant l'installation de modules de mémoire Flash et d'eTokens USB.
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Chapitre 4 Configuration et câblage des gammes de routeurs d'accès Cisco 850 et Cisco 870 – Guide de démarrage rapide
Obtention de documentation
Ces documents sont tous disponibles sur Internet. La documentation Cisco la plus
récente est disponible sur Internet à partir des sites suivants :
• http://www.cisco.com
• http://www-china.cisco.com
• http://www-europe.cisco.com
Obtention de documentation
La documentation Cisco est disponible sur le site Cisco.com. Cisco propose
également divers moyens pour obtenir une assistance technique et d'autres
ressources techniques. Les sections qui suivent expliquent comment obtenir des
informations techniques de Cisco Systems.
Cisco.com
Vous pouvez accéder à la documentation Cisco la plus récente à l'adresse
suivante :
http://www.cisco.com/cisco/web/psa/default.html?mode=prod
Vous pouvez accéder au site Web de Cisco à l'adresse suivante :
http://www.cisco.com
Vous pouvez accéder aux sites Web internationaux de Cisco à l'adresse suivante :
http://www.cisco.com/public/countries_languages.shtml
Commande de documentation
Vous trouverez les instructions de commande de documentation à l'adresse
suivante :
http://www.cisco.com/univercd/cc/td/doc/es_inpck/pdi.htm
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Vos commentaires sur la documentation
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Vous pouvez commander de la documentation Cisco en procédant comme suit :
• Les utilisateurs inscrits sur Cisco.com (clients directs de Cisco) peuvent
commander de la documentation à l'adresse suivante :
http://www.cisco.com/en/US/partner/ordering/index.shtml
• Les utilisateurs non inscrits sur Cisco.com peuvent se procurer de la
documentation par l'intermédiaire d'un représentant de compte local en
appelant le siège social de Cisco Systems (Californie, États-Unis) au numéro
408 526-7208 ou, en dehors des États-Unis, en composant le
1 800 553-NETS (6387).
Vos commentaires sur la documentation
Vous pouvez envoyer vos commentaires sur la documentation technique à
l'adresse bug-doc@cisco.com.
Pour envoyer vos commentaires par courrier ordinaire, utilisez le coupon-réponse
situé au verso de la couverture de votre document ou, à défaut, écrivez à l'adresse
suivante :
Cisco Systems
Attn : Customer Document Ordering
170 West Tasman Drive
San Jose, CA 95134-9883
Vos commentaires sont les bienvenus.
Assistance technique
Pour tous les clients, partenaires, revendeurs et distributeurs en possession de
contrats de service Cisco valides, le centre d'assistance technique Cisco propose
une assistance hors pair disponible 24 heures sur 24. Le site Web d'assistance
technique Cisco sur Cisco.com offre des ressources en ligne très complètes. En
outre, le centre d'assistance technique (TAC) Cisco fournit une assistance
téléphonique. Si vous ne disposez pas d'un contrat de service Cisco valide,
contactez votre revendeur.
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Assistance technique
Site Web d'assistance technique Cisco
Ce site propose des documents et outils en ligne pour dépanner et résoudre les
problèmes techniques liés aux technologies et produits Cisco. Il est disponible
24 heures sur 24, 365 jours par an, à l'adresse suivante :
http://www.cisco.com/techsupport
Pour accéder aux outils du site, vous devez être inscrit à Cisco.com et posséder un
ID utilisateur ainsi qu'un mot de passe. Si vous êtes en possession d'un contrat de
service valide, mais que vous n'avez ni ID utilisateur ni mot de passe,
connectez-vous à l'adresse suivante pour vous inscrire :
http://tools.cisco.com/RPF/register/register.do
Remarque Avant de demander une assistance par Internet ou par téléphone, utilisez l'outil
d'identification produit Cisco (CPI) pour déterminer votre référence produit. Pour
accéder à l'outil CPI à partir du site Web d'assistance technique Cisco, cliquez sur
le lien Tools & Resources (Outils et ressources) sous Documentation & Tools
(Documentation et outils). Sélectionnez l'option Cisco Product Identification
Tool (Outil d'identification produit Cisco) dans la liste déroulante Alphabetical
Index (Index alphabétique), ou cliquez sur le lien Cisco Product Identification
Tool sous Alerts & RMAs (Alertes et RMA). L'outil CPI vous propose trois
options de recherche : par ID produit ou nom de modèle, par arborescence, ou,
dans le cas de certains produits, par copier-coller du résultat de la commande
show (afficher). Les résultats de la recherche vous présentent votre produit en
mettant en surbrillance l'étiquette mentionnant sa référence. Localisez cette
étiquette sur votre produit, puis notez cette information avant d'effectuer votre
demande d'assistance.
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Assistance technique
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Soumission d'une demande de service
L'outil de demande de service en ligne sur le TAC constitue le moyen le plus
rapide de soumettre des demandes de service S3 et S4. (Ces demandes
correspondent à une dégradation minimale du fonctionnement de votre réseau ou
à une demande d'information produit.) Lorsque vous avez décrit la situation,
l'outil de demande de service du TAC vous propose les solutions recommandées.
Si ces solutions ne permettent pas de résoudre le problème, votre demande de
service est affectée à un ingénieur du TAC Cisco. Vous trouverez l'outil de
demande de service du TAC à l'adresse suivante :
http://www.cisco.com/techsupport/servicerequest
Pour les demandes de service S1 ou S2 ou dans le cas où vous n'avez pas d'accès
à Internet, contactez le TAC Cisco par téléphone. (Vous soumettez ce type de
demandes lorsque votre réseau d'exploitation est très dégradé ou paralysé.) Ces
demandes sont immédiatement affectées aux ingénieurs du TAC Cisco pour
préserver le bon fonctionnement de vos activités.
Pour soumettre une demande de service par téléphone, composez l'un des
numéros suivants :
Asie-Pacifique : +61 2 8446 7411 (Australie : 1 800 805 227)
Zone EMEA : +32 2 704 55 55
États-Unis : 1 800 553-2447
Pour consulter la liste complète des contacts du TAC Cisco, rendez-vous à
l'adresse :
http://www.cisco.com/techsupport/contacts
Définition de la gravité des demandes de service
Cisco a défini des niveaux de gravité afin que toutes les demandes de service
soient soumises dans un format standard.
Gravité 1 (S1) : votre réseau est « paralysé » ou la situation a un impact très
négatif sur vos activités professionnelles. Vous et Cisco engagerez 24 heures sur
24 toutes les ressources nécessaires pour résoudre le problème.
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Obtention de publications et d'informations complémentaires
Gravité 2 (S2) : le fonctionnement d'un réseau existant est très dégradé ou des
aspects importants de vos activités professionnelles sont affectés par les
performances inadéquates des produits Cisco. Vous et Cisco engagerez des
ressources à temps plein pendant les heures de bureau normales pour résoudre le
problème.
Gravité 3 (S3) : les performances de votre réseau sont affectées mais la plupart de
vos activités professionnelles restent fonctionnelles. Vous et Cisco engagerez des
ressources pendant les heures de bureau normales pour rétablir des niveaux de
service satisfaisants.
Gravité 4 (S4) : vous avez besoin d'informations ou d'assistance concernant des
fonctionnalités, l'installation ou la configuration de produits Cisco. L'impact sur
vos activités professionnelles est faible, voire nul.
Obtention de publications et d'informations
complémentaires
Des informations sur les produits, les technologies et les solutions réseau Cisco
sont disponibles en ligne et sous forme imprimée.
• La boutique Cisco Marketplace offre un grand choix d'ouvrages, de guides de
référence et de produits Cisco. Pour la découvrir, rendez-vous à l'adresse
suivante :
http://www.cisco.com/go/marketplace/
• Le Catalogue des produits Cisco détaille les produits réseau proposés par
Cisco Systems, ainsi que les services clients gérant les commandes et les
demandes d'assistance. Vous pouvez accéder au Catalogue des produits Cisco
à l'adresse suivante :
http://cisco.com/univercd/cc/td/doc/pcat/
• Cisco Press publie une large gamme d'ouvrages traitant de l'administration
réseau, des formations et des certifications. Les utilisateurs débutants comme
les plus expérimentés y trouveront des informations utiles. Pour connaître les
dernières publications de Cisco Press et consulter d'autres informations,
visitez le site de Cisco Press à l'adresse suivante :
http://www.ciscopress.com
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Obtention de publications et d'informations complémentaires
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• Le magazine Packet destiné aux utilisateurs techniques de Cisco Systems
détaille comment optimiser les investissements Internet et réseau. Chaque
trimestre, il présente les dernières tendances en matière de réseaux, les
innovations technologiques ainsi que les produits et solutions Cisco. Il donne
des conseils pour le déploiement et le dépannage des réseaux et propose des
exemples de configuration, des études de cas relatives à la clientèle, des
informations sur les certifications et les formations, ainsi que des liens vers
des ressources plus détaillées accessibles en ligne. Vous pouvez accéder au
magazine Packet à l'adresse suivante :
http://www.cisco.com/packet
• Le journal trimestriel Internet Protocol Journal publié par Cisco Systems
s'adresse aux ingénieurs concernés par la conception, le développement et
l'exploitation de réseaux Internet et intranet publics et privés. Vous pouvez y
accéder à l'adresse suivante :
http://www.cisco.com/ipj
• Cisco propose des formations de niveau international sur les réseaux. Les
programmes en vigueur sont présentés à l'adresse suivante :
http://www.cisco.com/en/US/learning/index.html
