Cisco TelePresence Video Communication Server Guide (X6)

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Document DEVICE REPORTCisco VCS Guide X6
Cisco TelePresence Video Communication
Server
Administrator Guide
D14049.09 December 2010 Software version: X6

Contents
Contents About the Cisco TelePresence Video Communication Server (Cisco VCS) Cisco VCS base applications
Cisco VCS Control Cisco VCS ExpresswayTM Standard features Optional features FindMeTM Device Provisioning Dual Network Interfaces About this guide Typographical conventions Installation and initial configuration Using the web interface Required fields How page navigation is shown in this guide Supported browsers Using the command line interface (CLI) Command types Web page features and layout What's new in this version? Enhanced authentication policy External policy services Secure communication between cluster peers View registrations and calls across a cluster Client-initiated connection management Starter Pack enhancements User interface language packs Enhanced online help Cisco VCS unit LCD panel Multiple remote syslog servers

Contents
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SNMPv3 support Web interface Overview and status information Status overview System information Ethernet status IP status Resource usage Registration status Registrations by device Registrations by alias Registration history Registration details Call status Call status Call history Call summary Call details Call media details Search history About searches Search history list Search details Local Zone status Zone status Link status Pipe status Policy service status TURN relays status Presence Presence publishers Presence presentities Presence subscribers
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OCS Relay status Provisioning status
Provisioning server Phone book server Warnings Hardware status Event Log Configuration Log Cisco VCS unit front panel Network and system settings Configuring IP settings Configuring Ethernet settings Configuring DNS settings Configuring Quality of Service settings Configuring system name and access settings Configuring SNMP settings Configuring time zone and NTP server settings Configuring the Login page Configuring external manager settings Configuring logging levels Event Log levels Remote logging Protocols About H.323 Using the Cisco VCS as an H.323 gatekeeper H.323 endpoint registration About SIP Cisco VCS as a SIP registrar Cisco VCS as a SIP proxy server Proxying registration requests Cisco VCS as a SIP Presence Server H.323 configuration SIP configuration
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Configuring SIP domains Configuring SIP and H.323 interworking
Searching by protocol Enabling SIP endpoints to dial H.323 numbers Registration control About registrations Finding a Cisco VCS with which to register Registrations on a Cisco VCS Expressway MCU, gateway and Content Server registration Configuring registration restriction policy Registering aliases H.323 SIP Attempts to register using an existing alias Blocking registrations Removing existing registrations Re-registrations About Allow and Deny Lists Configuring the registration Allow List Configuring the registration Deny List Device authentication About device authentication Authentication Policy Authentication mechanism Authentication Policy configuration options Zone-level Authentication Policy Subzone-level Authentication Policy SIP authentication trust Device authentication configuration Authentication database Endpoint credentials used for authentication Device authentication using LDAP Authentication process
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LDAP server settings Device LDAP schemas Authentication using a local database Authenticating with external systems Zones and neighbors About your video communications network
Example network diagram Structuring your dial plan
Flat dial plan Structured dial plan Hierarchical dial plan About the Local Zone and subzones Bandwidth management Local Zone searches About zones Default Zone Zone configuration Configuring neighbor zones Configuring traversal client zones Configuring traversal server zones Configuring ENUM zones Configuring DNS zones Zone configuration: advanced settings Zone configuration: pre-configured profile settings TLS certificate verification of neighbor systems Clustering and peers About clusters About the configuration master Secure communication between peers Alternates Setting up a cluster Maintaining a cluster Cluster name
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Cluster pre-shared key Setting configuration for the cluster Adding and removing peers from a cluster Changing the master peer Monitoring the status of the cluster Configuration that is not replicated across a cluster Troubleshooting cluster replication problems Managing clusters and peers Sharing registrations across peers Sharing bandwidth across peers Cluster upgrades and downgrades Cluster backup and restore Clustering and FindMe Clustering and Presence Clustering and Cisco TMS About the Cluster Subzone Neighboring the local Cisco VCS to another Cisco VCS cluster TMS Agent replication status Dial plan and call processing Call routing process How the Cisco VCS determines the destination of a call About the Cisco VCS's directory service About hop counts Configuring hop counts About transforms and search rules Transforms Search rules Dial plan configuration About the fallback alias About pre-search transforms Pre-search transform process Configuring pre-search transforms Search and zone transform process
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Contents

Configuring search rules

118

Example searches and transforms

120

Filter queries to a zone without transforming

121

Always query a zone with original alias (no transforms)

121

Query a zone for a transformed alias

122

Query a zone for original and transformed alias

123

Query a zone for two or more transformed aliases

124

Stripping @domain for dialing to H.323 numbers

125

Transforms for alphanumeric H.323 ID dial strings

127

Allowing calls to IP addresses only if they come from known zones

129

Configuring policy services

129

About Call Policy

131

Configuring Call Policy

131

Configuring Call Policy rules using the web interface

133

Configuring Call Policy using a CPL script

134

Configuring Cisco VCS to use the Cisco TelePresence Advanced Media Gateway

134

Configuring the Cisco VCS Control

135

Usage features and limitations

135

Configuring Cisco AM GW policy rules

135

Dialable address formats

137

Dialing by IP address

137

Dialing by H.323 ID or E.164 alias

137

Dialing by H.323 or SIP URI

138

Dialing by ENUM

138

IP dialing

138

Calls to unknown IP addresses

138

About URI dialing

139

URI dialing without DNS

139

URI dialing via DNS

140

URI resolution process using DNS

141

URI dialing via DNS for outgoing calls

142

URI dialing via DNS for incoming calls

144

URI dialing and firewall traversal

146

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About ENUM dialing ENUM dialing process Enabling ENUM dialing ENUM dialing for outgoing calls Zone configuration for ENUM dialing ENUM dialing for incoming calls
Configuring DNS servers for ENUM and URI dialing Configuring a zone for incoming calls only Call signaling configuration Identifying calls Disconnecting calls
Disconnecting a call using the web interface Disconnecting a call using the CLI Limitations when disconnecting SIP calls Bandwidth control About bandwidth control Example network deployment Bandwidth configuration About downspeeding About subzones Default links between subzones About the Traversal Subzone About the Default Subzone Configuring subzones Configuring subzone membership rules Applying bandwidth limitations to subzones Links and pipes Configuring links Default links Configuring pipes Applying pipes to links Bandwidth control examples Firewall traversal
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About firewall traversal Expressway solution How does it work?
Cisco VCS as a firewall traversal client Cisco VCS as a firewall traversal server
Configuring traversal server zones Configuring other traversal server features Quick guide to Cisco VCS traversal client - server configuration Firewall traversal protocols and ports Expressway process H.323 firewall traversal protocols SIP firewall traversal protocols Ports for initial connections from traversal clients Default port summary TURN ports Ports for connections out to the public internet Firewall traversal and authentication Authentication and NTP Firewall traversal and Dual Network Interfaces Firewall configuration Configuring traversal for endpoints Configuring traversal server ports About ICE and TURN services About ICE About TURN TURN relay server Configuring TURN services TURN relay status information Applications Conference Factory Conference creation process About Presence Presence Server
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Presence User Agent (PUA) Configuring Presence OCS Relay Configuring a connection between the Cisco VCS and the OCS About FindMeTM How are devices specified? FindMe process overview Who must do what before FindMe can be used? Recommendations when deploying FindMe Example Configuring FindMe Searching for FindMe users About provisioning (Starter Pack) Starter Pack Device authentication Phone book support Configuring provisioning Maintenance About upgrading software components Cisco VCS software components Prerequisites Backing up before upgrading Upgrading and option keys Installing and rebooting Upgrade procedure Upgrading using secure copy (SCP/PSCP) Option keys Adding option keys using the web interface Adding option keys using the CLI About security certificates Managing security certificates Advanced account security Prerequisites
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Cisco VCS functionality: changes and limitations Configuring language settings
Changing the language Installing language packs About login accounts Account authentication Administrator accounts User accounts Root accounts Configuring login account authentication Account authentication using LDAP Login history Root account Resetting an administrator or root password Resetting user account passwords Configuring administrator accounts Password strength Configuring administrator groups Configuring user accounts Principal devices (Starter Pack only) Configuring user groups Backing up and restoring Cisco VCS data Limitations Creating a backup Restoring a previous backup Creating a system snapshot Incident reporting Incident reporting warning: privacy-protected personal data Sending incident reports automatically Sending incident reports manually Viewing incident reports Incident report details Checking the effect of a pattern
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Locating an alias Port usage
Local VCS inbound ports Local VCS outbound ports Remote listening ports Restarting Restarting using the web interface Rebooting Rebooting using the web interface Shutting down Shutting down using the web interface Shutting down using the CLI Reference material Software version history X5.2 X5.1 X5 X4 About Event Log levels Event Log format Administrator and FindMe user events Message details field Events and levels CPL reference CPL address-switch node otherwise not-present location rule-switch proxy reject Unsupported CPL elements CPL examples
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LDAP configuration for device authentication Downloading the H.350 schemas Configuring a Microsoft Active Directory LDAP server Configuring an OpenLDAP server
DNS configuration examples Verifying the SRV record Microsoft DNS server BIND 8 & 9
Changing the default SSH key Default SSH key warnings Standalone Cisco VCS Clustered Cisco VCS
Restoring default configuration Configuration items reset by DefaultValuesSet level 3 Configuration items reset by DefaultValuesSet level 2
Password encryption Maximum length of passwords
Pattern matching variables Port reference Regular expressions Supported characters
Case sensitivity TMS Agent
FindMe Device Provisioning TMS Agent account passwords TMS Agent passwords TMS Agent LDAP and replication accounts Cisco VCSs managed by Cisco TMS Cisco VCSs not managed by Cisco TMS What are traversal calls? Warnings list Bibliography
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Glossary Legal notices
Intellectual property rights Copyright notice Patent information Disclaimers and notices

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About the Cisco TelePresence Video Communication Server (Cisco VCS)
About the Cisco TelePresence Video Communication Server (Cisco VCS)
The Cisco TelePresence Video Communication Server (Cisco VCS) enhances the video experience and provides seamless communication between SIP and H.323 devices utilizing IETF and ITU standards. The Cisco VCS is the center of the video communication network, and connects all H.323 and SIP endpoints, infrastructure, and management devices. It provides unrivaled scalability and redundancy to video communications, and is integral to Cisco interoperability with unified communications and Voice over IP systems. The Cisco VCS can be deployed with either the Control application or the ExpresswayTM application, with various optional packages including FindMeTM, Dual Network Interfaces and Device Provisioning.
Cisco VCS base applications
The Cisco VCS is available with alternative base applications as described below.
Cisco VCS Control
The Cisco VCS Control provides internal video control and administration for all SIP and H.323 devices. It is normally deployed within your wide area network with endpoints that are behind the same firewalls or NAT devices. The Cisco VCS Control replaces the need to have separate H.323 gatekeeper, SIP registrar and H.323 - SIP gateway servers.

Cisco VCS ExpresswayTM
The Cisco VCS Expressway provides standards-based firewall traversal for SIP and H.323 devices allowing secure firewall traversal of any firewall or NAT device. As well as all the functionality of a Cisco VCS Control, it also provides registration of traversal-enabled devices and can act as a standards-based TURN server.
The Cisco VCS Expressway is normally deployed outside of your firewall or within the DMZ.

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About the Cisco TelePresence Video Communication Server (Cisco VCS)

Standard features
The Cisco VCS has the following standard features:
n 2500 endpoint registrations n H.323 gatekeeper n SIP Proxy/Registrar n SIP Presence Server n SIP Presence User Agent n SIP and H.323 support, including SIP/H.323 gatewaying n IPv4 and IPv6 support, including IPv4/IPv6 gatewaying n QoS tagging n Bandwidth management on both a per-call and a total usage basis, configurable separately for calls
within the local subzones and to external systems and zones n Automatic downspeeding option for calls that exceed the available bandwidth n URI and ENUM dialing via DNS, enabling global connectivity n Up to 500 non-traversal calls n Up to 100 traversal calls n 1000 external zones with up to 2000 matches n 1000 subzones and supporting up to 3000 membership rules n Flexible zone configuration with prefix, suffix and regex support n Can function as a standalone Cisco VCS or be neighbored with other systems such as Cisco
VCSs, Border Controllers, gatekeepers and SIP proxies n n+1 redundancy, can be part of a cluster of up to 6 Cisco VCSs for increased capacity and
redundancy n Intelligent Route Director for single number dialing and network failover facilities n Optional endpoint authentication n Control over which endpoints are allowed to register n Call Policy (also known as Administrator Policy) including support for CPL n Can be managed with Cisco TelePresence Management Suite (Cisco TMS) 12.5 or later n AD authentication for administrators of the Cisco VCS n Pre-configured defaults for:
l Cisco Unified Communications Manager neighbor zones l Cisco TelePresence Advanced Media Gateway l Microsoft Office Communications Server (OCS) 2007 neighbor zones l Nortel Communication Server neighbor zones n Embedded setup wizard using a serial port for initial configuration n System administration using a web interface or RS-232, Telnet, SSH, and HTTPS
Optional features
The following features are available on the Cisco VCS by the purchase and installation of the appropriate option key:

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About the Cisco TelePresence Video Communication Server (Cisco VCS)
FindMeTM
A unique industry solution that gives individual video users a single alias on which they can be contacted regardless of location. Users have the ability to log on to a Web-based interface and control where and how they are contacted. The FindMe feature also includes support for Microsoft Office Communications Server (OCS) 2007, enabling FindMe aliases to register as Microsoft Office Communicator (MOC) clients, and MOC clients to view the presence status of FindMe aliases.

Device Provisioning
The Device Provisioning option key allows Cisco VCS to provision endpoints with configuration information on request and to supply endpoints with phone book information. (Endpoints including Movi v2.0 or later, and E20 v2.1 or later can request to be provisioned.) All configuration and phone book information is managed in Cisco TMS, and distributed to the clients through the TMS Agent running on the Cisco VCS. The TMS Agent on the Cisco VCS also provides Cisco TMS with the provisioned client's status.
There is no configuration associated with Device Provisioning on the Cisco VCS ­ it is either on or off, depending on whether or not the option key is installed. See the Cisco TMS documentation and the Provisioning deployment guide [26].
Dual Network Interfaces
Enables the LAN 2 Ethernet port on the Cisco VCS Expressway, allowing you to have a secondary IP address for your Cisco VCS.
This option also includes support for deployments where a Cisco VCS Expressway is located behind a static NAT device, allowing it to have separate public and private IP addresses.
This configuration is intended for high-security deployments where the Cisco VCS Expressway is located in a DMZ between two separate firewalls on separate network segments.

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About the Cisco TelePresence Video Communication Server (Cisco VCS)

About this guide
This Administrator Guide is provided to help you make the best use of your Cisco VCS. Your approach to this documentation depends on what you want to do and how much you already know. The Administrator Guide has been divided into several sections, providing conceptual, configuration and reference information about the various features and capabilities of the Cisco VCS. This Administrator Guide describes a fully equipped version of the Cisco VCS. Your version may not have all the described extensions installed. Our main objective with this Administrator Guide is to address your goals and needs. Please let us know how well we succeeded!
Typographical conventions
Most configuration tasks on the Cisco VCS can be performed by using either the web interface or a command line interface (CLI). This guide mainly describes how to use the web interface. Some Cisco VCS features are only available through the CLI and these are described as appropriate, including the relevant CLI command. In this guide, instructions for performing a task using the web interface are shown in the format: n Menu > Submenu
followed by the Name of the page that you will be taken to. Where command line interface (CLI) commands are included, they are shown in the format: n xConfiguration <Element> <SubElement> n xCommand <Command>
Installation and initial configuration
Full installation and initial configuration instructions for the Cisco VCSare contained in the Cisco VCS Getting Started Guide [28].

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About the Cisco TelePresence Video Communication Server (Cisco VCS)
Using the web interface
Configuration of the Cisco VCS is normally carried out through the web interface. To use the web interface: 1. Open a browser window and in the address bar type either:
l the IP address of the system l the FQDN of the system 2. Click Administrator Login. 3. Enter a valid administrator Username and Password and click Login (see the Login accounts section for details on setting up administrator accounts). You are presented with the Overview page. Note that when logging in using the Cisco VCS web interface, you may receive a warning message regarding the Cisco VCS's security certificate. This can safely be ignored. A command line interface is also available.
Required fields
All mandatory fields on web pages are indicated by a red star .
How page navigation is shown in this guide
Instructions for navigating the web interface are shown in the format Menu option 1 > Menu option 2 followed by the Name of the page that you are taken to in order to perform a task.
Supported browsers
The Cisco VCS web interface is designed for use with Internet Explorer 6 or later, and Firefox 2 or later. It may work with Opera and Safari, but you could encounter unexpected behavior. Javascript and cookies must be enabled to use the Cisco VCS web interface.

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About the Cisco TelePresence Video Communication Server (Cisco VCS)
Using the command line interface (CLI)
The Cisco VCS can be configured through a web interface or via a command line interface (CLI).
The CLI is available by default over SSH and through the serial port. Access using Telnet can also be enabled. These settings are controlled on the System administration page.
To use the CLI:
1. Start an SSH or Telnet session. 2. Enter the IP address or FQDN of the Cisco VCS. 3. Log in with a username of admin and your system password. 4. You can now start using the CLI by typing the appropriate commands.
Command types
Commands are divided into the following groups:
n xStatus: these commands return information about the current status of the system. Information such as current calls and registrations is available through this command group.
n xConfiguration: these commands allow you to add and edit single items of data such as IP address and zones.
n xCommand: these commands allow you to add and configure items and obtain information. n xHistory: these commands provide historical information about calls and registrations. n xFeedback: these commands provide information about events as they happen, such as calls and
registrations.
Note that:
n Typing an xConfiguration path into the CLI returns a list of values currently configured for that element (and sub-elements where applicable).
n Typing an xConfiguration path into the CLI followed by a ? returns information about the usage for that element and sub-elements.
n Typing an xCommand command into the CLI with or without a ? returns information about the usage of that command.
See the Video Communication Server Command Reference [40] for a full description of the commands available on the Cisco VCS.

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About the Cisco TelePresence Video Communication Server (Cisco VCS)
Web page features and layout
This section describes the features that can be found on some or all of the web interface pages.

The elements included in the example web pages shown here are described in the table below.

Page element Page name and location System warning
Help
Log out
Field level information

Description
Every page shows the page name and the menu path to that page. Each part of the menu path is a link; clicking on any of the higher level menu items takes you to that page.
This icon appears on the top right corner of every page when there is a system warning in place. Click on this icon to go to the Warnings page which gives information about the warning and its suggested resolution.
This icon appears on the top right corner of every page. Clicking on this icon opens a new browser window with help specific to the page you are viewing. It gives an overview of the purpose of the page, and introduces any concepts configured from the page.
This icon appears on the top right corner of every page. Clicking on this icon ends your administrator session.
An information box appears on the configuration pages whenever you either click on the Information icon or click inside a field. This box gives you information about the particular field, including where applicable the valid ranges and default value. To close the information box, click on the X at its top right corner.

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About the Cisco TelePresence Video Communication Server (Cisco VCS)

Page element Information bar
Sorting columns Select All and Unselect All Mandatory field Status
System Information

Description
The Cisco VCS provides you with feedback in certain situations, for example when settings have been saved or when you need to take further action. This feedback is given in a yellow information bar at the top of the page. Click on column headings to sort the information in ascending and descending order. Use these buttons to select and unselect all items in the list.
Indicates an input field that must be completed.
On configuration pages, this section shows you the current status of the items you are configuring. Note that some configuration changes require a restart to take effect, so if you have changed the configuration but not yet restarted this shows the existing (unchanged) status. The name of the user currently logged in and their access privileges, the system name (or LAN 1 IPv4 address if no system name is configured), local system time, currently selected language, hardware serial number and Cisco VCS software version are shown at the bottom of the page.

Note that you cannot change configuration settings if your administrator account has read-only privileges.

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About the Cisco TelePresence Video Communication Server (Cisco VCS)
What's new in this version?
The new features introduced in this release of Cisco VCS software are described below.
Enhanced authentication policy
Authentication policy can now be applied at the zone and subzone levels. It controls how the Cisco VCS authenticates incoming messages from that zone or subzone and whether those messages are rejected or are subsequently treated as authenticated or unauthenticated within the Cisco VCS. This provides increased flexibility and allows system administrators to: n control registrations via subzones; this allows, if required, a combination of authenticated and
unauthenticated endpoints to register to the same Cisco VCS n limit the services available to unregistered or unauthenticated endpoints and devices n cater for endpoints from third-party suppliers that do not support authentication within their
registration mechanism through a "treat as authenticated" setting
External policy services
The Cisco VCS can be configured to use external policy services to manage its registration and call policies. This is particularly suitable for large-scale deployments where policy decisions can be managed through an external, centralized service rather than by configuring policy rules on the Cisco VCS itself.
Secure communication between cluster peers
The Cisco VCS uses IPsec (Internet Protocol Security) to enable secure communication between each cluster peer. Authentication is carried out through the use of a pre-shared access key (configured on the Clustering page).
View registrations and calls across a cluster
You can now view all of the registrations and calls across a cluster from any one of the peers in the cluster. A Peer column on the registrations and calls status pages identifies the relevant peer.
Client-initiated connection management
The Cisco VCS has implemented support for RFC 5626 (known as "SIP Outbound"). This allows a UA to route calls when a peer in a cluster has failed, and also allows a UA to close all listening ports ensuring all calls can only be routed via their existing (authenticated, authorized) connection to the Cisco VCS.
Starter Pack enhancements
n The Cisco VCS Starter Pack Express supports device provisioning for E20 and Ex series endpoints.
n Additional call license option keys can be added to extend the default limit of 5 concurrent calls.
User interface language packs
Multiple language support has been enabled on the Cisco VCS's web interface. Language packs will be made available for download in the future. Contact your Cisco support representative for more information on supported languages.

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About the Cisco TelePresence Video Communication Server (Cisco VCS)
Enhanced online help
The context-sensitive help available through the Help link at the top of every page on the web interface now contains additional conceptual and reference information. The help is fully searchable and also includes a table of contents to aid navigation between topics.
Cisco VCS unit LCD panel
The LCD panel on the front of the Cisco VCS hardware unit can be configured to show additional status information. It can display the system name, all IP addresses, warnings, and the number of current traversal calls, non-traversal calls and registrations.
Multiple remote syslog servers
The Cisco VCS now supports multiple remote syslog servers.
SNMPv3 support
The Cisco VCS now supports secure SNMPv3 authentication and encryption.
Web interface
n The VCS configuration > search rules menu has been renamed as VCS configuration > Dial plan. It contains the following submenu items: l Configuration: used to configure how the Cisco VCS routes calls in specific call scenarios. l Transforms: the pre-search transforms configuration option previously found directly under the VCS configuration main menu. l Search rules: used to configure search rules. l Policy services: used to define the policy services that can be used as a target of a search rule.
n The Overview top-level menu option has been removed and the Overview page is now accessed by going to Status > Overview.
n The System configuration top-level menu option is now just called the System menu. n The HTTPS client certificate validation setting has been moved to the System administration
page (System > System).

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Overview and status information

Overview and status information
You can view information about the current status, registrations, current calls and call history, and configuration of the Cisco VCS by using the Status menu options.

Status overview
The Overview page (Status > Overview) provides an overview of the current status of the Cisco VCS (or Cisco VCS cluster, if applicable). This page is displayed by default after logging in to the Cisco VCS as an administrator.
The following information is displayed:

Field

Description

System information: many of the items in this section are configurable; click on the item name to be taken to its configuration page.

System name

The name that has been assigned to the Cisco VCS.

Up time

The amount of time that has elapsed since the system last restarted.

Software version

The version of software that is currently installed on the Cisco VCS.

IPv4 address

The Cisco VCS's IPv4 addresses.

IPv6 address

The Cisco VCS's IPv6 addresses.

Options

The maximum number of calls and registrations, and the availability of additional Cisco VCS features such as TURN Relays, FindMeTM, Device Provisioning and Dual Network Interfaces, are controlled through the use of option keys. This section shows all the options that are currently installed on the Cisco VCS.

Resource usage: this shows summary information about the Cisco VCS's resources. If the Cisco VCS is part of a cluster, then details for each peer are shown as well as totals for the entire cluster. To view details of current calls, registrations or TURN relays (Cisco VCS Expressway only), click on the relevant item in the section.

Non-traversal call licenses

Current: the number of non-traversal calls going through the Cisco VCS at this moment.
Peak: the highest number of concurrent non-traversal calls handled by the Cisco VCS since it was last restarted.
Since last restart: the total number of non-traversal calls handled by the Cisco VCS since it was last restarted.
License limit: the number of non-traversal call licenses available on the Cisco VCS.

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Overview and status information

Field Traversal call licenses
Registration licenses
TURN relay licenses (Cisco VCS Expressway only)

Description
Current: the number of traversal calls going through the Cisco VCS at this moment.
Peak: the highest number of concurrent traversal calls handled by the Cisco VCS since it was last restarted.
Since last restart: the total number of traversal calls handled by the Cisco VCS since it was last restarted.
License limit: the number of traversal call licenses available on the Cisco VCS.
See What are traversal calls? for details on what constitutes a traversal call.
Current: the number of aliases registered to the Cisco VCS at this moment.
Peak: the highest number of aliases concurrently registered to the Cisco VCS since it was last restarted.
Since last restart: the total number of registrations to the Cisco VCS since it was last restarted.
License limit: the number of registration licenses available on the Cisco VCS.
Current: the number of active TURN relays at this moment.
Peak: the highest number of concurrently active TURN relays since the Cisco VCS was last restarted.
Since last restart: the total number of TURN relays allocated on the Cisco VCS since it was last restarted.
License limit: the total number of TURN relay licenses available on the Cisco VCS.

System information
The System information page (Status > System > Information) provides details of the software, hardware, and time settings of the Cisco VCS.
Many of the items in the System information and Time information sections are configurable; click on the item name to be taken to its configuration page.
The following information is displayed:

Field

Description

System information section:

System The name that has been assigned to the Cisco VCS. name

Product This identifies the Cisco VCS.

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Overview and status information

Field

Description

Software The version of software that is currently installed on the Cisco VCS. version

Software The build number of this software version. build

Software The date on which this version of the software was released. release date

Software The internal reference number for this software release. name

Software options

The maximum number of calls, and the availability of additional Cisco VCS features such as FindMeTM, Device Provisioning and Dual Network Interfaces, are controlled through the use of option keys. This section shows all the optional features currently installed on the Cisco VCS.

Hardware The version number of the hardware on which the Cisco VCS software is installed. version

Hardware The serial number of the hardware on which the Cisco VCS software is installed. serial number

Time information section:

Up time The amount of time that has elapsed since the system last restarted.

System time (UTC)

The time as determined by the NTP server. If no NTP server has been configured, this will show Time Not Set.

Time zone

The time zone that has been configured on the Time page.

Local time

If an NTP server has been configured, the system time in local time (UTC adjusted according to the local time zone) is shown. If no NTP server has been configured, the time according to the Cisco VCS's operating system is shown.

Ethernet status
The Ethernet page (Status > System > Ethernet) shows the MAC address and Ethernet speed of the Cisco VCS.
The page displays the following information for the LAN 1 port and, if the Dual Network Interfaces option key has been installed, the LAN 2 port:

Field
MAC address

Description The MAC address of the Cisco VCS's Ethernet device for that LAN port.

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Field Speed

Description
The speed of the connection between the LAN port on the Cisco VCS and the Ethernet switch.

The Ethernet speed can be configured via the Ethernet page.

IP status
The IP status page (Status > System > IP) shows the current IP settings of the Cisco VCS. The following information is displayed:

Field

Description

IP section:

Protocol

Indicates the IP protocol supported by the Cisco VCS.
IPv4: it only accepts registrations from endpoints using an IPv4 address, and will only take calls between two endpoints or devices communicating via IPv4. It will communicate with other systems via IPv4 only.
IPv6: it only accepts registrations from endpoints using an IPv6 address, and will only take calls between two endpoints communicating via IPv6. It will communicate with other systems via IPv6 only.
Both: it accepts registrations from endpoints using either an IPv4 or IPv6 address, and takes calls using either protocol. If a call is between an IPv4-only and an IPv6-only endpoint, the Cisco VCS will act as an IPv4 to IPv6 gateway (note that this will require a traversal call license). The Cisco VCS can communicate with other systems via either protocol.

IPv4

The IPv4 gateway used by Cisco VCS.

gateway

IPv6

The IPv6 gateway used by Cisco VCS.

gateway

Dual

Indicates whether the second LAN port has been enabled. This is done by installing the

Network Dual Network Interfaces option key.

Interfaces

LAN 1 Shows the IPv4 address and subnet mask, and IPv6 address of the LAN 1 port.

LAN 2

If the Dual Network Interfaces option key has been installed, this shows the IPv4 address and subnet mask, and IPv6 address of the LAN 2 port.

DNS section:

Server 1..5 address

The IP addresses of each of the DNS servers that are queried when resolving domain names. Up to 5 DNS servers may be configured.

Domain Specifies the name to be appended to the host name before a query to the DNS server is executed.

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The IP settings can be configured via the IP page. The Dual network interfaces option is enabled by the addition of the corresponding option key.

Resource usage
The Resource usage page (Status > System > Resource usage) provides statistics about the numbers of current and cumulative calls and registrations on the Cisco VCS.
If the Cisco VCS is part of a cluster, then details for each peer are shown as well as totals for the entire cluster.
n Current: the number of calls or registrations on the Cisco VCS at this particular moment. n Peak: the highest number of concurrent calls or registrations handled by the Cisco VCS since it
was last restarted. n Since last restart: the total number of calls or registrations handled by the Cisco VCS since it was
last restarted. n License limit: the total number of licenses available on the Cisco VCS.
To view details of current calls or registrations, click on the relevant item in the section. Note that if your system is a Cisco VCS Expressway, TURN relay license information is also displayed.
This page refreshes automatically every 5 seconds.

Registration status

Registrations by device
The Registrations by device page (Status > Registrations > By device) lists each device currently registered with the Cisco VCS, and allows you to remove a device's registration. If the Cisco VCS is part of a cluster, all registrations across the cluster are shown.
Note that an H.323 device can register with more than one alias; in such cases this page will show only one alias and (when present) one E.164 number for that device. Note also that a single device can support both the SIP and H.323 protocols; in such a case the SIP registration and the H.323 registration will appear as separate entries on this page.
The following information is displayed:

Field Description

Name

For H.323 devices, this is one of its aliases. If the device has registered with more than one alias, this will be (in order of preference) its H.323 ID, URI or email address. For MCUs and Gateways this will be its alias or, if it has not registered an alias, one of its prefixes. For SIP devices, this is its SIP AOR.

E164

For H.323 devices that have registered one or more E.164 numbers, the first will be shown here. For SIP devices this will always be blank because they cannot register E.164 numbers.

Type

Indicates the nature of the registration. This will most commonly be Endpoint, MCU, Gateway, or SIP UA.

Protocol Indicates whether the registration is for a SIP or H.323 device.

Creation The date and time at which the registration was accepted.

time

If an NTP server has not been configured, this will say Time not set.

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Field Description

Address For H.323 devices this is its RAS address, and for SIP UAs it is the Contact address presented in the REGISTER request.

Peer

Identifies the cluster peer to which the device is registered.

Clicking on a device's Name or E164 number takes you to the Registrations details page for that device. For a list of all aliases currently registered with the Cisco VCS, see the Registrations by alias page.
Unregistering a device
Click Unregister to remove the selected registrations. Note that: n if your Cisco VCS is part of a cluster you have to be logged into the peer to which the device is
registered to be able to unregister it n removing a registration does not prevent the same device from automatically re-registering
Filtering the list
To limit the list of registrations, enter one or more characters in the Filter field and click Filter. Only those registrations that contain (in any of the displayed fields) the string you entered will be shown. To return to the full list of registrations, click Reset.

Registrations by alias
The Registrations by alias page (Status > Registrations > By alias) lists all the aliases, E.164 numbers and prefixes used by all endpoints and systems currently registered with the Cisco VCS. If the Cisco VCS is part of a cluster, all registrations across the cluster are shown.
Note that a single H.323 device can register with more than one alias, and each will appear as a separate entry on this page.
The following information is displayed:

Field

Description

Alias

The H.323 alias, E.164 number, prefix or SIP AOR registered by a device. Clicking on any Alias will take you to the Registrations details page for the device that registered that alias.

Alias type

Shows whether the alias is an H.323 ID, E.164 number, prefix or SIP AOR.

Device type

Indicates the nature of the device that registered the alias. This will most commonly be Endpoint, MCU, Gateway or SIP UA.

Protocol Indicates whether the registration is for a SIP or H.323 device.

Creation The date and time at which the registration was accepted.

time

If an NTP server has not been configured, this will say Time not set.

Address For H.323 devices, this is the RAS address. For SIP UAs it is the Contact address presented in the REGISTER request.

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Field Peer

Description Identifies the cluster peer to which the alias is registered.

Clicking on any Alias takes you to the Registrations details page for the device that registered that alias. For a list of all devices registered with the Cisco VCS, see the Registrations by device page.
Filtering the list To limit the list of registrations, enter one or more characters in the Filter field and click Filter. Only those registrations that contain (in any of the displayed fields) the string you entered will be shown. To return to the full list of registrations, click Reset.

Registration history
The Registration history page (Status > Registrations > History) lists all the registrations that are no longer current. It contains all historical registrations since the Cisco VCS was last restarted. If the Cisco VCS is part of a cluster, the history of all registrations across the cluster is shown.
The following information is displayed:

Field

Description

Name

The H.323 alias or SIP AOR that the device registered. Clicking on an individual Name takes you to the Registrations details page for that registration.

E164

For H.323 devices that registered one or more E.164 numbers, the first will be shown here. For SIP devices this will always be blank because they cannot register E.164 numbers.

Type

Indicates the nature of the registration. This will most commonly be Endpoint, Gateway, or SIP UA.

Protocol Indicates whether the registration was for a SIP or H.323 device.

Creation The date and time at which the registration was accepted.

time

If an NTP server has not been configured, this will say Time not set.

End time

The date and time at which the registration was terminated.

Duration The length of time that the registration was in place.

Peer

Identifies the cluster peer to which the alias was registered.

Reason The reason why the registration was terminated.

Filtering the list
To limit the list of registrations, enter one or more characters in the Filter field and click Filter. Only those registrations that contain (in any of the displayed fields) the string you entered will be shown. To return to the full list of registrations, click Reset.

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Registration details
The Registration details page (Status > Registrations > By device, Status > Registrations > By alias or Status > Registrations > History, then click on the registration name) shows the particulars of a single registration. The exact details shown here depend on the device's protocol, and whether the registration is still current.
Unregistering and blocking devices
n Click Unregister to unregister the device. Note that the device may automatically re-register after a period of time, depending on its configuration. To prevent this, you must also use a registration restriction policy such as an Allow List or Deny List.
n Click Unregister and block to unregister the device and add the alias to the Deny List page, thus preventing the device from automatically re-registering. (This option is only available if the Restriction policy has been set to Deny List.)

Call status

Call status
The Call status page (Status > Calls > Calls) lists all the calls currently taking place to or from devices registered with the Cisco VCS, or that are passing through the Cisco VCS. If the Cisco VCS is part of a cluster, all calls taking place through any Cisco VCS in the cluster are shown.
The following information is displayed:

Field

Description

Start time The date and time when the call was placed.

Source

The alias of the device that placed the call.

Destination The alias dialed from the device. This may be different from the alias to which the call was placed, which may have been transformed (due to pre-search transforms, zone transforms or User Policy).

Bandwidth Shows the amount of bandwidth assigned to the call by the Cisco VCS. This may be allocated different to the amount of bandwidth originally requested by the endpoint that placed the
call.

Route

The subzone or zone from which the call was received and the subzone or zone to which the call was placed. To see the complete route taken by the call within the Cisco VCS, including intermediary subzones, click View.

Protocol Shows whether the call used H.323, SIP, or both protocols.

Peer

Identifies the cluster peer through which the call is being made.

Actions

Click View to go to the Call summary page, which lists further details of this call.

Disconnecting calls
Click Disconnect to disconnect the selected calls. Note that if your Cisco VCS is part of a cluster you have to be logged into the peer through which the call is associated to be able to disconnect the call.
Call disconnection works differently for H.323 and SIP calls due to differences in the way the protocols work:

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n H.323 calls, and interworked H.323 to SIP calls: the Disconnect command will actually disconnect the call.
n SIP to SIP calls: the Disconnect command will cause the Cisco VCS to release all resources used for the call and the call will appear on the system as disconnected. However, SIP calls are peer-topeer and as a SIP proxy the Cisco VCS has no authority over the endpoints. Although releasing the resources may have the side-effect of disconnecting the SIP call, it is also possible that the call signaling, media or both may stay up (depending on the type of call being made). The call will not actually disconnect until the SIP endpoints involved have also cleared their resources.
Filtering the list
To limit the list of calls, enter one or more characters in the Filter field and click Filter. Only those calls that contain (in any of the displayed fields) the characters you entered are shown.
To return to the full list of calls, click Reset.

Call history
The Call history page (Status > Calls > History) lists all the calls that are no longer active that have taken place since the Cisco VCS was last restarted. If the Cisco VCS is part of a cluster, all calls that have taken place through any Cisco VCS in the cluster are shown.
The following information is displayed:

Field

Description

Start time The date and time at which the call was placed.

Source

The alias of the device that placed the call.

Destination The alias dialed from the device. This may be different from the alias to which the call was placed, which may have been transformed (due to pre-search transforms, zone transforms or User Policy).

Protocol Shows whether the call used H.323, SIP, or both protocols.

Duration Shows the length of time of the call.

Status

Shows the reason the call was terminated.

Peer

Identifies the cluster peer through which the call was made.

Actions

Allows you to click View to go to the Call summary page, which lists overview details of this call.

Filtering the list
To limit the list of calls, enter one or more characters in the Filter field and click Filter. Only those calls that contain (in any of the displayed fields) the characters you entered are shown. To return to the full list of calls, click Reset.
Call summary
The Call summary page (Status > Calls > Calls or Status > Calls > History, then click View for a particular call) provides overview information about a particular call, including information about the most relevant legs.

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Further detailed information about the call can be viewed via the links in the Related tasks section at the bottom of the page:
n View media statistics for this call takes you to the Call media page, where you can view information about the most relevant session for a call. For traversal calls (i.e. where the Cisco VCS took the media), it will also list the individual media channels (audio, video, data, etc) that made up the call.
n View all details of this call takes you to the Call details page, where you can view full information about this call.
n View search details for this call takes you to the Search details page, which lists full information about all the searches associated with this call's Call Tag, including the subzones and zones that were searched and any transforms that were applied to the alias being searched for.
n View all events associated with this call takes you to the Event Log page, filtered to show only those events associated with this call's Call Tag.
Call details
The Call details page lists full information about a particular call, including any failed sessions. This page is reached via the View all details of this call link in the Related tasks section of either of the following pages:
n the Call summary page (Status > Calls > Calls or Status > Calls > History, then click View) n the Call details page (Status > Calls > Calls or Status > Calls > History, then click View for a
particular call)
Call media details
The Call media page shows information about the most relevant session for a call. For traversal calls (where the Cisco VCS took the media), it also lists the individual media channels (audio, video, data and so on) that made up the call.
This page is reached via the View media statistics for this call link in the Related tasks section of either of the following pages:
n the Call summary page (Status > Calls > Calls or Status > Calls > History, then click View) n the Call details page (Status > Calls > Calls or Status > Calls > History, then click View for a
particular call)
Search history
The Search history page (Status > Search history) lists the most recent 255 searches that have taken place since the Cisco VCS was last restarted.
About searches
Before a call can be placed, the endpoint being called must be located. The Cisco VCS sends and receives a series of messages during its attempt to locate the endpoint being called; these messages are each known as searches. An individual call can have one or more searches associated with it, and these searches can be of different types.
The type of search message that is sent depends on whether the call is for SIP or H.323, and whether the call request was received locally or from an external zone, as follows:
n H.323 calls that are placed locally: two messages are sent - the first is an ARQ which locates the device being called, and the second is the call Setup which sends a request to the device asking it to accept the call. Each message shows up as a separate search in the Search history page, but only the Setup message is associated with a particular call.
n H.323 searches originating from external zones: an LRQ will appear in the Search history page.

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n SIP: a single message is sent in order to place a call: this is either a SIP INVITE or a SIP OPTIONS.
Note that an individual call can have one or more searches associated with it, and these searches can be of different types. Each search has an individual Search ID; each call has an individual Call Tag (see Identifying calls).

Search history list
The search history summary list shows the following information:

Field

Description

Start time The date and time at which the search was initiated.

Search type

The type of message being sent.

Source

The alias of the endpoint that initiated the call.

Destination The alias that was dialed from the endpoint. This may be different from the alias to which the call was actually placed, as the original alias may have been transformed either locally or before the neighbor was queried.

Status

Indicates whether or not the search was successful.

Actions

Allows you to click View to go to the Search details page, which lists full details of this search.

Filtering the list
To limit the list of calls, enter one or more characters in the Filter field and click Filter. Only those calls that contain (in any of the displayed fields) the characters you entered will be shown.
To return to the full list of calls, click Reset.
Viewing associated searches
If there were other searches associated with the same call, a View all searches associated with this call tag link is shown at the bottom of the page; clicking this takes you to a Search details page showing all searches relating to that particular call.
Search details
The Search details page (Status > Search history, then click View for a particular search) lists full information about either an individual search, or all searches associated with a single call (depending on how you reached the page). The information shown includes:
n the subzones and zones that were searched n the call path and hops n any transforms that were applied to the alias being searched for n use of policies such as Admin Policy or User Policy (FindMe) n any policy services that were used
Other information associated with the search and (if it was successful) the resulting call can be viewed via the links in the Related tasks section at the bottom of the page:
n View all events associated with this call tag takes you to the Event Log page, filtered to show only those events associated with the Call Tag relating to this search.

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n View call information associated with this call tag takes you to the Call summary page, where you can view overview information about the call.
n View all searches associated with this call tag is shown if you are viewing details of an individual search and there are other searches associated with the same call. It takes you to a new Search details page which lists full information about all the searches associated with the call's Call Tag.

Local Zone status
The Local Zone status page (Status > Local Zone) lists all of the subzones on the Cisco VCS that together make up the Local Zone. This will always include the Default Subzone and the Traversal Subzone, plus any other subzones that have been configured.
The following information is displayed:

Field

Description

Subzone name

The names of each subzone currently configured on this Cisco VCS. Clicking on a Subzone name takes you to the configuration page for that subzone.

Registrations The number of devices currently registered within the subzone. Note that devices cannot be registered to the Traversal Subzone.

Calls

The number of calls currently passing through the subzone. Note that a single call may pass through more than one subzone, depending on the route it takes. For example, traversal calls from a locally registered endpoint will always pass through the Traversal Subzone, so they will show up twice; once in the originating subzone and once in the Traversal Subzone.

Bandwidth used

The total amount of bandwidth used by all calls passing through the subzone.

Zone status
The Zone status page (Status > Zones) lists all of the external zones on the Cisco VCS, the number of calls and amount of bandwidth being used by each, and their current status. The list of zones always includes the Default Zone, plus any other zones that have been created. The following information is displayed:

Field Name

Description The names of each zone currently configured on this Cisco VCS. Clicking on a zone Name takes you to the configuration page for that subzone.

Type Calls Bandwidth used Status

The type of zone. The number of calls currently passing out to or received in from each zone. The total amount of bandwidth used by all calls passing out to or received in from each zone. The current status of each zone.

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Link status
The Link status page (Status > Bandwidth > Links) lists all of the links currently configured on the Cisco VCS, along with the number of calls and the bandwidth being used by each link.
The following information is displayed:

Field

Description

Name

The name of each link. Clicking on a link Name takes you to the configuration page for that link.

Calls

The total number of calls currently traversing the link. Note that a single call may traverse more than one link, depending on how your system is configured.

Bandwidth The total bandwidth of all the calls currently traversing the link. used

Pipe status
The Pipe status page (Status > Bandwidth > Pipes) lists all of the pipes currently configured on the Cisco VCS, along with the number of calls and the bandwidth being used by each pipe.
The following information is displayed:

Field

Description

Name

The name of each pipe. Clicking on a pipe Name takes you to the configuration page for that pipe.

Calls

The total number of calls currently traversing the pipe. Note that a single call may traverse more than one pipe, depending on how your system is configured.

Bandwidth The total bandwidth of all the calls currently traversing the pipe. used

Policy service status
The Policy service status page (Status > Policy services) lists all of the policy services configured on the Cisco VCS and displays their current status. The set of policy services includes all of the services defined on the Policy services page (VCS configuration > Dial plan > Policy services), plus if a remote service has been selected for either Call Policy or for registration restriction policy it will also display a Call Policy or a Registration restriction service respectively. The following information is displayed:
Field Description
Name The name of the policy service. Clicking on a Name takes you to the configuration page for that service.

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URL

The address of the service. Note that each service can be configured with multiple server addresses for resiliency. This field displays the server address currently selected for use by the Cisco VCS.

Status The current status of the service.

Last Indicates when the service was last requested by a Cisco VCS process. used

TURN relays status
The TURN relays page (Status > TURN relays) lists all the currently active TURN Relays on the Cisco VCS. For each relay, it shows the requesting client address and port and the corresponding Cisco VCS address and port.
Note: TURN services are available on Cisco VCS Expressways only. They are configured from the TURN page (VCS configuration > Expressway > TURN).
The following information is displayed:

Field Relay Address
Client
Creation time Expiry time

Description The index number of the relay. The IP address and port on the Cisco VCS of the relay resource that has been allocated for this particular request. The IP address and port on the NAT (or the client if there is no NAT) that requested the relay. The date and time the relay became active.
The date and time the relay will become inactive.

Viewing TURN relay details
Click View to go to the TURN relay summary page where you can see more information about a relay. From here further detailed information about the relay can be viewed by using the links in the Related tasks section at the bottom of the page:
n View permissions for this relay takes you to the TURN relay permissions page, where you can view information about the permissions that have been defined on the relay.
n View channels for this relay takes you to the TURN relay channels page, where you can view information about the channel bindings that have been defined on the relay.
n View counters for this relay takes you to the TURN relay counters page, where you can view TURN request, response and error counters, as well as media counters, for the relay.
Presence
Presence publishers
The Publishers page (Status > Applications > Presence > Publishers) lists each presentity whose presence information is being managed by (that is, published to) the local presence server.

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All presentities are listed here regardless of whether or not anyone is requesting their presence information. If there are no publishers listed, this could mean that the presence server is not enabled on this Cisco VCS.
Note: FindMe users are not listed here as they do not have their status individually published. The status of a FindMe user is based on the published status of the endpoints and/or presentities that make up the FindMe user, and is determined by the presentity manager.
URI
The address of the presentity whose presence information is being published.
Publisher count
The number of sources of information that are being published for this particular presentity. All endpoints that are registered to the Cisco VCS have information published on their behalf by the PUA (as long as they are registered with an alias in the form of a URI). If an endpoint supports presence, it may also publish its own presence information. This means that some presentities have more than one source of information about their presence. It is the job of the presentity manager to aggregate this information and determine the actual status of the presentity.
Presence presentities
The Presentities page (Status > Applications > Presence > Presentities) lists each presentity whose presence information is being managed by (that is, published to) the local presence server and whose presence information has been requested by a subscriber. Presentities are listed here whether or not there is any information currently available about that presentity. If a presentity has been subscribed to but there is no information being published about it, then it will be listed here if the local presence server is authoritative for the presentity's domain.
Presentities are listed here regardless of whether the subscriber that requested the information is registered locally or to a remote system.
Note: FindMe users are listed here if their presence information has been requested by a subscriber.
URI
The address of the presentity whose presence information has been requested.
Subscriber count
The number of endpoints who have requested information about that particular presentity.
To view the list of all subscribers who are requesting information about a particular presentity, click on the presentity's URI.
Presence subscribers
The Subscribers page (Status > Applications > Presence > Subscribers) lists each endpoint that has requested information about one or more presentities whose information is managed by (that is, published to) the local Presence Server.
Endpoints requesting this information are listed here regardless of whether they are registered locally or to a remote server.
Note: FindMe users will not be listed here as a FindMe entity cannot subscribe to presence information. However, one or more of the endpoints that make up a FindMe user may be requesting presence information, in which case that endpoint will be listed here.
URI
The address of the endpoint that has requested presence information.

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Subscription count
The number of local presentities about whom this endpoint is requesting information.
To view the list of all local presentities whose information is being requested by a particular endpoint, click on the endpoint's URI.

OCS Relay status
The OCS Relay status page (Status > Applications > OCS Relay) lists all the FindMe IDs being handled by the OCS Relay application, and shows the current status of each.
The OCS Relay application is required in deployments that use both Microsoft Office Communicator (MOC) clients and FindMe, if they both use the same SIP domain. Its purpose is to:
n enable the Cisco VCS to share FindMe presence information with MOC clients n enable the Microsoft Office Communications Server (OCS) to forward calls to FindMe IDs
Note: the OCS Relay application is configured via the OCS Relay page (Applications > OCS Relay).
The following information is displayed:

Field

Description

Alias

The FindMe ID being handled by the OCS Relay application.

Presence state

Shows the presence information currently being published for the FindMe ID.

Registration Indicates whether the FindMe ID has registered successfully with OCS. Doing so

state

allows OCS to forward calls to the FindMe ID.

Subscription Indicates whether the OCS Relay application has subscribed successfully to the

state

FindMe ID's presence information. Doing so allows MOC clients to view the

presence information of FindMe users.

Provisioning status
The Provisioning status page (Status > Applications > Provisioning) shows the status of the Cisco VCS's provisioning server and phone book server.
These servers provide provisioning-related services to provisioned devices, without the need for Cisco TMS.
Provisioning server
The provisioning server provides basic device provisioning to provisioned users.
This section displays the server's status and summarizes the subscription requests received by the server since the Cisco VCS was last restarted. It shows counts of:
n the total number of subscription requests received n how many requests were sent a successful provisioning response n failed requests because the account requesting provisioning could not be found n failed requests because the account requesting provisioning had no provisioned devices associated
with it

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Phone book server
The phone book server provides phone book directory and lookup facilities to provisioned users.
This section displays the server's status and summarizes the number of phone book search requests received by the server since the Cisco VCS was last restarted.
Note that the Cisco VCS's provisioning facilities are only available if the Starter Pack option key is installed.
Warnings
The Warnings page (Status > Warnings, or by clicking on the red warning icon which appears at the top right of any page when a warning is in place) provides a list of all the warnings currently in place on your system (and, in the Action column where applicable, their proposed resolution).
You should deal with each warning by clicking each Action hyperlink and making the necessary configuration changes to resolve the problem.
Warnings occur when an event or configuration change has taken place on the Cisco VCS that requires some manual administrator intervention such as a restart. Warnings may also be raised for hardware and environmental issues such as faulty disks and fans or high temperatures.
Acknowledging a warning (by selecting a warning and clicking on the Acknowledge button) removes the warning icon from the web UI, but the warning will still be listed on the Warnings page with a status of Acknowledged. If a new warning occurs, the warning icon will reappear.
You cannot delete warnings from the Warnings page. Warnings are removed by the Cisco VCS only after the required action or configuration change has been made.
After a restart of the Cisco VCS, any Acknowledged warnings that are still in place on the Cisco VCS will reappear with a status of New, and must be re-acknowledged.
Refer to the warnings list for further information about the specific warnings that can be raised.
Hardware status
The Hardware page (Status > Hardware ) provides information about the physical status of your Cisco VCS unit.
Information displayed includes:
n fan speeds n component temperatures n component voltages
Any appropriate minimum or maximum levels are shown to help identify any components operating outside of their standard limits.
CAUTION: do not attempt to service the apparatus yourself as opening or removing covers may expose you to dangerous voltages or other hazards, and will void the warranty. Refer all servicing to qualified service personnel.
Event Log
The Event Log page (Status > Logs > Event Log) lets you view and search the Event Log, which is a list of all the events that have occurred on your system since the last upgrade. The Event Log holds 2GB of data; when this size is reached, the oldest entries are overwritten. However only the first 50MB of event log data can be displayed through the web interface.

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Filtering the Event Log
The Filter section lets you filter the Event Log. Enter the words you want to search for and click Filter. Only those events that contain all the words you entered are shown.
To do more advanced filtering, click more options. This gives you additional filtering methods:
n Contains the string: only includes events containing the exact phrase entered here. n Contains any of the words: includes any events that contain at least one of the words entered
here. n Not containing any of the words: filters out any events containing any of the words entered here.
Note: use spaces to separate each word you want to filter by.
Click Filter to reapply any modified filter conditions. To return to the complete Event Log listing, click Reset.
Reconfiguring the log settings
Clicking Reconfigure the log settings takes you to the Logging configuration page. From this page, you can set the level of events that are recorded in the event log, and also set up a remote server to which the event log can be copied.
Results section
The Results section shows all the events matching the current filter conditions, with the most recent being shown first.
Most tvcs events contain hyperlinks in one or more of the fields (such fields change color when you hover over them). You can click on the hyperlink to show only those events that contain the same text string. For example, clicking on the text that appears after Event= filters the list to show all the events of that particular type. Likewise, clicking on a particular Call-Id shows just those events that contain a reference to that particular call.
Event Log color coding
Certain events in the Event Log are color-coded so that you can identify them more easily. These events are as follows:
Green events:
n System Start n Installation of <item> succeeded n Registration Accepted n Call Connected n Request Successful n Beginning System Restore n Completed System Restore
Orange events:
n System Shutdown
Red events:
n Registration Rejected n Registration Refresh Rejected n Call Rejected n Security Alert n License Limit Reached n Decode Error

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n TLS Negotiation Error n External Server Communications Failure n Application Failed n Request Failed n System Backup Error n System Restore Error n Authorization Failure
For more information about the format and content of the Event Log see Event Log format and Events and levels.
Configuration Log
The Configuration Log page (Status > Logs > Configuration Log) provides a list of all changes to the Cisco VCS configuration made using the web or command line interface (CLI).
The configuration log visible using the web interface holds a maximum of 4MB of data; when this size is reached, the oldest entries are overwritten.
Filtering the Configuration Log
The Filter section lets you filter the Configuration Log. Enter the words you want to search for and click Filter. Only those events that contain all the words you entered are shown.
To do more advanced filtering, click more options. This gives you additional filtering methods:
n Contains the string: only includes events containing the exact phrase entered here. n Contains any of the words: includes any events that contain at least one of the words entered
here. n Not containing any of the words: filters out any events containing any of the words entered here.
Note: use spaces to separate each word you want to filter by.
Click Filter to reapply any modified filter conditions. To return to the complete Configuration Log listing, click Reset.
Results section
The Results section shows all the web-based events, with the most recent being shown first.
Most events contain hyperlinks in one or more of the fields (such fields change color when you hover over them). You can click on the hyperlink to show only those events that contain the same text string. For example, clicking on the text that appears after Event= filters the list to show all the events of that particular type. Likewise, clicking on a particular user shows just those events relating to that particular administrator account.
All events that appear in the Configuration Log are recorded as Level 1 Events, so any changes to the logging levels will not affect their presence in the Configuration Log.
Configuration Log events
Changes to the Cisco VCS configuration made by administrators using the web interface have an Event field of System Configuration Changed.
The Detail field of each of these events shows:
n the configuration item that was affected n what it was changed from and to n the name of the administrator user who made the change, and their IP address n the date and time that the change was made

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Cisco VCS unit front panel
The LCD panel on the front of the Cisco VCS hardware unit has a rotating display of the Cisco VCS's system name, IP addresses, warnings, and the number of current traversal calls, non-traversal calls and registrations.

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Network and system settings
This section describes all the options that appear under the System menu of the web interface.
These options enable you to configure the Cisco VCS in relation to the network in which it is located, for example its IP settings and the external services used by the Cisco VCS (for example DNS, NTP and SNMP).
Configuring IP settings
The IP page (System > IP) is used to configure the IP protocols and settings of the Cisco VCS.
IP protocol configuration
You can configure whether the Cisco VCS uses IPv4, IPv6 or Both protocols. The default is Both.
n IPv4: it only accepts registrations from endpoints using an IPv4 address, and only takes calls between two endpoints communicating via IPv4. It communicates with other systems via IPv4 only.
n IPv6: it only accepts registrations from endpoints using an IPv6 address, and only takes calls between two endpoints communicating via IPv6. It communicates with other systems via IPv6 only.
n Both: it accepts registrations from endpoints using either an IPv4 or IPv6 address, and takes calls using either protocol. If a call is between an IPv4-only and an IPv6-only endpoint, the Cisco VCS acts as an IPv4 to IPv6 gateway. It communicates with other systems via either protocol.
Note: some endpoints support both IPv4 and IPv6, however an endpoint can use only one protocol when registering with the Cisco VCS. Which protocol it uses is determined by the format used to specify the IP address of the Cisco VCS on the endpoint. After the endpoint has registered using either IPv4 or IPv6, the Cisco VCS only sends calls to it using this addressing scheme. Calls made to that endpoint from another device using the other addressing scheme are converted (gatewayed) by the Cisco VCS.
IPv4 to IPv6 gatewaying (interworking)
The Cisco VCS can act as a gateway for calls between IPv4 and IPv6 devices. To enable this feature, select an IP protocol of Both. Calls for which the Cisco VCS is acting as an IPv4 to IPv6 gateway are traversal calls and require a traversal call license.
IP gateways and IP routes (static routes)
You can set the default IPv4 gateway and IPv6 gateway used by the Cisco VCS. These are the gateways to which IP requests are sent for IP addresses that do not fall within the Cisco VCS's local subnet.
However, you can also configure additional IP routing information (static routes) on the Cisco VCS. This is sometimes required when using the Dual Network Interfaces option and occasionally required in other complex network deployments. You can configure routes for up to 50 networks and host combinations. IP routes can be configured using the CLI only.
LAN configuration
LAN 1 is the primary network port on the Cisco VCS.
You can configure the IPv4 address and subnet mask, and IPv6 address for this port.
For Cisco VCS Expressway boxes behind a static NAT, you can also configure the NAT's IP address. If you have Dual Network Interfaces installed, you can also configure these options for the LAN 2 port.

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The Cisco VCS is shipped with a default IP address of 192.168.0.100 (for both LAN ports). This lets you connect the Cisco VCS to your network and access it via the default address so that you can configure it remotely.
The External LAN interface field indicates which LAN port has been connected to your external network. It also determines the port from which TURN server relay allocations are made.
About Dual Network Interfaces
The Dual Network Interface option key enables the LAN 2 port on the Cisco VCS Expressway for both management and call signaling. This allows you to have a second IP address for your Cisco VCS.
This configuration is intended for high-security deployments where the Cisco VCS is located in a DMZ between two separate firewalls on separate network segments. In such deployments, routers prevent devices on the internal network from being able to route IP traffic to the public internet, and instead the traffic must pass through an application proxy such as the Cisco VCS.
To enable this feature you must purchase and install the appropriate option key. Contact your Cisco representative for information.
Note: you should configure the LAN 1 port and restart the Cisco VCS before configuring the LAN 2 port. If you have Dual Network Interfaces enabled but only want to configure one of the Ethernet ports, you must use LAN 1.
About static NAT
It is possible to deploy a Cisco VCS Expressway behind a static NAT device, allowing it to have separate public and private IP addresses. This feature is intended for use in deployments where the Cisco VCS Expressway is located in a DMZ, and has the Dual Network Interfaces feature enabled.
In these deployments, the externally-facing LAN port has static NAT enabled in order to use both a private and public IPv4 address; the internally facing LAN port does not have static NAT enabled and uses a single IPv4 (or IPv6) address.
In such a deployment, when configuring traversal clients to use the Cisco VCS Expressway as a traversal server, it is the latter internally-facing IP address of the Cisco VCS Expressway that should be used. To enable the use of a static NAT:
1. Ensure that the Dual Network Interfaces option key is installed. 2. For the externally-facing LAN port:
a. In the IPv4 address field, enter the Cisco VCS Expressway's private IP address. b. Select an IPv4 static NAT mode of On. c. In the IPv4 static NAT address field, enter the Cisco VCS Expressway's public IP address -
this is the IP address of the outside of the NAT.
Configuring Ethernet settings
The Ethernet page (System > Ethernet) is used to configure the speed of the connection between the Cisco VCS and the Ethernet switch to which it is connected. The speed must be set to the same value on both systems. If you have the Dual network interfaces option enabled, you can configure the Ethernet speed separately for each LAN port.
The default is Auto, which means that the two systems will auto-negotiate the appropriate speed.
Note: you are recommended to use the default value of Auto unless the switch to which you are connecting is unable to auto-negotiate. A mismatch in Ethernet speed settings between the Cisco VCS and Ethernet switch will at best result in packet loss; at worst it will make the system inaccessible for endpoints and system administrators.

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Configuring DNS settings
The DNS page (System > DNS) is used to configure the Cisco VCS's DNS servers and DNS settings.
DNS servers
You must specify at least one DNS server to be queried for address resolution if you want to either:
n use FQDNs (Fully Qualified Domain Names) instead of IP addresses when specifying external addresses (for example for LDAP and NTP servers, neighbor zones and peers), or
n use features such as URI dialing or ENUM dialing
You can specify up to 5 DNS servers. The Cisco VCS sends requests to all configured servers in parallel, taking the first result received and discounting the rest.
Note: this can lead to confusing behavior should local network administrators, for example, deploy "split horizon" DNS where records held on an internal, corporate, DNS server use the same domain names but with different values to those on the public internet - an often used tactic in corporate intranets.
DNS settings
The Local host name defines the DNS host name that this Cisco VCS is known by.
n It must be unique for each peer in a cluster. n It is used to identify the Cisco VCS on a remote log server (a default name of "TANDBERG" is used
if the Local host name is not specified).
The Domain name is used when attempting to resolve unqualified server addresses (for example ldap or ldap_server). It is appended to the unqualified server address before the query is sent to the DNS server. If the server address is fully qualified (for example ldap_server.domain) or is in the form of an IP address, the domain name is not appended to the server address before querying the DNS server.
It applies to the following configuration settings in the Cisco VCS:
n LDAP server n NTP server n External Manager server n Remote logging server
You are recommended to use an IP address or FQDN (Fully Qualified Domain Name) for all server addresses.
Tip: the FQDN of the Cisco VCS is the Local host name plus the Domain name.
Impact on SIP messaging
The Local host name and Domain name are also used to identify references to this Cisco VCS in SIP messaging, where an endpoint has configured the Cisco VCS as its SIP proxy in the form of an FQDN (as opposed to an IP address, which is not recommended).
In this case the Cisco VCS may, for example, reject an INVITE request if the FQDN configured on the endpoint does not match the Local host name and Domain name configured on the Cisco VCS. (Note that this check occurs because the SIP proxy FQDN is included in the route header of the SIP request sent by the endpoint to the Cisco VCS.)

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Configuring Quality of Service settings
The Quality of Service (QoS) page (System > Quality of Service) is used to configure QoS options for outbound traffic from the Cisco VCS.
This allows the network administrator to tag all signaling and media packets flowing through the Cisco VCS with one specific QoS tag and hence provide the ability to prioritize video traffic over normal data traffic. Management traffic, for example SNMP messages, is not tagged.
Supported mechanisms
The Cisco VCS supports the DiffServ (Differentiated Services) mechanism which puts the specified Tag value in the TOS (Type Of Service) field of the IPv4 header or TC (Traffic Class) field of the IPv6 header.

Configuring system name and access settings
The System administration page (System > System) is used to configure the name of the Cisco VCS and the means by which it is accessed by administrators.
Configuring the system name
The System name is used to identify the Cisco VCS. It appears in various places in the web interface, and in the display on the front panel of the unit (so that you can identify it when it is in a rack with other systems). The System name is also used by Cisco TMS. You are recommended to give the Cisco VCS a name that allows you to easily and uniquely identify it.
Administration access
While it is possible to administer the Cisco VCS via a PC connected directly to the unit via a serial cable, you may want to access the system remotely over IP. You can do this using either or both: n the web interface, via HTTPS n a command line interface, via SSH or Telnet
The configurable options are:

Field

Description

Usage tips

Session time out

The number of minutes that an administration session (serial port, HTTPS, Telnet or SSH) may be inactive before the session is timed out. Default is 0.

A value of 0 means that session time outs are disabled.

Telnet service

Determines whether the Cisco VCS can be accessed via Telnet. Default is Off.

SSH service

Determines whether the Cisco VCS can be accessed via SSH and SCP. Default is On.

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Field

Description

Usage tips

Web interface (over HTTPS)

Determines whether the Cisco VCS can be accessed via the web interface. Default is On.

Cisco TMS accesses the Cisco VCS via the web server. If HTTPS mode is turned off, Cisco TMS will not be able to access it.

Client certificate validation

Controls whether client systems (typically web browsers) that communicate with the Cisco VCS over HTTPS have to present a valid client certificate before the connection can be established. Default is Off.

Enabling this feature means that your browser can use the Cisco VCS web interface only if it has a valid client certificate signed by a CA in the Cisco VCS's trusted CA certificate list.
Ensure your browser (the client system) has a valid (in date and not revoked if using a CRL) client certificate before enabling this feature. The procedure for uploading a certificate to your browser may vary depending on the browser type and you may need to restart your browser for the certificate to take effect.

You can upload trusted CA certificates, manage client certificate revocation lists and test client certificates on the security certificates page.

Note that this feature does not affect client verification of the Cisco VCS's server certificate.

Redirect HTTP requests to HTTPS

Determines whether HTTP requests are redirected to the HTTPS port. Default is On.

HTTPS must also be enabled for access via HTTP to function.

Note: by default, access via HTTPS and SSH is enabled; access via Telnet is disabled. To securely manage the Cisco VCS you should disable Telnet, using the encrypted HTTPS and SSH protocols instead. For further security, disable HTTPS and SSH as well and use the serial port to manage the system.
Because access to the serial port allows the password to be reset, it is recommended that you install the Cisco VCS in a physically secure environment.
Cisco VCS unit front panel
The LCD panel on the front of the Cisco VCS hardware unit has a rotating display of the Cisco VCS's system name, IP addresses, warnings, and the number of current traversal calls, non-traversal calls and registrations.
You can configure the front panel to hide this identifying information, if required for security reasons for example, by using the CLI command xConfiguration Administration LCDPanel Mode. If the mode is set to Off the front panel only displays "Cisco".
Configuring SNMP settings
The SNMP page (System > SNMP) is used to configure the Cisco VCS's SNMP settings.

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Tools such as Cisco TMS or HP OpenView may act as SNMP Network Management Systems (NMS). They allow you to monitor your network devices, including the Cisco VCS, for conditions that might require administrative attention.
The Cisco VCS supports the most basic MIB-II tree (.1.3.6.1.2.1) as defined in RFC 1213 [23].
The information made available by the Cisco VCS includes the following:
n system uptime n system name n location n contact n interfaces n disk space, memory, and other machine-specific statistics
By default, SNMP is Disabled, therefore to allow the Cisco VCS to be monitored by an SNMP NMS (including Cisco TMS), you must select an alternative SNMP mode. The configurable options are:

Field SNMP mode

Description
Controls the level of SNMP support.
Disabled: no SNMP support.
SNMPv3 (secure SNMP): supports authentication and encryption.
SNMPv3 plus TMS support: secure SNMPv3 plus nonsecure access to OID 1.3.6.1.2.1.1.2.0 only.
SNMPv2c: non-secure community-based SNMP.

Usage tips
If you want to use secure SNMPv3 but you also use Cisco TMS as your external manager, you must select SNMPv3 plus TMS support.

Community name

The Cisco VCS's SNMP community name. The default is public.

Only applies to SNMPv2c and SNMPv3 plus TMS support.

System contact

The name of the person who can be contacted regarding issues with the Cisco VCS.

The System contact and Location are used for reference purposes by administrators when following up on queries.

Location

Specifies the physical location of the Cisco VCS.

Username

The Cisco VCS's SNMP username, used to identify this SNMP agent to the SNMP manager.

Only applies when using secure SNMPv3.

Authentication settings (only applicable to SNMPv3)

Authentication Enables or disables SNMPv3

mode

authentication.

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Field Type

Description

Usage tips

The algorithm used to encrypt authentication credentials.
SHA: Secure Hash Algorithm.
MD5: Message-Digest algorithm 5.

Password

The password used to encrypt authentication credentials.

Privacy settings (only applicable to SNMPv3)

Privacy mode Enables or disables SNMPv3 encryption.

Type

The security model used to encrypt messages.
DES: Data Encryption Standard 56-bit encryption.
AES: Advanced Encryption Standard 128-bit encryption.

Must be at least 8 characters.

Password

The password used to encrypt messages.

Must be at least 8 characters.

The Cisco VCS does not support SNMP traps or SNMP sets, therefore it cannot be managed via SNMP.
Note: SNMP is disabled by default, because of the potentially sensitive nature of the information involved. Do not enable SNMP on a Cisco VCS on the public internet or in any other environment where you do not want to expose internal system information.
Configuring time zone and NTP server settings
The Time page (System > Time) is used to configure the Cisco VCS's NTP server and specify your local time zone.
NTP server
The NTP server is a remote server with which the Cisco VCS synchronizes in order to ensure its time setting is accurate. The NTP server provides the Cisco VCS with UTC time. Accurate timestamps play an important part in H.323 authentication, helping to guard against replay attacks. For this reason, if you are using authentication in a deployment that includes H.323, both the Cisco VCS and the endpoints must use an NTP server to synchronize their system time.
Accurate time is also necessary for configuration replication to work properly if the Cisco VCS is in a cluster, and to ensure correct timestamps in system logs.
Traversal clients must always authenticate with traversal servers (even if the traversal server is not using device authentication for endpoint clients). Therefore, for a traversal client and traversal server to connect to each other, both must be configured with details of an NTP server.
SIP-only deployments do not require the use of NTP for authentication.

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To configure the Cisco VCS with an NTP server, enter the IP address or FQDN (or server address, if a DNS Domain name has also been configured) of the NTP server to be used when synchronizing system time.
n The NTP server field defaults to one of four NTP servers provided by Cisco, either: 0.ntp.tandberg.com, 1.ntp.tandberg.com, 2.ntp.tandberg.com or 3.ntp.tandberg.com.
n The connection status to the NTP server is shown in the Status section.
Cisco VCS time display and time zones
Local time is used throughout the web interface. It is shown in the system information bar at the bottom of the screen and is used to set the timestamp that appears at the start of each line in the Event Log and Configuration Log.
Internally, the Cisco VCS maintains its system time in UTC. It is based on the Cisco VCS's operating system time, which is synchronized using an NTP server if one is configured. If no NTP server is configured, the Cisco VCS uses its own operating system time to determine the time and date.
Specifying your local Time zone lets the Cisco VCS determine the local time where the system is located. It does this by offsetting UTC time by the number of hours associated with the selected time zone. It also adjusts the local time to account for summer time (also known as daylight saving time).
The Time page displays both UTC and local time in the Status section. Note that a UTC system timestamp is included at the end of each entry in the Event Log and Configuration Log.

Configuring the Login page
The Login page configuration page (System > Login page) is used to specify a message and image to appear on the login page for both users and administrators.
The Welcome message title and text will appear to administrators when attempting to log in using the CLI, and to FindMe users and administrators when attempting to log in using the web interface.
You can upload an image that will appear on the login page, above the welcome message, to FindMe users and administrators when attempting to log in using the web interface.
n supported image file formats are JPG, GIF and PNG n images larger than 200x200 pixels will be scaled down
Note that this feature is not configurable using the CLI.

Configuring external manager settings
The External manager page (System > External manager) allows you to configure the Cisco VCS's external manager settings.
An external manager is a remote system, such as the Cisco TelePresence Management Suite (Cisco TMS), used to monitor events occurring on the Cisco VCS, for example call attempts, connections and disconnections. The use of an external manager is optional.

Field
Address and path

Description

Usage tips

To use an external manager, you must configure the Cisco VCS with the IP address or host name and path of the external manager to be used.

If you are using Cisco TMS as your external manager, use the default path of tms/public/external/management/ SystemManagementService.asmx.

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Field

Description

Usage tips

Protocol

Determines whether communications with the external manager are over HTTP or HTTPS.

Certificate Controls whether the

verification certificate presented by the

mode

external manager is verified.

If you enable verification, you must also add the certificate of the issuer of the external manager's certificate to the file containing the Cisco VCS's trusted CA certificates. This is done from the Security certificates page (Maintenance > Security certificates).

Configuring logging levels
The Cisco VCS provides an event logging facility for troubleshooting and auditing purposes. The Event Log records information about such things as calls, registrations, and messages sent and received.
The Logging page (System > Logging) lets you:
n Specify the Log level to set the amount of information to record. n Copy the event log to a remote syslog server.

Event Log levels
All events have an associated level in the range 1-4, with Level 1 Events considered the most important. The table below gives an overview of the levels assigned to different events.

Level Assigned Events

Level 1

High-level events such as registration requests and call attempts. Easily human readable. For example: n call attempt/connected/disconnected n registration attempt/accepted/rejected

Level All Level 1 Events, plus:

2

n logs of protocol messages sent and received (SIP, H.323, LDAP and so on) excluding

noisy messages such as H.460.18 keepalives and H.245 video fast-updates

Level All Level 1 and Level 2 Events, plus:

3

n protocol keepalives

n call-related SIP signaling messages

Level The most verbose level: all Level 1, Level 2 and Level 3 Events, plus:

4

n network level SIP messages

See the Events and levels section for a complete list of all events that are logged by the Cisco VCS, and the level at which they are logged.
You can control which events are logged by the Cisco VCS by setting the Log level. All events with a level numerically equal to and lower than the specified logging level are recorded in the Event Log. So, at level 1, only level 1 events are logged; at level 2, both level 1 and level 2 events are logged, and so on. The default log level is 1.
Note that:

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n Logging at level 3 or level 4 is not usually recommended as the Event Log holds a maximum of 2GB of data and logging at these levels on a busy system could cause the Event Log to be recycled too quickly.
n Changes to the event log level affect both the Event Log that you can view via the web interface, and the information that is copied to the remote log server (if any) that you have configured.
n Changes to the event log level are not retrospective. If you change the event log level, it will only effect what is logged from that point onwards.
Remote logging
The Event Log is always stored locally on the Cisco VCS. However, it is often convenient to collect copies of all event logs from various systems in a single location. A computer running a BSD-style syslog server, as defined in RFC 3164 [4], may be used as the central log server. Note that:
n A Cisco VCS will not act as a central logging server for other systems. n Events are always logged locally (to the Event Log) regardless of whether or not remote logging is
enabled. n The Cisco VCS may use any of the 23 available syslog facilities for different messages.
Specifically, LOCAL0..LOCAL7 (facilities 16..23) are used by different components of the application software on the Cisco VCS.
To enable remote logging, you must configure the Cisco VCS with the IP addresses or Fully Qualified Domain Names (FQDNs) of the Remote syslog servers to where the Event Log is written. Up to 4 servers can be specified. Note that these servers cannot be another Cisco VCS.

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Protocols
This section provides information about the pages that appear under the VCS configuration > Protocols menu. It includes the following information: n an overview of H.323 and the H.323 configuration options available on the Cisco VCS n an overview of SIP and the SIP configuration options available on the Cisco VCS n how to configure the Cisco VCS to act as a SIP to H.323 gateway
About H.323
The Cisco VCS supports the H.323 protocol: it is an H.323 gatekeeper. It will also provide interworking between H.323 and SIP, translating between the two protocols to enable endpoints that only support one of these protocols to call each other. In order to support H.323, the H.323 mode must be enabled.
Using the Cisco VCS as an H.323 gatekeeper
As an H.323 gatekeeper, the Cisco VCS accepts registrations from H.323 endpoints and provides call control functions such as address translation and admission control. To enable the Cisco VCS as an H.323 Gatekeeper, you must ensure that H.323 mode is set to On (VCS configuration > Protocols > H.323). Note that this is the default setting, so the Cisco VCS will work as an H.323 gatekeeper "out of the box", without any other special configuration.
H.323 endpoint registration
H.323 endpoints in your network must register with the Cisco VCS in order to use it as their gatekeeper. There are two ways an H.323 endpoint can locate a Cisco VCS with which to register: manually or automatically. The option is configured on the endpoint itself under the Gatekeeper Discovery setting (consult your endpoint manual for how to access this setting). n If the mode is set to automatic, the endpoint will try to register with any Cisco VCS it can find. It
does this by sending out a Gatekeeper Discovery Request, to which eligible Cisco VCSs will respond. n If the mode is set to manual, you must specify the IP address of the Cisco VCS with which you want your endpoint to register, and the endpoint will attempt to register with that Cisco VCS only.
Preventing automatic H.323 registrations
You can prevent H.323 endpoints being able to register automatically with the Cisco VCS by disabling Auto Discovery on the Cisco VCS (VCS configuration > Protocols > H.323).
About SIP
The Cisco VCS supports the SIP protocol. It acts as a SIP registrar, SIP proxy and as a SIP Presence Server. The Cisco VCS can provide interworking between SIP and H.323, translating between the two protocols to enable endpoints that only support one of these protocols to call each other. To support SIP:

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n SIP mode must be enabled. n At least one of the SIP transport protocols (UDP, TCP or TLS) must be active. Note that the use of
UDP is not recommended for video as SIP message sizes are frequently larger than a single UDP packet.
Cisco VCS as a SIP registrar
For a SIP endpoint to be contactable via its alias, it must register its Address of Record (AOR) and its location with a SIP registrar. The SIP registrar maintains a record of the endpoint's details against the endpoint's AOR. When a call is received for that AOR, the SIP registrar refers to the record in order to find the endpoint to which it corresponds. (Note that the same AOR can be used by more than one SIP endpoint at the same time, although to ensure that all endpoints are found they must all register with the same Cisco VCS or Cisco VCS cluster.)
A SIP registrar only accepts registrations for domains for which it is authoritative. The Cisco VCS can act as a SIP registrar for up to 20 domains.
SIP aliases always take the form username@domain. To make the Cisco VCS act as a SIP registrar, you must configure it with the SIP domains for which it will be authoritative. It will then handle registration requests for any endpoints attempting to register with an alias that includes that domain.
Whether or not the Cisco VCS accepts a registration request depends on its registration control settings.
SIP endpoint registration
There are two ways a SIP endpoint can locate a registrar with which to register: manually or automatically. The option is configured on the endpoint itself under the SIP Server Discovery option (consult your endpoint user guide for how to access this setting; it may also be referred to as Proxy Discovery).
n If the Server Discovery mode is set to automatic, the endpoint will send a REGISTER message to the SIP server that is authoritative for the domain with which the endpoint is attempting to register. For example, if an endpoint is attempting to register with a URI of [email protected], the request will be sent to the registrar authoritative for the domain example.com. The endpoint can discover the appropriate server through a variety of methods including DHCP, DNS or provisioning, depending upon how the video communications network has been implemented.
n If the Server Discovery mode is set to manual, the user must specify the IP address or FQDN of the registrar (Cisco VCS or Cisco VCS cluster) with which they want to register, and the endpoint will attempt to register with that registrar only.
The Cisco VCS is a SIP server and a SIP registrar.
n If an endpoint is registered to the Cisco VCS, the Cisco VCS will be able to forward inbound calls to that endpoint.
n If the Cisco VCS is not configured with any SIP domains, the Cisco VCS will act as a SIP server. It may proxy registration requests to another registrar, depending upon the SIP registration proxy mode setting.
SIP registration resiliency
The Cisco VCS supports multiple client-initiated connections (also referred to as "SIP outbound") as outlined in RFC 5626 [41].
This allows SIP endpoints that support RFC 5626 to be simultaneously registered to multiple Cisco VCS cluster peers. This provides extra resiliency: if the endpoint loses its connection to one cluster peer it will still be able to receive calls via one of its other registration connections.

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Cisco VCS as a SIP proxy server
The Cisco VCS acts as a SIP proxy server when SIP mode is enabled. The role of a proxy server is to forward requests (such as REGISTER and INVITE) from endpoints or other proxy servers on to further proxy servers or to the destination endpoint.
The Cisco VCS's behavior as a SIP proxy server is determined by:
n the SIP registration proxy mode setting n the presence of Route Set information in the request header n whether the proxy server from which the request was received is a neighbor of the Cisco VCS
A Route Set specifies the path to take when requests are proxied between an endpoint and its registrar. For example, when a REGISTER request is proxied by a Cisco VCS, the Cisco VCS adds a path header component to the request. This signals that calls to that endpoint should be routed through the Cisco VCS. This is usually required in situations where firewalls exist and the signalling must follow a specified path to successfully traverse the firewall. For more information about path headers, see RFC 3327 [10].
When the Cisco VCS proxies a request that contains Route Set information, it forwards it directly to the URI specified in the path. Any call processing rules configured on the Cisco VCS are bypassed. This may present a security risk if the information in the Route Set cannot be trusted. For this reason, you can configure how the Cisco VCS proxies requests that contain Route Sets by setting the SIP registration proxy mode as follows:
n Off: requests containing Route Sets are rejected. This setting provides the highest level of security. n Proxy to known only: requests containing Route Sets are proxied only if the request was received
from a known zone. n Proxy to any: requests containing Route Sets are always proxied.
In all cases, requests that do not have Route Sets are proxied as normal in accordance with existing call processing rules. This setting only applies to dialog-forming requests, such as INVITE and SUBSCRIBE. Other requests, such as NOTIFY, are always proxied regardless of this setting.
Proxying registration requests
If the Cisco VCS receives a registration request for a domain for which it is not acting as a Registrar (the Cisco VCS does not have that SIP domain configured), then the Cisco VCS may proxy the registration request onwards. This depends on the SIP registration proxy mode setting, as follows:
n Off: the Cisco VCS does not proxy any registration requests. They are rejected with a "403 Forbidden" message.
n Proxy to known only: the Cisco VCS proxies the request in accordance with existing call processing rules, but only to known neighbor, traversal client and traversal server zones.
n Proxy to any: this is the same as Proxy to known only but for all zone types i.e. it also includes ENUM and DNS zones.
Accepting proxied registration requests
If the Cisco VCS receives a proxied registration request, in addition to the Cisco VCS's standard registration controls, you can also control whether the Cisco VCS accepts the registration depending upon the zone through which the request was received. You do this through the Accept proxied registrations setting when configuring a zone.
Proxied registrations are classified as belonging to the zone they were last proxied from. This is different from non-proxied registration requests which are assigned to a subzone within the Cisco VCS.

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Cisco VCS as a SIP Presence Server
The Cisco VCS supports the SIP-based SIMPLE protocol. It can act as a Presence Server and Presence User Agent for any of the SIP domains for which it is authoritative. For full information on how to enable and use the Cisco VCS as a SIP Presence server, see the Presence section.
Movi v2.0 (or later) clients
As for any other SIP endpoint, the Cisco VCS acts as a SIP registrar and SIP proxy for MoviTM v2.0 (or later) clients - no other special support or configuration is required on the Cisco VCS.

H.323 configuration
The H.323 page (VCS configuration > Protocols > H.323) is used to enable and disable H.323 on the Cisco VCS, and configure H.323-specific ports and settings.

Field

Description

Usage tips

H.323 mode Enables or disables H.323 on the Cisco VCS. H.323 support is On by default

Registration The listening port for H.323 The default Cisco VCS configuration uses standard

UDP port UDP registrations. Default port numbers so you can use H.323 services out of the

is 1719.

box without having to first set these up.

Call signaling TCP port

The listening port for H.323 call signaling. Default is 1720.

Call signaling port range start and end

Specifies the lower port in the range used by H.323 calls after they are established. Default is 15000.

The call signaling port range must be great enough to support all the required concurrent calls.

Registration conflict mode

Determines how the system behaves if an endpoint attempts to register an alias currently registered from another IP address.

Reject: denies the new registration. This is the default.

Overwrite: deletes the original registration and replaces it with the new registration.

An H.323 endpoint may attempt to register with the Cisco VCS using an alias that has already been registered on the Cisco VCS from another IP address. The reasons for this could include:
n Two endpoints at different IP addresses are attempting to register using the same alias.
n A single endpoint has previously registered using a particular alias. The IP address allocated to the endpoint then changes, and the endpoint attempts to re-register using the same alias.
Reject is useful if your priority is to prevent two users registering with the same alias. Overwrite is useful if your network is such that endpoints are often allocated new IP addresses, because it will prevent unwanted registration rejections.

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Field

Description

Usage tips

Time to live

The interval (in seconds) at which an H.323 endpoint must re-register with the Cisco VCS in order to confirm that it is still functioning. Default is 1800.

Some older endpoints do not support the ability to periodically re-register with the system. In this case, and in any other situation where the system has not had a confirmation from the endpoint within the specified period, it will send an IRQ to the endpoint to verify that it is still functioning.

Call time to live

The interval (in seconds) at which the Cisco VCS polls the endpoints in a call to verify that they are still in the call. Default is 120.

If the endpoint does not respond, the call will be disconnected.
The system polls endpoints in a call regardless of whether the call type is traversal or non-traversal.

Auto discover

Determines whether it will respond to Gatekeeper Discovery Requests sent out by endpoints. The default is On.

To prevent H.323 endpoints being able to register automatically with the Cisco VCS, set Auto discover to Off. This means that endpoints can only register with the Cisco VCS if their Gatekeeper Discovery setting is Manual and they have been configured with the Cisco VCS's IP address.

Caller ID

Specifies whether the prefix of the ISDN gateway is inserted into the caller's E.164 number presented on the destination endpoint.

Including the prefix allows the recipient to directly return the call.

SIP configuration
The SIP page (VCS configuration > Protocols > SIP > Configuration) is used to enable and disable SIP on the Cisco VCS, and configure SIP-specific ports and settings.

Field

Description

Usage tips

SIP mode

Enables and disables SIP functionality (SIP

This mode must be enabled to

registrar and SIP proxy services) on the Cisco VCS. use either the Presence Server

Default is On.

or the Presence User Agent.

Registration The period within which a SIP endpoint must reexpire delta register with the Cisco VCS to prevent its (seconds) registration expiring. Default is 60.

This applies only to endpoints registered with the Cisco VCS. It does not apply to endpoints whose registrations are proxied through the Cisco VCS.

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Field

Description

Usage tips

SIP registration proxy mode

Specifies how proxied registrations and requests containing Route Sets are handled.
Off: registration requests are not proxied (but are still permitted locally if the Cisco VCS is authoritative for that domain). Requests with existing Route Sets are rejected.

Proxy to known only: registration requests are proxied in accordance with existing call processing rules, but only to known neighbor, traversal client and traversal server zones. Requests containing Route Sets are proxied only if they were received from a known zone.

Proxy to any: registration requests are proxied in accordance with existing call processing rules to all known zones. Requests containing Route Sets are always proxied.

Default is Off.

SIP protocols and ports
TCP outbound port start / end Session refresh interval (seconds) Minimum session refresh interval (seconds)

The Cisco VCS supports SIP over UDP, TCP and TLS transport protocols. You can configure whether or not incoming and outgoing connections using each protocol are supported, and if so, the ports on which the Cisco VCS listens for such connections.
This is done using the Mode and Port settings for each protocol. The default mode for each protocol is On; the default ports are:
n UDP port: 5060 n TCP port: 5060 n TLS port: 5061
The range of ports the Cisco VCS uses when TCP and TLS connections are established. The default range is 25000 to 29999.

At least one of the transport protocols must be set to a Mode of On for SIP functionality to be supported.
The range must be sufficient to support all required concurrent connections.

The maximum time allowed between session refresh requests for SIP calls. Default is 1800.

For further information refer to the definition of SessionExpires in RFC 4028 [14].

The minimum value the Cisco VCS will negotiate for For further information refer to

the session refresh interval for SIP calls. Default is the definition of Min-SE header

500.

in RFC 4028 [14].

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Field

Description

Usage tips

Require UDP BFCP mode
Require Duo Video mode

Controls whether the Cisco VCS requires the use of the com.tandberg.udp.bfcp extension for endpoints that support it.
Controls whether the Cisco VCS requires the use of the com.tandberg.sdp.duo.enable extension for endpoints that support it.

The default settings for these modes are not supported by some neighbor systems so make sure you select the appropriate zone profile when configuring zones.

Configuring SIP domains
The Domains page (VCS configuration > Protocols > SIP > Domains) lists the SIP domains for which the Cisco VCS is authoritative. The Cisco VCS will act as a SIP Registrar and Presence Server for these domains, and will accept registration requests for any SIP endpoints attempting to register with an alias that includes these domains.
The domain name can comprise multiple levels. Each level's name can only contain letters, digits and hyphens, with each level separated by a period (dot). A level name cannot start or end with a hyphen, and the final level name must start with a letter. An example valid domain name is 100.examplename.com.
Configuring SIP and H.323 interworking
The Interworking page (VCS configuration > Protocols > Interworking) lets you configure whether or not the Cisco VCS acts as a gateway between SIP and H.323 calls.
The Cisco VCS is able to act as a gateway between SIP and H.323, translating calls from one protocol to the other. This is known as "interworking".
By default, the Cisco VCS acts as a SIP-H.323 and H.323-SIP gateway but only if at least one of the endpoints that are involved in the call is locally registered. You can change this setting so that the Cisco VCS will act as a SIP-H.323 gateway regardless of whether the endpoints involved are locally registered. You also have the option to disable interworking completely.
The options for the H.323 <-> SIP interworking mode are:
n Off: the Cisco VCS will not act as a SIP-H.323 gateway. n Registered only: the Cisco VCS will act as a SIP-H.323 gateway but only if at least one of the
endpoints is locally registered. n On: the Cisco VCS will act as a SIP-H.323 gateway regardless of whether the endpoints are locally
registered.
You are recommended to leave this setting as Registered only (where calls are interworked only if at least one of the endpoints is locally registered). Unless your network is correctly configured, setting it to On (where all calls can be interworked) may result in unnecessary interworking, for example where a call between two H.323 endpoints is made over SIP, or vice versa.
Searching by protocol
When searching a zone, the Cisco VCS will first perform the search using the protocol of the incoming call. If the search was unsuccessful the Cisco VCS may then search the zone again using the alternative protocol, depending on where the search came from and the Interworking mode.
n If the request has come from a neighboring system and Interworking mode is set to Registered only, the Cisco VCS will search the local zone using both protocols, and all other zones using the

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native protocol only (because it will interwork the call only if one of the endpoints is locally registered). n If Interworking mode is set to On, or the request has come from a locally registered endpoint, the Cisco VCS will search the local zone and all external zones using both protocols.
Note: calls for which the Cisco VCS acts as a SIP to H.323 gateway are traversal calls. They will therefore require a traversal call license.
Enabling SIP endpoints to dial H.323 numbers
SIP endpoints can only make calls in the form of URIs - e.g. name@domain. If the caller does not specify a domain when placing the call, the SIP endpoint will automatically append its own domain to the number that is dialed.
So if you dial 123 from a SIP endpoint, the search will be placed for 123@domain. If the H.323 endpoint being dialed is just registered as 123, the Cisco VCS won't be able to locate the alias 123@domain and the call will fail. The solutions are to either:
n Ensure all your endpoints, both H.323 and SIP, register with an alias in the form name@domain. n Create a pre-search transform on the Cisco VCS that strips the @domain portion of the alias for
those URIs that are in the form of number@domain. Refer to the pre-search transforms section for information about how to configure pre-search transforms, and to the stripping @domain for dialing to H.323 numbers section for an example of how to do this.

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Registration control
This section provides information about the pages that appear under the VCS configuration > Registration menu.
It includes the following information:
n an overview of the Cisco VCS's registration policies n how to control registrations using Allow Lists and Deny Lists
About registrations
For an endpoint to use the Cisco VCS as its H.323 gatekeeper or SIP registrar, the endpoint must first register with the Cisco VCS. The Cisco VCS can be configured to control which devices are allowed to register with it by using the following mechanisms:
n a device authentication process based on the username and password supplied by the endpoint n a registration restriction policy that uses either Allow Lists or Deny Lists, the Cisco VCS's on-box
directory service or an external policy service to specify which aliases can and cannot register with the Cisco VCS n restrictions based on IP addresses and subnet ranges through the specification of subzone membership rules and subzone registration policies
You can use these mechanisms together. For example, you can use authentication to verify an endpoint's identity from a corporate directory, and registration restriction to control which of those authenticated endpoints may register with a particular Cisco VCS.
For specific information about how registrations are managed across peers in a cluster, see the Sharing registrations across peers section.
Finding a Cisco VCS with which to register
Before an endpoint can register with a Cisco VCS, it must determine which Cisco VCS it can or should be registering with. This setting is configured on the endpoint, and the process is different for SIP and H.323.
Registrations on a Cisco VCS Expressway
If a traversal-enabled endpoint registers directly with a Cisco VCS Expressway, the Cisco VCS Expressway will provide the same services to that endpoint as a Cisco VCS Control, with the addition of firewall traversal. Traversal-enabled endpoints include all Cisco TelePresence ExpresswayTM endpoints and third-party endpoints which support the ITU H.460.18 and H.460.19 standards.
Endpoints that are not traversal-enabled can still register with a Cisco VCS Expressway, but they may not be able to make or receive calls through the firewall successfully. This will depend on a number of factors:
n whether the endpoint is using SIP or H.323 n the endpoint's position in relation to the firewall n whether there is a NAT in use n whether the endpoint is using a public IP address
For example, if an endpoint is behind a NAT or firewall, it may not be able to receive incoming calls and may not be able to receive media for calls it has initiated. SIP endpoints can also work behind a NAT but can only receive video if they send it as well.
To ensure firewall traversal will work successfully for H.323 endpoints behind a NAT, the endpoint must be traversal-enabled.

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MCU, gateway and Content Server registration
H.323 systems such as gateways, MCUs and Content Servers can also register with a Cisco VCS. They are known as locally registered services. These systems are configured with their own prefix, which they provide to the Cisco VCS when registering. The Cisco VCS will then know to route all calls that begin with that prefix to the gateway, MCU or Content Server as appropriate. These prefixes can also be used to control registrations.
SIP devices cannot register prefixes. If your dial plan dictates that a SIP device should be reached via a particular prefix, then you should add the device as a neighbor zone with an associated search rule using a pattern match equal to the prefix to be used.
Note that the Cisco TelePresence MPS 200 and MPS 800, and the Cisco TelePresence Content Server both support Expressway. They can therefore register directly with a Cisco VCS Expressway for firewall traversal.

Configuring registration restriction policy
The Registration configuration page (VCS configuration > Registration > Configuration) is used to control how the Cisco VCS manages its registrations.
The Restriction policy option specifies the policy to use when determining which endpoints may register with the Cisco VCS. The options are:
n None: any endpoint may register. n Allow List: only those endpoints with an alias that matches an entry in the Allow List may register. n Deny List: all endpoints may register, unless they match an entry on the Deny List. n Directory: only endpoints that register an alias listed in the directory service may register. n Policy service: only endpoints that register with details allowed by the external policy service may
register.
The default is None.
If you use an Allow List or Deny List, you must also go to the appropriate Registration Allow List or Registration Deny List configuration page to create the list.

Policy service
The Policy service option is used if you want to refer all registration restriction policy decisions out to an external service.
If you select this option an extra set of configuration fields appear so that you can specify the connection details of the external service:

Field Protocol

Description
The protocol used to connect to the policy service.

Certificate verification mode

Controls whether the certificate presented by the policy service is verified when connecting over HTTPS.

Usage tips
The Cisco VCS automatically supports HTTP to HTTPS redirection when communicating with the policy service server.
When enabled, the value specified in the Server address field must be contained within the server's X.509 certificate (in either the Subject Common Name or the Subject Alternative Name attributes).

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Field
HTTPS certificate revocation list (CRL) checking

Description

Usage tips

Controls certificate revocation list checking of the certificate supplied by the policy service.
When enabled, the server's X.509 certificate is checked against the HTTPS certificate revocation list.

CRL data is uploaded to the Cisco VCS via the HTTPS certificate revocation list file on the Security certificates page.

Server address 1 3

The IP address or Fully Qualified Domain Name (FQDN) of the service.

For resiliency, up to three server addresses can be supplied.

Path

The URL of the service.

Username The username used by the Cisco VCS to log in and query the service.

Password

The password used by the Cisco VCS to log in and query the service. The maximum plaintext length is 30 characters (which is subsequently encrypted).

Default CPL The default CPL used by the Cisco VCS if the policy service is unavailable.

This defaults to <reject status='403' reason='Service Unavailable'/> but you could change it, for example, to redirect to an answer service or recorded message.

Registering aliases
After the device authentication process (if required) has been completed, the endpoint will then attempt to register its aliases with the Cisco VCS.
H.323
When registering, the H.323 endpoint presents the Cisco VCS with one or more of the following:
n one or more H.323 IDs n one or more E.164 aliases n one or more URIs
Users of other registered endpoints can then call the endpoint by dialing any of these aliases.
n You are recommended to register your H.323 endpoints using a URI. This facilitates interworking between SIP and H.323, as SIP endpoints register using a URI as standard.
n You are recommended to not use aliases that reveal sensitive information. Due to the nature of H.323, call setup information is exchanged in an unencrypted form.
SIP
When registering, the SIP endpoint presents the Cisco VCS with its contact address (IP address) and logical address (Address of Record). The logical address is considered to be its alias, and will generally be in the form of a URI.

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Attempts to register using an existing alias
An endpoint may attempt to register with the Cisco VCS using an alias that is already registered to the system. How this is managed depends on how the Cisco VCS is configured and whether the endpoint is SIP or H.323.
n H.323: an H.323 endpoint may attempt to register with the Cisco VCS using an alias that has already been registered on the Cisco VCS from another IP address. You can control how the Cisco VCS behaves in this situation by configuring the Registration conflict mode, on the H.323 page (VCS configuration > Protocols > H.323).
n SIP: a SIP endpoint will always be allowed to register using an alias that is already in use from another IP address. When a call is received for this alias, all endpoints registered using that alias will be called simultaneously. This SIP feature is known as "forking".
Blocking registrations
If you have configured the Cisco VCS to use a Deny List, you will have an option to block the registration. This will add all the aliases used by that endpoint to the Deny List.
Removing existing registrations
After a restriction policy has been activated, it controls all registration requests from that point forward. However, any existing registrations may remain in place, even if the new list would otherwise block them. Therefore, you are recommended to manually remove all existing unwanted registrations after you have implemented a restriction policy.
To manually remove a registration, go to Status > Registrations > By device, select the registrations you want to remove, and click Unregister.
If the registered device is in an active call and its registration is removed (or expires), the effect on the call is dependent on the protocol:
n H.323: the call is taken down. n SIP: the call stays up by default. This SIP behavior can be changed but only via the CLI by using
the command xConfiguration SIP Registration Call Remove.
Re-registrations
All endpoints must periodically re-register with the Cisco VCS in order to keep their registration active. If you do not manually delete the registration, the registration could be removed when the endpoint attempts to re-register, but this depends on the protocol being used by the endpoint:
n H.323 endpoints may use "light" re-registrations which do not contain all the aliases presented in the initial registration, so the re-registration may not get filtered by the restriction policy. If this is the case, the registration will not expire at the end of the registration timeout period and must be removed manually.
n SIP re-registrations contain the same information as the initial registrations so will be filtered by the restriction policy. This means that, after the list has been activated, all SIP registrations will disappear at the end of their registration timeout period.
The frequency of re-registrations is determined by the Registration expire delta setting for SIP (VCS configuration > Protocols > SIP > Configuration) and the Time to live setting for H.323 (VCS configuration > Protocols > H.323).

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About Allow and Deny Lists
When an endpoint attempts to register with the Cisco VCS it presents a list of aliases. One of the methods provided by the Cisco VCS to control which endpoints are allowed to register is to set the Restriction policy (on the Configuring registration restriction policy page) to Allow List or Deny List and then to include any one of the endpoint's aliases on the Allow List or the Deny List as appropriate. Each list can contain up to 2,500 entries.
When an endpoint attempts to register, each of its aliases is compared with the patterns in the relevant list to see if it matches. Only one of the aliases needs to appear in the Allow List or the Deny List for the registration to be allowed or denied.
For example, if the Restriction policy is set to Deny List and an endpoint attempts to register using three aliases, one of which matches a pattern on the Deny List, that endpoint's registration will be denied. Likewise, if the Restriction policy is set to Allow List, only one of the endpoint's aliases needs to match a pattern on the Allow List for it to be allowed to register using all its aliases.
Allow Lists and Deny Lists are mutually exclusive: only one may be in use at any given time. You can also control registrations at the subzone level. Each subzone's registration policy can be configured to allow or deny registrations assigned to it via the subzone membership rules.

Configuring the registration Allow List
The Registration Allow List page (VCS configuration > Registration > Allow List) shows the endpoint aliases and alias patterns that are allowed to register with the Cisco VCS. Only one of an endpoint's aliases needs to match an entry in the Allow List for the registration to be allowed.
To use the Allow List, you must select a Restriction policy of Allow List on the Registration configuration page.
The configurable options are:

Field Pattern
Type

Description

Usage tips

The pattern against which an alias is compared.

The way in which the Pattern must match the alias. Options are:
Exact: the alias must match the Pattern exactly.
Prefix: the alias must begin with the Pattern.
Suffix: the alias must end with the Pattern.
Regex: the Pattern is a regular expression.

You can test whether a pattern matches a particular alias by using the Check pattern tool (Maintenance > Tools > Check pattern).

Description An optional free-form description of the entry.

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Configuring the registration Deny List
The Registration Deny List page (VCS configuration > Registration > Deny List) shows the endpoint aliases and alias patterns that are not allowed to register with the Cisco VCS. Only one of an endpoint's aliases needs to match an entry in the Deny List for the registration to be denied.
To use the Deny List, you must select a Restriction policy of Deny List on the Registration configuration page.
The configurable options are:

Field Pattern
Type

Description

Usage tips

The pattern against which an alias is compared.

The way in which the Pattern must match the alias. Options are:
Exact: the alias must match the Pattern exactly.
Prefix: the alias must begin with the Pattern.
Suffix: the alias must end with the Pattern.
Regex: the Pattern is a regular expression.

You can test whether a pattern matches a particular alias by using the Check pattern tool (Maintenance > Tools > Check pattern).

Description An optional free-form description of the entry.

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Device authentication
This section provides information about the Cisco VCS's Authentication Policy and the pages that appear under the VCS configuration > Authentication menu.
It includes the following information:
n an overview of device authentication and how to configure the Cisco VCS's Authentication Policy n how to configure the Cisco VCS to authenticate endpoints against either the Cisco VCS's local
database or a remote LDAP database n how to configure the username and password that is used by the Cisco VCS whenever it is required
to authenticate with external systems
About device authentication
Device authentication controls whether systems attempting to communicate with the Cisco VCS must authenticate with it first.
The Cisco VCS can be configured to allow both authenticated and unauthenticated endpoints to register to the same Cisco VCS, but to subsequently control what those endpoints can do based upon their authentication status.
Authentication Policy
The Cisco VCS's Authentication Policy is applied at the zone and subzone levels. It controls how the Cisco VCS authenticates incoming messages from that zone or subzone and whether those messages are rejected or are subsequently treated as authenticated or unauthenticated within the Cisco VCS.
The Authentication Policy settings allow you to:
n control registrations via subzones: when authentication is enabled for a particular subzone, endpoints must authenticate with the Cisco VCS before they can register
n limit the services available to unregistered or unauthenticated endpoints and devices: search rules and CPL can be restricted to only apply to authenticated requests
n cater for endpoints from third-party suppliers that do not support authentication within their registration mechanism: assign registrations requests for particular devices into a subzone that is configured to treat all such trusted endpoints registered within that subzone as authenticated
See Authentication Policy configuration options for a full description of how the policy is applied per zone and subzone, and how its behavior varies depending on message protocol.
Authentication mechanism
The authentication process uses a username and password-based challenge-response scheme to check a device's credentials.
The actual mechanism used by the device to supply its credentials to the Cisco VCS depends on the protocol being used:
n H.323: any necessary credentials are contained within the incoming request. n SIP: credentials are not contained within the initial request. Instead the Cisco VCS sends a
challenge back to the sender that asks for its credentials. However, if a SIP message has already been authenticated (for example by another Cisco VCS on a previous hop), that system may insert information into the SIP message to show that it has been authenticated. You can control whether the Cisco VCS chooses to trust any authentication carried out at an earlier stage by configuring a zone's SIP authentication trust setting.

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The Cisco VCS can check the credentials supplied within the message against either a local database or a remote LDAP repository. See Device authentication configuration for more information.
Note: accurate timestamps play an important part in authentication, helping to guard against replay attacks. For this reason, if you are using device authentication, both the Cisco VCS and the endpoints must use an NTP server to synchronize their system time.

Authentication Policy configuration options
The Authentication Policy behavior varies for H.323 messages, SIP messages received from local domains and SIP messages from non-local domains. The following tables summarize the policy behavior when applied at the zone and subzone level, and how it varies depending on the message protocol.

Zone-level Authentication Policy
The Cisco VCS's Authentication Policy at the zone level controls how the Cisco VCS authenticates incoming messages from that zone. Note that the Authentication Policy is configurable for the Default Zone but does not apply to DNS and ENUM zones.
To configure a zone's Authentication policy, go to the Edit zone page (VCS configuration > Zones, then click View/Edit or the name of the zone). The policy is set to Do not check credentials by default.
The behavior varies for H.323 and SIP messages as shown in the tables below:
H.323

Authentication Behavior policy

Check credentials

Messages are classified as either authenticated or unauthenticated depending on whether any credentials in the message can be verified against the authentication database.
If no credentials are supplied, the message is always classified as unauthenticated.

Do not check credentials
Treat as authenticated

Message credentials are not checked and all messages are classified as unauthenticated.
Message credentials are not checked and all messages are classified as authenticated.

SIP
The behavior for SIP messages at the zone level depends upon the SIP authentication trust mode setting (meaning whether the Cisco VCS trusts any pre-existing authenticated indicators - known as P-Asserted-Identity headers - within the received message) and whether the message was received from a local domain (a domain for which the Cisco VCS is authoritative) or a non-local domain.

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Authentication Trust policy

Check

Off

credentials

On

Do not check Off credentials
On

In local domain

Outside local domain

Messages are challenged for authentication.

Messages are not challenged for authentication.

Messages that fail authentication are All messages are classified as

rejected.

unauthenticated.

Messages that pass authentication are classified as authenticated and a P-Asserted-Identity header is inserted into the message.

Any existing P-Asserted-Identity headers are removed.

Messages with an existing PAsserted-Identity header are classified as authenticated, without further challenge. The P-AssertedIdentity header is passed on unchanged (keeping the originator's asserted ID).
Messages without an existing PAsserted-Identity header are challenged. If authentication passes, the message is classified as authenticated and a P-AssertedIdentity header is inserted into the message. If authentication fails, the message is rejected.

Messages are not challenged for authentication.
Messages with an existing PAsserted-Identity header are classified as authenticated, and the header is passed on unchanged.
Messages without an existing PAsserted-Identity header are classified as unauthenticated.

Messages are not challenged for authentication.
All messages are classified as unauthenticated.
Any existing P-Asserted-Identity headers are removed.

Messages are not challenged for authentication.
All messages are classified as unauthenticated.
Any existing P-Asserted-Identity headers are removed.

Messages are not challenged for authentication.
Messages with an existing PAsserted-Identity header are classified as authenticated, and the header is passed on unchanged.
Messages without an existing PAsserted-Identity header are classified as unauthenticated.

Messages are not challenged for authentication.
Messages with an existing PAsserted-Identity header are classified as authenticated, and the header is passed on unchanged.
Messages without an existing PAsserted-Identity header are classified as unauthenticated.

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Authentication Trust policy

Treat as

Off

authenticated

On

In local domain

Outside local domain

Messages are not challenged for authentication.
All messages are classified as authenticated.
Any existing P-Asserted-Identity header is removed and a new one containing the Cisco VCS's originator ID is inserted into the message.

Messages are not challenged for authentication.
All messages are classified as unauthenticated.
Any existing P-Asserted-Identity headers are removed.

Messages are not challenged for authentication.
All messages are classified as authenticated.
Messages with an existing PAsserted-Identity header are passed on unchanged. Messages without an existing P-Asserted-Identity header have one inserted.

Messages are not challenged for authentication.
Messages with an existing PAsserted-Identity header are classified as authenticated, and the header is passed on unchanged.
Messages without an existing PAsserted-Identity header are classified as unauthenticated.

Subzone-level Authentication Policy
The Cisco VCS's Authentication Policy at the subzone level controls how the Cisco VCS authenticates incoming messages (including registration requests) from that subzone.
To configure a subzone's Authentication policy, go to the Edit subzone page (VCS configuration > Local Zone > Subzones, then click View/Edit or the name of the subzone). You can also configure the Default Subzone's Authentication policy. The policy is set to Do not check credentials by default.
The behavior varies for H.323 and SIP messages as shown in the tables below:
H.323

Authentication Behavior policy

Check credentials

Messages are classified as either authenticated or unauthenticated depending on whether any credentials in the message can be verified against the authentication database. Messages that pass authentication are classified as authenticated.
If no credentials are supplied, the message is always classified as unauthenticated.
Note that unauthenticated registration requests are rejected.

Do not check credentials
Treat as authenticated

Message credentials are not checked and all messages are classified as unauthenticated.
Message credentials are not checked and all messages are classified as authenticated.

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SIP
The behavior for SIP messages depends upon whether the message was received from a local domain (a domain for which the Cisco VCS is authoritative) or a non-local domain.

Authentication In local domain policy

Check credentials

Messages are challenged for authentication and those that pass are classified as authenticated.
Messages (including registration requests) that fail authentication are rejected.

Do not check credentials

Messages are not challenged for authentication.
All messages are classified as unauthenticated.

Outside local domain
SIP messages received from non-local domains are all treated in the same manner, regardless of the subzone's Authentication policy setting:
Messages are not challenged for authentication.
All messages are classified as unauthenticated.

Treat as authenticated

Messages are not challenged for authentication.
All messages are classified as authenticated.

SIP authentication trust
If a Cisco VCS is configured to use device authentication it will authenticate incoming SIP registration and INVITE requests. If the Cisco VCS then forwards the request on to a neighbor zone such as another Cisco VCS, that receiving system will also authenticate the request. In this scenario the message has to be authenticated at every hop.
To simplify this so that a device's credentials only have to be authenticated once (at the first hop), and to reduce the number of SIP messages in your network, you can configure neighbor zones to use the Authentication trust mode setting.
This is then used in conjunction with the zone's Authentication Policy to control whether preauthenticated SIP messages received from that zone are trusted and are subsequently treated as authenticated or unauthenticated within the Cisco VCS. Pre-authenticated SIP requests are identified by the presence of a P-Asserted-Identity field in the SIP message header as defined by RFC 3325 [35]
The Authentication trust mode settings are:
n On: pre-authenticated messages are trusted without further challenge and subsequently treated as authenticated within the Cisco VCS. Unauthenticated messages are challenged if the Authentication Policy is set to Check credentials.
n Off: any existing authenticated indicators (the P-Asserted-Identity header) are removed from the message. Messages from a local domain are challenged if the Authentication Policy is set to Check credentials.
Note: you are recommended to enable authentication trust only if the neighbor zone is part of a network of trusted SIP servers.

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Device authentication configuration
The Device authentication configuration page (VCS configuration > Authentication > Devices > Configuration) is used to control the type of database used by the Cisco VCS to store the authentication credentials used by systems and devices that attempt to communicate with the Cisco VCS.
Authentication database
To verify the identity of a device, the Cisco VCS needs access to a database on which all authentication credential information (usernames, passwords, and other relevant information) is stored. This database may be located either locally on the Cisco VCS, or on an LDAP Directory Server. The Cisco VCS looks up the endpoint's username in the database and retrieves the authentication credentials for that entry. If the credentials match those supplied by the endpoint, the registration is allowed to proceed.
The Database type setting determines which database the Cisco VCS uses during authentication:
n Local database: the local authentication database is used. You must configure the Local authentication database to use this option.
n LDAP database: a remote LDAP database is used. You must configure the LDAP server to use this option.
The default is Local database.
Note that:
n If the Cisco VCS is a traversal server, you must ensure that each traversal client's authentication credentials are entered into the selected database.
n The Cisco VCS supports the ITU H.235 [1] specification for authenticating the identity of H.323 network devices with which it communicates.
Endpoint credentials used for authentication
An endpoint must supply the Cisco VCS with a username and password if it is required to authenticate with the Cisco VCS, for example when attempting to register and the relevant subzone's Authentication Policy is set to Check credentials.
For Cisco endpoints using H.323, the username is typically the endpoint's Authentication ID; for Cisco endpoints using SIP it is typically the endpoint's Authentication username.
For details of how to configure endpoints with a username and password, please consult the endpoint manual.
Device authentication using LDAP
The Device LDAP configuration page (VCS configuration > Authentication > Devices > LDAP configuration) is used to configure a connection to the LDAP database used during device authentication.
Authentication process
If the Cisco VCS is using an LDAP server for authentication, the process is as follows:
1. The endpoint presents its username and authentication credentials (these are generated using its password) to the Cisco VCS, and the aliases with which it wants to register.
2. The Cisco VCS looks up the username in the LDAP database and obtains the authentication and alias information for that entry.

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3. If the authentication credentials match those supplied by the endpoint, the registration will continue.
The Cisco VCS then determines which aliases the endpoint is allowed to attempt to register with, based on the Alias origin setting. For H.323 endpoints, you can use this setting to override the aliases presented by the endpoint with those in the H.350 directory, or you can use them in addition to the endpoint's aliases. For SIP endpoints, you can use this setting to reject a registration if the endpoint's AOR does not match that in the LDAP database.
Configuring the LDAP server directory
The directory on the LDAP server should be configured to implement the ITU H.350 specification [2] to store credentials for devices with which the Cisco VCS communicates. The directory should also be configured with the aliases of endpoints that will register with the Cisco VCS. See LDAP configuration for device authentication for instructions on configuring LDAP servers.

LDAP server settings
The configurable options are:

Field

Description

Usage tips

LDAP server

The IP address or FQDN (or server address, if a DNS Domain name has also been configured) of the LDAP server.

Port

The IP port of the LDAP server. Typically, non-

secure connections use 389 and secure

connections use 636. The default is 389.

Encryption Determines whether the connection to the LDAP server is encrypted using Transport Layer Security (TLS).
n TLS: TLS encryption is used for the connection to the LDAP server.
n Off: no encryption is used.
The default is Off.

If you are connecting to an LDAP database using TLS encryption, you need to upload the trusted CA certificate for the LDAP server. Click Upload a CA certificate file for TLS to go to the Security certificates page.

User DN

The user distinguished name used by the Cisco VCS when binding to the LDAP server.

Password The password used by the Cisco VCS when binding to the LDAP server.

Base DN

The area of the directory on the LDAP server to search for credential information. This should be specified as the Distinguished Name (DN) in the LDAP directory under which the H.350 objects reside.

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Field
Alias origin

Description

Usage tips

Determines how aliases are checked and registered. The options are:
n LDAP: for SIP registrations the AOR presented by the endpoint is registered providing it is listed in the LDAP database for the endpoint's username. For H.323 registrations: l At least one of the aliases presented by the endpoint must be listed in the LDAP database for that endpoint's username. If none of the presented aliases are listed it is not allowed to register. l The endpoint will register with all of the aliases (up to a maximum of 20) listed in the LDAP database. Aliases presented by the endpoint that are not in the LDAP database will not be registered. l If no aliases are listed in the LDAP database, the endpoint will register with all the aliases it presented. l If no aliases are presented by the endpoint, it will register with all the aliases listed in the LDAP database for its username.
n Combined: the aliases presented by the endpoint are used in addition to any listed in the LDAP database for the endpoint's username. In other words, this is the same as for LDAP, except that if an endpoint presents an alias that is not in the LDAP database, it will be allowed to register with that alias.
n Endpoint: the aliases presented by the endpoint are used; any in the LDAP database are ignored. If no aliases are presented by the endpoint, it is not allowed to register.

When Alias origin is LDAP, MCUs are treated as a special case. They register with the presented aliases and ignore any aliases in the LDAP database. (This is to allow MCUs to additively register aliases for conferences.)

The default is LDAP.

The current status of the connection to the specified LDAP server is displayed at the bottom of the page.
Note that if you want to use an LDAP database for device authentication, you must also go to the Authentication configuration page and select a Database type of LDAP database.
Device LDAP schemas
The Device LDAP schemas page (VCS configuration > Authentication > Devices > LDAP schemas) provides a set of .ldif files to be downloaded from the Cisco VCS and installed on the LDAP server.

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Click Download to display the required schema in your browser from where you can use the browser's Save As command to store it on your file system. See LDAP configuration for device authentication for more information.
Authentication using a local database
The Local authentication database page (VCS configuration > Authentication > Devices > Local database) page lists and allows you to manage the credentials stored in the local authentication database. The local authentication database is included as part of your Cisco VCS system. The database can hold up to 2,500 credentials, each consisting of a name and password. These credentials are used for device, traversal client and TURN client authentication. To add new credentials to the database, click New. The maximum plaintext length for a password is 128 characters, which is then encrypted. Note that: n The same credentials can be used by more than one endpoint - you do not need to have a separate
entry in the database for each endpoint. n To use the local authentication database, you must select a Database type of Local database on
the Device authentication configuration page. n If the Starter Pack option key is installed the local authentication database will include a pre-
configured set of authentication credentials. To ensure correct operation of the TURN server in conjunction with the Starter Pack, do not delete or modify the StarterPackTURNUser entry in the local authentication database.
Authenticating with external systems
The Outbound connection credentials page (VCS configuration > Authentication > Outbound connection credentials) is used to configure a username and password that the Cisco VCS will use whenever it is required to authenticate with external systems. For example, when the Cisco VCS is forwarding an invite from an endpoint to another Cisco VCS, that other system may have authentication enabled and will therefore require your local Cisco VCS to provide it with a username and password. Note that these settings are not used by traversal client zones. Traversal clients, which must always authenticate with traversal servers before they can connect, configure their connection credentials per traversal client zone.

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Zones and neighbors
This section describes how to configure zones and neighbors on the Cisco VCS (VCS configuration > Zones).
It includes the following information:
n an overview of your video communications network n ways of structuring a dial plan n an overview of the Local Zone and its subzones n how to configure different zone types
About your video communications network
The most basic implementation of a video communications network is a single Cisco VCS connected to the internet with one or more endpoints registered to it. However, depending on the size and complexity of your enterprise the Cisco VCS may be part of a network of endpoints, other Cisco VCSs and other network infrastructure devices, with one or more firewalls between it and the internet. In such situations you may want to apply restrictions to the amount of bandwidth used by and between different parts of your network.
This section will give you an overview of the different parts of the video communications network and the ways in which they can be connected. This information should allow you to configure your Cisco VCS to best suit your own infrastructure.
Example network diagram
The diagram below shows the different components of a Cisco VCS (i.e. subzones and zones) and how they interrelate. Using a Cisco VCS Control as the example Local Zone, it shows that it is made up of a number of subzones which are all connected by links. The Local Zone is also connected to external Cisco VCSs and to the internet via different types of zones.
All these components are described in more detail in the sections that follow.

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Structuring your dial plan
As you start deploying more than one Cisco VCS, it is useful to neighbor the systems together so that they can query each other about their registered endpoints. Before you start, you should consider how you will structure your dial plan. This will determine the aliases assigned to the endpoints, and the way in which the Cisco VCSs are neighbored together. The solution you choose will depend on the complexity of your system. Some possible options are described in the following sections.
Flat dial plan
The simplest approach is to assign each endpoint a unique alias and divide the endpoint registrations between the Cisco VCSs. Each Cisco VCS is then configured with all the other Cisco VCS as neighbor zones. When one Cisco VCS receives a call for an endpoint which is not registered with it, it will send out a Location Request to all the other neighbor Cisco VCSs.
While conceptually simple, this sort of flat dial plan does not scale very well. Adding or moving a Cisco VCS requires changing the configuration of every Cisco VCS, and one call attempt can result in a large number of location requests. This option is therefore most suitable for a deployment with just one or two Cisco VCSs plus its peers.
Structured dial plan
An alternative deployment would use a structured dial plan where endpoints are assigned an alias based on the system they are registering with.
If you are using E.164 aliases, each Cisco VCS would be assigned an area code. When the Cisco VCSs are neighbored together, each neighbor zone would have an associated search rule configured with its corresponding area code as a prefix (a Mode of Alias pattern match and a Pattern type of Prefix). That neighbor would then only be queried for calls to numbers which begin with its prefix.
In a URI based dial plan, similar behavior may be obtained by configuring search rules for each neighbor with a suffix to match the desired domain name.
It may be desirable to have endpoints register with just the subscriber number -- the last part of the E.164 number. In that case, the search rule could be configured to strip prefixes before sending the query to that zone.
A structured dial plan minimizes the number of queries issued when a call is attempted. However, it still requires a fully connected mesh of all Cisco VCSs in your deployment. A hierarchical dial plan can simplify this.
Hierarchical dial plan
In this type of structure one Cisco VCS is nominated as the central Cisco VCS for the deployment, and all other Cisco VCSs are neighbored with it alone.
The central Cisco VCS is configured with:
n each Cisco VCS as a neighbor zone n search rules for each zone that have a Mode of Alias pattern match and the target Cisco VCS's
prefix (as with the structured dial plan) as the Pattern string
Each Cisco VCS is configured with:
n the central Cisco VCS as a neighbor zone n a search rule with a Mode of Any alias and a Target of the central Cisco VCS
There is no need to neighbor the Cisco VCSs with each other. Adding a new Cisco VCS now only requires changing configuration on the new Cisco VCS and the central Cisco VCS.

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However, failure of the central Cisco VCS in this situation could cause significant disruption to communications. Consideration should be given to the use of clustering for increased resilience.
Note: for H.323 calls, if Optimal call routing is enabled you must ensure that all search rules are configured with a Source of Any. If the Source is configured to All zones, H.323 calls will fail to connect. This is because the H.323 SETUP message, having followed the optimized route established by the original LRQ or ARQ, will appear to the target Cisco VCS as coming from an unknown zone. SIP calls, however, are successfully routed if the search rule Source is All zones (because in SIP the search and call setup is combined into one message).
About the Local Zone and subzones
The collection of all endpoints, gateways, MCUs and Content Servers registered with the Cisco VCS makes up its Local Zone.
The Local Zone is divided into subzones. These include an automatically created Default Subzone and up to 1000 manually configurable subzones.
When an endpoint registers with the Cisco VCS it is allocated to an appropriate subzone based on subzone membership rules. These rules specify the range of IP addresses or alias pattern matches for each subzone. If an endpoint's IP address or alias does not match any of the membership rules, it is assigned to the Default Subzone.
The Local Zone may be independent of network topology, and may comprise multiple network segments. The Cisco VCS also has two special types of subzones:
n the Traversal Subzone, which is always present n the Cluster Subzone, which is always present but only used when your Cisco VCS is part of a
cluster
Bandwidth management
The Local Zone's subzones are used for bandwidth management. After you have set up your subzones you can apply bandwidth limits to:
n individual calls between two endpoints within the subzone n individual calls between an endpoint within the subzone and another endpoint outside of the
subzone n the total of calls to or from endpoints within the subzone
For full details of how to create and configure subzones, and apply bandwidth limitations to subzones including the Default Subzone and Traversal Subzone, see the Bandwidth control section.
Local Zone searches
One of the functions of the Cisco VCS is to route a call received from a locally registered endpoint or external zone to its appropriate destination. Calls are routed based on the address or alias of the destination endpoint.
The Cisco VCS searches for a destination endpoint in its Local Zone and its configured external zones. You can prioritize the order in which these zones are searched, and filter the search requests sent to each zone, based on the address or alias being searched for. This allows you to reduce the potential number of search requests sent to the Local Zone and out to external zones, and speed up the search process.
For further information about how to configure search rules for the Local Zone, see the Configuring search and zone transform rules section.

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About zones
A zone is a collection of endpoints, either all registered to a single system (for example a Cisco VCS, Gatekeeper, or Border Controller), or located in a certain way such as via an ENUM or DNS lookup. Zones are used to:
n control through links whether calls can be made between your local subzones and these other zones
n manage the bandwidth of calls between your local subzones and endpoints in other zones n search for aliases that are not registered locally n control the services available to endpoints within that zone through the Cisco VCS's Authentication
Policy
You can configure up to 1000 zones. Each zone is configured as one of the following zone types:
n Neighbor: a connection to a neighbor system of the local Cisco VCS. n Traversal client: the local Cisco VCS is a traversal client of the system being connected to, and
there is a firewall between the two. n Traversal server: the local Cisco VCS is a traversal server for the system being connected to, and
there is a firewall between the two. n ENUM: the zone contains endpoints discoverable by ENUM lookup. n DNS: the zone contains endpoints discoverable by DNS lookup.
The Cisco VCS also has a pre-configured Default Zone.
n See the Zone configuration section for information about the configuration options available for all zone types.
n See the Configuring search and zone transform rules section for information about including zones as targets for search rules.
Default Zone
Any incoming calls from endpoints or other devices that are unregistered or not recognized as belonging to the Local Zone or any of the existing configured zones are deemed to be coming from the Default Zone.
The Cisco VCS comes pre-configured with the Default Zone and default links between it and both the Default Subzone and the Traversal Subzone. The purpose of the Default Zone is to manage incoming calls from unrecognized endpoints to the Cisco VCS. You can do this by:
n deleting the default links; this prevents any incoming calls from unrecognized endpoints n applying pipes to the default links; this lets you control the bandwidth consumed by incoming calls
from unrecognized endpoints n configuring the Default Zone's Authentication Policy
Note that the Default Zone cannot be deleted and its only configurable option is its Authentication Policy setting.
Zone configuration
The Zones page (VCS configuration > Zones) lists all the zones that have been configured on the Cisco VCS, and lets you create, edit and delete zones.
To neighbor with another system (such as another Cisco VCS or gatekeeper), create a connection over a firewall to a traversal server or traversal client, or discover endpoints via an ENUM or DNS lookup, you must configure a zone on the local Cisco VCS. The Cisco VCS also has a pre-configured Default Zone which cannot be deleted.

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When adding a new zone you must specify its Type. The zone type indicates the nature of the connection and determines which configuration options are available. For traversal server zones, traversal client zones and neighbor zones this includes providing information about the neighbor system such as its IP address and ports.
Note: connections between the Cisco VCS and neighbor systems must be configured to use the same SIP transport type, that is they must both be configured to use TLS or both be configured to use TCP. In software versions prior to X5.1 a connection could be established if one system was configured to use TLS and the other used TCP. Any connection failures due to transport type mismatches are recorded in the Event Log.
After creating a zone you would normally make it a target of at least one of your zone policy search rules (VCS configuration > Dial plan > Search rules) otherwise search requests will not be sent to that zone.

Common zone configuration options
The zone configuration options depend upon the zone Type, however the following options apply to every zone type:

Field Description

Usage tips

Name The name acts as a unique identifier, allowing you to distinguish between zones of the same type.

Type The nature of the specified zone, in relation to the local Cisco VCS:

After a zone has been created, the Type cannot be changed.

Neighbor: connects the local Cisco VCS to a neighbor system.

Traversal client: connects the local Cisco VCS to a traversal server.

Traversal server: connects the local Cisco VCS Expressway to a traversal client.

ENUM: enables ENUM dialing via the local Cisco VCS.

DNS: enables the local Cisco VCS to locate endpoints and other systems by using DNS lookups.

Hop count

The hop count is the number of times a request will be forwarded to a neighbor gatekeeper or proxy (see the Hop counts section for more information). This field specifies the hop count to use when sending a search request to this particular zone.

If the search request was received from another zone and already has a hop count assigned, the lower of the two values is used.

Configuring neighbor zones
A neighbor zone could be a collection of endpoints registered to another system (such as a Cisco VCS, Gatekeeper, or Border Controller), or it could be a SIP device (for example Microsoft Office Communications Server (OCS) 2007). The other system or SIP device is referred to as a neighbor. Neighbors can be part of your own enterprise network, part of a separate network, or even standalone systems.
You create a neighbor relationship with the other system by adding it as a neighbor zone on your local Cisco VCS. After you have added it, you can:

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n query the neighbor about its endpoints n apply transforms to any requests before they are sent to the neighbor n control the bandwidth used for calls between your local Cisco VCS and the neighbor zone
Note that:
n neighbor zone relationship definitions are one-way; adding a system as a neighbor to your Cisco VCS does not automatically make your Cisco VCS a neighbor of that system
n inbound calls from any configured neighbor are identified as coming from that neighbor n systems that are configured as cluster peers (formerly known as Alternates) must not be configured
as neighbors to each other
The configurable options for a neighbor zone are:

Field

Description

Usage tips

Configuration section:

Name

The name acts as a unique identifier, allowing you to distinguish between zones of the same type.

Type

The nature of the specified zone, in relation to After a zone has been created, the

the local Cisco VCS. Select Neighbor.

Type cannot be changed.

Hop count

The hop count is the number of times a request will be forwarded to a neighbor gatekeeper or proxy (see the Hop counts section for more information). This field specifies the hop count to use when sending a search request to this particular zone.

If the search request was received from another zone and already has a hop count assigned, the lower of the two values is used.

H.323 section:

Mode

Determines whether H.323 calls are allowed to and from the neighbor system.

Port

Specifies the port on the neighbor system

This must be the same port

used for H.323 calls from the local Cisco

number as that configured on the

VCS.

neighbor system as its H.323 UDP

port. If the neighbor is another

Cisco VCS, this is the port found

under the VCS configuration >

Protocols > H.323 in the

Registration UDP Port field.

SIP section:

Mode

Determines whether SIP calls are allowed to and from the neighbor system.

Port

Specifies the port on the neighbor system

This must be the same port

used for SIP connections from the local

number as that configured on the

Cisco VCS.

neighbor system as its SIP TCP,

SIP TLS or SIP UDP listening port

(depending on which SIP

Transport mode is in use).

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Field

Description

Usage tips

Transport

Determines which transport type is used for SIP calls to and from the neighbor system. The default is TLS.

TLS verify mode

Controls whether the Cisco VCS performs X.509 certificate checking against the neighbor system when communicating over TLS.

If the neighbor system is another Cisco VCS, both systems can verify each other's certificate (known as mutual authentication). See TLS certificate verification of neighbor systems for more information.

Accept proxied registrations

Controls whether proxied SIP registrations routed through this zone are accepted.

This setting only applies to registration requests for a domain for which the Cisco VCS is acting as a Registrar. For requests for other domains the SIP registration proxy mode setting applies. See Proxying registration requests for more information.

Authentication section:

Authentication policy

Controls how the Cisco VCS authenticates incoming messages from this zone and whether they are subsequently treated as authenticated, unauthenticated, or are rejected. The behavior varies for H.323 messages, SIP messages that originate from a local domain and SIP messages that originate from non-local domains.

See Authentication Policy configuration options for more information.

SIP authentication trust mode

Controls whether authenticated SIP messages (ones containing a P-AssertedIdentity header) from this zone are trusted without further challenge.

See SIP authentication trust for more information.

Location section:

Location Peer 1 to Peer 6 address

The IP address or FQDN of the neighbor system. If the neighbor is a Cisco VCS cluster, this includes all of the peers in the cluster.

See Neighboring the local Cisco VCS to another Cisco VCS cluster for more information.

Advanced section:

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Field Zone profile

Description
Determines how the zone's advanced settings are configured.
Default: uses the factory defaults.
Custom: allows you to configure each setting individually.
Preconfigured profiles: choose one of the preconfigured profiles to automatically use the appropriate settings required for connections to that type of system.
The default is Default.

Usage tips
See Zone configuration: advanced settings for details on the Advanced settings.
Do not use the Custom option or configure the individual Advanced settings except on the advice of Cisco customer support.

Configuring traversal client zones
To traverse a firewall, the Cisco VCS must be connected with a traversal server (for example a Cisco VCS Expressway or a TANDBERG Border Controller).
In this situation your local Cisco VCS is a traversal client, so you create a connection with the traversal server by creating a traversal client zone on your local Cisco VCS. You then configure the client zone with details of the corresponding zone on the traversal server. (The traversal server must also be configured with details of the Cisco VCS client zone.)
After you have neighbored with the traversal server you can:
n use the neighbor as a traversal server n query the traversal server about its endpoints n apply transforms to any queries before they are sent to the traversal server n control the bandwidth used for calls between your local Cisco VCS and the traversal server
For full details on how traversal client zones and traversal server zones work together to achieve firewall traversal, see About firewall traversal.
An NTP server must be configured for traversal zones to work.
The configurable options for a traversal client zone are:

Field

Description

Usage tips

Configuration section:

Name

The name acts as a unique identifier, allowing you to distinguish between zones of the same type.

Type

The nature of the specified zone, in relation to After a zone has been created, the the local Cisco VCS. Select Traversal client. Type cannot be changed.

Hop count

The hop count is the number of times a request will be forwarded to a neighbor gatekeeper or proxy (see the Hop counts section for more information). This field specifies the hop count to use when sending a search request to this particular zone.

If the search request was received from another zone and already has a hop count assigned, the lower of the two values is used.

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Field

Description

Usage tips

Connection credentials section:

Username and Password

Traversal clients must always authenticate with traversal servers by providing their authentication credentials. Each traversal client zone must specify a Username and Password to be used for authentication with the traversal server.

Multiple traversal client zones can be configured on a Cisco VCS, each with distinct credentials, to connect to one or more service providers.

H.323 section:

Mode

Determines whether H.323 calls are allowed to and from the traversal server.

Protocol

Determines which of the two firewall traversal See Firewall traversal protocols

protocols (Assent or H.460.18) to use for

and ports for more information.

calls to the traversal server.

Port

The port on the traversal server to use for

For firewall traversal to work via

H.323 calls to and from the local Cisco VCS. H.323, the traversal server must

have a traversal server zone

configured on it to represent this

Cisco VCS, using this same port

number.

SIP section:

Mode

Determines whether SIP calls are allowed to and from the traversal server.

Port

The port on the traversal server to use for

For firewall traversal to work via

SIP calls to and from the Cisco VCS.

SIP, the traversal server must

This must be different from the listening ports used for incoming TCP, TLS and UDP SIP calls (typically 5060 and 5061).

have a traversal server zone configured on it to represent this Cisco VCS, using this same transport type and port number.

Transport

Determines which transport type is used for SIP calls to and from the traversal server. The default is TLS.

TLS verify mode

Controls X.509 certificate checking and mutual authentication between this Cisco VCS and the traversal server when communicating over TLS.

See TLS certificate verification of neighbor systems for more information.

Accept proxied registrations

Controls whether proxied SIP registrations routed through this zone are accepted.

This setting only applies to registration requests for a domain for which the Cisco VCS is acting as a Registrar. For requests for other domains the SIP registration proxy mode setting applies. See Proxying registration requests for more information.

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Field

Description

Usage tips

Poison mode

Determines if SIP requests sent to systems located via this zone are "poisoned" such that if they are received by this Cisco VCS again they will be rejected.

Authentication section:

Authentication policy

Controls how the Cisco VCS authenticates incoming messages from this zone and whether they are subsequently treated as authenticated, unauthenticated, or are rejected. The behavior varies for H.323 messages, SIP messages that originate from a local domain and SIP messages that originate from non-local domains.

See Authentication Policy configuration options for more information.

Client settings section:

Retry interval

The interval in seconds with which a failed attempt to establish a connection to the traversal server should be retried.

Location section:

Peer 1 to Peer The IP address or FQDN of the traversal

6 address

server.

n If the traversal server is a Cisco VCS Expressway cluster, this should include all of its peers.
n If the traversal server is a TANDBERG Border Controller, this should include all its Alternates.

See Neighboring the local Cisco VCS to another Cisco VCS cluster for more information.

Configuring traversal server zones
A Cisco VCS Expressway is able to act as a traversal server, providing firewall traversal on behalf of traversal clients (for example, Cisco VCS Controls or gatekeepers).
To act as a traversal server, the Cisco VCS Expressway must have a special type of two-way relationship with each traversal client. To create this connection, you create a traversal server zone on your local Cisco VCS Expressway and configure it with the details of the corresponding zone on the traversal client. (The client must also be configured with details of the Cisco VCS Expressway.)
After you have neighbored with the traversal client you can:
n provide firewall traversal services to the traversal client n query the traversal client about its endpoints n apply transforms to any queries before they are sent to the traversal client n control the bandwidth used for calls between your local Cisco VCS and the traversal client
Note: traversal client-server zone relationships must be two-way. For firewall traversal to work, the traversal server and the traversal client must each be configured with the other's details (see Quick guide to Cisco VCS traversal client - server configuration for more information). The client and server will then be able to communicate over the firewall and query each other. For full details on how

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traversal client zones and traversal server zones work together to achieve firewall traversal, see About firewall traversal.
An NTP server must be configured for traversal zones to work. The configurable options for a traversal server zone are:

Field

Description

Usage tips

Configuration section:

Name

The name acts as a unique identifier, allowing you to distinguish between zones of the same type.

Type

The nature of the specified zone, in relation to After a zone has been created, the

the local Cisco VCS. Select Traversal

Type cannot be changed.

server.

Hop count

The hop count is the number of times a request will be forwarded to a neighbor gatekeeper or proxy (see the Hop counts section for more information). This field specifies the hop count to use when sending a search request to this particular zone.

If the search request was received from another zone and already has a hop count assigned, the lower of the two values is used.

Connection credentials section:

Username

Traversal clients must always authenticate with traversal servers by providing their authentication credentials. The authentication username is the name that the traversal client must provide to the Cisco VCS Expressway.
n If the traversal client is a Cisco VCS, this must be its connection credentials Username as configured in its traversal client zone.
n If the traversal client is a TANDBERG Gatekeeper, this is its System Name.

There must also be an entry in the Cisco VCS Expressway's local authentication database for the client's authentication username and password. To check the list of entries and add it if necessary, go to the Local authentication database page. Either:
n click on the Add/Edit local authentication database link
n go to VCS configuration > Authentication > Local database

H.323 section:

Mode

Determines whether H.323 calls are allowed to and from the traversal client.

Protocol

Determines the protocol (Assent or H.460.18) to use to traverse the firewall/NAT.

See Firewall traversal protocols and ports for more information.

Port

The port on the local Cisco VCS Expressway

to use for H.323 calls to and from the

traversal client.

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Field

Description

Usage tips

H.460.19

Determines whether or not the same two

demultiplexing ports are used for media by two or more

mode

calls.

On: all calls from the traversal client use the same two ports for media.

Off: each call from the traversal client uses a separate pair of ports for media.

SIP section:

Mode

Determines whether SIP calls are allowed to and from the traversal client.

Port

The port on the local Cisco VCS Expressway This must be different from the

to use for SIP calls to and from the traversal listening ports used for incoming

client.

TCP, TLS and UDP SIP calls

(typically 5060 and 5061).

Transport

Determines which transport type is used for SIP calls to and from the traversal client. The default is TLS.

TLS verify mode and subject name

Controls X.509 certificate checking and mutual authentication between this Cisco VCS and the traversal client.
If TLS verify mode is enabled, a TLS verify subject name must be specified. This is the certificate holder's name to look for in the traversal client's X.509 certificate.

See TLS certificate verification of neighbor systems for more information.

Accept proxied registrations

Controls whether proxied SIP registrations routed through this zone are accepted.

This setting only applies to registration requests for a domain for which the Cisco VCS is acting as a Registrar. For requests for other domains the SIP Registration Proxy Mode setting applies. See Proxying registration requests for more information.

Poison mode

Determines if SIP requests sent to systems located via this zone are "poisoned" such that if they are received by this Cisco VCS again they will be rejected.

Authentication section:

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Field

Description

Usage tips

Authentication policy

Controls how the Cisco VCS authenticates incoming messages from this zone and whether they are subsequently treated as authenticated, unauthenticated, or are rejected. The behavior varies for H.323 messages, SIP messages that originate from a local domain and SIP messages that originate from non-local domains.

See Authentication Policy configuration options for more information.

UDP / TCP probes section:

UDP retry interval

The frequency (in seconds) with which the client sends a UDP probe to the Cisco VCS Expressway if a keep alive confirmation has not been received.

The default UDP and TCP probe retry intervals are suitable for most situations. However, if you experience problems with NAT bindings timing out, they may need to be changed.

UDP retry count

The number of times the client attempts to send a UDP probe to the Cisco VCS Expressway during call setup.

UDP keep alive interval

The interval (in seconds) with which the client sends a UDP probe to the Cisco VCS Expressway after a call is established, in order to keep the firewall's NAT bindings open.

TCP retry interval

The interval (in seconds) with which the traversal client sends a TCP probe to the Cisco VCS Expressway if a keep alive confirmation has not been received.

TCP retry count

The number of times the client attempts to send a TCP probe to the Cisco VCS Expressway during call setup.

TCP keep alive interval

The interval (in seconds) with which the traversal client sends a TCP probe to the Cisco VCS Expressway when a call is in place, in order to maintain the firewall's NAT bindings.

Configuring ENUM zones
ENUM zones allow you to locate endpoints via an ENUM lookup. You can create one or more search rules for ENUM zones based on the ENUM DNS suffix used and/or by pattern matching of the endpoints' aliases.
After you have configured one or more ENUM zones, you can:
n apply transforms to alias search requests directed to that group of endpoints n control the bandwidth used for calls between your local Cisco VCS and each group of ENUM
endpoints

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Full details of how to use and configure ENUM zones are given in the About ENUM dialing section. The configurable options for an ENUM zone are:

Field Description

Usage tips

Name The name acts as a unique identifier, allowing you to distinguish between zones of the same type.

Type The nature of the specified zone, in relation to the local Cisco VCS. Select ENUM.

After a zone has been created, the Type cannot be changed.

Hop count

The hop count is the number of times a request will be forwarded to a neighbor gatekeeper or proxy (see the Hop counts section for more information). This field specifies the hop count to use when sending a search request to this particular zone.

If the search request was received from another zone and already has a hop count assigned, the lower of the two values is used.

DNS The domain to be appended to the transformed E.164 suffix number to create an ENUM domain for which this zone is
queried.

H.323 Determines whether H.323 records are looked up for this mode zone.

SIP Determines whether SIP records are looked up for this mode zone.

Configuring DNS zones
DNS zones allow you to locate endpoints via a DNS lookup. You can create one or more search rules for DNS zones based on pattern matching of the endpoints' aliases.
After you have configured one or more DNS zones, you can:
n apply transforms to alias search requests directed to that group of endpoints n control the bandwidth used for calls between your local Cisco VCS and each group of DNS
endpoints
See About URI dialing for more information on configuring and using DNS zones.
The configurable options for a DNS zone are:

Field Description
Name The name acts as a unique identifier, allowing you to distinguish between zones of the same type.
Type The nature of the specified zone, in relation to the local Cisco VCS. Select DNS.

Usage tips
After a zone has been created, the Type cannot be changed.

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Field Description

Usage tips

Hop count

The hop count is the number of times a request will be forwarded to a neighbor gatekeeper or proxy (see the Hop counts section for more information). This field specifies the hop count to use when sending a search request to this particular zone.

If the search request was received from another zone and already has a hop count assigned, the lower of the two values is used.

H.323 Determines whether H.323 calls are allowed to mode systems and endpoints located using DNS
lookups via this zone.

SIP Determines whether SIP calls are allowed to mode systems and endpoints located using DNS
lookups via this zone.

TLS verify mode

Controls whether the Cisco VCS performs X.509 certificate checking against the destination system server returned by the DNS lookup.

This setting only applies if the DNS lookup specifies TLS as the required protocol. If TLS is not required then the setting is ignored. See TLS certificate verification of neighbor systems for more information.

Zone Determines how the zone's advanced settings profile are configured.
Default: uses the factory defaults.
Custom: allows you to configure each setting individually.
Preconfigured profiles: choose one of the preconfigured profiles to automatically use the appropriate settings required for connections to that type of system.
The default is Default.

See Zone configuration: advanced settings for details on the Advanced settings.
Do not use the Custom option or configure the individual Advanced settings except on the advice of Cisco customer support.

Zone configuration: advanced settings
The table below describes the Advanced and Custom zone configuration options. Some of these settings only apply to specific zone types.
Note: you should only use the Custom zone profile settings on the advice of Cisco customer support.

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Setting

Description

Default Applicable to

Zone profile

Determines how the zone's advanced settings are configured.
Default: uses the factory defaults.
Preconfigured profiles: alternatively, choose one of the preconfigured profiles to automatically use the appropriate settings required for connections to that type of system. The options include:

Default

Neighbor zones DNS zones

n Microsoft Office Communications Server 2007: (see the Cisco VCS Control interworking with Microsoft OCS deployment guide [24] for more information)
n Cisco Unified Communications Manager (see the Cisco Unified Communications Manager with Cisco VCS using a SIP trunk deployment guide [36] for more information)
n Nortel Communication Server 1000 n Cisco Advanced Media Gateway (see the Microsoft OCS
2007, Cisco VCS Control and Cisco AM GW deployment guide [37] for more information) n Non-registering device (typically used for non-gatekeeper devices such as an MCU)

Custom: allows you to configure each Advanced setting individually. These settings are listed in the remainder of this table below.

Monitor peer Specifies whether the Cisco VCS monitors the status of the Yes

status

zone's peers. If enabled, H.323 LRQs and/or SIP OPTIONS

are periodically sent to the peers. If a peer fails to respond, that

peer is marked as inactive. If all peers fail to respond the zone

is marked as inactive.

H.323

Determines what happens when the Cisco VCS receives an Off

searches are H.323 search, destined for this zone.

automatically responded to

Off: an LRQ message is sent to the zone.

On: searches are responded to automatically, without being

forwarded to the zone.

Neighbor zones
Neighbor zones

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Setting

Description

Default Applicable to

SIP searches Determines what happens when the Cisco VCS receives a

Off

are

SIP search that originated as an H.323 search.

automatically responded to

Off: a SIP OPTIONS or SIP INFO message is sent.

On: searches are responded to automatically, without being

forwarded.

This option should normally be left as the default Off. However, some systems such as Microsoft Office Communications Server (OCS) 2007 do not accept SIP OPTIONS messages, so for these zones it must be set to On. If you change this to On, you must also configure pattern matches to ensure that only those searches that actually match endpoints in this zone are responded to. If you do not, the search will not continue to other lower-priority zones, and the call will be forwarded to this zone even if it cannot support it.

Neighbor zones DNS zones

Empty INVITE allowed

Determines whether the Cisco VCS generates a SIP INVITE On message with no SDP to send via this zone. INVITES with no SDP mean that the destination device is asked to initiate the codec selection, and are used when the call has been interworked locally from H.323.
On: SIP INVITEs with no SDP are generated.
Off: SIP INVITEs are generated and a pre-configured SDP is inserted before the INVITEs are sent.
In most cases this option should normally be left as the default On. However, some systems such as Microsoft OCS 2007 do not accept invites with no SDP, so for these zones this should be set to Off.
Note that the settings for the pre-configured SDP are configurable via the CLI using the xConfiguration Zones Zone [1..1000] DNS Interworking SIP commands. They should only be changed on the advice of Cisco customer support.

Neighbor zones DNS zones

SIP poison On: SIP requests sent to systems located via this zone are

Off

mode

"poisoned" such that if they are received by this Cisco VCS

again they will be rejected.

Off: SIP requests sent out via this zone that are received by this Cisco VCS again will not be rejected; they will be processed as normal.

Neighbor zones Traversal clients Traversal servers DNS zones

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Setting
SIP encryption mode

Description
Determines whether or not the Cisco VCS allows encrypted SIP calls on this zone. Auto: SIP calls are encrypted if a secure SIP transport (TLS) is used. Microsoft: SIP calls are encrypted using MS-SRTP. Off: SIP calls are never encrypted. This option should normally be left as the default Auto. However, this must be set to Microsoft for Microsoft Office Communications Server (OCS) 2007 zones.

Default Applicable to

Auto

Neighbor zones

SIP SDP

Determines whether requests containing SDP sent out to this Off

attribute line zone have the length of a=fmtp lines restricted.

limit mode On: the length is truncated to the maximum length specified

by the SIP SDP attribute line limit length setting.

Off: the length is not truncated.

The SIP SDP attribute line limit option should normally be left as the default of Off. However, some systems such as Microsoft OCS 2007 cannot handle attribute lines longer than 130 characters, so it must be set to On for connections to these systems.

Neighbor zones DNS zones

SIP SDP

If SIP SDP attribute line limit mode is set to On, sets the 130

attribute line maximum line length of a=fmtp SDP lines.

limit length

Neighbor zones DNS zones

SIP multipart Controls whether or not multipart MIME stripping is performed Off

MIME strip on requests from this zone.

mode

This option should normally be left as the default Off.

However, it must be set to On for connections to a Microsoft

OCS 2007 Release 2 system.

Neighbor zones

SIP UPDATE Controls whether or not the Cisco VCS strips the UPDATE Off strip mode method from the Allow header of all requests and responses
received from, and sent to, this zone.
This option should normally be left as the default Off. However, some systems such as Microsoft OCS 2007 do not support the UPDATE method in the Allow header, so for these zones this should be set to On.

Neighbor zones

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Setting

Description

Interworking SIP search strategy

Determines how the Cisco VCS searches for SIP endpoints when interworking an H.323 call.
Options: the Cisco VCS sends an OPTIONS request.

Info: the Cisco VCS sends an INFO request.

This option should normally be left as the default Options. However, some endpoints such as Microsoft Office Communicator (MOC) clients cannot respond to OPTIONS requests, so this must be set to Info for connections to a Microsoft OCS 2007 system.

Default Applicable to
Options Neighbor zones

SIP

Determines whether INVITE requests sent to this zone filter Off

UDP/BFCP out UDP/BFCP. This option may be required to enable

filter mode interoperability with SIP devices that do not support the

UDP/BFCP protocol, so this must be set to On for

connections to a Cisco Unified Communications Manager.

On: any media line referring to the UDP/BFCP protocol is replaced with TCP/BFCP and disabled.

Off: INVITE requests are not modified.

Neighbor zones DNS zones

SIP Duo

Determines whether INVITE requests sent to this zone filter Off

Video filter out Duo Video. This option may be required to enable

mode

interoperability with SIP devices that do not support Duo

Video, so this must be set to On for connections to a Cisco

Unified Communications Manager.

On: the second video line in any outgoing INVITE request is removed.

Off: INVITE requests are not modified.

Neighbor zones DNS zones

SIP record Controls whether the Cisco VCS uses its IP address or host IP

route

name in the record-route or path headers of outgoing SIP

address type requests to this zone.

IP: uses the Cisco VCS's IP address.

Hostname: uses the Cisco VCS's Local host name (if it is blank the IP address is used instead).

Neighbor zones DNS zones

SIP ProxyRequire header strip list

A comma-separated list of option tags to search for and remove from Proxy-Require headers in SIP requests received from this zone.

None

Neighbor zones

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Setting
Include address record

Description

Default Applicable to

Determines whether, if no NAPTR (SIP) or SRV (SIP and

Off

H.323) records have been found for the dialed alias via this

zone, the Cisco VCS will then query for A and AAAA DNS

records before moving on to query lower priority zones. If A

and AAAA records exist at the same domain for systems

other than those that support SIP or H.323, this may result in

the Cisco VCS believing the search was successful and

forwarding calls to this zone, and the call will fail.

On: the Cisco VCS queries for A or AAAA records. If any are found, the Cisco VCS will not then query any lower priority zones.

Off: the Cisco VCS will not query for A and AAAA records and instead will continue with the search, querying the remaining lower priority zones.

DNS zones

Zone configuration: pre-configured profile settings
The table below shows the advanced zone configuration option settings that are automatically applied for each of the pre-configured profiles.

Setting

Microsoft Office Communications Server 2007

Cisco Unified Communications Manager

Nortel Communication Server 1000

Cisco Advanced Media Gateway

Monitor peer

Yes

Yes

Yes

Yes

status

H.323 searches Off

Off

Off

Off

are

automatically

responded to

SIP searches Off

Off

Off

Off

are

automatically

responded to

Empty INVITE Off

On

On

On

allowed

SIP poison

On

Off

Off

Off

mode

SIP encryption Microsoft mode

Auto

Auto

Auto

SIP SDP

On

Off

Off

Off

attribute line limit

mode

Nonregistering device No On
On
On Off Auto Off

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Setting

Microsoft Office Communications Server 2007

Cisco Unified Communications Manager

Nortel Communication Server 1000

Cisco Advanced Media Gateway

SIP SDP

130

130

130

130

attribute line limit

length

SIP multipart On

Off

Off

Off

MIME strip

mode

SIP UPDATE On

On

On

On

strip mode

Interworking SIP Info search strategy

Options

Options

Options

SIP UDP/BFCP Off

On

Off

Off

filter mode

SIP Duo Video On

Off

Off

Off

filter mode

SIP record route Hostname

IP

address type

IP

IP

SIP ProxyRequire header strip list

<blank>

<blank>

"com. nortelnetworks. firewall"

<blank>

Nonregistering device 130
Off
Off Options Off Off IP <blank>

TLS certificate verification of neighbor systems
When a SIP TLS connection is established between a Cisco VCS and a neighbor system, the Cisco VCS can be configured to check the X.509 certificate of the neighbor system to verify its identity. You do this by configuring the zone's TLS verify mode setting.
If TLS verification is enabled, the neighbor system's FQDN or IP address, as specified in the Peer address field of the zone's configuration, is used to verify against the certificate holder's name contained within the X.509 certificate presented by that system. (The name has to be contained in either the Subject Common Name or the Subject Alternative Name attributes of the certificate.) The certificate itself must also be valid and signed by a trusted certificate authority.
Note that for traversal server zones, the FQDN or IP address of the connecting traversal client is not configured, so the required certificate holder's name is specified separately.
If the neighbor system is another Cisco VCS, or it is a traversal client / traversal server relationship, the two systems can be configured to authenticate each other's certificates. This is known as mutual authentication and in this case each Cisco VCS acts both as a client and as a server and therefore you must ensure that each Cisco VCS's certificate is valid both as a client and as a server.
See the Managing security certificates section for more information about certificate verification and for instructions on uploading the Cisco VCS's server certificate and uploading a list of trusted certificate authorities.

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Clustering and peers
This section describes how to set up a cluster of Cisco VCS peers. Clustering is used to increase the capacity of your Cisco VCS deployment and to provide resiliency. The section includes:
n an overview of clustering n guidelines for setting up and maintaining a cluster n a list of configuration that is not replicated across cluster peers n a troubleshooting guide for cluster replication problems n how registrations and bandwidth are shared across peers n how clustering works with FindMe, Presence and Cisco TMS n the purpose of the cluster subzone n how to neighbor a local Cisco VCS or cluster to a remote Cisco VCS cluster
About clusters
A Cisco VCS can be part of a cluster of up to six Cisco VCSs. Each Cisco VCS in the cluster is a peer of every other Cisco VCS in the cluster. When creating a cluster, you define a cluster name and nominate one peer as the master from which all relevant configuration is replicated to the other peers in the cluster. Clusters are used to:
n increase the capacity of your Cisco VCS deployment compared with a single Cisco VCS n provide redundancy in the rare case that a Cisco VCS becomes unavailable (for example, due to a
network or power outage)
Peers share information with each other about their use of bandwidth, registrations, and user accounts. This allows the cluster to act as one large Cisco VCS Local Zone as shown in the example below.

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About the configuration master
All peers in a cluster must be configured identically for subzones, zones, links, pipes, authentication, bandwidth control and Call Policy. To achieve this, you define a cluster name and nominate one peer as the configuration master. Any configuration changes made to the master peer are then automatically replicated across all the other peers in the cluster.
You should make configuration changes on the master Cisco VCS. Any changes made on other peers are not reflected across the cluster, and will be overwritten the next time the master's configuration is replicated across the peers. The only exceptions to this are:
n some specific configuration items that are not replicated n user account details (you can maintain these on any peer)
You may need to wait up to one minute before changes are updated across all peers in the cluster.
Secure communication between peers
The Cisco VCS uses IPsec (Internet Protocol Security) to enable secure communication between each cluster peer. Authentication is carried out through the use of a pre-shared access key.
Each peer in the cluster must be configured with the IP address and associated access key of every other peer in that cluster.
Alternates
"Alternate" is an H.323 term for a system used to provide redundancy to a Primary gatekeeper, and prior to version X3.0 the Cisco VCS supported Alternates. From X3.0 onwards, redundancy (along with other features) is provided by clusters of peers, which support both H.323 and SIP and work as equals. However, peers may sometimes be referred to as Alternates. Also note that some versions of Cisco TMS refer to peers as "members".
Setting up a cluster
Before creating your cluster, ensure that all the Cisco VCSs to be added to the cluster:
n are using Cisco TMS version 12.6 or later as their external manager n have the same software version and option keys installed n each have a different system name n are configured with a working NTP server n each have a different LAN configuration (a different IPv4 address and a different IPv6 address,
where enabled) n have H.323 enabled (even if all endpoints in the cluster are SIP only, H.323 signaling is used for
endpoint location searching and sharing bandwidth usage information with other peers in the cluster) n have SSH enabled (data replication between peers uses SSH) n have access to the root account via SSH enabled
Then, to create your cluster you must first configure a master peer and then add the other peers into the cluster one-by-one.
You are recommended to backup your Cisco VCS data before setting up a cluster.
A full step-by-step guide on using the clustering script and configuring clusters is available in the Cluster creation and maintenance deployment guide [27].

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Maintaining a cluster
The Clustering page (VCS configuration > Clustering) lists the IP addresses of all the peers in the cluster, to which this Cisco VCS belongs, and identifies the master peer.
Cluster name
The Cluster name is used to identify one cluster of Cisco VCSs from another. Set it to the fully qualified domain name used in SRV records that address this Cisco VCS cluster, for example cluster1.example.com. If you are using FindMe and you change the Cluster name, you may need to reconfigure the user accounts. See the Clustering and FindMe section for further details.
Cluster pre-shared key
The Cisco VCS uses IPsec (Internet Protocol Security) to enable secure communication between each cluster peer. The Cluster pre-shared key is the common IPsec access key used by each peer to access every other peer in the cluster. n Each peer in the cluster must be configured with the same Cluster pre-shared key.
Setting configuration for the cluster
You should make configuration changes on the master Cisco VCS. Any changes made on other peers are not reflected across the cluster, and will be overwritten the next time the master's configuration is replicated across the peers. The only exceptions to this are: n some specific configuration items that are not replicated n user account details (you can maintain these on any peer -- FindMe data uses a different replication
mechanism) You may need to wait up to one minute before changes are updated across all peers in the cluster.
Adding and removing peers from a cluster
After a cluster has been set up you can add new peers to the cluster or remove peers from it. Instructions for this are contained in the Cluster creation and maintenance deployment guide [27].
Note: systems that are configured as peers must not also be configured as neighbors to each other, and vice versa.
If peers are deployed on different LANs, there must be sufficient connectivity between the networks to ensure a low degree of latency between the peers - a maximum delay of 15ms one way, 30ms roundtrip. Deploying all peers in a cluster on the same LAN means they can be configured with the same routing information such as local domain names and local domain subnet masks.
Changing the master peer
You should only need to change the Configuration master when: n the original master peer fails n you want to take the master Cisco VCS unit out of service

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Note that if the master fails, the remaining peers will continue to function normally, except they are no longer able to copy their configuration from the master so they may become out of sync with each other.
To change the master peer you must log in to every other Cisco VCS in the cluster and change the configuration master on each peer:
1. Log in to the Cisco VCS and go to the Clustering page (VCS configuration > Clustering). 2. Change the Configuration master to the peer you want to set as the new master (the numbers
match against the Peer IP address fields underneath). 3. Click Save. 4. Repeat this for every peer in the cluster, ensuring that you select the same new master on each
peer.
Note that during this process you may see warning messages raised on some peers about inconsistent master peer configuration. These warnings will be lowered when every peer in the cluster is configured with the new master.
Monitoring the status of the cluster
The status sections at the bottom of the Clustering page show you the current status of the cluster, and the time of the previous and next synchronization. From here you can also go to the TMS Agent replication status page. This shows the current status of the TMS Agent service and can be used to assist in troubleshooting replication problems.
Configuration that is not replicated across a cluster
Most items of configuration are replicated from the master to all peers, with the exceptions listed below.
System name
The system name is not replicated. It must be different for each peer in the cluster.
Administrator accounts
The password for the default admin administrator account is not replicated. Each peer can have a different password. Any other administrator accounts and passwords will be replicated from the master peer to all other peers.
Option keys
Option keys are not replicated. Each peer must have an identical set of option keys installed, but you must purchase these separately for each peer in the cluster.
Ethernet speed
The Ethernet speed is not replicated. Each peer may have slightly different requirements for the connection to their Ethernet switch.
IP configuration
LAN configuration is not replicated across peers. Each peer must have a different IPv4 address and a different IPv6 address.
n IP gateway configuration is not replicated. Each peer can use a different gateway. n IP routes (also known as static routes) are not replicated. If these are used, they can be different for
each peer.
Note that the IP protocol is replicated, because each peer must support the same protocols.
DNS configuration

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DNS servers are not replicated across peers - each peer can use a different set of DNS servers. However, the DNS domain name is replicated across peers.
Logging
The Event Log and Configuration Log on each peer will only report activity for that particular Cisco VCS. You are recommended to set up a remote syslog server to which the logs of all peers can be sent. This will allow you to have a global view of activity across all peers in the cluster. See the logging section for further details.
Conference Factory template
The template used by the Conference Factory application to route calls to the MCU is not replicated, as it must be unique for each peer in the cluster.
CA certificates
The security certificates and certificate revocation lists (CRLs) used by the Cisco VCS must be uploaded individually per peer.
Note: configuration data that is replicated across peers should not be modified on non-master peers. At best it will result in the changes being overwritten from the master; at worst it will cause cluster replication to fail.
Troubleshooting cluster replication problems
Cluster replication can fail for a variety of reasons. The most common problems are listed below, followed by instructions for resolving the problem:
NTP servers not configured and active on each cluster peer
1. For each peer in the cluster, go to the System > Time page. 2. Ensure the peer has a correctly configured and active NTP server.
Some peers have a different master peer defined
1. For each peer in the cluster, go to the VCS configuration > Clustering page. 2. Ensure each peer identifies the same Configuration master.
Cluster configuration script has not been run against each peer
1. For each peer in the cluster, go to the VCS configuration > Clustering page. 2. Enter the address of each of peer into the Peer IP address fields and configure the Configuration
master. Ensure each peer identifies the same Configuration master peer. 3. Log in to each peer as root (by default you can only do this using a serial connection or SSH) and
run the cluster configuration script. Full details on running this script and configuring clusters is available in the Cluster creation and maintenance deployment guide [27].
Note that cluster replication warnings can appear briefly while the cluster is initially being set up. These warnings are removed after the data has completed synchronizing and the cluster has stabilized. This takes approximately 3 minutes.
Unable to reach the cluster configuration master peer
The Cisco VCS operating as the master peer could be unreachable for many reasons, including:
n network access problems n Cisco VCS unit is powered down n incorrectly configured IP addresses n incorrectly configured IPsec keys - ensure each peer is configured with the same Cluster pre-
shared key value.

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"Manual synchronization of configuration is required" warnings are raised on peer Cisco VCSs
1. Log in to the peer as admin through the CLI (available by default over SSH and through the serial port).
2. Type xCommand ForceConfigUpdate.
This will delete the non-master Cisco VCS configuration and force it to update its configuration from the master Cisco VCS.
CAUTION: never issue this command on the master Cisco VCS, otherwise all configuration for the cluster will be lost.
Managing clusters and peers
Sharing registrations across peers
When one Cisco VCS in a cluster receives a search request (such as an LRQ, ARQ or an INVITE), it checks its own and its peers' registration databases before responding. This allows all endpoints in the cluster to be treated as if they were registered with a single Cisco VCS. Peers are periodically queried to ensure they are still functioning. To prevent delays during call setup, any nonfunctioning peers do not receive LRQs.
H.323 registrations
All the peers in a cluster share responsibility for their H.323 endpoint community. When an H.323 endpoint registers with one peer, it receives a registration response which contains a list of alternate gatekeepers, populated with a randomly ordered list of the IP addresses of all the other peers in that cluster. If the endpoint loses contact with the initial peer, it will seek to register with one of the other peers. The random ordering of the list of alternate peers ensures that endpoints that can only store a single alternate peer will failover evenly across the cluster.
Note: when using a cluster, you should change the registration Time to live on all peers in the cluster from the default 30 minutes to just a few minutes. This setting determines how often endpoints are required to re-register with their Cisco VCS, and reducing this to just a few minutes ensures that if one Cisco VCS becomes unavailable, the endpoint will quickly failover to one of its peers. To change this setting, go to VCS configuration > Protocols > H.323 > Gatekeeper > Time to live.
SIP registrations
Failover re-registration to a peer applies to H.323 re-registrations only. The SIP standard currently has no direct equivalent, but some SIP UAs including MoviTM v2.0 (or later) clients support similar functionality. If you configure such endpoints with a SIP server address that is an FQDN, and configure this FQDN to resolve to a round-robin DNS record populated with the IP addresses of all the peers in the cluster, then this could allow the endpoint to re-register with another peer if its connection to the original peer was lost.
Sharing bandwidth across peers
When clustering has been configured, all peers share the bandwidth available to the cluster. n Peers must be configured identically for all aspects of bandwidth control including subzones, links
and pipes.

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n Peers share their bandwidth usage information with all other peers in the cluster, so when one peer is consuming part or all of the bandwidth available within or from a particular subzone, or on a particular pipe, this bandwidth will not be available for other peers.
For general information on how the Cisco VCS manages bandwidth, see the bandwidth control section.
Cluster upgrades and downgrades
The clustering feature was introduced to the Cisco VCS in software release X3.0.
Upgrading from versions prior to X3.0 If you are upgrading from Cisco VCS software versions prior to X3.0 and want to implement clustering, you must: 1. Remove any existing Alternate configuration. 2. Upgrade all Cisco VCSs to be added to the cluster to the latest Cisco VCS software version. 3. Follow the steps outlined in Setting up a cluster. Downgrading See the Upgrade procedure section for details on restoring system configuration details.
Cluster backup and restore
The backup and restore process can be used to save and restore cluster configuration information.
Backing up a cluster The backup process saves all configuration information for the cluster, regardless of the Cisco VCS used to make the backup.
Restoring a cluster You cannot restore data to a Cisco VCS that is a part of a cluster. To restore previously backed up cluster configuration data you must follow this process: 1. Remove a Cisco VCS peer from the cluster so that it becomes a standalone Cisco VCS. 2. Restore the configuration data to the standalone Cisco VCS. 3. Build a new cluster using the Cisco VCS that now has the restored data. 4. Take each of the other peers out of their previous cluster and add them to the new cluster. See
Setting up a cluster for more information about adding and removing cluster peers.
Clustering and FindMe
Clustering supports the use of FindMe. Each peer has its own FindMe database containing all user account information for the cluster. When a user account is created or edited on one peer, that peer shares the information about the changes to all other peers in the cluster, which then update their own FindMe databases accordingly.
Note: there is a limit of 10,000 FindMe user accounts per Cisco VCS cluster. Multiple clusters are required if you have more than 10,000 users.
The replication of FindMe database information uses a different mechanism (the TMS Agent) to that used to replicate configuration information. Configuration information must be changed on the master peer only, but changes to FindMe information can be made on any peer and will be shared with all other peers.

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If you are part of a large enterprise with, for example, Cisco TMS managing several Cisco VCS clusters, the FindMe database may contain details of users and devices in other Cisco VCS clusters. Different clusters are distinguished by their Cluster name (see below). You cannot modify the details of accounts that are not managed in your cluster.
Cluster name
You must define a Cluster name if you are using FindMe, even if the Cisco VCS is not part of a cluster.
If you change the cluster name after creating your user accounts you will have to reconfigure those accounts to associate them with the new cluster name. You can do this by running the transferfindmeaccounts script. Instructions for how to do this are contained in the FindMe deployment guide [29].
Alternatively, if you try to edit an account that belongs in a different cluster the system gives you an option to Move this account to local cluster. Selecting this option updates that particular account so that it now belongs to your local Cisco VCS cluster and hence lets you edit that account's details. See Maintaining a cluster for more information on configuring the cluster name.
Clustering and Presence
Clustering supports the use of Presence.
All peers in the cluster must have identical SIP domain, Presence Server and Presence User Agent (PUA) configuration.
If peers in the cluster have the PUA enabled, each peer publishes information about its own local registrations. This information is routed to a Presence Server authoritative for the cluster's domain.
If peers have the Presence Server enabled, the Presence database is replicated across all peers in the cluster.
When viewing presence status on a peer in a cluster:
n Publishers shows all presentities across the cluster for whom presence information is being published.
n Presentities shows any presentity for whom a subscription request has been received on the local Cisco VCS only.
n Subscribers shows each endpoint from which a subscription request has been received on the local Cisco VCS only.
Clustering and Cisco TMS
You are recommended to use Cisco TMS when running a cluster of Cisco VCSs. For full information, refer to the Cisco TMS documentation.
n Cisco TMS (version 12.5 or later) is mandatory if your cluster is configured to use FindMe or Device Provisioning.
If you were using Cisco TMS to manage a cluster running a version of the Cisco VCS software prior to X5, refer to the Cluster creation and maintenance deployment guide [27] for upgrade instructions.
In previous Cisco VCS releases, replication between peers was managed by Cisco TMS. From Cisco VCS version X4 onwards, replication is managed by the Cisco VCSs themselves.
About the Cluster Subzone
When two or more Cisco VCSs are clustered together, a new subzone is created within the cluster's Local Zone. This is the Cluster Subzone (see the diagram in the About clusters section). Any calls

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between two peers in the cluster will briefly pass via this subzone during call setup.
The Cluster Subzone is (like the Traversal Subzone) a virtual subzone used for call routing only, and endpoints cannot register to this subzone. After a call has been established between two peers, the Cluster Subzone will no longer appear in the call route and the call will appear as having come from (or being routed to) the Default Subzone.
The two situations in which a call will pass via the Cluster Subzone are:
n Calls between two endpoints registered to different peers in the cluster. For example, Endpoint A is registered in the Default Subzone to Peer 1. Endpoint B is also registered in the Default Subzone, but to Peer 2. When A calls B, the call route is shown on Peer 1 as Default Subzone -> Cluster Subzone, and on Peer 2 as Cluster Subzone -> Default Subzone.
n Calls received from outside the cluster by one peer, for an endpoint registered to another peer. For example, we have a single Cisco VCS for the Branch Office, which is neighbored to a cluster of 4 Cisco VCSs at the Head Office. A user in the Branch Office calls Endpoint A in the Head Office. Endpoint A is registered in the Default Subzone to Peer 1. The call is received by Peer 2, as it has the lowest resource usage at that moment. Peer 2 then searches for Endpoint A within the cluster's Local Zone, and finds that it is registered to Peer 1. Peer 2 then forwards the call to Peer 1, which forwards it to Endpoint A. In this case, on Peer 2 the call route will be shown as Branch Office -> Default Subzone -> Cluster Subzone, and on Peer 1 as Cluster Subzone -> Default Subzone.
Note that if Call routed mode is set to Optimal and the call is H.323, the call will not appear on Peer 2, and on Peer 1 the route will be Branch Office > DefaultSubzone.
Neighboring the local Cisco VCS to another Cisco VCS cluster
You can neighbor your local Cisco VCS (or Cisco VCS cluster) to a remote Cisco VCS cluster; this remote cluster could be a neighbor, traversal client, or traversal server to your local Cisco VCS. In this case, when a call is received on your local Cisco VCS and is passed via the relevant zone to the remote cluster, it will be routed to whichever peer in that neighboring cluster has the lowest resource usage. That peer will then forward the call as appropriate to one of its:
n locally registered endpoints (if the endpoint is registered to that peer) n peers (if the endpoint is registered to another peer in that cluster) n external zones (if the endpoint has been located elsewhere)
When configuring a connection to a remote cluster, you create a single zone and configure it with details of all the peers in the cluster. Adding this information to the zone ensures that the call is passed to that cluster regardless of the status of the individual peers.
You also need to enter the IP address of all peers in the remote cluster when the connection is via a neighbor or traversal client zone. You do not do this for traversal server zones, as these connections are not configured by specifying the remote system's IP address.
Note: systems that are configured as peers must not also be configured as neighbors to each other, and vice versa.
Configuration
To neighbor your local Cisco VCS (or Cisco VCS cluster) to a remote Cisco VCS cluster, you create a single zone to represent the cluster and configure it with the details of all the peers in that cluster:
1. On your local Cisco VCS (or, if the local Cisco VCS is a cluster, on the master peer), create a zone of the appropriate type. This zone will represent the connection to the cluster.
2. In the Location section, enter the IP address or FQDN of each peer in the remote cluster in the Peer 1 to Peer 6 address fields.
Note that:

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n Ideally you should use IP addresses in these fields. If you use FQDNs instead, each FQDN must be different and must resolve to a single IP address for each peer.
n The order in which the peers in the remote Cisco VCS cluster are listed here does not matter. n Whenever you add an extra Cisco VCS to a cluster (to increase capacity or improve redundancy,
for example) you will need to modify any Cisco VCSs which neighbor to that cluster to let them know about the new cluster peer.
TMS Agent replication status
The TMS Agent replication status page (VCS configuration > Clustering and then click View TMS Agent replication status) shows the current status of the TMS Agent service.
The status report is used to assist in troubleshooting replication problems. It lists each Cisco TMS and Cisco VCS server peer whose data (FindMe and Device Provisioning, and not Cisco VCS configuration) is being replicated between themselves by the TMS Agent service.
For each server the report indicates:
n the number of changes still to replicated to that server (and that have been applied to at least one of the other servers)
n the date of the oldest change still to be applied to that server n the port number being used for replication communication between the servers and whether that
communication is encrypted or not
Note that the TMS Agent replication status is only relevant if the Cisco VCS has the FindMe or Device Provisioning option keys enabled (as the TMS Agent service is not required otherwise).

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Dial plan and call processing
This section provides information about the pages that appear under the Calls, Dial plan, Transforms, Call Policy and Advanced Media Gateway sub-menus of the VCS Configuration menu. These pages are used to configure the way in which the Cisco VCS receives and processes calls.
This section includes:
n an overview of the Cisco VCS's call routing process n how hop counts affect the search process n how to configure the Cisco VCS's dial plan options n the pre-search transform process n the search and zone transform process n how to use Call Policy to manage calls n routing calls via the Cisco TelePresence Advanced Media Gateway n the different address dial formats that can be used to initiate a call n how to set up your network to handle incoming and outgoing calls made via URI dialing and ENUM
dialing n call signaling configuration options n how to identify calls n how to disconnect calls
Call routing process
One of the functions of the Cisco VCS is to route calls to their appropriate destination. It does this by processing incoming search requests in order to locate the given target alias. These search requests are received from:
n locally registered endpoints n neighboring systems, including neighbors, traversal clients and traversal servers n endpoints on the public internet
There are a number of steps involved in determining the destination of a call, and some of these steps can involve transforming the alias or redirecting the call to other aliases.
It is important to understand the process before setting up your dial plan so you can avoid circular references, where an alias is transformed from its original format to a different format, and then back to the original alias. The Cisco VCS is able to detect circular references. If it identifies one it will terminate that branch of the search and return a "policy loop detected" error message.
How the Cisco VCS determines the destination of a call
The process followed by the Cisco VCS when attempting to locate a destination endpoint is described below.
1. The caller enters into their endpoint the alias or address of the destination endpoint. This alias or address can be in a number of different address formats.
2. The destination address is sent from the caller's endpoint to its local Cisco VCS (the Cisco VCS to which it is registered).
3. Any pre-search transforms are applied to the alias. 4. Any Call Policy is applied to the (transformed) alias. If this results in a new alias, the process starts
again with the new alias checked against the pre-search transforms. 5. Any User Policy (if FindMe is enabled) is applied to the alias. If the alias is a FindMe ID that
resolves to one or more new aliases, the process starts again with all the resulting aliases checked against pre-search transforms and Call Policy. 6. The Cisco VCS then searches for the alias according to its search rules:
l A matching rule may apply a zone transform to the alias before sending the query on to its Target. A Target can be one of the following types:

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o Local Zone: the endpoints and devices registered to the Cisco VCS. o Neighbor zone: one of the Cisco VCS's configured external neighbor zones, or a DNS or
ENUM lookup zone. o Policy service: an external service or application, such as a Conference Factory. The
service will return some CPL which could, for example, specify the zone to which the call should be routed, or it could specify a new destination alias. 7. If the search returns a new URI or alias (for example, due to an ENUM lookup, or the response from a policy service), the process starts again: the new URI is checked against any pre-search transforms, Call Policy and User Policy are applied and a new Cisco VCS search is performed. 8. If the alias is found within the Local Zone, in one of the external zones, or a routing destination is returned by the policy service, the Cisco VCS attempts to place the call. 9. If the alias is not found, it responds with a message to say that the call has failed.

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About the Cisco VCS's directory service
The Cisco VCS's directory service is an on-box repository of dial plan information. It contains call routing information and can provide registration and call policy services. The directory service has no user configurable options on the Cisco VCS. The dial plan and policy information is managed on a separate dial plan server and its contents are be pushed out to all of its client Cisco VCSs. It is suited to large-scale deployments where a centrally-managed system can provide a comprehensive directory of aliases and their corresponding routing information. You can configure the Cisco VCS to use the directory service in the following areas: n Registration restriction policies: as an alternative to using Allow and Deny Lists n Call Policy configuration: where it can be applied in addition to locally-defined Call Policy
About hop counts
Each search request is assigned a hop count value by the system that initiates the search. Every time the request is forwarded to another neighbor gatekeeper or proxy, the hop count value is decreased by a value of 1. When the hop count reaches 0, the request will not be forwarded on any further and the search will fail. For search requests initiated by the local Cisco VCS, the hop count assigned to the request is configurable on a zone-by-zone basis. The zone's hop count applies to all search requests originating from the local Cisco VCS that are sent to that zone. Search requests received from another zone will already have a hop count assigned. When the request is subsequently forwarded on to a neighbor zone, the lower of the two values (the original hop count or the hop count configured for that zone) is used. For H.323, the hop count only applies to search requests. For SIP, the hop count applies to all requests sent to a zone (affecting the Max-Forwards field in the request). The hop count value can be between 1 and 255. The default is 15.
Note: if your hop counts are set higher than necessary, you may risk introducing loops into your network. In these situations a search request will be sent around the network until the hop count reaches 0, consuming resources unnecessarily. This can be prevented by setting the Call loop detection mode to On.
When dialing by URI or ENUM, the hop count used is that for the associated DNS or ENUM zone via which the destination endpoint (or intermediary SIP proxy or gatekeeper) was found.
Configuring hop counts
Hop counts are configured on a zone basis. To configure the hop count for a zone: 1. Go to the Zones page (VCS configuration > Zones). 2. Click on the name of the zone you want to configure. You are taken to the Edit zone page. 3. In the Configuration section, in the Hop count field, enter the hop count value you want to use for
this zone.
For full details on other zone options, see the Zone configuration section.
About transforms and search rules
The Cisco VCS can be configured to use transforms and search rules as a part of its call routing process.

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Transforms
Transforms are used to modify the alias in a search request if it matches certain criteria. You can transform an alias by removing or replacing its prefix, suffix, or the entire string, and by the use of regular expressions.
This transformation can be applied to the alias at two points in the routing process: as a pre-search transform, and as a zone transform.
n Pre-search transforms are applied before any Call Policy or User Policy are applied and before the search process is performed (see About pre-search transforms for more details).
n Zone transforms are applied during the search process by each individual search rule as required. After the search rule has matched an alias they can be used to change the target alias before the search request is sent to a target zone or policy service (see Search and zone transform process for more details).
Search rules
Search rules are used to route incoming search requests to the appropriate target zones (including the Local Zone) or policy services.
The Cisco VCS's search rules are highly configurable. You can:
n define alias, IP address and pattern matches to filter searches to specific zones or policy services n define the priority (order) in which the rules are applied and stop applying any lower-priority search
rules after a match is found; this lets you reduce the potential number of search requests sent out, and speed up the search process n set up different rules according to the source of the query (such as the Local Zone, or any known zone) n limit the range of destinations or network services available to unauthenticated devices by making specific search rules applicable to authenticated requests only n use zone transforms to modify an alias before the query is sent to a target zone or policy service
Note that multiple search rules can refer to the same target zone or policy service. This means that you can specify different sets of search criteria and zone transforms for each zone or policy service.
The Cisco VCS uses the protocol (SIP or H.323) of the incoming call when searching a zone for a given alias. If the search is unsuccessful the Cisco VCS may then search the same zone again using the alternative protocol, depending on where the search came from and the Interworking mode (VCS configuration > Protocols > Interworking):
n If the request has come from a neighboring system and Interworking mode is set to Registered only, the Cisco VCS searches the Local Zone using both protocols, and all other zones using the native protocol only (because it will interwork the call only if one of the endpoints is locally registered).
n If Interworking mode is set to On, or the request has come from a locally registered endpoint, the Cisco VCS searches the Local Zone and all external zones using both protocols.
Dial plan configuration
The Dial plan configuration page (VCS configuration > Dial plan> Configuration) is used to configure how the Cisco VCSroutes calls in specific call scenarios.
The configurable options are:

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Field

Description

Usage tips

Calls to unknown IP addresses

Determines the way in which the Cisco VCS attempts to call systems which are not registered with it or one of its neighbors.

Direct: allows an endpoint to make a call to an unknown IP address without the Cisco VCS querying any neighbors. The call setup would occur just as it would if the far end were registered directly to the local system.

Indirect: upon receiving a call to an unknown IP address, the Cisco VCS will query its neighbors for the remote address and if permitted will route the call through the neighbor.

This setting applies to the call's destination address prior to any zone transforms, but after any pre-search transforms, Call Policy or User Policy rules have been applied.
In addition to controlling calls, this setting also determines the behavior of provisioning and presence messages to SIP devices, as these messages are routed to IP addresses.
See the IP dialing section for more information.

Off: endpoints registered directly to the Cisco VCS may only call an IP address of a system also registered directly to that Cisco VCS.

The default is Indirect.

Fallback alias

The alias to which incoming calls are placed for calls where the IP address or domain name of the Cisco VCS has been given but no callee alias has been specified.

If no fallback alias is configured, calls that do not specify an alias will be disconnected. See below for more information.

About the fallback alias
The Cisco VCS could receive a call that is destined for it but which does not specify an alias. This could be for one of the following reasons:
n the caller has dialed the IP address of the Cisco VCS directly n the caller has dialed a domain name belonging to the Cisco VCS (either one of its configured SIP
domains, or any domain that has an SRV record that points at the IP address of the Cisco VCS), without giving an alias as a prefix
Normally such calls would be disconnected. However, such calls will be routed to the Fallback alias if it is specified.
Note that some endpoints do not allow users to enter an alias and an IP address to which the call should be placed.
Example usage
You may want to configure your fallback alias to be that of your receptionist, so that all calls that do not specify an alias are still answered personally and can then be redirected appropriately.
For example, Example Inc has the domain of example.com. The endpoint at reception has the alias [email protected]. They configure their Cisco VCS with a fallback alias of

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[email protected]. This means that any calls made directly to example.com (that is, without being prefixed by an alias), are forwarded to [email protected], where the receptionist can answer the call and direct it appropriately.
About pre-search transforms
The pre-search transform function allows you to modify the alias in an incoming search request. The transformation is applied by the Cisco VCS before any Call Policy or User Policy is applied, and before any searches take place.
n It applies to all incoming search requests received from locally registered endpoints, neighbor, traversal client and traversal server zones, and endpoints on the public internet.
n It does not apply to requests received from peers (which are configured identically and therefore will have already applied the same transform).
Each pre-search transform defines a string against which an alias is compared, and the changes to make to the alias if it matches that string.
After the alias has been transformed, it remains changed and all further call processing is applied to the new alias.
n Pre-search transforms are not applied to GRQ or RRQ messages received from endpoints registering with the Cisco VCS; endpoints will be registered with the aliases as presented in these messages.
n All peers in a cluster should be configured identically, including any pre-search transforms. A Cisco VCS in a cluster treats search requests from any of its peers as having come from its own Local Zone, and does not re-apply any pre-search transforms on receipt of the request.
Pre-search transform process
Up to 100 pre-search transforms can be configured. Each transform must have a unique priority number between 1 and 65534.
Every incoming alias is compared with each transform in order of priority, starting with that closest to 1. If and when a match is made, the transform is applied to the alias and no further pre-search checks and transformations of the new alias will take place. The new alias is then used for the remainder of the call routing process.
n Further transforms of the alias may take place during the remainder of the search process. This may be as a result of Call Policy (also known as Administrator Policy) or User Policy (if FindMe is enabled). If this is the case, the pre-search transforms are re-applied to the new alias.
n If you add a new pre-search transform that has the same priority as an existing transform, all transforms with a lower priority (those with a larger numerical value) will have their priority incremented by one, and the new transform will be added with the specified priority. However, if there are not enough "slots" left to move all the priorities down, you will get an error message.
Configuring pre-search transforms
The Transforms page (VCS configuration > Dial plan > Transforms) lists all the pre-search transforms currently configured on the Cisco VCS. It is used to create, edit, delete, enable and disable transforms.
Aliases are compared against each transform in order of Priority, until a transform is found where the alias matches the Pattern in the manner specified by the pattern Type. The alias is then transformed according to the Behavior and Replace rules.
After the alias has been transformed, it remains changed. and all further call processing is applied to the new alias.

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Note that the transforms also apply to any Publication, Subscription or Notify URIs handled by the Presence Services.
The configurable options are:

Field

Description

Usage tips

Priority

The priority of the transform. Priority can be from 1 to 65534, with 1 being the highest priority. Transforms are applied in order of priority, and the priority must be unique for each transform.

Description An optional free-form description of the transform.

The description appears as a tooltip if you hover your mouse pointer over a transform in the list.

Pattern type How the Pattern string must match the alias for the rule to be applied. Options are:
Exact: the entire string must exactly match the alias character for character.
Prefix: the string must appear at the beginning of the alias.
Suffix: the string must appear at the end of the alias.
Regex: treats the string as a regular expression.

You can test whether a pattern matches a particular alias and is transformed in the expected way by using the Check pattern tool (Maintenance > Tools > Check pattern).

Pattern string
Pattern behavior

Specifies the pattern against which the alias is compared.
Specifies how the matched part of the alias is modified. Options are:
Strip: the matching prefix or suffix is removed.
Replace: the matching part of the alias is substituted with the text in the Replace string.
Add Prefix: prepends the Additional text to the alias.
Add Suffix: appends the Additional text to the alias.

Replace string

The string to substitute for the part of the alias that matches the pattern.

Only applies if the Pattern behavior is Replace.
You can use regular expressions.

Additional The string to add as a prefix or suffix. text

Only applies if the Pattern behavior is Add Prefix or Add Suffix.

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Field State

Description Indicates if the transform is enabled or not.

Usage tips
When you are making or testing configuration changes to your transforms, you may want to temporarily enable or disable certain transforms. You can do this by selecting the transform's check box and clicking Enable or Disable as appropriate. Any disabled transforms still appear in the transforms list but are ignored by the Cisco VCS when processing search requests.

Click on the transform you want to configure (or click New to create a new transform, or click Delete to remove a transform).
Search and zone transform process
The search rules and zone transform process is applied after all pre-search transforms, Call Policy and User Policy have been applied.
The process is as follows:
1. The Cisco VCS applies the search rules in priority order (all rules with a priority of 1 are processed first, then priority 2 and so on) to see if the given alias matches the rules criteria based on the Source of the query and the rule Mode.
2. If the match is successful, any associated zone transform (where the Mode is Alias pattern match and the Pattern behavior is Replace or Strip) is applied to the alias.
3. The search rule's Target zone or policy service is queried (with the revised alias if a zone transform has been applied) using the same protocol (SIP or H.323) as the incoming call request. Note that if there are many successful matches for multiple search rules at the same priority level, every applicable Target is queried. l If the alias is found, the call is forwarded to that zone. If the alias is found by more than one zone, the call is forwarded to the zone that responds first. l If the alias is not found using the native protocol, the query is repeated using the interworked protocol, depending on the interworking mode. l If the search returns a new URI or alias (for example, due to an ENUM lookup, or the response from a policy service), the entire Call routing process starts again
4. If the alias is not found, the search rules with the next highest priority are applied (go back to step 1) until: l the alias is found, or l all target zones and policy services associated with search rules that meet the specified criteria have been queried, or l a search rule with a successful match has an On successful match setting of Stop searching
Note the difference between a successful match (where the alias matches the search rule criteria) and an alias being found (where a query sent to a target zone is successful). The Stop searching option provides better control over the network's signaling infrastructure. For example, if searches for a particular domain should always be routed to a specific zone this option lets you make the search process more efficient and stop the Cisco VCS from searching any other zones unnecessarily.

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Configuring search rules
The Search rules page (VCS configuration > Dial plan > Search rules) is used to configure how the Cisco VCS routes incoming search requests to the appropriate target zones (including the Local Zone) or policy services.
The page lists all the currently configured search rules and lets you create, edit, delete, enable and disable rules. You can click on a column heading to sort the list, for example by Target or Priority. If you hover your mouse pointer over a search rule, the rule description (if one has been defined) appears as a tooltip.
Up to 2000 search rules can be configured. Priority 1 search rules are applied first, followed by all priority 2 search rules, and so on.
The configurable options are:

Field Rule name Description
Priority

Description
A descriptive name for the search rule.
An optional free-form description of the search rule.
The order in the search process that this rule is applied, when compared to the priority of the other search rules. All Priority 1 search rules are applied first, followed by all Priority 2 search rules, and so on. More than one rule can be assigned the same priority, in which case any matching target zones are queried simultaneously. The default is 100.

Usage tips
The description appears as a tooltip if you hover your mouse pointer over a rule in the list.
The default configuration means that the Local Zone is searched first for all aliases. If the alias is not found locally, all neighbor, traversal client and traversal server zones are searched, and if they cannot locate the alias the request is sent to any DNS and ENUM zones.

Source

The sources of the requests for which this rule applies.
Any: locally registered devices, neighbor or traversal zones, and any non-registered devices.
All zones: locally registered devices plus neighbor or traversal zones.
Local Zone: locally registered devices only.

Request

Specifies whether the search rule

must be

applies only to authenticated search

authenticated requests.

This can be used in conjunction with the Cisco VCS's Authentication Policy to limit the set of services available to unauthenticated devices.

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Field Mode

Description
The method used to test if the alias applies to the search rule.
Alias pattern match: the alias must match the specified Pattern type and Pattern string.
Any alias: any alias (providing it is not an IP address) is allowed.
Any IP Address: the alias must be an IP address.

Usage tips

Pattern type

How the Pattern string must match the alias for the rule to be applied. Options are:
Exact: the entire string must exactly match the alias character for character.
Prefix: the string must appear at the beginning of the alias.
Suffix: the string must appear at the end of the alias.
Regex: treats the string as a regular expression.

Applies only if the Mode is Alias Pattern Match.
You can test whether a pattern matches a particular alias and is transformed in the expected way by using the Check pattern tool (Maintenance > Tools > Check pattern).

Pattern string

The pattern against which the alias is compared.

Applies only if the Mode is Alias Pattern Match.

Pattern behavior

Determines whether the matched part of the alias is modified before being sent to the target zone or policy service
Leave: the alias is not modified.
Strip: the matching prefix or suffix is removed from the alias.
Replace: the matching part of the alias is substituted with the text in the Replace string.

Applies only if the Mode is Alias Pattern Match.
If you want to transform the alias before applying search rules you must use presearch transforms.

Replace string

The string to substitute for the part of the Only applies if the Pattern behavior is

alias that matches the pattern.

Replace.

You can use regular expressions.

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Field On successful match
Target
State

Description

Usage tips

Controls the ongoing search behavior if the alias matches the search rule.
Continue: continue applying the remaining search rules (in priority order) until the endpoint identified by the alias is found.

If Stop is selected, any rules with the same priority level as this rule are still applied.

Stop: do not apply any more search rules, even if the endpoint identified by the alias is not found in the target zone.

The zone or policy service to query if the alias matches the search rule.

You can configure external policy services to use as a target of search rules. This could be used, for example, to call out to an external service or application, such as a Conference Factory. The service will return some CPL which could, for example, specify a new destination alias which would start the search process over again.

Indicates if the search rule is enabled or not.

When you are making or testing configuration changes to your search rules, you may want to temporarily enable or disable certain rules. You can do this by selecting the rule's check box and clicking Enable or Disable as appropriate. Any disabled rules still appear in the search rules list but are ignored by the Cisco VCS when processing search requests.

Click on the rule you want to configure (or click New to create a new rule, or click Delete to remove a rule).
You can test whether the Cisco VCS can find an endpoint identified by a given alias, without actually placing a call to that endpoint by using the Locate tool.
Example searches and transforms
You can use pre-search transforms and search rules separately or together. You can also define multiple search rules that use a combination of Any alias and Alias pattern match modes, and apply the same or different priorities to each rule. This will give you a great deal of flexibility in determining if and when a target zone is queried and whether any transforms are applied.
This section gives the following examples that demonstrate how you might use pre-search transforms and search rules to solve specific use cases in your deployment:
n Filter queries to a zone using the original alias n Always query a zone using the original alias n Always query a zone using a transformed alias n Query a zone using both the original and transformed alias n Query a zone using two or more different transformed aliases

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n Stripping the domain from an alias to allow dialing from SIP to H.323 numbers n Stripping the domain from an alias to allow dialing from SIP to H.323 IDs n Allow calls to IP addresses only if they come from known zones

Filter queries to a zone without transforming
It is possible to filter the search requests sent to a zone so that it is only queried for aliases that match certain criteria. For example, assume all endpoints in your regional sales office are registered to their local Cisco VCS with a suffix of @sales.example.com. In this situation, it makes sense for your Head Office Cisco VCS to query the Sales Office Cisco VCS only when it receives a search request for an alias with a suffix of @sales.example.com. Sending any other search requests to this particular Cisco VCS would take up resources unnecessarily. It would also be wasteful of resources to send search requests for aliases that match this pattern to any other zone (there may be other lower priority search rules defined that would also apply to these aliases). In which case setting On successful match to Stop means that the Cisco VCS will not apply any further (lower priority) search rules.
To achieve the example described above, on your Head Office Cisco VCS create a zone to represent the Sales Office Cisco VCS, and from the Create search rule page (VCS configuration > Dial plan > Search rules > New) set up an associated search rule as follows:

Field Rule name Description Priority Source Request must be authenticated Mode Pattern type Pattern string Pattern behavior On successful match Target State

Value Regional sales office Calls to aliases with a suffix of @sales.example.com 100 Any No
Alias pattern match Suffix @sales.example.com Leave Stop Sales office Enabled

Always query a zone with original alias (no transforms)
To configure a zone so that it is always sent search requests using the original alias, from the Create search rule page (VCS configuration > Dial plan > Search rules > New), set up a search rule for that zone with a Mode of Any alias:

Field Rule name

Value Always query with original alias

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Field Description Priority Source Request must be authenticated Mode On successful match Target State

Value Send search requests using the original alias 100 Any No
Any alias Continue Head office Enabled

Query a zone for a transformed alias
Note: the Any alias mode does not support alias transforms. If you want to always query a zone using a different alias to that received, you need to use a mode of Alias pattern match in combination with a regular expression.
You may want to configure your dial plan so that when a user dials an alias in the format [email protected] the Cisco VCS queries the zone for [email protected] instead.
To achieve this, from the Create search rule page (VCS configuration > Dial plan > Search rules > New) set up a search rule as follows:

Field Rule name Description Priority Source Request must be authenticated Mode Pattern type Pattern string Pattern behavior Replace string On successful match Target zone State

Value Transform to example.co.uk Transform example.com to example.co.uk 100 Any No
Alias pattern match Suffix example.com Replace example.co.uk Continue Head office Enabled

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Query a zone for original and transformed alias
You may want to query a zone for the original alias at the same time as you query it for a transformed alias. To do this, configure one search rule with a Mode of Any alias, and a second search rule with a Mode of Alias pattern match along with details of the transform to be applied. Both searches must be given the same Priority level.
For example, you may want to query a neighbor zone for both a full URI and just the name (the URI with the domain removed). To achieve this, on your local Cisco VCS from the Create search rule page (VCS configuration > Dial plan > Search rules > New) set up two search rules as follows:
Rule #1

Field Rule name Description Priority Source Request must be authenticated Mode On successful match Target zone State

Value Overseas office - original alias Query overseas office with the original alias 100 Any No
Any alias Continue Overseas office Enabled

Rule #2

Field Rule name Description Priority Source Request must be authenticated Mode Pattern type Pattern string Pattern behavior On successful match

Value Overseas office - strip domain Query overseas office with domain removed 100 Any No
Alias pattern match Suffix @example.com Strip Continue

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Field Target zone State

Value Overseas office Enabled

Query a zone for two or more transformed aliases
Zones are queried in order of priority of the search rules configured against them.
It is possible to configure multiple search rules for the same zone each with, for example, the same Priority and an identical Pattern string to be matched, but with a different replacement patterns. In this situation, the Cisco VCS queries that zone for each of the new aliases simultaneously. (Any duplicate aliases produced by the transforms are removed prior to the search requests being sent out.) If any of the new aliases are found by that zone, the call is forwarded to the zone. It is then up to the controlling system to determine the alias to which the call will be forwarded.
For example, you may want to configure your dial plan so that when a user dials an alias in the format [email protected]. the Cisco VCS queries the zone simultaneously for both [email protected] and [email protected].
To achieve this, from the Create search rule page (VCS configuration > Dial plan > Search rules > New) set up two search rules as follows:
Rule #1

Field Rule name Description Priority Source Request must be authenticated Mode Pattern type Pattern string Pattern behavior Replace string On successful match Target zone State

Value Transform to example.co.uk Transform example.com to example.co.uk 100 Any No
Alias pattern match Suffix example.com Replace example.co.uk Continue Head office Enabled

Rule #2

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Field Rule name Description Priority Source Request must be authenticated Mode Pattern type Pattern string Pattern behavior Replace string On successful match Target zone State

Value Transform to example.net Transform example.com to example.net 100 Any No
Alias pattern match Suffix example.com Replace example.net Continue Head office Enabled

Stripping @domain for dialing to H.323 numbers
SIP endpoints can only make calls in the form of URIs - for example name@domain. If the caller does not specify a domain when placing the call, the SIP endpoint automatically appends its own domain to the number that is dialed. So if you dial 123 from a SIP endpoint, the search will be placed for 123@domain. If the H.323 endpoint being dialed is registered as 123, the Cisco VCS will be unable to locate the alias 123@domain and the call will fail.
If you have a deployment that includes both SIP and H.323 endpoints that register using a number, you will need to set up the following pre-search transform and local zone search rules. Together these will let users place calls from both SIP and H.323 endpoints to H.323 endpoints registered using their H.323 E164 number only.

Pre-search transform On the Create transforms page (VCS configuration > Dial plan > Transforms > New):

Field Priority Description Pattern type Pattern string Pattern behavior

Value 1 Take any number-only dial string and append @domain Regex (\d+) Replace

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Field Replace string State

Value \1@domain Enabled

This pre-search transform takes any number-only dial string (such as 123) and appends the domain used in endpoint AORs and URIs in your deployment. This ensures that calls made by SIP and H.323 endpoints result in the same URI.

Local zone search rules
On the Create search rule page (VCS configuration > Dial plan > Search rules > New), create two new search rules as follows: Rule #1

Field Rule name Description Priority Source Request must be authenticated Mode Pattern type Pattern string Pattern behavior Replace string On successful match Target zone State

Value Dialing H.323 numbers Transform aliases in format number@domain to number 50 Any No
Alias pattern match Regex (\d+)@domain Replace \1 Continue Local Zone Enabled

Rule #2 Field Rule name Description Priority Source

Value Dialing H.323 numbers Place calls to number@domain with no alias transform 60 Any

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Field Request must be authenticated Mode Pattern type Pattern string Pattern behavior On successful match Target zone State

Value No
Alias pattern match Regex (\d+)@domain Leave Continue Local Zone Enabled

These search rules ensure that both the E.164 number and full URI are searched for, so that endpoints can still be reached whether they have registered with an H.323 number (123) or a full URI (123@domain).
n The first search rule takes any aliases in the format number@domain and transforms them into the format number.
n To ensure that any endpoints that have actually registered with an alias in the format number@domain can also still be reached, the lower-priority second search rule places calls to number@domain without transforming the alias.

Transforms for alphanumeric H.323 ID dial strings
This example builds on the Stripping @domain for dialing to H.323 numbers example. That example caters for number-only dial strings, however H.323 IDs do not have to be purely numeric; they can contain alphanumeric (letters and digits) characters.
This example follows the same model as the example mentioned above -- a pre-search transform and two local zone search rules to ensure that endpoints can be reached whether they have registered with an H.323 ID or a full URI -- but uses a different regex (regular expression) that supports alphanumeric characters.

Pre-search transform On the Create transforms page (VCS configuration > Dial plan > Transforms > New):

Field Priority Description Pattern type Pattern string Pattern behavior Replace string State

Value 1 Append @domain to any alphanumeric dial string Regex ([^@]*) Replace \1@domain Enabled

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This pre-search transform takes any alphanumeric dial string (such as 123abc) and appends the domain used in your deployment to ensure that calls made by SIP and H.323 endpoints result in the same URI.

Local zone search rules
On the Create search rule page (VCS configuration > Dial plan > Search rules > New), create two new search rules as follows: Rule #1

Field Rule name Description Priority Source Request must be authenticated Mode Pattern type Pattern string Pattern behavior Replace string On successful match Target zone State

Value Dialing H.323 strings Transform aliases in format string@domain to string 40 Any No
Alias pattern match Regex (.+)@domain Replace \1 Continue Local Zone Enabled

Rule #2
Field Rule name Description Priority Source Request must be authenticated Mode Pattern type

Value Dialing H.323 strings with domain Place calls to string@domain with no alias transform 50 Any No
Alias pattern match Regex

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Field Pattern string Pattern behavior On successful match Target zone State

Value (.+)@domain Leave Continue Local Zone Enabled

These search rules ensure that both the E.164 number and full URI are searched for, so that endpoints can still be reached whether they have registered with an H.323 ID (123abc) or a full URI (123abc@domain).
n The first search rule takes any aliases in the format string@domain and transforms them into the format string.
n To ensure that any endpoints that have actually registered with an alias in the format string@domain can also still be reached, the lower-priority second search rule places calls to string@domain without transforming the alias.

Allowing calls to IP addresses only if they come from known zones
In addition to making calls to aliases, calls can be made to specified IP addresses. To pass on such calls to the appropriate target zones you must set up search rules with a Mode of Any IP address. To provide extra security you can set the rule's Source option to All zones. This means that the query is only sent to the target zone if it originated from any configured zone or the Local Zone.
To achieve the example described above, from the Create search rule page (VCS configuration > Dial plan > Search rules > New) set up a search rule as follows:

Field Rule name Description Priority Source Request must be authenticated Mode On successful match Target zone State

Value IP addresses from known zones Allow calls to IP addresses only from a known zone 100 All zones No
Any IP address Continue Overseas office Enabled

Configuring policy services
The Policy services page (VCS configuration > Dial plan > Policy services) is used to configure the external policy services that can be used as a target of the Cisco VCS's search rules.

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The page lists all the currently configured policy services and lets you create, edit and delete services. Up to 5 policy services can be configured.
The configurable options are:

Field

Description

Usage tips

Name

The name of the policy service.

Description An optional free-form description of the policy service.

The description appears as a tooltip if you hover your mouse pointer over a policy service in the list.

Protocol

The protocol used to connect to the policy service.

The Cisco VCS automatically supports HTTP to HTTPS redirection when communicating with the policy service server.

Certificate verification mode

Controls whether the certificate presented by the policy service is verified when connecting over HTTPS.

When enabled, the value specified in the Server address field must be contained within the server's X.509 certificate (in either the Subject Common Name or the Subject Alternative Name attributes).

HTTPS certificate revocation list (CRL) checking

Controls certificate revocation list checking of the certificate supplied by the policy service.
When enabled, the server's X.509 certificate is checked against the HTTPS certificate revocation list.

CRL data is uploaded to the Cisco VCS via the HTTPS certificate revocation list file on the Security certificates page.

Server address 1 3

The IP address or Fully Qualified Domain Name (FQDN) of the service.

For resiliency, up to three server addresses can be supplied.

Path

The URL of the service.

Username The username used by the Cisco VCS to log in and query the service.

Password

The password used by the Cisco VCS to log in and query the service. The maximum plaintext length is 30 characters (which is subsequently encrypted).

Default CPL The default CPL used by the Cisco VCS if the policy service is unavailable.

This defaults to <reject status='403' reason='Service Unavailable'/> but you could change it, for example, to redirect to an answer service or recorded message.

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About Call Policy
The Cisco VCS lets you set up rules to control which calls are allowed, which calls are rejected, and which calls are to be redirected to a different destination. These rules are known as Call Policy (or Administrator Policy).
If Call Policy is enabled and has been configured, each time a call is made the Cisco VCS will execute the policy in order to decide, based on the source and destination of the call, whether to:
n proxy the call to its original destination n redirect the call to a different destination or set of destinations n reject the call
Note: when enabled, Call Policy is executed for all calls going through the Cisco VCS.
You should:
n use Call Policy to determine which callers can make or receive calls via the Cisco VCS n use Registration restriction policy to determine which aliases can or cannot register with the Cisco
VCS
Configuring Call Policy
The Call Policy configuration page (VCS configuration > Call Policy> Configuration) is used to configure the Cisco VCS's Call Policy mode and to upload local policy files.
Call Policy mode
The Call Policy mode controls from where the Cisco VCS obtains its Call Policy configuration. The options are:
n Local CPL: uses locally-defined Call Policy. n Directory and local CPL: applies Call Policy defined in the directory service followed by any locally-
defined Call Policy. n Policy service: uses an external policy service. n Off: Call Policy is not in use.
Each of these options are described in more detail below:
Local CPL
The Local CPL option uses the Call Policy that is configured locally on the Cisco VCS. If you choose Local CPL you must then either:
n upload a Call Policy file (containing CPL script), or n configure basic Call Policy through the Call Policy rules page (VCS configuration > Call Policy
> Rules). Note that this only lets you allow or reject specified calls.
Only one of these two methods can be used at any one time to specify Call Policy. If a CPL script has been uploaded, this takes precedence and you will not be able to use the Call Policy rules page; to use the page you must first delete the CPL script that has been uploaded.
If Local CPL is enabled but no policy is configured or uploaded, then a default policy is applied that allows all calls, regardless of source or destination.
Directory and local CPL
The Directory and local CPL option refers Call Policy decisions, in the first instance, to the Directory service. This could be used, for example to determine if certain groups of users are allowed to call other groups of users.

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If the directory service allows the call, any locally-defined Call Policy is then also applied. This enables you to apply further controls in addition to those provided by the directory service. For example, you can use local CPL to apply restrictions based on the source of incoming requests, or whether a request is authenticated or not.

Policy service
The Policy service option is used if you want to refer all Call Policy decisions out to an external service.
If you select this option an extra set of configuration fields appear so that you can specify the connection details of the external policy service:

Field

Description

Usage tips

Protocol

The protocol used to connect to the policy service.

The Cisco VCS automatically supports HTTP to HTTPS redirection when communicating with the policy service server.

Certificate verification mode

Controls whether the certificate presented by the policy service is verified when connecting over HTTPS.

When enabled, the value specified in the Server address field must be contained within the server's X.509 certificate (in either the Subject Common Name or the Subject Alternative Name attributes).

HTTPS certificate revocation list (CRL) checking

Controls certificate revocation list checking of the certificate supplied by the policy service.
When enabled, the server's X.509 certificate is checked against the HTTPS certificate revocation list.

CRL data is uploaded to the Cisco VCS via the HTTPS certificate revocation list file on the Security certificates page.

Server address 1 3

The IP address or Fully Qualified Domain Name (FQDN) of the service.

For resiliency, up to three server addresses can be supplied.

Path

The URL of the service.

Username The username used by the Cisco VCS to log in and query the service.

Password

The password used by the Cisco VCS to log in and query the service. The maximum plaintext length is 30 characters (which is subsequently encrypted).

Default CPL The default CPL used by the Cisco VCS if the policy service is unavailable.

This defaults to <reject status='403' reason='Service Unavailable'/> but you could change it, for example, to redirect to an answer service or recorded message.

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Configuring Call Policy rules using the web interface
The Call Policy rules page (VCS configuration > Call Policy > Rules) lists the web-configured (rather than uploaded via a CPL file) Call Policy rules currently in place and allows you to create, edit and delete rules. It provides a mechanism to set up basic Call Policy rules without having to write and upload a CPL script.
Note: you cannot use the Call Policy rules page to configure Call Policy if a CPL file is already in place. If this is the case, on the Call Policy configuration page (VCS configuration > Call Policy > Configuration) you will have the option to Delete uploaded file. Doing so will delete the existing Call Policy that was put in place using a CPL script, and enable use of the Call Policy rules page for Call Policy configuration.
Each rule specifies the Action to take for all calls from a particular Source alias to a particular Destination alias. If you have more than one rule, you can Rearrange the order of priority in which these rules are applied.
The configurable options are:

Field
Source pattern

Description
The alias that the calling endpoint used to identify itself when placing the call. If this field is blank, the policy rule applies to all incoming calls from unauthenticated users, meaning calls where the endpoint making the call is not either:
n locally registered and authenticated with the Cisco VCS, or n registered and authenticated to a neighbor which in turn has
authenticated with the local Cisco VCS

Usage tips
See the Call Policy and authentication section for more information about unauthenticated users and Call Policy.
This field supports regular expressions.

Destination The alias that the endpoint dialed to make the call. pattern

This field supports regular expressions.

Action

Whether or not a call that matches the source and destination is permitted.
Allow: if both the Source and Destination aliases match those listed, call processing will continue.
Reject: if both the Source and Destination aliases match those listed, the call will be rejected.

Rearrange

Each combination of Source and Destination is compared, in the order shown on the Call Policy rules page, with the details of the call being made until a match is found, at which point the call policy is applied. To move a particular item to higher or lower in the list, thus giving the rule a higher or lower priority, click on the and icons respectively.

Click on the rule you want to configure (or click New to create a new rule, or click Delete to remove a rule).

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Configuring Call Policy using a CPL script
You can use CPL scripts to configure advanced Call Policy. To do this, you must first create and save the CPL script as a text file, after which you upload it to the Cisco VCS.
For information on the CPL syntax and commands that are supported by the Cisco VCS, see the CPL reference section.
Viewing existing CPL script
To view the Call Policy that is currently in place as an XML-based CPL script, go to the Call Policy configuration page (VCS configuration > Call Policy > Configuration) and click Show Call Policy file.
n If Call Policy has been configured using a CPL script, this shows you the script that was uploaded. n If Call Policy has been configured using the Call Policy rules page, this shows you the CPL
version of the call policy rules. n If Call Policy mode is On but a policy has not been configured, this shows you a default CPL
script that allows all calls.
You may want to view the file to take a backup copy of the Call Policy, or, if Call Policy has been configured using the Call Policy rules page you could take a copy of this CPL file to use as a starting point for a more advanced CPL script.
If Call Policy has been configured using the Call Policy rules page and you download the CPL file and then upload it back to the Cisco VCS without editing it, the Cisco VCS will recognize the file and automatically add each rule back into the Call Policy rules page.
About CPL XSD files
The CPL script must be in a format supported by the Cisco VCS. The Call Policy configuration page allows you to download the XML schemas which are used to check scripts that are uploaded to the Cisco VCS. You can use the XSD files to check in advance that your CPL script is valid. Two download options are available:
n Show CPL XSD file: displays in your browser the XML schema used for the CPL script. n Show CPL Extensions XSD file: displays in your browser the XML schema used for additional
CPL elements supported by the Cisco VCS.
Uploading a CPL script
To upload a new CPL file:
1. Go to the Call Policy configuration page (VCS configuration > Call Policy > Configuration). The CPL script cannot be uploaded using the command line interface.
2. From the Policy files section, in the Select the new Call Policy file field, enter the file name or Browse to the CPL script you want upload.
3. Click Upload file.
Deleting an existing CPL script
If a CPL script has already been uploaded, a Delete uploaded file button will be visible. Click it to delete the file.
Configuring Cisco VCS to use the Cisco TelePresence Advanced Media Gateway
The Advanced Media Gateway configuration page (VCS configuration > Advanced Media Gateway > Configuration) is used to configure how a Cisco VCS Control routes calls to or from a

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Microsoft Office Communications Server (OCS) zone via the Cisco TelePresence Advanced Media Gateway (Cisco AM GW).
The Cisco AM GW provides support for transcoding between standard codecs (such as H.264) and Microsoft RT Video to allow high definition calls between Microsoft Office Communicator (MOC) clients and Cisco endpoints.
Configuring the Cisco VCS Control
For a Cisco VCS Control to use the Cisco AM GW you must first configure at least two zones:
n An OCS zone (a zone with a Zone profile set to Microsoft Office Communications Server 2007). n A Cisco AM GW zone (a zone with a Zone profile set to Cisco Advanced Media Gateway). Note
that a Cisco AM GW zone can be configured with up to six Cisco AM GW peers for load balancing purposes. Also note that Cisco AM GW zones do not require any associated search rules.
To start using the Cisco AM GW to transcode calls:
1. Go to the Advanced Media Gateway configuration page. 2. Click on the Advanced Media Gateway zone drop-down and choose the required Cisco AM GW
zone. Note that only zones configured with a Zone profile of Cisco Advanced Media Gateway appear in this list. After a zone is selected, calls to or from the OCS are routed via the Cisco AM GWs connected to that zone.
By default, all OCS calls are routed via the Cisco AM GW.
If you want to control which calls go through the Cisco AM GW you have to set up policy rules. To do this, set Policy mode to On and then go to the Advanced Media Gateway policy rules page.
Usage features and limitations
n If the Cisco AM GW reaches its capacity, any calls that would normally route via the Cisco AM GW will not fail; the call will still connect as usual but will not be transcoded.
n The OCS zone must be inside any firewall; the endpoint receiving or making the call can be outside the firewall.
n The Cisco VCS shows calls routed via the Cisco AM GW as two calls: one from the endpoint via the Cisco VCS to the Cisco AM GW which will be a local or traversal call as appropriate, and then a separate call back from the Cisco AM GW via the Cisco VCS to the OCS which will always be a local call.
n Bandwidth controls can be applied to the leg of the call between the endpoint and the Cisco AM GW zone, but cannot be applied to the Cisco AM GW zone to OCS zone leg of the call.
For more information about configuring Cisco VCS, OCS and the Cisco AM GW, refer to the Microsoft OCS 2007, Cisco VCS Control and Cisco AM GW deployment guide [37].
Configuring Cisco AM GW policy rules
The Advanced Media Gateway policy rules page (VCS configuration > Advanced Media Gateway > Policy rules) lists the set of rules that control which calls can go through the Cisco AM GW.
By default, after a Cisco VCS Control has been configured with the Cisco AM GW to use for OCS calls, all calls to or from the OCS zone are routed via the Cisco AM GW.
The rules on this page are only applied if the Policy mode on the Advanced Media Gateway configuration page is set to On.

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A rule is applied if it matches either the source or destination alias of a call. Note that if the aliases associated with a call do not match any of the policy rules, the call will be routed via the Cisco AM GW.
The page lists all the currently configured rules and lets you create, edit, delete, enable and disable rules. Note that you can click on a column heading to sort the list, for example by Rule name or Priority.
The configurable options are:

Field

Description

Usage tips

Rule name The name assigned to the rule.

Description An optional free-form description of the rule. The description appears as a tooltip if you hover your mouse pointer over a rule in the list.

Priority

Sets the order in which the rules are applied. The rules with the highest priority (1, then 2, then 3 and so on) are applied first. Multiple rules with the same priority are applied in configuration order.

Pattern type The way in which the Pattern string must match either the source or destination alias of the call.
Exact: the entire string must exactly match the alias character for character.
Prefix: the string must appear at the beginning of the alias.
Suffix: the string must appear at the end of the alias.
Regex: treats the string as a regular expression.

You can test whether a pattern matches a particular alias and is transformed in the expected way by using the Check pattern tool (Maintenance > Tools > Check pattern).

Pattern string
Action

The pattern against which the alias is compared.
The action to take if the source or destination alias of the call matches this policy rule.
Allow: the call can connect via the Cisco AM GW.
Deny: the call can connect but it will not use Cisco AM GW resources.

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Field State

Description Indicates if the rule is enabled or not.

Usage tips
When you are making or testing configuration changes to your Cisco AM GW policy rules, you may want to temporarily enable or disable certain rules. You may also want to configure certain rules but only apply them occasionally. You can do this by selecting the rule's check box and clicking Enable or Disable as appropriate. Any disabled rules still appear in the rules list but are ignored by the Cisco VCS when determining which calls are routed via the Cisco AM GW.

Dialable address formats
The destination address that is entered using the caller's endpoint can take a number of different formats, and this affects the specific process that the Cisco VCS follows when attempting to locate the destination endpoint. The address formats supported by the Cisco VCS are:
n IP address, for example 10.44.10.1 or 3ffe:80ee:3706::10:35 n H.323 ID, for example john.smith or [email protected] (note that an H.323 ID can be in
the form of a URI) n E.164 alias, for example 441189876432 or 6432 n URI, for example [email protected] n ENUM, for example 441189876432 or 6432
Each of these address formats may require some configuration of the Cisco VCS in order for them to be supported. These configuration requirements are described below.
Dialing by IP address
Dialing by IP address is necessary when the destination endpoint is not registered with any system (such as a Cisco VCS, gatekeeper or Border Controller). See the IP dialing section for more information.
Endpoints registered to a Cisco VCS Expressway
Calls made by dialing the IP address of an H.323 endpoint registered directly with a Cisco VCS Expressway are forced to route through the Cisco VCS Expressway. The call will therefore be subject to any restrictions configured on that system.
Dialing by H.323 ID or E.164 alias
No special configuration is required to place a call using an H.323 ID or E.164 alias.
The Cisco VCS follows the usual call routing process, applying any transforms and then searching the Local Zone and external zones for the alias, according to the search rules.
Note: SIP endpoints always register using an AOR in the form of a URI. You are recommended to ensure that H.323 endpoints also register with an H.323 ID in the form of a URI to facilitate interworking.

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Dialing by H.323 or SIP URI
When a user places a call using URI dialing, they will typically dial [email protected].
If the destination endpoint is locally registered or registered to a neighbor system, no special configuration is required for the call to be placed. The Cisco VCS follows the usual search process, applying any transforms and then searching the Local Zone and external zones for the alias, according to the search rules.
If the destination endpoint is not locally registered, URI dialing may make use of DNS to locate the destination endpoint. To support URI dialing via DNS, you must configure the Cisco VCS with at least one DNS server and at least one DNS zone.
Full instructions on how to configure the Cisco VCS to support URI dialing via DNS (both outbound and inbound) are given in the URI dialing section.
Dialing by ENUM
ENUM dialing allows an endpoint to be contacted by a caller dialing an E.164 number - a telephone number - even if that endpoint has registered using a different format of alias. The E.164 number is converted into a URI by the DNS system, and the rules for URI dialing are then followed to place the call.
The ENUM dialing facility allows you to retain the flexibility of URI dialing while having the simplicity of being called using just a number - particularly important if any of your callers are restricted to dialing using a numeric keypad.
To support ENUM dialing on the Cisco VCS you must configure it with at least one DNS server and the appropriate ENUM zones.
Full instructions on how to configure the Cisco VCS to support ENUM dialing (both outbound and inbound) are given in the ENUM dialing section.
IP dialing
Dialing by IP address is necessary when the destination endpoint is not registered with any system (such as a Cisco VCS, Gatekeeper or Border Controller).
If the destination endpoint is registered with one of these systems, it may be possible to call it using its IP address but the call may not succeed if the endpoint is on a private network or behind a firewall. For this reason you are recommended to place calls to registered endpoints via other address formats, such as its AOR or H.323 ID. Similarly, callers outside of your network should not try to contact endpoints within your network via their IP addresses.
Calls to unknown IP addresses
Although the Cisco VCS supports dialing by IP address, it is sometimes undesirable for a Cisco VCS to be allowed to place a call directly to an IP address that is not local. Instead, you may want a neighbor to place the call on behalf of the Cisco VCS, or not allow such calls at all. The Calls to unknown IP addresses setting (on the Dial plan configuration page) configures how the Cisco VCS handles calls made to IP addresses which are not on its local network, or registered with it or one of its neighbors.
The Cisco VCS considers an IP address to be "known" if it either:
n is the IP address of a locally registered endpoint n falls within the IP address range of one of the subzone membership rules configured on the Cisco
VCS

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The Cisco VCS will always attempt to place calls to known IP addresses (providing there is a search rule for Any IP Address against the Local Zone).
All other IP addresses are considered to be "unknown" and are handled by the Cisco VCS according to the Calls to Unknown IP addresses setting:
n Direct: the Cisco VCS attempts to place the call directly to the unknown IP address without querying any neighbors.
n Indirect: the Cisco VCS forwards the search request to its neighbors in accordance with its normal search process, meaning any zones that are the target of search rules with an Any IP Address mode. If a match is found and the neighbor's configuration allows it to connect a call to that IP address, the Cisco VCS will pass the call to that neighbor for completion.
n Off: the Cisco VCS will not attempt to place the call, either directly or to any of its neighbors.
This setting applies to the call's destination address prior to any zone transforms, but after any presearch transforms, Call Policy or User Policy rules have been applied.
Note that in addition to controlling calls, this setting also determines the behavior of provisioning and presence messages to SIP devices, as these messages are routed to IP addresses.
Calling unregistered endpoints
An unregistered endpoint is any device that is not registered with an H.323 gatekeeper or SIP registrar. Although most calls are made between endpoints that are registered with such systems, it is sometimes necessary to place a call to an unregistered endpoint.
There are two ways to call to an unregistered endpoint:
n by dialing its URI (this requires that the local Cisco VCS is configured to support URI dialing, and a DNS record exists for that URI that resolves to the unregistered endpoint's IP address)
n by dialing its IP address
Recommended configuration for firewall traversal
When a Cisco VCS Expressway is neighbored with a Cisco VCS Control for firewall traversal, you should typically set Calls to unknown IP addresses to Indirect on the Cisco VCS Control and Direct on the Cisco VCS Expressway. When a caller inside the firewall attempts to place a call to an IP address outside the firewall, it will be routed as follows:
1. The call will go from the endpoint to the Cisco VCS Control with which it is registered. 2. As the IP address being called is not registered to that Cisco VCS, and its Calls to unknown IP
addresses setting is Indirect, the Cisco VCS will not place the call directly. Instead, it will query its neighbor Cisco VCS Expressway to see if that system is able to place the call on the Cisco VCS Control's behalf. 3. The Cisco VCS Expressway receives the call and because its Calls to unknown IP addresses setting is Direct, it will make the call directly to the called IP address.
About URI dialing
A URI address typically takes the form [email protected], where name is the alias and example.com is the domain.
URI dialing can make use of DNS to enable endpoints registered with different systems to locate and call each other. Without DNS, the endpoints would need to be registered to the same or neighbored systems in order to locate each other.
URI dialing without DNS
Without the use of DNS, calls made by a locally registered endpoint using URI dialing will be placed only if the destination endpoint is also locally registered, or is accessible via a neighbor system. This

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is because these endpoints would be located using the search and zone transform process, rather than a DNS query.
If you want to use URI dialing from your network without the use of DNS, you would need to ensure that all the systems in your network were connected to each other by neighbor relationships - either directly or indirectly. This would ensure that any one system could locate an endpoint registered to itself or any another system, by searching for the endpoint's URI.
This does not scale well as the number of systems grows. It is also not particularly practical, as it means that endpoints within your network will not be able to dial endpoints registered to systems outside your network (for example when placing calls to another company) if there is not already a neighbor relationship between the two systems.
If a DNS zone and a DNS server have not been configured on the local Cisco VCS, calls to endpoints that are not registered locally or to a neighbor system could still be placed if the local Cisco VCS is neighbored (either directly or indirectly) with another Cisco VCS that has been configured for URI dialing via DNS. In this case, any URI-dialed calls that are picked up by search rules that refer to that neighbor zone will go via that neighbor, which will perform the DNS lookup.
This configuration is useful if you want all URI dialing to be made via one particular system, such as a Cisco VCS Expressway.
If you do not want to use DNS as part of URI dialing within your network, then no special configuration is required. Endpoints will register with an alias in the form of a URI, and when calls are placed to that URI the Cisco VCS will query its local zone and neighbors for that URI.
If the Cisco VCS does not have DNS configured and your network includes H.323 endpoints, then in order for these endpoints to be reachable using URI dialing either:
n the H.323 endpoints should register with the Cisco VCS using an address in the format of a URI n an appropriate transform should be written to convert URIs into the format used by the H.323
registrations. An example would be a deployment where H.323 endpoints register with an alias, and incoming calls are made to [email protected]. A local transform is then configured to strip the @domain, and the search is made locally for alias. See Stripping @domain for dialing to H.323 numbers for an example of how to do this.
SIP endpoints always register with an AOR in the form of a URI, so no special configuration is required.
URI dialing via DNS
By using DNS as part of URI dialing, it is possible to find an endpoint even though it may be registered to an unknown system. The Cisco VCS uses a DNS lookup to locate the domain in the URI address and then queries that domain for the alias. See the URI resolution process using DNS section for more information.
URI dialing via DNS is enabled separately for outgoing and incoming calls.
Outgoing calls
To enable your Cisco VCS to locate endpoints using URI dialing via DNS, you must:
n configure at least one DNS zone and an associated search rule n configure at least one DNS server
This is described in the URI dialing via DNS for outgoing calls section.
Incoming calls
To enable endpoints registered to your Cisco VCS to receive calls from non-locally registered endpoints using URI dialing via DNS, you must:

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n ensure all endpoints are registered with an AOR (SIP) or H.323 ID in the form of a URI n configure appropriate DNS records, depending on the protocols and transport types you want to use
This is described in the URI dialing via DNS for incoming calls section.
Firewall traversal calls
To configure your system so that you can place and receive calls using URI dialing through a firewall, see the URI dialing and firewall traversal section.
URI resolution process using DNS
When a Cisco VCS is attempting to locate a destination URI address using the DNS system, the general process is as follows:
H.323
1. The Cisco VCS sends a query to its DNS server for an SRV record for the domain in the URI. (If more than one DNS server has been configured on the Cisco VCS, the query will be sent to all servers at the same time, and all responses will be prioritized by the Cisco VCS with only the most relevant SRV record being used.) If available, this SRV record returns information (such as the FQDN and listening port) about either the device itself or the authoritative H.323 gatekeeper for that domain. l If the domain part of the URI address was resolved successfully using an H.323 Location SRV record (that is, for _ h323ls) then the Cisco VCS will send an A/AAAA record query for each name record returned. These will resolve to one or more IP addresses, and the Cisco VCS then sends, in priority order, an LRQ for the full URI to those IP addresses. l If the domain part of the URI address was resolved using an H.323 Call Signaling SRV record (that is, for _ h323cs) then the Cisco VCS will send an A/AAAA record query for each name record returned. These will resolve to one or more IP addresses, and the Cisco VCS then routes the call, in priority order to the IP addresses returned in those records. (An exception to this is where the original dial string has a port specified - for example, [email protected]:1719 - in which case the address returned is queried via an LRQ for the full URI address.)
2. If a relevant SRV record cannot be located: l If the Include address record setting for the DNS zone being queried is set to On, the system will fall back to looking for an A or AAAA record for the domain in the URI. If such a record is found, the call will be routed to that IP address and the search will terminate. Note that if the A and AAAA records that are found at this domain are for systems other than those that support SIP or H.323, the Cisco VCS will still forward the call to this zone, and the call will therefore fail. For this reason, you are recommended to use the default setting of Off. l If the Include address record setting for the DNS zone being queried is set to Off, the Cisco VCS will not query for A and AAAA records and instead will continue with the search, querying the remaining lower priority zones.
SIP
The Cisco VCS supports the SIP resolution process as outlined in RFC 3263 [16]. An example of how the Cisco VCS implements this process is as follows:
1. The Cisco VCS sends a NAPTR query for the domain in the URI. If available, the result set of this query describes a prioritized list of SRV records and transport protocols that should be used to contact that domain. If no NAPTR records are present in DNS for this domain name then the Cisco VCS will use a default list of _sips._tcp.<domain>, _sip._tcp.<domain> and _sip._udp.<domain> for that domain as if they had been returned from the NAPTR query.

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l The Cisco VCS sends SRV queries for each result returned from the NAPTR record lookup. A prioritized list of A/AAAA records returned is built.
l The Cisco VCS sends an A/AAAA record query for each name record returned by the SRV record lookup.
The above steps will result in a tree of IP addresses, port and transport protocols to be used to contact the target domain. The tree is sub-divided by NAPTR record priority and then by SRV record priority. When the tree of locations is used, the searching process will stop on the first location to return a response that indicates that the target destination has been contacted.
2. If the search process does not return a relevant SRV record: l If the Include address record setting for the DNS zone being queried is set to On, the system will fall back to looking for an A or AAAA record for the domain in the URI. If such a record is found, the call will be routed to that IP address and the search will terminate. Note that if the A and AAAA records that are found at this domain are for systems other than those that support SIP or H.323, the Cisco VCS will still forward the call to this zone, and the call will therefore fail. For this reason, you are recommended to use the default setting of Off. l If the Include address record setting for the DNS zone being queried is set to Off, the Cisco VCS will not query for A and AAAA records and instead will continue with the search, querying the remaining lower priority zones.
URI dialing via DNS for outgoing calls
When a user places a call using URI dialing, they will typically dial an address in the form [email protected] from their endpoint. Below is the process that is followed when a URI address is dialed from an endpoint registered with your Cisco VCS, or received as a query from a neighbor system:
1. The Cisco VCS checks its search rules to see if any of them are configured with a Mode of either: l Any alias, or l Alias pattern match with a pattern that matches the URI address
2. The associated target zones are queried, in rule priority order, for the URI. l If one of the target zones is a DNS zone, the Cisco VCS attempts to locate the endpoint through a DNS lookup. It does this by querying the DNS server configured on the Cisco VCS for the location of the domain as per the URI resolution process via DNS. If the domain part of the URI address is resolved successfully the request is forwarded to those addresses. l If one of the target zones is a neighbor, traversal client or traversal server zones, those zones are queried for the URI. If that system supports URI dialing via DNS, it may route the call itself.
Adding and configuring DNS zones
To enable URI dialing via DNS, you must configure at least one DNS zone. To do this:
1. Go to the Zones page (VCS configuration > Zones). 2. Click New. You are taken to the Create zone page. 3. Enter a Name for the zone and select a Type of DNS.

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4. Configure the DNS zone settings as follows:

Field
Hop count

Guidelines
When dialing by URI via DNS, the hop count used is that configured for the DNS zone associated with the search rule that matches the URI address (if this is lower than the hop count currently assigned to the call).
If URI address isn't matched to a DNS zone, the query may be forwarded to a neighbor. In this case, the hop count used will be that configured for the neighbor zone (if this is lower than the hop count currently assigned to the call).

H.323 The H.323 and SIP sections allow you to filter calls to systems and endpoints located and SIP via this zone, based on whether the call is located using SIP or H.323 SRV lookups. modes
Include This setting determines whether, if no NAPTR (SIP) or SRV (SIP and H.323) records address have been found for the dialed alias via this zone, the Cisco VCS will then query for A record and AAAA DNS records before moving on to query lower priority zones.
You are recommended to use the default setting of Off, meaning that the Cisco VCS will not query for A and AAAA records, and instead will continue with the search, querying the remaining lower priority zones. This is because, unlike for NAPTR and SRV records, there is no guarantee that the A/AAAA records will point to a system capable of processing the relevant SIP or H.323 messages (LRQs, Setups, etc.) the system may instead be a web server that processes http messages, or a mail server that processes mail messages. If this setting is On, when a system is found using A/AAAA lookup, the Cisco VCS will send the signaling to that destination and will not continue the search process. If the system does not support SIP or H.323, the call will fail.

Zone For most deployments, this option should be left as Default. profile

5. Click Create zone.
Configuring search rules for DNS zones
If you want your local Cisco VCS to use DNS to locate endpoints outside your network, you must:
n configure the DNS servers used by the Cisco VCS for DNS queries n create a DNS zone and set up associated search rules that use the Pattern string and Pattern
type fields to define the aliases that will trigger a DNS query
For example, rules with:
n a Pattern string of .*@.* and a Pattern type of Regex will query DNS for all aliases in the form of typical URI addresses
n a Pattern string of (?!.*@example.com$).* and a Pattern type of Regex will query DNS for all aliases in the form of typical URI addresses except those for the domain example.com
To set up further filters, configure extra search rules that target the same DNS zone. You do not need to create new DNS zones for each rule unless you want to filter based on the protocol (SIP or H.323) or use different hop counts.

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Note: you are not recommended to configure search rules with a Mode of Any alias for DNS zones. This will result in DNS always being queried for all aliases, including those that may be locally registered and those that are not in the form of URI addresses.
URI dialing via DNS for incoming calls
DNS record types
The ability of the Cisco VCS to receive incoming calls made using URI dialing via DNS relies on the presence of DNS records for each domain the Cisco VCS is hosting.
These records can be of various types including:
n A records, which provide the IPv4 address of the Cisco VCS n AAAA records, which provide the IPv6 address of the Cisco VCS n Service (SRV) records, which specify the FQDN of the Cisco VCS and the port on it to be queried
for a particular protocol and transport type. n NAPTR records, which specify SRV record and transport preferences for a SIP domain.
You must provide an SRV or NAPTR record for each combination of domain hosted and protocol and transport type enabled on the Cisco VCS.
Incoming call process
When an incoming call has been placed using URI dialing via DNS, the Cisco VCS will have been located by the calling system using one of the DNS record lookups described above. The Cisco VCS will receive the request containing the dialed URI in the form [email protected]. This will appear as coming from the Default Zone. The Cisco VCS will then search for the URI in accordance with its normal call routing process, applying any pre-search transforms, Call Policy and FindMe policy, then searching its Local Zone and other configured zones, in order of search rule priority.
SRV record format
The format of SRV records is defined by RFC 2782 [3] as:
_Service._Proto.Name TTL Class SRV Priority Weight Port Target For the Cisco VCS, these are as follows:
n _Service and _Proto will be different for H.323 and SIP, and will depend on the protocol and transport type being used
n Name is the domain in the URI that the Cisco VCS is hosting (such as example.com) n Port is the IP port on the Cisco VCS that has been configured to listen for that particular service and
protocol combination n Target is the FQDN of the Cisco VCS.
Configuring H.323 SRV records
Annex O of H.323 specification [15] defines the procedures for using DNS to locate gatekeepers and endpoints and for resolving H.323 URL aliases. It also defines parameters for use with the H.323 URL.
The Cisco VCS supports two types of SRV record as defined by this Annex. These are Location and Call, with _Service set to _h323ls and _h323cs respectively. If you want the Cisco VCS to be contactable using H.323 URI dialing, you should provide at least a Location SRV record, as it provides the most flexibility and the simplest configuration.
Location SRV records
For each domain hosted by the Cisco VCS, you should configure a Location SRV record as follows:

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n _Service is _h323ls n _Proto is _udp n Port is the port number that has been configured from VCS configuration > Protocols > H.323 as
the Registration UDP port
Call SRV records
Call SRV records (and A/AAAA records) are intended primarily for use by endpoints which cannot participate in a location transaction, exchanging LRQ and LCF. The configuration of a Call SRV record should be as follows:
n _Service is _h323cs n _Proto is _tcp n Port is the port number that has been configured from VCS configuration > Protocols > H.323 as
the Call signaling TCP port.
Configuring SIP SRV records
RFC 3263 [16] describes the DNS procedures used to resolve a SIP URI into the IP address, port, and transport protocol of the next hop to contact.
If you want the Cisco VCS to be contactable using SIP URI dialing, you should configure an SRV record for each SIP transport protocol enabled on the Cisco VCS (that is, UDP, TCP or TLS) as follows:
n Valid combinations of _Service and _Proto are: l _sips._tcp l _sip._tcp l _sip._udp
n Port is the IP port number that has been configured from VCS configuration > Protocols > SIP as the port for that particular transport protocol.
Example DNS record configuration
A company with the domain name example.com wants to enable incoming H.323 and SIP calls using URI addresses in the format [email protected]. The Cisco VCS hosting the domain has the FQDN vcs.example.com.
Their DNS records would typically be as follows:
n SRV record for _ h323ls. _ udp.example.com returns vcs.example.com n SRV record for _ h323cs. _ tcp.example.com returns vcs.example.com n NAPTR record for example.com returns
l _sip._tcp.example.com and l _sip._udp.example.com and l _sips._tcp.example.com n SRV record for _sip._udp.example.com returns vcs.example.com n SRV record for _sip._tcp.example.com returns vcs.example.com n SRV record for _sips._tcp.example.com returns vcs.example.com n A record for vcs.example.com returns the IPv4 address of the Cisco VCS n AAAA record for vcs.example.com returns the IPv6 address of the Cisco VCS
How you add the DNS records depends on the type of DNS server you are using. Instructions for setting up two common DNS servers are given in the DNS configuration examples section.
For locally registered H.323 endpoints to be reached using URI dialing, either:
n the H.323 endpoints should register with the Cisco VCS using an address in the format of a URI n an appropriate transform should be written to convert URIs into the format used by the H.323
registrations. An example would be a deployment where H.323 endpoints register with an alias, and incoming calls are made to [email protected]. A local transform is then configured to strip the

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@domain, and the search is made locally for alias. See Stripping @domain for dialing to H.323 numbers for an example of how to do this.
SIP endpoints always register with an AOR in the form of a URI, so no special configuration is required.
Several mechanisms could have been used to locate the Cisco VCS. You may want to enable calls placed to user@<IP_address> to be routed to an existing registration for [email protected]. In this case you would configure a pre-search transform that would strip the IP_address suffix from the incoming URI and replace it with the suffix of example.com.
URI dialing and firewall traversal
If URI dialing via DNS is being used in conjunction with firewall traversal, DNS zones should be configured on the Cisco VCS Expressway and any Cisco VCSs on the public network only. Cisco VCSs behind the firewall should not have any DNS zones configured. This will ensure that any outgoing URI calls made by endpoints registered with the Cisco VCS will be routed through the Cisco VCS Expressway.
In addition, the DNS records for incoming calls should be configured with the address of the Cisco VCS Expressway as the authoritative gatekeeper/proxy for the enterprise (the DNS configuration examples section for more information). This ensures that incoming calls placed using URI dialing enter the enterprise through the Cisco VCS Expressway, allowing successful traversal of the firewall.
About ENUM dialing
ENUM dialing allows an endpoint to be contacted by a caller dialing an E.164 number - a telephone number - even if that endpoint has registered using a different format of alias.
Using ENUM dialing, when an E.164 number is dialed it is converted into a URI using information stored in DNS. The Cisco VCS then attempts to find the endpoint based on the URI that has been returned.
The ENUM dialing facility allows you to retain the flexibility of URI dialing while having the simplicity of being called using just a number - particularly important if any of your callers are restricted to dialing using a numeric keypad.
The Cisco VCS supports outward ENUM dialing by allowing you to configure ENUM zones on the Cisco VCS. When an ENUM zone is queried, this triggers the Cisco VCS to transform the E.164 number that was dialed into an ENUM domain which is then queried for using DNS.
Note: ENUM dialing relies on the presence of relevant DNS NAPTR records for the ENUM domain being queried. These are the responsibility of the administrator of that domain.
ENUM dialing process
When a Cisco VCS is attempting to locate a destination endpoint using ENUM, the general process is as follows:
1. The user dials the E.164 number from their endpoint. 2. The Cisco VCS converts the E.164 number into an ENUM domain as follows:
a. The digits are reversed and separated by a dot. b. The name of the domain that is hosting the NAPTR records for that E.164 number is added as
a suffix. 3. DNS is then queried for the resulting ENUM domain. 4. If a NAPTR record exists for that ENUM domain, this will advise how the number should be
converted into one (or possibly more) H.323/SIP URIs.

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5. The Cisco VCS begins the search again, this time for the converted URI as per the URI dialing process. Note that this is considered to be a completely new search, and so pre-search transforms and Call Policy will therefore apply.
Enabling ENUM dialing
ENUM dialing is enabled separately for incoming and outgoing calls.
Outgoing Calls
To allow locally registered endpoints to dial out to other endpoints using ENUM, you must:
n configure at least one ENUM zone, and n configure at least one DNS Server
This is described in the ENUM dialing for outgoing calls section.
Incoming Calls
To enable endpoints in your enterprise to receive incoming calls from other endpoints via ENUM dialing, you must configure a DNS NAPTR record mapping your endpoints' E.164 numbers to their SIP/H.323 URIs. See the ENUM dialing for incoming calls section for instructions on how to do this.
Note: if an ENUM zone and a DNS server have not been configured on the local Cisco VCS, calls made using ENUM dialing could still be placed if the local Cisco VCS is neighbored with another Cisco VCS that has been appropriately configured for ENUM dialing. Any ENUM dialed calls will go via the neighbor. This configuration is useful if you want all ENUM dialing from your enterprise to be configured on one particular system.
ENUM dialing for outgoing calls
Prerequisites
For a local endpoint to be able to dial another endpoint using ENUM via your Cisco VCS, the following conditions must be met:
n There must be a NAPTR record available in DNS that maps the called endpoint's E.164 number to its URI. It is the responsibility of the administrator of the enterprise to which the called endpoint belongs to provide this record, and they will only make it available if they want the endpoints in their enterprise to be contactable via ENUM dialing.
n You must configure an ENUM zone on your local Cisco VCS. This ENUM zone must have a DNS Suffix that is the same as the domain where the NAPTR record for the called endpoint is held.
n You must configure your local Cisco VCS with the address of at least one DNS server that it can query for the NAPTR record (and if necessary any resulting URI).
After the ENUM process has returned one or more URIs, a new search will begin for each of these URIs in accordance with the URI dialing process. If the URIs belong to locally registered endpoints, no further configuration is required. However, if one or more of the URIs are not locally registered, you may also need to configure a DNS zone if they are to be located using a DNS lookup.
Calling process
The process below is followed when an ENUM (E.164) number is dialed from an endpoint registered with your Cisco VCS:
1. The user dials the E.164 number from their endpoint. 2. The Cisco VCS initiates a search for the E.164 number as dialed. It follows the usual call routing
process.

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3. After applying any pre-search transforms, the Cisco VCS checks its search rules to see if any of them are configured with a Mode of either: l Any alias, or l Alias pattern match with a pattern that matches the E.164 number
4. The target zones associated with any matching search rules are queried in rule priority order. l If a target zone is a neighbor zone, the neighbor is queried for the E.164 number. If the neighbor supports ENUM dialing, it may route the call itself. l If a target zone is an ENUM zone, the Cisco VCS attempts to locate the endpoint through ENUM. As and when each ENUM zone configured on the Cisco VCS is queried, the E.164 number is transformed into an ENUM domain as follows: i. The digits are reversed and separated by a dot. ii. The DNS suffix configured for that ENUM zone is appended.
5. DNS is then queried for the resulting ENUM domain. 6. If the DNS server finds at that ENUM domain a NAPTR record that matches the transformed
E.164 number (that is, after it has been reversed and separated by a dot), it returns the associated URI to the Cisco VCS. 7. The Cisco VCS then initiates a new search for that URI (maintaining the existing hop count). The Cisco VCS starts at the beginning of the search process (applying any pre-search transforms, then searching local and external zones in priority order).From this point, as it is now searching for a SIP/H.323 URI, the process for URI dialing is followed.
In this example, we want to call Fred at Example Corp. Fred's endpoint is actually registered with the URI [email protected], but to make it easier to contact him his system administrator has configured a DNS NAPTR record mapping this alias to his E.164 number: +44123456789.
We know that the NAPTR record for example.com uses the DNS domain of e164.arpa.
1. We create an ENUM zone on our local Cisco VCS with a DNS suffix of e164.arpa. 2. We configure a search rule with a Pattern match mode of Any alias, and set the Target to the
ENUM zone. This means that ENUM will always be queried regardless of the format of the alias being searched for. 3. We dial 44123456789 from our endpoint. 4. The Cisco VCS initiates a search for a registration of 44123456789 and the search rule of Any alias means the ENUM zone is queried. (Note that other higher priority searches could potentially match the number first.) 5. Because the zone being queried is an ENUM zone, the Cisco VCS is automatically triggered to transform the number into an ENUM domain as follows: a. The digits are reversed and separated by a dot: 9.8.7.6.5.4.3.2.1.4.4. b. The DNS suffix configured for this ENUM zone, e164.arpa, is appended. This results in a
transformed domain of 9.8.7.6.5.4.3.2.1.4.4.e164.arpa. 6. DNS is then queried for that ENUM domain. 7. The DNS server finds the domain and returns the information in the associated NAPTR record.
This tells the Cisco VCS that the E.164 number we have dialed is mapped to the SIP URI of [email protected]. 8. The Cisco VCS then starts another search, this time for [email protected]. From this point the process for URI dialing is followed, and results in the call being forwarded to Fred's endpoint.
Zone configuration for ENUM dialing
For locally registered endpoints to use ENUM dialing, you must configure an ENUM zone and related search rules for each ENUM service used by remote endpoints.
Adding and configuring ENUM zones
To set up an ENUM zone:
1. Go to the Zones page (VCS configuration > Zones). 2. Click New. You are taken to the Create zone page.

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3. Enter a Name for the zone and select a Type of ENUM. 4. Configure the ENUM zone settings as follows:
Field Guidelines
Hop The hop count specified for an ENUM zone is applied in the same manner as hop count counts for other zone types. The currently applicable hop count is maintained when the
Cisco VCS initiates a new search process for the alias returned by the DNS lookup.
DNS The suffix to append to a transformed E.164 number to create an ENUM host name. It suffix represents the DNS zone (in the domain name space) to be queried for a NAPTR record.
H.323 Controls if H.323 records are looked up for this zone. mode
SIP Controls if SIP records are looked up for this zone. mode
5. Click Create zone.
Note that:
n Any number of ENUM zones may be configured on the Cisco VCS. You should configure at least one ENUM zone for each DNS suffix that your endpoints may use.
n Normal search rule pattern matching and prioritization rules apply to ENUM zones. n You must also configure the Cisco VCS with details of DNS servers to be used when searching for
NAPTR records.
Configuring matches for ENUM zones
If you want locally registered endpoints to be able to make ENUM calls via the Cisco VCS, then at a minimum you should configure an ENUM zone and a related search rule with:
n a DNS suffix of e164.arpa (the domain specified by the ENUM standard) n a related search rule with a Mode of Any alias
This results in DNS always being queried for all types of aliases, not just ENUMs. It also means that ENUM dialing will only be successful if the enterprise being dialed uses the e164.arpa domain. To ensure successful ENUM dialing, you must configure an ENUM zone for each domain that holds NAPTR records for endpoints that callers in your enterprise might want to dial.
You can then set up search rules that filter the queries sent to each ENUM zone as follows:
n use a Mode of Alias pattern match n use the Pattern string and Pattern type fields to define the aliases for each domain that will trigger
an ENUM lookup
For example, you want to enable ENUM dialing from your network to a remote office in the UK where the endpoints' E.164 numbers start with 44. You would configure an ENUM zone on your Cisco VCS, and then an associated search rule with:
n Mode of Alias pattern match n Pattern string of 44 n Pattern type of Prefix
This will result in an ENUM query being sent to that zone only when someone dials a number starting with 44.

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Configuring transforms for ENUM zones
You can configure transforms for ENUM zones in the same way as any other zones (see the Search and zone transform process section for full information).
Any ENUM zone transforms are applied before the number is converted to an ENUM domain.
For example, you want to enable ENUM dialing from your network to endpoints at a remote site using a prefix of 8 followed by the last 4 digits of the remote endpoints' E.164 number. You would configure an ENUM zone on your Cisco VCS and then an associated search rule with:
n Mode of Alias pattern match n Pattern string of 8(\d{4}) n Pattern type of Regex n Pattern behavior of Replace n Replace string of 44123123(\1)
With this configuration, it is the resulting string (44123123xxxx) that is converted into an ENUM domain and queried for via DNS.
To verify you have configured your outward ENUM dialing correctly, use the Locate tool (Maintenance > Tools > Locate) to try to resolve an E.164 alias.
ENUM dialing for incoming calls
For your locally registered endpoints to be reached using ENUM dialing, you must configure a DNS NAPTR record that maps your endpoints' E.164 numbers to their SIP/H.323 URIs. This record must be located at an appropriate DNS domain where it can be found by any systems attempting to reach you by using ENUM dialing.
About DNS domains for ENUM
ENUM relies on the presence of NAPTR records to provide the mapping between E.164 numbers and their SIP/H.323 URIs.
RFC 3761 [8], which is part of a suite of documents that define the ENUM standard, specifies that the domain for ENUM - where the NAPTR records should be located for public ENUM deployments - is e164.arpa. However, use of this domain requires that your E.164 numbers are assigned by an appropriate national regulatory body. Not all countries are yet participating in ENUM, so you may want to use an alternative domain for your NAPTR records. This domain could reside within your corporate network (for internal use of ENUM) or it could use a public ENUM database such as http://www.e164.org.
Configuring DNS NAPTR records
ENUM relies on the presence of NAPTR records, as defined by RFC 2915 [7]. These are used to obtain an H.323 or SIP URI from an E.164 number.
The record format that the Cisco VCS supports is:
order flag preference service regex replacement
where:
n order and preference determine the order in which NAPTR records are processed. The record with the lowest order is processed first, with those with the lowest preference being processed first in the case of matching order.
n flag determines the interpretation of the other fields in this record. Only the value u (indicating that this is a terminal rule) is currently supported, and this is mandatory.

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n service states whether this record is intended to describe E.164 to URI conversion for H.323 or for SIP. Its value must be either E2U+h323 or E2U+SIP.
n regex is a regular expression that describes the conversion from the given E.164 number to an H.323 or SIP URI.
n replacement is not currently used by the Cisco VCS and should be set to . (the full stop character).
Non-terminal rules in ENUM are not currently supported by the Cisco VCS. For more information on these, see section 2.4.1 of RFC 3761 [8],
For example, the record:
IN NAPTR 10 100 "u" "E2U+h323" "!^(.*)$!h323:\[email protected]!" .
would be interpreted as follows:
n 10 is the order n 100 is the preference n u is the flag n E2U+h323 states that this record is for an H.323 URI n !^(.*)$!h323:\[email protected]! describes the conversion:
l ! is a field separator l the first field represents the string to be converted. In this example, ^(.*)$ represents the entire
E.164 number l the second field represents the H.323 URI that will be generated. In this example,
h323:\[email protected] states that the E.164 number will be concatenated with @example.com. For example, 1234 will be mapped to [email protected]. n . shows that the replacement field has not been used.
Configuring DNS servers for ENUM and URI dialing
DNS servers are required to support ENUM and URI dialing:
n ENUM dialing: to query for NAPTR records that map E.164 numbers to URIs n URI dialing: to look up endpoints that are not locally registered or cannot be accessed via neighbor
systems
To configure the DNS servers used by the Cisco VCS for DNS queries:
1. Go to the DNS page (System > DNS). 2. Enter in the Address 1 to Address 5 fields the IP addresses of up to 5 DNS servers that the Cisco
VCS will query when attempting to locate a domain. These fields must use an IP address, not a FQDN.
Configuring a zone for incoming calls only
To configure a zone so that it is never sent an alias search request (for example if you only want to receive incoming calls from this zone), do not define any search rules that have that zone as its target.
In this scenario, when viewing the zone, you can ignore the warning indicating that search rules have not been configured.
Call signaling configuration
The Calls page (VCS configuration > Calls) is used to configure the Cisco VCS's call signaling functionality.
Call routed mode
Calls are made up of two components - signaling and media. For traversal calls, the Cisco VCS always handles both the media and the signaling. For non-traversal calls, the Cisco VCS does not

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handle the media, and may or may not need to handle the signaling.
The Call routed mode setting specifies whether the Cisco VCS removes itself, where it can, from the call signaling path after the call has been set up. The options for this setting are:
n Always: the Cisco VCS always handles the call signaling. The call consumes either a traversal call license (if it is a traversal call) or a local (non-traversal) call license (if it is not a traversal call) on the Cisco VCS.
n Optimal: the Cisco VCS handles the call signaling when the call is one of: l a traversal call l an H.323 call that has been modified by Call Policy or FindMe such that it resolves to more than one alias, or has a "no answer" or "busy" device configured l one of the endpoints in the call is locally registered
In all other cases the Cisco VCS removes itself from the call signaling path after the call has been set up. The Cisco VCS does not consume a call license for any such calls, and the call signaling path is simplified. This setting is useful in a hierarchical dial plan, when used on the central Cisco VCS. In such deployments the central Cisco VCS is used to look up and locate endpoints and it does not have any endpoints registered directly to it.
Call loop detection mode
Your dial plan or that of networks to which you are neighbored may be configured in such a way that there are potential signaling loops. An example of this is a structured dial plan, where all systems are neighbored together in a mesh. In such a configuration, if the hop counts are set too high, a single search request may be sent repeatedly around the network until the hop count reaches 0, consuming resources unnecessarily.
The Cisco VCS can be configured to detect search loops within your network and terminate such searches through the Call loop detection mode setting. The options for this setting are:
n On: the Cisco VCS will fail any branch of a search that contains a loop, recording it as a level 2 "loop detected" event. Two searches are considered to be a loop if they: l have same call tag l are for the same destination alias l use the same protocol, and l originate from the same zone
Using this setting allows you to save on network resources and fail call branches early where loops have been detected.
n Off: the Cisco VCS will not detect and fail search loops. You are recommended to use this setting only in advanced deployments.
Note: the loop detection feature was introduced in Cisco VCS version X4. It is only supported in deployments where all Cisco VCSs are running on X4 software or later.
Identifying calls
Each call that passes through the Cisco VCS is assigned a Call ID and a Call Serial Number. Calls also have a Call Tag assigned if one does not already exist.
Call ID
The Cisco VCS assigns each call currently in progress a different Call ID. The Call ID numbers start at 1 and go up to the maximum number of calls allowed on that system.

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Each time a call is made, the Cisco VCS will assign that call the lowest available Call ID number. For example, if there is already a call in progress with a Call ID of 1, the next call will be assigned a Call ID of 2. If Call 1 is then disconnected, the third call to be made will be assigned a Call ID of 1.
The Call ID is not therefore a unique identifier: while no two calls in progress at the same time will have the same Call ID, the same Call ID will be assigned to more than one call over time.
Note that the Cisco VCS web interface does not show the Call ID.
Call Serial Number
The Cisco VCS assigns a unique Call Serial Number to every call passing through it. No two calls on a Cisco VCS will ever have the same Call Serial Number. A single call passing between two or more Cisco VCSs will be identified by a different Call Serial Number on each system.
Call Tag
Call Tags are used to track calls passing through a number of Cisco VCSs. When the Cisco VCS receives a call, it checks to see if there is a Call Tag already assigned to it. If so, the Cisco VCS will use the existing Call Tag; if not, it will assign a new Call Tag to the call. This Call Tag is then included in the call's details when the call is forwarded on. A single call passing between two or more Cisco VCSs will be assigned a different Call Serial Number each time it arrives at a Cisco VCS (including one it has already passed through) but can be identified as the same call by use of the Call Tag. This is particularly useful if you are using a remote syslog server to collate events across a number of Cisco VCSs in your network.
The Call Tag also helps identify loops in your network - it is used as part of the automatic call loop detection feature, and you can also search the Event Log for all events relating to a single call tag. Loops occur when a query is sent to a neighbor zone and passes through one or more systems before being routed back to the original Cisco VCS. In this situation the outgoing and incoming query will have different Call Serial Numbers and may even be for different destination aliases (depending on whether any transforms were applied). However, the call will still have the same Call Tag.
Note: Call Tags are supported by Cisco VCS version X3.0 or later. If a call passes through a system that is not a Cisco VCS, or a Cisco VCS that is running an earlier version of the software, the Call Tag information will be lost.
Identifying calls in the CLI
To control a call using the CLI, you must reference the call using either its Call ID or Call Serial Number. These can be obtained using the command:
n xStatus Calls
This returns details of each call currently in progress in order of their Call ID. The second line of each entry lists the Call Serial Number, and the third lists the Call Tag, for example:

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Disconnecting calls
Disconnecting a call using the web interface
To disconnect one or more existing calls using the web interface:
1. Go to the Calls page (Status > Calls). 2. If you want to confirm the details of the call, including the Call Serial Number and Call Tag, click
View. Click the back button on your browser to return to the Calls page. 3. Select the box next to the calls you want to terminate and click Disconnect.
Note that if your Cisco VCS is part of a cluster you have to be logged into the peer through which the call is associated to be able to disconnect the call.
Disconnecting a call using the CLI
To disconnect an existing call using the CLI, you must first obtain either the call ID number or the call serial number (see Identifying calls). Then use either one of the following commands as appropriate:
n xCommand DisconnectCall Call: <ID number> n xCommand DisconnectCall CallSerialNumber: <serial number>
While it is quicker to use the call ID number to reference the call to be disconnected, there is a risk that in the meantime the call has already been disconnected and the call ID assigned to a new call. For this reason, the Cisco VCS also allows you to reference the call using the longer but unique call serial number.
Note: when disconnecting a call, only the call with that Call Serial Number is disconnected. Other calls with the same Call Tag but a different Call Serial Number may not be affected.
Limitations when disconnecting SIP calls
Call disconnection works differently for H.323 and SIP calls due to differences in the way the protocols work.
For H.323 calls, and interworked calls, the Disconnect command actually disconnects the call.
For SIP calls, the Disconnect command causes the Cisco VCS to release all resources used for the call; the call will appear as disconnected on the Cisco VCS. SIP calls are peer-to-peer, and as the Cisco VCS is a SIP proxy it has no authority over the endpoints. Releasing the resources on the Cisco VCS may have the side-effect of disconnecting the SIP call, but the call signaling, media or both may

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stay up (depending on the type of call being made). The call will not actually disconnect until the SIP endpoints involved have also released their resources. Note: endpoints that support SIP session timers (RFC 4028 [14]) have a call refresh timer which allows them to detect a hung call (signaling lost between endpoints). The endpoints can then release their resources after the negotiated timeout period.

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Bandwidth control
This section describes how to control the bandwidth that is used for calls within your Local Zone, as well as calls out to other zones (VCS configuration > Local Zone and VCS configuration > Bandwidth).
It includes the following information:
n an overview of bandwidth control and subzones n how to configure subzones and membership rules n how to configure links and pipes n some bandwidth control examples
About bandwidth control
The Cisco VCS allows you to control the amount of bandwidth used by endpoints on your network. This is done by grouping endpoints into subzones, and then using links and pipes to apply limits to the bandwidth that can be used:
n within each subzone n between a subzone and another subzone n between a subzone and a zone
Bandwidth limits may be set on a call-by-call basis and/or on a total concurrent usage basis. This flexibility allows you to set appropriate bandwidth controls on individual components of your network.
Note: calls will fail if links are not configured correctly. You can check whether a call will succeed, and what bandwidth will be allocated to it, using the command xCommand CheckBandwidth.
For specific information about how bandwidth is managed across peers in a cluster, see Sharing bandwidth across peers.
Example network deployment
The diagram below shows a typical network deployment:
n a broadband LAN between the Enterprise and the internet, where high bandwidth calls are acceptable
n a pipe to the internet (Pipe A) with restricted bandwidth n two satellite offices, Branch and Home, each with their own internet connections and restricted
pipes
In this example each pool of endpoints has been assigned to a different subzone, so that suitable limitations can be applied to the bandwidth used within and between each subzone based on the amount of bandwidth they have available via their internet connections.

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Bandwidth configuration
The Bandwidth configuration page (VCS configuration > Bandwidth > Configuration) is used to specify how the Cisco VCS behaves in situations when it receives a call with no bandwidth specified, and when it receives a call that requests more bandwidth than is currently available.
The options are:

Field

Description

Usage tips

Default call The bandwidth value to be used for calls for which

bandwidth no bandwidth value has been specified by the

(kbps)

system that initiated the call.

This value cannot be blank. The default value is 384kbps.

Usually, when a call is initiated the endpoint will include in the request the amount of bandwidth it wants to use.

Downspeed per call mode

Determines what happens if the per-call bandwidth restrictions on a subzone or pipe mean that there is insufficient bandwidth available to place a call at the requested rate.

On: the call will be downspeeded.

Off: the call will not be placed.

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Field

Description

Downspeed total mode

Determines what happens if the total bandwidth restrictions on a subzone or pipe mean that there is insufficient bandwidth available to place a call at the requested rate.

On: the call will be downspeeded.

Off: the call will not be placed.

Usage tips

About downspeeding
If bandwidth control is in use, there may be situations when there is insufficient bandwidth available to place a call at the requested rate. By default (and assuming that there is some bandwidth still available) the Cisco VCS will still attempt to connect the call, but at a reduced bandwidth ­ this is known as downspeeding.
Downspeeding can be configured so that it is applied in either or both of the following scenarios:
n when the requested bandwidth for the call exceeds the lowest per-call limit for the subzone or pipes n when placing the call at the requested bandwidth would mean that the total bandwidth limits for that
subzone or pipes would be exceeded
You can turn off downspeeding, in which case if there is insufficient bandwidth to place the call at the originally requested rate, the call will not be placed at all. This could be used if, when your network is nearing capacity, you would rather a call failed to connect at all than be connected at a lower than requested speed. In this situation endpoint users will get one of the following messages, depending on the system that initiated the search:
n "Exceeds Call Capacity" n "Gatekeeper Resources Unavailable"
About subzones
The Local Zone is made up of subzones. Subzones are used to control the bandwidth used by various parts of your network, and to control registrations.
When an endpoint registers with the Cisco VCS it is allocated to an appropriate subzone, determined by subzone membership rules based on endpoint IP address ranges or alias pattern matches.
You can create and configure subzones through the Subzones page (VCS configuration > Local Zone > Subzones).
Three special subzones -- the Default Subzone, the Traversal Subzone and the Cluster Subzone (only applies if the Cisco VCS is in a cluster) -- are automatically created and cannot be deleted.
Default links between subzones
The Cisco VCS is shipped with the Default Subzone and Traversal Subzone (and Default Zone) already created, and with links between the three. You can delete or amend these default links if you need to model restrictions of your network.
About the Traversal Subzone
The Traversal Subzone is a conceptual subzone. No endpoints can be registered to the Traversal Subzone; its sole purpose is to control the bandwidth used by traversal calls.

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The Traversal Subzone page (VCS configuration > Local Zone > Traversal Subzone) allows you to place bandwidth restrictions on calls being handled by the Traversal Subzone and to configure the range of ports used for the media in traversal calls.
Configuring bandwidth limitations
All traversal calls are deemed to pass through the Traversal Subzone, so by applying bandwidth limitations to the Traversal Subzone you can control how much processing of media the Cisco VCS will perform at any one time. These limitations can be applied on a total concurrent usage basis, and on a per-call basis.
See Applying bandwidth limitations to subzones for more details.
Configuring the Traversal Subzone ports
The Cisco VCS allows you to configure the range of ports used for the media in traversal calls. A single traversal call can consist of up to 5 types of media (audio, video, far end camera control, dual streams and BFCP) and each type of media may require a pair of ports ­ for example, audio and video each require one port for RTP, and one for RTCP. Separate pairs of ports are required for the inbound and outbound portions of a call. A single traversal call can therefore take up to 20 ports.
The default range for the ports to be used for media is 50000 - 52399 UDP, but these can be changed to any values between 1024 and 65533. Ports are allocated from this range in pairs, with the first port number of each pair being an even number. Therefore the range must start with an even number and end with an odd number.
To configure the ports used for media in traversal calls, go to VCS configuration > Local Zone > Traversal Subzone.
Note: you must ensure that the port range is large enough to support the maximum number of traversal calls available on your Cisco VCS. A single traversal call can take up to 20 ports (5 pairs in each direction). So for example, if your Cisco VCS is licensed for 5 traversal calls you must ensure that the range of ports configured for traversal media is at least 100. If you add extra traversal calls to your system, you must also ensure that the range of ports available is sufficient.
About the Default Subzone
The Default Subzone page (VCS configuration > Local Zone > Default Subzone) is used to place bandwidth restrictions on calls involving endpoints in the Default Subzone, and to specify the Default Subzone's registration and authentication policies.
When an endpoint registers with the Cisco VCS, its IP address and alias is checked against the subzone membership rules and it is assigned to the appropriate subzone. If no subzones have been created, or the endpoint's IP address or alias does not match any of the subzone membership rules, it is assigned to the Default Subzone (subject to the Default Subzone's Registration policy and Authentication policy).
The use of a Default Subzone on its own (without any other manually configured subzones) is suitable only if you have uniform bandwidth available between all your endpoints. Note that if your Local Zone contains two or more different networks with different bandwidth limitations, you should configure separate subzones for each different part of the network.
Configuring subzones
The Subzones page (VCS configuration > Local Zone > Subzones) lists all the subzones that have been configured on the Cisco VCS, and allows you to create, edit and delete subzones. For each subzone, it shows how many membership rules it has, how many devices are currently registered to it, and the current number of calls and bandwidth in use. Up to 1000 subzones can be configured.

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After configuring a subzone you should set up the Subzone membership rules which control which subzone an endpoint device is assigned to when it registers with the Cisco VCS.
Subzone registration policy
When an endpoint registers with the Cisco VCS, its IP address and alias is checked against the subzone membership rules and it is assigned to the appropriate subzone. If no subzones have been created, or the endpoint's IP address or alias does not match any of the subzone membership rules, it is assigned to the Default Subzone.
In addition to using a registration restriction policy to control whether an endpoint can register with the Cisco VCS, you can also configure each manually created subzone and the Default Subzone as to whether it will accept registrations assigned to it via the subzone membership rules.
This provides additional flexibility when defining your registration policy. For example you can:
n Deny registrations based on IP address subnet. You can do this by creating a subzone with associated membership rules based on an IP address subnet range, and then setting that subzone to deny registrations.
n Configure the Default Subzone to deny registrations. This would cause any registration requests that do not match any of the subzone membership rules, and hence fall into the Default Subzone, to be denied.
Note that registration requests have to fulfill any registration restriction policy rules before any subzone membership and subzone registration policy rules are applied.
Subzone authentication policy
To control the services available to endpoints registered to a subzone you can specify how each subzone authenticates incoming messages and whether they are subsequently treated as authenticated, unauthenticated or are rejected.
See the Authentication Policy configuration options section for more information about the policy settings, and how they are applied to zones and subzones.
Bandwidth controls
When configuring your subzones you can apply bandwidth limits to:
n individual calls between two endpoints within the subzone n individual calls between an endpoint within the subzone and another endpoint outside of the
subzone n the total of calls to or from endpoints within the subzone
See Applying bandwidth limitations to subzones for information about how the bandwidth limits are set and managed.
Configuring subzone membership rules
The Subzone membership rules page (VCS configuration > Local Zone > Subzone membership rules) is used to configure the rules that determine, based on the address of the device, to which subzone an endpoint is assigned when it registers with the Cisco VCS.
The page lists all the subzone membership rules that have been configured on the Cisco VCS, and lets you create, edit, delete, enable and disable rules. Up to 3000 subzone membership rules can be configured.
Note: if the endpoint's IP address or registration alias does not match any of the membership rules, it is assigned to the Default Subzone.
The configurable options are:

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Field

Description

Usage tips

Rule name A descriptive name for the membership rule.

Description An optional free-form description of the rule. The description appears as a tooltip if you hover your mouse pointer over a rule in the list.

Priority

The order in which the rules are applied (and thus to which subzone the endpoint is assigned) if an endpoint's address satisfies multiple rules.

The rules with the highest priority (1, then 2, then 3 and so on) are applied first. If multiple Subnet rules have the same priority, the rule with the largest prefix length is applied first. Alias pattern match rules at the same priority are searched in configuration order.

Type

Determines how a device's address is checked:
Subnet: assigns the device if its IP address falls within the configured IP address subnet.
Alias pattern match: assigns the device if its alias matches the configured pattern.

Pattern matching is useful, for example, for home workers on dynamic IP addresses; rather than having to continually update the subnet to match what has been allocated, you can match against their alias instead.

Subnet address and Prefix length

These two fields together determine the range of IP addresses that will belong to this subzone.
The Address range field shows the range of IP addresses to be allocated to this subzone, based on the combination of the Subnet address and Prefix length.

Applies only if the Type is Subnet.

Pattern type How the Pattern string must match the alias for the rule to be applied. Options are:
Exact: the entire string must exactly match the alias character for character.
Prefix: the string must appear at the beginning of the alias.
Suffix: the string must appear at the end of the alias.
Regex: treats the string as a regular expression.

Applies only if the Type is Alias pattern match.

Pattern string
Target subzone
State

The pattern against which the alias is compared.
The subzone to which an endpoint is assigned if its address satisfies this rule.
Indicates if the rule is enabled or not.

Applies only if the Type is Alias pattern match.

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Enabling and disabling membership rules
When you are making or testing configuration changes to your membership rules, you may want to temporarily enable or disable certain rules. You can do this by selecting the rule's check box and clicking Enable or Disable as appropriate. Any disabled rules still appear in the membership rules list but are ignored by the Cisco VCS when processing registration requests.

Applying bandwidth limitations to subzones
You can apply bandwidth limits to the Default Subzone, Traversal Subzone and all manually configured subzones. The limits you can apply vary depending on the type of subzone, as follows:

Limitation Total

Description

Can be applied to

Limits the total concurrent bandwidth being used by all endpoints in the subzone at any one time. In the case of the Traversal Subzone, this is the maximum bandwidth available for all concurrent traversal calls.

Default Subzone
Traversal Subzone
Manually configured subzones

Calls entirely Limits the bandwidth of any individual call between

within...

two endpoints within the subzone.

Default Subzone
Manually configured subzones

Calls into or out of...

Limits the bandwidth of any individual call between an endpoint in the subzone, and an endpoint in another subzone or zone.

Default Subzone
Manually configured subzones

Calls

The maximum bandwidth available to any individual

handled by... traversal call.

Traversal Subzone

For all the above limitations, the Bandwidth restriction setting has the following effect:
n No bandwidth: no bandwidth is allocated and therefore no calls can be made. n Limited: limits are applied. You must also enter a value in the corresponding bandwidth (kbps) field. n Unlimited: no restrictions are applied to the amount of bandwidth being used.
Use subzone bandwidth limits if you want to configure the bandwidth available between one specific subzone and all other subzones or zones.
Use pipes if you want to configure the bandwidth available between one specific subzone and another specific subzone or zone.
If your bandwidth configuration is such that multiple types of bandwidth restrictions are placed on a call (for example, if there are both subzone bandwidth limits and pipe limits), the lowest limit will always apply to that call.
How different bandwidth limitations are managed
In situations where there are differing bandwidth limitations applied to the same link, the lower limit will always be the one used when routing the call and taking bandwidth limitations into account.
For example, Subzone A may have a per call inter bandwidth of 128. This means that any calls between Subzone A and any other subzone or zone will be limited to 128kbps. However, Subzone A also has a link configured between it and Subzone B. This link uses a pipe with a limit of 512kbps. In

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this situation, the lower limit of 128kbps will apply to calls between the two, regardless of the larger capacity of the pipe.
In the reverse situation, where Subzone A has a per call inter bandwidth limit of 512kbps and a link to Subzone B with a pipe of 128, any calls between the two subzones will still be limited to 128kbps.
Bandwidth consumption of traversal calls
A non-traversal call between two endpoints within the same subzone would consume from that subzone the amount of bandwidth of that call.
A traversal call between two endpoints within the same subzone must, like all traversal calls, pass through the Traversal Subzone. This means that such calls consume an amount of bandwidth from the originating subzone's total concurrent allocation that is equal to twice the bandwidth of the call ­ once for the call from the subzone to the Traversal Subzone, and again for the call from the Traversal Subzone back to the originating subzone. In addition, as this call passes through the Traversal Subzone, it will consume an amount of bandwidth from the Traversal Subzone equal to that of the call.

Links and pipes

Configuring links
Links connect local subzones with other subzones and zones. For a call to take place, the endpoints involved must each reside in subzones or zones that have a link between them. The link does not need to be direct; the two endpoints may be linked via one or more intermediary subzones.
Links are used to calculate how a call is routed over the network and therefore which zones and subzones are involved and how much bandwidth is available. If multiple routes are possible, your Cisco VCS will perform the bandwidth calculations using the one with the fewest links.
The Links page (VCS configuration > Bandwidth > Links) lists all existing links and allows you to create, edit and delete links.
The following information is displayed:

Field Name
Node 1 and Node 2 Pipe 1 and Pipe 2 Calls Bandwidth used

Description The name of the link. Automatically created links have names based on the nodes that the link is between. The two subzones, or one subzone and one zone, that the link is between.
Any pipes that have been used to apply bandwidth limitations to the link. See Applying pipes to links for more information. Shows the total number of calls currently traversing the link. Shows the total amount of bandwidth currently being consumed by all calls traversing the link.

You can configure up to 3000 links.
Whenever a subzone or zone is created, certain links are automatically created; see Default links for further information.

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Default links
If a subzone has no links configured, then endpoints within the subzone will only be able to call other endpoints within the same subzone. For this reason, the Cisco VCS comes shipped with a set of preconfigured links and will also automatically create new links each time you create a new subzone.

Pre-configured links
The Cisco VCS is shipped with the Default Subzone, Traversal Subzone and Default Zone already created, and with default links pre-configured between the three which are named as follows: DefaultSZtoTraversalSZ, DefaultSZtoDefaultZ and TraversalSZtoDefaultZ.
You can edit any of these default links in the same way you would edit manually configured links.
If any of these links have been deleted you can re-create them, either:
n manually through the web interface n automatically by using the CLI command xCommand DefaultLinksAdd
Automatically created links
Whenever a new subzone or zone is created, links are automatically created as follows:

New zone/subzone type Subzone Neighbor zone DNS zone ENUM zone Traversal client zone Traversal server zone

Default links are created to... Default Subzone and Traversal Subzone Default Subzone and Traversal Subzone Default Subzone and Traversal Subzone Default Subzone and Traversal Subzone Traversal Subzone Traversal Subzone

Along with the pre-configured default links this ensures that, by default, any new subzone or zone has connectivity to all other subzones and zones. You may rename, delete and amend any of these default links.
Note: calls will fail if links are not configured correctly. You can check whether a call will succeed, and what bandwidth will be allocated to it, using the CLI command xCommand CheckBandwidth.
Configuring pipes
Pipes are used to control the amount of bandwidth used on calls between specific subzones and zones. To apply these limits, you must first create a pipe and configure it with the required bandwidth limitations. Then when configuring links you assign the pipe to one or more links. Calls using the link will then have the pipe's bandwidth limitations applied to them. See Applying pipes to links for more information.
The Pipes page (VCS configuration > Bandwidth > Pipes) lists all the pipes that have been configured on the Cisco VCS and allows you to create, edit and delete pipes.
The following information is displayed:

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Field Name Total bandwidth Per call bandwidth Calls
Bandwidth used

Description The name of the pipe. The upper limit on the total bandwidth used at any one time by all calls on all links to which this pipe is applied. The maximum bandwidth of any one call on the links to which this pipe is applied.
Shows the total number of calls currently traversing all links to which the pipe is applied. Shows the total amount of bandwidth currently being consumed by all calls traversing all links to which the pipe is applied.

You can configure up to 1000 pipes.
See Applying bandwidth limitations to subzones for information about how the bandwidth limits are set and managed.
Applying pipes to links
Pipes are used to restrict the bandwidth of a link. When a pipe is applied to a link, it will restrict the bandwidth of calls made between the two nodes of the link - the restrictions will apply to calls in either direction.
Normally a single pipe would be applied to a single link. However, one or more pipes may be applied to one or more links, depending on how you want to model your network.
One pipe, one link
Applying a single pipe to a single link is useful when you want to apply specific limits to calls between a subzone and another specific subzone or zone.
One pipe, two or more links
Each pipe may be applied to multiple links. This is used to model the situation where one site communicates with several other sites over the same broadband connection to the Internet. A pipe should be configured to represent the broadband connection, and then applied to all the links. This allows you to configure the bandwidth options for calls in and out of that site.
In the diagram below, Pipe A has been applied to two links: the link between the Default Subzone and the Home Office subzone, and the link between the Default Subzone and the Branch Office subzone. In this case, Pipe A represents the Head Office's broadband connection to the internet, and would have total and per-call restrictions placed on it.
Two pipes, one link
Each link may have up to two pipes associated with it. This is used to model the situation where the two nodes of a link are not directly connected, for example two sites that each have their own broadband connection to the Internet. Each connection should have its own pipe, meaning that a link between the two nodes should be subject to the bandwidth restrictions of both pipes.
In the diagram below, the link between the Default Subzone and the Home Office Subzone has two pipes associated with it: Pipe A, which represents the Head Office's broadband connection to the internet, and Pipe B, which represents the Home Office's dial-up connection to the internet. Each pipe

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would have bandwidth restrictions placed on it to represent its maximum capacity, and a call placed via this link would have the lower of the two bandwidth restrictions applied.

Bandwidth control examples
Without a firewall
In the example below, there are three geographically separate offices: Head, Branch and Home. All endpoints in the Head Office register with the Cisco VCS Control, as do those in the Branch and Home offices.
Each of the three offices is represented as a separate subzone on the Cisco VCS, with bandwidth configured according to local policy.
The enterprise's leased line connection to the Internet, and the DSL connections to the remote offices are modeled as separate pipes.
There are no firewalls involved in this scenario, so direct links can be configured between each of the offices. Each link is then assigned two pipes, representing the Internet connections of the offices at each end of the link.
In this scenario, a call placed between the Home Office and Branch Office will consume bandwidth from the Home and Branch subzones and on the Home and Branch pipes (Pipe B and Pipe C). The Head Office's bandwidth budget will be unaffected by the call.

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With a firewall
If the example deployment above is modified to include firewalls between the offices, we can use Cisco's Expressway firewall traversal solution to maintain connectivity. We do this by adding a Cisco VCS Expressway outside the firewall on the public internet, which will work in conjunction with the Cisco VCS Control and Home and Branch office endpoints to traverse the firewalls.
In this example, shown below, the endpoints in the Head Office register with the Cisco VCS Control, while those in the Branch and Home offices register with the Cisco VCS Expressway. The introduction of the firewalls means that there is no longer any direct connectivity between the Branch and Home offices. All traffic must be routed through the Cisco VCS Expressway. This is shown by the absence of a link between the Home and Branch subzones.
The Cisco VCS Expressway has subzones configured for the Home Office and Branch Office. These are linked to the Cisco VCS Expressway's Traversal Subzone, with pipes placed on each link. All calls from the Cisco VCS Expressway to the Cisco VCS Control must go through the Traversal Subzone and will consume bandwidth from this subzone. Note also that calls from the Home Office to the Branch Office must also go through the Traversal Subzone, and will also consume bandwidth from this subzone as well as the Home and Branch subzones and Home Office, Branch Office and Head Office pipes.
This example assumes that there is no bottleneck on the link between the Cisco VCS Expressway and the Head Office network, so a pipe has not been placed on this link. If you want to limit the amount of traffic flowing through your firewall, you could provision a pipe on this link.
Because the Cisco VCS Control is only managing endpoints on the Head Office LAN, its configuration is simpler. All of the endpoints in the Head Office are assigned to the Default Subzone. This is linked to the Traversal Subzone, through which all calls leaving the Head Office must pass.

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Firewall traversal
This section describes how to configure your Cisco VCS Control and Cisco VCS Expressway in order to traverse firewalls.
It includes the following information:
n an overview of firewall traversal n how to configure the Cisco VCS as a traversal client and as a traversal server n firewall traversal protocols and ports n firewall configuration guidelines n an overview of ICE and TURN services
About firewall traversal
The purpose of a firewall is to control the IP traffic entering your network. Firewalls will generally block unsolicited incoming requests, meaning that any calls originating from outside your network will be prevented. However, firewalls can be configured to allow outgoing requests to certain trusted destinations, and to allow responses from those destinations. This principle is used by Cisco's Expressway technology to enable secure traversal of any firewall.
Expressway solution
The Expressway solution consists of:
n a Cisco VCS Expressway or Border Controller located outside the firewall on the public network or in the DMZ, which acts as the firewall traversal server
n a Cisco VCS Control, Gatekeeper, MXP endpoint or other traversal-enabled endpoint located in a private network, which acts as the firewall traversal client
The two systems work together to create an environment where all connections between the two are outbound, i.e. established from the client to the server, and thus able to successfully traverse the firewall.
How does it work?
The traversal client constantly maintains a connection via the firewall to a designated port on the traversal server. This connection is kept alive by the client sending packets at regular intervals to the server. When the traversal server receives an incoming call for the traversal client, it uses this existing connection to send an incoming call request to the client. The client then initiates the necessary outbound connections required for the call media and/or signaling.
This process ensures that from the firewall's point of view, all connections are initiated from the traversal client inside the firewall out to the traversal server.
For firewall traversal to function correctly, the Cisco VCS Expressway must have one traversal server zone configured on it for each client system that is connecting to it (this does not include traversalenabled endpoints which register directly with the Cisco VCS Expressway; the settings for these connections are configured in a different way). Likewise, each Cisco VCS client must have one traversal client zone configured on it for each server that it is connecting to.
The ports and protocols configured for each pair of client-server zones must be the same. See the Quick guide to Cisco VCS traversal client - server configuration for a summary of the required configuration on each system. Because the Cisco VCS Expressway listens for connections from the client on a specific port, you are recommended to create the traversal server zone on the Cisco VCS Expressway before you create the traversal client zone on the Cisco VCS Control.

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Cisco VCS as a firewall traversal client
Your Cisco VCS can act as a firewall traversal client on behalf of SIP and H.323 endpoints registered to it, and any gatekeepers that are neighbored with it. To act as a firewall traversal client, the Cisco VCS must be configured with information about the systems that will act as its firewall traversal server.
You do this by adding a new traversal client zone on the Cisco VCS client (VCS configuration > Zones) and configuring it with the details of the traversal server. See Configuring traversal client zones for more information. You can create more than one traversal client zone if you want to connect to multiple traversal servers.
Note that:
n In most cases, you will use a Cisco VCS Control as a firewall traversal client. However, a Cisco VCS Expressway can also act as a firewall traversal client.
n The firewall traversal server used by the Cisco VCS client can be a Cisco VCS Expressway, or (for H.323 only) a TANDBERG Border Controller.
Cisco VCS as a firewall traversal server
The Cisco VCS Expressway has all the functionality of a Cisco VCS Control (including being able to act as a firewall traversal client). However, its main feature is that it can act as a firewall traversal server for other Cisco systems and any traversal-enabled endpoints that are registered directly to it. It can also provide TURN relay services to ICE-enabled endpoints.
Configuring traversal server zones
For the Cisco VCS Expressway to act as a firewall traversal server for Cisco systems, you must create and configure a traversal server zone on the Cisco VCS Expressway (VCS configuration > Zones) and configure it with the details of the traversal client. See Configuring traversal server zones for more information.
Note that you must create a separate traversal server zone for every system that is its traversal client.
Configuring other traversal server features
n For the Cisco VCS Expressway to act as a firewall traversal server for traversal-enabled endpoints (such as Cisco MXP endpoints and any other endpoints that support the ITU H.460.18 and H.460.19 standards), no additional configuration is required. See Configuring traversal for endpoints for more information.
n To enable TURN relay services and find out more about ICE, see About ICE and TURN services. n To reconfigure the default ports used by the Cisco VCS Expressway, see Configuring traversal
server ports.
Quick guide to Cisco VCS traversal client - server configuration
Full details of how to configure a Cisco VCS Control and Cisco VCS Expressway as traversal client and server respectively are given in the following sections. However, the basic steps are as follows:
Step Description
On the Cisco VCS Expressway, create a traversal server zone (this represents the incoming connection from the Cisco VCS Control). In the Username field, enter the Cisco VCS Control's authentication username.

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Step Description On the Cisco VCS Expressway, add the Cisco VCS Control's authentication username and password as credentials into the local authentication database. Click the Add/Edit local authentication database link on the Create zone page to open the Local authentication database page from where you can add new credentials. On the Cisco VCS Control, create a traversal client zone (this represents the connection to the Cisco VCS Expressway). On the Cisco VCS Control, enter the same authentication Username and Password as specified on the Cisco VCS Expressway. Configure all the modes and ports in the H.323 and SIP protocol sections to match identically those of the traversal server zone on the Cisco VCS Expressway. Enter the Cisco VCS Expressway's IP address or FQDN in the Peer 1 address field.

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Firewall traversal protocols and ports
Ports play a vital part in firewall traversal configuration. The correct ports must be set on the Cisco VCS Expressway, traversal client and firewall in order for connections to be permitted.
Ports are initially configured on the Cisco VCS Expressway by the Cisco VCS Expressway administrator. The firewall administrator and the traversal client administrator should then be notified of the ports, and they must then configure their systems to connect to these specific ports on the server. The only port configuration that is done on the client is the range of ports it uses for outgoing connections; the firewall administrator may need to know this information so that if necessary they can configure the firewall to allow outgoing connections from those ports.
The Port usage pages (under Maintenance > Tools > Port usage) show, in table format, all the IP ports that are being used on the Cisco VCS, both inbound and outbound. This information can be provided to your firewall administrator so that the firewall can be configured appropriately.
Expressway process
The Expressway solution works as follows:
1. Each traversal client connects via the firewall to a unique port on the Cisco VCS Expressway. 2. The server identifies each client by the port on which it receives the connection, and the
authentication credentials provided by the client. 3. After the connection has been established, the client constantly sends a probe to the Cisco VCS
Expressway via this connection in order to keep the connection alive. 4. When the Cisco VCS Expressway receives an incoming call for the client, it uses this initial
connection to send an incoming call request to the client. 5. The client then initiates one or more outbound connections. The destination ports used for these
connections differ for signaling and/or media, and depend on the protocol being used (see the following sections for more details).
H.323 firewall traversal protocols
The Cisco VCS supports two different firewall traversal protocols for H.323: Assent and H.460.18/H.460.19.
n Assent is Cisco's proprietary protocol. n H.460.18 and H.460.19 are ITU standards which define protocols for the firewall traversal of
signaling and media respectively. These standards are based on the original Assent protocol.
A traversal server and traversal client must use the same protocol in order to communicate. The two protocols each use a different range of ports.
SIP firewall traversal protocols
The Cisco VCS supports the Assent protocol for SIP firewall traversal of media.
The signaling is traversed through a TCP/TLS connection established from the client to the server.
Ports for initial connections from traversal clients
Each traversal server zone specifies an H.323 port and a SIP port to be used for the initial connection from the client.
Each time you configure a new traversal server zone on the Cisco VCS Expressway, you are allocated default port numbers for these connections:

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n H.323 ports start at UDP/6001 and increment by 1 for every new traversal server zone. n SIP ports start at TCP/7001 and increment by 1 for every new traversal server zone.
You can change these default ports if necessary but you must ensure that the ports are unique for each traversal server zone.
After the H.323 and SIP ports have been set on the Cisco VCS Expressway, matching ports must be configured on the corresponding traversal client.
Note:
n The default port used for the initial connections from MXP endpoints is the same as that used for standard RAS messages, that is UDP/1719. While it is possible to change this port on the Cisco VCS Expressway, most endpoints will not support connections to ports other than UDP/1719. You are therefore recommended to leave this as the default.
n You must allow outbound connections through your firewall to each of the unique SIP and H.323 ports that are configured on each of the Cisco VCS Expressway's traversal server zones.

Default port summary
The following table shows the default ports used for connections to the Cisco VCS Expressway.

Protocol Assent

Call signaling

Media

UDP/1719: listening port for RAS messages
TCP/2776: listening port for H.225 and H.245 protocols

UDP/2776: RTP media port UDP/2777: RTCP media control port

H.460.18/19 UDP/1719: listening port for RAS messages
TCP/1720: listening port for H.225 protocol
TCP/2777: listening port for H.245 protocol

UDP/2776: RTP media port
UDP/2777: RTCP media control port
UDP/50000-52399: demultiplex media port range

SIP

SIP call signaling uses the same Where the traversal client is a Cisco VCS, SIP

port as used by the initial

media uses Assent to traverse the firewall. The

connection between the client and default ports are the same as for H.323:

server.

UDP/2776: RTP media port

UDP/2777: RTCP media control port

You have the option to change these ports if necessary by going to the Ports page (VCS configuration > Expressway > Ports).
If your Cisco VCS Expressway does not have any endpoints registering directly with it, and it is not part of a cluster, then UDP/1719 is not required. You therefore do not need to allow outbound connections to this port through the firewall between the Cisco VCS Control and Cisco VCS Expressway.
TURN ports
The Cisco VCS Expressway can be enabled to provide TURN services (Traversal Using Relays around NAT) which can be used by SIP endpoints that support the ICE firewall traversal protocol.

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The ports used by these services are configurable on the TURN page (VCS configuration > Expressway > TURN).
The ICE clients on each of the SIP endpoints must be able to discover these ports, either by using SRV records in DNS or by direct configuration.

Ports for connections out to the public internet
In situations where the Cisco VCS Expressway is attempting to connect to an endpoint on the public internet, you will not know the exact ports on the endpoint to which the connection will be made. This is because the ports to be used are determined by the endpoint and advised to the Cisco VCS Expressway only after the server has located the endpoint on the public internet. This may cause problems if your Cisco VCS Expressway is located within a DMZ (that is, there is a firewall between the Cisco VCS Expressway and the public internet) as you will not be able to specify in advance rules that will allow you to connect out to the endpoint's ports.
You can however specify the ports on the Cisco VCS Expressway that are used for calls to and from endpoints on the public internet so that your firewall administrator can allow connections via these ports. The ports that can be configured for this purpose are:

H.323 TCP/1720: signaling UDP/1719: signaling UDP/50000-52399: media TCP/15000-19999: signaling

SIP
TCP/5061: signaling UDP/5060 (default): signaling UDP/50000-52399: media TCP: a temporary port in the range 25000-29999 is allocated

TURN
UDP/3478 (default): TURN services
UDP/60000-61200 (default range): media

Firewall traversal and authentication
To control which systems can use the Cisco VCS Expressway as a traversal server, each Cisco VCS Control or Gatekeeper that wants to be its client must first authenticate with it.
Upon receiving the initial connection request from the traversal client, the Cisco VCS Expressway asks the client to authenticate itself by providing its authentication credentials. The Cisco VCS Expressway then looks up the client's credentials in its own authentication database. If a match is found, the Cisco VCS Expressway accepts the request from the client.
The settings used for authentication depend on the combination of client and server being used. These are detailed in the table below.

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Client
Cisco VCS Control or Cisco VCS Expressway
The Cisco VCS client provides its Username and Password. These are set on the traversal client zone by using VCS configuration > Zones > Edit zone, in the Connection credentials section.

Server
Cisco VCS Expressway
The traversal server zone for the Cisco VCS client must be configured with the client's authentication Username. This is set on the Cisco VCS Expressway by using VCS configuration > Zones > Edit zone, in the Connection credentials section.
There must also be an entry in the Cisco VCS Expressway's authentication database with the corresponding client username and password.

Endpoint
The endpoint client provides its Authentication ID and Authentication Password.

Cisco VCS Expressway
There must be an entry in the Cisco VCS Expressway's authentication database with the corresponding client username and password.

TANDBERG Gatekeeper (version 5.2 and earlier)
The Gatekeeper looks up its System Name in its own authentication database and retrieves the password for that name. It then provides this name and password.

Cisco VCS Expressway
The traversal server zone for the Gatekeeper client must be configured with the Gatekeeper's System Name in the Username field. This is set on the Cisco VCS Expressway by using VCS configuration > Zones > Edit zone, in the Connection credentials section.

There must be an entry in the Cisco VCS Expressway's authentication database that has the Gatekeeper's System name as the username, along with the corresponding password.

TANDBERG Gatekeeper (version 6.0 or later; 6.1 or later is recommended)
The Gatekeeper provides its Authentication Username and Authentication Password. These are set on the Gatekeeper by using Gatekeeper Configuration > Authentication, in the External Registration Credentials section.

Cisco VCS Expressway
The traversal server zone for the Gatekeeper client must be configured with the Gatekeeper's Authentication Username in the Username field. This is set on the Cisco VCS Expressway by using VCS configuration > Zones > Edit zone, in the Connection credentials section.
There must also be an entry in the Cisco VCS Expressway's authentication database with the corresponding client username and password.

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Client

Server

Cisco VCS Control or Cisco VCS Expressway
If authentication is enabled on the Border Controller, the Cisco VCS client provides its Username and Password. These are set on the traversal client zone by using VCS configuration > Zones > Edit zone, in the Connection credentials section.
If the Border Controller is in Assent mode, the Cisco VCS client provides its Username. This is set on the traversal client zone by using VCS configuration > Zones > Edit zone, in the Connection credentials section.

TANDBERG Border Controller
If authentication is enabled on the Border Controller, there must be an entry in the Border Controller's authentication database that matches the Cisco VCS client's authentication Username and Password.
If the Border Controller is in Assent mode, the traversal zone configured on the Border Controller to represent the Cisco VCS client must use the Cisco VCS's authentication Username in the Assent Account name field. This is set on the Border Controller via TraversalZone > Assent > Account name.

Note that all Cisco VCS and Gatekeeper traversal clients must authenticate with the Cisco VCS Expressway, even if the Cisco VCS Expressway is not using device authentication for endpoint clients.
Authentication and NTP
All Cisco VCS and Gatekeeper traversal clients that support H.323 must authenticate with the Cisco VCS Expressway. The authentication process makes use of timestamps and requires that each system uses an accurate system time. The system time on a Cisco VCS is provided by a remote NTP server. Therefore, for firewall traversal to work, all systems involved must be configured with details of an NTP server.
Firewall traversal and Dual Network Interfaces
The Dual Network Interfaces option key enables the LAN 2 interface on your Cisco VCS Expressway (the option is not available on a Cisco VCS Control). The LAN 2 interface is used in situations where your Cisco VCS Expressway is located in a DMZ that consists of two separate networks - an inner DMZ and an outer DMZ - and your network is configured to prevent direct communication between the two.
With the LAN 2 interface enabled, you can configure the Cisco VCS with two separate IP addresses, one for each network in the DMZ. Your Cisco VCS then acts as a proxy server between the two networks, allowing calls to pass between the internal and outer firewalls that make up your DMZ.
Note: all ports configured on the Cisco VCS, including those relating to firewall traversal, apply to both IP addresses; it is not possible to configure these ports separately for each IP address.
Firewall configuration
For Expressway firewall traversal to function correctly, the firewall must be configured to:
n allow initial outbound traffic from the client to the ports being used by the Cisco VCS Expressway n allow return traffic from those ports on the Cisco VCS Expressway back to the originating client

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Cisco offers a downloadable tool, the Expressway Port Tester, that allows you to test your firewall configuration for compatibility issues with your network and endpoints. It will advise if necessary which ports may need to be opened on your firewall in order for the ExpresswayTM solution to function correctly. The Expressway Port Tester currently only supports H.323. Contact your Cisco representative for more information.
Note: you are recommended to turn off any H.323 and SIP protocol support on the firewall: these are not needed in conjunction with the Expressway solution and may interfere with its operation.
The Port usage pages (under Maintenance > Tools > Port usage) show, in table format, all the IP ports that are being used on the Cisco VCS, both inbound and outbound. This information can be provided to your firewall administrator so that the firewall can be configured appropriately.

Configuring traversal for endpoints
Traversal-enabled H.323 endpoints can register directly with the Cisco VCS Expressway and use it for firewall traversal.
The Locally registered endpoints page (VCS configuration > Expressway > Locally registered endpoints) allows you to configure the way in which the Cisco VCS Expressway and traversalenabled endpoints communicate.
The options available are:

Field
H.323 Assent mode
H.460.18 mode
H.460.19 demux mode

Description Determines whether or not H.323 calls using Assent mode for firewall traversal are allowed.
Determines whether or not H.323 calls using H.460.18/19 mode for firewall traversal are allowed. Determines whether the Cisco VCS Expressway operates in demultiplexing mode for calls from locally registered endpoints. On: allows use of the same two ports for all calls. Off: each call uses a separate pair of ports for media.

H.323

Determines which protocol the Cisco VCS Expressway uses if an endpoint supports

preference both Assent and H.460.18.

UDP probe The frequency (in seconds) with which locally registered endpoints send a UDP retry interval probe to the Cisco VCS Expressway.

UDP probe The number of times locally registered endpoints attempt to send a UDP probe to the retry count Cisco VCS Expressway.

UDP probe keep alive interval

The interval (in seconds) with which locally registered endpoints send a UDP probe to the Cisco VCS Expressway after a call is established, in order to keep the firewall's NAT bindings open.

TCP probe The frequency (in seconds) with which locally registered endpoints send a TCP probe retry interval to the Cisco VCS Expressway.

TCP probe The number of times locally registered endpoints attempt to send a TCP probe to the retry count Cisco VCS Expressway.

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Field
TCP probe keep alive interval

Description
The interval (in seconds) with which locally registered endpoints send a TCP probe to the Cisco VCS Expressway after a call is established, in order to keep the firewall's NAT bindings open.

Configuring traversal server ports
The Cisco VCS Expressway has specific listening ports used for firewall traversal. Rules must be set on your firewall to allow connections to these ports. In most cases the default ports should be used. However, you have the option to change these ports if necessary by going to the Ports page (VCS configuration > Expressway > Ports).
The options are:

Field Media demultiplexing RTP port Media demultiplexing RTCP port H.323 Assent call signaling port H.323 H.460.18 call signaling port

Description
Port used for demultiplexing RTP media. Default is 2776.
Port used for demultiplexing RTCP media. Default is 2777.
Port used for Assent signaling. Default is 2776.
Port used for H.460.18 signaling. Default is 2777.

See Firewall traversal protocols and ports for more information.
About ICE and TURN services
About ICE
ICE (Interactive Connectivity Establishment) provides a mechanism for SIP client NAT traversal. ICE is not a protocol, but a framework which pulls together a number of different techniques such as TURN and STUN.
It allows endpoints (clients) residing behind NAT devices to discover paths through which they can pass media, verify peer-to-peer connectivity via each of these paths and then select the optimum media connection path. The available paths typically depend on any inbound and outbound connection restrictions that have been configured on the NAT device. Such behavior is described in RFC 4787 [13].
An example usage of ICE is two home workers communicating via the internet. If the two endpoints can communicate via ICE the Cisco VCS Expressway may (depending on how the NAT devices are configured) only need to take the signaling and not take the media (and is therefore a non-traversal call). If the initiating ICE client attempts to call a non-ICE client, the call set-up process reverts to a conventional SIP call requiring NAT traversal via media latching where the Cisco VCS also takes the media and thus requires a traversal licence.
For more information about ICE, refer to RFC 5245 [38].

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About TURN
TURN (Traversal Using Relays around NAT) services are relay extensions to the STUN network protocol that enable a SIP or H.323 client to communicate via UDP or TCP from behind a NAT device. Currently the Cisco VCS supports TURN over UDP only.
For more information about TURN refer to RFC 5766 [12], and for detailed information about the base STUN protocol, refer to RFC 5389 [11].
TURN relay server
The Cisco VCS Expressway's TURN relay server can be configured to provide TURN services to traversal clients (see Configuring TURN services).
How TURN is used by an ICE client
Each ICE client requests the TURN server to allocate relays for the media components of the call. A relay is required for each component in the media stream between each client.
After the relays are allocated, each ICE client has 3 potential connection paths (addresses) through which it can send and receive media:
n its host address which is behind the NAT device (and thus not reachable from endpoints on the other side of the NAT)
n its publicly-accessible address on the NAT device n a relay address on the TURN server
The endpoints then decide, by performing connectivity checks through ICE, how they are going to communicate. Depending upon how the NAT devices are configured, the endpoints may be able to communicate between their public-facing addresses on the NAT devices or they may have to relay the media via the TURN server. If both endpoints are behind the same NAT device they can send media directly between themselves using their internal host addresses.
After the media route has been selected the TURN relay allocations are released if the chosen connection paths do not involve routing via the TURN server. Note that the signaling always goes via the Cisco VCS, regardless of the final media communication path chosen by the endpoints.
Capabilities and limitations
n The Cisco VCS supports up to 1800 relay allocations. This is typically enough to support 100 calls but does depend on the network topology and the number of media stream components used for the call (for example, some calls may use Duo Video, or other calls might be audio only).
n Clustered Cisco VCSs: if the requested TURN server's relays are fully allocated the server will respond to the requesting client with the details of an alternative server in the cluster (the TURN server currently with the most available resources).
n The Cisco VCS's TURN services are supported over single and dual network interfaces. For dual network interfaces, relays are allocated on the Cisco VCS's externally facing LAN interface.
n ICE (Interactive Connectivity Establishment - a mechanism for SIP client NAT traversal) calls can only be made between devices registered to the Cisco VCS's Local Zone.
n Microsoft ICE (which is not standards-based) is not supported. n The TURN server does not support bandwidth requests. (Note that traversal zone bandwidth limits
do not apply.)
Configuring TURN services
TURN relay services are only available on a Cisco VCS Expressway. To use TURN services you also need the TURN Relay option key (this controls the number of TURN relays that can be simultaneously allocated by the Cisco VCS).

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The TURN page (VCS configuration > Expressway > TURN) is used to configure the Cisco VCS Expressway's TURN settings.
The configurable options are:

Field

Description

Usage tips

TURN services

Determines whether the Cisco VCS offers TURN services to traversal clients.

Port

The listening port for

If TURN services are already enabled, any change to

TURN requests. The

the port number will not come into effect until the

default is 3478.

TURN services are stopped and restarted again.

Authentication The realm sent by the

Ensure the client's credentials are stored in the

realm

server in its authentication device authentication database.

challenges.

Media port range start / end

The lower and upper port in the range used for the allocation of TURN relays.

TURN relay status information
The TURN relays page lists all the currently active TURN relays on the Cisco VCS. You can also review further details of each TURN relay including permissions, channel bindings and counters.

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Applications

This section provides information about each of the additional services that are available under the Applications menu of the Cisco VCS.
You may need to purchase the appropriate option key in order to use each of these applications. They are:
n Conference Factory n Presence services n OCS Relay n FindMe n Provisioning (Starter Pack)

Conference Factory
The Conference Factory page (Applications > Conference Factory) allows you to enable and disable the Conference Factory application, and configure the alias and template it uses.
The Conference Factory application allows the Cisco VCS to support the Multiway feature. Multiway enables endpoint users to create a conference while in a call even if their endpoint does not have this functionality built in.
n Multiway is supported in Cisco TelePresence endpoints including the E20 (software version TE1.0 or later) and MXP range (software version F8.0 or later). Check with your Cisco representative for an up-to-date list of the Cisco endpoints and infrastructure products that support Multiway.

Conference creation process
When the Multiway feature is activated from the endpoint:
1. The endpoint calls a pre-configured alias which routes to the Conference Factory on the Cisco VCS.
2. The Cisco VCS replies to the endpoint with the alias that the endpoint should use for the Multiway conference. This alias will route to an MCU.
3. The endpoint then places the call to the MCU using the given alias, and informs the other participating endpoints to do the same.
The configurable options are:

Field Mode
Alias

Description

Usage tips

Enables or disables the Conference Factory application.

The alias that will be dialed by the endpoints when the Multiway feature is activated. This must also be configured on all endpoints that may be used to initiate the Multiway feature. An example could be [email protected].

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Field

Description

Usage tips

Template

The alias that the Cisco VCS tells the endpoint to dial to create a Multiway conference on the MCU.

To ensure that each conference has a different alias, you should use %% as a part of the template. The %% will be replaced by a unique number each time the Cisco VCS receives a new conference request.

Number range start / end

The first and last numbers in the range that replaces %% in the template used to generate a conference alias.

For example, your Template could be 563%%@example.com with a range of 10 - 999. The first conference will use the alias [email protected], the next conference will use [email protected] and so on up to [email protected], after which it will loop round and start again at [email protected]. (Note that the %% represents a fixed number of digits based upon the upper range limit.)

Note that:
n You must use a different Template on each Cisco VCS in your network that has the Conference Factory application enabled. If your Cisco VCS is part of a cluster, the Template must be different for each peer in the cluster.
n The alias generated by the Template must be a fully-qualified SIP alias and must route to the MCU. The MCU must be configured to process this alias. No other special configuration is required on the MCU in order to support the Conference Factory application.
n SIP mode must be set to On (VCS configuration > Protocols > SIP > Configuration) for the Conference Factory application to function. If you want to be able to initiate calls to the Conference Factory from H.323 endpoints, you must also set H.323 mode to On (VCS configuration > Protocols > H.323), and ensure that H.323 <-> SIP interworking mode is set to Registered only or On (VCS configuration > Protocols > Interworking).
Refer to the Multiway deployment guide [25] for full details on how to configure individual components of your network (endpoints, MCUs and Cisco VCSs) in order to use Multiway in your deployment.
About Presence
Presence is the ability of endpoints to provide information to other users about their current status such as whether they are offline, online, or in a call. Any entity which provides presence information, or about whom presence information can be requested, is known as a presentity. Presentities publish information about their own presence status, and also subscribe to the information being published by other presentities and FindMe users.
Endpoints that support presence, such as MoviTM v2.0 (or later) clients, can publish their own status information. The Cisco VCS can also provide basic presence information on behalf of endpoints that do not support presence, including H.323 endpoints, as long as they have registered with an alias in the form of a URI.
If FindMe is enabled, the Cisco VCS can also provide presence information about FindMe users by aggregating the information provided by each presentity configured for that FindMe user.
The Presence application on the Cisco VCS supports the SIP-based SIMPLE standard and is made up of two separate services. These are the Presence Server and the Presence User Agent (PUA). These services can be enabled and disabled separately.

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The Presence status pages provide information about the presentities who are providing presence information and the users who are requesting presence information on others. The status pages are organized into:
n Publishers n Presentities n Subscribers
Presence is supported by clustering. For specific information about how Presence information is managed across peers in a cluster, see Clustering and Presence.
Presence Server
The Presence Server application on the Cisco VCS is responsible for managing the presence information for all presentities in the SIP domains for which the Cisco VCS is authoritative. The Presence Server can manage the presence information for locally registered endpoints and presentities whose information has been received via a SIP proxy (e.g. another Cisco VCS Control or Expressway).
The Presence Server is made up of the following services, all of which are enabled (or disabled) simultaneously when the Presence Server is enabled (or disabled):
n Publication Manager: receives PUBLISH messages, which contain the status information about a presentity, and writes this information to the Presence Database. PUBLISH messages are generated by presence-enabled endpoints and by the Presence User Agent (PUA).
n Subscription Manager: handles SUBSCRIBE messages, which request information about the status of a presentity. Upon receipt of a SUBSCRIBE message, the Subscription Manager sends a request to the Presentity Manager for information about that presentity, and forwards the information that is returned to the subscriber. The Subscription Manager also receives notifications from the Presentity Manager when a presentity's status has changed, and send this information to all subscribers.
n Presentity Manager: an interface to the Presence Database. It is used to support Cisco VCS features such as FindMe and the PUA, where the presence information provided by a number of different devices must be aggregated in order to provide an overall presence status for one particular presentity. When the Presentity Manager receives a request from the subscription manager for information on a presentity, it queries the Presence Database for all information available on all the endpoints associated with that particular presentity. The Presentity Manager then aggregates this information to determine the presentity's current status, and returns this to the Subscription Manager.
n Presence Database: stores current presence information received in the form of PUBLISH messages. Also sends NOTIFY messages to the Presentity Manager to inform it of any changes.
Presence User Agent (PUA)
Endpoints that do not support presence can have status published on their behalf by the Cisco VCS. The service that publishes this information is called the Presence User Agent (PUA).
The PUA takes information from the local registration database and the call manager and determines, for each endpoint that is currently locally registered, whether or not it is currently in a call. The PUA then provides this status information via a PUBLISH message.
For the PUA to successfully provide presence information about a locally registered endpoint:
n The endpoint must be registered with an alias in the form of a URI. n The domain part of the URI must be able to be routed to a SIP registrar that has a presence server
enabled. (This could be either the local Presence Server, if enabled, or another Presence Server on a remote system.)

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When enabled, the PUA generates presence information for all endpoints registered to the Cisco VCS, including those which already support presence. The status information provided by the PUA is either:
n online (registered but not in a call) n in call (registered and currently in a call)
Aggregation of presence information
When enabled, the PUA generates presence information for all endpoints registered to the Cisco VCS, including those which already support presence. However, endpoints that support presence may provide other, more detailed status, for example away or do not disturb. For this reason, information provided by the PUA is used by the Presentity Manager as follows:
n Where presence information is provided by the PUA and one other source, the non-PUA presence information will always be used in preference to the PUA presence information. This is because it is assumed that the other source of information is the presentity itself, and this information is more accurate.
n Where presence information is provided by the PUA and two or more other sources, the Presence Server will aggregate the presence information from all presentities to give the "highest interest" information, e.g. online rather than offline, and in call rather than away.
n If no information is being published about an endpoint, either by the endpoint itself or by the PUA, the endpoint's status will be offline. If the PUA is enabled, the offline status indicates that the endpoint is not currently registered.
FindMe presence
When the Presentity Manager receives a request for information about the presences of a FindMe alias, it looks up the presence information for each endpoint that makes up that FindMe alias. It then aggregates this information as follows:
n If the FindMe alias is set to Individual mode, if any one of the endpoints making up that FindMe is in a call the FindMe presentity's status will be reported as in call.
n If the FindMe alias is set to Group mode, if any one of the endpoints is online (i.e. not in call or offline) then the FindMe presentity's status will be reported as online.
Registration refresh period
The PUA will update and publish presence information on receipt of:
n a registration request (for new registrations) n a registration refresh (for existing registrations) n a deregistration request n call setup and cleardown information
For non-traversal H.323 registrations the default registration refresh period is 30 minutes. This means that when the PUA is enabled on a Cisco VCS with existing registrations, it may take up to 30 minutes before an H.323 registration refresh is received and available presence information is published for that endpoint.
It also means that if an H.323 endpoint becomes unavailable without sending a deregistration message, it may take up to 30 minutes for its status to change to offline. To ensure more timely publication of presence information for H.323 endpoints, you should decrease the H.323 registration refresh period (using VCS configuration > Protocols > H.323 > Gatekeeper > Time to live).
The default registration refresh period for SIP is 60 seconds, so it will take no more than a minute for the PUA to publish updated presence information on behalf of any SIP endpoints.

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Configuring Presence
The Presence page (Applications > Presence) allows you to enable and configure Presence services on the Cisco VCS.
These services can be enabled and disabled separately from each other, depending on the nature of your deployment. Both are disabled by default.
Note that SIP mode must be enabled for the Presence services to function.

Presence User Agent (PUA) The PUA provides presence information on behalf of registered endpoints.

Field

Description

SIP SIMPLE Presence User Agent

Enabled: if the PUA is enabled, it will publish presence information for all locally registered endpoints, whether or not those endpoints are also publishing their own presence information. Information published by the PUA will be routed to a Presence Server acting for the endpoint's domain. This could be the local Presence Server, or (if this is disabled) a Presence Server on another system that is authoritative for that domain.

Disabled: if the PUA is disabled, only those endpoints that support presence will publish presence information. No information will be available for endpoints that do not support presence.

Presence Server
The Presence Server manages the presence information for all presentities in the SIP domains for which the Cisco VCS is authoritative.

Field

Description

Usage tips

SIP SIMPLE Presence Server

Enabled: if the local Presence Server is enabled, it will process any PUBLISH messages intended for the SIP domains for which the local Cisco VCS is authoritative. All other PUBLISH messages will be proxied on in accordance with the Cisco VCS's SIP routing rules. Note that SIP routes are configured using the CLI only.

Disabled: if the local Presence Server is disabled, the Cisco VCS will proxy on all PUBLISH messages to one or more of its neighbor zones in accordance with its locally configured call routing rules. The local Cisco VCS will do this regardless of whether or not it is authoritative for the presentity's domain. If one of these neighbors is authoritative for the domain, and has a Presence Server enabled, then that neighbor will provide presence information for the presentity.

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Field

Description

Usage tips

Subscription expiration time

The maximum time (in seconds) within which a subscriber must refresh its subscription. If the subscriber does not send a refresh within this period, the Presence Server will stop sending NOTIFY messages to it. The default is 3600 seconds.

You may want to increase this value in deployments with large numbers of endpoints, to prevent too many messages being sent over your network.

Publication expiration time

The maximum time (in seconds) within which a publisher must refresh its publication. If the publisher does not send a refresh within this period, the Presence Server will show its presence as Offline. The default is 1800 seconds.

You may want to increase this value in deployments with large numbers of endpoints, to prevent too many messages being sent over your network.

Regardless of whether or not the Presence Server is enabled, the Cisco VCS will still continue to receive PUBLISH messages if they are sent to it from any of the following sources:
n locally registered endpoints that support presence n the local PUA (if enabled) n remote SIP Proxies
Recommendations
n Cisco VCS Expressway and Cisco VCS Control: the recommended configuration for a Cisco VCS Expressway when acting as a traversal server for a Cisco VCS Control is to enable the PUA and disable the Presence Server on the Cisco VCS Expressway, and enable the Presence Server on the Cisco VCS Control. This will ensure that all PUBLISH messages generated by the PUA are routed to the Cisco VCS Control.
n Cisco VCS neighbors: if you have a deployment with two or more Cisco VCSs neighbored together, you are recommended to enable the presence server on just one Cisco VCS. This will ensure a central source of information for all presentities in your network.
n Cisco VCS clusters: for information about how Presence works within a Cisco VCS cluster, see Clustering and Presence.
Note: any defined transforms also apply to any Publication, Subscription or Notify URIs handled by the Presence Services.
OCS Relay
The OCS Relay page (Applications > OCS Relay) allows you to enable and disable the OCS Relay application on the Cisco VCS, and configure the settings it uses.
The OCS Relay application is required in deployments that use both MOC clients and FindMe, where they both use the same SIP domain. It enables the Cisco VCS to:

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n share FindMe presence information with MOC clients n register FindMe users to a Microsoft Office Communications Server (OCS) so that the OCS can
forward calls to FindMe aliases
Note that deployments where the MOC clients and FindMe do not use the same domain do not require use of the OCS Relay application.

Field

Description

OCS Relay Enables and disables the OCS Relay application on the Cisco VCS. mode

OCS Relay domain

The OCS Relay is used in deployments where MOC clients and FindMe aliases use the same domain. The domain to be used must already be configured on the Cisco VCS (VCS configuration > Protocols > SIP > Domains). You can then select the domain from the drop-down menu.

OCS Relay routing prefix

Prefix applied to the SIP domain of requests destined for OCS. This prefix is used by the Cisco VCS search rules to route the requests via the appropriate neighbor zone to the Microsoft Office Communications Server. The default is ocs.

The OCS Relay status page (Status > OCS Relay) lists all the FindMe aliases being handled by the OCS Relay application, and shows the current status of each.
Configuring a connection between the Cisco VCS and the OCS
To create a connection between the Cisco VCS and the OCS, you must have already configured a neighbor zone on the Cisco VCS with details of the OCS. For the OCS Relay application to be able to route requests to this OCS, you must then:
1. Configure the Cisco VCS with an OCS Relay routing prefix. 2. Configure a search rule for the OCS neighbor zone that has a pattern match for that OCS Relay
routing prefix. This ensures that all requests with the specified prefix are routed directly to the OCS.
There are a number of other steps required in order to successfully set up a connection between the Cisco VCS and OCS. These include:
n configuring Call Policy n configuring Presence
As this is a complex procedure beyond the scope of this guide, you are recommended to refer to the Microsoft OCS 2007 (R1 and R2) and Cisco VCS Control deployment guide [24] which describes in detail all the steps required.
About FindMeTM
FindMe is a form of User Policy, which is the set of rules that determines what happens to a call for a particular user or group when it is received by the Cisco VCS.
The FindMe feature lets you assign a single FindMe ID to individuals or teams in your enterprise. By logging into their user account, users can set up a list of locations such as "at home" or "in the office" and associate their devices with those locations. They can then specify which devices are called when their FindMe ID is dialed, and what happens if those devices are busy or go unanswered. Each user can specify up to 15 devices and 10 locations.

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This means that potential callers can be given a single FindMe alias on which they can contact an individual or group in your enterprise -- callers won't have to know details of all the devices on which that person or group might be available.
To enable this feature you must purchase and install the FindMe option key. Standard operation is to use the Cisco VCS's own FindMe manager. However, you can use an off-box FindMe manager; this feature is intended for future third-party integration.
How are devices specified?
When configuring their user account, users are asked to specify the devices to which calls to their FindMe ID are routed.
It is possible to specify aliases and even other FindMe IDs as one or more of the devices. However, care must be taken in these situations to avoid circular configurations.
For this reason, it is recommended that users specify the physical devices they want to ring when their FindMe ID is called by entering the alias with which that device has registered.
Principal devices
A user's account should be configured with one or more principal devices. These are the main devices associated with that account.
Users are not allowed to delete or change the address of their principal devices; they can only change the Device name and Picture. This is to stop users from unintentionally changing their basic FindMe configuration.
Principal devices are also used by the Cisco VCS to decide which FindMe ID to display as a Caller ID if the same device address is associated with more than one FindMe ID. Only an administrator (and not users themselves) can configure which of a user's devices are their principal devices. See Configuring user accounts for more information.
FindMe process overview
When the Cisco VCS receives a call for a particular alias it applies its User Policy as follows:
n It first checks to see if FindMe is enabled. If so, it checks if the alias is a FindMe ID, and, if it is, the call is forwarded to the aliases associated with the active location for that user's FindMe configuration.
n If FindMe is not enabled, or the alias is not a FindMe ID, the Cisco VCS continues to search for the alias in the usual manner.
Note that User Policy is invoked after any Call Policy configured on the Cisco VCS has been applied. See Call routing process for more information.
Who must do what before FindMe can be used?
The following steps are required for the use of FindMe after the feature has been installed:
1. The Cisco VCS administrator: a. Enables and configures FindMe. b. Must define a cluster name (even if the Cisco VCS is not part of a cluster). c. Decides whether to use a local or a remote login account authentication service. If remote authentication is being used, the Cisco VCS administrator must also set up User groups. d. Creates a user account for each user or team of people who require a FindMe ID.
2. The owner of the FindMe ID configures their account settings.
See the FindMe deployment guide [29] for more details on setting up FindMe accounts.

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Recommendations when deploying FindMe
n The FindMe ID should be in the form of a URI, and should be the individual's primary URI. n Endpoints should not register with an alias that is the same as an existing FindMe ID. You can
prevent this by including all FindMe IDs on the Deny List.
Example
Users at Example Corp. have a FindMe ID in the format [email protected]. Each of the user's endpoints are registered with a slightly different alias that identifies its physical location. For example their office endpoint is registered with an alias in the format [email protected] and their home endpoint as [email protected].
Both of these endpoints are included in the list of devices to ring when the FindMe ID is dialed. The alias [email protected] is added to the Deny List, to prevent an individual endpoint registering with that alias.
Note: FindMe is supported by clustering. For information about how FindMe information is managed across peers in a cluster, refer to Clustering and FindMe .

Configuring FindMe
The FindMe configuration page (Applications > FindMe > Configuration) is used to enable and configure FindMe User Policy.
Users configure their FindMe settings by logging into their user account. To configure how user accounts are authenticated, go to the Login account authentication configuration page.
Note that the FindMe configuration page can only be accessed if the FindMe option key is installed.

Field
FindMe mode

Description

Usage tips

Determines whether or not FindMe is enabled, and if a third-party manager is to be used.
Off: disables FindMe.
On: enables FindMe and uses the Cisco VCS's local FindMe manager.

Call Policy is always applied regardless of the FindMe mode.
If you enable FindMe, you must ensure a Cluster name is specified (you do this on the Clustering page).

Remote service: enables FindMe and uses a FindMe manager located on an off-box system. This feature is intended for advanced deployments with thirdparty integrators.

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Field Caller ID

Description

Usage tips

Only applies when FindMe mode is On.
Determines how the source of an incoming call is presented to the callee.
Incoming ID: displays the address of the endpoint from which the call was placed.
FindMe ID: displays the FindMe ID associated with the originating endpoint's address.

Using FindMe ID means that if the recipient subsequently returns that call, all the devices associated with that FindMe account will be called. For H.323 calls placed through an ISDN gateway, the E.164 Phone number associated with the FindMe account is signaled instead as that is a more appropriate number to dial when returning the call. Note that the ISDN gateway must be registered to the same Cisco VCS as the call recipient.

The FindMe ID is only displayed if the source endpoint has been authenticated (or treated as authenticated). If it is not authenticated the Incoming ID is displayed. See About device authentication for more details.

Restrict users from configuring their devices

Controls if users are restricted from adding, deleting or modifying their own devices. The default is Off.

By default FindMe users are allowed to configure further devices in addition to any principal or provisioned devices assigned to them by the system administrator. This setting can be used to stop users from adding their own devices and restrict them to being able to only maintain their locations and their associated devices.

Device creation message

Only applies when FindMe mode is On.
The text entered here is displayed to users when they add a device to their FindMe configuration.
A limited set of HTML markup is supported in the message which is previewed in the window at the bottom of the page when you click Save. The following tags (without any attributes) are allowed:

It can be used to provide information about how to format the device address or number, for example any dial prefixes that must be included.
An example message could be:
Phone numbers: use the prefix <b>9</b>
Endpoints: use the suffix <b>@video.test.com</b>

b i tt big small strike s u em strong cite dfn samp kbd var abbr acronym sub sup ins del br

<a href="..."> is also supported, but the URL can only contain A-Z 0-9, dot, "?" "=" and "%"; note that the URL is relative to the current page so you must prefix it with, for example, http:// if you want to refer to an external site.

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The following options apply when FindMe mode is Remote service:

Field

Description

Protocol The protocol used to connect to the remote service.

Address The IP address or domain name of the remote service.

Path

The URL of the remote service.

Username The username used by the Cisco VCS to log in and query the remote service.

Password The password used by the Cisco VCS to log in and query the remote service.

Searching for FindMe users
The User search page (Applications > FindMe > Search) lets you search for user accounts by their related FindMe details such as a FindMe ID or device alias.
This search feature is useful if, for example, you have a device alias but do not know to whom it belongs, or you have a URI and are not sure if it is a FindMe ID or a device alias.
Enter the FindMe ID, username, device address or number you want to search for and click Search. Note that the search process performs an exact match against the value entered here -- "contains" and wildcard searches are not supported.
All matching user accounts are listed. You can review an account's details by clicking View/Edit.
Note that if you are part of a large enterprise with, for example, Cisco TMS managing several Cisco VCS clusters, the search may find users and devices in other Cisco VCS clusters. You can only view (and not edit) the details of accounts that are not managed in your cluster. See Clustering and FindMe for more information.
About provisioning (Starter Pack)
The Cisco VCS's provisioning server provides basic device provisioning for a range of endpoint device types, including Movi users, without the need for Cisco TMS.
The Starter Pack option key must be installed to use basic device provisioning. It cannot be used in combination with Device Provisioning through the TMS Agent and TMS Provisioning Directory. Note that the Starter Pack option key is designed for single box deployments and is only available as a preconfigured factory setting.
Starter Pack
The Starter Pack is suitable for small enterprises. It provides basic Cisco VCS functionality and includes the following features:
n Expressway n FindMe
The following license restrictions apply by default:
n 50 registrations n 5 calls (any combination of traversal and non-traversal calls); extra call license option keys can be
added if required n 900 TURN relays
When the Starter Pack option key is installed the Presence Server and FindMe are enabled by default.

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Device authentication
The provisioning server supports device authentication. Provisioned devices' credentials can be authenticated against the Cisco VCS's local authentication database (or the LDAP directory if remote authentication is selected) when they attempt a provisioning request and when they register with the Cisco VCS.
Phone book support
Provisioned devices are served a phone book directory of user accounts.
Configuring provisioning
The Provisioning page (Applications > Provisioning) is used to configure the Cisco VCS's provisioning server. The server is automatically enabled when the Starter Pack option key is installed. You can monitor the provisioning server on the Provisioning status page.
Bandwidth limits The Provisioning page lists each supported device type and lets you choose whether or not to enable the provisioning of bandwidth limits for that device. If you enable the bandwidth limits option for a device type you can then configure the maximum incoming and outgoing bandwidth (in kbps) values to set on the provisioned devices.
Provisioning users To provision individual users, you must set up user accounts. When you configure a user account, you can choose the devices to provision for that user. User accounts are also used to configure a user's FindMe settings. See the Cisco VCS Starter Pack Express deployment guide [34] for full details on setting up Starter Pack provisioning.

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Maintenance
This section describes the pages that appear under the VCS configuration > Maintenance menu of the Cisco VCS web interface.
These pages allow you to perform the following tasks:
n upgrade to a new release of software n install and delete option keys n manage security certificates n enable advanced account security n install and select a language pack n manage administrator and user accounts and passwords n create and restore backups n create a system snapshot n view and configure incident reports n use built-in tools to check patterns and locate aliases n view a list of all ports used by the Cisco VCS n restart, reboot or shut down the Cisco VCS
About upgrading software components
You can install new releases of the Cisco VCS software components on your existing hardware. Component upgrades can be performed in one of two ways:
n Using the web interface - this is the recommended process. n Using secure copy (SCP/PSCP).
This guide describes how both of these methods are used to perform upgrades. You can also upgrade the VCS platform component using Cisco TMS (see the Cisco TMS documentation for more information).
n To avoid any performance degradation you are recommended to upgrade Cisco VCS components while the system is inactive.
n For specific information about upgrading peers in a cluster, refer to the Cluster creation and maintenance deployment guide [27].
Cisco VCS software components
All existing installed components are listed on the Upgrade page (Maintenance > Upgrade), showing their current version and associated release key where appropriate.
The main component is the VCS platform, and when upgraded this will typically include automatic upgrades of some or all of the other components. However, you can independently upgrade the other components if required to do so. The upgrade process ensures that compatibility is maintained across all components.
Prerequisites
The upgrade requires you to have:
n a valid Release key, if you are upgrading to the next major release of the VCS platform, for example from X4.1 to X5.0; it is not required for dot releases, for example X5.0 to X5.1
n a software image file for the component you want to upgrade, and it is stored in a network location that is locally accessible from your client computer
n release notes for the software version you are upgrading to -- additional manual steps may be required
Contact your Cisco representative for more information on how to obtain these.

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Backing up before upgrading
You should backup your system configuration before upgrading. Click System backup to go to the Backup and restore page.
Note: if you later need to downgrade to an X4 (or earlier) release you will have to restore a backup made against that previous release.
Upgrading and option keys
All existing option keys are retained through the upgrade from one version of the VCS platform to the next, including upgrades to the next major release. However, you are recommended to take note of your existing option keys before performing the upgrade.
New features may also become available with each major release of the VCS platform component, and you may need to install new option keys to take advantage of these new features. Contact your Cisco representative for more information on all the options available for the latest release of Cisco VCS software.
Installing and rebooting
Upgrading the VCS platform component is a two-stage process. First, the new software image is uploaded onto the Cisco VCS. At the same time, the current configuration of the system is recorded, so that this can be restored after the upgrade. During this initial stage the system will continue running on its existing software version, and all normal system processes will continue.
The second part of the upgrade involves rebooting the system. It is only during the reboot that the Cisco VCS installs the new software version and restores the previous configuration. Rebooting causes all current calls to terminate, and all current registrations to be ended.
This means that you can upload the new software to your system at any time, and then wait until a convenient moment (for example, when no calls are taking place) to install the new version by rebooting the system.
Note: any configuration changes made between the software upload and the reboot will be lost when the system restarts using the new software version.
The upgrade of components other than the VCS platform does not involve a system reboot, however the services provided by that component will be temporarily stopped while the upgrade process completes.
Upgrade procedure
The Upgrade page (Maintenance > Upgrade) is used to install newer (or older) versions of Cisco VCS software components.
To upgrade a component using the web interface:
1. Review the relevant release notes to see if any special steps are required either before or after installing the software image file.
2. Go to the Upgrade page (Maintenance > Upgrade). 3. Click Browse and select the software image file for the component you want to upgrade. 4. Enter the Release key if required. 5. Click Upgrade.
The Cisco VCS automatically detects which component you are upgrading based upon the selected software image file.

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6. For upgrades to the VCS platform component, the Upgrade confirmation page is displayed: a. Check that the expected New software version number is displayed and click Continue with upgrade. The System upgrade page opens and displays a progress bar while the software installs. When the software has installed, a summary of active calls and registrations is displayed. These will be lost when you reboot the system. b. Click Reboot system. After the reboot is complete you are taken to the Login page. Note that if you make any further configuration changes before rebooting, those changes will be lost when the system restarts.
7. For upgrades to other components, the software is automatically installed. No reboot is required.
The upgrade is now complete. The Overview and Upgrade pages now show the upgraded software component version numbers.
Note that some components may require option keys to enable them; this is done through the Option keys page (Maintenance > Option keys).
Downgrading
If you need to downgrade to an X4 (or earlier) release of the VCS platform, configuration changes, including changes made to FindMe or Provisioning, will be lost. When the downgrade has completed you will have to restore a backup of the system configuration that was made against the release you have just reinstalled. Other manual steps may be required -- you must review the release notes for the version you are downgrading from.
n To downgrade a component to an older release you should follow the same instructions as above for upgrading, but select the appropriate software image file for the software version you want to downgrade to.
n As with upgrading, you are recommended to backup your system configuration before downgrading.
Upgrading using secure copy (SCP/PSCP)
To upgrade using a secure copy program such as SCP or PSCP (part of the PuTTY free Telnet/SSH package) you need to transfer two files to the Cisco VCS:
n A text file containing just the 16-character Release Key (required for the VCS platform component only). Ensure there is no extraneous white space in this file.
n The file containing the software image.
To transfer these files:
1. If you are upgrading the VCS platform component, upload the Release Key file using SCP/PSCP to the /tmp/ folder on the system. The target name must be release-key, for example: scp release-key [email protected]:/tmp/release-key l Enter the root password when prompted. l The Release Key file must be uploaded before the image file.
2. Upload the software image using SCP/PSCP. l For the VCS platform component: o Upload to the /tmp folder on the system. The target name must be /tmp/tandbergimage.tar.gz, for example: scp s42700x5.tar.gz [email protected]:/tmp/tandbergimage.tar.gz l For other components: o Upload to the /tmp/pkgs/new/ folder on the system, preserving the file name and extension, for example: scp [email protected]:/tmp/pkgs/new/ocs-relay.tlp
3. Enter the root password when prompted. The software installation begins automatically. Wait until the software has installed completely. This should not take more than five minutes.

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4. If you have upgraded the VCS platform component, log in to the Cisco VCS, either using the web interface or CLI, and reboot the Cisco VCS. After about five minutes the system will be ready to use.
Note: if you make any further configuration changes before rebooting, those changes will be lost when the system restarts, so you are recommended to reboot your system immediately.
Option keys
The Option keys page (Maintenance > Option keys) lists all the existing options currently installed on the Cisco VCS, and allows you to add new options.
Options are used to add additional features to the Cisco VCS. Your Cisco VCS may have been shipped with one or more optional features pre-installed. To purchase further options, contact your Cisco representative.
The System information section summarizes the existing features installed on the Cisco VCS. The options that you may see here include:
n Expressway: enables the Cisco VCS to work as an ExpresswayTM firewall traversal server. n H.323 to SIP Interworking gateway: enables H.323 calls to be translated to SIP and vice versa. n FindMeTM: enables FindMe functionality. n Dual Network Interfaces: enables the LAN 2 port on your Cisco VCS Expressway. n Device Provisioning: allows Cisco VCS to provision endpoints with configuration information on
request and to supply endpoints with phone book information. (Endpoints including Movi v2.0 or later, and E20 v2.1 or later can request to be provisioned.) Note that the Cisco VCS must use Cisco TMS as its external manager to obtain configuration and phone book information for distribution. n Starter Pack: allows the Cisco VCS to offer basic device provisioning for a range of endpoint device types, including Movi users, without the need for Cisco TMS (see Provisioning (Starter Pack)). n Traversal calls: determines the number of traversal calls allowed on the Cisco VCS at any one time. Note that traversal calls that are passing through the Cisco VCS from one neighbor to another but where neither endpoint in the call is locally registered will still be counted as one traversal call. See the What are traversal calls? section for more information. n Non-traversal calls: determines the number of non-traversal calls allowed on the Cisco VCS at any one time. Note that non-traversal calls that are passing through the Cisco VCS from one neighbor to another but where neither endpoint in the call is locally registered may or may not require a nontraversal call license, depending on the Call routed mode setting. Note that a non-traversal call on a Cisco VCS Expressway will consume a traversal license if there are no non-traversal call licenses available. n Registrations: the number of concurrent registrations allowed on the Cisco VCS. An endpoint can register with more than one alias and this will be considered to be a single registration. However, an endpoint that supports both SIP and H.323 and registers using both protocols will count as two registrations. H.323 systems such as gateways, MCUs and Content Servers can also register with a Cisco VCS, and these will each count as one registration. n TURN Relays: the number of concurrent TURN relays that can be allocated by this Cisco VCS. See About ICE and TURN services for more information. n Encryption: indicates that AES encryption is supported by this software build. n Advanced account security: enables advanced security features and restrictions for high-security installations. n Enhanced OCS Collaboration: enables encrypted calls to and from Microsoft OCS Server 2007 (for both native SIP calls and calls interworked from H323). Note that as the Cisco VCS must process the media in both scenarios, a traversal call license will be used.
Adding option keys using the web interface
To add an option key:

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1. In the Add option key field, enter the 20-character key that has been provided to you for the option you want to add.
2. Click Add option.
Some option keys require that the Cisco VCS is restarted before the option key will take effect. In such cases you will receive a warning on the web interface, which will remain in place as a reminder until the system has been restarted. However, you can continue to use and configure the Cisco VCS in the meantime.
Adding option keys using the CLI
To return the indexes of all the option keys that are already installed on your system:
n xStatus Options
To add a new option key to your system:
n xConfiguration Option [1..64] Key
Note: when using the CLI to add an extra option key, you can use any unused option index. If you chose an existing option index, that option will be overwritten and the extra functionality provided by that option key will no longer exist. To see which indexes are currently in use, type xConfiguration option.
About security certificates
For extra security, you may want to have the Cisco VCS communicate with other systems (such as LDAP servers, neighbor Cisco VCSs, or clients such as SIP endpoints and web browsers) using TLS encryption.
For this to work successfully in a connection between a client and server:
n The server must have a certificate installed that verifies its identity. This certificate must be signed by a Certificate Authority (CA).
n The client must trust the CA that signed the certificate used by the server.
The Cisco VCS allows you to install appropriate files so that it can act as either a client or a server in connections using TLS. The Cisco VCS can also authenticate client connections (typically from a web browser) over HTTPS. You can also upload certificate revocation lists (CRLs) for the CAs used to verify LDAP server and HTTPS client certificates.
n For an endpoint to Cisco VCS connection, the Cisco VCS acts as the TLS server. n For a Cisco VCS to LDAP server connection, the Cisco VCS is a client. n For a Cisco VCS to Cisco VCS connection either Cisco VCS may be the client with the other Cisco
VCS being the TLS server. n For HTTPS connections the web browser is the client and the Cisco VCS is the server.
TLS can be difficult to configure. For example, when using it with an LDAP server it is recommended that you confirm that your system is working correctly before you attempt to secure the connection with TLS. You are also recommended to use a third party LDAP browser to verify that your LDAP server is correctly configured to use TLS.
Note: be careful not to allow your CA certificates or CRLs to expire as this may cause certificates signed by those CAs to be rejected.
See Managing security certificates for instructions about how to install certificates. Further information is also available in the Certificate creation and use with Cisco VCS deployment guide [32].

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Managing security certificates
The Security certificates page (Maintenance > Security certificates) is used to manage the security certificates used by the Cisco VCS when acting as either a client or a server in connections using TLS, and when authenticating client connections over HTTPS.
Note: certificate and certificate revocation list (CRL) files can only be loaded via the web interface. They cannot be installed using the CLI.
Trusted CA certificate
The Trusted CA certificate section manages the list of certificates for the Certificate Authorities (CAs) trusted by this Cisco VCS. Certificates presented to the Cisco VCS must be signed by a trusted CA on this list and there must be a full chain of trust to the root CA.
To upload a new file of CA certificates, Browse to the required PEM file and click Upload CA certificate. This will replace any previously uploaded CA certificates.
Note: if you have enabled certificate revocation list (CRL) checking for TLS encrypted connections to an LDAP server (for account authentication), you must add the PEM encoded CRL data to your trusted CA certificate file.
n Click Reset to default CA certificate to replace the currently uploaded file with a default list of trusted CA certificates.
n Click Show CA certificate to view the currently uploaded file.
Server certificate data
The Server certificate data section is used to upload the Cisco VCS's server certificate. This certificate is used to identify the Cisco VCS when it communicates with client systems using TLS encryption, and with web browsers over HTTPS.
n Use the Browse buttons to select the server certificate PEM file and the server private key PEM file that is used to encrypt it. After selecting both files, click Upload server certificate data. Note that the private key must not be password protected.
n Click Reset to default server certificate to replace the currently uploaded server certificate with the Cisco VCS's default certificate.
n Click Show server certificate to view the currently uploaded server certificate file.
HTTPS certificate revocation list (CRL)
You are recommended to upload CRL data for the CAs that sign HTTPS client and server certificates. This is a PEM file that identifies those certificates that have been revoked and can no longer be used to communicate with the Cisco VCS over HTTPS.
Note that CRL checking is applied for every CA in the chain of trust.
n To upload a PEM encoded CRL file, Browse to the required file and click Upload CRL for client certificates. This will replace any previously uploaded CRL file.
n Click Remove revocation list if you want to remove all HTTPS CRL information from the Cisco VCS.
Note that CRL data uploaded here is not used to validate TLS connections with an LDAP server for remote login account authentication. CRL data for this purpose must be contained within the Trusted CA certificate file.
Client certificate test
The Client certificate test section allows you to check client certificates before enabling client certificate validation.

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n To test a certificate, Browse to the required PEM file and click Test client certificate file. The selected file will be checked against the Cisco VCS's current trusted CA list and, if loaded, the client certificate revocation list. A success or failure message will be displayed.
Advanced account security
The Advanced account security page (Maintenance > Advanced account security) is used to configure the Cisco VCS for use in highly secure environments.
This page can only be accessed if the Advanced Account Security option key is installed.
Enabling advanced account security limits login access to remotely authenticated users using the web interface only, and also restricts access to some Cisco VCS features. To indicate that the Cisco VCS is in advanced account security mode, any text specified as the Classification banner message is displayed on every web page.
Note that a system reboot is required for changes to the advanced account security mode to take effect.
Prerequisites
Before advanced account security mode can be enabled, the Cisco VCS must be configured to use remote account authentication for administrator accounts.
Note: ensure that the remote directory service is working properly, as after advanced account security is enabled you will not be able to log in to the Cisco VCS via the local admin account or as root.
You are also recommended to configure your system so that:
n SNMP is disabled n the session time out period is set to a non-zero value n HTTPS client certificate validation is enabled n login account LDAP server configuration uses TLS encryption and has certificate revocation list
(CRL) checking set to All n remote logging is disabled n incident reporting is disabled n any connection to an external manager uses HTTPS and has certificate checking enabled
Warnings are raised for any non-recommended configuration settings.
Cisco VCS functionality: changes and limitations
When in secure mode, the following changes and limitations to standard Cisco VCS functionality apply:
n access over SSH, Telnet, and through the serial port is disabled and cannot be turned on n access over HTTPS is enabled and cannot be turned off n the command line interface (CLI) is unavailable n the root account, the admin account and any other local administrator accounts are disabled n if there are three consecutive failed attempts to log in (by the same or different users), login access
to the Cisco VCS is blocked for 60 seconds n immediately after logging in, the current user is shown statistics of when they previously logged in
and details of any failed attempts to log in using that account n administrator accounts with read-only or read-write access levels cannot view the Event Log and
Configuration Log pages (these pages can only be viewed by accounts with Auditor access level) n the Upgrade page only displays the VCS platform component n downgrades to version X5.0 or below are not allowed n the classification banner is displayed on every web page

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Note: the Event Log, Configuration Log, call history, search history and registration history are cleared whenever the Cisco VCS is taken out of advanced account security mode.

Configuring language settings
The Language page (Maintenance > Language) controls which language is used for text displayed in the web user interface.

Changing the language
You can configure both the default language and the language to use on an individual browser:

Field

Description

Usage tips

System The default language used on the default web interface. language

You can select from the set of installed language packs.

This browser

The language used by the current browser on the current client computer. It can be set to use either the system default language or a specific alternative language.

This setting applies to the browser currently in use on the client computer. If you access the Cisco VCS user interface using a different browser or a different computer, a different language setting may be in place.

Note:
n You can also get to the Language page by clicking on the Language link at the bottom of every page.

n If you upgrade to a later version of Cisco VCS software you may need to install a later version of the associated language pack to ensure that all text is available in the chosen language.
Installing language packs
You can install new language packs or install an updated version of an existing language pack. To install a language pack: 1. Click Browse and select the .tlp language pack file you want to upload. 2. Click Install language pack. The selected language pack is then verified and uploaded, and then made available for selection in the Language drop-down. Note that you cannot create your own language packs. Language packs can only be obtained from Cisco. Refer to your Cisco support representative for information on currently available language packs.
About login accounts
The Cisco VCS has two types of login account for normal operation: n Administrator accounts: used to configure the Cisco VCS.

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n User accounts: used by individuals in an enterprise to configure their FindMe profile. They can also be used to enable basic device provisioning for a range of device types, including Movi users, when the Starter Pack option key is installed.
Account authentication
Administrator and user accounts must be authenticated before access is allowed to the Cisco VCS.
The Cisco VCS can authenticate accounts either locally or against a remote directory service, such as Windows Active Directory, using LDAP. The remote option allows administration groups to be set up in the directory service for all Cisco VCSs in an enterprise, removing the need to have separate accounts on each Cisco VCS.
If a remote source is used for either administrator or user account authentication you also need to configure the Cisco VCS with:
n appropriate LDAP server connection settings (see Account authentication using LDAP) n administrator groups and/or user groups that match the corresponding group names already set up
in the remote directory service to manage administrator and user access to this Cisco VCS (see Configuring administrator groups and Configuring user groups)
Administrator accounts
Administrator accounts are used to configure the Cisco VCS. The Cisco VCS has a default admin administrator account with full read-write access and can be used to log in to the Cisco VCS using the web interface or the CLI.
You can add additional administrator accounts which can only be used to log in through the web interface.
The default admin account is managed locally and is always accessible, even if remote administrator account authentication is selected. All passwords and usernames are case sensitive.
See the Configuring administrator accounts section for more information.
User accounts
User accounts are used by individuals in an enterprise to configure the devices and locations on which they can be contacted through their FindMe ID.
Each user account is accessed using a username and password.
n If local user account authentication is selected, each user account must be created locally by a Cisco VCS administrator.
n If remote user account authentication is selected, a Cisco VCS administrator must set up user groups to match the corresponding group names in the remote directory service.
Note that if remote user account authentication is selected, only the username and password details are managed remotely. All other properties of the user account, such as the FindMe ID, devices and locations are stored in the local Cisco VCS database.
See the Configuring user accounts section for more information about defining user account details and their associated FindMe devices and locations, and for enabling basic Starter Pack provisioning.
Note: use Cisco TMS if you need to provision a large number of user accounts. See the FindMe deployment guide [29] for more details on configuring FindMe and user accounts.

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Root accounts
The Cisco VCS provides a root account which can be used to log in to the Cisco VCS operating system. The root account should not be used in normal operation, and in particular system configuration should not be conducted using this account. Use the admin account instead.
See the Root account section for more information.
Note: remember to change the passwords for the admin and root accounts from their default values.

Configuring login account authentication
The Login account authentication configuration page (Maintenance > Login accounts > Configuration) is used to configure where administrator and user account credentials are authenticated before access is allowed to the Cisco VCS.
The Administrator authentication source and User authentication source options are:
n Remote: credentials are verified against an external credentials directory, for example Windows Active Directory. If a Remote source is selected you need to configure the appropriate LDAP settings on the Login account LDAP configuration page.
n Local: credentials are verified against a local database stored on the Cisco VCS.
After specifying where accounts are authenticated you must set up the appropriate account details or directory service group details. See the Authenticating Cisco VCS accounts using LDAP deployment guide [30] for more details on configuring a remote directory service.

Account authentication using LDAP
The Login account LDAP configuration page (Maintenance > Login accounts > LDAP configuration) is used to configure an LDAP connection to a remote directory service for administrator and/or user account authentication.
To use LDAP for account authentication, you must also go to the Login account authentication configuration page and select a Remote administrator or user authentication source.
The configurable options are:

Field

Description

Usage tips

LDAP server configuration: this section specifies the connection details to the LDAP server.

Server address

The IP address or Fully Qualified Domain Name (or server address, if a DNS Domain Name has also been configured) of the LDAP server to use when making LDAP queries.

FQDN address resolution

Sets how the LDAP server address is resolved if it is specified as an FQDN. Address record: DNS A or AAAA record lookup. SRV record: DNS SRV record lookup. The default is Address record.

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Field

Description

Usage tips

Port

The IP port to use on the LDAP server.

Typically this is 389 for nonTLS, and 636 if TLS encryption is enabled.

Encryption Determines whether the connection to the LDAP server is encrypted using Transport Layer Security (TLS).
TLS: uses TLS Encryption for the connection to the LDAP server.
Off: no encryption is used.
The default is Off.

If you use TLS encryption, you need to upload a suitable CA certificate file.
Click Upload a CA certificate file for TLS to go to the Security certificates page.

Certificate revocation list (CRL) checking

Specifies whether certificate revocation lists (CRLs) are checked when forming a TLS connection with the LDAP server.
None: no CRL checking is performed.

Peer: only the CRL associated with the CA that issued the LDAP server's certificate is checked.

All: all CRLs in the trusted certificate chain of the CA that issued the LDAP server's certificate are checked.

The default is None.

If you are using revocation lists, any required CRL data must also be included within the CA certificate file.

Authentication configuration: this section specifies the Cisco VCS's authentication credentials to use when binding to the LDAP server.

Cisco VCS The distinguished name used by the Cisco VCS bind DN when binding to the LDAP server.

Cisco VCS The password used by the Cisco VCS when binding The maximum plaintext length

bind

to the LDAP server.

is 60 characters, which is then

password

encrypted.

SASL

The SASL (Simple Authentication and Security Layer) mechanism to use when binding to the LDAP server.
None: no mechanism is used.
DIGEST-MD5: the DIGEST-MD5 mechanism is used.
The default is DIGEST-MD5.

Cisco VCS The username used by the Cisco VCS when binding

bind

to the LDAP server with SASL.

username

Directory configuration: this section specifies the base distinguished names to use when searching for account and group names.

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Field

Description

Base DN for accounts

The distinguished name to use as the base when searching for administrator and user accounts.

Base DN The distinguished name to use as the base when for groups searching for administrator and user groups.

Usage tips

The status of the connection to the specified LDAP server is displayed at the bottom of the page.
See the Authenticating Cisco VCS accounts using LDAP deployment guide [30] for more details on configuring an LDAP server, including help on specifying distinguished names for searching the database.
Login history
The Login history page is displayed immediately after logging in. It shows the recent activity of the currently logged in account.
Note that this page is only displayed if the account is in advanced account security mode.
This session
This section shows the login date and time of the currently logged in account, and the IP address from where the login originated.
Previous sessions (for this account)
This section shows the date, time and source IP address of the last successful login for this account. If applicable it also shows details of the last failed login attempt for this account, and the number of failed login attempts since the last successful login.

Root account
The Cisco VCS provides a root account which can be used to log in to the Cisco VCS operating system. This account has a username of root (all lower case) and a default password of TANDBERG (all upper case). For security reasons you must change the password as soon as possible. A warning is displayed on the web interface and the CLI if the root account has the default password set.
Note: the root account should not be used in normal operation, and in particular system configuration should not be conducted using this account. Use the admin account instead.
Changing the root account password
To change the password for the root account:
1. Log in to the Cisco VCS as root. By default you can only do this using a serial connection or SSH. 2. Type passwd.
You will be asked for the new password. 3. Enter the new password and when prompted, retype the password. 4. Type exit to log out of the root account.
Accessing the root account over SSH and Telnet
By default, the root account can be accessed over a serial connection or SSH only - access over Telnet is disabled by default. You may want to enable access over Telnet, but for security reasons this is not recommended.

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To enable and disable access to the root account using SSH and Telnet:
1. Log in to the Cisco VCS as root. 2. Type one of the following commands:
l rootaccess -t on to enable access using Telnet l rootaccess -t off to disable access using Telnet l rootaccess -s on to enable access using SSH l rootaccess -s off to disable access using SSH 3. Type exit to log out of the root account.
If you have disabled SSH access while logged in using SSH, your current session will remain active until you log out, but all future SSH access will be denied.
Note: if your Cisco VCS is part of a cluster, do not disable root access using SSH. The clustering feature depends on SSH access.
Resetting an administrator or root password
If you forget the password for the default admin account or any other administrator account, log in to the Cisco VCS using the account of another administrator with read-write access and change the password.
However, if you do not have any other administrator accounts with read-write access, or have forgotten the passwords for them all, you can set a new password for the admin account using the following procedure. This can also be used if you have forgotten the password for the root account:
1. Connect a PC to the Cisco VCS using the serial cable as per the instructions in the Cisco VCS Getting Started Guide [28].
2. Restart the Cisco VCS. 3. Log in from the PC with the username pwrec. No password is required. 4. Select the account (root or admin) whose password you want to change. 5. You will be prompted for a new password.
The pwrec account is only active for one minute following a restart. After that time you will have to restart the system again to change the password.
Resetting user account passwords
To change a password on behalf of a user without knowing their existing password (for example, when a user forgets their password):
1. Go to the Edit user account page (Maintenance > Login accounts > User accounts, then click View/Edit or the username) for the account whose password you want to reset.
2. Enter the new password to be used when logging into this account into the New password and Confirm password fields and click Save.
This procedure only applies if local user account authentication is enabled. If remote authentication is enabled, passwords are managed through your remote directory server instead.
Configuring administrator accounts
The Administrator accounts page (Maintenance > Login accounts > Administrator accounts) lists all the administrator accounts that have been configured on the Cisco VCS, and lets you add, edit and delete accounts.
The configurable options are:

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Field

Description

Usage tips

Name

The username for the administrator account.

Some names such as "root" are reserved.

Password The password that this administrator will use to log in to the Cisco VCS. The password can be up to 16 characters.

All passwords on the Cisco VCS are encrypted, so you only see placeholder characters here.

Account access

Administrator accounts can be assigned the following access permissions:
Read-write: allows all configuration to be viewed and changed. This provides the same rights as the default admin account.
Read-only: allows status and configuration information to be viewed only and not changed. Some pages, such as the Upgrade page, are blocked to read-only accounts.
Auditor: allows access to the Event Log, Configuration Log and the Overview page only.
Account disabled: web login access to the Cisco VCS is not allowed.

The access permissions of the currently logged in user are shown in the system information bar at the bottom of each web page.

To create a new administrator account, click New.
To edit an existing administrator account, click View/Edit.
Password strength
When entering passwords, the bar under the Password field changes color to indicate the complexity of the password. If the Cisco VCS is operating in Enforce strict passwords mode (set on the Password security page, Maintenance > Login accounts > Password security) the password must be Strong before it will be accepted.
Note: you cannot set blank passwords for any administrator account.
Default administrator account
The Cisco VCS has a default local administrator account with full Read-write access. This account is used to log into the Cisco VCS using the web UI or the CLI.
The username for this account is admin (all lower case) and the default password is TANDBERG (all upper case). You cannot delete the default administrator account or change its admin username, but you should change the password as soon as possible. Choose a strong password, particularly if administration over IP is enabled.
Administrators can always log in using the local admin account even if remote administrator authentication is enabled. If you forget the password for the admin account, you can still log in as another administrator user with read-write access and change the password for the admin account.
If you do not have any other such administrator users set up, or you have forgotten those passwords as well, it is possible to reset the password for the admin account as long as you have physical access to the Cisco VCS. See the Resetting an administrator or root password section for details.

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Additional administrator accounts
You can add up to 15 additional administrator accounts, which can be used to log in to the web user interface but not the CLI. If remote administrator authentication is enabled, only the local admin account is displayed.
Note that:
n The Configuration Log records all login attempts and configuration changes made using the web interface, and can be used as an audit trail. This is particularly useful when you have multiple administrator accounts.
n More than one administrator session can be running at the same time. These sessions could be using the web interface, command line interface, or a mixture of both. This may cause confusion if each administrator session attempts to modify the same configuration settings - changes made in one session will overwrite changes made in another session.
Password security
The Password security page (Maintenance > Login accounts > Password security) controls whether or not administrator passwords must meet a minimum level of complexity before they are accepted.
If Enforce strict passwords is set to On, all subsequently configured administrator passwords must contain at least 15 ASCII characters made up of at least:
n 2 lowercase letters ['a'..'z'] n 2 uppercase letters ['A'..'Z'] n 2 numeric values ['0'..'9'] n 2 special characters [such as '@' or '$']
If Enforce strict passwords is set to Off, no checks are made on administrator passwords.
Note that:
n Regardless of this setting, it is not possible to set a blank password for any administrator account. n This setting affects administrator passwords only. It does not affect any other passwords used on
the Cisco VCS such as in the local authentication database, LDAP server, external registration credentials or user account passwords. n All passwords and usernames are case sensitive.
Configuring administrator groups
The Administrator groups page (Maintenance > Login accounts > Administrator groups) lists all the administrator groups that have been configured on the Cisco VCS, and lets you add, edit and delete groups.
Note: administrator groups are only active when remote administrator authentication is enabled.
Administrator groups determine which access rights members of the group have after they have been successfully authenticated to use the Cisco VCS.
When an administrator logs in to the Cisco VCS web interface, their credentials are authenticated against the remote directory service and they are assigned the access rights associated with the group to which the administrator belongs. If the administrator account belongs to more than one group, the highest level permission is assigned.
The configurable options are:

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Field Description

Name

The name of the administrator group.
It cannot contain any of the following characters:
/\[]:;|=,+*?><@"

Usage tips
The group names defined in the Cisco VCS must match the group names that have been set up in the remote directory service to manage administrator access to this Cisco VCS.

Access The access level for members of the specified administrator group:
Read-write: allows all configuration to be viewed and changed. This provides the same rights as the default admin account.
Read-only: allows status and configuration information to be viewed only and not changed. Some pages, such as the Upgrade page, are blocked to read-only accounts.
Auditor: allows access to the Event Log, Configuration Log and the Overview page only.
None: web login access to the Cisco VCS is not allowed.

To create a new administrator group, click New. To edit an existing administrator group, click View/Edit.

Configuring user accounts
The User accounts page (Maintenance > Login accounts > User accounts) lists all the user accounts that have been configured on the Cisco VCS, and lets you add, edit and delete accounts.
User accounts are used by individuals in an enterprise to configure the devices and locations on which they can be contacted through their FindMe ID. Each user account is accessed using a username and password.
n If local user account authentication is selected, each user account must be created locally by a Cisco VCS administrator.
n If remote user account authentication is selected, the Cisco VCS administrator must set up user groups to match the corresponding group names in the remote directory service.
The configurable options for a user account are:

Field

Description

Usage tips

Username

The account name. It is used (along with a password) by the user to log in to the Cisco VCS and configure their FindMe details. The username cannot be changed after the account has been created.

If remote authentication is enabled, the username defined in the Cisco VCS must match the username set up in the remote directory service.

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Field

Description

Usage tips

Display name

A free-form display name for the user (rather than the user's Username or FindMe ID).

The Display name is used in phone books and as the caller display name in SIP calls.

Phone number

The numeric caller ID presented when making an outbound call through an ISDN gateway.

To allow call return, this number could be configured to route to the associated FindMe ID by mapping incoming numbers to the FindMe ID using ENUM, search rules or CPL. See the FindMe deployment guide [29] for more information.

FindMe ID

The FindMe alias -- the dialable address -- by which the user can be contacted.

The FindMe ID can be any string of up to 60 characters. However, not all endpoints are able to dial aliases with spaces or other nonalphanumeric characters so it is recommended that these are not used in your FindMe IDs.

Principal device address

The address or alias of the user's first principal device. An administrator (or users themselves) can add more endpoint addresses after an account has been created.

If the Starter Pack option key is installed, there is a separate section for specifying the user's principal devices (see below).

Password The password to be used, along with the Username, when logging into this account.
You must confirm any new or modified password.

FindMe users can change their password after they have logged in. Note that passwords are case sensitive, and that the password fields are not shown if remote authentication is enabled.

FindMe type

Specifies if the account is for an individual person or a group of people, and affects how calls are diverted when endpoints in the user's primary list are busy.
Individual: calls immediately divert if any primary endpoint is busy.
Group of people: calls immediately divert only if all primary endpoints are busy.

If the Starter Pack option key is installed all FindMe IDs are created as Individual accounts.

You can control general FindMe behavior, including whether users are allowed to add their own devices, on the Configuring FindMe page.
Principal devices (Starter Pack only)
The Principal devices section is used to specify the principal devices that are associated with the FindMe user and to enable provisioning for those devices. This section only displays if the Starter Pack option key is installed.

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Principal devices are devices assigned to the user by the system administrator and cannot be deleted by the FindMe user. Note that users can add other, non-principal, devices to their FindMe profiles.
To assign a principal device, select On for the relevant device type. The page will then display the URI that will be assigned for that user and device type. You can assign as many devices as required.
The device URI is based on a combination of the Username, FindMe ID and device type. It takes the format <username>.<device type>@<domain portion of FindMe ID>.
For example, if the Username is Alice.Smith and the FindMe ID is [email protected], then the URI for a Movi device would be [email protected].
n Each selected device is automatically provisioned (with bandwidth limits and phone book information, for example) when that device registers to the Cisco VCS.
n You can specify an additional principal device by setting Other device to On and then specifying the required URI of the device. If required, you can add further non-principal devices by clicking Edit user from the Edit user account page.
n Any non-principal devices (including any devices added by FindMe users themselves) can be set as principal devices. This has the effect of stopping the user from being to able to delete that device. To do this, click Edit principal devices from the Edit user account page. You can then configure which of the user's devices are principal devices.
Note that the Cisco VCS only sends provisioning information to the pre-configured device types (Movi, E20 and so on). Other principal devices added by the administrator or any other devices added by the FindMe user are not provisioned by the Cisco VCS.
If device authentication using a local database is enabled, authentication credentials for the provisioned devices must also be set up in the local authentication database. The credential name must be the same as account username and the credential password must be the same as the password configured on the provisioned devices.
Note: all device address URIs are converted to lower case.
Multiple Cisco VCS clusters
If you are part of a large enterprise with, for example, Cisco TMS managing several Cisco VCS clusters, the database may contain details of users and devices in other Cisco VCS clusters. Different clusters are distinguished by their Cluster name. You cannot modify the details of accounts that are not managed in your cluster.
Configuring a user's principal devices
The Edit principal devices page (Maintenance > Login accounts > User accounts, click View/Edit or the username to open the Edit user account page, and then click Edit principal devices) is used to configure which of the user's devices are their principal devices associated with their FindMe ID.
Users are not allowed to delete or change the address of their principal devices; they can only change the Device name. This is to stop users from unintentionally changing their basic FindMe configuration. Principal devices are also used by the Cisco VCS to decide which FindMe name to display as a Caller ID if the same device address is associated with more than one account.
The page lists all of the devices currently associated with the selected user. The Principal device column indicates each device's current status as a principal device or not.
n To set devices as a principal device, select the box next to the required devices and click Set as principal device.
n To set devices so they are no longer principal devices, select the required devices and click Unset as principal device.

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Note that only an administrator (and not users themselves) can configure which of a user's devices are their principal devices.

Configuring user groups
The User groups page (Maintenance > Login accounts > User groups) lists all the user groups that have been configured on the Cisco VCS, and lets you add, edit and delete groups.
Note: user groups are only active when remote user authentication is enabled.
User groups determine which access rights members of the group have after they have been successfully authenticated to use the Cisco VCS.
When a user logs in to the Cisco VCS their credentials are authenticated against the remote directory service and they are assigned the access rights associated with the group to which that user belongs. If the user account belongs to more than one group, the highest level permission is assigned.
The configurable options are:

Field Description

Name

The name of the user group.
It cannot contain any of the following characters:
/\[]:;|=,+*?><@"

Usage tips
The group names defined in the Cisco VCS must match the group names that have been set up in the remote directory service to manage user accounts.

Access The access level for members of the specified user group:
Read-write: users can view and modify their personal FindMe details, devices and locations.
None: users are not allowed to log in to their account.

To create a new user group, click New. To edit an existing user group, click View/Edit.
Backing up and restoring Cisco VCS data
The Backup and restore page (Maintenance > Backup and restore) is used to create and restore backup files of your Cisco VCS data. You are recommended to create a backup in the following situations: n before performing an upgrade n before performing a system restore n in demonstration and test environments if you want to be able to restore the Cisco VCS to a known
configuration
You can independently backup and restore two different sets of data: System data, which includes:

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n system configuration settings n Call Policy n clustering configuration n security certificates n administrator account details n user accounts and FindMe settings (when the Starter Pack option key is installed)
TMS Agent data, which includes:
n user accounts and FindMe settings (when the Starter Pack option key is not installed) n TMS Agent provisioning accounts and settings
Note that event logs are not included in the backup files.
Limitations
n Backups can only be restored to a Cisco VCS running the same version of software from which the backup was made.
n You can create a backup on one Cisco VCS and restore it to a different Cisco VCS, for example if the original system has failed. However, before performing the restore you must install on the new system the same set of option keys that were installed on the old system. If you attempt to restore a backup made on a different Cisco VCS, you will receive a warning message, but you will be allowed to continue.
n Backups should not be used to copy data between Cisco VCSs.
Note: you are recommended to take the Cisco VCS unit out of service before performing a restore.
For extra information about backing up and restoring peers in a cluster, refer to the Cluster backup and restore section.
Creating a backup
System data
To create a backup of the Cisco VCS's System data:
1. Go to the Backup and restore page (Maintenance > Backup and restore). 2. Click Create system backup file. 3. After the backup file has been prepared, a pop-up window appears and prompts you to save the file
(the exact wording depends on your browser). The default name is in the format: <hardware serial number>_<date>_<time>_backup.tar.gz. 4. Save the file to a designated location.
TMS Agent data
To create a backup of the Cisco VCS's TMS Agent data:
1. Go to the Backup and restore page (Maintenance > Backup and restore). 2. Click Create TMS Agent backup file. 3. After the backup file has been prepared, a pop-up window appears and prompts you to save the file
(the exact wording depends on your browser). The default name is in the format: <date>_<time>_tms_agent_backup.tar.gz. Note that the preparation of the TMS Agent backup file may take several minutes. Do not navigate away from this page while the file is being prepared. 4. Save the file to a designated location.
The preparation of the TMS Agent backup file may take several minutes. Do not navigate away from this page while the file is being prepared.

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Restoring a previous backup
System data
To restore the Cisco VCS to a previous configuration of System data:
1. Go to the Backup and restore page (Maintenance > Backup and restore). 2. In the Restore section, Browse to the backup file containing the configuration you want to restore. 3. Click Upload system backup file. 4. The Cisco VCS checks the file and takes you to the Restore confirmation page.
l If the backup file is not valid, you will receive an error message at the top of the Backup and restore page.
You are shown the current software version and the number of calls and registrations.
5. Read all the warning messages that appear before proceeding with the restore. 6. Click Continue with system restore to continue with the restore process. This will restart your
system, so ensure that there are no active calls. l Click Abort system restore if you need to exit the restore process and return to the Backup and restore page.
After the system restarts, you are taken to the login page.
TMS Agent data
To restore the Cisco VCS to a previous set of TMS Agent data:
1. Go to the Backup and restore page (Maintenance > Backup and restore). 2. In the Restore section, Browse to the backup file containing the configuration you want to restore. 3. Click Upload TMS Agent backup file. 4. The Cisco VCS checks the file and restores its contents.
l If the backup file is not valid, you will receive an error message at the top of the Backup and restore page.
Creating a system snapshot
The System snapshot page (Maintenance > System snapshot) allows you to create a file that can be used for diagnostic purposes. The file should be sent to your Cisco support representative at their request to assist them in troubleshooting issues you may be experiencing.
To create a system snapshot file:
1. Click Create system snapshot to start the download of the system snapshot file. The preparation of the snapshot file may take several minutes to complete.
2. When the file has been created, a pop-up window appears and prompts you to save the file (the exact wording depends on your browser). Select a location from where you can easily send the file to your Cisco support representative.
Incident reporting
The incident reporting feature of the Cisco VCS automatically saves information about critical system issues such as application failures. You can:
n configure the Cisco VCS to send the reports automatically to Cisco n view the reports from the Cisco VCS web interface n download and send the reports manually to Cisco (usually at the request of Cisco customer
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The information contained in these reports can then be used by Cisco customer support to diagnose the cause of the failures. All information gathered during this process will be held in confidence and used by Cisco personnel for the sole purpose of issue diagnosis and problem resolution.
This feature is only intended for use at the request of Cisco customer support in exceptional situations, and is off by default.
Incident reporting warning: privacy-protected personal data
IN NO EVENT SHOULD PRIVACY-PROTECTED PERSONAL DATA BE INCLUDED IN ANY REPORTS TO CISCO.
Privacy-Protected Personal Data means any information about persons or entities that the Customer receives or derives in any manner from any source that contains any personal information about prospective, former, and existing customers, employees or any other person or entity. PrivacyProtected Personal Data includes, without limitation, names, addresses, telephone numbers, electronic addresses, social security numbers, credit card numbers, customer proprietary network information (as defined under 47 U.S.C. § 222 and its implementing regulations), IP addresses or other handset identifiers, account information, credit information, demographic information, and any other information that, either alone or in combination with other data, could provide information specific to a particular person.
PLEASE BE SURE THAT PRIVACY-PROTECTED PERSONAL DATA IS NOT SENT TO CISCO WHEN THE CISCO VCS IS CONFIGURED TO AUTOMATICALLY SEND REPORTS.
IF DISCLOSURE OF SUCH INFORMATION CANNOT BE PREVENTED, PLEASE DO NOT USE THE AUTOMATIC CONFIGURATION FEATURE. Instead, copy the data from the Incident detail page and paste it into a text file. You can then edit out any sensitive information before forwarding the file on to Cisco customer support.
Incident reports are always saved locally, and can be viewed via the Incident view page.
Sending incident reports automatically
Please read the privacy-protected personal data warning before you decide whether to enable automatic incident reporting.
To configure the Cisco VCS to send incident reports automatically to Cisco customer support:
1. Go to the Incident reporting configuration page (Maintenance > Incident reporting > Configuration).
2. Set the Incident reports sending mode to On. 3. Specify the Incident reports URL of the web service to which any error reports are to be sent.
Note that if the Incident reports sending mode is Off, incidents will not be sent to any URL but they will still be saved locally and can be viewed from the Incident view page.
Sending incident reports manually
Please read the privacy-protected personal data warning before you decide whether to send an incident report manually to Cisco.
To send an incident report manually to Cisco customer support:
1. Go to the Incident view page (Maintenance > Incident reporting > View). 2. Click on the incident you want to send. You will be taken to the Incident detail page. 3. Scroll down to the bottom of the page and click Download incident report. You will be given the
option to save the file. 4. Save the file in a location from where it can be forwarded to Cisco customer support.

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Removing sensitive information from a report
The details in the downloaded incident report are Base64-encoded, so you will not be able to meaningfully view or edit the information within the file.
If you need to edit the report before sending it to Cisco (for example, if you need to remove any potentially sensitive information) you must copy and paste the information from the Incident detail page into a text file, and edit the information in that file before sending it to Cisco.

Viewing incident reports
The Incident view page (Maintenance > Incident reporting > View) shows a list of all incident reports that have occurred since the Cisco VCS was last upgraded. A report is generated for each incident, and the information contained in these reports can then be used by Cisco customer support to diagnose the cause of the failures.
For each report the following information is shown:

Field Description

Time The date and time when the incident occurred.

Version The Cisco VCS software version running when the incident occurred.

Build The internal build number of the Cisco VCS software version running when the incident occurred.

State

The current state of the incident:
Pending: indicates that the incident has been saved locally but not sent.
Sent: indicates that details of the incident have been sent to the URL specified in the Incident reporting configuration page.

To view the information contained in a particular incident report, click on the report's Time. You will be taken to the Incident detail page, from where you can view the report on screen, or download it as an XML file for forwarding manually to Cisco customer support.

Incident report details
The Incident detail page (Maintenance > Incident reporting > View, then click on a report's Time) shows the information contained in a particular incident report.
This is the information that is sent to the external web service if you have enabled Incident reports sending mode (via Maintenance > Incident reporting > Configuration). It is also the same information that is downloaded as a Base64-encoded XML file if you click Download incident report.
The information contained in the report is:

Field Time Version Build

Description The date and time when the incident occurred. The Cisco VCS software version running when the incident occurred. The internal build number of the Cisco VCS software version running when the incident occurred.

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Field Name System Serial number Process ID Release User name Stack Debug information

Description The name of the software. The configured system name. The hardware serial number. The process ID the Cisco VCS application had when the incident occurred. A true/false flag indicating if this is release build (rather than a development build). The name of the person that built this software. This is blank for release builds. The trace of the thread of execution that caused the incident. A full trace of the application call stack for all threads and the values of the registers.

Warning: for each call stack, the Debug information includes the contents of variables which may contain some sensitive information, for example alias values and IP addresses. If your deployment is such that this information could contain information specific to a particular person, please read the warning regarding privacy-protected personal data before you decide whether to enable automatic incident reporting.
Checking the effect of a pattern
The Check pattern page (Maintenance > Tools > Check pattern) lets you test whether a pattern or transform you intend to configure on the Cisco VCS will have the expected result.
Patterns can be used when configuring:
n Allow lists and Deny lists to specify aliases to be included in the lists n Transforms to specify aliases to be transformed before any searches take place n Search rules to filter searches based on the alias being searched for, and to transform an alias
before the search is sent to a zone n Subzone membership rules to determine, based on the address of the device, to which subzone an
endpoint is assigned when it registers with the Cisco VCS n Cisco AM GW policy rules to determine which calls are routed via the Cisco AM GW
To use this tool:
1. Enter an Alias against which you want to test the transform. 2. In the Pattern section, enter the combination of Pattern type and Pattern behavior for the Pattern
string being tested. l If you select a Pattern behavior of Replace, you also need to enter a Replace string. l If you select a Pattern behavior of Add prefix or Add suffix, you also need to enter an Additional text string to append/prepend to the Pattern string.
3. Click Check pattern to test whether the alias matches the pattern. The Result section shows whether the alias matched the pattern, and displays the transformed alias if appropriate.
Locating an alias
The Locate page (Maintenance > Tools > Locate) lets you test whether the Cisco VCS can find an endpoint identified by the given alias, within the specified number of "hops", without actually placing a call to that endpoint.

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This tool is useful when diagnosing dial plan and network deployment issues.
To use this tool:
1. Enter the Alias you want to locate. 2. Enter the Hop count for the search. 3. Select the Protocol used to initiate the search, either H.323 or SIP. The search may be
interworked during the search process, but the Cisco VCS always uses the native protocol first to search those target zones and policy services associated with search rules at the same priority, before searching those zones again using the alternative protocol. 4. Enter the Source zone from which to simulate the search request. Choose from the Default Zone (an unknown remote system), the Local Zone (a locally registered endpoint) or any other configured neighbor, traversal client or traversal server zone. 5. Select whether the request should be treated as Authenticated or not (search rules can be restricted so that they only apply to authenticated messages). 6. Optionally, you can enter a Source alias. Typically, this is only relevant if the routing process uses CPL or a directory service that has rules dependent on the source alias. (If no value is specified a default alias of xcom-locate is used.) 7. Click Locate to start the search.
The status bar shows Searching... followed by Search completed. The results include the list of zones that were searched, any transforms and Call Policy that were applied, and if found, the zone in which the alias was located.
The locate process performs the search as though the Cisco VCS received a call request from the selected Source zone. For more information, see the Call routing process section.
Port usage
The pages under the Maintenance > Tools > Port usage menu show, in table format, all the IP ports that have been configured on the Cisco VCS.
The information shown on these pages is specific to that particular Cisco VCS and varies depending on the Cisco VCS's configuration, the option keys that have been installed and the features that have been enabled.
The information can be sorted according to any of the columns on the page, so for example you can sort the list by IP port, or by IP address.
Each page contains an Export to CSV option. This lets you save the information in a CSV (comma separated values) format file suitable for opening in a spreadsheet application.
Note that IP ports cannot be configured separately for IPv4 and IPv6 addresses, nor for each of the two LAN interfaces. In other words, after an IP port has been configured for a particular service, for example SIP UDP, this will apply to all IP addresses of that service on the Cisco VCS. Because the tables on these pages list all IP ports and all IP addresses, a single IP port may appear on the list up to 4 times, depending on your Cisco VCS configuration.
The port information is split into the following pages:
n Local VCS inbound ports n Local VCS outbound ports n Remote listening ports
On a Cisco VCS Expressway you can also configure the specific listening ports used for firewall traversal by going to the Ports page (VCS configuration > Expressway > Ports).
Further information about ports can be found in the Port reference section.

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Local VCS inbound ports
The Local VCS inbound ports page (Maintenance > Tools > Port usage > Local VCS inbound ports) shows the listening ports on this Cisco VCS. These are the IP ports on the Cisco VCS used to receive inbound communications from other systems.
For each port listed on this page, if there is a firewall between the Cisco VCS and the source of the inbound communications, your firewall must allow:
n inbound traffic to the IP port on the Cisco VCS from the source of the inbound communications, and n return traffic from that same Cisco VCS IP port back out to the source of the inbound
communication.
Note: this firewall configuration is particularly important if this Cisco VCS is a traversal client or traversal server, in order for Expressway firewall traversal to function correctly.
Local VCS outbound ports
The Local VCS outbound ports page (Maintenance > Tools > Port usage > Local VCS outbound ports) shows the source IP ports used by this Cisco VCS. These are the IP ports on the Cisco VCS used to send outbound communications to other systems.
For each port listed on this page, if there is a firewall between the Cisco VCS and the destination of the outbound communications, your firewall must allow:
n outbound traffic out from the IP port on the Cisco VCS to the destination of the outbound communications, and
n return traffic from that destination back to the same Cisco VCS IP port.
Note: this firewall configuration is particularly important if this Cisco VCS is a traversal client or traversal server, in order for Expressway firewall traversal to function correctly.
Remote listening ports
The Remote listening ports page (Maintenance > Tools > Port usage > Remote listening ports) shows the destination IP addresses and IP ports of remote systems with which the Cisco VCS communicates.
Your firewall must be configured to allow traffic originating from the local Cisco VCS to the remote devices identified by the IP addresses and IP ports listed on this page.
Note: there are other remote devices not listed here to which the Cisco VCS will be sending media and signaling, but the ports on which these devices receive traffic from the Cisco VCS is determined by the configuration of the destination device, so they cannot be listed here. If you have opened all the ports listed in the Local VCS outbound ports page, the Cisco VCS will be able to communicate with all remote devices. You only need to use the information on this page if you want to limit the IP ports opened on your firewall to these remote systems and ports.
Restarting
The Restart page (Maintenance > Restart) allows you to restart the Cisco VCS without having physical access to the hardware.
WARNING: do not restart the Cisco VCS while the red ALM LED on the front of the box is on. This indicates a hardware fault. Contact your Cisco representative.
The restart function shuts down and restarts the Cisco VCS application software, but not the operating system or hardware. Some configuration changes require a restart of the Cisco VCS before they take

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effect. A Restart button is at the bottom of any web page that includes such settings, and clicking it takes you to the Restart page. A system warning will remain in place until the system is restarted.
Restarting causes any active calls and registrations to be terminated. For this reason, the Restart section displays the number of current calls and registrations, so you can check these before you restart the Cisco VCS. If you do not restart the system immediately, you should refresh this page before restarting to check the current status of calls and registrations.
Restarting using the web interface
To restart the Cisco VCS using the web interface:
1. Go to Maintenance > Restart, or from a relevant configuration page, click the Restart button. You are taken to the Restart page.
2. Check the number of calls and registrations currently in place. 3. Click Restart system.
The Restarting page appears, with an orange bar indicating progress.
After the system has successfully restarted, you are automatically taken to the Login page.
Note: to shut down and restart the Cisco VCS operating system and hardware in addition to the Cisco VCS application software, choose the Reboot function (Maintenance > Reboot). Restarting is quicker than rebooting.
Rebooting
The Reboot page (Maintenance > Reboot) allows you to reboot the Cisco VCS without having physical access to the hardware.
WARNING: do not reboot the Cisco VCS while the red ALM LED on the front of the box is on. This indicates a hardware fault. Contact your Cisco representative.
The reboot function shuts down and restarts the Cisco VCS application software, operating system and hardware. Reboots are normally only required after software upgrades and are performed as part of the upgrade process.
Rebooting will cause any active calls and registrations to be terminated. For this reason, the Reboot section displays the number of current calls and registrations, so you can check these before you reboot. If you do not reboot the system immediately, you should refresh this page before rebooting to check the current status of calls and registrations.
Rebooting using the web interface
To reboot the Cisco VCS using the web interface:
1. Go to Maintenance > Reboot. You are taken to the Reboot page. 2. Check the number of calls and registrations currently in place. 3. Click Reboot system.
The Rebooting page appears, with an orange bar indicating progress.
After the system has successfully rebooted, you are automatically taken to the Login page.
Note: to shut down and restart the Cisco VCS application software but not the operating system and hardware, choose the restart function (Maintenance > Restart). Restarting is quicker than rebooting, but you may want to perform a reboot if a restart has not had the desired effect.

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Shutting down
The Shutdown page (Maintenance > Shutdown) allows you to turn off the Cisco VCS without having physical access to the hardware.
WARNING: do not shut down the Cisco VCS while the red ALM LED on the front of the box is on. This indicates a hardware fault. Contact your Cisco representative.
The system must be shut down before it is unplugged.
After the system has been shut down, the only way it can be restarted is by pressing the soft power button on the unit itself. You must therefore have physical access to the unit if you want to restart it after it has been shut down.
Shutting down causes any active calls and registrations to be terminated. For this reason, the Shutdown section displays the number of current calls and registrations, so you can check these before you shutdown. If you do not shut down the system immediately, you should refresh this page before shutting down to check the current status of calls and registrations.
Shutting down using the web interface
To shut down the Cisco VCS: 1. Go to Maintenance > Shutdown. You are taken to the Shutdown page. 2. Check the number of calls and registrations currently in place. 3. Click Shutdown system.
The Shutting down page appears. This page remains in place after the system has successfully shut down but any attempts to refresh the page or access the Cisco VCS will be unsuccessful.
Shutting down using the CLI
The Cisco VCS cannot be shut down using the CLI.

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Reference material
This section provides supplementary information about the features and administration of the Cisco VCS, including:
n Event Log levels and messages n CPL reference and examples n LDAP configuration for device authentication n DNS configuration n password encryption n pattern matching variables n port reference n regular expression reference n supported characters n TMS agent and TMS agent passwords n what constitutes traversal calls n using the command line interface (CLI) n restoring the system to its default settings n warnings n bibliography n glossary

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Software version history
This section summarizes feature updates that have occurred in earlier software releases. n X5.2 n X5.1 n X5 n X4
X5.2
Telephone event interworking The Cisco VCS now supports the interworking of DTMF events between SIP and H.323. This allows SIP devices to dial into PIN protected conferences and to select conferences using the DTMF menu. There are the following limitations: n 4 Audio packets are dropped each time DTMF is interworked from H323 to SIP. This means that
DTMF will only work if there are audio packets flowing from H323 to SIP. n The duration of events is not interworked, only fixed constants are supported. Encrypted calls to Microsoft OCS Server 2007 Encrypted calls to and from Microsoft OCS Server 2007 for both native SIP calls and calls interworked from H323 are now supported. This feature is enabled by the Enhanced OCS Collaboration option key. Note that as the Cisco VCS must process the media in both scenarios, a traversal call license is used.
Message waiting indication The Cisco VCS now supports forwarding of unsolicited NOTIFY messages to registered endpoints. This allows message waiting indication from CUCM to be forwarded to E20s thus allowing the indicator light to flash.
Ports The Cisco VCS no longer listens on multicast/port 1718 when H.323 Gatekeeper Auto discover mode is set to Off (this has the effect of disabling IGMP messages).
Call bandwidth The maximum value for the default call bandwidth on a Cisco VCS has been increased from 2048 kbps to 65535 kbps.
Presence Default timers for the Presence User Agent retry attempts have been increased to prevent resources being consumed. n The default Subscription expiration time has increased from 300 to 3600 seconds. n The default Publication expiration time has increased from 120 to 1800 seconds. n The default PUA resend time (not configurable through the web interface) has increased from 5 to
1800 seconds.

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X5.1
Usability enhancements
n Description fields for configuration items: a free-format description can be specified for the following configuration items: transforms, Allow List and Deny List patterns, search rules, subzone membership rules. When viewing the summary list of these items the description is displayed as a mouse-over tooltip.
n Enable and disable configuration items: transforms, search rules and subzone membership rules can be individually enabled and disabled. This makes it easier to make or test configuration changes. Previously, configuration items would have to be deleted and re-created as necessary. The enabled or disabled state is clearly shown on the summary list pages.
n "Add suffix" and "add prefix" transform options: new presearch transform pattern behavior options let you add a prefix or suffix to the matching alias. Previously, regular expressions would have been required to do this.
n Consistent create and modify behavior for configuration items: for configuration where multiple items can be defined (for example, Allow List patterns, search rules and so on) the create and modify behavior has been made consistent so that you are always returned to the summary list page after saving your changes. Additionally, new search rules, subzone membership rules, subzones and zones are all created in a single step. Previously you had to specify some of the configuration values when creating the item, and then return to the edit page to specify the remainder of the values.
n "Please select" in drop-down fields: when creating configuration items some of the default values presented in drop-down selection fields have been replaced with a "please select" value. This helps prevent potentially undesirable default values being selected by mistake.
n Improved filtering options for Event Log and Configuration Log: advanced filtering options let you include or exclude specific words or phrases when filtering the view of the Event Log and the Configuration Log.
n OCS Relay status: colored status icons make the difference between the online and offline OCS Relay status more distinct.
n Configuration warnings: more warnings are raised for common misconfiguration scenarios, for example if a clustered Cisco VCS has H.323 disabled, or if default links are not present.
FindMeTM / User Policy option key
n The User Policy option key has been renamed as the FindMeTM option key. n "FindMe accounts" and "FindMe groups" are now referred to as "user accounts" and "user groups"
respectively.
Subzone registration policies
n In addition to using Allow Lists and Deny Lists, registrations can be controlled at the subzone level. Each subzone can be configured to allow or deny registrations assigned to it via the subzone membership rules.
n Up to 3000 subzone membership rules (previously 2000) can be configured across all subzones.
Zone configuration
n TLS authentication: the Cisco VCS can perform certificate verification of neighbor zones when communicating over TLS. Mutual authentication can be performed with neighbor Cisco VCSs.
n TLS default transport type: TLS is the default SIP transport type when setting up new neighbor, traversal client and traversal server zones.
n SIP authentication trust: the Cisco VCS can be configured to trust incoming SIP messages from specified neighbor zones, rather than challenge them. This applies even if device authentication is enabled on the Cisco VCS.
n Accept proxied registrations: controls whether proxied SIP registrations routed through a neighbor, traversal client or traversal server zone are accepted.

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n Nortel Communication Server 1000 zone profile: the Cisco VCS can automatically configure the settings required for connections to a Nortel Communication Server 1000.
n Separate authentication credentials per traversal client zone: each traversal client zone specifies its own username and password for authentication with the traversal server. This allows a traversal client Cisco VCS to connect to one or more service providers. Note that the existing Outbound connection credentials username and password are still used for connections to all other (non traversal server) external systems.
Conference Factory generated alias ranges
n The upper and lower range limits of the numeric portion of the generated alias can be specified. n The numeric portion of the generated alias will pad with leading zeroes to maintain a constant
length, for example a range of 10-999 will generate aliases 010 through 999.
Cisco TelePresence Advanced Media Gateway support
The Cisco TelePresence Advanced Media Gateway (Cisco AM GW) provides support for transcoding between standard codecs (such as H.264) and Microsoft RT Video to allow high definition calls between Microsoft Office Communicator (MOC) clients and Cisco endpoints.
n Advanced Media Gateway zone profile: automatically configures the Cisco VCS with the zone settings required for connection to an Cisco AM GW.
n Policy rules: ability to define policy rules to control whether all or only selected calls to or from MOC clients are diverted through the Cisco AM GW.
Far end camera control interworking
The Cisco VCS supports far end camera control (FECC) when interworking calls between SIP and H.323 endpoints.
G.729 support for interworked calls
The G.729 codec is supported for interworked calls.
Advanced account security
An Advanced account security option key enables advanced security features and restrictions for high-security installations.information about this feature.
CRL checking for TLS connections to LDAP servers
Certificate revocation lists (CRLs) can be uploaded and used to verify certificates presented by an LDAP server to the Cisco VCS when forming a TLS connection.for more information.
HTTPS client certificate validation
n The Cisco VCS web server can be configured to request a valid client certificate before establishing an HTTPS session with a client system (typically a web browser).
n Client certificate revocation lists can be uploaded and used to verify the client certificate.
Clustering
n Improved resilience: cluster configuration replication is more resilient to network delay. n TURN server: relay allocation requests are redirected to other cluster peers if the first Cisco VCS's
relays are fully allocated.
Hardware failure warnings
Improved hardware failure detection, warnings and status display.

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Auditor account access level
An Auditor access level can be assigned to administrator accounts and groups. Users with the Auditor privilege can only access the Overview, Event Log and Configuration Log pages.
Remote account authentication over LDAP
The LDAP server address of the remote directory service can be specified as a DNS SRV record, thus allowing multiple (primary and backup) servers to be specified.
Starter Pack
The Starter Pack option key is only available as a pre-configured factory setting. It is designed for single box deployments and provides basic device provisioning for registered Movi users, without the need for Cisco TMS. It supports device authentication and supplies phone book information to provisioned devices.
The Starter Pack includes the following features:
n Expressway n FindMe
It has the following license restrictions:
n 50 registrations n 5 calls (any combination of traversal and non-traversal calls)
Note that installing additional call license option keys will have no effect while the Starter Pack option key is present.
X5
Enterprise authentication
The Cisco VCS can authenticate administrator and/or FindMe accounts against a remote directory service, such as Windows Active Directory, over LDAP. This allows administration groups to be set up in the directory service for all Cisco VCSs in an enterprise, removing the need to have separate accounts on each Cisco VCS.
FindMeTM enhancements
n FindMe account users can set up a list of locations such as "at home" or "in the office" and associate their personal devices with those locations. Only those devices associated with their currently active location will ring when their FindMe is called.
n You can display the caller's FindMe ID as the Caller ID associated with the originating endpoint's address. This means that if the recipient subsequently returns that call, all the devices associated with that FindMe account will be called. For H.323 calls placed through an ISDN gateway, the E.164 phone number associated with the FindMe account is displayed instead.
n Administrators can specify text to display to all FindMe users when they configure a device on their FindMe account.
n A new FindMe search page lets you search for FindMe usernames and aliases.
Include ISDN gateway prefix on caller ID display
On the H.323 configuration page you can specify whether the Caller ID displayed on the destination endpoint includes the prefix of the ISDN gateway when displaying the caller's E.164 number.

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Subzone configuration
n Cisco VCS now supports up to 1000 subzones (previously 200). n You can now configure up to 2000 membership rules across all subzones, replacing the previous
method of specifying up to five IP subnets per subzone. Each rule can specify either an IP subnet as before or an alias pattern match. n Number of pipes increased from 100 to 1000. n Number of links increased from 600 to 3000.
Zone configuration
n Cisco VCS now supports up to 1000 zones (previously 200). n New Cisco Unified Communications Manager zone profile option configures the settings
required for connections to a Cisco UCM.
Zone matches replaced by search rules
Instead of specifying up to 5 matches when configuring a zone, you now set up separate search rules and associate each rule with a target zone to where the query is forwarded.
n You can configure up to 2000 search rules. n A Stop searching option makes the search process more efficient by allowing you to stop
searching any further zones when a search rule results in a successful match. n A Source option lets you control whether a search rule is applied depending on the source of the
query. n The Calls to unknown IP addresses and Fallback alias configuration settings have moved from
the Calls page to a new Search rules configuration page.
Quality of Service
The Cisco VCS supports the DiffServ (Differentiated Services) Quality of Service mechanism for tagging all signaling and media packets flowing through the Cisco VCS over IPv4 and IPv6 protocols.
Expressway call licensing
A non-traversal call on a Cisco VCS Expressway now consumes a traversal license if there are no non-traversal call licenses available.
Microsoft Office Communications Server 2007 integration
n The OCS Relay application is now supported in a Cisco VCS cluster and with an OCS cluster. n OCS Director is now supported.
TURN server
A Cisco VCS Expressway can act as a standards-based TURN server, allowing ICE-enabled endpoints to traverse NAT firewall devices.
n TURN services do not consume traversal call licenses but instead you need to install the TURN Relay option key which controls the number of TURN relays that can be simultaneously allocated by the Cisco VCS.
n This replaces the STUN Relays used in version X4 (which consumed traversal call licenses).
CPL
The rule node supports a message-regex parameter that allows a regular expression to be matched against an incoming SIP message. Note that this parameter does not apply to H.323 calls.
Cisco VCS warnings display as Cisco TMS trouble tickets
Warnings raised on the Cisco VCS are also raised as Cisco TMS tickets.

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Call media statistics
Improved media statistics can be viewed on the Call media page:
n counters are now per call rather than per socket n lost, duplicate and out of order packet counts n jitter on each RTP channel in a call
Clustering
n A Cluster name is used to identify one cluster of Cisco VCSs from another. l You must define a Cluster name if you are using FindMe, even if the Cisco VCS is not part of a cluster. l If you change the Cluster name after creating your FindMe accounts you will have to reconfigure those FindMe accounts for that new name.
n H.323 endpoints are presented with a randomly ordered list of peers, ensuring endpoints that can only store a single alternate peer will failover evenly across the cluster.
Separate backup files for TMS Agent database
The backup and restore of the TMS Agent database (FindMe and TMS Agent provisioning accounts and settings data) is now separate from the main Cisco VCS system configuration backup files.
Hardware status
A Hardware page provides information about the physical status of your Cisco VCS unit.
Restart and reboot
The Cisco VCS now distinguishes between a restart function which is required for some configuration changes to take effect, and a full reboot process which is only required after a software upgrade.
Upgrade of Cisco VCS components
You can now upgrade individual Cisco VCS components separately. The main component is the VCS platform, and when upgraded will typically include automatic upgrades of some or all of the other components.
Administrator tools
n The Locate test tool lets you specify the zone from which to simulate the origin of the search request.
n The Port usage tools let you export port usage details in a CSV format file suitable for reviewing in a spreadsheet application.
System configuration
n An External LAN interface field is used to indicate on the IP page which LAN port has been connected to your external network. It also determines the port from which TURN server relay allocations are made.
n On the DNS page you can now specify the Local host name. This is the DNS host name that this Cisco VCS is known by.
n The NTP server field on the Time page now defaults to one of four NTP servers provided by Cisco, either: 0.ntp.tandberg.com, 1.ntp.tandberg.com, 2.ntp.tandberg.com or 3.ntp.tandberg.com.
SIP configuration
New parameters have been added to the SIP configuration page.
n SIP session expiry timers can be configured through the Session refresh interval and Minimum session refresh interval settings.

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n SIP device interoperability can now be configured through the Require UDP BFCP mode and Require Duo Video mode settings. Note that the default setting of On for these modes is not supported by some neighbor systems so make sure you select the appropriate Zone profile when configuring zones.
X4
MultiwayTM
Cisco VCS now supports standards-based MultiwayTM. This feature allows endpoint users to initiate ad hoc multiparty calls from their endpoint, -even if the endpoint does not have embedded MultiSiteTM capabilities. To enable this feature you must enable and configure the Conference Factory application on the Cisco VCS.
TMS Agent
The TMS Agent allows MoviTM v2.0 clients registered to the Cisco VCS to be provisioned with phone book and configuration information by connecting to the Cisco VCS rather than directly to Cisco TMS.
Microsoft OCS 2007 interoperability
n The Cisco VCS now includes an OCS Relay application, which makes FindMe presence information available to Microsoft Office Communicator (MOC) clients, and enables Microsoft Office Communications Server (OCS) 2007 to forward calls to FindMe aliases.
n Neighbor and DNS zones now include a pre-configured zone profile for connections to an OCS.
Static NAT support
A Cisco VCS Expressway with the Dual Network Interfaces option installed can now be deployed in a DMZ with a static private address mapped to a public IP address of the external firewall.
Password security
n You can determine whether or not administrator passwords must meet a minimum level of complexity before they are accepted.
n The admin administrator account and the root account can now have separate passwords. n A warning will appear if the password of the default admin administrator account or the root account
are still set to the default.
Root account access
Access to the root account using Telnet and SSH can be disabled to increase security on the Cisco VCS (access over Telnet is now disabled by default).
Capacity warnings
The Cisco VCS can now raise a warning when it is approaching its maximum licensed capacity for calls or registrations. This feature is managed using the CLI only using the command: ResourceUsage Warning Activation Level: <0..100>
Clustering
The replication of configuration information (including FindMe information) no longer requires the use of Cisco TMS. Information is replicated across the peers in a cluster within 60 seconds.
Call processing
n The Cisco VCS has a new Call routed mode which will determine whether or not it will attempt to remove itself from the call signaling path.

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n The Cisco VCS has a new Call loop detection mode which can be configured to detect and stop loops from happening during the search phase for both H.323 and SIP.
Administrator tools
n The Check pattern tool allows you to test the outcome of a pattern or transform before configuring it live on the Cisco VCS.
n The Locate tool allows you to test whether the Cisco VCS can find an endpoint identified by a given alias, within a specified number of 'hops', without actually placing a call to that endpoint. This tool can be used to diagnose dial plan and network deployment issues.
n The Port usage pages provide a convenient way to see a complete list of all inbound, outbound and remote listening ports used by the Cisco VCS. This information can be provided to your Firewall Administrator to ensure the correct ports are opened on the firewall.
Usability enhancements
n In addition to the existing help for every input field, there is now help available for every page on the web interface. This help gives an overview of the purpose of the page, and introduces any concepts configured from the page including when they may be used.
n Registrations can now be viewed either as a list of all devices that have registered regardless of the aliases they have used, or as a list of every alias registered on the Cisco VCS, regardless of whether these belong to the same device.
Login banner
You can upload an image and text that will be displayed when administrators or FindMe users log in the Cisco VCS.

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About Event Log levels
All events have an associated level in the range 1-4, with Level 1 Events considered the most important. The table below gives an overview of the levels assigned to different events.

Level Assigned Events

Level 1

High-level events such as registration requests and call attempts. Easily human readable. For example: n call attempt/connected/disconnected n registration attempt/accepted/rejected

Level All Level 1 Events, plus:

2

n logs of protocol messages sent and received (SIP, H.323, LDAP and so on) excluding

noisy messages such as H.460.18 keepalives and H.245 video fast-updates

Level All Level 1 and Level 2 Events, plus:

3

n protocol keepalives

n call-related SIP signaling messages

Level The most verbose level: all Level 1, Level 2 and Level 3 Events, plus:

4

n network level SIP messages

See the Events and levels section for a complete list of all events that are logged by the Cisco VCS, and the level at which they are logged.

Event Log format
The Event Log is displayed in an extension of the UNIX syslog format: date time process_name: message_details where:

Field date time process_name
message_ details

Description
The local date on which the message was logged.
The local time at which the message was logged.
The name of the program generating the log message. This could include: n tvcs for all messages originating from Cisco VCS processes n findme for FindMe account data migration events n web for all web login and configuration events n tprovisioning for all events associated with the TMS Agent but will differ for messages from other applications running on the Cisco VCS.
The body of the message (see the Message details field section for further information).

Administrator and FindMe user events
Administrator session related events are:
n Admin Session Start n Admin Session Finish

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n Admin Session Login Failure
FindMe user session related events are:
n User Session Start n User Session Finish n User Session Login Failure
For both administrator and FindMe user related events, the Detail field includes:
n the name of the administrator or FindMe user to whom the session relates, and their IP address n the date and time that the login was attempted, started, or ended

Message details field
For all messages logged from the tvcs process, the message_details field, which contains the body of the message, consists of a number of human-readable name=value pairs, separated by a space.
The first name element within the message_details field is always Event and the last name element is always Level.
The table below shows all the possible name elements within the message_details field, in the order that they would normally appear, along with a description of each.
Note: in addition to the events described below, a syslog.info event containing the string MARK is logged after each hour of inactivity to provide confirmation that logging is still active.

Name Event User ipaddr Protocol
Reason Service
Message Type

Description
The event which caused the log message to be generated. See Events and levels for a list of all events that are logged by the Cisco VCS, and the level at which they are logged.
The username that was entered when a login attempt was made.
The source IP address of the user who has logged in.
Specifies which protocol was used for the communication. Valid values are:
n TCP n UDP n TLS
Textual string containing any reason information associated with the event.
Specifies which protocol was used for the communication. Will be one of:
n H323 n SIP n H.225 n H.245 n LDAP n Q.931 n NeighbourGatekeeper n Clustering n ConferenceFactory
Specifies the type of the message.

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Name

Description

Response- SIP response code or, for H.323 and interworked calls, a SIP equivalent response code. code

Src-ip

Source IP address (the IP address of the device attempting to establish communications). This can be an IPv4 address or an IPv6 address.

Dst-ip

Destination IP address (the IP address of the destination for a communication attempt). The destination IP is recorded in the same format as Src-ip.

Src-port Source port: the IP port of the device attempting to establish communications.

Dst-port Destination port: the IP port of the destination for a communication attempt.

Src-alias

If present, the first H.323 alias associated with the originator of the message. If present, the first E.164 alias associated with the originator of the message.

Dst-alias

If present, the first H.323 alias associated with the recipient of the message. If present, the first E.164 alias associated with the recipient of the message.

Detail

Descriptive detail of the Event.

Auth

Whether the call attempt has been authenticated successfully.

Method SIP method (INVITE, BYE, UPDATE, REGISTER, SUBSCRIBE, etc).

Contact Contact: header from REGISTER.

AOR

Address of record.

Call-id

The Call-ID header field uniquely identifies a particular invitation or all registrations of a particular client.

Call-serial- The local Call Serial Number that is common to all protocol messages for a particular number call.

Tag

The Tag is common to all searches and protocol messages across a Cisco VCS

network for all forks of a call.

Call-routed Indicates if the Cisco VCS took the signaling for the call.

To

n for REGISTER requests: the AOR for the REGISTER request

n for INVITEs: the original alias that was dialed

n for all other SIP messages: the AOR of the destination.

Request- The SIP or SIPS URI indicating the user or service to which this request is being

URI

addressed.

Numbytes

The number of bytes sent/received in the message.

Protocol- Shows the data contained in the buffer when a message could not be decoded. buffer

Duration Request/granted registration expiry duration.

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Name

Description

Time

A full UTC timestamp in YYYY/MM/DD-HH:MM:SS format. Using this format permits simple ASCII text sorting/ordering to naturally sort by time. This is included due to the limitations of standard syslog timestamps.

Level

The level of the event as defined in the About Event Log levels section.

UTCTime Time the event occurred, shown in UTC format.

Events and levels
The following table lists the events that can appear in the Event Log.

Event

Description

Level

Admin Session An administrator has logged off the system.

1

Finish

Admin Session An unsuccessful attempt has been made to log in as an administrator. This 1 Login Failure could be because an incorrect username or password (or both) was entered.

Admin Session An administrator has logged onto the system.

1

Start

Application Exit The Cisco VCS application has been exited. Further information may be

1

provided in the Detail event parameter.

Application Failed

The Cisco VCS application is out of service due to an unexpected failure. 1

Application Start

The Cisco VCS has started. Further detail may be provided in the Detail

1

event parameter.

Application

The Cisco VCS application is still running but has experienced a

1

Warning

recoverable problem. Further detail may be provided in the Detail event

parameter.

Authorization The user has either entered invalid credentials, does not belong to an

1

Failure

access group, or belongs to a group that has an access level of "None".

Applies when remote authentication is enabled.

Beginning

A system backup has started.

1

System

Backup

Beginning

A system restore has started.

1

System

Restore

Call Answer An attempt to answer a call has been made.

1

Attempted

Call Attempted A call has been attempted.

1

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Event

Description

Call Bandwidth The endpoints in a call have renegotiated call bandwidth. Changed

Call Connected A call has been connected.

Call Diverted A call has been diverted.

Call

A call has been disconnected.

Disconnected

Call Inactivity A call has been disconnected due to inactivity. Timer

Call Rejected A call has been rejected. The Reason event parameter contains a textual representation of the H.225 additional cause code.

Call Rerouted The Cisco VCS has Call Routed mode set to Optimal and has removed itself from the call signaling path.

Completed System Backup

A system backup has completed.

Completed

A system restore has completed.

System restore

Configlog Cleared

An operator cleared the Configuration Log.

Decode Error A syntax error was encountered when decoding a SIP or H.323 message.

Directory Service Database Started

The TMS Agent database has started.

Directory Service Database Stopped

The TMS Agent database has stopped.

Directory Service Failed Restarting

The TMS Agent failed to restart.

Directory Service Restarted

The TMS Agent has restarted.

Directory Service Restarting

The TMS Agent is restarting.

Directory Service Starting

The TMS Agent is starting.

Level 1 1 1 1 1 1 1 1
1 1 1 1
1
1
1
1
1

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Event

Description

Level

Directory

The TMS Agent is shutting down.

1

Service

Shutting Down

Error Response The TURN server has sent an error message to a client (using STUN

3

Sent

protocol).

Eventlog

An operator cleared the Event Log.

1

Cleared

External Server Communication with an external server failed unexpectedly. The Detail

1

Communication event parameter should differentiate between "no response" and "request

Failure

rejected". Servers concerned are:

n DNS

n LDAP servers

n Neighbor Gatekeeper

n NTP servers

n Peers

FindMe Search A search of the FindMe database has failed, for example due to no alias

1

Failed

being provided.

FindMe Transfer

FindMe user accounts have been migrated across clusters. The Detail

1

event parameter provides additional details.

Hardware Failure

There is an issue with the Cisco VCS hardware. If the problem persists,

1

contact your Cisco support representative.

License Limit Reached

Licensing limits for a given feature have been reached. The Detail event

1

parameter specifies the facility/limits concerned. Possible values for the

detail field are:

n Non Traversal Call Limit Reached

n Traversal Call Limit Reached

If this occurs frequently, you may want to contact your Cisco representative

to purchase more licenses.

Message

An incoming RAS message has been received.

2

Received

Message

An incoming RAS NSM Keepalive, H.225, H.245 or a RAS message

3

Received

between peers has been received.

Message

(SIP) An incoming message has been received.

4

Received

Message Rejected

This could be for one of two reasons:

1

n If authentication is enabled and an endpoint has unsuccessfully

attempted to send a message (such as a registration request) to the

Cisco VCS. This could be either because the endpoint has not supplied

any authentication credentials, or because its credentials do not match

those expected by the Cisco VCS.

n Clustering is enabled but bandwidth across the cluster has not been

configured identically, and the Cisco VCS has received a message

relating to an unknown peer, link, pipe, subzone or zone.

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Event

Description

Level

Message Sent An outgoing RAS message has been sent.

2

Message Sent An outgoing RAS NSM Keepalive, H.225, H.245 or a RAS message

3

between peers has been sent.

Message Sent (SIP) An outgoing message has been sent.

4

Operator Call An administrator has disconnected a call.

1

Disconnect

Outbound TLS The Cisco VCS is unable to communicate with another system over TLS. 1

Negotiation

Refer to the event parameters for more information.

Error

Policy Change A policy file has been updated.

1

POST request A HTTP POST request was submitted from an unauthorized session.

1

failed

Provisioning Diagnostic messages from the provisioning server. The Detail event

1

parameter provides additional information.

Reboot Requested

A system reboot has been requested. Refer to the Reason event parameter 1 for specific information.

Registration A registration request has been accepted.

1

Accepted

Registration A request to refresh or keep a registration alive has been accepted.

3

Refresh

Accepted

Registration A request to refresh a registration has been rejected.

1

Refresh

Rejected

Registration A request to refresh or keep a registration alive has been received.

3

Refresh

Requested

Registration A registration request has been rejected. The Reason and Detail event

1

Rejected

parameters provide more information about the nature of the rejection.

Registration Removed

A registration has been removed by the Cisco VCS. The Reason event

1

parameter specifies the reason why the registration was removed. This is

one of:

n Authentication change

n Conflicting zones

n Operator forced removal

n Operator forced removal (all registrations removed)

n Registration superseded.

Registration A registration has been requested.

1

Requested

Relay Allocated A TURN server relay has been allocated.

2

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Event

Description

Level

Relay Deleted A TURN server relay has been deleted.

2

Relay Expired A TURN server relay has expired.

2

Request Failed A request sent to the Conference Factory has failed.

1

Request

A call-related SIP request has been received.

2

Received

Request

A non-call-related SIP request has been received.

3

Received

Request Sent A call-related SIP request has been sent.

2

Request Sent A non-call-related SIP request has been sent.

3

Request

A successful request was sent to the Conference Factory.

1

Successful

Response

A call-related SIP response has been received.

2

Received

Response

A non-call-related SIP response has been received.

3

Received

Response Sent A call-related SIP response has been sent.

2

Response Sent A non-call-related SIP response has been sent.

3

Restart Requested

A system restart has been requested. Refer to the Reason event parameter 1 for specific information.

Search

A search has been attempted.

1

Attempted

Search

A search has been cancelled.

1

Cancelled

Search

A search has been completed.

1

Completed

Search Loop The Cisco VCS is in Call loop detection mode and has identified and

2

detected

terminated a looped branch of a search.

Secure mode The Cisco VCS has successfully exited Advanced account security

1

disabled

mode.

Secure mode The Cisco VCS has successfully entered Advanced account security

1

enabled

mode.

Security Alert A potential security-related attack on the Cisco VCS has been detected. 1

Source Aliases A source alias has been changed to indicate the caller's FindMe ID.

1

Rewritten

Success

The TURN server has sent a success message to a client (using STUN

3

Response Sent protocol).

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Event

Description

Level

System backup The system backup process has completed.

1

completed

System

An error occurred while attempting a system backup.

1

Backup error

System backup The system backup process has started.

1

started

System Configuration Changed

An item of configuration on the system has changed. The Detail event

1

parameter contains the name of the changed configuration item and its new

value.

System restore The system restore process has completed.

1

completed

System restore System restore process has started backing up the current configuration 1 backing up current config

System restore System restore process has completed backing up the current configuration 1 backup of current config completed

System restore An error occurred while attempting a system restore.

1

error

System restore The system restore process has started.

1

started

System

The operating system was shutdown.

1

Shutdown

System

A system snapshot has been initiated.

1

snapshot

started

System

A system snapshot has completed.

1

snapshot

completed

System Start

The operating system has started. The Detail event parameter may contain 1 additional information if there are startup problems.

TLS

Transport Layer Security (TLS) connection failed to negotiate.

1

Negotiation

Error

TMS Agent

The TMS Agent backup process has completed.

1

backup

completed

TMS Agent

An error occurred while attempting a TMS Agent backup.

1

backup error

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Event

Description

Level

TMS Agent

The TMS Agent backup process has started.

1

backup started

TMS Agent

The TMS Agent restore process has completed.

1

restore

completed

TMS Agent

An error occurred while attempting a TMS Agent restore.

1

Restore error

TMS Agent

The TMS Agent restore process has started.

1

restore started

Unregistration An unregistration request has been accepted.

1

Accepted

Unregistration An unregistration request has been rejected.

1

Rejected

Unregistration An unregistration request has been received.

1

Requested

Upgrade

Messages related to the software upgrade process. Refer to the Detail

1

event parameter for specific information.

User session A FindMe user has logged out of the system.

1

finish

User session An unsuccessful attempt has been made to log in as a FindMe user. This 1 Login failure could be because either an incorrect username or password (or both) was
entered.

User session A FindMe user has logged on to the system.

1

start

Warning

An administrator has acknowledged a warning. The Detail event parameter 1

acknowledged provides information about the nature of the issue.

Warning lowered

The issue that caused a warning to be raised has been resolved. The Detail 1 event parameter provides information about the nature of the issue.

Warning raised The Cisco VCS has detected an issue and raised a warning. The Detail

1

event parameter provides information about the nature of the issue.

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CPL reference
Call Processing Language (CPL) is an XML-based language for defining call handling. This section gives details of the Cisco VCS's implementation of the CPL language and should be read in conjunction with the CPL standard RFC 3880 [5] and the Guide to writing CPL [22].
The Cisco VCS has many powerful inbuilt transform features so CPL should be required only if advanced call handling rules are required.
The Cisco VCS supports most of the CPL standard along with some TANDBERG-defined extensions. It does not support the top level actions <incoming> and <outgoing> as described in RFC 3880. Instead it supports a single section of CPL within a <taa:routed> section.
When Call Policy is implemented by uploading a CPL script to the Cisco VCS, the script is checked against an XML schema to verify the syntax. There are two schemas - one for the basic CPL specification and one for the TANDBERG extensions. Both of these schemas can be downloaded from the web interface and used to validate your script before uploading to the Cisco VCS.
The following example shows the correct use of namespaces to make the syntax acceptable:
<?xml version="1.0" encoding="UTF-8" ?> <cpl xmlns="urn:ietf:params:xml:ns:cpl"
xmlns:taa="http://www.tandberg.net/cpl-extensions" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="urn:ietf:params:xml:ns:cpl cpl.xsd"> <taa:routed>
<address-switch field="destination"> <address is="[email protected]"> <proxy/> </address>
</address-switch> </taa:routed> </cpl>

CPL address-switch node
The address-switch node allows the script to run different actions based on the source or destination aliases of the call. It specifies which fields to match, and then a list of address nodes contains the possible matches and their associated actions.
The address-switch has two node parameters: field and subfield.

address
The address construct is used within an address-switch to specify addresses to match. It supports the use of regular expressions. Valid values are:

is=string

Selected field and subfield exactly match the given string.

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contains=string Selected field and subfield contain the given string. Note that the CPL standard only allows for this matching on the display subfield; however the Cisco VCS allows it on any type of field.

subdomainof=string

If the selected field is numeric (for example, the tel subfield) then this matches as a prefix; so address subdomain-of="555" matches 5556734 and so on. If the field is not numeric then normal domain name matching is applied; so address subdomain-of="company.com" matches nodeA.company.com and so on.

regex="regular Selected field and subfield match the given regular expression. expression"

All address comparisons ignore upper/lower case differences so address is="Fred" will also match fred, freD and so on.

field
Within the address-switch node, the mandatory field parameter specifies which address is to be considered. The supported attributes and their interpretation are shown below:

Field parameter SIP attributes

H.323

unauthenticated- The "From" and "ReplyTo"

origin

fields of the incoming

message.

The source aliases from the original LRQ or ARQ that started the call. If a SETUP is received without a preceding RAS message then the origin is taken from the SETUP.

authenticatedorigin
and
origin

The "From" and "ReplyTo" fields of the message if it authenticated correctly (or where the relevant Authentication Policy is Treat as authenticated), otherwise not-present.

The source aliases from the original LRQ or ARQ that started the call if it authenticated correctly (or where the relevant Authentication Policy is Treat as authenticated) otherwise not-present. Because SETUP messages are not authenticated, if the Cisco VCS receives a SETUP without a preceding RAS message the origin will always be not-present.

originating-zone

The name of the zone or subzone for the originating leg of the call. If the call originates from a neighbor, traversal server or traversal client zone then this will equate to the zone name. If it comes from an endpoint within one of the local subzones this will be the name of the subzone. If the call originates from any other locally registered endpoint this will be "DefaultSubZone". In all other cases this will be "DefaultZone".

originating-user

If the relevant Authentication Policy is Check credentials or Treat as authenticated this is the username used for authentication, otherwise notpresent.

registered-origin If the call originates from a registered endpoint this is the list of all aliases it has registered, otherwise not-present.

destination

The destination aliases.

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Field parameter attributes
originaldestination

SIP The destination aliases.

H.323

Note that any Authentication Policy settings that apply are those configured for the relevant zone or subzone according to the source of the incoming message.
If the selected field contains multiple aliases then the Cisco VCS will attempt to match each address node with all of the aliases before proceeding to the next address node, that is, an address node matches if it matches any alias.

subfield
Within the address-switch node, the optional subfield parameter specifies which part of the address is to be considered. The following table gives the definition of subfields for each alias type. If a subfield is not specified for the alias type being matched then the not-present action is taken.

address- Either h323 or sip, based on the type of endpoint that originated the call. type

user

For URI aliases this selects the username part. For H.323 IDs it is the entire ID and for E.164 numbers it is the entire number.

host

For URI aliases this selects the domain name part. If the alias is an IP address then this subfield is the complete address in dotted decimal form.

tel

For E.164 numbers this selects the entire string of digits.

aliastype

Gives a string representation of the type of alias. The type is inferred from the format of the alias. Possible types are:
n Address Type n Result n URI n url-ID n H.323 ID n h323-ID n Dialed Digits n dialedDigits

otherwise
The otherwise node is executed if the address specified in the address-switch was found but none of the preceding address nodes matched.
not-present
The not-present node is executed when the address specified in the address-switch was not present in the call setup message. This form is most useful when authentication is being used. With authentication enabled the Cisco VCS will only use authenticated aliases when running policy so the not-present action can be used to take appropriate action when a call is received from an unauthenticated user (see the example Call screening of authenticated users).

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location
As the CPL script is evaluated it maintains a list of addresses (H.323 IDs, URLs and E.164 numbers) which are used as the destination of the call if a proxy node is executed. The taa:location node allows the location set to be modified so that calls can be redirected to different destinations.
At the start of script execution the location set is initialized to the original destination.
The following attributes are supported on taa:location nodes. It supports the use of regular expressions.

Clear = "yes" | "no" Specifies whether to clear the current location set before adding the new location. The default is to append this location to the end of the set.

url=string

The new location to be added to the location set. The given string can specify a URL (for example, [email protected]), H.323 ID or an E.164 number.

priority=<0.0..1.0> Specified either as a floating point number in the range 0.0 to 1.0, or random,

| "random"

which assigns a random number within the same range. 1.0 is the highest

priority. Locations with the same priority are searched in parallel.

regex="<regular Specifies the way in which a location matching the regular expression is to be

expression>"

changed.

replace="<string>"

rule-switch
This extension to CPL is provided to simplify Call Policy scripts that need to make decisions based on both the source and destination of the call. A taa:rule-switch can contain any number of rules that are tested in sequence; as soon as a match is found the CPL within that rule element is executed.
Each rule must take one of the following forms:
<taa:rule-switch> <taa:rule origin="<regular expression>" destination="<regular expression>" message-regex="<regular expression>"> <taa:rule authenticated-origin="<regular expression>" destination="<regular expression>" message-regex="<regular expression>"> <taa:rule unauthenticated-origin="<regular expression>" destination="<regular expression>" message-regex="<regular expression>"> <taa:rule registered-origin="<regular expression>" destination="<regular expression>" message-regex="<regular expression>"> <taa:rule originating-user="<regular expression>" destination="<regular expression>" message-regex="<regular expression>"> <taa:rule originating-zone="<regular expression>" destination="<regular expression>" message-regex="<regular expression>">
</taa:rule-switch>
The meaning of the various origin selectors is as described in the field section.
The message-regex parameter allows a regular expression to be matched against the entire incoming SIP message.

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Note that any rule containing a message-regex parameter will never match an H.323 call.

proxy
On executing a proxy node the Cisco VCS attempts to forward the call to the locations specified in the current location set. If multiple entries are in the location set then this results in a forked call. If the current location set is empty the call is forwarded to its original destination.
The proxy node supports the following optional parameters:

timeout=<1..86400> stop-on-busy = "yes" | "no"

Timeout duration, specified in seconds Whether to stop searching if a busy response is received

The proxy action can lead to the results shown in the table below.

failure busy noanswer redirection default

The proxy failed to route the call Destination is found but is busy Destination is found but does not answer Cisco VCS is asked to redirect the call CPL to run if the other results do not apply

The CPL can perform further actions based on these results. Any results nodes must be contained within the proxy node. For example:
<proxy timeout="10"> <busy> <!--If busy route to recording service--> <location clear="yes" url="recorder"> <proxy/> </location> </busy>
</proxy>
reject
If a reject node is executed the Cisco VCS stops any further script processing and rejects the current call.
The custom reject strings status=string and reason=string options are supported here and should be used together to ensure consistency of the strings.
Unsupported CPL elements
The Cisco VCS does not currently support some elements that are described in the CPL RFC. If an attempt is made to upload a script containing any of the following elements an error message will be generated and the Cisco VCS will continue to use its existing policy.
The following elements are not currently supported:

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n time-switch n string-switch n language-switch n priority-switch n redirect n mail n log n subaction n lookup n remove-location
CPL examples
This section provides a selection of CPL examples:
n Call screening of authenticated users n Call screening based on alias n Call screening based on domain n Change of domain name n Allow calls from locally registered endpoints only n Block calls from Default Zone and Default Subzone n Restricting access to a local gateway n Redirecting failed calls based on status code n Reject attempts to subscribe to a presentity
CPL example: call screening of authenticated users
In this example, only calls from users with authenticated source addresses are allowed. See About device authentication for details on how to enable authentication.
<?xml version="1.0" encoding="UTF-8" ?> <cpl xmlns="urn:ietf:params:xml:ns:cpl"
xmlns:taa="http://www.tandberg.net/cpl-extensions" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="urn:ietf:params:xml:ns:cpl cpl.xsd"> <taa:routed>
<address-switch field="authenticated-origin"> <not-present> <!-- Reject call with a status code of 403 (Forbidden) --> <reject status="403" reason="Denied by policy"/> </not-present>
</address-switch> </taa:routed> </cpl>
CPL example: call screening based on alias
In this example, user ceo will only accept calls from users vpsales, vpmarketing or vpengineering.
<?xml version="1.0" encoding="UTF-8" ?> <cpl xmlns="urn:ietf:params:xml:ns:cpl"
xmlns:taa="http://www.tandberg.net/cpl-extensions" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"

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xsi:schemaLocation="urn:ietf:params:xml:ns:cpl cpl.xsd"> <taa:routed>
<address-switch field="destination"> <address is="ceo"> <address-switch field="authenticated-origin"> <address regex="vpsales|vpmarketing|vpengineering"> <!-- Allow the call --> <proxy/> </address> <not-present> <!-- Unauthenticated user --> <!-- Reject call with a status code of 403 (Forbidden) --> <reject status="403" reason="Denied by policy"/> </not-present> <otherwise> <!-- Reject call with a status code of 403 (Forbidden) --> <reject status="403" reason="Denied by policy"/> </otherwise> </address-switch> </address>
</address-switch> </taa:routed> </cpl>
CPL example: call screening based on domain
In this example, user fred will not accept calls from anyone at annoying.com, or from any unauthenticated users. All other users will allow any calls.
<?xml version="1.0" encoding="UTF-8" ?> <cpl xmlns="urn:ietf:params:xml:ns:cpl"
xmlns:taa="http://www.tandberg.net/cpl-extensions" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="urn:ietf:params:xml:ns:cpl cpl.xsd"> <taa:routed>
<address-switch field="destination"> <address is="fred"> <address-switch field="authenticated-origin" subfield="host"> <address subdomain-of="annoying.com"> <!-- Don't accept calls from this source --> <!-- Reject call with a status code of 403 (Forbidden) --> <reject status="403" reason="Denied by policy"/> </address>

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<not-present> <!-- Don't accept calls from unauthenticated sources --> <!-- Reject call with a status code of 403 (Forbidden) --> <reject status="403" reason="Denied by policy"/>
</not-present> <otherwise>
<!-- All other calls allowed --> <proxy/> </otherwise> </address-switch> </address> </address-switch> </taa:routed>
</cpl>
CPL example: change of domain name
In this example, Example Inc has changed its domain from example.net to example.com. For a period of time some users are still registered at example.net. The following script would attempt to connect calls to [email protected] first and if that fails then fallback to example.net.
<?xml version="1.0" encoding="UTF-8" ?> <cpl xmlns="urn:ietf:params:xml:ns:cpl"
xmlns:taa="http://www.tandberg.net/cpl-extensions" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="urn:ietf:params:xml:ns:cpl cpl.xsd"> <taa:routed>
<address-switch field="destination"> <address regex="(.*)@example.com"> <proxy> <failure> <!-- Failed to contact using example.com, retry the request with example.net --> <taa:location clear="yes" regex="(.*)@example.com" replace="\[email protected]"> <proxy/> </taa:location> </failure> </proxy> </address>
</address-switch> </taa:routed> </cpl>

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CPL example: allow calls from locally registered endpoints only
In this example, the administrator only wants to allow calls that originate from locally registered endpoints.
<?xml version="1.0" encoding="UTF-8" ?> <cpl xmlns="urn:ietf:params:xml:ns:cpl"
xmlns:taa="http://www.tandberg.net/cpl-extensions" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="urn:ietf:params:xml:ns:cpl cpl.xsd"> <taa:routed>
<address-switch field="registered-origin"> <not-present> <reject status="403" reason="Only local endpoints can use this Cisco VCS"/> </not-present>
</address-switch> </taa:routed> </cpl>
CPL example: block calls from Default Zone and Default Subzone
The script to allow calls from locally registered endpoints only can be extended to also allow calls from configured zones but not from the Default Zone or Default Subzone.
<?xml version="1.0" encoding="UTF-8" ?> <cpl xmlns="urn:ietf:params:xml:ns:cpl"
xmlns:taa="http://www.tandberg.net/cpl-extensions" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="urn:ietf:params:xml:ns:cpl cpl.xsd"> <taa:routed>
<address-switch field="registered-origin"> <not-present> <address-switch field="originating-zone"> <address is="DefaultZone"> <!-- Reject call with a status code of 403 (Forbidden) --> <reject status="403" reason="Denied by policy"/> </address> <address is="DefaultSubZone"> <!-- Reject call with a status code of 403 (Forbidden) --> <reject status="403" reason="Denied by policy"/> </address> <otherwise> <proxy/> </otherwise>

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</address-switch> </not-present> </address-switch> </taa:routed> </cpl>
CPL example: restricting access to a local gateway
In these examples, a gateway is registered to the Cisco VCS with a prefix of 9 and the administrator wants to stop calls from outside the organization being routed through it.
This can be done in two ways: using the address-switch node or the taa:rule-switch node. Examples of each are shown below.
Using the address-switch node
<?xml version="1.0" encoding="UTF-8" ?> <cpl xmlns="urn:ietf:params:xml:ns:cpl"
xmlns:taa="http://www.tandberg.net/cpl-extensions" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="urn:ietf:params:xml:ns:cpl cpl.xsd"> <taa:routed>
<address-switch field="destination"> <address regex="9(.*)"> <address-switch field="originating-zone"> <!-- Calls coming from the traversal zone are not allowed to use this gateway --> <address is="TraversalZone"> <!-- Reject call with a status code of 403 (Forbidden) --> <reject status="403" reason="Denied by policy"/> </address> </address-switch> </address>
</address-switch> </taa:routed> </cpl>
Using the taa:rule-switch node
<?xml version="1.0" encoding="UTF-8" ?> <cpl xmlns="urn:ietf:params:xml:ns:cpl"
xmlns:taa="http://www.tandberg.net/cpl-extensions" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="urn:ietf:params:xml:ns:cpl cpl.xsd"> <taa:routed>
<taa:rule-switch>

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<taa:rule originating-zone="TraversalZone" destination="9(.*)"> <!-- Calls coming from the traversal zone are not allowed to use this gateway --> <!-- Reject call with a status code of 403 (Forbidden) --> <reject status="403" reason="Denied by policy"/>
</taa:rule> <taa:rule origin="(.*)" destination="(.*)">
<!-- All other calls allowed --> <proxy/> </taa:rule> </taa:rule-switch> </taa:routed> </cpl>
CPL example: redirecting failed calls based on status code
The output from a proxy node allow actions to be taken based on the result of the proxy operation. In base CPL a single failure output is allowed which is invoked if the call attempt fails for any reason (see section 6.1 of RFC 3880 [5] for details).
The Cisco VCS supports an extension to the base CPL specification that allows a status code to be specified so that the failure action is only invoked if the call attempt fails for the specified reason. In addition the Cisco VCS allows multiple failure outputs to be specified within a single proxy node. This allows a script to redirect the call to different locations (such as different recorded messages) based on the exact reason for call failure.
For example:
<?xml version="1.0" encoding="UTF-8" ?> <cpl xmlns="urn:ietf:params:xml:ns:cpl"
xmlns:taa="http://www.tandberg.net/cpl-extensions" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="urn:ietf:params:xml:ns:cpl cpl.xsd"> <taa:routed>
<!-- Proxy the call normally, but redirect to different recorded messages based on --> <!-- the particular error response we get --> <proxy>
<failure status="403"> <!-- Call attempt failed with 403 (Forbidden) --> <taa:location url="[email protected]" clear="yes"> <proxy/> </taa:location>
</failure> <failure status="404">
<!-- Call attempt failed with 404 (Not Found) -->

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<taa:location url="[email protected]" clear="yes"> <proxy/>
</taa:location> </failure> <failure>
<!-- General catch-all failure handler for all other error responses --> <taa:location url="[email protected]" clear="yes">
<proxy/> </taa:location> </failure> </proxy> </taa:routed> </cpl>
CPL example: reject attempts to subscribe to a presentity
In this example, attempts to subscribe to the presence of [email protected] are rejected.
<?xml version="1.0" encoding="UTF-8" ?> <cpl xmlns="urn:ietf:params:xml:ns:cpl"
xmlns:taa="http://www.tandberg.net/cpl-extensions" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="urn:ietf:params:xml:ns:cpl cpl.xsd"> <taa:routed>
<taa:rule-switch> <taa:rule origin=".*" destination="[email protected]" messageregex="^SUBSCRIBE.*"> <!-- Cannot subscribe to [email protected] --> <!-- Reject call with a status code of 403 (Forbidden) --> <reject status="403" reason="Denied by policy"/> </taa:rule>
</taa:rule-switch> </taa:routed> </cpl>

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LDAP configuration for device authentication
The Cisco VCS can be configured to use a database on an LDAP Directory Server to store device authentication credential information (usernames, passwords, and other relevant information). This section describes how to: n download the schemas that must be installed on the LDAP server n install and configure two common types of LDAP servers for use with the Cisco VCS:
l Microsoft Active Directory l OpenLDAP
Downloading the H.350 schemas
The following ITU specifications describe the schemas which are required to be installed on the LDAP server:
H.350 Directory services architecture for multimedia conferencing - an LDAP schema to represent endpoints on the network.
H.350.1 Directory services architecture for H.323 - an LDAP schema to represent H.323 endpoints. H.350.2 Directory services architecture for H.235 - an LDAP schema to represent H.235 elements. H.350.4 Directory services architecture for SIP - an LDAP schema to represent SIP endpoints.
The schemas can be downloaded in ldif format from the web interface on the Cisco VCS. To do this: 1. Go to VCS configuration > Authentication > Devices > LDAP schemas. You are presented
with a list of downloadable schemas. 2. Click on the Download button next to each file to open it. 3. Use your browser's Save As command to store it on your file system.
Configuring a Microsoft Active Directory LDAP server
Prerequisites These step-by-step instructions assume that Active Directory has already been installed. For details on installing Active Directory please consult your Windows documentation. The following instructions are for Windows Server 2003 Enterprise Edition. If you are not using this version of Windows, your instructions may vary.
Installing the H.350 schemas After you have downloaded the H.350 schemas, install them as follows: Open a command prompt and for each file execute the following command: ldifde -i -c DC=X <ldap_base> -f filename.ldf where: <ldap_base> is the base DN for your Active Directory server.
Adding H.350 objects Create the organizational hierarchy:

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1. Open up the Active Directory Users and Computers MMC snap-in. 2. Under your BaseDN right-click and select New Organizational Unit. 3. Create an Organizational unit called h350. It is good practice to keep the H.350 directory in its own organizational unit to separate out H.350 objects from other types of objects. This allows access controls to be setup which only allow the Cisco VCS read access to the BaseDN and therefore limit access to other sections of the directory. Add the H.350 objects: 1. Create an ldif file with the following contents:
# MeetingRoom1 endpoint dn: commUniqueId=comm1,ou=h350,DC=X objectClass: commObject objectClass: h323Identity objectClass: h235Identity objectClass: SIPIdentity commUniqueId: comm1 h323Identityh323-ID: MeetingRoom1 h323IdentitydialedDigits: 626262 h235IdentityEndpointID: meetingroom1 h235IdentityPassword: mypassword SIPIdentityUserName: meetingroom1 SIPIdentityPassword: mypassword SIPIdentitySIPURI: sip:MeetingRoom@X 2. Add the ldif file to the server using the command: ldifde -i -c DC=X <ldap_base> -f filename.ldf where: <ldap_base> is the base DN of your Active Directory Server. The example above will add a single endpoint with an H.323 ID alias of MeetingRoom1, an E.164 alias of 626262 and a SIP URI of MeetingRoom@X. The entry also has H.235 and SIP credentials of ID meetingroom1 and password mypasswordwhich are used during authentication. H.323 registrations will look for the H.323 and H.235 attributes; SIP will look for the SIP attributes. Therefore if your endpoint is registering with just one protocol you do not need to include elements relating to the other.
Note: the SIP URI in the ldif file must be prefixed by sip:.
For information about what happens when an alias is not in the LDAP database see Alias origin in the Device authentication using LDAP section.
Securing with TLS To enable Active Directory to use TLS, you must request and install a certificate on the Active Directory server. The certificate must meet the following requirements:

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n Be located in the Local Computer's Personal certificate store. This can be seen using the Certificates MMC snap-in.
n Have the private details on how to obtain a key associated for use with it stored locally. When viewing the certificate you should see a message saying "You have a private key that corresponds to this certificate''.
n Have a private key that does not have strong private key protection enabled. This is an attribute that can be added to a key request.
n The Enhanced Key Usage extension includes the Server Authentication object identifier, again this forms part of the key request.
n Issued by a CA that both the domain controller and the client trust. n Include the Active Directory fully qualified domain name of the domain controller in the common
name in the subject field and/or the DNS entry in the subject alternative name extension.
To configure the Cisco VCS to use TLS on the connection to the LDAP server you must upload the CA's certificate as a trusted CA certificate. This can be done on the Cisco VCS by navigating to Maintenance > Security certificates.
Configuring an OpenLDAP server
Prerequisites
These instructions assume that an OpenLDAP server has already been installed. For details on installing OpenLDAP see the documentation at http://www.openldap.org. The following examples use a standard OpenLDAP installation on the Linux platform. For installations on other platforms the location of the OpenLDAP configuration files may be different. See the OpenLDAP installation documentation for details.
Installing the H.350 schemas
1. Copy the OpenLDAP files to the OpenLDAP schema directory:
/etc/openldap/schemas/commobject.ldif /etc/openldap/schemas/h323identity.ldif /etc/openldap/schemas/h235identity.ldif /etc/openldap/schemas/sipidentity.ldif 2. Edit /etc/openldap/slapd.conf to add the new schemas. You need to add the following lines:
include /etc/openldap/schemas/commobject.ldif include /etc/openldap/schemas/h323identity.ldif include /etc/openldap/schemas/h235identity.ldif include /etc/openldap/schemas/sipidentity.ldif The OpenLDAP daemon (slapd) must be restarted for the new schemas to take effect.
Adding H.350 objects
Create the organizational hierarchy: 1. Create an ldif file with the following contents:
# This example creates a single organizational unit to contain the H.350 objects dn: ou=h350,dc=my-domain,dc=com objectClass: organizationalUnit

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ou: h350 2. Add the ldif file to the server using the command:
slapadd -l <ldif_file> This organizational unit will form the BaseDN to which the Cisco VCS will issue searches. In this example the BaseDN will be: ou=h350,dc=my-domain,dc=com. It is good practice to keep the H.350 directory in its own organizational unit to separate out H.350 objects from other types of objects. This allows access controls to be setup which only allow the Cisco VCS read access to the BaseDN and therefore limit access to other sections of the directory.
Note: the SIP URI in the ldif file must be prefixed by sip:
Add the H.350 objects: 1. Create an ldif file with the following contents:
# MeetingRoom1 endpoint dn: commUniqueId=comm1,ou=h350,dc=mydomain,dc=com objectClass: commObject objectClass: h323Identity objectClass: h235Identity objectClass: SIPIdentity commUniqueId: comm1 h323Identityh323-ID: MeetingRoom1 h323IdentitydialedDigits: 626262 h235IdentityEndpointID: meetingroom1 h235IdentityPassword: mypassword SIPIdentityUserName: meetingroom1 SIPIdentityPassword: mypassword SIPIdentitySIPURI: sip:[email protected] 2. Add the ldif file to the server using the command: slapadd -l <ldif_file> The example above will add a single endpoint with an H.323 ID alias of MeetingRoom1, an E.164 alias of 626262 and a SIP URI of [email protected]. The entry also has H.235 and SIP credentials of ID meetingroom1 and password mypassword which are used during authentication. H.323 registrations will look for the H.323 and H.235 attributes; SIP will look for the SIP attributes. Therefore if your endpoint is registering with just one protocol you do not need to include elements relating to the other. For information about what happens when an alias is not in the LDAP database see Alias origin in the Device authentication using LDAP section.
Securing with TLS The connection to the LDAP server can be encrypted by enabling Transport Level Security (TLS) on the connection. To do this you must create an X.509 certificate for the LDAP server to allow the Cisco

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VCS to verify the server's identity. After the certificate has been created you will need to install the following three files associated with the certificate onto the LDAP server: n the certificate for the LDAP server n the private key for the LDAP server n the certificate of the Certificate Authority (CA) that was used to sign the LDAP server's certificate All three files should be in PEM file format. The LDAP server must be configured to use the certificate. To do this: n Edit /etc/openldap/slapd.conf and add the following three lines:
TLSCACertificateFile <path to CA certificate> TLSCertificateFile <path to LDAP server certificate> TLSCertificateKeyFile <path to LDAP private key> The OpenLDAP daemon (slapd) must be restarted for the TLS settings to take effect. To configure the Cisco VCS to use TLS on the connection to the LDAP server you must upload the CA's certificate as a trusted CA certificate. This can be done on the Cisco VCS by navigating to: Maintenance > Security certificates.

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DNS configuration examples
This section gives examples of DNS configuration using Microsoft DNS Server and BIND 8 & 9.
These examples show how to set up an SRV record to handle H.323 URIs of the form [email protected]. These are handled by the system with the fully qualified domain name of vcs.example.com which is listening on port 1719, the default registration port.
It is assumed that both A and AAAA records already exist for vcs.example.com. If not, you will need to add them.

Verifying the SRV record
There are a range of tools available to investigate DNS records. One commonly found on Microsoft Windows and UNIX platforms is nslookup. Use this to verify that everything is working as expected. For example:
nslookup -querytype=srv_h323ls._udp.example.com
and check the output.

Microsoft DNS server
Using Microsoft DNS Server you can add the SRV record using either the command line or the MMC snap-in. To use the command line, on the DNS server open a command window and enter: dnscmd . /RecordAdd domain service_name SRV Priority Weight Port Target where:

domain service_name Priority Weight Port Target

is the domain into which you want to insert the record is the name of the service you are adding is the priority as defined by RFC 2782 [3] is the weight as defined by RFC 2782 [3] is the port on which the system hosting the domain is listening is the FQDN of the system hosting the domain

For example:
dnscmd . /RecordAdd example.com_h323ls._udp SRV 1 0 1719 vcs.example.com
BIND 8 & 9
BIND is a commonly used DNS server on UNIX and Linux systems. Configuration is based around two sets of text files: named.conf which describes which zones are represented by the server, and a selection of zone files which describe the detail of each zone.
BIND is sometimes run chrooted for increased security. This gives the program a new root directory, which means that the configuration files may not appear where you expect them to be. To see if this is the case on your system, run
ps aux | grep named

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This will give the command line that named (the BIND server) was invoked with. If there is a -t option, then the path following that is the new root directory and your files will be located relative to that root.
In /etc/named.conf look for a directory entry within the options section. This will give the directory in which the zone files are stored, possibly relative to a new root directory. In the appropriate zone section, a file entry will give the name of the file containing the zone details.
For more details of how to configure BIND servers and the DNS system in general see the publication DNS and BIND [6].
Changing the default SSH key
Default SSH key warnings
A warning message "Security alert: the SSH service is using the default key" is displayed if your Cisco VCS is still configured with its factory default SSH key.
Using the default key means that SSH sessions established to the Cisco VCS may be vulnerable to "man-in-the-middle" attacks, so you are recommended to generate new SSH keys which are unique to your Cisco VCS.
Standalone Cisco VCS
Use the following instructions to generate a new SSH key for the Cisco VCS, entering all commands from the CLI while logged in as root:
1. Type regeneratesshkey. 2. Type exit to log out of the root account.
Clustered Cisco VCS
Use the following instructions to generate new SSH keys for each cluster peer.
Enter the following commands from the CLI while logged in as root:
1. On each Cisco VCS peer in turn: a. Type cluster. b. Select option (3) to temporarily disable replication on each Cisco VCS. Follow the instructions but DO NOT remove the Cisco VCS from the list of peers. c. Select (q) to quit.
2. On each Cisco VCS peer in turn: a. Type regeneratesshkey.
3. After each Cisco VCS has had replication disabled and its SSH key regenerated, on each Cisco VCS peer in turn: a. Type cluster. o On the master Cisco VCS, select option (1) and follow the instructions to set it as the replication master. o On each non-master Cisco VCS, select option (2) and follow the instructions to set it to replicate with a peer. b. Select (q) to quit.
4. On every Cisco VCS in turn: a. Type cluster. b. Select option (5) to check that Cisco VCS replication is working correctly. c. Select (q) to quit.
5. Type exit to log out of the root account.

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Finally, you must restart every Cisco VCS. You are recommended to do this from the web interface:
6. Go to Maintenance > Restart. You are taken to the Restart page.
7. Check the number of calls and registrations currently in place. 8. Click Restart system and then confirm the restart when asked.
When you next log in to the Cisco VCS over SSH you may receive a warning that the key identity of the Cisco VCS has changed. Please follow the appropriate process for your SSH client to suppress this warning.
If your Cisco VCS is subsequently downgraded to an earlier version of Cisco VCS firmware, the default SSH keys will be restored.

Restoring default configuration
It is possible to restore the Cisco VCS to its default configuration. This is done through the CLI using xCommand DefaultValuesSet. This command is not available through the web interface.
The DefaultValuesSet command allows you to specify the level of configuration to restore, from 1 to 3 as follows:
n Level 1: resets most configuration items to their default value, with the exception of the Level 2 and Level 3 items shown in the tables below.
n Level 2: resets configuration items mostly related to remote authentication (listed in Configuration items reset by DefaultValuesSet level 2), plus Level 1 items to their default values.
n Level 3: resets all critical configuration items (listed in Configuration items reset by DefaultValuesSet level 3 below) plus Level 1 and Level 2 items to their default values.
See the Cisco VCS Command Reference [40] for a full list of all configuration items and where applicable their default values.
Note:xCommand DefaultValuesSet Level: 3 must be used with caution, as it resets the system's IPv4 and IPv6 addresses, meaning you will no longer be able to access the system over IP. It also deletes all option keys including pre-installed options such as Expressway and the number of calls. It also deletes all links configured on the Cisco VCS, including the automatically configured default links between the Default Subzone, Traversal Subzone and Default Zone. Without these links, calls will not be able to be placed. To restore these links, you should run the command xCommand DefaultLinksAdd after xCommand DefaultValuesSet Level: 3. These links can also be restored manually using the web interface - see the Default links section for more information.

Configuration items reset by DefaultValuesSet level 3
The following table lists the configuration items that are reset by xCommand DefaultValuesSet Level: 3 and their reset values.

Configuration item Administration HTTP Mode Administration HTTPS Mode Administration SSH Mode Administration Telnet Mode Ethernet [1..2] IP V4 Address

Reset value On On On Off 192.168.0.100

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Configuration item

Reset value

Ethernet [1..2] IP V4 StaticNAT Address

<blank>

Ethernet [1..2] IP V4 StaticNAT Mode

Off

Ethernet [1..2] IP V4 SubnetMask

255.255.255.0

Ethernet [1..2] IP V6 Address

<blank>

Ethernet [1..2] Speed

Auto

IPProtocol

IPv4

IP DNS Domain Name

<blank>

IP DNS Hostname

<blank>

IP DNS Server [1..5] Address

<blank>

IP Gateway

127.0.0.1

IP Route [1..50] Address

<blank>

IP Route [1..50] Gateway

<blank>

IP Route [1..50] Interface

Auto

IP Route [1..50] PrefixLength

32

IP V6 Gateway

<blank>

NTP Address

<blank>

Option [1..64] Key

<all option keys are deleted>

SystemUnit AdminAccount [1..15] Access ReadWrite

SystemUnit AdminAccount [1..15] Name

<blank>

SystemUnit AdminAccount [1..15] Password <blank>

SystemUnit Maintenance Mode

Off

SystemUnit Name

<blank>

SystemUnit Password

TANDBERG

SystemUnit StrictPassword Enforce

Off

Configuration items reset by DefaultValuesSet level 2
The following table lists the configuration items that are reset by xCommand DefaultValuesSet Level: 2 and their reset values.

Configuration item Alternates Cluster Name

Reset value <blank>

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Reset value

Authentication ADS ADDomain

<blank>

Authentication ADS Clockskew

300

Authentication ADS DC Address

<blank>

Authentication ADS Encryption

TLS

Authentication ADS KDC Address

<blank>

Authentication ADS KDC Port

88

Authentication ADS Mode

Off

Authentication ADS SecureChannel

Auto

Authentication ADS SPNEGO

Enabled

Authentication ADS Workgroup

<blank>

Login Administrator Groups Group [1..30] Access ReadWrite

Login Administrator Groups Group [1..30] Name <blank>

Login Administrator Source

Local

Login Remote LDAP BaseDN Accounts

<blank>

Login Remote LDAP BaseDN Groups

<blank>

Login Remote LDAP DirectoryType

ActiveDirectory

Login Remote LDAP Encryption

Off

Login Remote LDAP SASL

DIGEST-MD5

Login Remote LDAP Server Address

<blank>

Login Remote LDAP Server Port

389

Login Remote LDAP VCS BindDN

<blank>

Login Remote LDAP VCS BindPassword

<blank>

Login Remote LDAP VCS BindUsername

<blank>

Login Remote Protocol

LDAP

Login User Groups Group [1..15] Access

ReadWrite

Login User Groups Group [1..15] Name

<blank>

Login User Source

Local

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Password encryption
All passwords configured on the Cisco VCS are stored in encrypted form. This applies to the following, which all have usernames and passwords associated with them:
n the default admin administrator account n any additional administrator accounts n local authentication database credentials (a list of valid usernames and passwords that are used
when other devices are required to authenticate with the Cisco VCS) n outbound connection credentials (used by the Cisco VCS when required to authenticate with
another system) n LDAP server (used by the Cisco VCS when binding to an LDAP server)
Passwords can be configured using either the CLI or the web interface.
Web interface
When entering or viewing passwords using the web interface, you will see placeholder characters (e.g. dots or stars, depending on your browser) instead of the characters you are typing.
Command line interface (CLI)
When entering passwords using the command line interface (CLI), you will type the password in plain text. However, after the command has been executed, the password will be displayed in its encrypted form with a {cipher} prefix, for example:
xConfiguration LDAP Password: "{cipher}xcy6k+4NgB025vYEgoEXXw=="
Note: FindMe is a standalone application that can be hosted by the Cisco VCS or by another remote server. This means that FindMe user account information is not configured or accessible using the CLI of the Cisco VCS. However, FindMe user passwords are still stored securely.

Maximum length of passwords
When a password is encrypted, it uses more characters than the original plain text version of the password. For each type of password, the maximum number of plain text characters that can be entered and the maximum number of encrypted characters that are displayed through the CLI are shown in the table below.

Password type

Maximum plain text characters

Admin account

16

Administrator accounts

16

Local Database authentication 128 credentials

Outbound connection credentials 128

LDAP server

60

FindMe accounts

30

Maximum displayed encrypted characters 65 65 215
215 122 82

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Pattern matching variables
The Cisco VCS makes use of pattern matching in a number of its features, namely Allow Lists and Deny Lists, pre-search transforms and when configuring search rules and zone transforms.
For each of these pattern matches, the Cisco VCS allows you to use a variable that it will replace with the current configuration values before the pattern is checked.
These variables can be used as either or both of:
n all or part of the pattern that is being searched for n all or part of the string that is replacing the pattern that was found
The variables can be used in all types of patterns (Prefix, Suffix, Regex and Exact).
The table below shows the strings that are valid as variables, and the values they represent.

String %ip%
%ipv4% %ipv4_1% %ipv4_2% %ipv6% %ipv6_1%

Represents value returned by...

When used in a Pattern When used in a

field

Replace field

xConfiguration Ethernet 1 IP V4 Address xConfiguration Ethernet 1 IP V6 Address xConfiguration Ethernet 2 IP V4 Address xConfiguration Ethernet 2 IP V6 Address

Matches all IPv4 and IPv6 addresses currently configured on the Cisco VCS.

not applicable

xConfiguration Ethernet 1 IP V4 Address xConfiguration Ethernet 2 IP V4 Address

Matches the IPv4 addresses currently configured for LAN 1 and LAN 2.

not applicable

xConfiguration Ethernet 1 IP V4 Address

Matches the IPv4 address currently configured for LAN 1.

Replaces the string with the LAN 1 IPv4 address.

xConfiguration Ethernet 2 IP V4 Address

Matches the IPv4 address currently configured for LAN 2.

Replaces the string with the LAN 2 IPv4 address.

xConfiguration Ethernet 1 IP V6 Address xConfiguration Ethernet 2 IP V6 Address

Matches the IPv6 addresses currently configured for LAN 1 and LAN 2.

not applicable

xConfiguration Ethernet 1 IP V6 Address

Matches the IPv6 address currently configured for LAN 1.

Replaces the string with the LAN 1 IPv6 address.

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String

Represents value returned by...

When used in a Pattern When used in a

field

Replace field

%ipv6_2%

xConfiguration Ethernet 2 IP V6 Address

Matches the IPv6 address currently configured for LAN 2.

Replaces the string with the LAN 2 IPv6 address.

%localdomains%

xConfiguration SIP Domains Domain 1 Name ... xConfiguration SIP Domains Domain 20 Name

Matches all the SIP domains currently configured on the Cisco VCS.

not applicable

%localdomain1% ... %localdomain20%

xConfiguration SIP Domains Domain 1 Name ... xConfiguration SIP Domains Domain 20 Name

Matches the specified SIP domain. Up to 20 SIP domains can be configured on the Cisco VCS, and they are identified by an index number between 1 and 20.

Replaces the string with the specified SIP domain.

%systemname% xConfiguration SystemUnit Name

Matches the Cisco VCS's System Name.

Replaces the string with the Cisco VCS's System Name.

You can test whether a pattern matches a particular alias and is transformed in the expected way by using the Check pattern tool (Maintenance > Tools > Check pattern).

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Port reference
The Cisco VCS uses different IP ports and protocols for different services and functions, and many of these are configurable. The table below lists each of these services and functions. For each, it shows the default port(s) and protocol used and whether these ports are used for inbound or outbound communications. If the ports are configurable it shows the available range and how to configure them using the web interface or CLI.
The information in the table below shows all possible services and the generic defaults for each. The actual services and ports used on your system will vary depending on its configuration, the option keys installed and features that have been enabled. A specific list of all the IP ports in use on a particular Cisco VCS can be viewed via the port usage pages.
Note: two services or functions cannot share the same port and protocol; if you attempt to change an existing port or range and it conflicts with another service, you will get a warning message.

Service/ function

Description

Default

SSH and FindMe replication for clusters

Used for encrypted command line administration. Also used to replicate FindMe data if the Cisco VCS is part of a cluster with FindMe enabled.

22 TCP

Telnet

Used for unencrypted command line administration.

23 TCP

HTTP

Used for unencrypted 80 TCP web administration.

NTP

Used for updating the system time (and important for H.235 security).

123 UDP

SNMP

Used for network management.

161 UDP

TMS Agent Used for diagnostics. 389 TCP

HTTPS

Used for encrypted web administration. Also used to replicate FindMe data if the Cisco VCS is part of a cluster with FindMe enabled.

443 TCP

Direction Available range

Configurable via

inbound not configurable

inbound not configurable
inbound not configurable
outbound not configurable

inbound inbound inbound

not configurable
not configurable
not configurable

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Service/ function

Description

Default

Direction Available range

Configurable via

Reserved for future use

636

inbound not

configurable

Gatekeeper discovery

Used for multicast gatekeeper discovery. Note that the Cisco VCS does not listen on this port when H.323 Gatekeeper Auto discover mode is set to Off (this has the effect of disabling IGMP messages).

1718 UDP

inbound

not configurable

Clustering

Used for communication between cluster peers

4369-4380 inbound not

TCP

outbound configurable

Clustering

Used to recover from intra-cluster communication failure

4371 UDP inbound

not configurable

Clustering

Used for IPsec secure 500 UDP communication between cluster peers.

inbound

not configurable

H.323 registration Clustering

Listens for inbound H.323 UDP registrations. If the Cisco VCS is part of a cluster, this port is also used for inbound and outbound communication with peers, even if H.323 is disabled.

1719 UDP

inbound outbound

1024 - 65534

VCS configuration > Protocols > H.323 xConfiguration H323 Gatekeeper Registration UDP Port

H.323 call signaling

Listens for H.323 call signaling.

1720 TCP inbound

1024 - 65534

VCS configuration > Protocols > H.323 xConfiguration H323 Gatekeeper CallSignaling TCP Port

Traversal server media demultiplexing RTP

Used on the Cisco VCS Expressway for demultiplexing RTP media.

2776 UDP

inbound outbound

1024 - 65534

VCS configuration > Expressway > Ports xConfiguration Traversal Server Media Demultiplexing RTP Port

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Service/ function

Description

Default

Direction Available range

Configurable via

Assent call signaling

Used on the Cisco VCS Expressway for Assent signaling.

2776 TCP inbound

1024 - 65534

VCS configuration > Expressway > Ports xConfiguration Traversal Server H323 Assent CallSignaling Port

H.460.18 call signaling

Used on the Cisco VCS Expressway for H.460.18 signaling.

2777 TCP inbound

1024 - 65534

VCS configuration > Expressway > Ports xConfiguration Traversal Server H323 H46018 CallSignaling Port

Traversal server media demultiplexing RTCP

Used on the Cisco VCS Expressway for demultiplexing RTCP media.

2777 UDP

inbound outbound

1024 - 65534

VCS configuration > Expressway > Ports xConfiguration Traversal Server Media Demultiplexing RTCP Port

TURN services

Cisco VCS Expressway listening port for TURN relay requests.

3478 UDP inbound

1024 - 65534

VCS configuration > Expressway > TURN xConfiguration Traversal Server TURN Port

VCS database and TMS Agent (for clusters or Cisco TMS)

Encrypted administration connector to the VCS database. Used if the Cisco VCS is part of a cluster with FindMe or Device Provisioning enabled, or if the Cisco VCS is managed through Cisco TMS.

4444 TCP

inbound

not configurable

SIP UDP

Listens for incoming SIP UDP calls.

5060 UDP

inbound outbound

1024 - 65534

VCS configuration > Protocols > SIP > Configuration xConfiguration SIP UDP Port

SIP TCP

Listens for incoming SIP TCP calls.

5060 TCP inbound

1024 - 65534

VCS configuration > Protocols > SIP > Configuration xConfiguration SIP TCP Port

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Service/ function

Description

Default

Direction Available range

Configurable via

SIP TLS

Listens for incoming SIP TLS calls.

6061 TCP inbound

1024 - 65534

VCS configuration > Protocols > SIP > Configuration xConfiguration SIP TLS Port

Traversal server zone H323 Port

The port on the Cisco VCS Expressway being used for H.323 firewall traversal from a particular traversal client.

6001 UDP, increments by 1 for each new zone

inbound

1024 - 65534

VCS configuration > Zones > Edit zone xConfiguration Zones Zone [1..1000] TraversalServer H323 Port

Traversal server zone SIP Port

The port on the Cisco VCS Expressway being used for SIP firewall traversal from a particular traversal client.

7001 TCP, increments by 1 for each new zone

inbound

1024 - 65534

VCS configuration > Zones > Edit zone xConfiguration Zones Zone [1..1000] TraversalServer SIP Port

TMS Agent

Used for Device Provisioning and FindMe.

8989 TCP inbound not configurable

DNS

Used for sending requests to DNS servers.

10000 10210 UDP

outbound not configurable

H.225 and H.245 call signaling port range

The range of ports to be used for call signalling after a call is established.

15000 19999 TCP

inbound outbound

1024 - 65534

VCS configuration > Protocols > H.323 xConfiguration H323 Gatekeeper CallSignaling PortRange Start xConfiguration H323 Gatekeeper CallSignaling PortRange End

SIP TCP outbound port range

The range of ports to be used by outbound TCP/TLS SIP connections to a remote SIP device.

25000 29999 TCP

outbound

1024 - 65534

VCS configuration > Protocols > SIP > Configuration xConfiguration SIP TCP Outbound Port Start xConfiguration SIP TCP Outbound Port End

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Service/ function

Description

Default

Direction Available range

Configurable via

Traversal media port range

For traversal calls (where the Cisco VCS takes the media as well as the signaling), the range of ports to be used for the media. Ports are allocated from this range in pairs, with the first port number of each pair being an even number. See About the Traversal Subzone for more information.

50000 52399 UDP

outbound

1024 - 65533

VCS configuration > Local Zone > Traversal Subzone xConfiguration Traversal Media Port Start xConfiguration Traversal Media Port End

TURN relay media port range

The range of ports available for TURN media relay.

60000 61200 UDP

inbound outbound

1024 - 65534

VCS configuration > Expressway > TURN xConfiguration Traversal Server TURN Media Port Start xConfiguration Traversal Server TURN Media Port End

LDAP

Used for outbound connection to an LDAP server (if the Cisco VCS is configured to use an LDAP server for H.350 authentication).

uses a TCP source port from the ephemeral range

External manager

Used for outbound connection to an external manager, for example Cisco TMS.

uses a TCP source port from the ephemeral range

Third-party FindMe / User Policy server

Used for outbound connection to a thirdparty FindMe / User Policy server.

uses a TCP source port from the ephemeral range

Remote logging

Used to send messages to the remote syslog server.

uses a TCP source port from the ephemeral range

TMS Agent

Used to connect to another Cisco VCS or Cisco TMS for data replication.

uses a TCP source port from the ephemeral range

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Service/ function

Description

Default

Direction Available range

Login

Used to connect to an uses a TCP source port from the

authentication LDAP server for login ephemeral range

account authentication.

Active Directory Service and Kerberos

Used to connect to an ADS Domain Controller and a Kerberos Key Distribution Center for account authentication.

uses TCP source ports from the ephemeral range

Configurable via

Note that the range of ephemeral ports can be configured by using the CLI commands xConfiguration IP Ephemeral PortRange Start and xConfiguration IP Ephemeral PortRange End.

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Regular expressions
Regular expressions can be used in conjunction with a number of Cisco VCS features such as alias transformations, zone transformations, CPL policy and ENUM. The Cisco VCS uses POSIX format regular expression syntax. The table below provides a list of commonly used special characters in regular expression syntax. This is only a subset of the full range of expressions available. For a detailed description of regular expression syntax see the publication Mastering Regular Expressions [9].

Character Description

Example

.

Matches any single character.

\d

Matches any decimal digit, i.e. 0-9.

*

Matches 0 or more repetitions of the .* matches against any sequence of characters.

previous character or expression.

+

Matches 1 or more repetitions of the

previous character or expression.

?

Matches 0 or 1 repetitions of the

9?123 matches against 9123 and 123.

previous character or expression.

{n}

Matches n repetitions of the previous \d{3} matches 3 digits.

character or expression

{n,m}

Matches n to m repetitions of the previous character or expression

\d{3,5} matches 3, 4 or 5 digits.

[...]

Matches a set of specified

[a-z] matches any alphabetical character.

characters. Each character in the set can be specified individually, or a range can be specified by giving the first character in the range followed by the - character and then the last

[0-9#*] matches against any single E.164 character - the E.164 character set is made up of the digits 0-9 plus the hash key (#) and the asterisk key (*).

character in the range.

You cannot use special characters within the [] - they will be taken literally.

[^...]

Matches anything except the set of [^a-z] matches any non-alphabetical

specified characters. Each character character.

in the set can be specified individually, or a range can be specified by giving the first character in the range followed by the -

[^0-9#*] matches anything other than the digits 0-9, the hash key (#) and the asterisk key (*).

character and then the last character

in the range.

You cannot use special characters within the [] - they will be taken literally.

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(...)
| \ ^ $ (?!...) (?<!...)

Groups a set of matching characters together. Groups can then be referenced in order using the characters \1, \2, etc. as part of a replace string.

A regular expression can be constructed to transform a URI containing a user's full name to a URI based on their initials. The regular expression (.).*_(.).*(@example.com) would match against the user john_ [email protected] and with a replace string of \1\2\3 would transform it to [email protected].

Matches against one expression or an .*@example.(net|com) matches against any

alternate expression.

URI for the domain example.com or the

domain example.net.

Escapes a regular expression special character.

Signifies the start of a line.
When used immediately after an opening brace, negates the character set inside the brace.

[^abc] matches any single character that is NOT one of a, b or c.

Signifies the end of a line.
Negative lookahead. Defines a subexpression that must not be present in order for there to be a match.
Negative lookbehind. Defines a subexpression that must not be present in order for there to be a match.

^\d\d\d$ matches any string that is exactly 3 digits long. (?!.*@example.com$).* matches any string that does not end with @example.com.
.*(?<!.*@example.com$) matches any string that does not end with @example.com.

Note that regex comparisons are not case sensitive. For an example of regular expression usage, see the CPL examples section.

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Supported characters
The Cisco VCS supports the following characters when entering text in the CLI and web interface:
n the letters A-Z and a-z n decimal digits ( 0-9 ) n underscore ( _ ) n minus sign / hyphen ( - ) n equals sign ( = ) n plus sign ( + ) n at sign ( @ ) n comma ( , ) n period/full stop ( . ) n exclamation mark ( ! ) n spaces n FindMe account names additionally allow the use of all uppercase and lowercase Unicode
characters
The following characters are specifically not allowed:
n tabs n angle brackets ( < and > ) n ampersand ( & ) n caret ( ^ )
Note that some specific text fields have different restrictions and these are noted in the relevant sections of this guide, including:
n Administrator and user groups
Case sensitivity
Text items entered through the CLI and web interface are case insensitive. The only exception is passwords which are case sensitive.

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TMS Agent
The TMS Agent is a process that runs on the Cisco VCS to manage FindMe and Device Provisioning data. It acts on behalf of Cisco TMS so that Cisco TMS is not a single point of failure, and enables each Cisco VCS to share the load. It supports the replication of FindMe and provisioning data, sharing the data among cluster peers as well as the central Cisco TMS, providing resilience in case of connection failures between any Cisco VCS and Cisco TMS. TMS Agent is installed as part of the VCS platform and requires no configuration on the Cisco VCS, other than ensuring the default password is changed (see TMS Agent account passwords below). n You must use Cisco TMS to create and manage Device Provisioning data. n FindMe accounts may be set up using Cisco TMS or Cisco VCS.

FindMe
The TMS Agent replicates changes to FindMe account information across peers in a Cisco VCS cluster (FindMe account changes can be made on any peer, not just the master), across to Cisco TMS and also across to other Cisco VCS clusters managed by the same Cisco TMS.
Note that the FindMe option key must be installed on the Cisco VCS.
Device Provisioning
The TMS Agent works with the TMS Provisioning Directory to replicate and distribute the provisioning information and phonebook from Cisco TMS via Cisco VCSs to endpoint devices. Cisco VCSs cache and replicate data among themselves in case connection to Cisco TMS is lost.
Note that the Device Provisioning option key must be installed on the Cisco VCS.

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TMS Agent account passwords
TMS agent is accessed via two accounts: one for connecting via LDAP into the TMS Agent database, and one for managing the replication of the TMS Agent database. These accounts are only used by the internal processes running on the Cisco VCS and Cisco TMS. System administrators must not use these accounts.
These accounts have a username of cn=Directory Manager and a default password of TANDBERG (all upper case). Both passwords must be changed as soon as possible to maintain security of the Cisco VCS data. Warnings are shown on the web UI and the CLI if either account has the default password set.
n If your Cisco VCS uses Cisco TMS as an external manager, you must use Cisco TMS to change the passwords on these accounts.
n If your Cisco VCS is not managed by Cisco TMS, you have to change these passwords by logging into the Cisco VCS as the root user. Note that if your Cisco VCS is subsequently reconfigured to use Cisco TMS, the password must first be reset to the default value of TANDBERG.
See the TMS Agent passwords section for full instructions on changing passwords.
TMS Agent passwords
This section contains instructions for changing passwords on the TMS Agent.
TMS Agent LDAP and replication accounts
The TMS Agent is accessed via two accounts: one for connecting via LDAP into the TMS Agent database, and one for managing the replication of the TMS Agent database. These accounts have a username of cn=Directory Manager and a default password of TANDBERG (all upper case). For security reasons you must change these accounts' passwords from their default values as soon as possible. You will receive a warning on the Cisco VCS web UI and the CLI if either account has the default password configured.
Note: these accounts are only used by the internal processes running on the Cisco VCS and Cisco TMS. System administrators must not use these accounts.
Cisco VCSs managed by Cisco TMS
If your Cisco VCS uses Cisco TMS as an external manager, you must use Cisco TMS to change the passwords on these accounts. This ensures that the Cisco VCS and Cisco TMS keep in sync with each other. If your Cisco VCS is part of a cluster, Cisco TMS will replicate the modified password across all peers.
To change the TMS Agent LDAP account password from within Cisco TMS:
1. Go to Administrative Tools > Configuration > TMS Agent Settings. 2. Enter the new LDAP Configuration Password. 3. Click Save.
To change the TMS Agent replication account password from within Cisco TMS:
1. Go to Administrative Tools > Configuration > TMS Agent Settings. 2. Enter the new LDAP Replication Password. 3. Click Save.
These instructions are for Cisco TMS version 12.5. Refer to the Cisco TMS documentation for later releases.

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Cisco VCSs not managed by Cisco TMS
If your Cisco VCS is not managed by Cisco TMS, you have to change these passwords by logging into the Cisco VCS as the root user (by default you can only do this using a serial connection or SSH). To change the password for the TMS Agent LDAP account: 1. From the CLI, logged in as root, type tmsagent_ldap_passwd.
You are asked for the new password. 2. Enter the new password and, when prompted, retype the password. 3. Type exit to log out of the root account. To change the password for the TMS Agent replication account: 1. From the CLI, logged in as root, type tmsagent_replication_passwd.
You are asked for the new password. 2. Enter the new password and, when prompted, retype the password. 3. Type exit to log out of the root account.
Note: if your Cisco VCS is subsequently reconfigured to use Cisco TMS, the password must first be reset to the default value of TANDBERG.

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What are traversal calls?
A traversal call is any call passing through the Cisco VCS that includes both the signaling (information about the call) and media (voice and video). The only other type of call is a non-traversal call, where the signaling passes through the Cisco VCS but the media goes directly between the endpoints (or between one endpoint and another Cisco VCS in the call route, or between two Cisco VCSs in the call route).
n A call is "traversal" or "non-traversal" from the point of view of the Cisco VCS through which it is being routed at the time. A call between two endpoints may pass through two or more Cisco VCSs. Some of these Cisco VCSs may just take the signaling, in which case the call will be a nontraversal call for that Cisco VCS. Other Cisco VCSs in the route may need to take the media as well, and so the call will count as a traversal call on that particular Cisco VCS.
The following types of calls require the Cisco VCS to take the media. They are classified as traversal calls and will always pass through the Traversal Subzone:
n firewall traversal calls, where the local Cisco VCS is either the traversal client or traversal server n calls that are gatewayed (interworked) between H.323 and SIP on the local Cisco VCS n calls that are gatewayed (interworked) between IPv4 and IPv6 on the local Cisco VCS n for Cisco VCSs with Dual Network Interfaces enabled, calls that are inbound from one LAN port
and outbound on the other n a SIP to SIP call when one of the participants is behind a NAT (unless both endpoints are using ICE
for NAT traversal) n encrypted calls to and from Microsoft OCS Server 2007 (requires the Enhanced OCS Collaboration
option key)
All such calls require a traversal call license each time they pass through the Traversal Subzone.
Traversal calls use more resource than non-traversal calls, and the numbers of each type of call are licensed separately. The Cisco VCS has one license for the maximum number of concurrent traversal calls it can take, and another for the maximum number of concurrent non-traversal calls. You can increase the number of each type of call available on your Cisco VCS by purchasing and installing the appropriate option key.
Note that a non-traversal call on a Cisco VCS Expressway will consume a traversal license if there are no non-traversal call licenses available.

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Warnings list
Warnings occur when an event or configuration change has taken place on the Cisco VCS that requires some manual administrator intervention, such as a restart. Warnings may also be raised for hardware and environmental issues such as faulty disks and fans or high temperatures.
The Warnings page (Status > Warnings) provides a list of all the warnings currently in place on your system (and, where applicable, their proposed resolution). When there are unacknowledged warnings in place on the Cisco VCS, a warning icon appears at the top right of all pages.
The following table lists the warnings that can be raised on the Cisco VCS.

ID Warning message

Resolution

10001 Configuration warning: expected default link between the Default Configure default links Subzone and the Traversal Subzone is missing

10002 Configuration warning: expected default link between the Default Configure default links Subzone and the Default Zone is missing

10003 Configuration warning: expected default link between the Default Configure default links Subzone and the Cluster Subzone is missing

10004 Configuration warning: expected default link between the Traversal Subzone and the Default Zone is missing

Configure default links

10005 Port conflict: one or more ports have been configured for use by Review the port

more than one service

configuration

10006 Configuration warning: IP protocol is set to both IPv4 and IPv6, Configure IP settings but the VCS does not have any IPv6 addresses defined

10007 Configuration warning: IP protocol is set to both IPv4 and IPv6, Configure IP settings but the VCS does not have any IPv4 addresses defined

10008 Configuration warning: IP protocol is set to both IPv4 and IPv6, Configure IP settings but the VCS does not have an IPv4 gateway defined

10009 Configuration warning: IP protocol is set to both IPv4 and IPv6, Configure IP settings but the VCS does not have an IPv6 gateway defined

10010 Restart required: Ethernet configuration has been changed, however a restart is required for this to take effect

Restart the VCS

10011 Restart required: HTTP service has been changed, however a restart is required for this to take effect

Restart the VCS

10012 Restart required: HTTPS service has been changed, however a Restart the VCS restart is required for this to take effect

10013 Restart required: IP configuration has been changed, however a Restart the VCS restart is required for this to take effect

10014 Restart required: port configuration has been changed, however Restart the VCS a restart is required for this to take effect

10015 Configuration warning: H.323 and SIP modes are set to Off; one Configure H.323 and/or

or both of them should be enabled

SIP modes

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ID Warning message

Resolution

10016 Configuration conflict: H323-SIP Protocol Interworking mode is Reconfigure Interworking

set to "Registered only" but the H323-SIP Interworking Gateway mode or reinstall the

option key has been deleted

option key

10017 Restart required: SNMP service has been changed, however a Restart the VCS restart is required for this to take effect

10018 Restart required: SSH service has been changed, however a restart is required for this to take effect

Restart the VCS

10019 Restart required: Telnet service has been changed, however a restart is required for this to take effect

Restart the VCS

10020 Configuration conflict: the FindMe mode is set to "On" or "Remote service" but the FindMe option key has been deleted

Reconfigure FindMe mode or reinstall the option key

10021 Restart required: the Dual Network Interfaces option key has Restart the VCS been changed, however a restart is required for this to take effect

10022 Capacity warning: the number of concurrent traversal calls has Contact your Cisco

approached the licensed limit

representative

10023 Capacity warning: the number of concurrent non-traversal calls Contact your Cisco

has approached the licensed limit

representative

10024 Capacity warning: the number of concurrent Registrations has approached the licensed limit

Contact your Cisco representative

10025 Configuration conflict: a domain is in use by the OCS Relay application that has not been configured on the VCS

Reconfigure the OCS Relay or view and edit the VCS SIP domains

10026 Security alert: the admin user has the default password set

Change the admin password

10027 Security alert: the root user has the default password set

Change the root password

10028 Security alert: the TMS Agent database has the default LDAP password set

Change the TMS Agent LDAP password

10029 Security alert: the TMS Agent database has the default replication password set

Change the TMS Agent replication password

10030 Security alert: the SSH service is using the default key

Replace the default SSH key

10031 Security alert: one or more administrators has a password that does not meet strictness requirements

View and edit administrator accounts

10032 Cluster replication error: NTP server is not configured

Configure an NTP server

10033 Cluster replication error: the NTP server is unreachable

Reconfigure the NTP server

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ID Warning message

Resolution

10034 Cluster replication error: configuration master ID is inconsistent, View cluster replication

manual synchronization of configuration is required

troubleshooting

instructions

10035 Cluster replication error: cannot find master or this peer's configuration file, manual synchronization of configuration is required

View cluster replication troubleshooting instructions

10036 Cluster replication error: this peer's configuration conflicts with the master's configuration, manual synchronization of configuration is required

View cluster replication troubleshooting instructions

10037 Cluster replication error: the Master peer is unreachable

Check the list of peers for this cluster

10038 Cluster replication error: the local VCS does not appear in the list Check the list of peers for

of peers

this cluster

10039 Cluster replication error: there was an error during automatic replication of configuration

View cluster replication troubleshooting instructions

10040 Cluster replication error: automatic replication of configuration Wait until the upgrade has been temporarily disabled because an upgrade is in progress has completed

10041 Cluster name not configured: if FindMe or clustering are in use a Configure the cluster

cluster name must be defined

name

10042 Invalid clustering configuration: H.323 mode must be turned On - Configure H.323 mode clustering uses H.323 communications between peers

10043 LDAP Configuration required: a valid Server Address, Server Port, BindDN and BaseDN are required if remote login authentication is used for administrator or FindMe users

Configure LDAP parameters

10044 TURN relays installed: TURN services are only available on VCS Expressway; TURN option key ignored

Add/Remove option keys

10045 TURN relay licenses required: TURN services are enabled but Add option key or disable

no TURN relay license option keys are installed

TURN services

10046 An Ethernet interface speed setting has been negotiated to a value other than 1000Mb/s full duplex or 100Mb/s full duplex. This may result in packet loss over your network

Configure Ethernet parameters

10047 Restart required: QoS settings have been changed, however a Restart the VCS restart is required for this to take effect

10048 Restart required: the TMS Agent service has stopped unexpectedly. If the problem persists, contact your Cisco support representative

Restart the VCS

10049 Reboot required: the advanced account security mode has changed, however a reboot is required for this to take effect

Reboot the VCS

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ID Warning message

Resolution

10050 Time out period required: a non-zero system session time out period is required when in advanced account security mode

Configure session time out period

10051 SNMP enabled: you are recommended to disable SNMP when in Configure SNMP mode advanced account security mode

10052 NTP server problem: the VCS is unable to determine the correct Check the time

time and date

configuration

10053 HTTPS client certificate validation: you are recommended to enable client side certificate validation for HTTPS connections when in advanced account security mode

Configure HTTPS client certificate validation

10054 HTTPS client certificate checking: client certificate checking mode has changed, however a restart is required for this to take effect

Restart the VCS

10055 Failed to load Call Policy file

Configure Call Policy

10056

CRL checking required: your login account LDAP server configuration is recommended to have certificate revocation list (CRL) checking set to "All" when in advanced account security mode

Configure login account LDAP server

10057 Encryption required: your login account LDAP server configuration is recommended to have encryption set to "TLS" when in advanced account security mode

Configure login account LDAP server

10058 Remote logging enabled: you are recommended to disable the Configure remote logging remote syslog server when in advanced account security mode

10059 Incident reporting enabled: you are recommended to disable incident reporting when in advanced account security mode

Configure incident reporting

10060 External manager connection is using HTTP: you are recommended to use HTTPS connections to the external manger when in advanced account security mode

Configure external manager

10061 External manager has certificate checking disabled: you are recommended to enable external manager certificate checking when in advanced account security mode

Configure external manager

10062 Restart required: a language pack has been installed, however a Restart the VCS restart is required for this to take effect

10063 Language pack mismatch: some text labels may not be translated

Contact your Cisco representative to obtain the correct language pack version

10064 VCS database failure

Contact your Cisco support representative

10073 Uncontrolled shutdown detected

Contact your Cisco representative if the problem persists

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ID Warning message
10075 Restart required: cluster configuration has been changed, however a restart is required for this to take effect

Resolution Restart the VCS

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Bibliography

Reference Document number (if applicable)
1
2
3 4 5
6
7 8
9
10
11 12
13
14

Title

Link

ITU Specification: H.235 Security and encryption for H-Series (H.323 and other H.245-based) multimedia terminals

http://www.itu.int/rec/T-RECH.235/en

ITU Specification: H.350 Directory services architecture for multimedia conferencing

http://www.itu.int/rec/T-RECH.350/en

RFC 2782: A DNS RR for specifying the location of services (DNS SRV)

http://www.ietf.org/rfc/rfc2782.txt

RFC 3164: The BSD syslog Protocol

http://www.ietf.org/rfc/rfc3164.txt

RFC 3880: Call Processing Language (CPL): A Language for User Control of Internet Telephony Services

http://www.ietf.org/rfc/rfc3880.txt

DNS and BIND Fourth Edition, Albitz and Liu, O'Reilly and Associates, ISBN: 0-59600158-4

RFC 2915: The Naming Authority Pointer http://www.ietf.org/rfc/rfc2915.txt (NAPTR) DNS Resource Record

RFC 3761: The E.164 to Uniform Resource Identifiers (URI) Dynamic Delegation Discovery System (DDDS)Application (ENUM)

http://www.ietf.org/rfc/rfc3761.txt

Mastering Regular Expressions, Jeffrey E.F. Friedl, O'Reilly and Associates, ISBN: 1-56592-257-3

RFC 3327: Session Initiation Protocol (SIP) Extension Header Field for Registering Non-Adjacent Contacts

http://www.ietf.org/rfc/rfc3327.txt

Session Traversal Utilities for NAT (STUN) http://tools.ietf.org/html/rfc5389

Traversal Using Relays around NAT (TURN): Relay Extensions to Session Traversal Utilities for NAT (STUN)

http://tools.ietf.org/html/rfc5766

RFC 4787: Network Address Translation (NAT) Behavioral Requirements for Unicast UDP

http://www.ietf.org/rfc/rfc4787.txt

RFC 4028: Session Timers in the Session http://www.ietf.org/rfc/rfc4028.txt Initiation Protocol (SIP)

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Reference Document number (if applicable)
15
16
17
18 19
20 21

22 23

24

D14269

25

D14366

26

D14368

27

D14367

28

D14350

29

D14525

30

D14526

31

D14465

32

D14548

33

D14524

Title

Link

ITU Specification: H.323: Packet-based multimedia communications systems

http://www.itu.int/rec/T-RECH.323/en

RFC 3263: Session Initiation Protocol (SIP): Locating SIP Servers

http://www.ietf.org/rfc/rfc3263.txt

RFC 3550: RTP: A Transport Protocol for http://www.ietf.org/rfc/rfc3550.txt Real-Time Applications

RFC 791: Internet Protocol

http://www.ietf.org/rfc/rfc791.txt

RFC 2460: Internet Protocol, Version 6 (IPv6) Specification

http://www.ietf.org/rfc/rfc2460.txt

RFC 3261: SIP: Session Initiation Protocol http://www.ietf.org/rfc/rfc3261.txt

RFC 3489: STUN - Simple Traversal of User Datagram Protocol (UDP) Through Network Address Translators (NATs)

http://www.ietf.org/rfc/rfc3489.txt

XML and Writing CPL for TANDBERG Infrastructure products Rev 1.2

www.tandberg.com

Management Information Base for Network http://www.ietf.org/rfc/rfc1213.txt Management of TCP/IP-based internets: MIB-II

Cisco VCS Deployment Guide - Microsoft OCS 2007 (R1 and R2) and Cisco VCS Control

www.tandberg.com

Cisco VCS Multiway Deployment Guide www.tandberg.com

Provisioning Deployment Guide

www.tandberg.com

Cisco VCS Deployment Guide - Cluster creation and maintenance

www.tandberg.com

Cisco VCS Getting Started Guide

www.tandberg.com

Cisco VCS Deployment Guide - FindMe www.tandberg.com

Cisco VCS Deployment Guide -

www.tandberg.com

Authenticating Cisco VCS accounts using

LDAP

Cisco VCS Deployment Guide - ENUM dialing on Cisco VCS

www.tandberg.com

Cisco VCS Deployment Guide - Certificate www.tandberg.com creation and use with Cisco VCS

Cisco VCS Deployment Guide - Basic

www.tandberg.com

Configuration - Single Cisco VCS Control

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Reference Document number (if applicable)

34

D14618

35

36

D14602

37

D14652

38

39

D14049

40

D14754

41

42

D14651

Title

Link

Cisco VCS Deployment Guide - Cisco VCS Starter Pack Express

www.tandberg.com

RFC 3326: The Reason Header Field for the Session Initiation Protocol (SIP)

http://www.ietf.org/rfc/rfc3326.txt

Cisco VCS Deployment Guide - Cisco Unified Communications Manager with Cisco VCS using a SIP trunk

www.tandberg.com

Cisco VCS Deployment Guide - Microsoft OCS 2007, Cisco VCS Control and Cisco AM GW

www.tandberg.com

RFC 5245: Interactive Connectivity Establishment (ICE)

http://tools.ietf.org/html/rfc5245

Cisco TelePresence Video Communication www.tandberg.com Server Administrator Guide (this document)

Cisco TelePresence Video Communication www.tandberg.com Server Command Reference

RFC 5626: Managing Client-Initiated Connections in the Session Initiation Protocol (SIP)

http://www.ietf.org/rfc/rfc5626.txt

Cisco VCS Deployment Guide - Basic Configuration - Cisco VCS Expressway with Cisco VCS Control

www.tandberg.com

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Glossary

Term

Definition

A record

A type of DNS record that maps a host name to an IPv4 address.

AAAA record

A type of DNS record that maps a host name to an IPv6 address.

Administrator Policy See Call Policy

Alias

The name an endpoint uses when registering with the Cisco VCS. Other endpoints can then use this name to call it. An endpoint may register with more than one alias.

Alternate

One or more Cisco VCSs configured to support the same zone in order to provide redundancy. See also Cluster.

AOR Address of Record

A SIP or SIPS URI that points to a domain with a location service that can map the URI to another URI where the user might be available. Typically, the location service is populated through registrations. An AOR is frequently thought of as the "public address" of the user.

ARQ

An endpoint RAS request to make or answer a call.

Admission Request

Assent

Cisco's proprietary protocol for firewall traversal.

Border Controller

A device used to control multimedia networks and firewall traversal.

CA

An organization that validates and signs certificate requests.

Certificate authority

Call Policy

In relation to the Cisco VCS, the set of rules configured system-wide (either via the web interface or CPL script) that determine the action(s) to be applied to calls matching a given criteria. (Also referred to as Administrator Policy.)

Cisco TMS Cisco TelePresence Management Suite

A Cisco product used for the management of video networks.

Cisco VCS Cisco TelePresence Video Communication Server

A generic term for the Cisco product which acts as a gatekeeper and SIP proxy/server.

Cisco VCS Control

A Cisco VCS whose main function is to act as a gatekeeper, SIP proxy and firewall traversal client. This system is generally located within the firewall.

Cisco VCS Expressway

A Cisco VCS with the same functionality as a Cisco VCS Control that can also act as a firewall traversal server. This is generally located outside the firewall.

CLI Command line interface

A text-based user interface used to access the Cisco VCS.

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Term

Definition

Cluster

A collection of between two and six Cisco VCSs that have been configured to work together as a single Local Zone, in order to provide scalability and redundancy.

Conference Factory An application that allows the Cisco VCS to support the Multiway feature. See the Conference Factory section for more information.

CPL Call Processing Language

An XML-based language for defining call handling. Defined by RFC 3880 [5].

CRL

A list from a CA (certificate authority) of previously signed certificates that it

Certificate revocation marks as no longer valid.

list

Default Subzone

A subzone used to represent locally registered endpoints and systems that do not fall within any other existing configured subzones within the Local Zone.

Default Zone

A pre-configured zone on the Cisco VCS used to represent incoming connections from endpoints that are not recognized as belonging to the Local Zone or any of the existing configured neighbor, traversal client or traversal server zones.

Device Provisioning

An option key that allows Cisco VCS to provision endpoints with configuration information on request and to supply endpoints with phone book information. See the Device Provisioning section for more information.

DiffServ Differentiated Services

A Quality of Service (QoS) mechanism supported by the Cisco VCS.

DNS Domain Name System

A distributed database linking domain names to IP addresses.

DNS zone

On the Cisco VCS, a zone used to configure access to endpoints located via a DNS lookup.

E.164

An ITU standard for structured telephone numbers. Each telephone number consists of a country code, area code and subscriber number.

ENUM E.164 Number Mapping

A means of mapping E.164 numbers to URIs using DNS. Defined by RFC 3761 [8].

ENUM zone

On the Cisco VCS, a zone used to configure access to endpoints located via ENUM.

External manager

The remote system that is used to manage endpoints and network infrastructure. The Cisco TelePresence Management Suite (Cisco TMS) is an example of an external manager.

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Term

Definition

External zone

Any zone configured on the local Cisco VCS that connects out to a remote system or the internet. Neighbor, traversal server, traversal client, ENUM and DNS zones are all external zones.

Firewall traversal

The act of crossing a firewall or NAT device.

FindMeTM

Cisco TelePresence FindMe is a User Policy feature that allows users to have a single alias on which they can be reached regardless of the endpoints they are currently using.

FQDN Fully Qualified Domain Name

A domain name that specifies the node's position in the DNS tree absolutely, uniquely identifying the system or device. Note that in order to use FQDNs instead of IP addresses when configuring the Cisco VCS, you must have at least one DNS server configured.

Gatekeeper

A device used to control H.323 multimedia networks. An example is the TANDBERG Gatekeeper.

Gatekeeper zone

A collection of all the endpoints, gateways and MCUs managed by a single gatekeeper.

H.323

A standard that defines the protocols used for packet-based multimedia communications systems.

HTTP Hypertext Transfer Protocol

A protocol used for communications over the internet.

HTTPS Hypertext Transfer Protocol over Secure Socket Layer

A protocol used for secure communications over the internet, combining HTTP with TLS.

Hop count

The maximum number of gatekeeper or SIP proxy devices (e.g. a Cisco VCS) that a message may be forwarded through before it is decided that its intended recipient is not reachable.

ICE Interactive Connectivity Establishment

A collaborative algorithm that works together with STUN services (and other NAT traversal techniques) to allow clients to achieve firewall traversal. This is the emerging traversal standard for use by SIP endpoints (although it could be used for other protocols).

IETF Internet Engineering Task Force

An organization that defines (via documents such as RFCs) the protocol standards and best practices relating to the design, use and management of the internet.

Interworking

Allowing H.323 systems to connect to SIP systems.

IPsec Internet Protocol Security

A protocol suite for securing IP communications. It is used by the Cisco VCS to establish secure communication between cluster peers.

IPv4 Internet Protocol version 4

Version 4 of the Internet Protocol, defined in RFC 791 [18].

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Term

Definition

IPv6 Internet Protocol version 6

Version 6 of the Internet Protocol, defined in RFC 2460 [19].

IRQ

A request sent to an endpoint requesting information about its status.

Information Request

LAN

A geographically limited computer network, usually with a high bandwidth

Local Area Network throughput.

LDAP

A protocol for accessing on-line directories running over TCP/IP.

Lightweight Directory

Access Protocol

Link

In relation to the Cisco VCS, a connection between two nodes.

Local call

(Also referred to as a non-traversal call.) A call where the signaling but not the media is routed through the local Cisco VCS. See the What are traversal calls? section for more information.

Local registration, Locally registered endpoint

A relative term used to refer to any endpoint or system that is registered with the local Cisco VCS.

Local Cisco VCS

A relative term used to refer to the particular Cisco VCS that you are currently administering, as opposed to other Cisco VCSs in your network.

Local Zone

A relative term used to refer to the group of endpoints and other systems registered to a particular Cisco VCS. If a Cisco VCS is part of a cluster, the Local Zone refers to the collection of all endpoints and other systems registered to all peers in that cluster.

LRQ Location Request

A RAS query between gatekeepers to determine the location of an endpoint.

MCU Multipoint Control Unit

A network device that allows multiple endpoints to participate in a video conference.

Microsoft Office Communications Server 2007 Microsoft OCS

Microsoft OCS (Office Communications Server) 2007 is an enterprise realtime communications server, providing the infrastructure to allow instant messaging, presence, audio-video conferencing and web conferencing functionality.

Microsoft Office Communications (MOC) client

The client application released with Microsoft Office Communications Server (OCS). The MOC client can be used for instant messaging, presence, voice and video calls and ad hoc conferences.

Multiway

Cisco TelePresence Multiway enables endpoint users to create a conference while in a call even if their endpoint does not have this functionality built in. See the Conference Factory section for more information.

NAPTR record

A type of DNS record.

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Term NAT Network Address Translation Neighbor
Neighbor zone
Node
Non-traversal call
NTP Network Time Protocol OCS Relay
Peer PEM Privacy-Enhanced Electronic Mail Pipe
Proxy, Proxy server
QoS Quality of Service RAS Registration, Admission and Status Registrar

Definition
Also known as IP masquerading. Rewriting source and destination addresses as the IP packet passes through the NAT device.
A remote system to which the Cisco VCS has a connection via a neighbor zone.
On the Cisco VCS, a zone used to configure a connection to a remote system with which the local Cisco VCS has a non-traversal relationship.
In relation to the Cisco VCS, a node is one end of a link. A node can be a local subzone or a zone.
(Also referred to as a local call.) A call where the signaling but not the media is routed through the local Cisco VCS. See the What are traversal calls? section for more information.
A protocol used for synchronizing clocks. Defined in RFC 1305.
A Cisco VCS application that enables interoperability between Microsoft Office Communications Server (OCS) and FindMe. See the OCS Relay section for more information.
A Cisco VCS that has been configured to belong to a cluster.
An IETF proposal for securing messages using public key cryptography.
In relation to the Cisco VCS, a means of controlling the bandwidth used on a link.
In SIP, an intermediary entity that acts as both a server and a client for the purpose of making requests on behalf of other clients. A proxy server primarily plays the role of routing, which means its job is to ensure that a request is sent to another entity "closer" to the targeted user. Proxies are also useful for enforcing policy (for example, making sure a user is allowed to make a call). A proxy interprets, and, if necessary, rewrites specific parts of a request message before forwarding it. While a proxy can set up calls between SIP endpoints, it does not participate in the call after it is set up.
Mechanisms that give a network administrator the ability to provide different priorities to an applications' network traffic.
A protocol used between H.323 endpoints and a gatekeeper to register and place calls.
In SIP, a server that accepts REGISTER requests and places the information it receives in those requests into the location service for the domain it handles. This information is used to advise other SIP Proxies/Registrars where to send calls for that endpoint.

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Term

Definition

Regex

A pattern used to match text strings according to a POSIX-defined syntax.

Regular expression

RFC Request for Comments

A process and result used by the IETF for Internet standards.

RS-232

A commonly used standard for computer serial ports.

RTCP

A control protocol for RTP. Defined by RFC 3550 [17].

RTP Control Protocol

RTP Real-time Transport Protocol

Real time protocol designed for the transmission of voice and video. Defined by RFC 3550 [17].

SASL Simple Authentication and Security Layer

A framework for authentication and data security in Internet protocols.

SSH Secure Shell

An encrypted protocol used to provide a secure CLI.

SIMPLE Session Initiation Protocol for Instant Messaging and Presence Leveraging Extensions

An instant messaging and presence protocol based on SIP.

SIP Session Initiation Protocol

IETF protocol for controlling multimedia communication. Defined by RFC 3261 [20].

SNMP Simple Network Management Protocol

A protocol used to monitor network devices.

Source alias

The alias present in the "source" field of a message.

SRV record Service record

A type of DNS record. Defined by RFC 2782 [3].

STUN Simple Traversal of UDP through NAT

Firewall NAT traversal for SIP. Defined by RFC 3489 [21].

Subzone

A segment within a Cisco VCS Local Zone used to control the bandwidth used by various parts of your network, and to control registrations.

TCP

A reliable communication protocol defined by RFC 791 [18].

Transmission Control

Protocol

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Term

Definition

Telnet

A network protocol used on the internet or Local Area Networks (LANs).

TLS Transport Layer Security

A protocol that provides secure communications over the internet.

TMS

See Cisco TMS.

TMS Agent

An internal Cisco VCS feature used to manage FindMe and Device Provisioning data. See the TMS Agent section for more information.

Transform

In relation to the Cisco VCS, the process of changing or replacing the alias being searched for.

Traversal call

Any call where both signaling and media are routed through the local Cisco VCS. See the What are traversal calls? section for more information.

Traversal client

A traversal entity on the private side of a firewall. Examples are a Cisco VCS Control or Gatekeeper.

Traversal client zone A zone on a Cisco VCS traversal client that has been used to configure a connection to a particular traversal server.

Traversal server

A traversal entity on the public side of a firewall. Examples are the Cisco VCS Expressway or Border Controller.

Traversal server zone A zone on a Cisco VCS Expressway that has been used to configure a connection to a particular traversal client.

Traversal Subzone

A conceptual subzone through which all traversal calls are deemed to pass; used to manage the bandwidth of traversal calls.

Traversal-enabled endpoint

Any endpoint that supports the Assent and/or ITU H.460.18 and H.460.19 standards for firewall traversal. This includes all Cisco TelePresence MXP endpoints.

TURN Traversal Using Relays around NAT

Relay extensions to STUN (Session Traversal Utilities for NAT).

UA User Agent

A SIP device used to make and receive calls.

UDP User Datagram Protocol

A communication protocol defined by RFC 791 [18]. It is less reliable than TCP.

URI Uniform Resource Identifier

A formatted string used to identify a resource, typically on the internet.

User Policy

The set of rules that determines the actions to be applied to calls for a particular user or group. The Cisco VCS uses FindMe for its User Policy.

VCS

See Cisco VCS.

VCS Control

See Cisco VCS Control.

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Term VCS Expressway Zone

Definition
See Cisco VCS Expressway.
Zones are used on the Cisco VCS to define and configure connections to locally registered and external systems and endpoints. The Local Zone refers to all the locally registered endpoints and systems, and consists of configurable subzones. External zones are used to configure connections to external systems with which the Cisco VCS has a neighbor, traversal client or traversal server relationship, and to configure the way in which the Cisco VCS performs ENUM and DNS searches.

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Legal notices
Intellectual property rights
This Administrator Guide and the product to which it relates contain information that is proprietary to TANDBERG and its licensors. Information regarding the product is found below in the Copyright notice and Patent information sections. TANDBERG® is a registered trademark belonging to Tandberg ASA. Other trademarks used in this document are the property of their respective holders. This Guide may be reproduced in its entirety, including all copyright and intellectual property notices, in limited quantities in connection with the use of this product. Except for the limited exception set forth in the previous sentence, no part of this Guide may be reproduced, stored in a retrieval system, or transmitted, in any form, or by any means, electronically, mechanically, by photocopying, or otherwise, without the prior written permission of TANDBERG. COPYRIGHT © TANDBERG
Copyright notice
The product that is covered by this Administrator Guide is protected under copyright, patent, and other intellectual property rights of various jurisdictions. This product is Copyright © 2010, Tandberg Telecom UK Limited. All rights reserved. TANDBERG is now part of Cisco. Tandberg Telecom UK Limited is a wholly owned subsidiary of Cisco Systems, Inc. This product includes copyrighted software licensed from others. A list of the copyright notices and the terms and conditions of use can be found at: http://www.tandberg.com/collateral/documentation/User_Manuals/Cisco_VCS_EULA.pdf and http://www.tandberg.com/collateral/documentation/User_Manuals/Cisco_VCS_Copyrights.pdf. IMPORTANT: USE OF THIS PRODUCT IS SUBJECT IN ALL CASES TO THE COPYRIGHT RIGHTS AND THE TERMS AND CONDITIONS OF USE REFERRED TO ABOVE. USE OF THIS PRODUCT CONSTITUTES AGREEMENT TO SUCH TERMS AND CONDITIONS.
Patent information
This product is covered by one or more of the following patents: n US7,512,708 n EP1305927 n EP1338127
A complete list of patents is available at: http://www.tandberg.com/tandberg_pm.jsp.

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Disclaimers and notices
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 SHIPPED WITH THE PRODUCT AND ARE INCORPORATED HEREIN BY THIS REFERENCE. IF YOU ARE UNABLE TO LOCATE THE SOFTWARE LICENSE OR LIMITED WARRANTY, CONTACT YOUR CISCO REPRESENTATIVE FOR A COPY.
The Cisco implementation of TCP header compression is an adaptation of a program developed by the University of California, Berkeley (UCB) as part of UCB's public domain version of the UNIX operating system. All rights reserved. Copyright © 1981, Regents of the University of California.
NOTWITHSTANDING ANY OTHER WARRANTY HEREIN, ALL DOCUMENT FILES AND SOFTWARE OF THESE SUPPLIERS ARE PROVIDED "AS IS" WITH ALL FAULTS. CISCO AND THE ABOVE-NAMED SUPPLIERS DISCLAIM ALL WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING, WITHOUT LIMITATION, THOSE OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OR ARISING FROM A COURSE OF DEALING, USAGE, OR TRADE PRACTICE.
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 and phone numbers used in this document are not intended to be actual addresses and phone numbers. Any examples, command display output, network topology diagrams, and other figures included in the document are shown for illustrative purposes only. Any use of actual IP addresses or phone numbers in illustrative content is unintentional and coincidental.
© 2010 Cisco Systems, Inc. All rights reserved.

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