Cisco Systems ASR 1000 manual SSO Support, Issu Support, 10-3

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Chapter 10 High Availability Support

SSO Support

Upon an RPR-based RP switchover event, all SBC calls already established (in a steady state) at the time of the switchover are lost. Some SBC calls in the process of being established at the time of the switchover are dropped as gracefully as possible. No new calls can be established briefly after the initial switchover event. An SBC call reconciliation takes place after an RPR-based RP switchover to ensure that both RP and Embedded Services Processor (ESP) are in sync.

RPR redundancy can allow for IOS fast software upgrades when ISSU is unavailable. In RPR mode, no Cisco IOS SBC state information is synchronized to the standby RP. Therefore, all calls are dropped upon an RPR-based switchover.

Note RPR is supported on the Cisco ASR 1000 Series Routers while RPR+ is not. You can use Stateful Switchover (SSO) instead of RPR+.

SSO Support

Integrated Session Border Controller support for Stateful Switchover (SSO) allows for stateful IOS process switchovers where critical state information is synchronized between one Route Processor used as the active processor and the other RP used as the standby processor. When Cisco IOS is configured for SSO, the SBC module running on the active IOS process constantly “replicates” its internal state to its standby peer SBC module on the standby IOS process. In this way, the standby SBC module is kept in sync with the active IOS process and has all the state information necessary to retain active calls and resume call processing in the event the active IOS process fails and an SSO occurs.

For information on SSO, see the Cisco IOS High Availability Configuration Guide at http://www.cisco.com/en/US/products/ps6922/products_installation_and_configuration_guides_list.ht ml.

ISSU Support

Integrated Session Border Controller supports In-Service Software Upgrade (ISSU) with a redundant RP or redundant IOS process. The ISSU process allows software to be updated or otherwise modified on a standby RP or standby IOS process while packet forwarding on the active RP or active IOS process continues. For the Cisco ASR 1000 Series Routers, ISSU compatibility depends on the software package being upgraded and the hardware configuration.

See the “High Availability Overview” section in the Cisco ASR 1000 Aggregation Services Router Software Configuration Guide for more, updated information on ISSU compatibility.

For information on the ISSU process, see the Cisco IOS In Service Software Upgrade and Enhanced Fast Software Upgrade Process document at: http://www.cisco.com/en/US/docs/ios/12_2sb/feature/guide/sb_issu.html.

Cisco IOS XE Integrated Session Border Controller Configuration Guide for the Cisco ASR 1000 Series Aggregation Services Routers

 

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Contents Americas Headquarters Page Iii N T E N T SQoS Bandwidth Allocation Traffic Management Package Support Local Source Properties Address and Port Vii IPv6 SupportEvents Storage Until Event Acknowledgment OL-15421-01 May 5 This document was first published PrefaceDocument Revision History ObjectivesOrganization Intended AudienceCisco IOS Release 12.2SR Software Publications Related DocumentationDocument Conventions Cisco ASR 1000 Series Router DocumentationXii Xiii Obtaining Documentation and Submitting a Service RequestXiv Contents Cisco ASR 1000 Series Routers OverviewGeneral Overview Example of SBC High Level Architecture Distributed and Unified ModelsOn page 1-3illustrates the unified model Release Feature Name Related SBC Commands Documented Supported Integrated Session Border Controller FeaturesPackage segment XE Release Cisco IOS Logging Level in ConfiguringCisco IOS NoneMedia-address ipv4 Deployment of the Integrated Session Border Controller Transaction-pending commandIntegrated SBC Used for VoIP Interworking Integrated Session Border Controller DBE Deployment Scenario Configuring Integrated Session Border Controller Prerequisites for Integrated Session Border ControllerRestrictions for Integrated Session Border Controller Summary Steps PrerequisitesEnters into interface configuration mode Enables privileged Exec modeEnter your password if prompted Enters global configuration modeController H.248 configuration mode Configures the DBE to use a specific IPv4 H.248 controlOwn address when connecting to the SBE Configures the H.248 controller for the DBE and enters intoTroubleshooting Tips What To Do NextExamples Configuring H.248 Logging Level Messages sent and received. Turns on console Creates the DBE service on the SBC and enters intoSBC-DBE configuration mode Sets a specified logging level to generate detailed logsEnabling H.248 Logging Requests and Responses Configuration Examples This section provides the following configuration examplesExample H.248 Log Output SBC DBE Configuration Steps Example Making Global Changes to Controllers Example == Make change to local port Following example shows the initial SBC configurationControl-address h248 ipv4 172.25.2.26 controller h248 Making Changes to Individual Controller Settings ExampleOverview of Profile Topology Priority Indicator Yes Emergency IndicatorIeps Indicator Yes Cisco H.248 ProfilePackage ID Version Profile PackagesPackage ID Version Support Dependent On Information About Dtmf Interworking Dtmf InterworkingConfiguring Default Duration of a Dtmf Event RTP to SIP InterworkingSIP to RTP Interworking Configures the default duration of a Dtmf event Enters the mode of a DBE service and enters into SBC-DBEConfiguration mode. Use the sbc-name argument to specify Name of the DBE servicePage Restrictions for Configuring Media Address Pools Media Address PoolsPrerequisites for Implementing Media Address Pools Information About Media Address Pools Configuring Media Address PoolsCreates a port range for the configured media Is configuredEnters into SBC-DBE configuration mode Configuration modeConfiguring Media Address Pools Example Traffic Management Package Support Quality of Service and Bandwidth ManagementPage Dscp Marking and IP Precedence Marking Dscp Re-MarkingsParameters on AC and per SDP on Rtcp Policing Rtcp Policing Using Tman PackageRtcp Policing Not Using Tman Package QoS Bandwidth AllocationTwo-Rate Three-Color Policing and Marking Enabling Two-Rate Three-Color Policing and MarkingImplementing Two-Rate Three-Color Policing and Marking DBE Restrictions Related Commands Page Enabling Optional H.248 Packages Packages-Signaling and ControlSegmentation Package Support Address Reporting PackageSession Failure Reaction Package Termination State Control Package Tsc-quiesce FeatureTsc-suspend Feature Vlan Package Syntax-Level Support 248.1v3 SupportMGC-Controlled Gateway-Wide Properties Page Services-Signaling and Control DBE Signaling Pinhole Support Extension to H.248 Termination Wildcarding Support Extension to H.248 Audit SupportFlexible Address Prefix Provisioning No Napt Pinhole Hairpinning Local Source Properties Address and PortLocally Hairpinned Sessions Twice Napt Pinhole HairpinningMGC-Specified Local Addresses or Ports Multi-Stream Terminations Nine-Tier Termination Name HierarchyRestrictions for Nine-Tier Termination Name Hierarchy Displaying the Nine-Tier Termination Name Hierarchy Information About Nine-Tier Termination Name HierarchyAbc/voice/gn/0/1/0/1/ac/3 Displaying the Nine-Tier Termination Name Hierarchy ExampleOptional Local and Remote Descriptors ServiceChange Notification for Interface Status Change Remote Source Address Mask FilteringRTP Specific Behavior Support Sbc interface-id value End Configuration Example Output Video on Demand VOD Support MAX TimerTsc-Delay Timer Tmax-timercommand configures the value of the T-MAX timerServices-Signaling and Control Video on Demand VOD Support Services-Signaling and Control Video on Demand VOD Support Integrated Session Border Controller Security Firewall Media Pinhole Control Latch and Relatch Support Interim Authentication Header SupportLocal Source Properties Address and Port Etsi TS 102 333 version 1.1.2 Gate Management Package Napt and NAT TraversalTraffic Management Policing Topology HidingTopology Hiding IPv6 Inter-Subscriber Blocking IPv4 Twice NaptRouter# show run interface gigabitEthernet 0/1.1101 QoS Policy-Map-Based Inter-Subscriber Blocking MethodRouter# show class-map IPv6intersubscriber ACL-Based Inter-Subscriber Blocking Method IPv6 SupportIPv6 No Napt Support for Media Flows IPv6 PinholesSend Recv IPv6 Single Napt for SignalingSingle Napt Signaling Flow No Napt Pinholes Topology Hiding No Napt Pinholes High Availability Support Integrated Session Border Controller High Availability10-1 10-2 Hardware RedundancySoftware Redundancy Route Processor Redundancy RPRSSO Support Issu Support10-3 High Availability Support Issu Support 10-411-1 Quality Monitoring and Statistics GatheringEnhanced Event Notification and Auditing Congestion-threshold CommandBilling and Call Detail Records DBE Status Notification11-3 Retention and Returning of H.248 Event Information11-4 Association ResetResetting the Media Timeout Timers Silent Gate DeletionMiddlebox Pinhole Timer Expired Event Network Package Quality Alert Event11-5 Provisioned Inactivity Timer Related Command11-6 IN-1 IN-2 IN-3 IN-4 Pinhole Pinhole timeoutPolicing Asymmetric policing Ipv6 packets RTP specific behavior support SBEIN-5 IN-6
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