Cisco Systems A9014CFD manual Implementing IPv6 on Vlan Interfaces, Ipv6 enable or, 32-12

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Chapter 32 IPv6 Support on the Cisco ASR 901 Router

How to Configure IPv6 Support on the Cisco ASR 901 Router

DETAILED STEPS

 

Command or Action

Purpose

Step 1

 

 

enable

Enables privileged EXEC mode.

 

 

Enter your password if prompted.

 

Example:

 

 

Router> enable

 

Step 2

 

 

configure terminal

Enters global configuration mode.

 

Example:

 

 

Router# configure terminal

 

Step 3

 

 

interface type number

Specifies an interface type and number, and places the

 

 

router in interface configuration mode.

 

Example:

 

 

Router(config)# Interface fastethernet 0/0

 

Step 4

 

 

ipv6 address autoconfig

Enables automatic configuration of IPv6 addresses using

 

 

stateless autoconfiguration on an interface and enables IPv6

 

Example:

processing on the interface.

 

 

 

Router(config-if)# ipv6 address autoconfig

 

 

 

 

Implementing IPv6 on VLAN Interfaces

Perform the tasks given below to enable IPv6 on VLAN interfaces. By default, IPv6 is disabled on an interface.

Note For information on how to create a VLAN interface, see the Configuring Ethernet Virtual Connections document at the following location: http://www.cisco.com/en/US/partner/docs/wireless/asr_901/Configuration/Guide/swevc.html

SUMMARY STEPS

1.enable

2.configure terminal

3.interface type number

4.ipv6 enable or

ipv6 address {ipv6-address/prefix-length prefix-name sub-bits/prefix-length}

 

Cisco ASR 901 Series Aggregation Services Router Software Configuration Guide

32-12

OL-23826-09

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Contents Americas Headquarters Text Part Number OL-23826-09Copyright 2011-2013, Cisco Systems, Inc N T E N T S IiiRelated Documents Standards MIBs Standards MIBs Searching and Filtering Output of show and more Commands Split-Horizon8-6 ViiRestrictions ViiiManually Configuring an IP SLA CFM Probe or Jitter Operation Restrictions Overview Setting up Manual Preemption for Vlan Load Balancing XiiConfiguring Mpls VPNs XiiiXiv 19-6Verifying Local Switching Verifying the Synchronous Ethernet configuration XviCisco IOS IP SLA XviiMarking XviiiXix Technical Assistance Configuring Hsrp XxiConfiguring Link Layer Discovery Protocol XxiiHow to Configure Bert XxiiiXxiv 32-2Configuring IPv6 Duplicate Address Detection XxvTroubleshooting Tips BFD XxviiVerifying Layer 2 Tunneling XxviiiConfiguring Unspecified Bit Rate XxixCreating IPv6 VRFs on PE Routers XxxTechnical Assistance XxxiFinding Feature Information XxxiiIgmp XxxiiiIPv6 Multicast Groups XxxivSpan Traffic XxxvXxxvi Document Revision History About This GuideDocument Number Date Change Summary Xxxviii Xxxix OL-23826-09 Xli Xlii Xliii Xliv Xlv Xlvi Objectives AudienceOrganization XlviiMpls OAM XlviiiSLA XlixConventions Chapter DescriptionConvention Description Boldface fontRelated Documentation To access the related documentation on Cisco.com, go toRelease Notes Lii Cisco ASR 901 Router Overview Features Performance FeaturesIntroduction This section contains the following topicsManageability Features Management OptionsSecurity Features Quality of Service and Class of Service FeaturesLayer 3 VPN Services Layer 3 FeaturesMonitoring Features OL-23826-09 Contents Finding Feature InformationLicensing Feature Overview Licenses Supported on Cisco ASR 901 RouterFollowing licenses are supported License Sl.No Chassis PID License PID DescriptionLicensing Licenses Supported on Cisco ASR 901 Router Feature Based License Features SupportedLicense Features License TypesPort or Interface Behavior Port Based/Mode License1588BC License Port Number Port Type Chassis PID License RequiredExample When Port Based License is not Installed Example When Port Based License is InstalledPort Based License Router# show ip interface brief10gigUpgrade License Example When 10gigUpgrade License is not InstalledRouterconfig# interface gig 0/0 Router# show interface Ten0/1Example When 10gigUpgrade License is Installed Example When Flexi License is not InstalledFollowing is a sample output from the show license command Flexi LicenseExample When Flexi License is Installed Example When 1588BC License is not InstalledExample When 1588BC License is Installed Following example shows how to install the 1588BC licenseUse the license clear command to remove the 1588BC license Routerconfig-ptp-clk#no ptp clock boundary domainRemoving the 1588BC License Router# license clear 1588BCInstalling the License Enable License install Copy tftp flash Show flashLicense install license-file-name Generating the LicenseChanging the License Command PurposeExample Return Materials Authorization License Process Router# license install ?Example RMA Process Router# copy tftp flashWhere to Go Next To verify the new license, use the show license commandStandards MIBsRFCs StandardTechnical Assistance Description LinkFeature Information for Licensing Feature Name Releases Feature InformationOL-23826-09 Setup Mode First-Time ConfigurationBefore Starting Your Router Using Setup Mode Configuring Global ParametersEnter a hostname for the router this example uses Completing the Configuration Password prompt appears. Enter your password Configuring the Hostname and PasswordVerifying the Cisco IOS Software Version Verifying the Hostname and Password Exit back to global configuration modeRouter# configure terminal Router# show configManaging and Monitoring Network Management Features Network Management Features for the ASR This section contains the following proceduresConfiguring Snmp Support Enables privileged Exec modeEnter your password if prompted Enters global configuration modeForm of this command removes the specified community string String-Community string is the password to access the SnmpProtocol View view-name-Optional Previously defined view. The viewCommand Notification-type -snmp authentication -Enables RFCEnvmon voltage shutdown supply fan temperature -When TemperatureSnmp-server host command Command Purpose Configuring Remote Network Management Exits global configuration modeEnable Configure terminal Interface loopback numberCommand or Action Purpose Zero-Touch Deployment Image Download Zero-touch DeploymentConfiguring a Dhcp Server Network ip-address subnet-maskSpecifies to exclude IP address of the Dhcp server Ip dhcpConfiguring a Tftp Server Creating a Bootstrap ConfigurationConfiguring the Cisco Configuration Engine Enabling a Tftp Server on the Edge RouterConfiguration Examples Example Configuring Snmp SupportExample Configuring Remote Network Management Example Configuring a Dhcp ServerAdditional References Example Zero-touch DeploymentRelated Documents Related Topic Document TitleMIBs Network Management Features for the ASR Using the Command-Line Interface Understanding Command ModesEntered. Use a password User Exec LogExit, or logout Use the interfaceUnderstanding the Help System Line consoleCtrl-Z or enter end HelpUnderstanding Abbreviated Commands Understanding no and default Forms of CommandsUnderstanding CLI Error Messages Router# show confUsing Command History Changing the Command History Buffer SizeError Message Meaning How to Get Help Range is from 0 toUsing Editing Features Recalling CommandsDisabling the Command History Feature Enabling and Disabling Editing FeaturesEditing Commands through Keystrokes Capability Keystroke1 PurposePress Ctrl-Y Backspace keyEditing Command Lines that Wrap Press Ctrl-V or Esc QReturn and Space bar Press Ctrl-L or Ctrl-RCommand begin include exclude regular-expression Accessing the CLIRouter# show interfaces include protocol Saving Configuration Changes Selecting a Cisco IOS Image Software UpgradeUpgrading the Cisco IOS image If the right steps are not followed properly Copy the IOS Image from the Tftp serverRouter# show file system Save the configuration and reload the router Verify the Cisco IOS upgradeVerify the Cisco IOS image in the file system Router# verify flashasr901-universalk9-mz.151-2.SNGAuto Upgrading the MCU Router# show versionManually Upgrading the Rommon Rommon AUTOUPGRADEROMMON=TRUE False Auto Upgrade of RommonRouter# upgrade rom-monitor internal Configuring Gigabit Ethernet Interfaces Configuring the InterfaceTo configure the GE interface, complete the following steps Enters enable modeCdp enable Setting the Speed and Duplex ModeGigabitethernet 0/1 Modifying MTU Size on the Interface Enabling the InterfaceMtu bytes No mtu or default mtu command Verifying the MTU SizeConfiguring MAC FLap Control Complete the following steps to configure MAC Flap controlMAC Flap Control Restrictions and LimitationsConfiguring a Combo Port RestrictionsMac-flap-ctrl on per-mac mac-movement Time-intervalConfigures the media type Exits interface configuration mode and entersAuto-select-Specifies dynamic selection Physical connectionRouter# show interface gigabitethernet 0/1 Verifying the Media TypeRouter# show interface gigabitethernet 0/7 Configuring Ethernet Virtual Connections Supported EVC Features Service Instances and EFPs Understanding EVC FeaturesEthernet Virtual Connections Encapsulation Bridge Domains Configures default encapsulationTo the appropriate EFP Split-Horizon Dhcp Client on Switch Virtual InterfaceRewrite Operations Default EVC Configuration Configuring EFPsConfiguration Guidelines Creating Service Instances Service instance number ethernet name DefaultShow ethernet service instance Copy running-config startup-configConfiguration Examples of Supported Features Example Configuring a Service InstanceExample Encapsulation Using a Vlan Range Example Bridge Domains and Vlan EncapsulationRouter config-if-srv#rewrite ingress tag pop 1 symmetric Router config-if-srv#rewrite ingress pop 1 symmetricExample Rewrite Example Split HorizonExample Filtering Configuration Examples of Unsupported FeaturesExample Overlapping Encapsulation Configuring EVC Default Encapsulation with Bridge-Domain How to Configure EVC Default EncapsulationInterface type number Configures the default service instance Configuring EVC Default Encapsulation with XconnectAn identifier Verifying EVC Default Encapsulation with Bridge-Domain Configuring Other Features on EFPs Verifying EVC Default Encapsulation with XconnectConfiguration Examples for EVC Default Encapsulation Example Configuring EVC Default Encapsulation with XconnectEFPs and EtherChannels MAC Address Forwarding, Learning and Aging on EFPsNo mac-address-table learning vlan vlan-id Interface type slot/portEnd Return to privileged Exec mode Routerconfig# no mac-address-table learning vlanAddresses learned on a particular VLAN/BD Router# show mac-address-tableConfiguring Ieee 802.1Q Tunneling using EFPs 802.1Q Tunneling QinQRouter# show mac-address-table interface 0/9 Router# show mac-address-table interface port-channel1shows the tag structures of the double-tagged packets Configuration Examples You can use EFPs to configure 802.1Q tunneling in two waysCisco ASR 901 router supports pop 2 configuration Configuration ExampleRouted QinQ Example Configuring Bridge-Domain Routing Bridge Domain RoutingHow to Configure Dhcp Client on SVI Configuring Dhcp Client on SVIConfigures the Vlan interface and enters interface Interface type-numberConfiguration Example for Dhcp Client on SVI Verifying Dhcp Client on SVIEFPs and Switchport MAC Addresses EFPs and MstpCommand Description Monitoring EVCSample Configuration with Switchport to EVC Mapping Configuration Example Line vty 0 4 login Additional References Supported EVC Features OL-23826-09 EtherChannel Feature Overview Configuring EtherChannelsUnderstanding How EtherChannels Work Understanding How EtherChannels Are Configured EtherChannel Configuration OverviewUnderstanding Manual EtherChannel Configuration Understanding Ieee 802.3ad Lacp EtherChannel ConfigurationPassive mode Passive mode Active modeActive mode Passive mode Router a Router B ResultUnderstanding Port-Channel Interfaces EtherChannel Configuration Guidelines and RestrictionsUnderstanding Load Balancing Configuring Etherchannels Configuring Channel GroupsConfiguring the Lacp System Priority and System ID Configuration examples for Lacp system priorityConfiguring the Lacp Transmit Rate Lacp rate fast normal EndConfiguration Examples Configuring EtherChannel Load BalancingVerifying the Lacp Transmit Rate Modifying MTU Size on Port-Channel Enable Configure terminal Interface port-channel numberVerifying the MTU Size on Port-Channel EVC On Port-Channel Restrictions for EVC EtherChannelConfiguring EVC on Port-Channel Verifying the ConfigurationRouter# show ethernet service evc id evc-idinterface Router# show ethernet service instance interfaceTroubleshooting Problem SolutionConfiguring Ethernet OAM ContentsConfiguring Ethernet CFM Understanding Ethernet CFMIP SLA Support for CFM 10-2Default Ethernet CFM Configuration Ethernet CFM Configuration Restrictions and GuidelinesConfiguring the CFM Domain Configure terminal Enter global configuration mode10-4 Second, 10 seconds, 1 minute and 10 minutes. The default We do not recommend configuring a large numberIs 2 to 255 the default is Optional Configure the maximum number of MEPsExample for Basic CFM configuration 10-6Configuring Multi-UNI CFM MEPs in the Same VPN RestrictionsExit 10-7Cfm mep domain domain-name mpid identifier 10-8Number ma-number vlan-id vlan-id vpn-id vpn-id Alias alias-short-ma-name icc icc-code meg-id10-9 10-10 10-11 Configuring Ethernet CFM Crosscheck 10-12Configuring Static Remote MEP Continuity-check static rmepStatic 10-13Service ma-name ma-number vpn-id port Configuring a Port MEP10-14 Configuring Snmp Traps 10-15Configuring IP SLA CFM Operation Ethernet echo mpid identifier domain domain-nameEthernet jitter mpid identifier domain domain-name 10-16Repeats. The range is from 1 to 604800 seconds the default Allowed by the protocol being used the default is 66 bytesSeconds to keep the operation in memory when it is not Seconds. The default is 0 seconds10-18 Show the configured IP SLA operation Configuring CFM over EFP with Cross Connect10-19 Configuring CFM over EFP Interface with Cross Connect 10-20Example for untagged Encapsulation 10-21Example for single tag Encapsulation 10-2210-23 Cfm mep domain domain-name mpid mpid-value Configuring CFM with EVC Default Encapsulation10-24 Verifying CFM with EVC Default Encapsulation 10-25Configuring Y.1731 Fault Management Example Configuring CFM with EVC Default EncapsulationDefault Y.1731 Configuration 10-26Configuring ETH-AIS 10-27Configuring ETH-LCK Show ethernet cfm errorShow ethernet cfm smep interface interface-id Ethernet cfm lck link-status global10-29 Managing and Displaying Ethernet CFM Information 10-31 Understanding the Ethernet OAM Protocol 10-32OAM Features Following OAM features are defined by Ieee 802.3ahBenefits of Ethernet OAM 10-33Link Monitoring 10-34This section includes the following topics Setting Up and Configuring Ethernet OAM10-35 Default Ethernet OAM Configuration Restrictions and GuidelinesEnabling Ethernet OAM on an Interface Ethernet oamMs mode active passive timeout seconds Ethernet oam max-rate oampdus min-rate secondsShow ethernet oam status interface interface-id 10-37Enabling Ethernet OAM Remote Loopback Configuring Ethernet OAM Link Monitoring10-38 10-39 Ethernet oam link-monitor frame-period Threshold high high-frames none lowEthernet oam link-monitor frame-seconds 10-40Configuring Ethernet OAM Remote Failure Indications Ethernet oam link-monitor receive-crc thresholdNo ethernet link-monitor on 10-41Configuring Ethernet OAM Templates Dying-gasp link-fault actionError-disable-interface Ethernet oam remote-failure critical-event10-43 Threshold high high-seconds none low Low-seconds window millisecondsEthernet oam link-monitor high threshold action Source-template template-nameDisplaying Ethernet OAM Protocol Information Show ethernet oam discovery interface interface-idShow ethernet oam statistics interface interface-id Show ethernet oam summaryVerifying Ethernet OAM Configuration Verifying Information Oampdu and Fault StatisticsVerifying an OAM Session Verifying OAM Discovery StatusVerifying Link Monitoring Configuration and Status 10-47Understanding E-LMI Verifying Status of the Remote OAM Client10-48 ActiveConfiguring E-LMI Default E-LMI ConfigurationRestrictions 10-49Enabling E-LMI 10-50Configuring Ethernet Loopback Understanding Ethernet LoopbackDisplaying E-LMI Information 10-51Enabling Ethernet Loopback 10-5210-53 10-54 10-55 Configuring Y.1564 to Generate Ethernet Traffic 10-56Internal Mode 10-57Configuring IP SLA for Traffic Generation Routerconfig# ip slaSpecify the SLA ID to start the IP SLA session 10-58Measurement-type direction -Specifies the statistics 10-5910-60 Example Two-Way Measurement 10-6110-62 Prerequisites for ITU-T Y.1731 Performance Monitoring ITU-T Y.1731 Performance Monitoring11-1 Information About ITU-T Y.1731 Performance Monitoring Restrictions for ITU-T Y.1731 Performance Monitoring11-2 Two-way Delay Measurement Frame Delay and Frame-Delay Variation11-3 Frame Loss Ratio On-Demand and Concurrent OperationsSingle-ended ETH-SLM 11-4How to Configure ITU-T Y.1731 Performance Monitoring Benefits of ITU-T Y.1731 Performance MonitoringSupported interfaces 11-5Max-delaymilliseconds Owner owner-id Configuring Two-Way Delay Measurement11-6 Mac-address source-address -Specifies Mac-address target-address -Specifies11-7 Boundary ,...,boundary -Lists upper 11-8Enable Configure terminal Asr901-platf-multi-nni-cfm Configuring Single-Ended Synthetic Loss Measurement11-9 11-10 Mac-addresssource-address-Specifies Mac-addresstarget-address-Specifies11-11 Exits IP SLA Y.1731 loss configuration mode Enters IP SLA configuration modeExits IP SLA configuration mode and enters global Owner-id-Specified the name of the SnmpThreshold-type average Number-of-measurements -Optional WhenNumber-of-measurements argument. The range is Threshold-type consecutiveThreshold-type immediate -Optional When a Scheduling IP SLAs OperationsPrerequisites Threshold-value upper-thresholdIndividual IP SLAs operation Specifies an IP SLAs operation group numberRange of operation numbers to be scheduled for a Multi-operation scheduler11-16 Router# show ip sla configurationRouter-1#show running interface gigabitethernet0/0 Example Verifying Ethernet CFM Performance Monitoring 11-17Router# show ethernet cfm pm session summary Router# show ethernet cfm pm session detail11-18 Example Verifying History for IP SLAs OperationsRouter# show ip sla history interval-statistics Configuring Direct On-Demand Operation on a Sender MEP 11-19Configuring Referenced On-Demand Operation on a Sender MEP 11-20Example On-Demand Operation in Direct Mode 11-2111-22 Example On-Demand Operation in Referenced ModeRouter# ip sla on-demand ethernet slm 2002 duration Releases, and feature sets, use Cisco MIB Locator found at Ieee 802.1ag ITU-T Y.1731 MEFFollowing URL 11-2311-24 Feature Name Releases Feature Information 11-2511-26 Configuring Resilient Ethernet Protocol Understanding Resilient Ethernet Protocol REPOverview 12-112-2 REP Open Segments12-3 No-neighbor TopologyLink Integrity Fast ConvergenceVlan Load Balancing VLB 12-412-5 Neighbor Offset Numbers in a SegmentREP Ports 12-6Configuring Resilient Ethernet Protocol REP Default REP ConfigurationREP Configuration Guidelines 12-712-8 Configuring the REP Administrative Vlan 12-9Configuring REP Interfaces 12-10Routerconfig# interface Gigabitethernet0/1 Service instance instance-idEnter the physical Layer 2 interface or port channel ID. Port-channel range is 1 to12-12 12-13 File Verifies the REP interface configuration12-14 Configuring REP as Dual Edge No-Neighbor Port 12-1512-16 Primary preferred Rep segment segment-id edge no-neighbor12-17 76001 Cisco ASR 901 Dual Rep Edge No-Neighbor Topology Example12-18 76002 12-19Setting up Manual Preemption for Vlan Load Balancing 12-20Configuring Snmp Traps for REP 12-21Monitoring REP Trap-rate command12-22 12-23 Configuration Examples for REP Configuring the REP Administrative Vlan ExampleConfiguring a REP Interface Example This section contains the following examplesSetting up the Preemption for Vlan Load Balancing Example Configuring Snmp Traps for REP ExampleMonitoring the REP Configuration Example 12-25Cisco ASR 901 Topology Example 12-26ASR2 12-2712-28 12-29 12-30 Overview of MST and STP Configuring MST on EVC Bridge Domain13-1 Restrictions and Guidelines Overview of MST on EVC Bridge Domain13-2 13-3 MST0Configuring MST on EVC Bridge Domain 13-4Slot/port-Specifies the location of the interface Specifies the gigabit ethernet interface to configure13-5 Verification Configuration Example for MST on EVC Bridge Domain13-6 13-7 Router# show spanning-tree vlan13-8 This example shows MST on port channelsRouter# show spanning-tree mst Troubleshooting Tips 13-913-10 Configuring Multiprotocol Label Switching 14-114-2 Understanding EoMPLS Configuring EoMPLS15-1 Configuring EoMPLS 15-2EoMPLS Configuration Example 15-3Configuring Pseudowire Redundancy Configuration CommandsSpecifies an interface to configure Configures encapsulation type for the service instanceConfigure terminal Enters global configuration mode Example Port Based EoMPLSShow mpls l2t vc id 15-5Routerconfig# xconnect Encapsulation mpls 15-6Understanding Mpls VPNs Configuring Mpls VPNs16-1 Configuring Mpls VPNs Configuration Examples for Mpls VPNPE1 Configuration 16-2Configuring Mpls VPNs Configuration Examples for Mpls VPN 16-316-4 Provider Configuration 16-5Interface details PE2 Configuration16-6 Ospf and BGP details 16-7Loop Back details 16-816-9 16-10 Configuring Mpls OAM Understanding Mpls OAMLSP Ping 17-1Configuring Mpls OAM LSP Ping over PseudowireLSP Traceroute 17-2Using LSP Ping for LDP IPv4 FEC Using LSP Traceroute for LDP IPv4 FECUsing LSP Ping for Pseudowire Ping mpls ipv4Using LSP Traceroute over Pseudowire Displaying AToM Vccv capabilitiesShow mpls l2transport binding vcid Vc-id-valueConfiguring Routing Protocols Changing Default Hashing Algorithm for EcmpAsr901-ecmp-hash-config global-type 18-118-2 Understanding BFD Configuring BFD19-1 BFD Configuration Guidelines and Restrictions Configuring BFD for OspfConfiguring BFD for Ospf on One of More Interfaces Enables BFD for Ospf on the interfaceConfiguring BFD for Ospf on All Interfaces Creates a configuration for an Ospf processSpecifies the BFD session parameters ProcessConfiguring BFD for BGP Configuring BFD for IS-ISConfiguring BFD for IS-IS on a Single Interface 19-4Configuring BFD for IS-IS for All Interfaces 19-5Configuring BFD for Static Routes 19-6Configuration Examples for BFD BFD with Ospf on All InterfacesBFD with Ospf on Individual Interfaces 19-7BFD with BGP BFD with IS-IS on All InterfacesBFD with IS-IS on Individual Interfaces 19-8BFD with Static Routes 19-919-10 Configuring the Card Type Configuring T1/E1 Controllers20-1 Subslot Configuring E1 Controllers20-2 Channel-group channel-no timeslots timeslot-list 64 command 20-3Configuring T1 Controllers 20-4Troubleshooting E1 Controllers Troubleshooting Controllers20-5 Troubleshooting T1 Controllers Payload loopback mode of the framer. The framer re-clocksReceiver Incoming traffic20-7 Path to the receiver pathLocal line 20-8 Configuring Pseudowire 21-1Structure-Agnostic TDM over Packet Understanding Pseudowires21-2 Hot Standby Pseudowire Support for ATM/IMA Transportation of Service Using Ethernet over MplsLimitations 21-3Configuring Pseudowire Configuring Pseudowire ClassesXconnect ip pw-class pseudowire-class Cem group-number21-5 Configuring CEM Classes Class cem cem-class-nameCem group-number Cem class cem-class-name Xconnect ip-addressencapsulation mpls21-7 Configuring a Backup Peer Enable Configure terminal Interface cemslot/portSpecifies the CEM class name Xconnect peer-loopback-ip-addressencapsulation mplsXconnect ip-addressencapsulation mpls Exit Configuring Structure-Agnostic TDM over Packet21-9 30.30.30.2 255.255.255.255 21-10Configuring a SAToP Pseudowire with UDP Encapsulation Pseudowire-classpseudowire-class-nameXconnect peer-router-id vcid pseudowire-class name Udp port local-udp-port remote remote-udp-port21-12 Values for SAToP pseudowires using UDP are from Exits the configuration modeRemote peer Exits the CEM interfaceEnable Configure terminal Controller e1 t1 slot/port Cem-groupgroup-number timeslots timeslotExit Interface CEMslot/port Xconnect ip-addressencapsulation mpls Exit EndConfiguring a CESoPSN Pseudowire with UDP Encapsulation Exits configuration modeDefines a CEM channel Recommend that you build a route from the xconnect addressUdp port local localudpport remote remoteudpport Exits pseudowire-class configuration mode21-16 21-17 QoS for CESoPSN over UDP and SAToP over UDP 21-18Service instance instance-number Although the symmetric keyword appears to be optional, you21-19 Xconnect ip-addressencapsulationConfiguring L2VPN Pseudowire Redundancy Selects an E1 or T1 controllerCreates a CEM interface and assigns it a CEM group number 21-2021-21 Configuring ATM/IMA Pseudowire Redundancy in PVC Mode Example Pseudowire RedundancyBackup peer peer-router-ip-addr vcid Interface interface-name21-23 Configuring ATM/IMA Pseudowire Redundancy in PVP Mode Or more virtual circuits VCsVpi-ATM network virtual path identifier VPI of the VC to Multiplex on the permanent virtual pathTransport over Mpls AToM static pseudowire Configuring ATM/IMA Pseudowire Redundancy in Port Mode21-25 Verifying Hot Standby Pseudowire Support for ATM/IMA Peer-router-ip-addr-IP address of the remote peer router21-26 Router# show mpls l2transport vcTDM Local Switching 21-27Configuring TDM Local Switching on a T1/E1 Mode 21-28Verifying Local Switching Configuration Example for Local Switching21-29 ATM/IMA 21-30Example TDM over Mpls Configuration-Example Configuration Examples for Pseudowire21-31 21-32 Asrb 21-33Example CESoPSN with UDP Following configuration uses CESoSPN with UDP encapsulation21-34 Example Ethernet over Mpls 21-3521-36 Feature Information for Configuring Pseudowire 21-3721-38 Restrictions Configuring Clocking22-1 Configuring Network Clock for Cisco ASR 901 Router 22-2Configuring Network Clock in Global Configuration Mode 22-322-4 Example for GPS interface 22-5Configuring Network Clock in Interface Configuration Mode 22-6Understanding SSM and Esmc Synchronization Status MessageEthernet Synchronization Messaging Channel Clock Selection AlgorithmConfiguring Esmc in Global Configuration Mode QL-disabled modeEsmc behavior for Port Channels Esmc behavior for STP Blocked PortsConfiguring Esmc in Interface Configuration Mode 22-9Show esmc Verifying Esmc Configuration22-10 Managing Synchronization Show network-clock synchronization22-11 Router#show esmc interface gigabitEthernet 0/10Synchronization Example 22-12Configuring Synchronous Ethernet for Copper Ports Verifying the Synchronous Ethernet configurationConfigures synchronous ethernet copper port as slave Configures synchronous ethernet copper port as master22-14 22-15 Troubleshooting Tips Synchronization detail RP command to confirmShown in this example 22-16Troubleshooting Esmc Configuration 22-17Configuring PTP for the Cisco ASR 901 Router 22-18Setting System Time to Current Time Configuring PTP Ordinary ClockConfiguring Master Ordinary Clock 22-19Priority1 priority-value Priority2 priority-value 22-20Configuring Slave Ordinary Clock 22-21Clock source source-address 22-2222-23 22-24 Configuring PTP in Unicast Mode Configuring PTP in Unicast Negotiation ModePort Name Port RoleConfigures Cisco ASR 901 router on unicast Configured with this commandPTP Boundary Clock Negotiation mode. The following options can beClock-port port-namemaster Configuring PTP Boundary Clock22-27 22-28 Exits clock port configuration mode Verifying PTP modesOrdinary Clock 22-29Router# show ptp clock dataset default Boundary Clock22-30 Router# show ptp clock dataset time-properties domain22-31 Verifying PTP Configuration on the 1588V2 SlaveRouter# show ptp clock runn dom Verifying PTP Configuration on the 1588V2 Master Typical configuration on a 1588V2 master is22-32 Router# show ptp clock running domain22-33 PTP Hybrid Clock Configuring a Hybrid Ordinary Clock22-34 Hybrid-Optional Enables the PTP boundary clock To work in hybrid mode. Enables the hybrid clock suchThat the output of the clock is transmitted to the remote Slaves22-36 Configuring a Hybrid Boundary Clock 22-37Verifying Hybrid modes Router# show running-config section ptp22-38 22-39 SSM and PTP InteractionRouter#show platform ptp channelstatus ClockClass Mapping PTP RedundancyTelecom Profiles 22-40Configuring Telecom Profile in Slave Ordinary Clock Clock source source-address priorityEnd 22-4122-42 Configuring Telecom Profile in Master Ordinary Clock 22-43Verifying Telecom profile Timing packets with a PTP slave devices22-44 Router#show ptp port running detail22-45 Router#show ptp clock running domainSetting the TimeProperties Static Unicast ModeASR901 Negotiation Mechanism 22-46Configuring ToD on 1588V2 Slave 22-4722-48 Cisco IOS IP SLA Configuring Ipsla Path Discovery23-1 Configuration Parameters 23-2Example for Ipsla Path Discovery 23-323-4 This example shows the LPD parameter values configuredRouter#show ip sla mpls-lsp-monitor neighbors Two-Way Active Measurement Protocol 23-5Configuring Twamp 23-6Configuring the Twamp Server Enable Configure terminal Ip sla server twampPort port-number 23-7Configuring the Twamp Reflector Configuration Examples for TwampConfigures the switch as a Twamp responder, and enter Twamp 23-8Example Configuring the Router as an IP SLA Twamp server Example Configuring the Router as an IP SLA Twamp ReflectorRouterconfig# ip sla server twamp Routerconfig# ip sla responder twamp23-10 Configuring QoS 24-1Understanding QoS 24-2Default QoS for Traffic from Internal Ports Default QoS for Traffic from External Ethernet Ports24-3 Modular QoS CLI 24-4Input Policy Maps Input and Output Policies24-5 Output Policy Maps Access Control Lists24-6 Classification 24-7Class Maps Match Command24-8 Classification Based on Layer 2 CoS Classification Based on IP PrecedenceClassification Based on IP Dscp 24-9Classification Comparisons This display shows the available classification optionsPer-hop Decimal Precedence CoS 24-10Traffic Type Per-hop Decimal Precedence CoS Classification Based on QoS Groups24-11 Classification Based on Vlan IDs 24-12Table Maps 24-13Policing 24-14Gigabitethernet port Individual Policing24-15 Unconditional Priority Policing 24-16Configuration Example Routerconfig# policy-map policy1Egress Policing 24-17Marking Routerconfig# policy-map Example24-18 Traffic Shaping Congestion Management and Scheduling24-19 Routerconfig# policy-map out-policy Routerconfig# policy-map out-policy-parentRouterconfig-pmap-c#service-policy out-policy 24-20Class-Based Weighted Fair Queuing This is an example of a parent-child configurationRouterconfig# policy-map parent 24-21Routerconfig-pmap-c#bandwidth remaining percent 24-22Priority Queuing 24-23Routerconfig# policy-map pmapbckbone Ingress and Egress QoS FunctionsIngress QoS Functions 24-24Configuring Quality of Service QoS QoS LimitationsEgress QoS Functions 24-25Statistics Limitations General QoS Limitations24-26 Propagation Limitations Classification LimitationsGigabitEthernet ValueMarking Limitations 24-28Congestion Management Limitations Precedence Prec-transmit Qos-groupQueuing Limitations Rate Limiting LimitationsACL-based QoS Restrictions Policing withShaping Limitations 24-30Improving Feature Scalability QoS for MPLS/IP over MlpppTcam with QoS QoS for CPU Generated TrafficQoS Configuration Guidelines 24-32Sample QoS Configuration 24-33Configuring Classification Enter the passwordCreating a Class Map for Classifying Network Traffic 24-3424-35 Attaching the Policy Map to an Interface 24-36Attaching Policy Map to Cross Connect EVC 24-37Configuring Marking 24-38Creating a Class Map for Marking Network Traffic 24-39Traffic Attributes Network Layer Protocol Set cosSet dscp Set qos-groupConfiguring Mpls Exp Bit Marking using a Pseudowire Specify an EVCSpecify an encapsulation type for the EVC 24-41Configuring Congestion Management Configuring Low Latency Queueing LLQUse the policy-mapcommand to define a policy map 24-42Policy-map interface commands to verify your configuration Configuring Multiple Priority Queueing24-43 24-44 Configuring Class-Based Weighted Fair Queuing Cbfq Use the exit command to exit class map configurationUse the exit command to exit the policy map configuration 24-45Weighted Random Early Detection Wred Amount of bandwidthThis step is optional 24-46Configuring Shaping No random-detect discard-class-basedNo random-detect discard-class value 24-47Configuring the Secondary-Level Child Policy Map 24-48Creating IP Extended ACLs Configuring Ethernet Trusted Mode24-49 Using Class Maps to Define a Traffic Class Class-map match-all match-anyClass-map-name 24-50Match cos cos-list ip dscp dscp-list Ip precedence ip-precedence-listQos-group value vlan vlan-list Show class-mapCreating a Named Access List Match access-group name access-group-namePermit source source-wildcard any log Class-mapclass-map-nameWhat to do Next 24-53Router# show ip access-lists tcam1 Tcam with ACL24-54 Router# show run int gig 0/1Verifying Named Access List Router# show access-lists tes45624-55 Router# show policy-map interface gigabitethernet 0/0Router# show running-config Configuration Example for Named Access List24-56 24-57 Class-map match-any test24-58 24-59 24-60 24-61 QoS Treatment for Performance-Monitoring Protocols Cisco IP-SLAsQoS Treatment for IP-SLA Probes QoS Marking for CPU-Generated TrafficQoS Queuing for CPU-Generated Traffic 24-63Configuring Class-map for Matching Mpls EXP Bits To enter QoS class-map configuration modeExtending QoS for Mlppp Class in the policy mapMatch ip dscp dscp-value...dscp-value Configuring Class-map for Matching IP Dscp Value24-65 This configuration packets with IP Dscp of value af11 are Dscp-value-The Dscp value used to identify a Dscp value24-66 Match ip dscpConfiguring a Policy-map 24-67Class class-default Bandwidth percent bandwidth-percent ExitExampleclass 24-68Value in the type of service ToS byte Bits defined by the policy mapDscp-value-The Dscp value used to identify a Dscp 24-69Enable Configure terminal Interface multilink group-number Attaching the Policy-map to Mlppp InterfaceIp address address subnet mask 24-7024-71 Re-marking IP Dscp Values of CPU Generated Traffic 24-72Re-marking Mpls EXP Values of CPU Generated Traffic Generated trafficAre 0 to 24-73Configuring a Policy-map to Match on CS5 and EXP4 Class and enters QoS class-map configuration modeBandwidth percent bandwidth-percent Set ip dscp dscp-value Class-map-name-The name used for class mapValue in the type of service ToS byte As a match criterionCs-value-The Class SelectorCS value Class-map-name-Name of the class for the class mapExits QoS policy-map class configuration mode Configuring Class-map for Matching Mpls EXP Bits24-76 Configuring Class-map for Matching IP Dscp Value Configuring a Policy-mapFollowing example shows a configuration of a policy-map 24-77Attaching the Policy-map to Mlppp Interface Configuring a Policy-map to Match on CS5 and EXP24-78 Verifying Mpls over Mlppp Configuration 24-7924-80 Troubleshooting Tips 24-8124-82 Example Tcam troubleshooting related error 24-8324-84 Routerconfig-if-srv#service-policy input policy2Entries used 256/256 no free entries available We now have enough free entries to configure policy2 Routerconfig-if-srv#no service-policy input policy1Entries used 195/256 after unconfiguring policy1 24-85Entries used 220/256 after configuring policy2 24-86Related Topic Document Title 24-87Feature Information for Configuring QoS 24-88Configuring Mlppp 25-1Mlppp Optimization Features PrerequisitesDistributed Multilink Point-to-Point Protocol Offload Mpls label protocol ldpMpls over Mlppp Multiclass Mlppp25-3 Mpls Label imposition LER Mpls Label switching LSR 25-4Mpls over Mlppp on CE to PE Links Mpls over Mlppp on Core Links25-5 Configuring Mlppp Backhaul Configuring the Card Type, E1 and T1 ControllersConfiguring a Multilink Backhaul Interface Creating a Multilink BundleConfiguring Mrru Example configures an IP address and subnet maskExample creates a multilink bundle 25-7Remote apply, pfc local request, and pfc remote apply Configuring PFC and Acfc25-8 25-9 Configuration requests Requests. The syntax is as followsAcfc option are not accepted 25-10Keepalive period retries Enabling Multilink and Identifying the Multilink Interface25-11 Ppp multilink group group-number 25-12Ppp multilink idle-link Ppp multilink queue depth Mlppp Offload25-13 Configuring Mpls over the Mlppp on a Serial Interface Configuring Additional Mlppp SettingsPpp multilink Ppp multilink group group-number Exit 25-1425-15 Configuring Mpls over Mlppp for Ospf Number, and enters the interface configuration mode25-16 Interface multilink group-number25-17 Configuration Examples for Mpls over Mlppp 25-18Verifying Mpls over Mlppp Configuration 25-19Router# ping mpls ipv4 6.6.6.6/32 Router# show mpls ldp bindings 6.6.6.625-20 25-21 Feature Information for Mlppp 25-22Onboard Failure Logging Understanding ObflRetrieval of the Obfl message Recording Obfl MessagesVerifying Obfl Configuration Configuring Obfl26-2 26-3 Clilog summary26-4 27-1 Text Authentication Information About Hsrp and VrrpOverview of Hsrp and Vrrp PreemptionHow to Configure Hsrp Configuring HsrpComplete the following steps to configure Hsrp Standby group-numberauthentication text string27-4 Configuration Examples for Hsrp Example Configuring Hsrp Active RouterExample Configuring Hsrp Backup Router 27-5How to Configure Vrrp Example Hsrp Text AuthenticationConfiguring Vrrp Interface type number Ip ip-address maskVrrp group-numberpriority level Vrrp group-numberauthentication text string27-7 Configuration Examples for Vrrp Example Configuring a Vrrp Master RouterExample Configuring a Vrrp Backup Router 27-8Example Vrrp Text Authentication 27-927-10 Feature Information for Hsrp and Vrrp 27-1127-12 Configuring Link Layer Discovery Protocol 28-1How to Configure Lldp Configuring LldpRestrictions for Lldp Overview of Lldp28-3 Configuration Example for Lldp Example Configuring Hold TimeVerifying Lldp Example Enabling Lldp GloballyExample Configuring Intervals Example Configuring Delay Time28-5 28-6 28-7 Feature Information for Lldp 28-8Configuring Multihop Bidirectional Forwarding Detection 29-1How to Configure Multihop BFD Configuring Multihop BFD TemplateRestrictions for Multihop BFD Information About Multihop BFD29-3 Configuration Examples for Multihop BFD Configuring a Multihop BFD MapExample Configuring Multihop BFD Configuration for Router aConfiguration for Router B 29-5Interface Fast Ethernet 0/1 Interface Fast Ethernet 6/029-6 Feature Information for Multihop BFD 29-729-8 Prerequisites Bit Error Rate Testing30-1 Bert Pattern Description How to Configure Bert30-2 Enable Configure terminal Controller t1 e1 slot/port Performing Bert on a T1/E1 LineTerminating Bert on a T1/E1 Controller 30-3Routerconfig-controller# no bert pattern Verifying Bert on a T1/E1 ControllerNo bert pattern pattern interval time 30-4Following is a sample configuration of the Bert feature 30-5Feature Information for Bit Error Rate Testing 30-630-7 30-8 Microwave ACM Signaling and EEM Integration 31-131-2 QoS Policy Adjustment IGP Metric AdjustmentBenefits Link RemovalBridge-domainbridge-domain-id Configuring Connectivity Fault Management31-4 31-5 31-6 Configuring EEP Applet Using CLIs 31-731-8 Configuring Event Handler Exits applet configuration modeAn EEM applet is triggered 31-931-10 Example Configuring CFM Example Configuring EEP AppletFollowing is a sample configuration of CFM 31-1131-12 Action 104 set n $ringnodes31-13 Action 442 cli command isis metric $dlc 31-14Following is a sample configuration of Event Handler Example Configuring Event Handler31-15 Cisco ASR 901 Router Commands CFM Support for Microwave AdaptiveBandwidth Transport Integration with Microwave ACM 31-1631-17 31-18 IPv6 Support on the Cisco ASR 901 Router 32-1Prerequisites for IPv6 Support on the Cisco ASR 901 Router 32-2Benefits Overview of IPv6IPv6 Address Formats 32-3Static Configuration IPv6 Addressing and DiscoveryIPv6 Address Type Preferred Format Compressed Format 32-4ICMPv6 Stateless Autoconfiguration32-5 IPv6 Duplicate Address Detection IPv6 Neighbor DiscoveryIPv4 and IPv6 Dual-Stack on an Interface 32-6Routing Protocols Bidirectional Forwarding Detection for IPv6IS-IS Enhancements for IPv6 OSPFv3 for IPv6QoS for IPv6 Configuring IPv6 Addressing and Enabling IPv6 Routing32-8 32-9 Configuring a Static IPv6 Route Global configuration modeEnables the forwarding of IPv6 unicast datagrams Enables Cisco Express Forwarding CEF globally onEnabling Stateless Auto-Configuration Administrative-multicast-distance -OptionalIpv6 address autoconfig 32-11Implementing IPv6 on Vlan Interfaces Ipv6 enable or32-12 Implementing IPv6 Addressing on Loopback Interfaces 32-13Enable Configure terminal Ipv6 icmp error-interval interval Configuring ICMPv6 Rate Limiting32-14 Ipv6 nd dad attempts value Configuring IPv6 Duplicate Address Detection32-15 Configuring IPv6 Neighbor Discovery 32-16Configuring IPv6 and IPv4 Dual-Stack on the Same Vlan 32-17Configuring OSPFv3 for IPv6 Configures an IPv4 address on the interfaceConfigures IPv6 address on the interface Enables IPv6 address on the interfaceConfiguring IS-IS for IPv6 Enable Configure terminal Router isis area-tagNet network-entity-tag Ipv6 router isis area-name32-20 Configuring Multiprotocol-BGP for IPv6 32-21Specifying a Static BFDv6 Neighbor Configuring BFD for IPv632-22 Interface-number -SVI name Associating an IPv6 Static Route with a BFDv6 Neighbor32-23 32-24 Configuring BFDv6 and OSPFv3 32-25Configuring BFDv6 for BGP 32-26Exits global configuration mode and enters privileged Exec modeImplementing QoS for IPv6 Verifying IPv6 Addressing Routing32-28 Verifying a Static IPv6 RouteRouter# show ipv6 route Verifying a Stateless Auto-Configuration Verifying IPv6 Implementation on Vlan Interfaces32-29 Router# show ipv6 interface loopbackVerifying ICMPv6 Configuration Verifying IPv6 Implementation on Loopback Interfaces32-30 Router# show ipv6 interface loopback032-31 Router# show ipv6 trafficVerifying IPv6 Duplicate Address Detection Configuration 32-32Verifying IPv6 Neighbor Discovery Configuration Verifying IPv6 and IPv4 Dual-Stack Configuration32-33 Router# show ipv6 neighbors detailVerifying OSPFv3 for IPv6 Configuration As shown in the example32-34 Router# show ipv6 ospfVerifying IS-IS for IPv6 Configuration Verifying Multiprotocol-BGP for IPv6 Configuration32-35 Router# show isis ipv6 rib32-36 BGP32-37 Verifying BFD for IPv6 ConfigurationRouter# show bfd neighbors Verifying BFDv6 and OSPFv3 Configuration 32-38Verifying BFDv6 for BGP Configuration 32-39Example Configuring IPv6 Duplicate Address Detection Example IPv6 Addressing on Vlan InterfacesExample IPv6 Addressing on Loopback Interfaces Example Customizing ICMPv6Example Configuring IPv6 Neighborhood Discovery Example Enabling IPv6 Stateless Address AutoconfigurationExample Configuring the IPv4 and IPv6 Dual-Stack Example Configuring IPv6 Static RoutingExample Configuring BFD and Static Routing for IPv6 Example Configuring OSPFv3 for IPv6Example Configuring BFD and OSPFv3 for IPv6 Following is a sample configuration of OSPFv3 for IPv6Following is a sample configuration of IS-IS for IPv6 Example Configuring IS-IS for IPv632-43 Example Configuring Multiprotocol-BGP for IPv6 32-44Example Configuring BFD and Multiprotocol-BGP for IPv6 32-45No ipv6 nd suppress-ra command to enable Debug Commands Show Commands Platform Hardware CommandsRoute advertisement messages. Also, define a Valid prefix pool for IPv632-47 32-48 32-49 Chapter of the IPv6 Configuration Guide provide 32-50Aggregation Services Router Software Configuration Guide BGP for IPv6 chapter of the IPv6 Configuration Guide32-51 32-52 Labeled BGP Support 33-1How to Configure Labeled BGP Support Overview of Labeled BGP SupportVPN/VRF over RFC 33-2Send-label option Configuration Example for Labeled Support33-3 Verifying Labeled BGP Support 33-4Router# show bgp ipv4 unicast labels Labels33-5 Vpnv4 all labelVpnv4 vrf LTE12 label Router# show ip cef vrf LTE12 113.22.12.0 internal33-6 Carrying Label Information in BGP-4 RFC-310733-7 Feature Information for Labeled BGP Support 33-8Mpls Traffic Engineering Fast Reroute Link Protection 34-134-2 R2 R3 BFD-triggered Fast Reroute34-3 Link Protection Fast Reroute34-4 Enables Mpls TE tunnel signaling on the specified interface Enabling Mpls TE-FRR on an SVI InterfaceEnabling Mpls TE-FRR for EoMPLS on a Global Interface Mpls traffic-eng tunnelsPseudowire-class pw-class-name 34-6Xconnect peer-ip-address vc-id pw-classpw-class-name Enabling Mpls TE-FRR for EoMPLS on an Interface34-7 34-8 Enabling Mpls TE-FRR for IS-IS 34-934-10 Configuring Primary One-hop Auto-Tunnels 34-1134-12 Configuring Backup Auto-Tunnels 34-13Mpls ldp discovery targeted-hello accept command 34-14Ip rsvp signalling hello bfd Enabling BFD Triggered FRR on an SVI InterfaceMessages from all neighbors 34-15Configuration mode Enable Configure terminal Ip rsvp signalling hello bfdEnabling BFD Triggered FRR on a Router 34-16Verifying Mpls TE-FRR Configuration Verification Examples34-17 Router# show mpls traffic-eng tunnels briefUse the following command to verify the reservation detail Router# show mpls traffic-eng tunnels backup34-18 Router# show mpls traffic-eng fast-reroute databaseVerifying Backup Auto-Tunnels Verifying Primary One-hop Auto-Tunnels34-19 Router# show ip rsvp fast-rerouteVerifying BFD Triggered FRR Configuration 34-2034-21 Database34-22 Router# show ip rsvp hello34-23 Router# show ip rsvp interface detailRouter# show ip rsvp hello bfd nbr Router# show ip rsvp hello bfd nbr detailExample Configuring Mpls TE-FRR Example Configuring Primary One-hop Auto-TunnelsExample Configuring Backup Auto-Tunnels Example Configuring BFD Triggered FRRMpls TE FRR 34-2534-26 34-27 34-28 Layer 2 Control Protocol Peering, Forwarding, and Tunneling 35-1Layer 2 Control Protocol Tunneling Layer 2 Control Protocol Forwarding35-2 35-3 Configuring Layer 2 Peering Default Action Configuration OptionL2protocol peer protocol 35-4Configuring Layer 2 Forwarding 35-5Routerconfig-if# l2proto-forward tagged Cdp Routerconfig-if# service instance EthernetProtocol-Specifies the protocol to be forwarded 35-6Configuring Layer 2 Tunneling 35-7L2protocol tunnel protocol Bridge-domain bridge-id 35-8Verifying Layer 2 Peering Verifying Layer 2 ForwardingVerifying Layer 2 Tunneling 35-9Example Configuring Layer 2 Peering Example Configuring Layer 2 ForwardingFollowing is a sample configuration of layer 2 peering 35-10Example Configuring Layer 2 Tunneling 35-11Router 35-1235-13 Commands Cisco IOS LAN Switching Commands 35-14Following command was introduced l2proto-forward 35-1535-16 Configuring Inverse Muliplexing over ATM 36-1How to Configure IMA 36-2Configuring ATM IMA on T1/E1 Interface Ima-groupima-group-numberInterface ATMslot-number/IMAima-group-number No ip address Atm bandwidth dynamic No atm ilmi-keepaliveConfiguring the T1/E1 Controller Configuring ATM IMA over Mpls36-4 Configuring an ATM IMA Interface Clock source internalIma-groupgroup-number 36-5Configuring ATM over Mpls Pseudowire Interface Disables the Ilmi keepalive parametersYou can configure ATM over Mpls in the following modes 36-6Configuring a Port Mode Pseudowire Configuring an N-to-1 VCC Cell ModeConfigures the ATM interface 36-7Configuring an N-to-1 vPC Cell Mode Enable Configure terminal Interface ATMslot/IMAgroup-numberXconnect ip-addressport-numberencapsulation mpls one-to-one 36-8ATM AAL5 SDU VCC Transport 36-9Verifying IMA Configurations Sets the encapsulation type to AAL5. AAL5 is the defaultL2transport encapsulation for the VCC mode 36-10How to Configure ATM Class of Service Configuring Constant Bit RateEnters the global configuration mode 36-11Mode Configuring Unspecified Bit Rate36-12 Configuring Unspecified Bit Rate Plus ATM class of service with the rate equal to the bandwidthIMA links and the bandwidth of each link Ubr+ pcr-rate mcr-rateConfigures the UBR+ QoS class for an ATM permanent virtual Circuit and specifies the bandwidthPcr-rate-Peak cell rate in Kbps Mcr-rate-Peak cell rate in MbpsConfiguration Examples Example Configuring a Port Mode PseudowireExample Creating an IMA Interface 36-15Example Configuring an N-to-1 VCC Cell Mode Example Configuring an N-to-1 VPC Cell ModeExample Configuring CBR Example Configuring UBRConfiguring Marking Mpls Experimental Bits Example Configuring UBR PlusExample Configuring VBR for Real Time Traffic Example Configuring VBR for Non-Real Time TrafficApplying a Policy map on PVC and PVP Applying the Policy-map36-18 Disables the Ilmi trap parameters Sets the PVC encapsulation type to AAL0Attaches a policy map to the input interface 36-19Applying a Policy map on ATM IMA Interface 36-20Creating a Table-map Table-maptable-map-name36-21 Interface ATM slot/IMA group-numberDefault copy Creating a Policy-map for SVI InterfaceMap from from-value to to-value 36-22Mpls ip Service-policy output policy-map-name Applying a Service Policy on SVI Interface36-23 36-24 36-25 Feature Information for Inverse Multiplexing over ATM 36-26IPv6 over Mpls 6PE and 6VPE 37-137-2 IPv6 on Provider Edge Routers Benefits of 6PE and 6VPE37-3 IPv6 on VPN Provider Edge Routers Components of MPLS-based 6VPE NetworkIPv6 router on the customer PE equipment, connected to CEs and entrySupported Features 37-5How to Configure IPv6 over Mpls 6PE and 6VPE Configuring 6PEScalability Numbers Interface NumbersExit-address-family Address-family ipv637-7 37-8 Setting up IPv6 Connectivity from PE to CE Routers Configuring 6VPE37-9 Setting up MP-BGP Peering to the Neighboring PE VRF table for an IPv6 addressVrf-name-Optional a specific VRF table for an IPv6 37-10Places the router in address family configuration mode for Enable the exchange of information with a BGP neighborAddress prefixes Extended-Specifies that only extended communities will beSetting up MPLS/IPv4 Connectivity with LDP 37-12Creating IPv6 VRFs on PE Routers 37-13To configure dual-stack VRF, complete the following steps Sessions that use standard IPv4 address prefixes37-14 Address-family ipv4Verifying IPv6 over Mpls 6PE and 6VPE Configuration 37-15Router# show bgp vpnv6 unicast all Router# show ipv6 protocols vrf vpe137-16 Router# show ipv6 cef vrf cisco1Router# show ipv6 route vrf 37-17Router# show mpls forwarding-table vrf vpe1 Example Configuring 6PE Following is a sample configuration of 6PE37-18 Router# show bgp ipv6 200133/64Following is a sample configuration of 6VPE Example Configuring 6VPE37-19 37-20 Feature Information for IPv6 over Mpls 6PE and 6VPE 37-2137-22 Storm Control 38-1Configuring Storm Control 38-238-3 Verifying Storm Control 38-4Configuring Error Disable Recovery Errdisable recovery cause38-5 Storm-controlMonitoring Error Disable Recovery Seconds-Specifies the time to recover from a specifiedError-disable cause Cause38-7 Configuration Example for Storm ControlRouter# debug platform hardware ether SC 38-8 Feature Information for Storm Control 38-938-10 Remote Loop-Free Alternate Fast Reroute 39-139-2 39-3 Remote LFA-FRR Link ProtectionPseudowire Redundancy over FRR Benefits of Remote LFA-FRRAvoiding Traffic Drops 39-4CESoPSN, SAToP, and ATM/IMA Conditions for Switchover39-5 Configuring Remote LFA-FRR for IS-IS 39-6Switch Virtual Interface SVI Specifies an IP address for the specified interface39-7 Ip router isis39-8 Configuring Remote LFA-FRR for Ospf 39-939-10 Enables the Ospf routing protocol and enters the routerRouter ospf Enables Mpls LDP synchronization on interfaces for an Ospf Configuring Remote LFA-FRR for Ethernet and TDM Pseudowires39-11 Configuring Remote LFA-FRR on a Global Interface Accept-Configures the router to respond to requests forTargeted hello messages from all neighbors 39-12Configuring Remote LFA-FRR on a GigabitEthernet Interface 39-13Configuring Remote LFA-FRR on an SVI Interface 39-14Configuring Remote LFA-FRR on IS-IS 39-15Passive-interfaceinterface-type interface-number 39-1639-17 39-18 Configuring LFA-FRR for EoMPLS Disables sending routing updates on an interfaceBackup peer peer-ip-address vc-id 39-19Removes an IP address or disables IP processing Enables automatic negotiation39-20 Negotiation autoConfiguring LFA-FRR for ATM/IMA 39-2139-22 Configuring LFA-FRR for CESoPSN Backup peer peer-ip-addressExit Interface CEM slot/port No ip address 39-2339-24 Exit Interface CEM slot/port Configuring LFA-FRR for SAToP39-25 39-26 Verification Examples for Remote LFA-FRR 39-27Verifying Remote LFA-FRR Configuration 39-28Router# show ip ospf fast-reroute remote-lfa tunnels Router# show ip cef 171.1.1.0 internalRouter# show ip ospf rib 39-29Router# show isis fast-reroute remote-lfa tunnels Router# show isis rib 39-30Router# show mpls l2transport vc 1 detail 39-31 39-32 Router# show mpls l2transport vc 3001 detailVerifying Remote LFA-FRR Configuration on IS-IS Verifying Remote LFA-FRR Configuration on ATM/IMA39-33 Router# show mpls l2 vc 90 detail39-34 Verifying Remote LFA-FRR Configuration on CESoPSNRouter# show mpls l2 vc 111 detail Verifying Remote LFA-FRR Configuration on SAToP Configuration Examples for Remote LFA-FRR39-35 Example Configuring Remote LFA-FRR for IS-IS Example Configuring Remote LFA-FRR for OspfExample Configuring Remote LFA-FRR Globally 39-36Example Configuring Remote LFA-FRR on an SVI Interface Example Configuring EoMPLS Pseudowire Redundancy over FRRExample Configuring LFA-FRR on ATM/IMA 39-37Example Configuring LFA-FRR on SAToP Example Configuring LFA-FRR on CESoPSN39-38 39-39 Reroute, 39-40Digital Optical Monitoring 40-1How to Enable Transceiver Monitoring Enters transceiver type configuration modeRouterconfig# transceiver type all 40-2Show interfaces transceiver command ExamplesExample Displaying Transceiver Information 40-340-4 Example Displaying Detailed Transceiver InformationRouter# show interfaces transceiver detail Example Displaying List of Supported Transceivers 40-5Example Displaying Threshold Tables 40-640-7 40-8 Example When Transceiver Monitoring is Disabled Example Displaying Threshold Violations40-9 Router# show interfaces transceiver threshold violationsExample Displaying SPF Details 40-1040-11 SCP6G44-C1-BMHSFF-8472 40-12Feature Information for Digital Optical Monitoring 40-1340-14 IPv4 Multicast 41-141-2 Supported Protocols PIM SSM for IPv4Source Specific Multicast Protocol Independent MulticastIGMPv1 IGMPv2IGMPv3 41-4Ip igmp static ssm-map command PIM SSM MappingReverse Path Forwarding Static SSM MappingConfiguring IPv4 Multicast Enables multicast routingEnabling IPv4 Multicast Routing Ip pim sparse-mode Asr901-multicast sourceConfiguring PIM SSM Enable Configure terminal Ip pim ssm defaultIp pim sparse-mode Ip igmp version 41-7Ip igmp ssm-map static access-list source-address Configuring PIM SSM Mapping41-8 Verifying PIM SSM Verifying IPv4 Multicast Routing41-9 Verifying PIM SSM Mapping 41-10Router# show ip mroute Router# show ip igmp ssm-mappingConfiguration Examples for IPv4 Multicast Show ip igmp groups group-addressShow ip igmp groups interface-type interface-number Show ip igmp groups interface-type detailExample Configuring PIM SSM Example Configuring PIM SSM MappingExample IPv4 Multicast Routing 41-1241-13 Example Configuring Rendezvous PointRouter# debug ip igmp 41-14 41-15 Feature Information for IPv4 Multicast 41-16IGMPv2, 41-1741-18 IPv6 Multicast 42-142-2 IPv6 Multicast Groups IPv6 Multicast Routing ImplementationMulticast Listener Discovery Protocol for IPv6 42-3Protocol Independent Multicast 42-4PIM-Sparse Mode PIM Source Specific MulticastSource Specific Multicast Mapping for IPv6 42-5Configuring IPv6 Multicast Enabling IPv6 Multicast RoutingRendezvous Point 42-6Disabling IPv6 Multicast Forwarding Enable Configure terminal No ipv6 mfib42-7 Disables IPv6 multicast forwarding on the router Disabling MLD Device-Side ProcessingNo ipv6 mld router 42-842-9 Configuring MLD Protocol on an InterfaceNo ipv6 mld router Configuring a Rendezvous Point 42-10Enable Configure terminal Ipv6 pim Configuring PIM SSM Options42-11 Configuring IPv6 SSM Mapping Disables PIM on the specified interfaceDisabling PIM SSM Multicast on an Interface No ipv6 pimConfigure terminal Ipv6 mld vrf vrf-namessm-map enable Verifying IPv6 MulticastNo ipv6 mld vrf vrf-namessm-map query dns 42-1342-14 Router# show ipv6 mld interface gigabitethernet 0/1Router# show ipv6 mld traffic Router# show ipv6 pim interfaceRouter# show ipv6 mld groups summary 42-15Router# show ipv6 pim neighbor count 42-16 Router# show ipv6 pim neighborRouter# show ipv6 mroute Router# show ipv6 pim topology42-17 Router# show ipv6 pim topology route-countRouter# show ipv6 pim group-map FF0EE0111 Router# show ipv6 pim range-listRouter# show ipv6 pim traffic 42-18Router# show ipv6 pim join-prune statistic Following example 42-1942-20 Router# show ipv6 mfib statusRouter# show ipv6 mfib summary Router# show ipv6 mfib interfaceConfiguration Examples for IPv6 Multicast Example Configuring IPv6 SSM MappingExample Enabling IPv6 Multicast Routing 42-21Command Name Description 42-2242-23 Chapter of the IP Multicast PIM Configuration Guide Feature Information for IPv6 Multicast42-24 Chapter of the IP Multicast LSM Configuration Guide 42-2542-26 Span Limitations and Configuration Guidelines Configuring Switched Port Analyzer43-1 Following sections describe Span Understanding Span43-2 Source Interface Span Session43-3 Configuring Span Destination InterfaceTraffic Types Span TrafficRemoving Sources or Destination from a Span Session 43-5Configuration Examples for Span Enable Configure terminal No monitor session sessionnumberClears existing Span configuration for a session Verifying Local Span43-7 Rspan Vlan43-8 Feature Information for Switched Port Analyzer 43-943-10 See BSC IN-1IN-2 IN-3 IN-4 IN-5 See MSC IN-6IN-7 IN-8 IN-9 IN-10
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