Contents
Text Part Number OL-23826-09
Americas Headquarters
Copyright 2011-2013, Cisco Systems, Inc
Iii
N T E N T S
Related Documents Standards MIBs
Standards MIBs
Searching and Filtering Output of show and more Commands
Vii
Split-Horizon8-6
Viii
Restrictions
Manually Configuring an IP SLA CFM Probe or Jitter Operation
Restrictions
Overview
Xii
Setting up Manual Preemption for Vlan Load Balancing
Xiii
Configuring Mpls VPNs
19-6
Xiv
Verifying Local Switching
Xvi
Verifying the Synchronous Ethernet configuration
Xvii
Cisco IOS IP SLA
Xviii
Marking
Xix
Technical Assistance
Xxi
Configuring Hsrp
Xxii
Configuring Link Layer Discovery Protocol
Xxiii
How to Configure Bert
32-2
Xxiv
Xxv
Configuring IPv6 Duplicate Address Detection
Troubleshooting Tips
Xxvii
BFD
Xxviii
Verifying Layer 2 Tunneling
Xxix
Configuring Unspecified Bit Rate
Xxx
Creating IPv6 VRFs on PE Routers
Xxxi
Technical Assistance
Xxxii
Finding Feature Information
Xxxiii
Igmp
Xxxiv
IPv6 Multicast Groups
Xxxv
Span Traffic
Xxxvi
Document Number Date Change Summary
About This Guide
Document Revision History
Xxxviii
Xxxix
OL-23826-09
Xli
Xlii
Xliii
Xliv
Xlv
Xlvi
Xlvii
Objectives
Audience
Organization
Xlviii
Mpls OAM
Xlix
SLA
Boldface font
Conventions
Chapter Description
Convention Description
Release Notes
To access the related documentation on Cisco.com, go to
Related Documentation
Lii
Cisco ASR 901 Router Overview
This section contains the following topics
Features
Performance Features
Introduction
Management Options
Manageability Features
Quality of Service and Class of Service Features
Security Features
Monitoring Features
Layer 3 Features
Layer 3 VPN Services
OL-23826-09
Licensing
Finding Feature Information
Contents
License Sl.No Chassis PID License PID Description
Feature Overview
Licenses Supported on Cisco ASR 901 Router
Following licenses are supported
Licensing Licenses Supported on Cisco ASR 901 Router
License Types
Feature Based License
Features Supported
License Features
Port Number Port Type Chassis PID License Required
Port or Interface Behavior
Port Based/Mode License
1588BC License
Router# show ip interface brief
Example When Port Based License is not Installed
Example When Port Based License is Installed
Port Based License
Router# show interface Ten0/1
10gigUpgrade License
Example When 10gigUpgrade License is not Installed
Routerconfig# interface gig 0/0
Flexi License
Example When 10gigUpgrade License is Installed
Example When Flexi License is not Installed
Following is a sample output from the show license command
Following example shows how to install the 1588BC license
Example When Flexi License is Installed
Example When 1588BC License is not Installed
Example When 1588BC License is Installed
Router# license clear 1588BC
Use the license clear command to remove the 1588BC license
Routerconfig-ptp-clk#no ptp clock boundary domain
Removing the 1588BC License
Generating the License
Installing the License
Enable License install Copy tftp flash Show flash
License install license-file-name
Example
Command Purpose
Changing the License
Router# copy tftp flash
Return Materials Authorization License Process
Router# license install ?
Example RMA Process
To verify the new license, use the show license command
Where to Go Next
Standard
Standards
MIBs
RFCs
Description Link
Technical Assistance
Feature Name Releases Feature Information
Feature Information for Licensing
OL-23826-09
Before Starting Your Router
First-Time Configuration
Setup Mode
Configuring Global Parameters
Using Setup Mode
Enter a hostname for the router this example uses
Completing the Configuration
Verifying the Cisco IOS Software Version
Configuring the Hostname and Password
Password prompt appears. Enter your password
Router# show config
Verifying the Hostname and Password
Exit back to global configuration mode
Router# configure terminal
Managing and Monitoring Network Management Features
This section contains the following procedures
Network Management Features for the ASR
Enters global configuration mode
Configuring Snmp Support
Enables privileged Exec mode
Enter your password if prompted
View view-name-Optional Previously defined view. The view
Form of this command removes the specified community string
String-Community string is the password to access the Snmp
Protocol
Temperature
Command
Notification-type -snmp authentication -Enables RFC
Envmon voltage shutdown supply fan temperature -When
Snmp-server host command
Command Purpose
Interface loopback number
Configuring Remote Network Management
Exits global configuration mode
Enable Configure terminal
Command or Action Purpose
Zero-Touch Deployment
Zero-touch Deployment
Image Download
Ip dhcp
Configuring a Dhcp Server
Network ip-address subnet-mask
Specifies to exclude IP address of the Dhcp server
Creating a Bootstrap Configuration
Configuring a Tftp Server
Enabling a Tftp Server on the Edge Router
Configuring the Cisco Configuration Engine
Example Configuring a Dhcp Server
Configuration Examples
Example Configuring Snmp Support
Example Configuring Remote Network Management
Related Topic Document Title
Additional References
Example Zero-touch Deployment
Related Documents
MIBs
Network Management Features for the ASR
Understanding Command Modes
Using the Command-Line Interface
Use the interface
Entered. Use a password
User Exec Log
Exit, or logout
Help
Understanding the Help System
Line console
Ctrl-Z or enter end
Router# show conf
Understanding Abbreviated Commands
Understanding no and default Forms of Commands
Understanding CLI Error Messages
Range is from 0 to
Using Command History
Changing the Command History Buffer Size
Error Message Meaning How to Get Help
Enabling and Disabling Editing Features
Using Editing Features
Recalling Commands
Disabling the Command History Feature
Backspace key
Editing Commands through Keystrokes
Capability Keystroke1 Purpose
Press Ctrl-Y
Press Ctrl-L or Ctrl-R
Editing Command Lines that Wrap
Press Ctrl-V or Esc Q
Return and Space bar
Router# show interfaces include protocol
Accessing the CLI
Command begin include exclude regular-expression
Saving Configuration Changes
Upgrading the Cisco IOS image
Software Upgrade
Selecting a Cisco IOS Image
Router# show file system
Copy the IOS Image from the Tftp server
If the right steps are not followed properly
Router# verify flashasr901-universalk9-mz.151-2.SNG
Save the configuration and reload the router
Verify the Cisco IOS upgrade
Verify the Cisco IOS image in the file system
Router# show version
Auto Upgrading the MCU
Manually Upgrading the Rommon
Router# upgrade rom-monitor internal
Auto Upgrade of Rommon
Rommon AUTOUPGRADEROMMON=TRUE False
Enters enable mode
Configuring Gigabit Ethernet Interfaces
Configuring the Interface
To configure the GE interface, complete the following steps
Gigabitethernet 0/1
Setting the Speed and Duplex Mode
Cdp enable
Mtu bytes
Enabling the Interface
Modifying MTU Size on the Interface
Verifying the MTU Size
No mtu or default mtu command
Restrictions and Limitations
Configuring MAC FLap Control
Complete the following steps to configure MAC Flap control
MAC Flap Control
Time-interval
Configuring a Combo Port
Restrictions
Mac-flap-ctrl on per-mac mac-movement
Physical connection
Configures the media type
Exits interface configuration mode and enters
Auto-select-Specifies dynamic selection
Router# show interface gigabitethernet 0/7
Verifying the Media Type
Router# show interface gigabitethernet 0/1
Configuring Ethernet Virtual Connections
Supported EVC Features
Ethernet Virtual Connections
Understanding EVC Features
Service Instances and EFPs
Encapsulation
To the appropriate EFP
Configures default encapsulation
Bridge Domains
Rewrite Operations
Dhcp Client on Switch Virtual Interface
Split-Horizon
Configuration Guidelines
Configuring EFPs
Default EVC Configuration
Creating Service Instances
Copy running-config startup-config
Service instance number ethernet name
Default
Show ethernet service instance
Example Bridge Domains and Vlan Encapsulation
Configuration Examples of Supported Features
Example Configuring a Service Instance
Example Encapsulation Using a Vlan Range
Example Split Horizon
Router config-if-srv#rewrite ingress tag pop 1 symmetric
Router config-if-srv#rewrite ingress pop 1 symmetric
Example Rewrite
Example Overlapping Encapsulation
Configuration Examples of Unsupported Features
Example Filtering
Interface type number
How to Configure EVC Default Encapsulation
Configuring EVC Default Encapsulation with Bridge-Domain
An identifier
Configuring EVC Default Encapsulation with Xconnect
Configures the default service instance
Verifying EVC Default Encapsulation with Bridge-Domain
Example Configuring EVC Default Encapsulation with Xconnect
Configuring Other Features on EFPs
Verifying EVC Default Encapsulation with Xconnect
Configuration Examples for EVC Default Encapsulation
MAC Address Forwarding, Learning and Aging on EFPs
EFPs and EtherChannels
Interface type slot/port
No mac-address-table learning vlan vlan-id
Router# show mac-address-table
End Return to privileged Exec mode
Routerconfig# no mac-address-table learning vlan
Addresses learned on a particular VLAN/BD
Router# show mac-address-table interface port-channel
Configuring Ieee 802.1Q Tunneling using EFPs
802.1Q Tunneling QinQ
Router# show mac-address-table interface 0/9
1shows the tag structures of the double-tagged packets
You can use EFPs to configure 802.1Q tunneling in two ways
Configuration Examples
Routed QinQ
Configuration Example
Cisco ASR 901 router supports pop 2 configuration
Bridge Domain Routing
Example Configuring Bridge-Domain Routing
Interface type-number
How to Configure Dhcp Client on SVI
Configuring Dhcp Client on SVI
Configures the Vlan interface and enters interface
Verifying Dhcp Client on SVI
Configuration Example for Dhcp Client on SVI
EFPs and Mstp
EFPs and Switchport MAC Addresses
Monitoring EVC
Command Description
Sample Configuration with Switchport to EVC Mapping
Configuration Example
Line vty 0 4 login
Additional References
Supported EVC Features
OL-23826-09
Understanding How EtherChannels Work
Configuring EtherChannels
EtherChannel Feature Overview
Understanding Ieee 802.3ad Lacp EtherChannel Configuration
Understanding How EtherChannels Are Configured
EtherChannel Configuration Overview
Understanding Manual EtherChannel Configuration
Router a Router B Result
Passive mode
Passive mode Active mode
Active mode Passive mode
Understanding Load Balancing
EtherChannel Configuration Guidelines and Restrictions
Understanding Port-Channel Interfaces
Configuring Channel Groups
Configuring Etherchannels
Configuration examples for Lacp system priority
Configuring the Lacp System Priority and System ID
Lacp rate fast normal End
Configuring the Lacp Transmit Rate
Verifying the Lacp Transmit Rate
Configuring EtherChannel Load Balancing
Configuration Examples
Verifying the MTU Size on Port-Channel
Enable Configure terminal Interface port-channel number
Modifying MTU Size on Port-Channel
Restrictions for EVC EtherChannel
EVC On Port-Channel
Router# show ethernet service instance interface
Configuring EVC on Port-Channel
Verifying the Configuration
Router# show ethernet service evc id evc-idinterface
Problem Solution
Troubleshooting
Contents
Configuring Ethernet OAM
10-2
Configuring Ethernet CFM
Understanding Ethernet CFM
IP SLA Support for CFM
Configure terminal Enter global configuration mode
Default Ethernet CFM Configuration
Ethernet CFM Configuration Restrictions and Guidelines
Configuring the CFM Domain
10-4
Optional Configure the maximum number of MEPs
Second, 10 seconds, 1 minute and 10 minutes. The default
We do not recommend configuring a large number
Is 2 to 255 the default is
10-6
Example for Basic CFM configuration
10-7
Configuring Multi-UNI CFM MEPs in the Same VPN
Restrictions
Exit
10-8
Cfm mep domain domain-name mpid identifier
10-9
Alias alias-short-ma-name icc icc-code meg-id
Number ma-number vlan-id vlan-id vpn-id vpn-id
10-10
10-11
10-12
Configuring Ethernet CFM Crosscheck
10-13
Configuring Static Remote MEP
Continuity-check static rmep
Static
10-14
Configuring a Port MEP
Service ma-name ma-number vpn-id port
10-15
Configuring Snmp Traps
10-16
Configuring IP SLA CFM Operation
Ethernet echo mpid identifier domain domain-name
Ethernet jitter mpid identifier domain domain-name
Seconds. The default is 0 seconds
Repeats. The range is from 1 to 604800 seconds the default
Allowed by the protocol being used the default is 66 bytes
Seconds to keep the operation in memory when it is not
10-18
10-19
Configuring CFM over EFP with Cross Connect
Show the configured IP SLA operation
10-20
Configuring CFM over EFP Interface with Cross Connect
10-21
Example for untagged Encapsulation
10-22
Example for single tag Encapsulation
10-23
10-24
Configuring CFM with EVC Default Encapsulation
Cfm mep domain domain-name mpid mpid-value
10-25
Verifying CFM with EVC Default Encapsulation
10-26
Configuring Y.1731 Fault Management
Example Configuring CFM with EVC Default Encapsulation
Default Y.1731 Configuration
10-27
Configuring ETH-AIS
Ethernet cfm lck link-status global
Configuring ETH-LCK
Show ethernet cfm error
Show ethernet cfm smep interface interface-id
10-29
Managing and Displaying Ethernet CFM Information
10-31
10-32
Understanding the Ethernet OAM Protocol
10-33
OAM Features
Following OAM features are defined by Ieee 802.3ah
Benefits of Ethernet OAM
10-34
Link Monitoring
10-35
Setting Up and Configuring Ethernet OAM
This section includes the following topics
Ethernet oam
Default Ethernet OAM Configuration
Restrictions and Guidelines
Enabling Ethernet OAM on an Interface
10-37
Ms mode active passive timeout seconds
Ethernet oam max-rate oampdus min-rate seconds
Show ethernet oam status interface interface-id
10-38
Configuring Ethernet OAM Link Monitoring
Enabling Ethernet OAM Remote Loopback
10-39
10-40
Ethernet oam link-monitor frame-period
Threshold high high-frames none low
Ethernet oam link-monitor frame-seconds
10-41
Configuring Ethernet OAM Remote Failure Indications
Ethernet oam link-monitor receive-crc threshold
No ethernet link-monitor on
Ethernet oam remote-failure critical-event
Configuring Ethernet OAM Templates
Dying-gasp link-fault action
Error-disable-interface
10-43
Source-template template-name
Threshold high high-seconds none low
Low-seconds window milliseconds
Ethernet oam link-monitor high threshold action
Show ethernet oam summary
Displaying Ethernet OAM Protocol Information
Show ethernet oam discovery interface interface-id
Show ethernet oam statistics interface interface-id
Verifying OAM Discovery Status
Verifying Ethernet OAM Configuration
Verifying Information Oampdu and Fault Statistics
Verifying an OAM Session
10-47
Verifying Link Monitoring Configuration and Status
Active
Understanding E-LMI
Verifying Status of the Remote OAM Client
10-48
10-49
Configuring E-LMI
Default E-LMI Configuration
Restrictions
10-50
Enabling E-LMI
10-51
Configuring Ethernet Loopback
Understanding Ethernet Loopback
Displaying E-LMI Information
10-52
Enabling Ethernet Loopback
10-53
10-54
10-55
10-56
Configuring Y.1564 to Generate Ethernet Traffic
10-57
Internal Mode
10-58
Configuring IP SLA for Traffic Generation
Routerconfig# ip sla
Specify the SLA ID to start the IP SLA session
10-59
Measurement-type direction -Specifies the statistics
10-60
10-61
Example Two-Way Measurement
10-62
11-1
ITU-T Y.1731 Performance Monitoring
Prerequisites for ITU-T Y.1731 Performance Monitoring
11-2
Restrictions for ITU-T Y.1731 Performance Monitoring
Information About ITU-T Y.1731 Performance Monitoring
11-3
Frame Delay and Frame-Delay Variation
Two-way Delay Measurement
11-4
Frame Loss Ratio
On-Demand and Concurrent Operations
Single-ended ETH-SLM
11-5
How to Configure ITU-T Y.1731 Performance Monitoring
Benefits of ITU-T Y.1731 Performance Monitoring
Supported interfaces
11-6
Configuring Two-Way Delay Measurement
Max-delaymilliseconds Owner owner-id
11-7
Mac-address target-address -Specifies
Mac-address source-address -Specifies
11-8
Boundary ,...,boundary -Lists upper
11-9
Configuring Single-Ended Synthetic Loss Measurement
Enable Configure terminal Asr901-platf-multi-nni-cfm
11-10
11-11
Mac-addresstarget-address-Specifies
Mac-addresssource-address-Specifies
Owner-id-Specified the name of the Snmp
Exits IP SLA Y.1731 loss configuration mode
Enters IP SLA configuration mode
Exits IP SLA configuration mode and enters global
Threshold-type consecutive
Threshold-type average
Number-of-measurements -Optional When
Number-of-measurements argument. The range is
Threshold-value upper-threshold
Threshold-type immediate -Optional When a
Scheduling IP SLAs Operations
Prerequisites
Multi-operation scheduler
Individual IP SLAs operation
Specifies an IP SLAs operation group number
Range of operation numbers to be scheduled for a
Router-1#show running interface gigabitethernet0/0
Router# show ip sla configuration
11-16
Router# show ethernet cfm pm session detail
Example Verifying Ethernet CFM Performance Monitoring
11-17
Router# show ethernet cfm pm session summary
Router# show ip sla history interval-statistics
Example Verifying History for IP SLAs Operations
11-18
11-19
Configuring Direct On-Demand Operation on a Sender MEP
11-20
Configuring Referenced On-Demand Operation on a Sender MEP
11-21
Example On-Demand Operation in Direct Mode
Router# ip sla on-demand ethernet slm 2002 duration
Example On-Demand Operation in Referenced Mode
11-22
11-23
Releases, and feature sets, use Cisco MIB Locator found at
Ieee 802.1ag ITU-T Y.1731 MEF
Following URL
11-24
11-25
Feature Name Releases Feature Information
11-26
12-1
Configuring Resilient Ethernet Protocol
Understanding Resilient Ethernet Protocol REP
Overview
REP Open Segments
12-2
No-neighbor Topology
12-3
12-4
Link Integrity
Fast Convergence
Vlan Load Balancing VLB
Neighbor Offset Numbers in a Segment
12-5
12-6
REP Ports
12-7
Configuring Resilient Ethernet Protocol REP
Default REP Configuration
REP Configuration Guidelines
12-8
12-9
Configuring the REP Administrative Vlan
12-10
Configuring REP Interfaces
Port-channel range is 1 to
Routerconfig# interface Gigabitethernet0/1
Service instance instance-id
Enter the physical Layer 2 interface or port channel ID.
12-12
12-13
12-14
Verifies the REP interface configuration
File
12-15
Configuring REP as Dual Edge No-Neighbor Port
12-16
12-17
Rep segment segment-id edge no-neighbor
Primary preferred
12-18
Cisco ASR 901 Dual Rep Edge No-Neighbor Topology Example
76001
12-19
76002
12-20
Setting up Manual Preemption for Vlan Load Balancing
12-21
Configuring Snmp Traps for REP
12-22
Trap-rate command
Monitoring REP
12-23
This section contains the following examples
Configuration Examples for REP
Configuring the REP Administrative Vlan Example
Configuring a REP Interface Example
12-25
Setting up the Preemption for Vlan Load Balancing Example
Configuring Snmp Traps for REP Example
Monitoring the REP Configuration Example
12-26
Cisco ASR 901 Topology Example
12-27
ASR2
12-28
12-29
12-30
13-1
Configuring MST on EVC Bridge Domain
Overview of MST and STP
13-2
Overview of MST on EVC Bridge Domain
Restrictions and Guidelines
MST0
13-3
13-4
Configuring MST on EVC Bridge Domain
13-5
Specifies the gigabit ethernet interface to configure
Slot/port-Specifies the location of the interface
13-6
Configuration Example for MST on EVC Bridge Domain
Verification
Router# show spanning-tree vlan
13-7
Router# show spanning-tree mst
This example shows MST on port channels
13-8
13-9
Troubleshooting Tips
13-10
14-1
Configuring Multiprotocol Label Switching
14-2
15-1
Configuring EoMPLS
Understanding EoMPLS
15-2
Configuring EoMPLS
15-3
EoMPLS Configuration Example
Configures encapsulation type for the service instance
Configuring Pseudowire Redundancy
Configuration Commands
Specifies an interface to configure
15-5
Configure terminal Enters global configuration mode Example
Port Based EoMPLS
Show mpls l2t vc id
15-6
Routerconfig# xconnect Encapsulation mpls
16-1
Configuring Mpls VPNs
Understanding Mpls VPNs
16-2
Configuring Mpls VPNs
Configuration Examples for Mpls VPN
PE1 Configuration
16-3
Configuring Mpls VPNs Configuration Examples for Mpls VPN
16-4
16-5
Provider Configuration
16-6
PE2 Configuration
Interface details
16-7
Ospf and BGP details
16-8
Loop Back details
16-9
16-10
17-1
Configuring Mpls OAM
Understanding Mpls OAM
LSP Ping
17-2
Configuring Mpls OAM
LSP Ping over Pseudowire
LSP Traceroute
Ping mpls ipv4
Using LSP Ping for LDP IPv4 FEC
Using LSP Traceroute for LDP IPv4 FEC
Using LSP Ping for Pseudowire
Vc-id-value
Using LSP Traceroute over Pseudowire
Displaying AToM Vccv capabilities
Show mpls l2transport binding vcid
18-1
Configuring Routing Protocols
Changing Default Hashing Algorithm for Ecmp
Asr901-ecmp-hash-config global-type
18-2
19-1
Configuring BFD
Understanding BFD
Enables BFD for Ospf on the interface
BFD Configuration Guidelines and Restrictions
Configuring BFD for Ospf
Configuring BFD for Ospf on One of More Interfaces
Process
Configuring BFD for Ospf on All Interfaces
Creates a configuration for an Ospf process
Specifies the BFD session parameters
19-4
Configuring BFD for BGP
Configuring BFD for IS-IS
Configuring BFD for IS-IS on a Single Interface
19-5
Configuring BFD for IS-IS for All Interfaces
19-6
Configuring BFD for Static Routes
19-7
Configuration Examples for BFD
BFD with Ospf on All Interfaces
BFD with Ospf on Individual Interfaces
19-8
BFD with BGP
BFD with IS-IS on All Interfaces
BFD with IS-IS on Individual Interfaces
19-9
BFD with Static Routes
19-10
20-1
Configuring T1/E1 Controllers
Configuring the Card Type
20-2
Configuring E1 Controllers
Subslot
20-3
Channel-group channel-no timeslots timeslot-list 64 command
20-4
Configuring T1 Controllers
20-5
Troubleshooting Controllers
Troubleshooting E1 Controllers
Incoming traffic
Troubleshooting T1 Controllers
Payload loopback mode of the framer. The framer re-clocks
Receiver
Local line
Path to the receiver path
20-7
20-8
21-1
Configuring Pseudowire
21-2
Understanding Pseudowires
Structure-Agnostic TDM over Packet
21-3
Hot Standby Pseudowire Support for ATM/IMA
Transportation of Service Using Ethernet over Mpls
Limitations
Cem group-number
Configuring Pseudowire
Configuring Pseudowire Classes
Xconnect ip pw-class pseudowire-class
21-5
Xconnect ip-addressencapsulation mpls
Configuring CEM Classes
Class cem cem-class-name
Cem group-number Cem class cem-class-name
21-7
Xconnect peer-loopback-ip-addressencapsulation mpls
Configuring a Backup Peer
Enable Configure terminal Interface cemslot/port
Specifies the CEM class name
21-9
Configuring Structure-Agnostic TDM over Packet
Xconnect ip-addressencapsulation mpls Exit
21-10
30.30.30.2 255.255.255.255
Udp port local-udp-port remote remote-udp-port
Configuring a SAToP Pseudowire with UDP Encapsulation
Pseudowire-classpseudowire-class-name
Xconnect peer-router-id vcid pseudowire-class name
21-12
Exits the CEM interface
Values for SAToP pseudowires using UDP are from
Exits the configuration mode
Remote peer
Xconnect ip-addressencapsulation mpls Exit End
Enable Configure terminal Controller e1 t1 slot/port
Cem-groupgroup-number timeslots timeslot
Exit Interface CEMslot/port
Recommend that you build a route from the xconnect address
Configuring a CESoPSN Pseudowire with UDP Encapsulation
Exits configuration mode
Defines a CEM channel
21-16
Exits pseudowire-class configuration mode
Udp port local localudpport remote remoteudpport
21-17
21-18
QoS for CESoPSN over UDP and SAToP over UDP
Xconnect ip-addressencapsulation
Service instance instance-number
Although the symmetric keyword appears to be optional, you
21-19
21-20
Configuring L2VPN Pseudowire Redundancy
Selects an E1 or T1 controller
Creates a CEM interface and assigns it a CEM group number
21-21
Interface interface-name
Configuring ATM/IMA Pseudowire Redundancy in PVC Mode
Example Pseudowire Redundancy
Backup peer peer-router-ip-addr vcid
21-23
Multiplex on the permanent virtual path
Configuring ATM/IMA Pseudowire Redundancy in PVP Mode
Or more virtual circuits VCs
Vpi-ATM network virtual path identifier VPI of the VC to
21-25
Configuring ATM/IMA Pseudowire Redundancy in Port Mode
Transport over Mpls AToM static pseudowire
Router# show mpls l2transport vc
Verifying Hot Standby Pseudowire Support for ATM/IMA
Peer-router-ip-addr-IP address of the remote peer router
21-26
21-27
TDM Local Switching
21-28
Configuring TDM Local Switching on a T1/E1 Mode
21-29
Configuration Example for Local Switching
Verifying Local Switching
21-30
ATM/IMA
21-31
Configuration Examples for Pseudowire
Example TDM over Mpls Configuration-Example
21-32
21-33
Asrb
21-34
Following configuration uses CESoSPN with UDP encapsulation
Example CESoPSN with UDP
21-35
Example Ethernet over Mpls
21-36
21-37
Feature Information for Configuring Pseudowire
21-38
22-1
Configuring Clocking
Restrictions
22-2
Configuring Network Clock for Cisco ASR 901 Router
22-3
Configuring Network Clock in Global Configuration Mode
22-4
22-5
Example for GPS interface
22-6
Configuring Network Clock in Interface Configuration Mode
Clock Selection Algorithm
Understanding SSM and Esmc
Synchronization Status Message
Ethernet Synchronization Messaging Channel
Esmc behavior for STP Blocked Ports
Configuring Esmc in Global Configuration Mode
QL-disabled mode
Esmc behavior for Port Channels
22-9
Configuring Esmc in Interface Configuration Mode
22-10
Verifying Esmc Configuration
Show esmc
Router#show esmc interface gigabitEthernet 0/10
Managing Synchronization
Show network-clock synchronization
22-11
22-12
Synchronization Example
Configures synchronous ethernet copper port as master
Configuring Synchronous Ethernet for Copper Ports
Verifying the Synchronous Ethernet configuration
Configures synchronous ethernet copper port as slave
22-14
22-15
22-16
Troubleshooting Tips
Synchronization detail RP command to confirm
Shown in this example
22-17
Troubleshooting Esmc Configuration
22-18
Configuring PTP for the Cisco ASR 901 Router
22-19
Setting System Time to Current Time
Configuring PTP Ordinary Clock
Configuring Master Ordinary Clock
22-20
Priority1 priority-value Priority2 priority-value
22-21
Configuring Slave Ordinary Clock
22-22
Clock source source-address
22-23
22-24
Port Role
Configuring PTP in Unicast Mode
Configuring PTP in Unicast Negotiation Mode
Port Name
Negotiation mode. The following options can be
Configures Cisco ASR 901 router on unicast
Configured with this command
PTP Boundary Clock
22-27
Configuring PTP Boundary Clock
Clock-port port-namemaster
22-28
22-29
Exits clock port configuration mode
Verifying PTP modes
Ordinary Clock
Router# show ptp clock dataset time-properties domain
Router# show ptp clock dataset default
Boundary Clock
22-30
Router# show ptp clock runn dom
Verifying PTP Configuration on the 1588V2 Slave
22-31
Router# show ptp clock running domain
Verifying PTP Configuration on the 1588V2 Master
Typical configuration on a 1588V2 master is
22-32
22-33
22-34
Configuring a Hybrid Ordinary Clock
PTP Hybrid Clock
Slaves
Hybrid-Optional Enables the PTP boundary clock
To work in hybrid mode. Enables the hybrid clock such
That the output of the clock is transmitted to the remote
22-36
22-37
Configuring a Hybrid Boundary Clock
22-38
Router# show running-config section ptp
Verifying Hybrid modes
Router#show platform ptp channelstatus
SSM and PTP Interaction
22-39
22-40
ClockClass Mapping
PTP Redundancy
Telecom Profiles
22-41
Configuring Telecom Profile in Slave Ordinary Clock
Clock source source-address priority
End
22-42
22-43
Configuring Telecom Profile in Master Ordinary Clock
Router#show ptp port running detail
Verifying Telecom profile
Timing packets with a PTP slave devices
22-44
Router#show ptp clock running domain
22-45
22-46
Setting the TimeProperties
Static Unicast Mode
ASR901 Negotiation Mechanism
22-47
Configuring ToD on 1588V2 Slave
22-48
23-1
Configuring Ipsla Path Discovery
Cisco IOS IP SLA
23-2
Configuration Parameters
23-3
Example for Ipsla Path Discovery
Router#show ip sla mpls-lsp-monitor neighbors
This example shows the LPD parameter values configured
23-4
23-5
Two-Way Active Measurement Protocol
23-6
Configuring Twamp
23-7
Configuring the Twamp Server
Enable Configure terminal Ip sla server twamp
Port port-number
23-8
Configuring the Twamp Reflector
Configuration Examples for Twamp
Configures the switch as a Twamp responder, and enter Twamp
Routerconfig# ip sla responder twamp
Example Configuring the Router as an IP SLA Twamp server
Example Configuring the Router as an IP SLA Twamp Reflector
Routerconfig# ip sla server twamp
23-10
24-1
Configuring QoS
24-2
Understanding QoS
24-3
Default QoS for Traffic from External Ethernet Ports
Default QoS for Traffic from Internal Ports
24-4
Modular QoS CLI
24-5
Input and Output Policies
Input Policy Maps
24-6
Access Control Lists
Output Policy Maps
24-7
Classification
24-8
Match Command
Class Maps
24-9
Classification Based on Layer 2 CoS
Classification Based on IP Precedence
Classification Based on IP Dscp
24-10
Classification Comparisons
This display shows the available classification options
Per-hop Decimal Precedence CoS
24-11
Classification Based on QoS Groups
Traffic Type Per-hop Decimal Precedence CoS
24-12
Classification Based on Vlan IDs
24-13
Table Maps
24-14
Policing
24-15
Individual Policing
Gigabitethernet port
24-16
Unconditional Priority Policing
24-17
Configuration Example
Routerconfig# policy-map policy1
Egress Policing
24-18
Routerconfig# policy-map Example
Marking
24-19
Congestion Management and Scheduling
Traffic Shaping
24-20
Routerconfig# policy-map out-policy
Routerconfig# policy-map out-policy-parent
Routerconfig-pmap-c#service-policy out-policy
24-21
Class-Based Weighted Fair Queuing
This is an example of a parent-child configuration
Routerconfig# policy-map parent
24-22
Routerconfig-pmap-c#bandwidth remaining percent
24-23
Priority Queuing
24-24
Routerconfig# policy-map pmapbckbone
Ingress and Egress QoS Functions
Ingress QoS Functions
24-25
Configuring Quality of Service QoS
QoS Limitations
Egress QoS Functions
24-26
General QoS Limitations
Statistics Limitations
Value
Propagation Limitations
Classification Limitations
GigabitEthernet
24-28
Marking Limitations
Rate Limiting Limitations
Congestion Management Limitations
Precedence Prec-transmit Qos-group
Queuing Limitations
24-30
ACL-based QoS Restrictions
Policing with
Shaping Limitations
QoS for CPU Generated Traffic
Improving Feature Scalability
QoS for MPLS/IP over Mlppp
Tcam with QoS
24-32
QoS Configuration Guidelines
24-33
Sample QoS Configuration
24-34
Configuring Classification
Enter the password
Creating a Class Map for Classifying Network Traffic
24-35
24-36
Attaching the Policy Map to an Interface
24-37
Attaching Policy Map to Cross Connect EVC
24-38
Configuring Marking
24-39
Creating a Class Map for Marking Network Traffic
Set qos-group
Traffic Attributes Network Layer Protocol
Set cos
Set dscp
24-41
Configuring Mpls Exp Bit Marking using a Pseudowire
Specify an EVC
Specify an encapsulation type for the EVC
24-42
Configuring Congestion Management
Configuring Low Latency Queueing LLQ
Use the policy-mapcommand to define a policy map
24-43
Configuring Multiple Priority Queueing
Policy-map interface commands to verify your configuration
24-44
24-45
Configuring Class-Based Weighted Fair Queuing Cbfq
Use the exit command to exit class map configuration
Use the exit command to exit the policy map configuration
24-46
Weighted Random Early Detection Wred
Amount of bandwidth
This step is optional
24-47
Configuring Shaping
No random-detect discard-class-based
No random-detect discard-class value
24-48
Configuring the Secondary-Level Child Policy Map
24-49
Configuring Ethernet Trusted Mode
Creating IP Extended ACLs
24-50
Using Class Maps to Define a Traffic Class
Class-map match-all match-any
Class-map-name
Show class-map
Match cos cos-list ip dscp dscp-list
Ip precedence ip-precedence-list
Qos-group value vlan vlan-list
Class-mapclass-map-name
Creating a Named Access List
Match access-group name access-group-name
Permit source source-wildcard any log
24-53
What to do Next
Router# show run int gig 0/1
Router# show ip access-lists tcam1
Tcam with ACL
24-54
Router# show policy-map interface gigabitethernet 0/0
Verifying Named Access List
Router# show access-lists tes456
24-55
24-56
Configuration Example for Named Access List
Router# show running-config
Class-map match-any test
24-57
24-58
24-59
24-60
24-61
QoS Marking for CPU-Generated Traffic
QoS Treatment for Performance-Monitoring Protocols
Cisco IP-SLAs
QoS Treatment for IP-SLA Probes
24-63
QoS Queuing for CPU-Generated Traffic
Class in the policy map
Configuring Class-map for Matching Mpls EXP Bits
To enter QoS class-map configuration mode
Extending QoS for Mlppp
24-65
Configuring Class-map for Matching IP Dscp Value
Match ip dscp dscp-value...dscp-value
Match ip dscp
This configuration packets with IP Dscp of value af11 are
Dscp-value-The Dscp value used to identify a Dscp value
24-66
24-67
Configuring a Policy-map
24-68
Class class-default
Bandwidth percent bandwidth-percent Exit
Exampleclass
24-69
Value in the type of service ToS byte
Bits defined by the policy map
Dscp-value-The Dscp value used to identify a Dscp
24-70
Enable Configure terminal Interface multilink group-number
Attaching the Policy-map to Mlppp Interface
Ip address address subnet mask
24-71
24-72
Re-marking IP Dscp Values of CPU Generated Traffic
24-73
Re-marking Mpls EXP Values of CPU Generated Traffic
Generated traffic
Are 0 to
Class-map-name-The name used for class map
Configuring a Policy-map to Match on CS5 and EXP4
Class and enters QoS class-map configuration mode
Bandwidth percent bandwidth-percent Set ip dscp dscp-value
Class-map-name-Name of the class for the class map
Value in the type of service ToS byte
As a match criterion
Cs-value-The Class SelectorCS value
24-76
Configuring Class-map for Matching Mpls EXP Bits
Exits QoS policy-map class configuration mode
24-77
Configuring Class-map for Matching IP Dscp Value
Configuring a Policy-map
Following example shows a configuration of a policy-map
24-78
Configuring a Policy-map to Match on CS5 and EXP
Attaching the Policy-map to Mlppp Interface
24-79
Verifying Mpls over Mlppp Configuration
24-80
24-81
Troubleshooting Tips
24-82
24-83
Example Tcam troubleshooting related error
Entries used 256/256 no free entries available
Routerconfig-if-srv#service-policy input policy2
24-84
24-85
We now have enough free entries to configure policy2
Routerconfig-if-srv#no service-policy input policy1
Entries used 195/256 after unconfiguring policy1
24-86
Entries used 220/256 after configuring policy2
24-87
Related Topic Document Title
24-88
Feature Information for Configuring QoS
25-1
Configuring Mlppp
Mpls label protocol ldp
Mlppp Optimization Features
Prerequisites
Distributed Multilink Point-to-Point Protocol Offload
25-3
Multiclass Mlppp
Mpls over Mlppp
25-4
Mpls Label imposition LER Mpls Label switching LSR
25-5
Mpls over Mlppp on Core Links
Mpls over Mlppp on CE to PE Links
Creating a Multilink Bundle
Configuring Mlppp Backhaul
Configuring the Card Type, E1 and T1 Controllers
Configuring a Multilink Backhaul Interface
25-7
Configuring Mrru
Example configures an IP address and subnet mask
Example creates a multilink bundle
25-8
Configuring PFC and Acfc
Remote apply, pfc local request, and pfc remote apply
25-9
25-10
Configuration requests
Requests. The syntax is as follows
Acfc option are not accepted
25-11
Enabling Multilink and Identifying the Multilink Interface
Keepalive period retries
25-12
Ppp multilink group group-number
25-13
Mlppp Offload
Ppp multilink idle-link Ppp multilink queue depth
25-14
Configuring Mpls over the Mlppp on a Serial Interface
Configuring Additional Mlppp Settings
Ppp multilink Ppp multilink group group-number Exit
25-15
Interface multilink group-number
Configuring Mpls over Mlppp for Ospf
Number, and enters the interface configuration mode
25-16
25-17
25-18
Configuration Examples for Mpls over Mlppp
Router# show mpls ldp bindings 6.6.6.6
Verifying Mpls over Mlppp Configuration
25-19
Router# ping mpls ipv4 6.6.6.6/32
25-20
25-21
25-22
Feature Information for Mlppp
Recording Obfl Messages
Onboard Failure Logging
Understanding Obfl
Retrieval of the Obfl message
26-2
Configuring Obfl
Verifying Obfl Configuration
Clilog summary
26-3
26-4
27-1
Preemption
Text Authentication
Information About Hsrp and Vrrp
Overview of Hsrp and Vrrp
Standby group-numberauthentication text string
How to Configure Hsrp
Configuring Hsrp
Complete the following steps to configure Hsrp
27-4
27-5
Configuration Examples for Hsrp
Example Configuring Hsrp Active Router
Example Configuring Hsrp Backup Router
Interface type number Ip ip-address mask
How to Configure Vrrp
Example Hsrp Text Authentication
Configuring Vrrp
27-7
Vrrp group-numberauthentication text string
Vrrp group-numberpriority level
27-8
Configuration Examples for Vrrp
Example Configuring a Vrrp Master Router
Example Configuring a Vrrp Backup Router
27-9
Example Vrrp Text Authentication
27-10
27-11
Feature Information for Hsrp and Vrrp
27-12
28-1
Configuring Link Layer Discovery Protocol
Overview of Lldp
How to Configure Lldp
Configuring Lldp
Restrictions for Lldp
28-3
Example Enabling Lldp Globally
Configuration Example for Lldp
Example Configuring Hold Time
Verifying Lldp
28-5
Example Configuring Delay Time
Example Configuring Intervals
28-6
28-7
28-8
Feature Information for Lldp
29-1
Configuring Multihop Bidirectional Forwarding Detection
Information About Multihop BFD
How to Configure Multihop BFD
Configuring Multihop BFD Template
Restrictions for Multihop BFD
29-3
Configuration for Router a
Configuration Examples for Multihop BFD
Configuring a Multihop BFD Map
Example Configuring Multihop BFD
Interface Fast Ethernet 6/0
Configuration for Router B
29-5
Interface Fast Ethernet 0/1
29-6
29-7
Feature Information for Multihop BFD
29-8
30-1
Bit Error Rate Testing
Prerequisites
30-2
How to Configure Bert
Bert Pattern Description
30-3
Enable Configure terminal Controller t1 e1 slot/port
Performing Bert on a T1/E1 Line
Terminating Bert on a T1/E1 Controller
30-4
Routerconfig-controller# no bert pattern
Verifying Bert on a T1/E1 Controller
No bert pattern pattern interval time
30-5
Following is a sample configuration of the Bert feature
30-6
Feature Information for Bit Error Rate Testing
30-7
30-8
31-1
Microwave ACM Signaling and EEM Integration
31-2
Link Removal
QoS Policy Adjustment
IGP Metric Adjustment
Benefits
31-4
Configuring Connectivity Fault Management
Bridge-domainbridge-domain-id
31-5
31-6
31-7
Configuring EEP Applet Using CLIs
31-8
31-9
Configuring Event Handler
Exits applet configuration mode
An EEM applet is triggered
31-10
31-11
Example Configuring CFM
Example Configuring EEP Applet
Following is a sample configuration of CFM
Action 104 set n $ringnodes
31-12
31-13
31-14
Action 442 cli command isis metric $dlc
31-15
Example Configuring Event Handler
Following is a sample configuration of Event Handler
31-16
Cisco ASR 901 Router Commands
CFM Support for Microwave Adaptive
Bandwidth Transport Integration with Microwave ACM
31-17
31-18
32-1
IPv6 Support on the Cisco ASR 901 Router
32-2
Prerequisites for IPv6 Support on the Cisco ASR 901 Router
32-3
Benefits
Overview of IPv6
IPv6 Address Formats
32-4
Static Configuration
IPv6 Addressing and Discovery
IPv6 Address Type Preferred Format Compressed Format
32-5
Stateless Autoconfiguration
ICMPv6
32-6
IPv6 Duplicate Address Detection
IPv6 Neighbor Discovery
IPv4 and IPv6 Dual-Stack on an Interface
OSPFv3 for IPv6
Routing Protocols
Bidirectional Forwarding Detection for IPv6
IS-IS Enhancements for IPv6
32-8
Configuring IPv6 Addressing and Enabling IPv6 Routing
QoS for IPv6
32-9
Enables Cisco Express Forwarding CEF globally on
Configuring a Static IPv6 Route
Global configuration mode
Enables the forwarding of IPv6 unicast datagrams
32-11
Enabling Stateless Auto-Configuration
Administrative-multicast-distance -Optional
Ipv6 address autoconfig
32-12
Ipv6 enable or
Implementing IPv6 on Vlan Interfaces
32-13
Implementing IPv6 Addressing on Loopback Interfaces
32-14
Configuring ICMPv6 Rate Limiting
Enable Configure terminal Ipv6 icmp error-interval interval
32-15
Configuring IPv6 Duplicate Address Detection
Ipv6 nd dad attempts value
32-16
Configuring IPv6 Neighbor Discovery
32-17
Configuring IPv6 and IPv4 Dual-Stack on the Same Vlan
Enables IPv6 address on the interface
Configuring OSPFv3 for IPv6
Configures an IPv4 address on the interface
Configures IPv6 address on the interface
Ipv6 router isis area-name
Configuring IS-IS for IPv6
Enable Configure terminal Router isis area-tag
Net network-entity-tag
32-20
32-21
Configuring Multiprotocol-BGP for IPv6
32-22
Configuring BFD for IPv6
Specifying a Static BFDv6 Neighbor
32-23
Associating an IPv6 Static Route with a BFDv6 Neighbor
Interface-number -SVI name
32-24
32-25
Configuring BFDv6 and OSPFv3
32-26
Configuring BFDv6 for BGP
Verifying IPv6 Addressing Routing
Exits global configuration mode and enters privileged
Exec mode
Implementing QoS for IPv6
Router# show ipv6 route
Verifying a Static IPv6 Route
32-28
Router# show ipv6 interface loopback
Verifying a Stateless Auto-Configuration
Verifying IPv6 Implementation on Vlan Interfaces
32-29
Router# show ipv6 interface loopback0
Verifying ICMPv6 Configuration
Verifying IPv6 Implementation on Loopback Interfaces
32-30
Router# show ipv6 traffic
32-31
32-32
Verifying IPv6 Duplicate Address Detection Configuration
Router# show ipv6 neighbors detail
Verifying IPv6 Neighbor Discovery Configuration
Verifying IPv6 and IPv4 Dual-Stack Configuration
32-33
Router# show ipv6 ospf
Verifying OSPFv3 for IPv6 Configuration
As shown in the example
32-34
Router# show isis ipv6 rib
Verifying IS-IS for IPv6 Configuration
Verifying Multiprotocol-BGP for IPv6 Configuration
32-35
BGP
32-36
Router# show bfd neighbors
Verifying BFD for IPv6 Configuration
32-37
32-38
Verifying BFDv6 and OSPFv3 Configuration
32-39
Verifying BFDv6 for BGP Configuration
Example Customizing ICMPv6
Example Configuring IPv6 Duplicate Address Detection
Example IPv6 Addressing on Vlan Interfaces
Example IPv6 Addressing on Loopback Interfaces
Example Configuring IPv6 Static Routing
Example Configuring IPv6 Neighborhood Discovery
Example Enabling IPv6 Stateless Address Autoconfiguration
Example Configuring the IPv4 and IPv6 Dual-Stack
Following is a sample configuration of OSPFv3 for IPv6
Example Configuring BFD and Static Routing for IPv6
Example Configuring OSPFv3 for IPv6
Example Configuring BFD and OSPFv3 for IPv6
32-43
Example Configuring IS-IS for IPv6
Following is a sample configuration of IS-IS for IPv6
32-44
Example Configuring Multiprotocol-BGP for IPv6
32-45
Example Configuring BFD and Multiprotocol-BGP for IPv6
Valid prefix pool for IPv6
No ipv6 nd suppress-ra command to enable
Debug Commands Show Commands Platform Hardware Commands
Route advertisement messages. Also, define a
32-47
32-48
32-49
32-50
Chapter of the IPv6 Configuration Guide provide
32-51
BGP for IPv6 chapter of the IPv6 Configuration Guide
Aggregation Services Router Software Configuration Guide
32-52
33-1
Labeled BGP Support
33-2
How to Configure Labeled BGP Support
Overview of Labeled BGP Support
VPN/VRF over RFC
33-3
Configuration Example for Labeled Support
Send-label option
Labels
Verifying Labeled BGP Support
33-4
Router# show bgp ipv4 unicast labels
Router# show ip cef vrf LTE12 113.22.12.0 internal
33-5
Vpnv4 all label
Vpnv4 vrf LTE12 label
33-6
33-7
RFC-3107
Carrying Label Information in BGP-4
33-8
Feature Information for Labeled BGP Support
34-1
Mpls Traffic Engineering Fast Reroute Link Protection
34-2
34-3
BFD-triggered Fast Reroute
R2 R3
34-4
Fast Reroute
Link Protection
Mpls traffic-eng tunnels
Enables Mpls TE tunnel signaling on the specified interface
Enabling Mpls TE-FRR on an SVI Interface
Enabling Mpls TE-FRR for EoMPLS on a Global Interface
34-6
Pseudowire-class pw-class-name
34-7
Enabling Mpls TE-FRR for EoMPLS on an Interface
Xconnect peer-ip-address vc-id pw-classpw-class-name
34-8
34-9
Enabling Mpls TE-FRR for IS-IS
34-10
34-11
Configuring Primary One-hop Auto-Tunnels
34-12
34-13
Configuring Backup Auto-Tunnels
34-14
Mpls ldp discovery targeted-hello accept command
34-15
Ip rsvp signalling hello bfd
Enabling BFD Triggered FRR on an SVI Interface
Messages from all neighbors
34-16
Configuration mode
Enable Configure terminal Ip rsvp signalling hello bfd
Enabling BFD Triggered FRR on a Router
Router# show mpls traffic-eng tunnels brief
Verifying Mpls TE-FRR Configuration
Verification Examples
34-17
Router# show mpls traffic-eng fast-reroute database
Use the following command to verify the reservation detail
Router# show mpls traffic-eng tunnels backup
34-18
Router# show ip rsvp fast-reroute
Verifying Backup Auto-Tunnels
Verifying Primary One-hop Auto-Tunnels
34-19
34-20
Verifying BFD Triggered FRR Configuration
Database
34-21
Router# show ip rsvp hello
34-22
Router# show ip rsvp hello bfd nbr detail
34-23
Router# show ip rsvp interface detail
Router# show ip rsvp hello bfd nbr
Example Configuring BFD Triggered FRR
Example Configuring Mpls TE-FRR
Example Configuring Primary One-hop Auto-Tunnels
Example Configuring Backup Auto-Tunnels
34-25
Mpls TE FRR
34-26
34-27
34-28
35-1
Layer 2 Control Protocol Peering, Forwarding, and Tunneling
35-2
Layer 2 Control Protocol Forwarding
Layer 2 Control Protocol Tunneling
35-3
35-4
Configuring Layer 2 Peering
Default Action Configuration Option
L2protocol peer protocol
35-5
Configuring Layer 2 Forwarding
35-6
Routerconfig-if# l2proto-forward tagged Cdp
Routerconfig-if# service instance Ethernet
Protocol-Specifies the protocol to be forwarded
35-7
Configuring Layer 2 Tunneling
35-8
L2protocol tunnel protocol Bridge-domain bridge-id
35-9
Verifying Layer 2 Peering
Verifying Layer 2 Forwarding
Verifying Layer 2 Tunneling
35-10
Example Configuring Layer 2 Peering
Example Configuring Layer 2 Forwarding
Following is a sample configuration of layer 2 peering
35-11
Example Configuring Layer 2 Tunneling
35-12
Router
35-13
35-14
Commands Cisco IOS LAN Switching Commands
35-15
Following command was introduced l2proto-forward
35-16
36-1
Configuring Inverse Muliplexing over ATM
36-2
How to Configure IMA
No ip address Atm bandwidth dynamic No atm ilmi-keepalive
Configuring ATM IMA on T1/E1 Interface
Ima-groupima-group-number
Interface ATMslot-number/IMAima-group-number
36-4
Configuring ATM IMA over Mpls
Configuring the T1/E1 Controller
36-5
Configuring an ATM IMA Interface
Clock source internal
Ima-groupgroup-number
36-6
Configuring ATM over Mpls Pseudowire Interface
Disables the Ilmi keepalive parameters
You can configure ATM over Mpls in the following modes
36-7
Configuring a Port Mode Pseudowire
Configuring an N-to-1 VCC Cell Mode
Configures the ATM interface
36-8
Configuring an N-to-1 vPC Cell Mode
Enable Configure terminal Interface ATMslot/IMAgroup-number
Xconnect ip-addressport-numberencapsulation mpls one-to-one
36-9
ATM AAL5 SDU VCC Transport
36-10
Verifying IMA Configurations
Sets the encapsulation type to AAL5. AAL5 is the default
L2transport encapsulation for the VCC mode
36-11
How to Configure ATM Class of Service
Configuring Constant Bit Rate
Enters the global configuration mode
36-12
Configuring Unspecified Bit Rate
Mode
Ubr+ pcr-rate mcr-rate
Configuring Unspecified Bit Rate Plus
ATM class of service with the rate equal to the bandwidth
IMA links and the bandwidth of each link
Mcr-rate-Peak cell rate in Mbps
Configures the UBR+ QoS class for an ATM permanent virtual
Circuit and specifies the bandwidth
Pcr-rate-Peak cell rate in Kbps
36-15
Configuration Examples
Example Configuring a Port Mode Pseudowire
Example Creating an IMA Interface
Example Configuring UBR
Example Configuring an N-to-1 VCC Cell Mode
Example Configuring an N-to-1 VPC Cell Mode
Example Configuring CBR
Example Configuring VBR for Non-Real Time Traffic
Configuring Marking Mpls Experimental Bits
Example Configuring UBR Plus
Example Configuring VBR for Real Time Traffic
36-18
Applying the Policy-map
Applying a Policy map on PVC and PVP
36-19
Disables the Ilmi trap parameters
Sets the PVC encapsulation type to AAL0
Attaches a policy map to the input interface
36-20
Applying a Policy map on ATM IMA Interface
Interface ATM slot/IMA group-number
Creating a Table-map
Table-maptable-map-name
36-21
36-22
Default copy
Creating a Policy-map for SVI Interface
Map from from-value to to-value
36-23
Applying a Service Policy on SVI Interface
Mpls ip Service-policy output policy-map-name
36-24
36-25
36-26
Feature Information for Inverse Multiplexing over ATM
37-1
IPv6 over Mpls 6PE and 6VPE
37-2
37-3
Benefits of 6PE and 6VPE
IPv6 on Provider Edge Routers
PE equipment, connected to CEs and entry
IPv6 on VPN Provider Edge Routers
Components of MPLS-based 6VPE Network
IPv6 router on the customer
37-5
Supported Features
Interface Numbers
How to Configure IPv6 over Mpls 6PE and 6VPE
Configuring 6PE
Scalability Numbers
37-7
Address-family ipv6
Exit-address-family
37-8
37-9
Configuring 6VPE
Setting up IPv6 Connectivity from PE to CE Routers
37-10
Setting up MP-BGP Peering to the Neighboring PE
VRF table for an IPv6 address
Vrf-name-Optional a specific VRF table for an IPv6
Extended-Specifies that only extended communities will be
Places the router in address family configuration mode for
Enable the exchange of information with a BGP neighbor
Address prefixes
37-12
Setting up MPLS/IPv4 Connectivity with LDP
37-13
Creating IPv6 VRFs on PE Routers
Address-family ipv4
To configure dual-stack VRF, complete the following steps
Sessions that use standard IPv4 address prefixes
37-14
Router# show ipv6 protocols vrf vpe1
Verifying IPv6 over Mpls 6PE and 6VPE Configuration
37-15
Router# show bgp vpnv6 unicast all
Router# show ipv6 cef vrf cisco1
37-16
Router# show mpls forwarding-table vrf vpe1
37-17
Router# show ipv6 route vrf
Router# show bgp ipv6 200133/64
Example Configuring 6PE
Following is a sample configuration of 6PE
37-18
37-19
Example Configuring 6VPE
Following is a sample configuration of 6VPE
37-20
37-21
Feature Information for IPv6 over Mpls 6PE and 6VPE
37-22
38-1
Storm Control
38-2
Configuring Storm Control
38-3
38-4
Verifying Storm Control
Storm-control
Configuring Error Disable Recovery
Errdisable recovery cause
38-5
Cause
Monitoring Error Disable Recovery
Seconds-Specifies the time to recover from a specified
Error-disable cause
Router# debug platform hardware ether SC
Configuration Example for Storm Control
38-7
38-8
38-9
Feature Information for Storm Control
38-10
39-1
Remote Loop-Free Alternate Fast Reroute
39-2
Remote LFA-FRR Link Protection
39-3
39-4
Pseudowire Redundancy over FRR
Benefits of Remote LFA-FRR
Avoiding Traffic Drops
39-5
Conditions for Switchover
CESoPSN, SAToP, and ATM/IMA
39-6
Configuring Remote LFA-FRR for IS-IS
Ip router isis
Switch Virtual Interface SVI
Specifies an IP address for the specified interface
39-7
39-8
39-9
Configuring Remote LFA-FRR for Ospf
Router ospf
Enables the Ospf routing protocol and enters the router
39-10
39-11
Configuring Remote LFA-FRR for Ethernet and TDM Pseudowires
Enables Mpls LDP synchronization on interfaces for an Ospf
39-12
Configuring Remote LFA-FRR on a Global Interface
Accept-Configures the router to respond to requests for
Targeted hello messages from all neighbors
39-13
Configuring Remote LFA-FRR on a GigabitEthernet Interface
39-14
Configuring Remote LFA-FRR on an SVI Interface
39-15
Configuring Remote LFA-FRR on IS-IS
39-16
Passive-interfaceinterface-type interface-number
39-17
39-18
39-19
Configuring LFA-FRR for EoMPLS
Disables sending routing updates on an interface
Backup peer peer-ip-address vc-id
Negotiation auto
Removes an IP address or disables IP processing
Enables automatic negotiation
39-20
39-21
Configuring LFA-FRR for ATM/IMA
39-22
39-23
Configuring LFA-FRR for CESoPSN
Backup peer peer-ip-address
Exit Interface CEM slot/port No ip address
39-24
39-25
Configuring LFA-FRR for SAToP
Exit Interface CEM slot/port
39-26
39-27
Verification Examples for Remote LFA-FRR
Router# show ip cef 171.1.1.0 internal
Verifying Remote LFA-FRR Configuration
39-28
Router# show ip ospf fast-reroute remote-lfa tunnels
Router# show isis fast-reroute remote-lfa tunnels
39-29
Router# show ip ospf rib
Router# show mpls l2transport vc 1 detail
39-30
Router# show isis rib
39-31
Router# show mpls l2transport vc 3001 detail
39-32
Router# show mpls l2 vc 90 detail
Verifying Remote LFA-FRR Configuration on IS-IS
Verifying Remote LFA-FRR Configuration on ATM/IMA
39-33
Router# show mpls l2 vc 111 detail
Verifying Remote LFA-FRR Configuration on CESoPSN
39-34
39-35
Configuration Examples for Remote LFA-FRR
Verifying Remote LFA-FRR Configuration on SAToP
39-36
Example Configuring Remote LFA-FRR for IS-IS
Example Configuring Remote LFA-FRR for Ospf
Example Configuring Remote LFA-FRR Globally
39-37
Example Configuring Remote LFA-FRR on an SVI Interface
Example Configuring EoMPLS Pseudowire Redundancy over FRR
Example Configuring LFA-FRR on ATM/IMA
39-38
Example Configuring LFA-FRR on CESoPSN
Example Configuring LFA-FRR on SAToP
39-39
39-40
Reroute,
40-1
Digital Optical Monitoring
40-2
How to Enable Transceiver Monitoring
Enters transceiver type configuration mode
Routerconfig# transceiver type all
40-3
Show interfaces transceiver command
Examples
Example Displaying Transceiver Information
Router# show interfaces transceiver detail
Example Displaying Detailed Transceiver Information
40-4
40-5
Example Displaying List of Supported Transceivers
40-6
Example Displaying Threshold Tables
40-7
40-8
Router# show interfaces transceiver threshold violations
Example When Transceiver Monitoring is Disabled
Example Displaying Threshold Violations
40-9
40-10
Example Displaying SPF Details
SCP6G44-C1-BMH
40-11
40-12
SFF-8472
40-13
Feature Information for Digital Optical Monitoring
40-14
41-1
IPv4 Multicast
41-2
Protocol Independent Multicast
Supported Protocols
PIM SSM for IPv4
Source Specific Multicast
41-4
IGMPv1
IGMPv2
IGMPv3
Static SSM Mapping
Ip igmp static ssm-map command
PIM SSM Mapping
Reverse Path Forwarding
Ip pim sparse-mode Asr901-multicast source
Configuring IPv4 Multicast
Enables multicast routing
Enabling IPv4 Multicast Routing
41-7
Configuring PIM SSM
Enable Configure terminal Ip pim ssm default
Ip pim sparse-mode Ip igmp version
41-8
Configuring PIM SSM Mapping
Ip igmp ssm-map static access-list source-address
41-9
Verifying IPv4 Multicast Routing
Verifying PIM SSM
Router# show ip igmp ssm-mapping
Verifying PIM SSM Mapping
41-10
Router# show ip mroute
Show ip igmp groups interface-type detail
Configuration Examples for IPv4 Multicast
Show ip igmp groups group-address
Show ip igmp groups interface-type interface-number
41-12
Example Configuring PIM SSM
Example Configuring PIM SSM Mapping
Example IPv4 Multicast Routing
Router# debug ip igmp
Example Configuring Rendezvous Point
41-13
41-14
41-15
41-16
Feature Information for IPv4 Multicast
41-17
IGMPv2,
41-18
42-1
IPv6 Multicast
42-2
42-3
IPv6 Multicast Groups
IPv6 Multicast Routing Implementation
Multicast Listener Discovery Protocol for IPv6
42-4
Protocol Independent Multicast
42-5
PIM-Sparse Mode
PIM Source Specific Multicast
Source Specific Multicast Mapping for IPv6
42-6
Configuring IPv6 Multicast
Enabling IPv6 Multicast Routing
Rendezvous Point
42-7
Enable Configure terminal No ipv6 mfib
Disabling IPv6 Multicast Forwarding
42-8
Disables IPv6 multicast forwarding on the router
Disabling MLD Device-Side Processing
No ipv6 mld router
No ipv6 mld router
Configuring MLD Protocol on an Interface
42-9
42-10
Configuring a Rendezvous Point
42-11
Configuring PIM SSM Options
Enable Configure terminal Ipv6 pim
No ipv6 pim
Configuring IPv6 SSM Mapping
Disables PIM on the specified interface
Disabling PIM SSM Multicast on an Interface
42-13
Configure terminal Ipv6 mld vrf vrf-namessm-map enable
Verifying IPv6 Multicast
No ipv6 mld vrf vrf-namessm-map query dns
Router# show ipv6 pim interface
42-14
Router# show ipv6 mld interface gigabitethernet 0/1
Router# show ipv6 mld traffic
Router# show ipv6 pim neighbor count
42-15
Router# show ipv6 mld groups summary
Router# show ipv6 pim topology
42-16
Router# show ipv6 pim neighbor
Router# show ipv6 mroute
Router# show ipv6 pim range-list
42-17
Router# show ipv6 pim topology route-count
Router# show ipv6 pim group-map FF0EE0111
Router# show ipv6 pim join-prune statistic
42-18
Router# show ipv6 pim traffic
42-19
Following example
Router# show ipv6 mfib interface
42-20
Router# show ipv6 mfib status
Router# show ipv6 mfib summary
42-21
Configuration Examples for IPv6 Multicast
Example Configuring IPv6 SSM Mapping
Example Enabling IPv6 Multicast Routing
42-22
Command Name Description
42-23
42-24
Feature Information for IPv6 Multicast
Chapter of the IP Multicast PIM Configuration Guide
42-25
Chapter of the IP Multicast LSM Configuration Guide
42-26
43-1
Configuring Switched Port Analyzer
Span Limitations and Configuration Guidelines
43-2
Understanding Span
Following sections describe Span
43-3
Span Session
Source Interface
Span Traffic
Configuring Span
Destination Interface
Traffic Types
43-5
Removing Sources or Destination from a Span Session
Verifying Local Span
Configuration Examples for Span
Enable Configure terminal No monitor session sessionnumber
Clears existing Span configuration for a session
Rspan Vlan
43-7
43-8
43-9
Feature Information for Switched Port Analyzer
43-10
IN-1
See BSC
IN-2
IN-3
IN-4
IN-5
IN-6
See MSC
IN-7
IN-8
IN-9
IN-10