Configuring MSDP

Finding Feature Information

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Information About Configuring MSDP

This section describes how to configure the Multicast Source Discovery Protocol (MSDP on the switch. The MSDP connects multiple Protocol-Independent Multicast sparse-mode (PIM-SM) domains.

MSDP is not fully supported in this software release because of a lack of support for Multicast Border Gateway Protocol (MBGP), which works closely with MSDP. However, it is possible to create default peers that MSDP can operate with if MBGP is not running.

To use this feature, the active switch must be running the IP services feature set.

Understanding MSDP

MSDP allows multicast sources for a group to be known to all rendezvous points (RPs) in different domains. Each PIM-SM domain uses its own RPs and does not depend on RPs in other domains. An RP runs MSDP over the Transmission Control Protocol (TCP) to discover multicast sources in other domains.

An RP in a PIM-SM domain has an MSDP peering relationship with MSDP-enabled devices in another domain. The peering relationship occurs over a TCP connection, primarily exchanging a list of sources sending to multicast groups. The TCP connections between RPs are achieved by the underlying routing system. The receiving RP uses the source lists to establish a source path.

The purpose of this topology is to have domains discover multicast sources in other domains. If the multicast sources are of interest to a domain that has receivers, multicast data is delivered over the normal, source-tree building mechanism in PIM-SM. MSDP is also used to announce sources sending to a group. These announcements must originate at the domain’s RP.

MSDP depends heavily on the Border Gateway Protocol (BGP) or MBGP for interdomain operation. We recommend that you run MSDP in RPs in your domain that are RPs for sources sending to global groups to be announced to the Internet.

MSDP Operation

When a source sends its first multicast packet, the first-hop router (designated router or RP) directly connected to the source sends a PIM register message to the RP. The RP uses the register message to register the active source and to forward the multicast packet down the shared tree in the local domain. With MSDP configured, the RP also forwards a source-active (SA) message to all MSDP peers. The SA message identifies the source, the group the source is sending to, and the address of the RP or the originator ID (the IP address of the interface used as the RP address), if configured.

Each MSDP peer receives and forwards the SA message away from the originating RP to achieve peer reverse-path flooding (RPF). The MSDP device examines the BGP or MBGP routing table to discover which peer is the next hop toward the originating RP of the SA message. Such a peer is called an RPF peer (reverse-path forwarding peer). The MSDP device forwards the message to all MSDP peers other than the RPF peer. For information on how to configure an MSDP peer when BGP and MBGP are not supported, see the Configuring a Default MSDP Peer.

If the MSDP peer receives the same SA message from a non-RPF peer toward the originating RP, it drops the message. Otherwise, it forwards the message to all its MSDP peers.

The RP for a domain receives the SA message from an MSDP peer. If the RP has any join requests for the group the SA message describes and if the (*,G) entry exists with a nonempty outgoing interface list, the domain is interested in the group, and the RP triggers an (S,G) join toward the source. After the (S,G) join reaches the source’s DR, a branch of the source tree has been built from the source to the RP in the remote domain. Multicast traffic can now flow from the source across the source tree to the RP and then down the shared tree in the remote domain to the receiver.

MSDP Benefits

MSDP has these benefits:

  • It breaks up the shared multicast distribution tree. You can make the shared tree local to your domain. Your local members join the local tree, and join messages for the shared tree never need to leave your domain.

  • PIM sparse-mode domains can rely only on their own RPs, decreasing reliance on RPs in another domain. This increases security because you can prevent your sources from being known outside your domain.

  • Domains with only receivers can receive data without globally advertising group membership.

  • Global source multicast routing table state is not required, saving memory.

How to Configure MSDP

Default MSDP Configuration

MSDP is not enabled, and no default MSDP peer exists.

Configuring a Default MSDP Peer

In this software release, because BGP and MBGP are not supported, you cannot configure an MSDP peer on the local switch by using the ip msdp peer global configuration command. Instead, you define a default MSDP peer (by using the ip msdp default-peer global configuration command) from which to accept all SA messages for the switch. The default MSDP peer must be a previously configured MSDP peer. Configure a default MSDP peer when the switch is not BGP- or MBGP-peering with an MSDP peer. If a single MSDP peer is configured, the switch always accepts all SA messages from that peer.

This figure shows a network in which default MSDP peers might be used. A customer who owns Switch B is connected to the Internet through two Internet service providers (ISPs), one owning Router A and the other owning Router C. They are not running BGP or MBGP between them. To learn about sources in the ISP’s domain or in other domains, Switch B at the customer site identifies Router A as its default MSDP peer. Switch B advertises SA messages to both Router A and Router C but accepts SA messages only from Router A or only from Router C. If Router A is first in the configuration file, it is used if it is running. If Router A is not running, only then does Switch B accept SA messages from Router C. This is the default behavior without a prefix list.

If you specify a prefix list, the peer is a default peer only for the prefixes in the list. You can have multiple active default peers when you have a prefix list associated with each. When you do not have any prefix lists, you can configure multiple default peers, but only the first one is the active default peer as long as the router has connectivity to this peer and the peer is alive. If the first configured peer fails or the connectivity to this peer fails, the second configured peer becomes the active default, and so on.

The ISP probably uses a prefix list to define which prefixes it accepts from the customer’s router.

     Command or ActionPurpose
    Step 1configure terminal


    Example: 
    Router# configure terminal
     

    Enters global configuration mode.

     
    Step 2ip msdp default-peer ip-address | name [prefix-list list]


    Example: 
    Router(config)# ip msdp default-peer 10.1.1.1 prefix-list site-a
     

    Defines a default peer from which to accept all MSDP SA messages.

    • For ip-address | name, enter the IP address or Domain Name System (DNS) server name of the MSDP default peer.

    • (Optional) For prefix-list list, enter the list name that specifies the peer to be the default peer only for the listed prefixes. You can have multiple active default peers when you have a prefix list associated with each.

      When you enter multiple ip msdp default-peer commands with the prefix-list keyword, you use all the default peers at the same time for different RP prefixes. This syntax is typically used in a service provider cloud that connects stub site clouds.

      When you enter multiple ip msdp default-peer commands without the prefix-list keyword, a single active peer accepts all SA messages. If that peer fails, the next configured default peer accepts all SA messages. This syntax is typically used at a stub site.

     
    Step 3ip prefix-list name [description string] | seq number {permit | deny} network length


    Example: 
    Router(config)# prefix-list site-a seq 3 permit 12 network length 128
     

    (Optional) Creates a prefix list using the name specified in Step 2.

    • (Optional) For description string, enter a description of up to 80 characters to describe this prefix list.

    • For seq number, enter the sequence number of the entry. The range is 1 to 4294967294.

    • The deny keyword denies access to matching conditions.

    • The permit keyword permits access to matching conditions.

    • For network length, specify the network number and length (in bits) of the network mask that is permitted or denied.

     
    Step 4ip msdp description {peer-name | peer-address} text


    Example: 
    Router(config)# ip msdp description peer-name site-b
     

    (Optional) Configures a description for the specified peer to make it easier to identify in a configuration or in show command output.

    By default, no description is associated with an MSDP peer.

     
    Step 5end


    Example: 
    Router(config)# end
     

    Returns to privileged EXEC mode.

     
    Step 6show running-config


    Example: 
    Router# show running-config
     

    Verifies your entries.

     
    Step 7copy running-config startup-config


    Example: 
    Router# copy running-config startup-config
     

    (Optional) Saves your entries in the configuration file.

     

    Caching Source-Active State

    By default, the switch does not cache source/group pairs from received SA messages. When the switch forwards the MSDP SA information, it does not store it in memory. Therefore, if a member joins a group soon after a SA message is received by the local RP, that member needs to wait until the next SA message to hear about the source. This delay is known as join latency.

    If you want to sacrifice some memory in exchange for reducing the latency of the source information, you can configure the switch to cache SA messages.

    Beginning in privileged EXEC mode, follow these steps to enable the caching of source/group pairs. This procedure is optional.

       Command or ActionPurpose
      Step 1configure terminal


      Example: 
      Switch# configure terminal
       

      Enters global configuration mode.

       
      Step 2ip msdp cache-sa-state [list access-list-number]


      Example: 
      Switch(config)# ip msdp cache-sa-state 100
       

      Enables the caching of source/group pairs (create an SA state). Those pairs that pass the access list are cached.

      For list access-list-number, the range is 100 to 199.

      Note   

      An alternative to this command is the ip msdp sa-reques global configuration command, which causes the switch to send an SA request message to the MSDP peer when a new member for a group becomes active.

       
      Step 3access-list access-list-number {deny | permit} protocol source source-wildcard destination destination-wildcard


      Example: 
      Switch(config)# access-list 100 permit ip 171.69.0.0 0.0.255.255 224.2.0.0 0.0.255.255
       

      Creates an IP extended access list, repeating the command as many times as necessary.

      • For access-list-number, the range is 100 to 199. Enter the same number created in Step 2.

      • The deny keyword denies access if the conditions are matched. The permit keyword permits access if the conditions are matched.

      • For protocol, enter ip as the protocol name.

      • For source, enter the number of the network or host from which the packet is being sent.

      • For source-wildcard, enter the wildcard bits in dotted decimal notation to be applied to the source. Place ones in the bit positions that you want to ignore.

      • For destination, enter the number of the network or host to which the packet is being sent.

      • For destination-wildcard, enter the wildcard bits in dotted decimal notation to be applied to the destination. Place ones in the bit positions that you want to ignore.

      Recall that the access list is always terminated by an implicit deny statement for everything.

       
      Step 4end


      Example: 
      Switch(config)# end
       

      Returns to privileged EXEC mode.

       
      Step 5show running-config


      Example: 
      Switch# show running-config
       

      Verifies your entries.

       
      Step 6copy running-config startup-config


      Example: 
      Switch# copy running-config startup-config
       

      (Optional) Saves your entries in the configuration file.

       

      Requesting Source Information from an MSDP Peer

      Local RPs can send SA requests and get immediate responses for all active sources for a given group. By default, the switch does not send any SA request messages to its MSDP peers when a new member joins a group and wants to receive multicast traffic. The new member waits to receive the next periodic SA message.

      If you want a new member of a group to learn the active multicast sources in a connected PIM sparse-mode domain that are sending to a group, configure the switch to send SA request messages to the specified MSDP peer when a new member joins a group. The peer replies with the information in its SA cache. If the peer does not have a cache configured, this command has no result. Configuring this feature reduces join latency but sacrifices memory.

      This task is optional.

         Command or ActionPurpose
        Step 1configure terminal


        Example: 
        Switch# configure terminal
         

        Enters global configuration mode.

         
        Step 2ip msdp sa-request {ip-address | name}


        Example: 
        Switch(config)# ip msdp sa-request 171.69.1.1
         

        Configure the switch to send SA request messages to the specified MSDP peer.

        For ip-address | name, enter the IP address or name of the MSDP peer from which the local switch requests SA messages when a new member for a group becomes active.

        Repeat the command for each MSDP peer that you want to supply with SA messages.

         
        Step 3end


        Example: 
        Switch(config)# end
         

        Returns to privileged EXEC mode.

         
        Step 4show running-config


        Example: 
        Switch# show running-config
         

        Verifies your entries.

         
        Step 5copy running-config startup-config


        Example: 
        Switch# copy running-config startup-config
         

        (Optional) Saves your entries in the configuration file.

         

        Controlling Source Information that Your Switch Originates

        You can control the multicast source information that originates with your switch:

        • Sources you advertise (based on your sources)

        • Receivers of source information (based on knowing the requestor)

        For more information, see the Redistributing Sources and the Filtering Source-Active Request Messages.

        Redistributing Sources

        SA messages originate on RPs to which sources have registered. By default, any source that registers with an RP is advertised. The A flag is set in the RP when a source is registered, which means the source is advertised in an SA unless it is filtered.

        This task is optional.

           Command or ActionPurpose
          Step 1configure terminal


          Example: 
          Switch# configure terminal
           

          Enters global configuration mode.

           
          Step 2ip msdp redistribute [list access-list-name] [asn aspath-access-list-number] [route-map map]


          Example: 
          Switch(config)# ip msdp redistribute list 21
           

          Configures which (S,G) entries from the multicast routing table are advertised in SA messages.

          By default, only sources within the local domain are advertised.

          • (Optional) list access-list-name— Enters the name or number of an IP standard or extended access list. The range is 1 to 99 for standard access lists and 100 to 199 for extended lists. The access list controls which local sources are advertised and to which groups they send.

          • (Optional) asn aspath-access-list-number—Enters the IP standard or extended access list number in the range 1 to 199. This access list number must also be configured in the ip as-path access-list command.

          • (Optional) route-map map—Enters the IP standard or extended access list number in the range 1 to 199. This access list number must also be configured in the ip as-path access-list command.

          The switch advertises (S,G) pairs according to the access list or autonomous system path access list.

           
          Step 3Use one of the following:
          • access-listaccess-list-number { deny | permit } source [ source-wildcard ]
          • access-listaccess-list-number { deny | permit } protocol source source-wildcard destination destination-wildcard


          Example: 
          Switch(config)# access list 21 permit 194.1.22.0

          or 

          Switch(config)# access list 21 permit ip 194.1.22.0 1.1.1.1 194.3.44.0 1.1.1.1
           

          Creates an IP standard access list, repeating the command as many times as necessary.

          or

          Creates an IP extended access list, repeating the command as many times as necessary.

          • access-list-number—Enters the same number created in Step 2. The range is 1 to 99 for standard access lists and 100 to 199 for extended lists.

          • deny—Denies access if the conditions are matched. The permit keyword permits access if the conditions are matched.

          • protocol—Enters ip as the protocol name.

          • source—Enters the number of the network or host from which the packet is being sent.

          • source-wildcard—Enters the wildcard bits in dotted decimal notation to be applied to the source. Place ones in the bit positions that you want to ignore.

          • destination—Enters the number of the network or host to which the packet is being sent.

          • destination-wildcard—Enters the wildcard bits in dotted decimal notation to be applied to the destination. Place ones in the bit positions that you want to ignore.

          Recall that the access list is always terminated by an implicit deny statement for everything.

           
          Step 4end


          Example: 
          Switch(config)# end
           

          Returns to privileged EXEC mode.

           
          Step 5show running-config


          Example: 
          Switch# show running-config
           

          Verifies your entries.

           
          Step 6copy running-config startup-config


          Example: 
          Switch# copy running-config startup-config
           

          (Optional) Saves your entries in the configuration file.

           

          Filtering Source-Active Request Messages

          By default, only switches that are caching SA information can respond to SA requests. By default, such a switch honors all SA request messages from its MSDP peers and supplies the IP addresses of the active sources.

          However, you can configure the switch to ignore all SA requests from an MSDP peer. You can also honor only those SA request messages from a peer for groups described by a standard access list. If the groups in the access list pass, SA request messages are accepted. All other such messages from the peer for other groups are ignored.

          This task is optional.

             Command or ActionPurpose
            Step 1configure terminal


            Example: 
            Switch# configure terminal
             

            Enters global configuration mode.

             
            Step 2Use one of the following:
            • ip msdp filter-sa-request { ip-address | name }
            • ip msdp filter-sa-request { ip-address | name } list access-list-number


            Example: 
            Switch(config)# ip msdp filter sa-request 171.69.2.2
             

            Filters all SA request messages from the specified MSDP peer.

            or

            Filters SA request messages from the specified MSDP peer for groups that pass the standard access list. The access list describes a multicast group address. The range for the access-list-number is 1 to 99.

             
            Step 3access-list access-list-number {deny | permit} source [source-wildcard]


            Example: 
            Switch(config)# access-list 1 permit 192.4.22.0 0.0.0.255
             

            Creates an IP standard access list, repeating the command as many times as necessary.

            • For access-list-number, the range is 1 to 99.

            • The deny keyword denies access if the conditions are matched. The permit keyword permits access if the conditions are matched.

            • For source, enter the number of the network or host from which the packet is being sent.

            • (Optional) For source-wildcard, enter the wildcard bits in dotted decimal notation to be applied to the source. Place ones in the bit positions that you want to ignore.

            Recall that the access list is always terminated by an implicit deny statement for everything.

             
            Step 4end


            Example: 
            Switch(config)# end
             

            Returns to privileged EXEC mode.

             
            Step 5show running-config


            Example: 
            Switch# show running-config
             

            Verifies your entries.

             
            Step 6copy running-config startup-config


            Example: 
            Switch# copy running-config startup-config
             

            (Optional) Saves your entries in the configuration file.

             

            Controlling Source Information that Your Switch Forwards

            By default, the switch forwards all SA messages it receives to all its MSDP peers. However, you can prevent outgoing messages from being forwarded to a peer by using a filter or by setting a time-to-live (TTL) value.

            Using a Filter

            By creating a filter, you can perform one of these actions:

            • Filter all source/group pairs

            • Specify an IP extended access list to pass only certain source/group pairs

            • Filter based on match criteria in a route map

            This task is optional.

               Command or ActionPurpose
              Step 1configure terminal


              Example: 
              Switch# configure terminal
               

              Enters global configuration mode.

               
              Step 2Use one of the following:
              • ip msdp sa-filter out
                { ip-address | name }
              • ip msdp sa-filter out
                { ip-address | name } list access-list-number
              • ip msdp sa-filter out
                { ip-address | name } route-map map-tag


              Example: 
              Switch(config)# ip msdp sa-filter out switch.cisco.com

              or 

              Switch(config)# ip msdp sa-filter out list 100

              or 

              Switch(config)# ip msdp sa-filter out switch.cisco.com route-map 22
               

              • Filters all SA messages to the specified MSDP peer.

              • Passes only those SA messages that pass the IP extended access list to the specified peer. The range for the extended access-list-number is 100 to 199.

                If both the list and the route-map keywords are used, all conditions must be true to pass any (S,G) pair in outgoing SA messages.

              • Passes only those SA messages that meet the match criteria in the route map map-tag to the specified MSDP peer.

                If all match criteria are true, a permit from the route map passes routes through the filter. A deny filters routes.

               
              Step 3access-list access-list-number {deny | permit} protocol source source-wildcard destination destination-wildcard


              Example: 
              Switch(config)# access list 100 permit ip 194.1.22.0 1.1.1.1 194.3.44.0 1.1.1.1
               

              (Optional) Creates an IP extended access list, repeating the command as many times as necessary.

              • For access-list-number, enter the number specified in Step 2.

              • The deny keyword denies access if the conditions are matched. The permit keyword permits access if the conditions are matched.

              • For protocol, enter ip as the protocol name.

              • For source, enter the number of the network or host from which the packet is being sent.

              • For source-wildcard, enter the wildcard bits in dotted decimal notation to be applied to the source. Place ones in the bit positions that you want to ignore.

              • For destination, enter the number of the network or host to which the packet is being sent.

              • For destination-wildcard, enter the wildcard bits in dotted decimal notation to be applied to the destination. Place ones in the bit positions that you want to ignore.

              Recall that the access list is always terminated by an implicit deny statement for everything.

               
              Step 4end


              Example: 
              Switch(config)# end
               

              Returns to privileged EXEC mode.

               
              Step 5show running-config


              Example: 
              Switch# show running-config
               

              Verifies your entries.

               
              Step 6copy running-config startup-config


              Example: 
              Switch# copy running-config startup-config
               

              (Optional) Saves your entries in the configuration file.

               

              Using TTL to Limit the Multicast Data Sent in SA Messages

              You can use a TTL value to control what data is encapsulated in the first SA message for every source. Only multicast packets with an IP-header TTL greater than or equal to the ttl argument are sent to the specified MSDP peer. For example, you can limit internal traffic to a TTL of 8. If you want other groups to go to external locations, you must send those packets with a TTL greater than 8.

              This task is optional.

                 Command or ActionPurpose
                Step 1configure terminal


                Example: 
                Switch# configure terminal
                 

                Enters global configuration mode.

                 
                Step 2ip msdp ttl-threshold {ip-address | name} ttl


                Example: 
                Switch(config)# ip msdp ttl-threshold switch.cisco.com 0
                 

                Limits which multicast data is encapsulated in the first SA message to the specified MSDP peer.

                • For ip-address | name, enter the IP address or name of the MSDP peer to which the TTL limitation applies.

                • For ttl, enter the TTL value. The default is 0, which means all multicast data packets are forwarded to the peer until the TTL is exhausted. The range is 0 to 255.

                 
                Step 3end


                Example: 
                Switch(config)# end
                 

                Returns to privileged EXEC mode.

                 
                Step 4show running-config


                Example: 
                Switch# show running-config
                 

                Verifies your entries.

                 
                Step 5copy running-config startup-config


                Example: 
                Switch# copy running-config startup-config
                 

                (Optional) Saves your entries in the configuration file.

                 

                Controlling Source Information that Your Switch Receives

                By default, the switch receives all SA messages that its MSDP RPF peers send to it. However, you can control the source information that you receive from MSDP peers by filtering incoming SA messages. In other words, you can configure the switch to not accept them.

                You can perform one of these actions:

                • Filter all incoming SA messages from an MSDP peer

                • Specify an IP extended access list to pass certain source/group pairs

                • Filter based on match criteria in a route map

                This task is optional.

                   Command or ActionPurpose
                  Step 1configure terminal


                  Example: 
                  Switch# configure terminal
                   

                  Enters global configuration mode.

                   
                  Step 2Use one of the following:
                  • ip msdp sa-filter in
                    { ip-address | name }
                  • ip msdp sa-filter in
                    { ip-address | name } list access-list-number
                  • ip msdp sa-filter in
                    { ip-address | name } route-map map-tag


                  Example: 
                  Switch(config)# ip msdp sa-filter in switch.cisco.com

                  or 

                  Switch(config)# ip msdp sa-filter in list 100

                  or 

                  Switch(config)# ip msdp sa-filter in switch.cisco.com route-map 22
                   

                  • Filters all SA messages to the specified MSDP peer.

                  • Passes only those SA messages from the specified peer that pass the IP extended access list. The range for the extended access-list-number is 100 to 199.

                    If both the list and the route-map keywords are used, all conditions must be true to pass any (S,G) pair in outgoing SA messages.

                  • Passes only those SA messages from the specified MSDP peer that meet the match criteria in the route map map-tag.

                    If all match criteria are true, a permit from the route map passes routes through the filter. A deny filters routes.

                   
                  Step 3access-list access-list-number {deny | permit} protocol source source-wildcard destination destination-wildcard


                  Example: 
                  Switch(config)# access list 100 permit ip 194.1.22.0 1.1.1.1 194.3.44.0 1.1.1.1
                   

                  (Optional) Creates an IP extended access list, repeating the command as many times as necessary.

                  • access-list-number, enter the number specified in Step 2.

                  • The deny keyword denies access if the conditions are matched. The permit keyword permits access if the conditions are matched.

                  • For protocol, enter ip as the protocol name.

                  • For source, enter the number of the network or host from which the packet is being sent.

                  • For source-wildcard, enter the wildcard bits in dotted decimal notation to be applied to the source. Place ones in the bit positions that you want to ignore.

                  • For destination, enter the number of the network or host to which the packet is being sent.

                  • For destination-wildcard, enter the wildcard bits in dotted decimal notation to be applied to the destination. Place ones in the bit positions that you want to ignore.

                  Recall that the access list is always terminated by an implicit deny statement for everything.

                   
                  Step 4end


                  Example: 
                  Switch(config)# end
                   

                  Returns to privileged EXEC mode.

                   
                  Step 5show running-config


                  Example: 
                  Switch# show running-config
                   

                  Verifies your entries.

                   
                  Step 6copy running-config startup-config


                  Example: 
                  Switch# copy running-config startup-config
                   

                  (Optional) Saves your entries in the configuration file.

                   

                  Configuring an MSDP Mesh Group

                  An MSDP mesh group is a group of MSDP speakers that have fully meshed MSDP connectivity among one another. Any SA messages received from a peer in a mesh group are not forwarded to other peers in the same mesh group. Thus, you reduce SA message flooding and simplify peer-RPF flooding. Use the ip msdp mesh-group global configuration command when there are multiple RPs within a domain. It is especially used to send SA messages across a domain. You can configure multiple mesh groups (with different names) in a single switch.

                  This task is optional.

                     Command or ActionPurpose
                    Step 1configure terminal


                    Example: 
                    Switch# configure terminal
                     

                    Enters global configuration mode.

                     
                    Step 2ip msdp mesh-group name {ip-address | name}


                    Example: 
                    Switch(config)# ip msdp mesh-group 2 switch.cisco.com
                     

                    Configures an MSDP mesh group, and specifies the MSDP peer belonging to that mesh group.

                    By default, the MSDP peers do not belong to a mesh group.

                    • For name, enter the name of the mesh group.

                    • For ip-address | name, enter the IP address or name of the MSDP peer to be a member of the mesh group.

                    Repeat this procedure on each MSDP peer in the group.

                     
                    Step 3end


                    Example: 
                    Switch(config)# end
                     

                    Returns to privileged EXEC mode.

                     
                    Step 4show running-config


                    Example: 
                    Switch# show running-config
                     

                    Verifies your entries.

                     
                    Step 5copy running-config startup-config


                    Example: 
                    Switch# copy running-config startup-config
                     

                    (Optional) Saves your entries in the configuration file.

                     

                    Shutting Down an MSDP Peer

                    If you want to configure many MSDP commands for the same peer and you do not want the peer to become active, you can shut down the peer, configure it, and later bring it up. When a peer is shut down, the TCP connection is terminated and is not restarted. You can also shut down an MSDP session without losing configuration information for the peer.

                    This task is optional.

                       Command or ActionPurpose
                      Step 1configure terminal


                      Example: 
                      Switch# configure terminal
                       

                      Enters global configuration mode.

                       
                      Step 2ip msdp shutdown {peer-name | peer address}


                      Example: 
                      Switch(config)# ip msdp shutdown switch.cisco.com
                       

                      Shuts down the specified MSDP peer without losing configuration information.

                      For peer-name | peer address, enter the IP address or name of the MSDP peer to shut down.

                       
                      Step 3end


                      Example: 
                      Switch(config)# end
                       

                      Returns to privileged EXEC mode.

                       
                      Step 4show running-config


                      Example: 
                      Switch# show running-config
                       

                      Verifies your entries.

                       
                      Step 5copy running-config startup-config


                      Example: 
                      Switch# copy running-config startup-config
                       

                      (Optional) Saves your entries in the configuration file.

                       

                      Including a Bordering PIM Dense-Mode Region in MSDP

                      You can configure MSDP on a switch that borders a PIM sparse-mode region with a dense-mode region. By default, active sources in the dense-mode region do not participate in MSDP.


                      Note

                      We do not recommend using the ip msdp border sa-address global configuration command. It is better to configure the border router in the sparse-mode domain to proxy-register sources in the dense-mode domain to the RP of the sparse-mode domain and have the sparse-mode domain use standard MSDP procedures to advertise these sources.

                      The ip msdp originator-id global configuration command also identifies an interface to be used as the RP address. If both the ip msdp border sa-address and the ip msdp originator-id global configuration commands are configured, the address derived from the ip msdp originator-id command specifies the RP address.

                      This task is optional.

                         Command or ActionPurpose
                        Step 1configure terminal


                        Example: 
                        Switch# configure terminal
                         

                        Enters global configuration mode.

                         
                        Step 2ip msdp border sa-address interface-id


                        Example: 
                        Switch(config)# ip msdp border sa-address 0/1
                         

                        Configures the switch on the border between a dense-mode and sparse-mode region to send SA messages about active sources in the dense-mode region.

                        For interface-id, specifies the interface from which the IP address is derived and used as the RP address in SA messages.

                        The IP address of the interface is used as the Originator-ID, which is the RP field in the SA message.

                         
                        Step 3ip msdp redistribute [list access-list-name] [asn aspath-access-list-number] [route-map map]


                        Example: 
                        Switch(config)# ip msdp redistribute list 100
                         

                        Configures which (S,G) entries from the multicast routing table are advertised in SA messages.

                        For more information, see the Redistributing Sources.

                         
                        Step 4end


                        Example: 
                        Switch(config)# end
                         

                        Returns to privileged EXEC mode.

                         
                        Step 5show running-config


                        Example: 
                        Switch# show running-config
                         

                        Verifies your entries.

                         
                        Step 6copy running-config startup-config


                        Example: 
                        Switch# copy running-config startup-config
                         

                        (Optional) Saves your entries in the configuration file.

                         

                        Configuring an Originating Address other than the RP Address

                        You can allow an MSDP speaker that originates an SA message to use the IP address of the interface as the RP address in the SA message by changing the Originator ID. You might change the Originator ID in one of these cases:

                        • If you configure a logical RP on multiple switches in an MSDP mesh group.

                        • If you have a switch that borders a PIM sparse-mode domain and a dense-mode domain. If a switch borders a dense-mode domain for a site, and sparse-mode is being used externally, you might want dense-mode sources to be known to the outside world. Because this switch is not an RP, it would not have an RP address to use in an SA message. Therefore, this command provides the RP address by specifying the address of the interface.

                        If both the ip msdp border sa-address and the ip msdp originator-id global configuration commands are configured, the address derived from the ip msdp originator-id command specifies the address of the RP.

                        This task is optional.

                           Command or ActionPurpose
                          Step 1configure terminal


                          Example: 
                          Switch# configure terminal
                           

                          Enters global configuration mode.

                           
                          Step 2ip msdp originator-id interface-id


                          Example: 
                          Switch(config)# ip msdp originator-id 0/1
                           

                          Configures the RP address in SA messages to be the address of the originating device interface.

                          For interface-id, specify the interface on the local switch.

                           
                          Step 3end


                          Example: 
                          Switch(config)# end
                           

                          Returns to privileged EXEC mode.

                           
                          Step 4show running-config


                          Example: 
                          Switch# show running-config
                           

                          Verifies your entries.

                           
                          Step 5copy running-config startup-config


                          Example: 
                          Switch# copy running-config startup-config
                           

                          (Optional) Saves your entries in the configuration file.

                           

                          Monitoring and Maintaining MSDP

                          Commands that monitor MSDP SA messages, peers, state, and peer status:

                          Table 1 Commands for Monitoring and Maintaining MSDP

                          Command

                          Purpose

                          debug ip msdp [peer-address | name] [detail] [routes]

                          Debugs an MSDP activity.

                          debug ip msdp resets

                          Debugs MSDP peer reset reasons.

                          show ip msdp count [autonomous-system-number]

                          Displays the number of sources and groups originated in SA messages from each autonomous system. The ip msdp cache-sa-state command must be configured for this command to produce any output.

                          show ip msdp peer [peer-address | name]

                          Displays detailed information about an MSDP peer.

                          show ip msdp sa-cache [group-address | source-address | group-name | source-name] [autonomous-system-number]

                          Displays (S,G) state learned from MSDP peers.

                          show ip msdp summary

                          Displays MSDP peer status and SA message counts.

                          Commands that clear MSDP connections, statistics, and SA cache entries:

                          Table 2 Commands for Clearing MSDP Connections, Statistics, or SA Cache Entries

                          Command

                          Purpose

                          clear ip msdp peer peer-address | name

                          Clears the TCP connection to the specified MSDP peer, resetting all MSDP message counters.

                          clear ip msdp statistics [peer-address | name]

                          Clears statistics counters for one or all the MSDP peers without resetting the sessions.

                          clear ip msdp sa-cache [group-address | name]

                          Clears the SA cache entries for all entries, all sources for a specific group, or all entries for a specific source/group pair.

                          Configuration Examples for Configuring MSDP

                          Configuring a Default MSDP Peer: Example

                          This example shows a partial configuration of Router A and Router C in . Each of these ISPs have more than one customer (like the customer in ) who use default peering (no BGP or MBGP). In that case, they might have similar configurations. That is, they accept SAs only from a default peer if the SA is permitted by the corresponding prefix list.

                          Router A

                          Router(config)# ip msdp default-peer 10.1.1.1
Router(config)# ip msdp default-peer 10.1.1.1 prefix-list site-a
Router(config)# ip prefix-list site-b permit 10.0.0.0/1

                          Router C

                          Router(config)# ip msdp default-peer 10.1.1.1 prefix-list site-a 
Router(config)# ip prefix-list site-b permit 10.0.0.0/1

                          Caching Source-Active State: Example

                          This example shows how to enable the cache state for all sources in 171.69.0.0/16 sending to groups 224.2.0.0/16:

                          Switch(config)# ip msdp cache-sa-state 100
Switch(config)# access-list 100 permit ip 171.69.0.0 0.0.255.255 224.2.0.0 0.0.255.255

                          Requesting Source Information from an MSDP Peer: Example

                          This example shows how to configure the switch to send SA request messages to the MSDP peer at 171.69.1.1:

                          Switch(config)# ip msdp sa-request 171.69.1.1

                          Controlling Source Information that Your Switch Originates: Example

                          This example shows how to configure the switch to filter SA request messages from the MSDP peer at 171.69.2.2. SA request messages from sources on network 192.4.22.0 pass access list 1 and are accepted; all others are ignored.

                          Switch(config)# ip msdp filter sa-request 171.69.2.2 list 1
Switch(config)# access-list 1 permit 192.4.22.0 0.0.0.255

                          Controlling Source Information that Your Switch Forwards: Example

                          This example shows how to allow only (S,G) pairs that pass access list 100 to be forwarded in an SA message to the peer named switch.cisco.com:

                          Switch(config)# ip msdp peer switch.cisco.com connect-source gigabitethernet1/0/1
Switch(config)# ip msdp sa-filter out switch.cisco.com list 100
Switch(config)# access-list 100 permit ip 171.69.0.0 0.0.255.255 224.20 0 0.0.255.255

                          Controlling Source Information that Your Switch Receives: Example

                          This example shows how to filter all SA messages from the peer named switch.cisco.com:

                          Switch(config)# ip msdp peer switch.cisco.com connect-source gigabitethernet1/0/1
Switch(config)# ip msdp sa-filter in switch.cisco.com