LDP-SR stitching configuration

The user enables the stitching between an LDP FEC and SR node-SID route for the same prefix by configuring the export of SR (LDP) tunnels from the CPM Tunnel Table Manager (TTM) into LDP (IGP).

In the LDP-to-SR data path direction, the existing tunnel table route export policy in LDP, which was introduced for LDP-BGP stitching, is enhanced to support the export of SR tunnels from the TTM to LDP. The user adds the config>router>policy-options>policy-statement>entry>from protocol isis [instance instance-id] or protocol ospf [instance instance-id] configuration to the LDP tunnel table export policy using the following command:

configure router ldp export-tunnel-table policy-name

The user can restrict the export to LDP of SR tunnels from a specific prefix list. The user can also restrict the export to a specific IGP instance by optionally specifying the instance ID in the "from" statement.

The "from protocol" statement has an effect only when the protocol value is IS-IS, OSPF, or BGP. Policy entries configured with any other value are ignored when the policy is applied. If the user configures multiple "from" statements in the same policy or does not include the "from" statement but adds a default accept action, then LDP follows the TTM selection rules as described in the "Segment Routing Tunnel Management" in the 7450 ESS, 7750 SR, 7950 XRS, and VSR Unicast Routing Protocols Guide to select a tunnel to which it stitches the LDP ILM to:

  1. LDP selects the tunnel from the lowest TTM preference protocol.

  2. If IS-IS and BGP protocols have the same preference, then LDP uses the default TTM protocol preference to select the protocol.

  3. Within the same IGP protocol, LDP selects the lowest instance ID.

When this policy is enabled in LDP, LDP listens to SR tunnel entries in the TTM. If an LDP FEC primary next hop cannot be resolved using an RTM route and a SR tunnel of type SR IS-IS or SR OSPF to the same destination exists in TTM, LDP programs an LDP ILM and stitches it to the SR node-SID tunnel endpoint. LDP also originates an FEC for the prefix and re-distributes it to its LDP and T-LDP peers. The latter allows an LDP FEC that is tunneled over a RSVP-TE LSP to have its ILM stitched to an SR tunnel endpoint. When a LDP FEC is stitched to a SR tunnel, forwarded packets benefit from the protection provided by the LFA/remote LFA backup next-hop of the SR tunnel.

When resolving a FEC, LDP prefers the RTM over the TTM when both resolutions are possible. That is, swapping the LDP ILM to an LDP NHLFE is preferred over stitching the LDP ILM to an SR NHLFE. This behavior can be overridden by enabling the prefer-protocol-stitching command (in the LDP context), in which case LDP prefers stitching to the SR tunnel, even if an LDP tunnel exists. This capability interacts with SR-to-LDP stitching; when SR stitches to LDP no SR tunnel entry is added to the TTM and the command has no effect.

In the SR-to-LDP data path direction, the SR mapping server provides a global policy for prefixes corresponding to the LDP FECs the SR needs to stitch to. For more information, see the 7450 ESS, 7750 SR, 7950 XRS, and VSR Unicast Routing Protocols Guide, " Segment Routing Mapping Server". As a result, a tunnel table export policy is not required. Instead, you can export to an IGP instance the LDP tunnels for FEC prefixes advertised by the mapping server using the following commands:

When this command is enabled in the segment-routing context of an IGP instance, IGP listens to LDP tunnel entries in the TTM. When a /32 LDP tunnel destination matches a prefix for which IGP has received a prefix-SID sub-TLV from a mapping server, IGP instructs the SR module to program the SR ILM and stitch it to the LDP tunnel endpoint. The SR ILM can stitch to an LDP FEC resolved over either link LDP or T-LDP. In the latter case, the stitching is performed to an LDP-over-RSVP tunnel. When an SR tunnel is stitched to an LDP FEC, packets forwarded benefit from the FRR protection of the LFA backup next-hop of the LDP FEC.

When resolving a node SID, IGP prefers a prefix SID received in an IP Reach TLV over a prefix SID received via the mapping server. That is, swapping the SR ILM to a SR NHLFE is preferred over stitching it to a LDP tunnel endpoint. For more information about prefix SID resolution, see the 7450 ESS, 7750 SR, 7950 XRS, and VSR Unicast Routing Protocols Guide, "Segment Routing Mapping Server Prefix SID Resolution".

It is recommended to enable the bfd-enable option on the interfaces in both LDP and IGP instance contexts to speed up the failure detection and the activation of the LFA/remote-LFA backup next-hop in either direction. This is particularly true if the injected failure is a remote failure.

This feature is limited to IPv4 /32 prefixes in both LDP and SR.