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RSVP Setup Protection draft-shen-mpls-rsvp-setup-protection-00 Yimin Shen (Juniper Networks) Yuji Kamite (NTT Communication) IETF 83, Paris, France.

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Presentation on theme: "RSVP Setup Protection draft-shen-mpls-rsvp-setup-protection-00 Yimin Shen (Juniper Networks) Yuji Kamite (NTT Communication) IETF 83, Paris, France."— Presentation transcript:

1 RSVP Setup Protection draft-shen-mpls-rsvp-setup-protection-00 Yimin Shen (Juniper Networks) Yuji Kamite (NTT Communication) IETF 83, Paris, France

2 What is setup protection?  A mechanism that protects LSPs during initial Path message signaling time.  Based on RSVP facility-backup fast reroute. Why setup protection?  To improve the chances of establishment for LSPs whose explicit paths (EROs) are: Pre-computed; Statically configured; Computed based on a topology that may not reflect the state of every link/node in the network. Overview

3 RSVP Fast Reroute Establishment: 1.Signaling of protected LSP  Path message signals the desired path (ERO).  Resv message distributes labels and records route (RRO). 2.Setting up of local protection on each router  Next-hop address and label (Resv RRO).  Next-next-hop address and label (Resv RRO). Observation:  Local protection can only be established after the protected LSP has been set up.

4 Problem Description What will happen, if there is a link/node failure along the path when the initial Path message is being signaled? Typical behavior today:  RSVP sends PathErr.  IGP floods update-to-date TE info.  Ingress router computes a new path around the failure, and signals the new path.  Existing bypass LSP is ignored. bypass LSP i1i2i3 P 0 P 1 P 2 P 3 2. PathErr P 4 3. Path (dest = PE2, ERO = i1, i4, i2, i3) i4 1. Path (dest = PE2, ERO = i1, i2, i3) 4. Path 5. Path 6. Path

5 Problem Description (cont.) Issues:  If the desired path is pre-computed or fixed, an alternative path may not be possible.  Control plane convergence and path re-computation may introduce a significant delay, which can impact LSP signaling performance.  Existing bypass LSP will not be used, even if it is the preferred alternative path.

6 Setup Protection PLR (point of local repair) reroutes LSP through an existing bypass LSP.  Detects downstream link/node failure based on strict ERO.  Searches for an existing bypass LSP that is protecting the failed link/node.  Signals a backup LSP through the bypass LSP, using “sender template specific” method. MP (merge point) terminates the backup LSP, and re-creates the protected LSP. Two new LSP Attribute TLVs are defined:  Protected LSP Sender IPv4 Address TLV.  Protected LSP Sender IPv6 Address TLV.  Carried by the LSP_REQUIRED_ATTRIBUTES of Path message of the backup LSP.  Used by MP for recreating the protected LSP. bypass LSP i1i2i3 P 0 P 1 PLR P 2 MP P 3 6. Resv P 4 i4 1. Path (dest = PE2, ERO = i1, i2, i3) 2. Path 3. Path 4. Resv 5. Resv

7 Setup Protection (cont.) The LSP appears as if it was originally set up along the desired path and failed over to the bypass LSP.  PLR sends Resv with “local protection available” and “local protection in use” in RRO.  PLR sends PathErr of “tunnel locally repaired”. PLR may perform local reversion after the failed link/node is restored. bypass LSP i1i2i3 P 0 P 1 PLR P 2 MP P 3 P 4 i4 Backup LSP protected LSP

8 Next Steps  Questions and comments?  WG adoption?

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