Lsp Redundancy - Nokia 7705 SAR-W Series Manual

MPLS and RSVP-TE

3.5 LSP Redundancy

Each primary LSP can be protected by up to two secondary LSPs. When the LER
detects a primary LSP failure, it signals its secondary LSPs, if any have been
configured, and automatically switches to the first one that is available. LSP
redundancy supports shared risk link groups (SRLG). See
for more information on SRLG.
LSP redundancy differs from the Fast Reroute (FRR) feature in that LSP redundancy
is controlled by the LER that initiated the LSP, whereas FRR uses the node that
detects the failure to take recovery action. This means that LSP redundancy takes
longer to reroute traffic than FRR because failure messages need to traverse
multiple hops to reach the LER and activate LSP redundancy, whereas an FRR-
configured node responds immediately to bypass the failed node or link. See
TE Fast Reroute (FRR)
The following parameters can be configured for primary and secondary LSPs:
54
for more information on FRR.
• bandwidth — the amount of bandwidth needed for the secondary LSP can be
reserved and can be any value; it does not need to be identical to the value
reserved by the primary LSP. Bandwidth reservation can be set to 0, which is
equivalent to reserving no bandwidth.
• inclusion and exclusion of nodes — by including or excluding certain nodes, you
can ensure that the primary and secondary LSPs do not traverse the same
nodes and therefore ensure successful recovery. Each secondary LSP can have
its own list of included and excluded nodes.
• hop limit — the hop limit is the maximum number of LSRs that a secondary LSP
can traverse, including the ingress and egress LERs.
• standby (secondary LSPs only) — when a secondary LSP is configured for
standby mode, it is signaled immediately and is ready to take over traffic the
moment the LER learns of a primary LSP failure. This mode is also called
hot-standby mode.
When a secondary LSP is not in standby mode, then it is only signaled when the
primary LSP fails. If there is more than one secondary LSP, they are all signaled
at the same time (upon detection of a primary LSP failure) and the first one to
come up is used.
If a path-preference priority value is configured for standby secondary LSP
paths, the standby secondary LSP configured with the highest path priority
becomes the active LSP when the primary LSP fails.
Use subject to Terms available at: www.nokia.com
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MPLS Guide
Shared Risk Link Groups
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