Table 53: Sub-TLVs Supported for the P2MP Responder Identifier TLV
(continued)
CommentsValueSubtype Number
The IPv6 address in the sub-TLV
might be of any physical interface
or the router ID of the node itself.
IPv6 Node Address P2MP
Responder Identifier
4
The echo response is always controlled by the Response Type field in the echo message
and also depends on whether the responding node is part of the point-to-multipoint LSP
that is denoted in the Target FEC Stack TLV. The following sections describe the sub-TLVs
of the P2MP Responder Identifier TLV, which are additional influencing factors to those
requirements and are not a replacement for those requirements:
•
Egress Address P2MP Responder Identifier Sub-TLVs on page 250
•
Node Address P2MP Responder Identifier Sub-TLVs on page 250
Egress Address P2MP Responder Identifier Sub-TLVs
You can use the IPv4 or IPv6 Egress Address P2MP Responder Identifier sub-TLVs in an
echo request that contains the RSVP P2MP Session or Multicast LDP FEC Stack sub-TLV.
An egress node that receives an echo request with this sub-TLV present responds only
if the node lies on the path to the address in the sub-TLV. The address in this sub-TLV
is the address of the egress node and does not specify the address of a branch or
intermediate node. This address is made available to the nodes upstream of the target
node, using signaling protocols, such as RSVP. This sub-TLV may be used to trace a
specific egress node in a point-to-multipoint LSP.
Node Address P2MP Responder Identifier Sub-TLVs
You can use the IPv4 or IPv6 Node Address P2MP Responder Identifier sub-TLVs in an
echo request that contains the RSVP P2MP Session or Multicast LDP FEC Stack sub-TLV.
A node that receives an echo request with this sub-TLV present responds only if the
address in the sub-TLV corresponds to any address that is local to the node. This address
in the sub-TLV might be of any physical interface or the router ID of the node itself. The
address in this sub-TLV can be the address of any transit, branch, or egress node for that
point-to-multipoint LSP.
Related Topics Troubleshooting MTU Problems in Point-to-Point LSPs on page 379•
• Ping Extensions for Point-to-Multipoint LSPs Connectivity Verification at Egress Nodes
on page 246
• Point-to-Multipoint LSPs Connectivity Verification at Egress Nodes Overview on page 246
• Verifying and Troubleshooting MPLS Connectivity on page 370
LDP Discovery Mechanisms
LDP uses two different mechanisms for peer discovery. Peer discovery removes the need
to explicitly configure the label-switching peers for an LSR.
Copyright © 2010, Juniper Networks, Inc.250
JunosE 11.2.x BGP and MPLS Configuration Guide
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