The MPLS WG Archive[Date Prev][Date Next][Thread Prev][Thread Next] [Date Index][Thread Index][Author Index][Subject Index] [mpls] Tree Re-merge in P2MP MPLS-TE
Hi,
One of the remaining unresolved issues in
draft-ietf-mpls-p2mp-sig-requirement is how to handle
a "re-merge" of the P2MP LSP.
A re-merge is defined as the receipt of more than one
signaling message at one LSR for the same LSP where
the messages are intended to establish the LSP to
different (possibly overlapping) sets of egresses.
The issues that arise concern both control plane state
and data plane traffic.
On the upstream side there are two possibilities.
1. The messages refer to the same upstream data plane interface.
2. The messages refer to different upstream data plane interfaces.
On the downstream side there are also two distinct possibilities.
a. There is no overlap of data flows. That is, each incoming signaling
message results in outgoing signaling message(s) that do not refer
to common data plane interfaces.
b. There is some "re-merge" of data flows such that outgoing signaling
messages caused by the separate incoming messages refer to the
same outgoing data plane interface.
The issues are clearly:
- a desire to reduce unnecessary control plane state
- a requirement not to duplicate traffic to any egress
- a desire not to duplicate traffic on any link.
The text in the current draft states:
4.11 Tree Remerge
It is possible for a single transit LSR to receive multiple
signaling messages for the same P2MP LSP but for different
sets of destinations. These messages may be received from the
same or different upstream nodes and may need to be passed on
to the same or different downstream nodes.
This situation may arise as the result of the signaling solution
definition or implementation options within the signaling
solution. Further, it may happen during make-before-break
reoptimization (section 4.10), or as a result of signaling
message fragmentation (section 4.5).
It is even possible that it is necessary to construct distinct
upstream branches in order to achieve the correct label choices
in certain switching technologies managed by GMPLS (for example,
photonic cross-connects where the selection of a particular
lambda for the downstream branches is only available on different
upstream switches).
The solution MUST handle the case where multiple signaling
messages for the same P2MP LSP are received at a single transit
LSR with the end result of all receivers being added to the
P2MP LSP.
It seems to us that this final paragraph is too loose and propose to
replace it as follows.
The solution MUST support the case where of multiple signaling
messages for the same P2MP LSP are received at a single transit
LSR and refer to the same upstream interface. In this case the
result of the protocol procedures SHOULD be a single data flow
on the upstream interface.
The solution SHOULD support the case where multiple signaling
messages for the same P2MP LSP are received at a single transit
LSR and refer to different upstream interfaces, and where each
signaling message results in the use of different downstream
interfaces. This case represents data flows that cross at the LSR
but which do not merge.
The solution MAY support the case where multiple signaling
messages for the same P2MP LSP are received at a single transit
LSR and refer to different upstream interfaces, and where the
downstream interfaces are shared across the received signaling
messages. This case represents the merging of data flows. A
solution that supports this case MUST ensure that data is not
replicated on the downstream interfaces.
An alternative to supporting this last case is for the signaling
protocol to indicate an error such that the merge may be
resolved by the upstream LSRs.
We would appreciate your input on this point.
Regards,
Seisho.
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