MPLS Working Group Zafar Ali
Internet Draft Cisco Systems, Inc.
Intended status: Informational March 08, 2010
Expires: September 7, 2010
Signaled PID When Multiplexing Multiple PIDs over RSVP-TE LSPs
draft-ali-mpls-sig-pid-multiplexing-case-03.txt
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Abstract
There are many deployment scenarios where an RSVP-TE LSP carries
multiple payloads. In these cases, it gets ambiguous on what
should value should be carried as L3PID in the Label Request
Object [RFC3209] or G-PID in the Generalized Label Request Object
[RFC3471], [RFC3473]. The document proposes use of some dedicated
PID values to cover some typical cases of multiple payloads
carried by the LSP.
Conventions used in this document
In examples, "C:" and "S:" indicate lines sent by the client and
server respectively.
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL
NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and
"OPTIONAL" in this document are to be interpreted as described in
RFC-2119 0.
Table of Contents
1. Introduction...............................................3
2. Some use cases.............................................3
2.1. PID = 0x0800 (IPv4 Payload)...........................3
2.2. PID = 0x86DD (IPv6 Payload)...........................3
2.3. Ignore PID............................................4
3. Security Considerations....................................4
4. IANA Considerations........................................4
5. Acknowledgments............................................4
6. References.................................................4
6.1. Normative References..................................4
6.2. Informative References................................4
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Author's Addresses............................................5
Copyright Notice...................Error! Bookmark not defined.
Legal..............................Error! Bookmark not defined.
1. Introduction
When an RSVP-TE LSP is used to carry multiple payload type (e.g.,
IPv6 and IPv4 payloads on the same LSP), it gets ambiguous on
what value should be carried as L3PID in the Label Request Object
[RFC3209] or G-PID in the Generalized Label Request Object
[RFC3471], [RFC3473]. It also gets unclear at the receiver that
source may be multiplexing multiple payloads on the same RSVP-TE
LSP. The document clarifies some of the use cases where RSVP-TE
LSP is used to carry multiple payloads and what PID should be
used during signaling.
2. Some use cases
This section outlines some used cases. Use cases for edge-to-edge
LSPs, service LSPs carrying multiple clients, service LSPs
optimized for carrying IPv4 payload, service LSPs optimized for
carrying IPv6 payload as defined in [MPLS-TP-FRAMEWORK] are to be
documented in a later version of this document.
2.1. PID = 0x0800 (IPv4 Payload)
This case is optimized for carrying IPv4 payload such that IPv4
packets travel without need for any additional information
(label) to identify the payload, i.e., IPv4 payload is identified
by the signaling. If multiplexing of additional payloads is
desired, some in-band data plane mechanisms are needed to
identify the payload. E.g., if IPv4 and IPv6 payloads are
multiplexed on the same tunnel, an IPv6 Explicit Null Label or
some other application label is used to identify IPv6 payload.
There are multiple implementations that implement this today.
2.2. PID = 0x86DD (IPv6 Payload)
This case is optimized for carrying IPv6 payload such that IPv6
packets travel without need for any additional information
(label) to identify the payload, i.e., IPv6 payload is identified
by the signaling. If multiplexing of additional payloads is
desired, some in-band data plane mechanisms are needed to
identify the payload. E.g., if IPv4 and IPv6 payloads are
multiplexed on the same tunnel, an IPv4 Explicit Null Label or
some other application label is used to identify IPv4 payload.
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2.3. Ignore PID
This case is the case where payload to be carried by the LSP is
not known to the Ingress node. Payload identification is obtained
via some means other than signaling and egress node ignores the
signaled PID. This case is addressed by [OOB-MAPPING].
3. Security Considerations
This document does not introduce any new security issues above
those identified in [RFC3209], [RFC3471] and [RFC3473].
4. IANA Considerations
This document has no IANA actions.
5. Acknowledgments
The authors would like to thank Rahul Aggarwal for comments and
suggestions.
6. References
6.1. Normative References
[RFC3209] Awduche D., Berger, L., Gan, D., Li T., Srinivasan, V.,
Swallow, G., "RSVP-TE: Extensions to RSVP for LSP
Tunnels", RFC 3209, December 2001.
[RFC3471] Berger, L., "Generalized Multi-Protocol Label
Switching (GMPLS) Signaling Functional Description",
RFC 3471, January 2003.
[RFC3473] Berger, L., "Generalized Multi-Protocol Label
Switching (GMPLS) Signaling Resource ReserVation
Protocol-Traffic Engineering (RSVP-TE) Extensions", RFC
3473, January 2003.
[OOB-MAPPING] Z. Ali, G. Swallow and R. Aggarwal, "Non PHP
Behavior and out-of-band mapping for RSVP-TE LSPs",
draft-ietf-mpls-rsvp-te-no-php-oob-mapping-03.txt, work
in progress.
6.2. Informative References
[MPLS-TP-FRAMEWORK] "A Framework for MPLS in Transport
Networks",draft-ietf-mpls-tp-framework-10.txt, work in progress.
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Author's Addresses
Zafar Ali
Cisco Systems, Inc.
Email: zali@cisco.com
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