One document matched: draft-ietf-ccamp-gmpls-egress-control-01.txt
Differences from draft-ietf-ccamp-gmpls-egress-control-00.txt
Network Working Group Lou Berger (Movaz Networks)
Internet Draft
Expiration Date: October 2004
April 2004
GMPLS Signaling Procedure For Egress Control
draft-ietf-ccamp-gmpls-egress-control-01.txt
Status of this Memo
This document is an Internet-Draft and is in full conformance with
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Abstract
This note clarifies the procedures for the control of the label used
on output/downstream interface of the egress node of a Label Switched
Path (LSP). Such control is also known as "Egress Control". Support
for Egress Control is implicit in Generalized Multi-Protocol Label
Switching (GMPLS) Signaling. This note does not modify GMPLS
signaling mechanisms and procedures and should be viewed as an
informative clarification of GMPLS Signaling - Resource ReserVation
Protocol-Traffic Engineering (RSVP-TE) Extensions.
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1. Background
The ability to control the label used on the output/downstream
interface of an egress node was one of the early requirements for
GMPLS. In the initial GMPLS drafts, this was called "Egress
Control". As the GMPLS drafts progressed, the ability to control a
label on an egress interface was generalized to support control of a
label on any interface. This generalization is seen in Section 6 of
[RFC3471] and Section 5.1 of [RFC3473]. In generalizing this
functionality, the procedures to support control of a label at the
egress were also generalized. While the result was intended to cover
egress control, this intention is not clear to all. This note
reiterates the procedures to cover control of a label used on an
egress output/downstream interface.
For context, the following is the text from the GMPLS signaling draft
dated June 2000:
6. Egress Control
The LSR at the head-end of an LSP can control the termination of the
LSP by using the ERO. To terminate an LSP on a particular outgoing
interface of the egress LSR, the head-end may specify the IP address
of that interface as the last element in the ERO, provided that that
interface has an associated IP address.
There are cases where the use of IP address doesn't provide enough
information to uniquely identify the egress termination. One case is
when the outgoing interface on the egress LSR is a component link of
a link bundle. Another case is when it is desirable to "splice" two
LSPs together, i.e., where the tail of the first LSP would be
"spliced" into the head of the second LSP. This last case is more
likely to be used in the non-PSC classes of links.
and
6.2. Procedures
The Egress Label subobject may appear only as the last subobject in
the ERO/ER. Appearance of this subobject anywhere else in the ERO/ER
is treated as a "Bad strict node" error.
During an LSP setup, when a node processing the ERO/RR performs Next
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Hop selection finds that the second subobject is an Egress Label
Subobject, the node uses the information carried in this subobject to
determine the handling of the data received over that LSP.
Specifically, if the Link ID field of the subobject is non zero, then
this field identifies a specific (outgoing) link of the node that
should be used for sending all the data received over the LSP. If
the Label field of the subobject is not Implicit NULL label, this
field specifies the label that should be used as an outgoing label on
the data received over the LSP.
Procedures by which an LSR at the head-end of an LSP obtains the
information needed to construct the Egress Label subobject are
outside the scope of this document.
2. Egress Control Procedures
This section is intended to complement Section 5.1.1 and 5.2.1 of
[RFC3473]. The procedures described in those sections are not
modified. This section clarifies procedures related to the label
used on an egress output/downstream interface.
2.1. ERO Procedures
Egress Control occurs when the node processing an ERO is the egress
and the ERO contains one or more subobjects related to the
output/downstream interface. In this case, the outgoing/downstream
interface is indicated in the ERO as the last listed local interface.
Note that an interface may be numbered or unnumbered.
To support Egress Control, an egress checks to see if the received
ERO contains an outgoing/downstream interface. If it does, the type
of the subobject or subobjects following the interface are examined.
If the associated LSP is unidirectional, one subobject is examined.
Two subobjects are examined for bidirectional LSPs. If the U-bit of
the subobject being examined is clear (0), then the value of the
label MUST be used for transmitting traffic associated with the LSP
on the indicated outgoing/downstream interface.
If the U-bit of the subobject being examined is set (1), then the
value of the label is used for upstream traffic associated with the
bidirectional LSP. Specifically, the label value will be used for
the traffic associated with the LSP that will be received on the
indicated outgoing/downstream interface.
Per [RFC3473], any errors encountered while processing the ERO,
including if the listed label(s) are not acceptable or cannot be
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supported in forwarding, SHOULD result in the generation of a PathErr
message with the error code "Routing Error" and error value of "Bad
Explicit Route Object" toward the sender.
2.2. RRO Procedures
In the case where an ERO is used to specify outgoing interface
information at the egress, the egress should include the specified
interface information and the specified label or labels, in the
corresponding RRO.
3. Security Considerations
This note clarifies procedures defined in [RFC3473], but does not
define any new procedures. As such, no new security considerations
are introduced.
4. IANA Considerations
None.
5. Acknowledgments
Valuable comments and input were received from Adrian Farrel and Alan
Kullberg.
6. Normative References
[BCP78] Bradner, S., "IETF Rights in Contributions", RFC 3667,
February 2004.
[BCP79] Bradner, S., "Intellectual Property Rights in IETF
Technology", RFC 3668, February 2004.
[RFC3471] Berger, L., Editor, "Generalized Multi-Protocol
Label Switching (GMPLS) Signaling Functional
Description", RFC 3471, January 2003.
[RFC3473] Berger, L., Editor "Generalized Multi-Protocol Label
Switching (GMPLS) Signaling - Resource ReserVation
Protocol-Traffic Engineering (RSVP-TE) Extensions",
RFC 3473, January 2003.
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7. Contact Address
Lou Berger
Movaz Networks, Inc.
7926 Jones Branch Drive
Suite 615
McLean VA, 22102
Phone: +1 703 847-1801
Email: lberger@movaz.com
8. Full Copyright Statement
Copyright (C) The Internet Society (2004). This document is subject
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ipr@ietf.org.
By submitting this Internet-Draft, I certify that any applicable
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RFC 3668.
Berger [Page 6]
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