MPLS Working Group Kamran Raza
Internet Draft Sami Boutros
Updates: 5036, 4447 (if approved) Luca Martini
Intended status: Standards Track Cisco Systems, Inc.
Expires: July 12, 2012
Nicolai Leymann
Deutsche Telekom
January 13, 2012
Applicability of LDP Label Advertisement Mode
draft-raza-mpls-ldp-applicability-label-adv-02.txt
Abstract
An LDP speaker negotiates the label advertisement mode with its LDP
peer at the time of session establishment. Although different
applications sharing the same LDP session may need different modes
of label distribution and advertisement, there is only one type of
label advertisement mode that is negotiated and used per LDP
session. This document clarifies the use and the applicability of
session's negotiated label advertisement mode, and categorizes LDP
applications into two broad categories of negotiated mode-bound and
mode-independent applications. The document also suggests an update
to RFC5036 and RFC4447 to remove any ambiguity and conflict in the
area of using correct label advertisement mode for a given
application.
Status of this Memo
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Table of Contents
1. Introduction ................................................... 3
2. Conventions used in this document .............................. 3
3. Label Advertisement Mode Applicability ......................... 4
3.1. Label Advertisement Mode Negotiation ...................... 4
3.2. Mode-based Categorization of LDP Applications ............. 4
3.2.1. Session mode-bound Applications .................... 5
3.2.2. Session mode-independent Applications .............. 5
4. Clarification on Mode Applicability ............................ 6
4.1. Update to RFC-5036 ........................................ 6
4.2. Update to RFC-4447 ........................................ 6
5. Future Work .................................................... 7
6. Security Considerations ........................................ 7
7. IANA Considerations ............................................ 7
8. References ..................................................... 7
8.1. Normative References ...................................... 7
8.2. Informative References .................................... 7
9. Acknowledgments ................................................ 8
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1. Introduction
The MPLS architecture [RFC3031] defines two modes of label
advertisement for an LSR:
1. Downstream-on-Demand
2. Unsolicited Downstream
The "Downstream-on-Demand" mode requires an LSR to explicitly
request the label binding for FECs from its peer, whereas
"Unsolicited Downstream" mode allows an LSR to distribute the label
binding for FECs unsolicitedly to LSR peers that have not explicitly
requested them. The MPLS architecture also specifies that on any
given label distribution adjacency, the upstream LSR and the
downstream LSR must agree to using a single label advertisement
mode.
Label Distribution Protocol (LDP) [RFC5036] allows label
advertisement mode negotiation at the session establishment time
(section 3.5.3 [RFC5036]). To comply with MPLS architecture, LDP
specification also dictates that only single label advertisement
mode is agreed and used on a given LDP session between two LSRs.
With the advent of new LDP applications, such as L2VPN [RFC4447],
mLDP [RFC6388], ICCP [ICCP], there are situations when an LDP
session is shared across more than one application to exchange label
bindings for different types of FEC. Although different applications
sharing the same LDP session may need a different type of label
advertisement mode negotiated, there is only one type of label
advertisement mode that is negotiated and agreed at the time of
establishment of LDP session.
This document clarifies the use and the applicability of session's
label advertisement mode for each application using the session. It
also categorizes LDP applications into two broad categories of mode-
bound and mode-independent applications.
The document also suggests an update to RFC-5036 and RFC-4447 to
remove any ambiguity and conflict in the area of using correct label
advertisement mode for a given LDP application.
2. Conventions used in this document
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 [RFC2119].
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The unqualified term "mode" used in document refers to "label
advertisement mode".
Please also note that LDP specification [RFC5036] uses the term
"Downstream Unsolicited" to refer to "Unsolicited Downstream". The
LDP specification also uses the terms "label distribution mode" and
"label advertisement mode" interchangeably. Like LDP specification
document, this document also uses these terms interchangeably.
3. Label Advertisement Mode Applicability
3.1. Label Advertisement Mode Negotiation
Label advertisement mode is negotiated between LSR peers at the time
of session establishment. The label advertisement mode is specified
in LDP Initialization message's "Common Session Parameter" TLV by
setting A-bit (Label Advertisement Discipline bit) to 1 or 0 for
Downstream-on-Demand or Downstream-Unsolicited modes respectively.
The negotiation of the A-bit is specified in section 3.5.3 of
[RFC5036] as follows:
"If one LSR proposes Downstream Unsolicited and the other proposes
Downstream on Demand, the rules for resolving this difference is:
- If the session is for a label-controlled ATM link or a
label- controlled Frame Relay link, then Downstream on Demand
MUST be used.
- Otherwise, Downstream Unsolicited MUST be used."
Once label advertisement mode has been negotiated and agreed, both
LSR peers must use the same mode for label binding exchange.
3.2. Mode-based Categorization of LDP Applications
The earlier applications, defined and identified at the time of
standardization of LDP base specification RFC-3036, using LDP to
exchange their FEC bindings were:
. Dynamic Label Switching for IP Prefixes
. Label-controlled ATM/FR
Since then, several new applications have emerged that use LDP to
signal their FEC bindings and/or application data. These include:
. L2VPN P2P PW ([RFC4447])
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. L2VPN P2MP PW ([P2MP-PW])
. mLDP ([RFC6388])
. ICCP ([ICCP])
We divide the LDP applications into two broad categories from label
advertisement mode usage point of view:
1. Session mode-bound Applications
2. Session mode-independent Applications
3.2.1. Session mode-bound Applications
We define a "session mode-bound application" to be an application
which uses the negotiated label advertisement mode. This means that
the FEC-label binding exchange for such an LDP applications MUST use
the label advertisement mode negotiated for the LDP session.
The early LDP applications "Dynamic Label Switching for IP Prefixes"
and "Label-controlled ATM/FR" fall into this category.
3.2.2. Session mode-independent Applications
We define a "session mode-independent application" to be an
application which does not care about the negotiated label
advertisement mode. This means that the FEC-label binding, or any
other application data, exchange for such an LDP application does
not care about, nor tied to the "negotiated" label advertisement
mode of the session; rather, the information exchange is driven by
the application need and procedures as described by its
specification document. For example, [RFC6388] specifies procedures
to advertise P2MP FEC label binding in an unsolicited manner,
irrespective of the negotiated label advertisement mode of the
session.
The applications, PW (P2P and P2MP), MLDP, and ICCP, fall into this
category of LDP application.
3.2.2.1. Upstream Label Assignment
As opposed to downstream assigned label advertisement defined by
[RFC3031], [RFC6389] specification defines new mode of label
advertisement where label advertisement and distribution occurs for
upstream assigned labels.
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As stated in earlier section 3.1 of this document, LDP base
specification RFC-5036 only allows specifying Downstream-Unsolicited
or Downstream-on-Demand mode. This means that any LDP application
that requires upstream assigned label advertisement also falls under
the category of Session mode-independent application.
4. Clarification on Mode Applicability
To remove any ambiguity and conflict amongst different
specifications with regards to the use of LDP session's label
advertisement mode, we propose an update to LDP base specification
RFC-5036 to clarify the applicability of session's negotiated mode.
Furthermore, RFC-4447 specifies LDP extensions and procedures to
exchange label bindings for P2P PW FECs [RFC4447], and dictates the
use of Downstream-Unsolicited mode for an LDP session related to
L2VPN PW. This mode dictation creates a direct conflict in
situations when a PW LDP session is shared with an LDP application
with Downstream-on-Demand mode (such as Label switching Application
for IP prefixes). To remove such a conflict, we also propose an
update to a section of RFC-4447.
4.1. Update to RFC-5036
The section 3.5.3 of [RFC5036] is updated to add following two
statements under the description of "A, Label Advertisement
Discipline":
- The negotiated label advertisement discipline only applies to FEC
label binding advertisement of "Address Prefix" FECs;
- Any document specifying a new FEC SHOULD state the applicability
of the negotiated label advertisement discipline for that FEC.
4.2. Update to RFC-4447
The section 3 of [RFC4447] states:
"LDP MUST be used in its downstream unsolicited mode."
Since PW application falls under session mode-independent
application category, the above statement in [RFC4447] should be
read to mean as follows:
"LDP MUST exchange PW FEC label bindings in downstream unsolicited
manner, independent of the negotiated label advertisement mode of
the LDP session".
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5. Future Work
This document only clarifies the existing behavior for LDP label
advertisement mode for different applications without defining any
protocol extensions. In future, a new LDP capability [RFC5561] based
mechanism can also be defined to signal/negotiate label
advertisement mode per FEC/application.
Moreover, it is RECOMMENDED to clearly categorize any new LDP
application in future with regards to the advertisement mode (as per
section 3.2. ). The specification document of such an application
SHOULD explicitly state the application category.
6. Security Considerations
This document specification only clarifies the applicability of LDP
session's label advertisement mode, and hence does not add any LDP
security mechanics and considerations to those already defined in
LDP specification [RFC5036].
7. IANA Considerations
None.
8. References
8.1. Normative References
[RFC5036] L. Andersson, I. Minei, and B. Thomas, "LDP
Specification", RFC 5036, September 2007.
[RFC4447] L. Martini, Editor, E. Rosen, El-Aawar, T. Smith, G.
Heron, "Pseudowire Setup and Maintenance using the Label
Distribution Protocol", RFC 4447, April 2006.
[RFC3031] E. Rosen, A. Viswanathan, and R. Callon, "Multiprotocol
Label Switching Architecture", RFC 3031, January 2001.
[RFC2119] S. Bradner, "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC2119, March 1997.
8.2. Informative References
[P2MP-PW] S. Boutros, L. Martini, S. Sivabalan, G. Del Vecchio,
Kamite, L. Jin, "Signaling Root-Initiated P2MP PWs using
LDP", draft-ietf-pwe3-p2mp-pw-03.txt, Work in Progress,
October 2011.
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[RFC6388] I. Minei, I. Wijnand, K. Kompella, B., "LDP Extensions for
P2MP and MP2MP LSPs", RFC 6388, November 2011.
[ICCP] L. Martini, S. Salam, A. Sajassi, and S. Matsushima,
"Inter-Chassis Communication Protocol for L2VPN PE
Redundancy", draft-ietf-pwe3-iccp-06.txt, Work in
Progress, July 2011.
[RFC6389] R. Aggarwal, and J.L. Le Roux, "MPLS Upstream Label
Assignment for LDP", RFC 6389, November 2011.
[RFC5561] B. Thomas, K. Raza, S. Aggarwal, R. Aggarwal, and J.L. Le
Roux, "LDP Capabilities", RFC 5561, July 2009.
9. Acknowledgments
We acknowledge the authors of [RFC5036] and [RFC4447] since some of
the text in this document is borrowed from their specification. We
also acknowledge Eric Rosen and Rajiv Asati for their review and
input.
This document was prepared using 2-Word-v2.0.template.dot.
Authors' Addresses
Kamran Raza
Cisco Systems, Inc.
2000 Innovation Drive,
Ottawa, ON K2K-3E8, Canada.
Email: skraza@cisco.com
Sami Boutros
Cisco Systems, Inc.
3750 Cisco Way,
San Jose, CA 95134, USA.
Email: sboutros@cisco.com
Luca Martini
Cisco Systems, Inc.
9155 East Nichols Avenue, Suite 400,
Englewood, CO 80112, USA.
Email: lmartini@cisco.com
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Nicolai Leymann
Deutsche Telekom,
Winterfeldtstrae 21-27,
10781 Berlin, Germany.
Email: N.Leymann@telekom.de
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