One document matched: draft-yasukawa-pce-p2mp-req-02.txt
Differences from draft-yasukawa-pce-p2mp-req-01.txt
Network Working Group Seisho Yasukawa
Internet Draft NTT
Category: Informational Adrian Farrel
Expires: August 2007 Old Dog Consulting
February 2007
PCC-PCE Communication Requirements for Point to Multipoint
Multiprotocol Label Switching Traffic Engineering (MPLS-TE)
draft-yasukawa-pce-p2mp-req-02.txt
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Abstract
The Path Computation Element (PCE) provides path computation
functions in support of traffic engineering in Multi-Protocol Label
Switching (MPLS) and Generalized MPLS (GMPLS) networks.
Extensions to the MPLS and GMPLS signaling and routing protocols have
been made in support of point-to-multipoint (P2MP) Traffic Engineered
(TE) Label Switched Paths (LSPs). Since P2MP TE LSP routes are
sometimes complex to compute, and given the use of PCE in MPLS
networks it is likely that PCE will be used in P2MP MPLS-TE networks.
Generic requirements for a communication protocol between Path
Computation Clients (PCCs) and PCEs are presented in "Path
Computation Element (PCE) Communication Protocol Generic
Requirements". This document complements the generic requirements and
presents a detailed set of PCC-PCE communication protocol
requirements for point-to-multipoint MPLS traffic engineering.
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Conventions used in this document
Although this document is not a protocol specification, the key words
"MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD",
"SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" are to be
interpreted as described in RFC 2119 [RFC2119] for clarity of
description of requirements.
1. Introduction
The Path Computation Element (PCE) defined in [RFC4655] is an entity
that is capable of computing a network path or route based on a
network graph, and applying computational constraints. The intention
is that the PCE is used to compute the path of Traffic Engineered
Label Switched Paths (TE LSPs) within Multiprotocol Label Switching
(MPLS) and Generalized MPLS (GMPLS) networks.
Requirements for point-to-multipoint (P2MP) MPLS TE LSPs are
documented in [RFC4461] and signaling protocol extensions for
setting up P2MP MPLS TE LSPs are defined in [P2MP-RSVP]. P2MP MPLS TE
networks are considered in support of various features including
layer 3 multicast VPNs.
Path computation for P2MP TE LSPs presents a significant challenge,
and network optimization of multiple P2MP TE LSPs requires
considerable computational resources. PCE offers a way to offload
such path computations from Label Swiching Routers (LSRs).
The applicability of the PCE-based path computation architecture to
P2MP MPLS TE is described in a companion document [PCE-P2MP-APP]. No
further attempt is made to justify the use of PCE for P2MP MPLS TE
within this document.
This document presents a set of PCC-PCE communication protocol
(PCECP) requirements for P2MP MPLS traffic engineering. It
supplements the generic requirements documented in [RFC4657].
2. PCC-PCE Communication Requirements for P2MP MPLS Traffic Engineering
This section sets out additional requirements not covered in
[RFC4657] specific to P2MP MPLS TE.
2.1. PCC-PCE Communication
The PCC-PCE communication protocol MUST allow requests and replies
for the computation of paths for P2MP LSPs.
This requires no additional messages, requires the addition of the
parameters described in the following sections to the PCC-PCE
communication protocol messages.
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2.1.1. Indication of P2MP Path Computation Request
Although the presence of certain parameters (such as a list of more
than one destination) MAY be used to infer that a path computation
request is for a P2MP LSP, an explicit parameter SHOULD be placed in
a conspicuous place within a Path Computation Request message to
allow a receiving PCE to easily identify that the request is for a
P2MP path.
2.1.2. Non-Support of P2MP Path Computation
Not all PCEs are required to support P2MP path computation. Therefore
it MUST be possible for a PCE to reject a P2MP Path Computation
Request message with a reason code that indicates no support for P2MP
path computation.
2.1.3. Non-Support by Back-Level PCE Implementations
It is possible that initial PCE implementations will be developed
without support for P2MP path computation and without the ability to
recognize the explicit parameter described in section 2.1.1.
Therefore, at least one parameter required for a P2MP path
computation request MUST be defined in such a way as to cause
automatic rejection as unprocessable or unrecognized by a back-level
PCE implementation without requiring any changes to that PCE. It is
RECOMMENDED that the parameter that causes this result is the
parameter described in section 2.1.1.
2.1.4. Specification of Destinations
Since P2MP LSPs have more than one destination, it MUST be possible
for a single Path Computation Request to list multiple destinations.
2.1.5. Indication of P2MP Paths
The Path Computation Response MUST be able to carry the path of a
P2MP LSP. This SHOULD be expressed as a compacted series of routes as
described in [P2MP-RSVP] although not necessarily using an identical
encoding. This path MAY be expressed as a non-compacted series of
source-to-destination routes.
2.1.6. Multi-Message Requests and Responses
A single P2MP LSP may have very many destinations, and the computed
path (tree) may be very extensive. In these cases it is possible that
the entire Path Computation Request or Response cannot fit within one
PCE message. Therefore it MUST be possible for a single request or
response to be conveyed by a sequence of messages.
Note that there is a requirement in [RFC4657] for reliable and
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in-order message delivery, so it is assumed that components of the
sequence will be delivered in order and without missing components.
2.1.7. Non-Specification of Per-Destination Constraints and Parameters
It MUST NOT be possible to set different constraints, traffic
parameters, or quality of service requirements for different
destinations of a P2MP LSP within a single computation request.
2.1.8. Path Modification and Path Diversity
No changes are made to the requirement to support path modification
and path diversity as described in [RFC4657]. Note, however, that a
consequence of this requirement is that it MUST be possible to supply
an existing path on a Path Computation Request. This requirement is
unchanged from [RFC4657], but it is a new requirement that such paths
MUST be able to be P2MP paths.
2.1.9. Reoptimization of P2MP TE LSPs
Reoptimization MUST be supported for P2MP TE LSPs as described for
P2P LSPs in [RFC4657]. To support this, the existing path MUST be
supplied as described in Section 2.1.8.
Because P2MP LSPs are more complex it is often the case that small
optimization improvements can be made after changes in network
resource availability. But re-signaling any LSP introduces risks to
the stability of the service provided to the customer and the
stability of the network even when techniques like make-before-break
[RFC3209] are used. Therefore, a path computation request SHOULD
contain a parameter that allows the PCC to express a cost-benefit
reoptimization threshold for the whole LSP as well as per
destination. The setting of this parameter is subject to local policy
at the PCC and SHOULD be subject to policy at the PCE [PCE-POLICY].
Path reoptimization responses SHOULD indicate which of the routes (as
supplied according to Section 2.1.5) have been modified from the
paths supplied on the request.
2.1.10. Addition and Removal of Destinations from Existing Paths
A variation of path modification described in Section 2.1.8 is that
destinations may be added to or removed from existing P2MP TE LSPs.
In the case of the addition of one or more destinations it is
necessary to compute a path for a new branch of the P2MP LSP. It may
be desirable to recompute the whole P2MP tree, to add the new branch
as a simple spur from the existing tree, or to recompute part of the
P2MP tree.
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To support this function for leaf additions it MUST be possible to
make the following indications on a path computation request:
- The path of an existing P2MP LSP (as described in Section 2.1.8).
- Which destinations are new additions to the tree.
- Which destinations of the existing tree must not have their paths
modified.
It MAY also be possible to indicate on a path computation request a
cost-benefit reoptimization threshold such that the tree and/or a new
path to any individual destination is not supplied unless a certain
improvement is made. Compare with Section 2.1.9.
In the case of the deletion of one or more destinations it is not
necessary to compute a new path for the P2MP TE LSP, but such a
computation may yield optimizations over a simple pruning of the
tree. The recomputation function in this case is essentially the same
as that described in Section 2.1.9, but note that it MAY be possible
to supply the full previous path of the entire P2MP TE LSP (that is,
before the deletion of the destinations) on the path computation
request.
For both addition and deletion of destinations, the path computation
response SHOULD indicate which of the routes (as supplied according
to Section 2.1.5) have been modified from the paths supplied on the
request as described in Section 2.1.9.
Note that the selection of all of these options is subject to local
policy at the PCC, and SHOULD be subject to policy at the PCE
[PCE-POLICY].
2.1.11. Capabilities Exchange
PCE capabilities exchange forms part of PCE discovery [RFC4674], but
MAY also be included in the PCECP message exchanges.
The ability to perform P2MP path computation SHOULD be advertised as
part of PCE discovery. In the event that the PCE ability to perform
P2MP computation is not advertised as part of PCE discovery, the
PCECP MUST allow a PCC to discover which PCEs with which it
communicates support P2MP path computation and which objective
functions specific to P2MP path computation are supported by each
PCE.
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3. Manageability Considerations
3.1. Control of Function and Policy
PCE implementations MAY provide a configuration switch to allow
support of P2MP MPLS TE computations to be enabled or disabled. When
the level of support is changed, this SHOULD be re-advertised as
described in Section 2.1.11.
Support for, and advertisement of support for, P2MP MPLS TE path
computation MAY be subject to policy and a PCE MAY hide its P2MP
capabilities from certain PCCs by not advertising them through the
discovery protocol, and not reporting them to the specific PCCs in
any PCECP capabilities exchange. Further, a PCE MAY be directed by
policy to refuse a P2MP path computation for any reason including,
but not limited to, the identity of the PCC that makes the request.
3.2. Information and Data Models
PCECP protocol extensions to support P2MP MPLS TE MUST be accompanied
by MIB objects for the control and monitoring of the protocol and the
PCE that performs the computations. The MIB objects MAY be provided
in the same MIB module as used for general PCECP control and
monitoring or MAY be provided in a new MIB module.
The MIB objects MUST provide the ability to control and monitor all
aspects of PCECP relevant to P2MP MPLS TE path computation.
3.3. Liveness Detection and Monitoring
No changes are necessary to the liveness detection and monitoring
requirements as already embodied in [RFC4657]. It should be noted,
however, that in general P2MP computations are likely to take longer
than P2P computations. The liveness detection and molnitoring
features of the PCECP SHOULD take this into account.
3.4. Verifying Correct Operation
There are no additional requirements beyond those expressed in
[RFC4657] for verifying the correct operation of the PCECP. Note that
verification of the correct operation of the PCE and its algorithms
is out of scope for the protocol requirements, but a PCC MAY send the
same request to more than one PCE and compare the results.
3.5. Requirements on Other Protocols and Functional Components
A PCE operates on a topology graph that may be built using
information distributed by TE extensions to the routing protocol
operating within the network. In order that the PCE can select a
suitable path for the signaling protocol to use to install the P2MP
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LSP, the topology graph must include information about the P2MP
signaling and branching capabilities of each LSR in the network.
Whatever means is used to collect the information to build the
topology graph MUST include the requisite information. If the TE
extensions to the routing protocol are used, these SHOULD be as
described in [TE-NODE-CAP].
3.6. Impact on Network Operation
The use of a PCE to compute P2MP paths is not expected to have
significant impact on network operations. But it should be noted that
the introduction of P2MP support to a PCE that already provides P2P
path computation might change the loading of the PCE significantly
and that might have an impact on the network behavior especially
during recovery periods immediately after a network failure.
4. Security Considerations
P2MP computation requests do not raise any additional security issues
for the PCECP.
Note, however, that P2MP computation requests are more CPU-intensive
and also use more link bandwidth. Therefore if the PCECP was
susceptible to denial of service attacks based on the injection of
spurious Path Computation Requests, the support of P2MP path
computation would exacerbate the effect.
It would be possible to consider applying different authorization
policies for P2MP path computation requests compared to other
requests.
5. IANA Considerations
This document makes no requests for IANA action.
6. Acknowledgments
Thanks to Dean Cheng for his comments on this document.
7. References
7.1. Normative Reference
[RFC2119] Bradner, S., "Key words for use in RFCs to indicate
requirements levels", RFC 2119, March 1997.
[RFC4657] Ash, J., and Le Roux, J.L., "Path Computation Element
(PCE) Communication Protocol Generic Requirements",
RFC 4657, September 2006.
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[PCE-POLICY] Bryskin, I., Papadimitriou, D., and Berger, L.,
"Policy-Enabled Path Computation Framework",
draft-ietf-pce-policy-enabled-path-comp, work in
progress.
7.2. Informative Reference
[RFC3209] Awduche, D., Berger, L., Gan, D., Li, T., Srinivasan,
V., and G. Swallow, "RSVP-TE: Extensions to RSVP for
LSP Tunnels", RFC 3209, December 2001.
[RFC4461] S. Yasukawa, Editor "Signaling Requirements for
Point-to-Multipoint Traffic Engineered MPLS LSPs",
RFC4461, April 2006.
[RFC4655] Farrel, A., Vasseur, J.P., and Ash, G., "A Path
Computation Element (PCE)-Based Architecture",
RFC 4655, August 2006.
[RFC4674] J.L. Le Roux, Editor, "Requirements for Path
Computation Element (PCE) Discovery", RFC 4674,
October 2006.
[PCE-P2MP-APP] S. Yasukawa et al., "Applicability of the Path
Computation Element to Point-to-Multipoint Traffic
Engineering", draft-yasukawa-pce-p2mp-app, work in
progress.
[P2MP-RSVP] Aggarwal, R., Papadimitriou, D., and Yasukawa, S.,
"Extensions to RSVP-TE for Point to Multipoint TE
LSPs", draft-ietf-mpls-rsvp-te-p2mp, work in progress.
[TE-NODE-CAP] Vasseur, J.P, and Le Roux, J.L., Editors, "IGP Routing
Protocol Extensions for Discovery of Traffic
Engineering Node Capabilities", draft-ietf-ccamp-te-
node-cap, work in progress.
8. Authors' Addresses
Seisho Yasukawa
NTT Corporation
(R&D Strategy Department)
3-1, Otemachi 2-Chome Chiyodaku, Tokyo 100-8116 Japan
Phone: +81 3 5205 5341
Email: s.yasukawa@hco.ntt.co.jp
Adrian Farrel
Old Dog Consulting
Email: adrian@olddog.co.uk
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