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Versions: (draft-cai-pim-mtid) 00 01 02 03 04 05 06 07 08 09 10 RFC 6420

PIM WG                                                         Yiqun Cai
Internet Draft                                                  Heidi Ou
Intended Status: Proposed Standard
Expires: March 27, 2012                              Cisco Systems, Inc.

                                                      September 27, 2011


              PIM Multi-Topology ID (MT-ID) Join Attribute


                       draft-ietf-pim-mtid-10.txt

Status of this Memo

   This Internet-Draft is submitted to IETF in full conformance with the
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   This Internet-Draft will expire on March 27, 2012.

Copyright Notice

   Copyright (c) 2011 IETF Trust and the persons identified as the
   document authors.  All rights reserved.

   This document is subject to BCP 78 and the IETF Trust's Legal
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   include Simplified BSD License text as described in Section 4.e of



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   the Trust Legal Provisions and are provided without warranty as
   described in the Simplified BSD License.


Abstract

   This document introduces a new type of PIM Join Attribute that
   extends PIM signaling to identify a topology that should be used when
   constructing a particular multicast distribution tree.



Table of Contents

    1          Terminologies  ......................................   3
    2          Introduction  .......................................   3
    3          Functional Overview  ................................   4
    3.1        PIM RPF Topology  ...................................   5
    3.2        PIM MT-ID  ..........................................   6
    3.3        Applicability  ......................................   7
    4          Protocol Specification of PIM MT-ID  ................   7
    4.1        PIM MT-ID Hello Option  .............................   7
    4.2        PIM MT-ID Join Attribute  ...........................   8
    4.2.1      Sending PIM MT-ID Join Attribute  ...................   8
    4.2.2      Receiving PIM MT-ID Join Attribute  .................   8
    4.2.3      Validating PIM MT-ID Join Attribute  ................   9
    4.2.4      Conflict Resolution  ................................  10
    4.2.4.1    Conflict Resolution Rules For Upstream Routers  .....  10
    4.2.4.2    Conflict Resolution Rules For Downstream Routers  ...  11
    5          Packet Format  ......................................  11
    5.1        PIM MT-ID Hello Option  .............................  11
    5.2        PIM MT-ID Join Attribute TLV Format  ................  12
    6          IANA Considerations  ................................  12
    6.1        PIM MT-ID Hello Option  .............................  12
    6.2        PIM MT-ID Join Attribute Type  ......................  13
    7          Security Considerations  ............................  13
    8          Acknowledgments  ....................................  13
    9          Authors' Addresses  .................................  13
   10          Normative References  ...............................  14
   11          Informative References  .............................  14











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1. Terminologies

   The following acronyms are frequently used in the document.

     - RPF: RPF stands for "Reverse Path Forwarding". A PIM router
       performs RPF for two purposes.  When building a forwarding tree,
       a PIM router identifies an interface (the RPF interface) and an
       upstream PIM neighbor (the RPF neighbor) to which to send PIM
       Joins.  Upon receiving a data packet, a PIM router verifies if
       the packet arrives from the expected incoming interface (aka RPF
       check) before deciding whether or not to replicate the packets.

     - RPF Topology: An RPF topology is a collection of routes that a
       PIM router uses for RPF.  One or more RPF topologies may be
       created on a PIM router.

     - MT: MT stands for "Multi-Topology" in this document.  Sometimes
       it is also referred to as multi-topology routing.  In the context
       of PIM, MT refers to the capability of building and maintaining
       multiple RPF topologies.

     - PIM MT-ID: An MT-ID is a numerical identifier associated with an
       RPF topology.

     - PIM MT-ID Join Attribute: This is a new type of Join Attribute
       that is introduced by this document in order to specify RPF
       topology in the PIM Join messages.


   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
   "OPTIONAL" in this document are to be interpreted as described in
   [RFC2119].


2. Introduction

   Some unicast protocols, such as OSPF and IS-IS, allow a single
   network to be viewed as multiple topologies [RFC4915], [RFC5120].
   Deploying multi-topology (MT) routing allows different paths through
   the network to be selected to support different traffic, or to offer
   protection paths in the event of failures.

   PIM [RFC4601] employs a technique known as Reverse Path Forwarding
   (RPF) to construct forwarding trees between multicast sources and
   receivers.  The procedure of RPF uses topology information provided
   by routing protocols, such as OSPF and IS-IS.  Using the PIM MT-ID
   Join Attribute specified in this document enables PIM to access the



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   multiple topologies created by the routing protocols and construct
   multicast forwarding trees using separate network paths even when the
   roots of the trees are the same.

   This capability would allow for an improvement to the resilience of
   multicast applications.  For instance, a multicast stream can be
   duplicated and transported using two source trees, (S1, G1) and (S1,
   G2), simultaneously. By using MT capable unicast routing protocols
   and procedures described in this document, it is possible to
   construct two source trees for (S1, G1) and (S1, G2) in such a way
   that they do not share any transit network segment.  As a result, a
   single network failure will not cause any loss to the stream.

   This document introduces a new type of PIM Join Attribute [RFC5384],
   named MT-ID Join Attribute. It is used to encode the numerical
   identity of the topology PIM uses when performing RPF for the
   forwarding tree that is being joined.  This document also specifies
   procedures and rules to process the attribute and resolve conflicts
   arising from mismatches in capabilities to support the attribute or
   the value of the attribute.

   This document does not introduce any change to the RPF check
   procedure used to verify the incoming interface when a packet is
   forwarded as defined in [RFC4601].  For example, to use the
   capability described by this document, an application can choose to
   use group addresses, and/or source addresses, to identify a unique
   multicast stream.  It might further need to perform the functions of
   splitting and merging.  But the detailed processing is beyond the
   scope of the document.

   In the rest of the document, the MT-ID Join Attribute will be
   referred to as "MT-ID".


3. Functional Overview

   PIM relies on routes learned from routing protocols for the purpose
   of RPF. These routes form one or more topologies.  This section
   describes the function of multi-topology routing for PIM and its
   applicability.











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3.1. PIM RPF Topology

   PIM RPF topology is a collection of routes used by PIM to perform RPF
   operation when building shared or source trees.  The routes in the
   topology may be contributed by different protocols.  In the rest of
   the document, PIM RPF topology may be simply referred to as
   "topology" when there is no ambiguity.

   In a multi-topology environment, multiple RPF topologies can be
   created in the same network.  A particular source may be reachable in
   only one of the topologies, or in several of them via different
   paths.

   To help explain the relationship between MT capable unicast routing
   protocol and MT capable RPF topologies, consider the following
   example described by Figure 1.


                 +++ A +++ B +++
                +               +
         S -- R1                 R2 -- receivers
                *               *
                 *** C *** D ***

         Figure 1. A simple topology for multicast


     - The traffic source is S.  S is announced by R1 using MBGP to
       every router. This route is installed in every topology.

     - Two topologies are created in the unicast IGP, let us call them
       OSPF 1000 and OSPF 2000. OSPF 1000 includes A, B and interfaces
       in R1 and R2 that are configured to be part of OSPF 1000.  OSPF
       2000 includes C, D and interfaces on R1 and R2 that are
       configured to be part of OSPF 2000.

     - Two PIM RPF topologies are created, let us call them PIM 500 and
       PIM 600.

       PIM 500 comprises the following routes: S announced by MBGP and
       those learned via OSPF 1000.

       PIM 600 comprises the following routes: S announced by MBGP and
       those learned via OSPF 2000


   The above example illustrates that the naming spaces of MT-ID are not
   required to be the same between PIM and IGPs.  Furthermore, a unicast



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   IGP topology and the PIM RPF topology to which the IGP topology
   contributes routes are not required to have the same set of routes.
   In the above example, the prefix covering S does not exist in either
   OSPF 1000 or OSPF 2000.  But since it exists in PIM 500 and PIM 600,
   R2 is able to join to it via either path.

   There are two methods to select the RPF topology for a particular
   multicast distribution tree, via configuration or via PIM.

   When it is done via configuration, a network administrator configures
   a policy that maps a group range to a topology, and/or maps a source
   prefix range to a topology.  Using the same example, the policy can
   say that to build a forwarding tree for G1 only routes in PIM 500 are
   to be used, and to build a forward tree for G2 only routes in PIM 600
   are used.  The result is that packets for (S, G1) will follow the
   path of S-R1-A-B-R2 and packets for (S, G2) will follow the path of
   S-R1-C-D-R2.

   An alternative to static configuration is to include the RPF topology
   information as a new PIM Join Attribute in the PIM Join packets sent
   by downstream routers.

   Both methods can be used at the same time.  The details of the first
   method are implementation specific and are not discussed in this
   document.  The specification to support the second method is included
   in this document.


3.2. PIM MT-ID

   For each PIM RPF topology created, a unique numerical ID is assigned
   per PIM domain.  This ID is called the PIM MT-ID. The PIM MT-ID has
   the following properties,

     - It is the path identifier that is used by PIM control plane, but
       does not function in the forwarding state for a specific
       topology. The differentiation for topologies on forwarding plane
       is made by different group addresses, and/or source addresses
       instead.

     - As shown earlier, this value is not required to be the same as
       the MT-ID used by the unicast routing protocols that contribute
       routes to the topology.  In practice, when only one unicast
       routing protocol (such as OSPF or IS-IS) is used, the PIM MT-ID
       is RECOMMENDED to be assigned using the same value as the IGP
       topology identifier. Using the same example presented earlier, if
       every route in PIM 500 is contributed by OSPF 1000, it is
       RECOMMENDED to name this RPF topology as PIM 1000 instead of PIM



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       500. This is for the purpose of reducing management overhead and
       simplifying troubleshooting.

     - This value MUST be unique and consistent within the network for
       the same topology.  For example, PIM 500 MUST refer to the same
       topology on routers R1, C, D and R2.  For actual deployment, one
       should have a means to detect inconsistency of the PIM MT-ID
       configuration, but the detail of such mechanism is beyond the
       scope of this document.

     - 0 is reserved as the default, and MUST NOT be included in the
       Join Attribute encoding.

     - How to assign a PIM MT-ID to a topology is decided by the network
       administrator and is outside the scope of this document




3.3. Applicability

   The PIM MT-ID Join Attribute described in this document applies to
   PIM Join/Assert packets used by PIM SM/SSM/Bidir.  It is not used in
   any other PIM packets.  As such, it can only be used to build shared
   or source trees for PIM SM/SSM and PIM-bidir downstream.

   When this attribute is used in combination with RPF vectors defined
   in [RFC5496] and [ID.ietf-l3vpn-2547bis-mcast], the vectors are
   processed against the topology identified by the PIM MT-ID attribute.


4. Protocol Specification of PIM MT-ID

   The change to the PIM protocol includes two pieces, PIM MT-ID Hello
   Option and PIM MT-ID Join Attribute.


4.1. PIM MT-ID Hello Option

   PIM MT-ID Hello Option is used by a router to indicate if it supports
   the functionality described by this document.  If it does, it MUST
   include the PIM Hello Option in its PIM Hello packets and MUST
   include both the Join Attribute Option [RFC5384] and the new PIM MT-
   ID Option (see Section 5.1 of this document for packet format).







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4.2. PIM MT-ID Join Attribute

4.2.1. Sending PIM MT-ID Join Attribute

   When a PIM router originates a PIM Join/Assert packet, it may choose
   to encode PIM MT-ID of the topology in which RPF lookup is to take
   place for the corresponding (*,G) or (S,G) entry. The PIM MT-ID
   identifies the topology chosen by local policy/configuration or is
   the value received from downstream routers after MT-ID conflict
   resolution procedures have been applied (See Section 4.2.4 for
   further detail).

   The following are the exceptions,

     - A router SHOULD NOT include the attribute if PIM MT-ID is 0. The
       value of 0 is ignored on reception.

     - A router SHOULD NOT include PIM MT-ID in its Join/Assert packets
       if the upstream router, or any of the routers on the LAN does not
       include "PIM Join Attribute" or "PIM MT-ID" Option in its Hello
       packets.

     - A router SHOULD NOT attach PIM MT-ID for pruned sources.  PIM
       MT-ID MUST be ignored for a pruned source by a router processing
       the Prune message.



4.2.2. Receiving PIM MT-ID Join Attribute

   When a PIM router receives a PIM MT-ID Join Attribute in a
   Join/Assert packet, it MUST perform the following,

     - Validate the attribute encoding.  The detail is described in the
       next section.

     - If the Join Attribute is valid, use the rules described in the
       section "Conflict Resolution" to determine a PIM MT-ID to use.

     - Use the topology identified by the selected PIM MT-ID to perform
       RPF lookup for the (*,G)/(S,G) entry unless a different topology
       is specified by a local configuration.  The local configuration
       always takes precedence.


   While it is an exception case, it is worthwhile to describe what will
   happen if a router receives PIM MT-ID Join Attribute but doesn't
   support functionality described in [RFC5384] or this document.



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   If the router supports [RFC5384] but not this document, it is able to
   skip PIM MT-ID Join Attribute and move on to the next Join Attribute
   if one is present.  The RPF decision will not be altered because the
   router doesn't understand the meaning of PIM MT-ID Join Attribute.
   The router will use the procedures described by [RFC5384] to perform
   conflict resolution.

   If a router doesn't support [RFC5384], it will ignore the Join/Assert
   message because it is not able to parse the encoded sources.

   If a router does support both [RFC5384] and this document, but
   chooses not to send either PIM MT-ID or PIM Join Attribute Option in
   its Hello packets (likely due to administrative reason), when it
   receives a PIM Join/Assert packets with PIM MT-ID Join Attribute, it
   SHOULD ignore the Join/Assert message.


4.2.3. Validating PIM MT-ID Join Attribute

   An upstream router MUST be known to support this document in order
   for a downstream router to include the PIM MT-ID attribute in its
   Join packets.  But an upstream router doesn't need to know if a
   downstream router supports this document or not when deciding whether
   to accept the attribute. Hence, if the Join packet sender doesn't
   include "PIM Join Attribute" or "PIM MT-ID" options in its Hello
   packets, the PIM MT-ID attribute in the Join may still be considered
   valid.  This is also in accordance with the "Robustness Principle"
   outlined in [RFC793].

   The following text specifies the detail of the validity check.

     - There is at most 1 PIM MT-ID attribute encoded. If there are
       multiple PIM MT-ID Join Attributes included (possibly due to an
       error in the implementation), only the last one is accepted for
       this particular source.  Processing of the rest of the Join
       message continues.

     - The length field must be 2.  If the length field is not 2, the
       rest of the Join message, including the current (S,G) or (*,G)
       entry, MUST be ignored.  The group, source and the RP in the Join
       message that have already been processed SHOULD still be
       considered valid.

     - The value MUST NOT be 0.  If it is 0, the PIM MT-ID attribute is
       ignored.  Processing of the rest of the Join message, including
       the current (S,G) or (*,G) entry, continues as if the particular
       PIM MT-ID attribute weren't present in the packet.




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4.2.4. Conflict Resolution

   The definition of "PIM MT-ID conflict" varies depending on whether it
   is on an upstream or a downstream router.

   PIM MT-ID conflicts arises on an upstream router when the router
   doesn't have a local topology selection policy and receives Join
   packets from downstream routers and/or Assert packets from other
   forwarding routers on the LAN and those packets contain different PIM
   MT-IDs.

   However, if an upstream router has a local configuration that
   specifies PIM MT-IDs to identify RPF topologies, and those MT-IDs do
   not match the MT-ID on a received Join or Assert packet, this is not
   considered to be a conflict and the resolution procedures are not
   applied.  This includes the case where there are local PIM MT-IDs,
   but there is no PIM MT-ID encoded in the incoming packet.

   On the other hand, when a downstream router sees a different PIM MT-
   ID attribute from other routers on the LAN it applies rules to
   resolve the conflicts regardless of whether the router has local
   topology selection policy or not.

   When two PIM MT-IDs are compared, only the 12-bit Value field (see
   Section 5.2) is compared.  Other fields of the PIM MT-ID Join
   Attribute TLV Format (including the four reserved bits) MUST NOT be
   used in the comparison.


4.2.4.1. Conflict Resolution Rules For Upstream Routers

     - If an upstream router receives different PIM MT-ID attributes
       from PIM Join packets, it MUST follow the rules specified in
       [RFC5384] to select one.  The PIM MT-ID chosen will be the one
       encoded for its upstream neighbor.

       In order to minimize the chances of potential transient
       forwarding loops, an upstream router MAY choose to ignore the
       incoming PIM Join packets altogether if it sees a conflict in PIM
       MT-ID attributes.  This action may also be taken by an upstream
       router which has locally configured topology selection policy, as
       an exception to the rules described above.

     - If an upstream router receives a different PIM MT-ID attribute in
       an ASSERT packet, it MUST use the tie-breaker rules as specified
       in [RFC4601] to determine an ASSERT winner.  PIM MT-ID is not
       considered in deciding a winner from Assert process.




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4.2.4.2. Conflict Resolution Rules For Downstream Routers

     - If a downstream router sees different PIM MT-ID attributes from
       PIM Join packets, it MUST follow the specification of [RFC4601]
       as if the attribute did not exist.  For example, the router
       suppresses its own Join packet if a Join for the same (S,G) is
       seen.

       The router MUST NOT use the rules specified in [RFC5384] to
       select a PIM MT-ID from Join packets sent by other downstream
       routers.

     - If a downstream router sees its preferred upstream router loses
       in the ASSERT process, and the ASSERT winner uses a different PIM
       MT-ID, the downstream router SHOULD still choose the ASSERT
       winner as the RPF neighbour but it MUST NOT encode PIM MT-ID when
       sending Join packets to it.



5. Packet Format

   This section describes the format of new PIM messages introduced by
   this document. The messages follow the same transmission order as the
   messages defined in [RFC4601].



5.1. PIM MT-ID Hello Option

       0                   1                   2                   3
       0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
      |      OptionType = 30          |       OptionLength = 0        |
      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+



     - OptionType: 30.

     - OptionLength: 0.










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5.2. PIM MT-ID Join Attribute TLV Format

       0                   1                   2                   3
       0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
      |F|E| Attr Type | Length        |R R R R| Value                 |
      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+



     - F bit: 0 Non-transitive Attribute.

     - E bit: As specified by [RFC5384].

     - Attr Type: To be assigned by IANA.

     - Length: 2.

     - R: Reserved bits, 4 in total. Set to zero on transmission.
       Ignored upon receipt.

     - Value: PIM MT-ID, 1 to 4095.



6. IANA Considerations

6.1. PIM MT-ID Hello Option

   IANA maintains a registry of "Protocol Independent Multicast (PIM)
   Parameters" with a sub-registry called "PIM-Hello Options"

   The IANA assigned the PIM Hello Option type value 30 for the PIM MT-
   ID Hello Option according to the First Come First Served allocation
   policy.

   The IANA is requested to make that allocation permanent with
   reference to this document.

   Note that the option defined in Section 5.1 of this document has
   length 0. The IANA is requested to update the length value recorded
   in the registry.









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6.2. PIM MT-ID Join Attribute Type

   The IANA maintains a registry of "Protocol Independent Multicast
   (PIM) Parameters" with a sub-registry called "PIM Join Attribute
   Types".

   The IANA is requested to assign the next available value for the PIM
   MT-ID Join Attribute defined in Section 5.2 of this document.


7. Security Considerations

   As described in [RFC5384], the security of the Join Attribute is only
   guaranteed by the security of the PIM packet that carries it.
   Similarly, the security of the Hello Options is only guaranteed by
   securing the whole Hello Packet.

   In view of the fact that malicious alteration of the PIM MT-ID Hello
   Option or the PIM MT-ID carried in a packet might cause the PIM
   resiliency goals to be violated, the security considerations of
   [RFC4601] apply to the extensions described in this document.

   As a type of PIM Join Attribute, the security considerations
   described in [RFC5384] apply here. Specifically, malicious alteration
   of PIM MT-ID may cause the resiliency goals to be violated.



8. Acknowledgments

   The authors would like to thank Eric Rosen, Ice Wijnands, Dino
   Farinacci, Colby Barth, Les Ginsberg, Dimitri Papadimitriou, Thomas
   Morin and Hui Liu for their input.

   And the authors would also like to thank Adrian Farrel for his
   detailed and constructive comments during the AD review.


9. Authors' Addresses


      Yiqun Cai
      Cisco Systems, Inc
      170 West Tasman Drive
      San Jose, CA 95134

      E-mail: ycai@cisco.com




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      Heidi Ou
      Cisco Systems, Inc
      170 West Tasman Drive
      San Jose, CA 95134

      E-mail: hou@cisco.com



10. Normative References

   [RFC2119] S. Bradner, "Key words for use in RFCs to Indicate
   Requirement Levels", RFC 2119, March 1997.

   [RFC4601] Fenner, B., Handley, M., Holbrook, H., and I. Kouvelas,
   "Protocol Independent Multicast - Sparse Mode (PIM-SM): Protocol
   Specification (Revised)", RFC 4601, August 2006.

   [RFC5384] A. Boers, I. Wijnands, E. Rosen, "The Protocol Independent
   Multicast (PIM) Join Attribute Format", RFC 5384, November 2008


11. Informative References

   [RFC793] ISI, "Transmission Control Protocol", RFC 793, September
   1981.

   [RFC4915] P. Psenak, S. Mirtorabi, A. Roy, L. Nguyen, P. Pillay-
   Esnault, "Multi-Topology (MT) Routing in OSPF", RFC 4915, June 2007.

   [RFC5120] T. Przygienda, N. Shen, N. Sheth, "M-ISIS: Multi Topology
   (MT) Routing in Intermediate System to Intermediate Systems (IS-
   ISs)", RFC 5120, February 2008.

   [RFC5496] I. Wijnands, A. Boers, E. Rosen, "The Reverse Path
   Forwarding (RPF) Vector TLV", RFC 5496, March 2009.

   [ID.ietf-l3vpn-2547bis-mcast] E. Rosen,R Aggarwal, "Multicast in
   MPLS/BGP IP VPNs", draft-ietf-l3vpn-2547bis-mcast-10, January 2010











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