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L3VPN WG2013-Nov-71 Global Table Multicast (GTM) Based on MVPN Protocols and Procedures draft-zzhang-l3vpn-mvpn-global-table-mcast-01.txt Service providers.

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Presentation on theme: "L3VPN WG2013-Nov-71 Global Table Multicast (GTM) Based on MVPN Protocols and Procedures draft-zzhang-l3vpn-mvpn-global-table-mcast-01.txt Service providers."— Presentation transcript:

1 L3VPN WG2013-Nov-71 Global Table Multicast (GTM) Based on MVPN Protocols and Procedures draft-zzhang-l3vpn-mvpn-global-table-mcast-01.txt Service providers currently using and/or actively deploying BGP control plane (per MVPN RFCs/I-Ds) to: carry customer multicast control information, and multiplex customer multicast flows onto P-tunnels that travel through the SP backbone (or core) Procedures designed for use in VPN context SPs also have non-VPN multicast flows that have to be signaled and tunneled over the backbone Wouldn’t it be nice to use the same protocol and procedures for non-VPN multicast ?

2 L3VPN WG2013-Nov-72 Why Would It Be Nice? By handling non-VPN multicast “just like” VPN multicast: Same functionality, Same tools, Same training, Same troubleshooting methodology, Ability to aggregate VPN and non-VPN flows into the same tunnel New features will apply to both, without having to do them twice Etc. Purpose of draft-zzhang: show how to apply MVPN procedures to non-VPN multicast systematic attention to the few places where adaptation of the procedures is necessary or desirable

3 L3VPN WG2013-Nov-73 Global Table instead of VRF Basic approach: use the MVPN protocols unchanged, just apply them to the Global Table instead of to a VRF Global Table is a routing table that is not specific to any VPN GTM sometimes called “Internet multicast”, but: the global tables don’t necessarily have Internet routes, the “global” multicast flows aren’t necessarily going to or from the “Internet” global really just means “not VPN” No new SAFIs, NLRI formats, BGP path attributes No new semantics for existing messages MVPN protocols use Route Distinguishers (RDs) to identify VRFs, but (per RFC4364) there is no use of RD 0 So let RD 0 identify the global table Then just do everything the same

4 L3VPN WG2013-Nov-74 Just a Few Details to Work Out Implementors need a little more detail than “do MVPN, but in the context of global table rather than VRF” MVPN procedures rely on Route Targets, but global tables don’t usually have route targets. Some adaptation is needed. MVPN procedures require egress PE to determine the ingress PE and the “upstream multicast hop” (UMH) for a given multicast flow. This is done by looking at MVPN-specific Extended Communities attached to VPN-IP routes. Some adaptation is needed. Is there anything needed for MVPN that isn’t also needed for GTM? Maybe a few things can be left out … Vice versa? As usual, there are a few special scenarios that some SPs would like to optimize for …

5 L3VPN WG2013-Nov-75 A Note on Terminology PE is well-established term in VPN context for routers that delimit the backbone and attach directly to customer/subscriber routers (CEs) In GTM scenarios, the routers that delimit the backbone don’t attach to subscribers, aren’t necessarily “provider edge” So we use a new term “Protocol Boundary Router” (PBR) to denote those routers that play the same role in GTM procedures that PEs play in MVPN procedures Any given multicast flow has its ingress PBR and its egress PBRs MVPN-based BGP control plane used among the PBRs The PBR interfaces that face away from the core (analogous to VRF or PE-CE interfaces) most likely use PIM to transfer multicast routing info. But we don’t rule out the use of BGP, IGMP, whatever. As in MVPN, the tunnels through the core may be of a variety of technologies

6 L3VPN WG2013-Nov-76 Two AFI/SAFI’s Needed for GTM/MVPN UMH-eligible routes (RPF routes): routes to the multicast sources, used for finding upstream neighbor and ingress PE/PBR : MVPN: SAFI 128 (labeled VPN unicast) or 129 (VPN multicast-UMH determination): NLRI specifies RD+prefix GTM: SAFI 1 (unicast), 2 (multicast RPF-determination), or 4 (labeled unicast): NLRI specifies prefix but no RD For MVPN, UMH-eligible routes required to carry VRF Route Import and Source AS EC To do GTM like MVPN, GTM UMH-eligible routes should have same requirement – but can be omitted in some scenarios … “MCAST Routes”: SAFI 5, for both GTM and MVPN used for disseminating multicast routing information, for assigning multicast flow to tunnels, and sometimes for joining and leaving tunnels (BGP C-multicast routes and BGP A-D routes)

7 L3VPN WG2013-Nov-77 Why Use Different SAFI for UMH Routes but Same SAFI for MCAST routes? Question: to make GTM more like MVPN, why not: duplicate all SAFI 1/2 routes as SAFI 128/129 routes, set RD of the new 128/129 routes to zero? Answer: well, that would be silly, it would add more routes without adding more information Question: if UMH-eligible routes for GTM use different SAFI than UMH-eligible routes for MVPN, shouldn’t the MCAST routes use different SAFIs too? Answer: no using the same SAFI causes no duplication of routes using a different SAFI just creates more mechanism, more unnecessary complexity, more for troubleshooters to understand, and raises the likelihood of undesirable feature divergence

8 L3VPN WG2013-Nov-78 Use of Route Targets GTM requires, like MVPN, IP-address-specific RTs on the MCAST C-multicast Join routes and the MCAST Leaf A-D routes. These routes are always “targeted” to a single router That router is identified by the RT BGP may distribute those routes to other routers -- the RT is the only way a router knows whether it is the “target” of a Join or Leaf A-D route The RT also identifies the “target” VRF, for GTM that’s always VRF zero. Do other MCAST routes need RTs? Yes, if you don’t want every GTM route to be distributed to every PBR Useful to configure global tables with import/export RTs (like VRFs), so that MCAST route distribution can be constrained (with same tools used for constraining distribution of MVPN routes)

9 L3VPN WG2013-Nov-79 Finding the Upstream PBR Standard method (from MVPN specs): UMH-eligible route matching a multicast source/RP carries VRF Route Import EC and Source AS EC VRF Route Import EC identifies Upstream (ingress) PBR for flows from that source/RP (remember: Upstream PBR not necessarily the next hop) This info is used for targeting Joins and Leaf A-D routes Source AS needed for multi-AS procedures For MVPN, Upstream RD is also inferred from this EC, Same exact procedure will work for GTM Of course, RD is always zero But – whereas MVPN UMH-eligible routes are always originated into BGP by ingress PE, and distributed by BGP to egress PEs, that’s not always the case in GTM Non-VPN UMH-eligible routes may not be originated by ingress PBR and/or distributed by BGP

10 L3VPN WG2013-Nov-710 Alternative Methods of Finding the “Upstream PBR” If UMH-eligible routes are not already BGP-distributed: Have ingress PBR redistribute routes into BGP as SAFI-2, attach MVPN ECs Multicast works “normally”, unicast routing not impacted, no other special procedures needed If backbone is fully meshed with TE tunnels, When egress PBR looks up route to source/RP, next hop interface will be TE tunnel Select as ingress PBR the remote endpoint of that tunnel Assume ingress PE in same AS as egress PE Applicability restrictions May be other deployment and/or implementation-specific methods that can be used, such as consulting IGP database anything that works is allowed optionally, but beware interop problems

11 L3VPN WG2013-Nov-711 Another Alternative Method for Determining the “Upstream PBR” Next Hop If: every UMH-eligible route is originated by its ingress PBR, and the ingress PBR puts itself as the next hop, and the next hop never changes while the route is being distributed, Then: t he ingress PBR can be determined from the next hop. Only works if the BGP speakers distributing the UMH-eligible routes never do “next hop self”, e.g., if routes distributed by “Service Route Reflector”

12 L3VPN WG2013-Nov-712 One More Alternative Method for Determining the “Upstream PBR” S---Attachment Router (AR)---I-PBR--- …. ---E-PBR S is multicast source AR is BGP speaker without BGP MCAST support AR talks PIM to I-PBR Route to S is distributed into BGP by AR: AR doesn’t attach MVPN extended communities (doesn’t know about them) AR puts itself as Next Hop Next Hop is not changed before E-PBR receives router How will E-PBR know that I-PBR is Upstream PBR for S?

13 L3VPN WG2013-Nov-713 Finding Upstream PBR by Recursive Next Hop Resolution S---Attachment Router (AR)---I-PBR--- …. ---E-PBR I-PBR distributes in BGP: a route to AR, with I-PBR as NH I-PBR attaches VRF Route Import and Source AS ECs to those routes When E-PBR looks up route to S: it finds AR as the next hop then it looks up route to AR, and finds I-PBR as the next hop the route to AR has a VRF Route Import EC, so E-PBR knows that I-PBR is the upstream PBR for flows from S

14 L3VPN WG2013-Nov-714 Other (Optional) Adaptations If all the UMH-eligible routes and the MCAST routes are distributed in such a way that the next hop doesn’t change, and if Inclusive Tunnels are not used, I-PMSI A-D routes can be suppressed entirely I-PMSI A-D routes advertise inclusive tunnels and/or provide a path along which C-multicast routes may travel (in case there’s no route from somewhere to the ingress PBR) Inclusive tunnels not such a good idea for GTM, as total number of PBRs may exceed average number of PEs per VPN. Don’t want every PBR’s I-PMSI A-D route to go to every other PBR Constrained Distribution for Source Active A-D routes In GTM, Route Constrain can be used to constrain the distribution of an (S,G) Source Active A-D route to only those PBRs that have interest in group G. This can be done by using an IP-address-specific RT with G encoded in it Won’t work for MVPN because RTs can’t contain VPN-IP addresses Must make sure that the overhead of using Route Constrain doesn’t exceed the savings in constrained distribution of the SA A-D routes.

15 L3VPN WG2013-Nov-715 Alternative Approaches for Using MVPN Procedures for GTM New SAFI for MCAST routes, optimized for GTM Already discussed, not worthwhile GTM procedures from draft-ietf-mpls-seamless-mcast Defines GTM procedures, not interoperable with procedures from draft-zzhang Doesn’t use C-multicast Joins, uses Leaf A-D routes instead, New NLRI format NLRI still contains RD field, but RD is no longer a “table identifier” 0 means “this Leaf A-D route is really a source tree join” -1 means “this Leaf A-D route is really a shared tree join” Those procedures work, but don’t meet the goal of keeping GTM procedures as close as possible to MVPN procedures The two sets of procedures can coexist in same network, but only if there is a priori knowledge of which procedures apply to which multicast groups Already some deployment of seamless-mcast GTM procedures, probably best to leave them as optional alternative

16 L3VPN WG2013-Nov-716 Next Steps Propose adoption of draft-zzhang-l3vpn-mvpn- global-table-mcast-01 as Standards Track WG document

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