March 2010IETF 77, MPLS WG1 Carrying PIM-SM in ASM mode Trees over P2MP mLDP LSPs draft-rekhter-pim-sm-over-mldp-01.txt Y. Rekhter, Juniper Networks R.

Slides:

Advertisements

Similar presentations

Copyright © 2004 Juniper Networks, Inc. Proprietary and Confidentialwww.juniper.net 1 BGP based Virtual Private Multicast Service Auto-Discovery and Signaling.

Advertisements

Copyright © 2004 Juniper Networks, Inc. Proprietary and Confidentialwww.juniper.net 1 LSP-Ping and BFD for MPLS-TP draft-nitinb-mpls-tp-lsp-ping-bfd- procedures-00.

Leaf discovery mechanism for mLDP based P2MP/MP2MP LSP

Seamless MPLS draft-leymann-mpls-seamless-mpls-01.txt

LDP extensions for Explicit Pseudowire to transport LSP mapping draft-cao-pwe3-mpls-tp-pw-over-bidir-lsp-02.txt Mach Chen Wei Cao.

Release 5.1, Revision 0 Copyright © 2001, Juniper Networks, Inc. Advanced Juniper Networks Routing Module 9: Static Routes & Routing Table Groups.

Copyright © 2004 Juniper Networks, Inc. Proprietary and Confidentialwww.juniper.net 1 Multicast in BGP/MPLS VPNs and VPLS draft-raggarwa-l3vpn-mvpn-vpls-mcast-

Copyright © 2004 Juniper Networks, Inc. Proprietary and Confidentialwww.juniper.net 1 E-VPN and Data Center R. Aggarwal

Multicast LDP extension for hub & spoke multipoint LSP

OLD DOG CONSULTING Challenges and Solutions for OAM in Point-to-Multipoint MPLS Adrian Farrel, Old Dog Consulting Ltd. Zafar Ali, Cisco Systems, Inc.

Copyright © 2004 Juniper Networks, Inc. Proprietary and Confidentialwww.juniper.net 1 Point-to-Multipoint Pseudowire Signaling and Auto-Discovery in Layer.

1 © 2000, Cisco Systems, Inc. Integrated-ISIS Route Leaking.

All Rights Reserved © Alcatel-Lucent 2006, ##### Scalability of IP/MPLS networks Lieven Levrau 30 th April, 2008 France Telecom, Cisco Systems, uawei Technologies,

Copyright © 2004 Juniper Networks, Inc. Proprietary and Confidentialwww.juniper.net 1 Multicast in BGP/MPLS VPNs draft-ietf-l3vpn-2547bis-mcast-00.txt.

© 2006 Cisco Systems, Inc. All rights reserved. MPLS v2.2—2-1 Label Assignment and Distribution Introducing Typical Label Distribution in Frame-Mode MPLS.

Draft-li-mpls-global-label-usecases-00IETF 88 SPRING WG1 Usecases of MPLS Global Label draft-li-mpls-global-label-usecases-00 Zhenbin Li, Quintin Zhao.

L3VPN WG2012-Jul-301 MVPN/BGP Support for Customers That Use mLDP RFCs 6513/6514: support Multicast VPN Service for customers that use PIM provide extensive.

CS Summer 2003 Lecture 14. CS Summer 2003 MPLS VPN Architecture MPLS VPN is a collection of sites interconnected over MPLS core network. MPLS.

Multicast VPN using BIER IETF 91, Honolulu ietf

Multicast in L3VPNs Bruce Davie 1 draft-ietf-l3vpn-2547bis-mcast-03.txt 1. Not a draft co-author, or a multicast expert.

1 Multi-Protocol Label Switching (MPLS) presented by: chitralekha tamrakar (B.S.E.) divya krit tamrakar (B.S.E.) Rashmi shrivastava(B.S.E.) prakriti.

© 2009 Cisco Systems, Inc. All rights reserved.Cisco ConfidentialPresentation_ID 1 IETF 84 – Vancouver August 2012 LSP Ping Support for P2MP PWs (draft-jain-pwe3-p2mp-pw-lsp-ping-00.txt)

Kenji Kumaki KDDI, Editor Raymond Zhang BT Nabil Bitar Verizon

© 2009 Cisco Systems, Inc. All rights reserved. Cisco Public Presentation_ID 1 BGP AS AN MVPN PE-CE Protocol draft-keyupate-l3vpn-mvpn-pe-ce-00 Keyur Patel,

IETF 68, MPLS WG, Prague P2MP MPLS-TE Fast Reroute with P2MP Bypass Tunnels draft-leroux-mpls-p2mp-te-bypass-01.txt J.L. Le Roux (France Telecom) R. Aggarwal.

P2MP MPLS-TE FRR with P2MP Bypass Tunnel draft-leroux-mpls-p2mp-te-bypass-00.txt J.L. Le Roux (France Telecom) R. Aggarwal (Juniper) IETF 67, MPLS WG,

Use of Wildcard in S-PMSI Auto- Discovery Routes draft-rekhter-mvpn-wildcard-spmsi Rahul Aggarwal (Juniper) Wim Henderickx (Alcatel-Lucent) Praveen Muley.

61st IETF Washington DC November 2004 BGP/MPLS IP Multicast VPNs draft-yasukawa-l3vpn-p2mp-mcast-00.txt Seisho Yasukawa (NTT) Shankar Karuna (Motorola)

Virtual Topologies for Service Chaining in BGP IP/MPLS VPNs draft-rfernando-bess-service-chaining-00 (previously draft-rfernando-l3vpn-service-chaining-04)

8/5/04L3VPN WG1 Multicast in BGP/MPLS IP VPNs Finally added to charter! Base specification: draft-rosen-vpn-mcast –Four years old, with few changes –Basis.

Softwire Mesh Framework: Multicast Mingwei Xu Yong Cui CERNET, China Chris Metz, Cisco 68 th IETF Meeting, Prague March 2007.

Half-Duplex Multicast Distribution Trees (draft-brockners-ldp-half-duplex-mp2mp-00.txt) IETF 68, March 2007 Frank Brockners

Inter-Area P2MP Segmented LSPs draft-raggarwa-seamless-mcast-03.txt

MPLS WG1 Targeted mLDP Base mLDP spec didn’t consider use of LDP multipoint extensions over Targeted mLDP sessions LDP speaker must choose “upstream LSR”,

July 24, 2007IETF 69, L3VPN WG1 Progress on Arch Doc draft-ietf-l3vpn-mcast-2547bis-mcast-05 Areas of new work: –Clarification of upstream multicast hop.

1 Multicast Routing Blackhole Avoidance draft-asati-pim-multicast-routing-blackhole-avoid-00 Rajiv Asati Mike McBride IETF 72, Dublin.

Entropy Labels in MPLS Forwarding draft-kompella-mpls-entropy-label-02

Issues In Multicast Transition For presentation to the Multrans BOF Tom Taylor Cathy Zhou.

73rd IETF - Minneapolis I. T. N. M. draft-wijnands-mpls-mldp-in-band-signaling-00.

Copyright © 2004 Juniper Networks, Inc. Proprietary and Confidentialwww.juniper.net 1 Multicast in VPLS draft-raggarwa-l2vpn-vpls-mcast-00.txt Rahul Aggarwal.

Protecting Multicast- Enabled Networks Matthew Davy Indiana University Matthew Davy Indiana University.

Signaling Color Label Switched Paths Using LDP draft-alvarez-mpls-ldp-color-lsp-00 Kamran Raza Sami Boutros Santiago.

Copyright © 2004 Juniper Networks, Inc. Proprietary and Confidentialwww.juniper.net 1 MPLS Upstream Label Assignment for RSVP- TE and LDP draft-raggarwa-mpls-rsvp-ldp-upstream-

L3VPN WG mLDP Recursive FEC Using mLDP through a Backbone where there is no Route to the Root draft-wijnands-mpls-mldp-recurs-fec Name changed.

Establishing P2MP MPLS TE LSPs draft-raggarwa-mpls-p2mp-te-02.txt Rahul Aggarwal Juniper Networks.

76rd IETF - Hiroshima, Japan I. M. draft-wijnands-mpls-mldp-csc-02.

Multi-protocol Label Switching

82 nd Taipei Protection Mechanisms for LDP P2MP/MP2MP LSP draft-zhao-mpls-mldp-protections-00.txt Quintin Zhao, Emily Chen, Huawei.

87th IETF – Berlin IJ. Wijnands A. Gulko U. Joorde J. Tantsura draft-wijnands-mpls-mldp-in-band-wildcard-encoding-00

83rd IETF – Paris, France IJ. Wijnands E. Rosen K. Raza J. Tantsura A. Atlas draft-wijnands-mpls-mldp-node-protection-00

85th IETF – Atlanta, USA J. Asghar IJ. Wijnands S.Krishnaswawy V. Arya draft-asghar-pim-explicit-rpf-vector-00

1 MTU Extended Community for BGP-4 Q. Zeng, J. Dong (Huawei Technologies) IETF81 IDR July 2011 Quebec draft-zeng-idr-bgp-mtu-extension-00.

Multiprotocol Label Switching (MPLS) Routing algorithms provide support for performance goals – Distributed and dynamic React to congestion Load balance.

1 MPLS Source Label Mach Chen Xiaohu Xu Zhenbin Li Luyuan Fang IETF87 MPLS Aug Berlin draft-chen-mpls-source-label-00.

86th IETF – Orlando, USA J. Asghar IJ. Wijnands S.Krishnaswawy V. Arya draft-asghar-pim-explicit-rpf-vector-01

Global Table Multicast with BGP-MVPN Protocol

Softwire Mesh Framework: Multicast

Multicast in BGP/MPLS VPN

MVPN Update Continued work on both architecture draft and BGP-MVPN draft Seeing “light at end of tunnel” ☺ Progress since last time: Carrier’s carrier.

draft-wijnands-mpls-mldp-vpn-in-band-signaling-00

BIER PIM SIGNALLING Hooman Bidgoli, Jayant Kotalwar, Andrew Dolganow (Nokia) Fengman Xu (Verizon) IJsbrand Wijnands, Mankamana Mishra (Cisco) Zhaohui.

An Introduction to MPLS-PIM Interworking

EVPN Inter-subnet Multicast Forwarding

draft-pim-with-ipv4-prefix-over-ipv6-nh

draft-liu-pim-mofrr-tilfa-00

Multicast in L3VPN Signaled by EVPN Type-5 Routes

PIM Assert Message Packing

BGP Signaled Multicast

MLDP Signaling over BIER

MVPN/MSDP SA Interoperation

Presentation transcript:

March 2010IETF 77, MPLS WG1 Carrying PIM-SM in ASM mode Trees over P2MP mLDP LSPs draft-rekhter-pim-sm-over-mldp-01.txt Y. Rekhter, Juniper Networks R. Aggarwal, Juniper Networks N. Leymann, Deutsche Telekom

March 2010IETF 77, MPLS WG2 Problem Statement For some applications it may be desirable to map IP multicast trees to P2MP LSPs, when such trees pass through a MPLS domain When the P2MP LSPs are signaled using P2MP LDP, draft-wijnands-mpls-mldp-in-band-signaling describes how to map PIM-SM in SSM mode trees to P2MP LDP LSPs draft-wijnands-mpls-mldp-in-band-signaling does not describe how to map PIM-SM in ASM mode trees to P2MP LDP LSPs Draft-rekhter-pim-sm-over P2MP LDP describes how to map PIM-SM in ASM mode trees to P2MP LDP LSPs

March 2010IETF 77, MPLS WG3 Solution (1) Use a combination of BGP and P2MP LDP to map PIM-SM in ASM mode trees to P2MP LSP Use BGP Source Active (SA) A-D routes described in draft-ietf-l3vpn-2547bis-mcast-bgp Two options –Option 1 – does not transit IP multicast shared trees over the MPLS network –Option2 – enables transit of IP multicast shared trees over the MPLS network

March 2010IETF 77, MPLS WG4 Solution (2) Each IP multicast source tree is mapped one-to-one to a P2MP LSP in the MPLS network –Just like draft-wijnands-mpls-mldp-in-band- signaling –This type of service works well if the number of LSPs that are created is under control of the MPLS network operator, or if the number of LSPs for a particular service are known to be limited in number.

March 2010IETF 77, MPLS WG5 Comparison with BGP MVPN BGP MVPN procedures as described in draft-ietf-l3vpn- 2547bis-mcast can be used to map IP multicast trees to P2MP LSPs –Both for PIM-SM in SSM mode and PIM-SM in ASM mode BGP MVPN procedures also support the ability to aggregate multiple IP multicast trees to one P2MP LSP in the MPLS network. The procedures of draft-rekhter-pim-sm-over-mldp-01.txt can be viewed as an optimization, compared to the reuse of the BGP MVPN procedures –Maybe beneficial in some deployment scenarios

March 2010IETF 77, MPLS WG6 Option 1 IP multicast shared trees do not transit over the MPLS network BGP Source Active routes are used by a RP to advertise active multicast sources A LSR that has downstream (*, G) IP multicast state creates (S, G) IP multicast state based on the presence of a BGP SA A-D route for (S, G) –The LSR maps the (S, G) state to a P2MP LDP LSP Traffic flows only on a source tree over the MPLS network –There is no shared tree to source tree switch over the MPLS network

March 2010IETF 77, MPLS WG7 Option 2 IP multicast shared trees transit over the MPLS network A LSR maps downstream (*, G) IP Multicast state into P2MP LDP using new transit shared tree TLVs which embed the RP address instead of the source address BGP Source Active routes are used to force all LSRs to switch from shared tree to source tree –Once a single LSR joins the source tree –Prunes sources that are reachable over the MPLS network off the shared tree BGP SA A-D routes are originated by a LSR that: –receives a P2MP LDP LSP for the given source and for a group in the ASM range –is on the path to reach the source via an IP multicast interface

March 2010IETF 77, MPLS WG8 Comments?