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Dynamic Placement of Multi-Segment Pseudowire draft-balus-bocci-martini-dyn-ms-pwe3

Dynamic Placement of Multi-Segment Pseudowire draft-balus-bocci-martini-dyn-ms-pwe3. Editors: Luca Martini lmartini@cisco.com Matthew Bocci Matthew.Bocci@alcatel.co.uk Florin Balus balus@nortel.com. Background. Basic PW setup and maintenance - draft-ietf-pwe3-control-protocol

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Dynamic Placement of Multi-Segment Pseudowire draft-balus-bocci-martini-dyn-ms-pwe3

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  1. Dynamic Placement of Multi-Segment Pseudowiredraft-balus-bocci-martini-dyn-ms-pwe3 Editors: Luca Martini lmartini@cisco.com Matthew Bocci Matthew.Bocci@alcatel.co.uk Florin Balus balus@nortel.com

  2. Background • Basic PW setup and maintenance - draft-ietf-pwe3-control-protocol • Covers SS-PWs • PW Switching - draft-ietf-pwe3-segmented-pw • Statically configured MS-PWs • Two original proposals for LDP based MS-PWs: • draft-shah-bocci-pwe3-ms-pw-signaling-01.txt • draft-balus-mh-pw-control-protocol-02.txt • Dynamic Placement of MS-PW - draft-balus-bocci-martini-dyn-ms-pwe3-00.txt • Extensions to PW switching to allow dynamic selection / configuration of the S-PEs • Main focus on using FEC 129 to enable signaled end to end PW • Compatible with both SS and MS PWs Drafts merged following Paris IETF

  3. MS PW Requirements Addressed • Dynamic End-to-end Signaling • Automatic determination of intermediate S-PEs • Minimal number of provisioning touches, i.e. only at the T-PEs • Same set of T-PEs/S-PEs for both directions of a MS-PW • Allow correct OAM behavior • Signaling of traffic parameters to allow admission control / next hop selection at T/S-PEs • PW Redundancy • Explicitly specify a set of S-PEs for a MS-PW • End-to-end negotiation of OAM Capability • Requirements addressed with minimal changes to existing PW Signaling • Re-using existing FEC - new <addressing> format carried in AII Type 2

  4. Addressing Format Metro-Access Interconnection Use Case A S-PE S-PE Globally unique addressing for PW endpoints that allows also: Metro A1 WAN Core Metro A2 S-PE T-PEs T-PEs Provider A Inter-Provider Use Case S-PE • New Format Required • Summarization • SP to administer their own prefixes • OAM, Privacy Provider B T-PE • Use of FEC129, AII Type 2 – see draft-metz-aii-aggregate-01.txt • Enables a unique PW end point identifier to avoid configuration at each hop

  5. LSPa12 = (AGI, TAII2, SAII1) MS-PWa LSPa21 = (AGI, TAII1, SAII2) • Unique Endpoint ID • AII11 = Global ID-Prefix1-AC ID11 • Unique Endpoint ID • AII21 = Global ID-Prefix2-AC ID21 MS-PW Information Model – Unique Identification of PW Endpoint SS-PW SS-PW T-PE 1 S-PE T-PE 2 SP VFx VFy LDP LDP Consistent information model with SS-PWs

  6. 1’. T-PE2 (IP2) provisioned with • AGI = 40 • SAII (AC ID) = 200 • TAII (AC ID) = 100 • Destination PE = IP1 4. On LM receipt check TAII against “routing table”. No full match on “local i/f”. Longest match =>NSH • 1. T-PE1 (IP1) provisioned with • AGI = 40 • SAII (AC ID) = 100 • TAII (AC ID) = 200 • Destination PE = IP2 30. 22. 5. SS-PWb LSP Fwd 3. SS-PWa LSP Fwd 7. SS-PWb LSP Rev 8. SS-PWa LSP Rev Signaling Procedures for SS and MS-PWsMS-PWs as a superset of the SS-PWs 2. Check TAII against routing table. Longest match => next signaling hop (NSH). 6. On LM receipt check TAII against “routing table”. Full match on “local i/f” implies T-PE. S-PE T-PE2 T-PE1 P P SP VF VF LDP1 LDP2

  7. Disseminating the routing information • Static Provisioning - Default Gateway/Summarized L2 Address • Dynamic Advertisement – e.g. BGP-MP • Address Aggregation possible • e.g. provision/advertise only the Global ID part • As new potential T-PEs are introduced in the network, their Layer 2 address(es) is provisioned/advertised

  8. Other Related Procedures • QoS TLV may be included in the Signaling Message • New, TSPEC-based format for Quantity Of Service • CAC Executed Against the Tunnel to Originator of the Local LDP Session • Explicit Routing • Use existing ER TLV format • Enables also PW 1:1 Protection, diverse paths • OAM Negotiation • Re-uses procedures described in draft-ietf-pwe3-segmented-pw-01.txt • New format (Global ID-Prefix) introduced for PW Switching TLV to allow for tracing MS-PW path • FEC128 Support • Interconnect Single Hop, FEC128-based domains via FEC129 Network • TAII, SAII like information carried for FEC128 inside Interface Parameters

  9. Next Steps We think we have a good start… • Need feedback on the hybrid FEC128, FEC129 usage case Make it WG document • High level of interest, many contributors • Logical progression, adds to the existing procedures • PW Control-> Segmented PWs-> Dynamic Placement of MS-PWs

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