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IETF68 CCAMP1 GMPLS Control of Ethernet Forwarding Don Fedyk Loa Andersson

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Presentation on theme: "IETF68 CCAMP1 GMPLS Control of Ethernet Forwarding Don Fedyk Loa Andersson"— Presentation transcript:

1 IETF68 CCAMP1 GMPLS Control of Ethernet Forwarding Don Fedyk dwfedyk@nortel.comdwfedyk@nortel.com Loa Andersson loa@pi.seloa@pi.se

2 2 IETF68 CCAMP References draft-fedyk-gmpls-ethernet-pbb-te-00.txt draft-andersson-gels-exp-rsvp-te-01.txt Draft-fedyk tracking IEEE Data Plane Adds TE to a PBB network Draft-andersson experimental implementation Uses GMPLS for all modes of connection types Multiple label types

3 3 IETF68 CCAMP Background GMPLS Control of Ethernet Forwarding (GELS) concluded that before we adapt GMPLS to Ethernet bridging we need an IEEE compliant data plane. One data plane that is emerging is Provider Backbone Bridges Traffic Engineering (IEEE802.1Qay). The Acreo implementation references only IEEE802.1Q standard Other IEEE Ethernet Switching paradigms may be defined in the future. IEEE802.1Qay is what we initially propose to control remaining flexible for other paradigms.

4 4 IETF68 CCAMP Conventional Ethernet Bridging Management Plane Strong Correlation between MP & DP or DP & CP OAM Spanning Tree, Learning, Filtering Bi-directional Data PlaneEthernet Control Plane Provisioning (Policy, etc) Provisioning (Components)

5 5 IETF68 CCAMP Configured Ethernet Bridging Management Plane Remove CP dependency OAM Bi-directional Data Plane Provisioning (Components)

6 6 IETF68 CCAMP GMPLS control of Ethernet Forwarding Management Plane What we want to do is add GMPLS OAM Provisioning (Components) Bi-directional Data PlaneIP Control Plane GMPLS Signaling Provisioning (Connections) GMPLS Signaling GMPLS Routing

7 7 IETF68 CCAMP GELS Motives Automates Configuration of Ethernet bridging Improvement in the coordination required to establish and maintain an ETH-LSP Provides Automatic reaction to network changes Dynamic connections for P2P TE and P2MP TE May be Ships-in-the-night mode with Ethernet Control Plane Helps interwork Configured Ethernet services with MPLS services Helps interwork with GMPLS enabled Optical Networks Enables Inter-layer signaling capability

8 8 IETF68 CCAMP GMPLS Components Signaling GMPLS with extensions for Ethernet Bridging IP Control plane Limited IP functionality for control plane only Routing Maintain IP control plane and TE information LMP Extends the 802.1AB capability Path Computation On-net/off-net path computations GMPLS Requirements: Small delta from existing GMPLS specifications

9 9 IETF68 CCAMP GELS Axioms Native Labels properties Bidirectional fate shared data plane Bandwidth reservation Symmetric, Asymmetric Fully Exploits the Ethernet Data Plane VID configuration MAC + VID configuration

10 10 IETF68 CCAMP Types of LSPs P2P MP2P P2MP MP2MP Some terminology differences between the drafts (to be sorted out)

11 11 IETF68 CCAMP Proposed Generalized Label Request Encoding Type Ethernet LSP Switching Type Specific to Switching Paradigm GPID set to Unknown

12 12 IETF68 CCAMP Traffic Parameters The traffic parameters (T-spec) defined in draft-ietf-ccamp-ethernet-traffic- parameters-01.txt is a good starting point draft-ietf-ccamp-ethernet-traffic- parameters-01.txt

13 13 IETF68 CCAMP Where is Configured Ethernet applicable ? Backbone Edge Bridge (BEB) Backbone Core Bridge (BCB) Ethernet MAN Encapsulation keep C-MAC learning to BEBs that are directly attached to the Ethernet CE device. Scales Carrier Ethernet Metro networks. A native Ethernet TE Technology

14 14 IETF68 CCAMP Where is Configured Ethernet applicable ? MPLS enabled Access device MPLS WAN S-PE Pure Ethernet devices Ethernet MAN As an native Ethernet Aggregation technology

15 15 IETF68 CCAMP Three Layer GMPLS Network

16 16 IETF68 CCAMP What do we need to add to GMPLS? Code Points for Switching Paradigm Label Encoding per Switching Type Allow non Label-swapped LSPs Coding procedures for the technology Rules for Labels Rules for Protection Overall Not a Lot

17 17 IETF68 CCAMP Next step Add a milestone to the working charter to develop a Experimental GELS specification Add a milestone to the working groups charter to develop a specification of the generic aspects of GELS signaling and routing

18 18 IETF68 CCAMP Backup

19 19 IETF68 CCAMP 802.1 ah (PBB) Header Backbone Destination Address (B-DMAC) Backbone Source Address (B-SMAC).1ad Ethertype.1ah Ethertype.1ad B-TAG TCI/VID.1ah I-TAG TCI/SID Destination Address (C-DMAC) Source Address (C-SMAC) Encap Ethertype 2 6 10 14 18 22 26 30 34 1234

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