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1 DRNI and G.8031 ETH SNCP interworking Maarten Vissers 2011-05-09.

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Presentation on theme: "1 DRNI and G.8031 ETH SNCP interworking Maarten Vissers 2011-05-09."— Presentation transcript:

1 1 DRNI and G.8031 ETH SNCP interworking Maarten Vissers 2011-05-09

2 2 Introduction The following slides illustrate the structure of an EC which is set up to support a protected E-Line service EVC in  One Carrier network (X)  Two Carrier networks (X,Y) Each Carrier network includes access, metro and core domains EC is set up with Dual Node Interconnections between Carrier Networks and optionally also between domains  Between carrier X/carrier Y networks four nodes are used to interconnect  If EC in Carrier network is more than 1200 km, it is necessary to segment the protection in the carrier network and deploy dual node interconnections between carrier network segments  As an example, between access/metro and metro/core domains two nodes are used to interconnect (see slide 20) Protected EC is not loop free and it is required to block forwarding of VLAN/BSI frames on the alternative paths  This is normal behavior within protected P2P connections MEF12.1: Ethernet Connection (EC) supports an EVC, EC Segment supports an OVC

3 3 DRNI within the MEF Ethernet Services Architecture Data Plane Control Plane Management Plane Transport Services Layer Ethernet Services Layer Application Services Layer Ordering, Provisioning, Billing, Management and Support DRNI is performed in this layer, which is an ETH(S- VLAN) or ETH(BSI) layer EC signals are transported over p2p VLAN, ESP, PW, transport-LSP, VC- n, ODUk, mp2mp B-VLAN, mp2p LSP connections and 802.3 links This layer supports Ethernet Connections (EC) EC protection switching: G.8031 ETH SNCP G.8032 ERP p802.1AXbq DRNI

4 4 Access Metro (partial mesh of virtual links) Core (full mesh of virtual links)Metro (EC ring) 3 46 5 B 7 810 9 A 2 1 Carrier X Network UNI i EC Terminating or Bridging Node Physical linkEthernet virtual link supported by Transport Services layer connection Multi-Domain Carrier Network Architecture Aggregation & Encapsulation Aggregation EVC EC S-VLAN MAC Relay (in S-Comp or I-Comp) or “BSI Relay (inside c6.11)” VLAN, ESP, LSP, PW, VC-n or ODUk connection A 246810 B

5 5 3 46 5 B 7 8 9 A 2 1 UNI SNC Protected P2P EC in Carrier X network (<1200 km) block forwarding of frames in EC SNC Protected P2P EC VLAN/BSI frame in EC E-Line EVC G.8031 ETH SNC Protected EC (S-VLAN or BSI) EC <1200 km Working EC-Segment and Protection EC-Segment are set up VLAN/BSI frame forwarding blocked over Protection EC-Segment if Working is fault free ETH SNCP operated in  S-VLAN MAC Relay of S-Component (PEB, TEB, T-PE, PB, TB, S-PE) and I-Component (IB-BEB, T-BEB)  c6.11 CBP function of B-Component (B-BEB) W P W P

6 6 6.186..18 19.3 19.2 19.5 8.5 6.18 19.2 802.n 19.3 19.2 6.18 19.2 19.3 19.2 6..18 19.2 8.6.3 SVLAN MAC Relay G.8031 ETH SNCP functionality inside S/I-Components and CBP c6.11 CBP function is extended with G.8031 ETH SNCP functionality CBP is extended with BSI SNCP MEP/MIP functionality to determine SF/SD status of W-BSI and P-BSI c8.6.3 S-VLAN MAC Relay function is extended with G.8031 ETH SNCP functionality 19.3 8.6.1/2/4 19.3 19.2 19.5 8.6.6/7/8 8.5 6.9 19.3 8.6.1/2/4 19.3 19.2 19.5 8.6.6/7/8 8.5 6.9 19.3 8.6.1/2/4 19.3 19.2 19.5 8.6.6/7/8 8.5 6.9 6.14 G.8031 ETH SNCP W P N SF/SD W/P-SVLAN SNCP MEP SVLAN SP MEP 19.2 802.n 6.7 APS S/I-Component with S-VLAN SNCP 6.15 19.2 802.n 6.7 6.10 19.2 802.n 6.7 6.15 19.2 802.n 6.7 6.10 19.2 802.n 6.7 ONP PIP PNP CNP 6.11 G.8031 ETH SNCP W P N SF/SD W/P-BSI SNCP MEP BSI SP MEP 6.7 APS CBP with BSI SNCP BVLAN SNCP MEP 8.6.3 BVLAN MAC Relay 6.186..17 adminPointToPointM AC parameter set to ForceTrue; no C- MAC/B-MAC learning and flushing

7 7 Core (full mesh) Access Core (full mesh) Metro (EC ring) 3 46 5 A 2 1 Access Metro (partial mesh) B 10 9 1314 1112 7 8 Carrier X Network Carrier Y Network E-NNI UNI DRNI i EC Terminating or Bridging Node Physical linkEthernet virtual link supported by Transport Services layer connection Multi-Carrier Network Architecture Node types: PB, IB-BEB, IB-BEB-TE, TB, S-PE, B-BEB Network types: PBN, PBBN, PBB-TEN, SDH, OTN, MPLS(-TP)

8 8 3 46 5 A 2 1 B 10 9 1314 1112 7 8 Carrier X Network Carrier Y Network E-NNI UNI DNI protected P2P EC in Carrier X and Y networks block forwarding of frames in EC DNI Protected P2P EC VLAN/BSI frame in EC E-Line EVC SNC Protected P2P EC Segment in Carrier X network (<1200 km) OVC ETH SNCP & DRNI Protected EC (S-VLAN, BSI) EC-Segments <1200 km W P W P DRNI SNC Protected P2P EC Segment in Carrier Y network (<1200 km)

9 9 Distributed ETH SNCP architecture ETH SNCP has got distributed control in E-NNI nodes (DSNCP) Carrier X ETH APS may terminate in DSNCP process in nodes 11 or 12 Carrier Y ETH APS may terminate in DSNCP process in nodes 13 or 14 Either W_MEP/P_MEP* pair, or W_MEP*/P_MEP pair is active The DRNI status controls if  carrier X APS terminates in 11 or 12  carrier Y APS terminates in 13 or 14  carrier X active DSNCP MEP pair  carrier Y active DSNCP MEP pair 1112 1314 DSNCP P_MEP W_MEP P_MEPW_MEP Carrier X ETH SNCP Carrier Y ETH SNCP DRNI W_MEP*P_MEP* W_MEP*P_MEP* S-VLAN EC or BSI EC E-NNI APS NOTE – MEPs for DRNI part are outside scope of this contribution

10 10 Distributed ETH SNCP architecture configuration examples 1112 1314 DSNCP P_MEP W_MEP P_MEPW_MEP Carrier X ETH SNCP Carrier Y ETH SNCP DRNI W_MEP*P_MEP* W_MEP*P_MEP* E-NNI APS 1112 1314 DSNCP P_MEP W_MEP P_MEPW_MEP Carrier X ETH SNCP Carrier Y ETH SNCP DRNI W_MEP*P_MEP* W_MEP*P_MEP* E-NNI APS X

11 11 Distributed ETH SNCP architecture configuration examples 1112 1314 DSNCP P_MEP W_MEP P_MEPW_MEP Carrier X ETH SNCP Carrier Y ETH SNCP DRNI W_MEP*P_MEP* W_MEP*P_MEP* E-NNI APS 1112 1314 DSNCP P_MEP W_MEP P_MEPW_MEP Carrier X ETH SNCP Carrier Y ETH SNCP DRNI W_MEP*P_MEP* W_MEP*P_MEP* E-NNI APS X X X

12 12 Network Operator MEP functions NO_MEP functions are located on the E-NNI ports The DRNI status controls which E- NNI port is the active port for an EC The NO_MEP on the active E-NNI port is used to monitor the EC Segment in the carrier network 1112 1314 DSNCP NO_MEP DRNI S-VLAN EC or BSI EC E-NNI NO_MEP* NO_MEP*** NO_MEP** NO_MEPNO_MEP*** NO_MEP*NO_MEP** EC Segment Far end NO_MEP SP_MEP

13 13 DSNCP, DRNI, SNCP MEP and NO MEP functionality inside S/I-Components DSNCP and DRNI both control the EC(SVLAN) connectivity DSNCP process interacts with SNCP process at far end of SNC protected EC Segment DSNCP process requirements and behaviour is TBD DRNI process has to be performed prior to the NO_MEP and SP_MIP functions DRNI differs from common LAG in that LAG distributes MAC frames independent of the EC they belong to, while DRNI controls EC connectivity 19.3 8.6.1/2/4 19.3 19.2 19.5 8.6.6/7/8 8.5 6.9 8.6.3 SVLAN MAC Relay 19.3 8.6.1/2/4 19.3 19.2 19.5 8.6.6/7/8 8.5 6.9 19.3 8.6.1/2/4 19.3 19.2 19.5 8.6.6/7/8 8.5 6.9 19.3 8.6.1/2/4 19.3 19.2 19.5 8.6.6/7/8 8.5 6.9 DSNCP W P* N SF/SD W/P_S-VLAN SNCP MEP S-VLAN NO_MEP APS S/I-Component with S-VLAN DSNCP and DRNI ONP, PNP, PIP spec. 19.3 8.6.1/2/4 19.3 19.5 8.6.6/7/8 8.5 6.9 ONP, PNP, PIP spec. CNP spec. DRNI CNP spec. E-NNI to/from DRNI peer node S-VLAN SP_MIP

14 14 6.186..18 19.3 19.2 19.5 8.5 6.18 19.2 802.n 19.3 19.2 6.18 19.2 19.3 19.2 6..18 19.2 DSNCP, DRNI, SNCP MEP and NO MEP functionality inside CBP DSNCP and DRNI both control the EC(BSI) connectivity c6.11 CBP function supports DSNCP and DRNI within a “BSI Relay” type of process with SID based forwarding and protection (but no MAC based forwarding) Default Backbone Destination parameter has to be switched together with ; i.e. W  P 6.11 DSNCP W P* N SF/SD W/P-BSI SNCP MEP BSI NO_MEP 6.7 APS CBP with BSI DSNCP & DRNI B-VLAN MEP 8.6.3 B-VLAN MAC Relay 6.186..17 6.18 19.3 6.18 19.2 DRNI 19.3 19.2 19.5 8.5 6.18 19.2 802.n 6.7 6.18 to/from DRNI peer node E-NNI BSI SP_MIP

15 15 Some considerations on items in slides 7- 10 of http://www.ieee802.org/1/files/public/docs2010/new- haddock-resilient-network-interconnect-addressing-1110- v1.pdf http://www.ieee802.org/1/files/public/docs2010/new- haddock-resilient-network-interconnect-addressing-1110- v1.pdf

16 16 Working & protection paths in area network S SS SS S C DSNCP DRNI S DSNCP DRNI B BB BB CBP DSNCP DRNI CBP DSNCP DRNI BB SNCP CBP SNCP S BB BB S DSNCP DRNI S DSNCP DRNI SNCP BB CBP PIP B CBP PIP CBP PIP CBP PIP Protection SVLAN Working SVLAN Protection SVLAN Working SVLAN Protection BSI Working BSI http://www.ieee802.org/1/files/public/do cs2010/new-haddock-resilient-network- interconnect-addressing-1110-v1.pdf http://www.ieee802.org/1/files/public/do cs2010/new-haddock-resilient-network- interconnect-addressing-1110-v1.pdf slide 7 B-BEB IB-BEB or IB-BEB-TE IB-BEB or IB-BEB-TE PEB PB PBB: each PIP and CBP have different address PBB-TE: each PIP/CBP pair has different address

17 17 Backbone Edge Bridge at an S-tagged RNNI Point-to-Point Backbone Service Instances Four disjoint BVLANs or TESIs  Z  A  Z  B  A  B(DSNCP)  A  B(DNRI) PBB: Four disjoint BSIs, one per BVLAN  Fixed Default Backbone Destination values PBB: Each PIP and CBP have different address PBB-TE: Each PIP/CBP pair has different address p2p SNC protected EC does not require MAC learning  adminPointToPointMAC parameter set to ForceTrue in PIPs http://www.ieee802.org/1/files/public/do cs2010/new-haddock-resilient-network- interconnect-addressing-1110-v1.pdf http://www.ieee802.org/1/files/public/do cs2010/new-haddock-resilient-network- interconnect-addressing-1110-v1.pdf slides 8, 9 S BB BB S DSNCP DRNI S DSNCP DRNI SNCP BB CBP PIP B CBP PIP CBP PIP CBP PIP Protection SVLAN Working SVLAN IB-BEB or IB-BEB-TE IB-BEB or IB-BEB-TE

18 18 E-Line Services and Point-to-Point OVCs Six BVLANs or TESIs Six BSIs, one per BVLAN Working SVLAN EC Segment can have 4 variations  D  B  D  B  A  C  D  B  C  D  B  A Protection SVLAN EC Segment can have 4 variations  D  C  A  B  D  C  A  C  A  B  C  A W/P EC Segment can be extended; this is a new capability. Requires further study. http://www.ieee802.org/1/files/public/do cs2010/new-haddock-resilient-network- interconnect-addressing-1110-v1.pdf http://www.ieee802.org/1/files/public/do cs2010/new-haddock-resilient-network- interconnect-addressing-1110-v1.pdf slide 10 BB BB S DSNCP DRNI S DSNCP DRNI BB CBP PIP CBP PIP IB-BEB or IB-BEB-TE S DSNCP DRNI S DSNCP DRNI BB CBP PIP CBP PIP IB-BEB or IB-BEB-TE Protection SVLAN Working SVLAN

19 19 Long EC Segments, >1200 km “Compact DRNI”

20 20 3 46 5 A 2 1 B 10 9 1314 1112 7 8 Carrier X Network Carrier Y Network E-NNI UNI DNI protected P2P EC in Carrier X and Y networks block forwarding of frames in EC DNI Protected P2P EC VLAN/BSI frame in EC E-Line EVC OVC ETH SNCP & DRNI Protected EC (S-VLAN, BSI) EC-Segments >1200 km Is it possible to use a special version of DRNI here?

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