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SPRING                                                        Quan Xiong
Internet-Draft                                               Greg Mirsky
Intended status: Standards Track                         ZTE Corporation
Expires: January 4, 2020                                  Weiqiang Cheng
                                                            China Mobile
                                                            July 3, 2019


          The Use of Path Segment in SR Inter-domain Scenarios
           draft-xiong-spring-path-segment-sr-inter-domain-00

Abstract

   This document discusses the inter-domain scenarios for SR-MPLS
   network and proposes the solution with the use of Path Segment.

Status of This Memo

   This Internet-Draft is submitted in full conformance with the
   provisions of BCP 78 and BCP 79.

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   This Internet-Draft will expire on January 4, 2020.

Copyright Notice

   Copyright (c) 2019 IETF Trust and the persons identified as the
   document authors.  All rights reserved.

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   described in the Simplified BSD License.




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Table of Contents

   1.  Introduction  . . . . . . . . . . . . . . . . . . . . . . . .   2
   2.  Conventions used in this document . . . . . . . . . . . . . .   3
     2.1.  Terminology . . . . . . . . . . . . . . . . . . . . . . .   3
     2.2.  Requirements Language . . . . . . . . . . . . . . . . . .   3
   3.  Path Segment for SR-MPLS Inter-domain . . . . . . . . . . . .   3
     3.1.  Inter-domain Path Segment . . . . . . . . . . . . . . . .   4
     3.2.  End-to-end Path Segment . . . . . . . . . . . . . . . . .   4
   4.  SR-MPLS Inter-domain Scenarios  . . . . . . . . . . . . . . .   5
     4.1.  Stitching Inter-domain with i-Path  . . . . . . . . . . .   5
     4.2.  Nesting Inter-domain with e-Path  . . . . . . . . . . . .   6
   5.  Security Considerations . . . . . . . . . . . . . . . . . . .   7
   6.  Acknowledgements  . . . . . . . . . . . . . . . . . . . . . .   7
   7.  IANA Considerations . . . . . . . . . . . . . . . . . . . . .   7
   8.  Normative References  . . . . . . . . . . . . . . . . . . . .   7
   Authors' Addresses  . . . . . . . . . . . . . . . . . . . . . . .   8

1.  Introduction

   Segment Routing (SR) leverages the source routing paradigm.  A node
   steers a packet through an SR Policy instantiated as an ordered list
   of instructions called "segments".  A segment can represent any
   instruction, topological or service based.  A segment can have a
   semantic local to an SR node or global within an SR domain.  SR
   supports per-flow explicit routing while maintaining per-flow state
   only at the ingress nodes of the SR domain.  Segment Routing can be
   instantiated on MPLS data plane which is referred to as SR-MPLS
   [I-D.ietf-spring-segment-routing-mpls].  SR-MPLS leverages the MPLS
   label stack to construct the SR path.

   [I-D.ietf-spring-mpls-path-segment] defines a Path Segment identifier
   to support bidirectional path correlation for transport network.  In
   multi-domain scenarios, the SR bidirectional end-to-end tunnel MAY be
   established with the use of Path Segments.  The SR-MPLS inter-domain
   models include the stitching and nesting inter-domain models.  Path
   Segment MAY be used to indicate the inter-domain path or the end-to-
   end path and correlate the inter-domain paths or end-to-end
   unidirectional paths.

   This document discusses the inter-domain scenarios for SR-MPLS
   networks and proposes the solution with the use of Path Segment for
   end-to-end bidirectional SR path.








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2.  Conventions used in this document

2.1.  Terminology

   ABR: Area Border Routers.  Routers used to connect two IGP areas
   (areas in OSPF or levels in IS-IS).

   A->B SID list: The SID List from SR node A to SR node B.

   AS: Autonomous System.

   ASBR: Autonomous System Border Router.  Router used to connect
   together ASes of the same or different service providers via one or
   more inter-AS links.

   Domains:Autonomous System (AS) or IGP Area.  An Autonomous System is
   composed by one or more IGP area.

   e-Path: End-to-end Path segment.

   s-Path: Sub-path Path Segment.

   Inter-Area: Two IGP areas interconnects with an ABR in a AS.

   Inter-AS: Two ASes interconnects with an ASBR.

   IGP: Interior Gateway Protocol.

   i-Path/i-PSID: Inter-domain Path Segment.

   SR: Segment Routing.

   SR-MPLS: Segment Routing with MPLS data plane.

2.2.  Requirements Language

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
   "OPTIONAL" in this document are to be interpreted as described in BCP
   14 [RFC2119] [RFC8174] when, and only when, they appear in all
   capitals, as shown here.

3.  Path Segment for SR-MPLS Inter-domain








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3.1.  Inter-domain Path Segment

   In the stitching inter-domain model, the end-to-end SR path being
   split into multiple segments section 4.2.  And each segment can be
   identified by an inter-domain path segment (i-Path or i-PSID).  The
   inter-domain path segment is valid in the corresponding domain and
   the border nodes maintain the forwarding entries of that i-Path
   segment mapping to the next i-Path.  In the headend node, the i-Path
   can be mapped to the inter-domain path of reverse direction and
   correlates the two unidirectional paths.  The border nodes should
   install the following MPLS data entries for Path segments:

     incoming label: i-Path
        outgoing label: the SID list of the next domain or link + next i-Path

   Taking Figure 1 as an example, the border node X installs the MPLS
   data entries:

        incoming label: i-Path(A->X)
           outgoing label: X->Y SID list + i-Path(X->Y)

   The i-Path can be a locally unique label and assigned from the
   Segment Routing Local Block (SRLB).  It is required that the
   controller(e.g., PCE) assigns the label to ensure the ingress and the
   egress node can recognize it and it also can be assigned from egress
   node of each domain.  PCEP based i-Path allocation and procedure is
   defined in [I-D.xiong-pce-stateful-pce-sr-inter-domain].

3.2.  End-to-end Path Segment

   The nesting inter-domain model is described in
   [I-D.ietf-spring-mpls-path-segment], an end-to-end path segment, also
   referred to as e-Path, is used to indicate the end-to-end path, and
   an s-Path is used to indicate the intra-domain path.  The e-Path is
   encapsulated at the ingress nodes and decapsulated at the egress
   nodes.  The transit nodes, even the border nodes of domains, are not
   aware of the e-Path segment.  The s-Path can be used as stitching
   label to correlate the two domains.  The use of the binding SID
   [RFC8402] is also recommended to reduce the size of lable stack
   section 4.2.

   The e-Path can be a globally unique or local label.  If the e-Path is
   globally unique, it MUST be assigned from the SRGB block of each
   domain.  If the e-Path is a local label, it is required that the
   controller(e.g., PCE) or a super controller (e.g., hierarchical PCE)
   assigns the label to ensure the ingress(A) and the egress node(Z) can
   recognize it and there is no SID collision in the ingress and egress
   domains.



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4.  SR-MPLS Inter-domain Scenarios

   The domains of the networks may be IGP Areas or ASes and the inter-
   domain scenario may be inter-Area or inter-AS.  The multiple SR-MPLS
   domains may be interconnect with a ABR within areas or inter-link
   between ASes.  This document takes IGP Areas domains for example.
   SR-MPLS domains can be deployed as Figure 1 shown.


                  +                    +                    +
               +     +              +     +              +     +
            +           +         +          +         +          +
         +                 +    +              +    +                +
      A        SR-MPLS       X       SR-MPLS      Y       SR-MPLS      Z
         +      IGP 1      +    +     IGP 2    +    +      IGP 3     +
            +           +         +          +        +            +
               +     +              +     +              +      +
                  +                    +                     +

            Figure 1: SR-MPLS and MPLS-TP interworking Scenario

   Two SR-MPLS inter-domain models are discussed in this document
   including the stitching and nesting inter-domain model which are
   described in Section 4.1 and Section 4.2 respectively.

4.1.  Stitching Inter-domain with i-Path

   The Figure 1 displays the border node inter-domain scenario.  SR node
   X and SR node Y are the border nodes of two different domains.  The
   i-Paths from A->X, X->Y, and Y->Z are used for the inter-domain path
   segment.  The ingress SR node A encapsulates the data packet with
   i-Path (A->X) and A->X SID list.  The data packet is forwarded to SR
   node X according to the A->X SID list.  Node X pushes the i-Path
   (X->Y) and X->Y SID list based on the above mentioned forwarding
   entry.  The data packet is forwarded to node Y and then to the SR
   node Z based on the same forwarding procedure.  In node Z, the i-Path
   (Y->Z) can be mapped to the path from Z to Y of reverse direction and
   correlates the two unidirectional paths.  The packet transmission of
   the reverse direction is the same with the forwarding direction with
   different i-Paths.











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      ..................   .................   ....................
      .                .   .               .   .                  .
  +-----+             +-----+             +-----+              +-----+
  |  A  |             |  X  |             |  Y  |              |  Z  |
  +-----+             +-----+             +-----+              +-----+
      .  SR Domain 1   .   .  SR Domain 2  .   .   SR Domain 3    .
      ..................   .................   ....................

   |<------------------>|<------------------>|<--------------->|
        i-Path(A->X)         i-Path(X->Y)         i-Path(Y->Z)

    Node A               Node X             Node Y             Node Z
+-------------+     +-------------+     +-------------+
|A->X SID list|     |X->Y SID list|     |Y->Z SID list|
+-------------+     +-------------+     +-------------+    +--------------+
|i-Path(A->X) |---->|i-Path(X->Y) |---->|i-Path(Y->Z) |--->|   Payload    |
+-------------+     +-------------+     +-------------+    +--------------+
|  Payload    |     |   Payload   |     |  Payload    |
+-------------+     +-------------+     +-------------+



           Figure 2: Stitching Border Node Inter-Domain Scenario

4.2.  Nesting Inter-domain with e-Path

   Figure 3 shows the SR-MPLS nesting inter-domain scenario.  The
   e-Path(A->Z) is used to indicate the end-to-end path.  The s-Path is
   used to identify the domain's sub-path.  The e-Path, s-Path and SR
   list are pushed by the ingress node.  The e-Path is used to correlate
   the two unidirectional SR paths to an SR bidirectional path.  The
   s-Path can be used as stitching label to correlate the two inter-
   domain sub-paths.

   The use of the binding SID [RFC8402] is also recommended to replace
   the SR list of each domain.  As shown in Figure 3, the B-SID(X->Y) is
   used to replace the X->Y SID list.  Ingress node A pushes
   e-Path(A->Z), B-SID(Y->Z), B-SID(X-Y), s-Path(A->X) and A->X SID list
   in turn.  When the packet is received at node X, the s-Path(A-X) and
   X->Y SID list are popped, and the new s-Path(X->Y) is pushed.  Also,
   X->Y SID list replaces B-SID(X->Y) to indicate that packet to be
   forwarded from node X to node Y.  The data packet reaches the SR node
   Z according to the same forwarding procedure.  In SR node Z, the
   e-Path (A->Z) is used to correlate the two unidirectional end-to-end
   paths.






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      ..................   .................   ....................
      .                .   .               .   .                  .
  +-----+             +-----+             +-----+              +-----+
  |  A  |             |  X  |             |  Y  |              |  Z  |
  +-----+             +-----+             +-----+              +-----+
      .  SR Domain 1   .   .  SR Domain 2  .   .   SR Domain 3    .
      ..................   .................   ....................

    |<------------------>|<------------------>|<--------------->|
           s-Path(A->X)         s-Path(X->Y)       s-Path(Y->Z)
    |<--------------------------------------------------------->|
                           e-Path(A->Z)
    Node A
+-------------+
|A->X SID list|         Node X
+-------------+     +-------------+
|s-Path(A->X) |     |X->Y SID list|         Node Y
+-------------+     +-------------+     +-------------+
|B-SID(X->Y)  | --> |s-Path(X->Y) |     |Y->Z SID list|
+-------------+     +-------------+     +-------------+
|B-SID(Y->Z)  |     |B-SID(Y->Z)  | --> |s-Path(Y->Z) |        Node Z
+-------------+     +-------------+     +-------------+     +-------------+
|e-Path(A->Z) |     |e-Path(A->Z) |     |e-Path(A->Z) | --> |e-Path(A->Z) |
+-------------+     +-------------+     +-------------+     +-------------+
|  Payload    |     |   Payload   |     |  Payload    |     |  Payload    |
+-------------+     +-------------+     +-------------+     +-------------+


                  Figure 3: Nesting Inter-Domain Scenario

5.  Security Considerations

   TBA

6.  Acknowledgements

   TBA

7.  IANA Considerations

   TBA

8.  Normative References








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   [I-D.ietf-spring-mpls-path-segment]
              Cheng, W., Li, H., Chen, M., Gandhi, R., and R. Zigler,
              "Path Segment in MPLS Based Segment Routing Network",
              draft-ietf-spring-mpls-path-segment-00 (work in progress),
              March 2019.

   [I-D.ietf-spring-segment-routing-mpls]
              Bashandy, A., Filsfils, C., Previdi, S., Decraene, B.,
              Litkowski, S., and R. Shakir, "Segment Routing with MPLS
              data plane", draft-ietf-spring-segment-routing-mpls-22
              (work in progress), May 2019.

   [I-D.xiong-pce-stateful-pce-sr-inter-domain]
              Xiong, Q., hu, f., Mirsky, G., and W. Cheng, "Stateful PCE
              for SR-MPLS-TP Inter-domain", draft-xiong-pce-stateful-
              pce-sr-inter-domain-00 (work in progress), December 2018.

   [RFC2119]  Bradner, S., "Key words for use in RFCs to Indicate
              Requirement Levels", BCP 14, RFC 2119,
              DOI 10.17487/RFC2119, March 1997,
              <https://www.rfc-editor.org/info/rfc2119>.

   [RFC8174]  Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC
              2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174,
              May 2017, <https://www.rfc-editor.org/info/rfc8174>.

   [RFC8402]  Filsfils, C., Ed., Previdi, S., Ed., Ginsberg, L.,
              Decraene, B., Litkowski, S., and R. Shakir, "Segment
              Routing Architecture", RFC 8402, DOI 10.17487/RFC8402,
              July 2018, <https://www.rfc-editor.org/info/rfc8402>.

Authors' Addresses

   Quan Xiong
   ZTE Corporation
   No.6 Huashi Park Rd
   Wuhan, Hubei  430223
   China

   Phone: +86 27 83531060
   Email: xiong.quan@zte.com.cn


   Greg Mirsky
   ZTE Corporation
   USA





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   Weiqiang Cheng
   China Mobile
   Beijing
   China

   Email: chengweiqiang@chinamobile.com













































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