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IETF RFC 6005

Generalized MPLS (GMPLS) Support for Metro Ethernet Forum and G.8011 User Network Interface (UNI)

Last modified on Monday, October 11th, 2010

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Internet Engineering Task Force (IETF)                         L. Berger
Request for Comments: 6005                                          LabN
Category: Standards Track                                     D. Fedyk
ISSN: 2070-1721                                           Alcatel-Lucent
                                                            October 2010


       Generalized MPLS (GMPLS) Support for Metro Ethernet Forum
                and G.8011 User Network Interface (UNI)

 Abstract

   This document describes a method for controlling two specific types
   of Ethernet switching via a GMPLS-based User Network Interface (UNI).
   This document supports the types of switching required by the
   Ethernet services that have been defined in the context of the Metro
   Ethernet Forum (MEF) and International Telecommunication Union (ITU)
   G.8011.  This document is the UNI companion to "Generalized MPLS
   (GMPLS) Support for Metro Ethernet Forum and G.8011 Ethernet Service
   Switching".  This document does not define or limit the underlying
   intra-domain or Internal NNI (I-NNI) technology used to support the
   UNI.

 Status of This Memo

   This is an Internet Standards Track document.

   This document is a product of the Internet Engineering Task Force
   (IETF).  It represents the consensus of the IETF community.  It has
   received public review and has been approved for publication by the
   Internet Engineering Steering Group (IESG).  Further information on
   Internet Standards is available in Section 2 of RFC 5741.

   Information about the current status of this document, any errata,
   and how to provide feedback on it may be obtained at
   http://www.rfc-editor.org/info/RFC 6005.















Berger & Fedyk               Standards Track                 PAGE 1 top


RFC 6005 GMPLS Support for MEF and G.8011 UNI October 2010 Copyright Notice Copyright (c) 2010 IETF Trust and the persons identified as the document authors. All rights reserved. This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License. Table of Contents 1. Introduction ....................................................3 1.1. Overview ...................................................4 1.2. Conventions Used in This Document ..........................5 2. Common Signaling Support ........................................5 2.1. UNI Addressing .............................................5 2.2. Ethernet Endpoint (UNI) Identification .....................6 2.2.1. Address Resolution ..................................6 2.3. Connection Identification ..................................7 3. EPL Service .....................................................7 4. EVPL Service ....................................................7 4.1. Egress VLAN ID Control and VLAN ID Preservation ............7 5. IANA Considerations .............................................8 5.1. Error Value: Routing Problem/Unknown Endpoint ..............8 6. Security Considerations .........................................8 7. References ......................................................8 7.1. Normative References .......................................8 7.2. Informative References .....................................9 Acknowledgments ....................................................9 Berger & Fedyk Standards Track PAGE 2 top

RFC 6005 GMPLS Support for MEF and G.8011 UNI October 2010 1. Introduction [MEF6] and [G.8011] provide parallel frameworks for defining network- oriented characteristics of Ethernet services in transport networks. The framework discusses general Ethernet connection characteristics, Ethernet User Network Interfaces (UNIs), and Ethernet Network-Network Interfaces (NNIs). Within this framework, [G.8011.1] defines the Ethernet Private Line (EPL) service and [G.8011.2] defines the Ethernet Virtual Private Line (EVPL) service. [MEF6] covers both service types. [MEF10.1] defines service parameters and [MEF11] provides UNI requirements and framework. This document provides a method for GMPLS-based control of Label Switched Paths (LSPs) that support the transport services defined in the above documents at the UNI network reference points. This document does not define or limit the underlying intra-domain or Internal NNI (I-NNI) technology used to support the UNI. This document makes use of the GMPLS extensions defined in [RFC 6004] and [RFC 6002]. The scope of this document covers Ethernet UNI applications, and it is intended to be consistent with the GMPLS overlay model presented in [RFC 4208] and aligned with GMPLS Core Network signaling. The scope and reference model used in this document are represented in Figure 1, which is based on Figure 1 of [RFC 4208]. Figure 1 shows two core networks, each containing two core nodes. The core nodes are labeled 'CN'. Connected to each CN is an edge node. The edge nodes are labeled 'EN'. Each EN supports Ethernet Networks and use Ethernet services provided by the core nodes via a UNI. Two services are represented: one EPL and one EVPL type service. Signaling within the core network is out of scope of this document and may include any technology that supports overlay UNI services. The UNI function in the edge node can be referred to as the UNI client, or UNI-C, and in the CN as UNI network, or UNI-N. Berger & Fedyk Standards Track PAGE 3 top

RFC 6005 GMPLS Support for MEF and G.8011 UNI October 2010 Ethernet Ethernet Network +----------+ +-----------+ Network +---------+ | | | | +---------+ | +----+ | | +-----+ | | +-----+ | | +----+ | ------+ | | EPL | | | | | | | | EPL | | +------ ------+ EN +-+-----+--+ CN +---------+ CN +--+-----+-+ EN +------ | | | | +--+--| +---+ | | +--+-----+-+ | | | +----+ | | | +--+--+ | | | +--+--+ | | +----+ | | | | | | | | | | | | | +---------+ | | | | | | | | +---------+ | | | | | | | | +---------+ | | | | | | | | +---------+ | | | | +--+--+ | | | +--+--+ | | | | +----+ | | | | | | +-----+ | | | +----+ | ------+ +-+--+ | | CN +---------+ CN | | | | +------ ------+ EN +-+-----+--+ | | | | +--+-----+-+ EN +------ | | | |EVPL | +-----+ | | +-----+ |EVPL | | | | | +----+ | | | | | | +----+ | | | +----------+ |-----------+ | | +---------+ Core Network(s) +---------+ Ethernet UNI UNI Ethernet Network <-----> <-----> Network Scope of This Document Legend: EN - Edge Node CN - Core Node Figure 1: Ethernet UNI Reference Model 1.1. Overview This document uses a common approach to supporting the switching implied by the Ethernet services defined in [MEF6], [G.8011.1], and [G.8011.2]. The approach builds on standard GMPLS mechanisms to deliver the required control capabilities. This document reuses the GMPLS mechanisms specified in [RFC 6004], [RFC 4208], and [RFC 4974]. Support for Point-to-Point (P2P) and Multipoint-to-Multipoint (MP2MP) service is required by [G.8011] and [MEF11]. P2P service delivery support is based on the GMPLS support for Ethernet services covered in [RFC 6004]. As with [RFC 6004], the definition of support for MP2MP service is left for future study and is not addressed in this document. [MEF11] defines multiple types of control for UNI Ethernet services. In MEF UNI Type 1, services are configured manually. In MEF UNI Type 2, services may be configured manually or via a link management interface. In MEF UNI Type 3, services may be established and Berger & Fedyk Standards Track PAGE 4 top

RFC 6005 GMPLS Support for MEF and G.8011 UNI October 2010 managed via a signaling interface. As with [RFC 6004], this document is aimed at supporting the MEF UNI Type 3 mode of operation (and not MEF UNI Types 1 and 2). As mentioned above, this document is limited to covering UNI-specific topics. Common procedures used to signal Ethernet connections are described in Section 2 of this document. Procedures related to signaling switching in support of EPL services are described in Section 3. Procedures related to signaling switching in support of EVPL services are described in Section 4. 1.2. Conventions Used in This Document The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in [RFC 2119]. 2. Common Signaling Support This section describes the common mechanisms for supporting a UNI reference point for LSPs that provide the Ethernet Services described in [RFC 6004]. Except as specifically modified in this document, the procedures related to the processing of Resource ReSerVation Protocol (RSVP) objects is not modified by this document. The relevant procedures in existing documents, notably [RFC 6002], [RFC 6004], [RFC 4208], and [RFC 4974], MUST be followed in all cases not explicitly described in this document. 2.1. UNI Addressing LSPs providing Ethernet connections controlled via the mechanisms defined in this document MUST use the addressing and other procedures defined in [RFC 4208]. Of note, this includes the use of the egress edge node's IP address in the endpoint address field in the SESSION object. One issue that presents itself with the addressing approach taken in [RFC 4208] is that an ingress edge node may not receive the egress edge node's IP address as part of the management, or other, request that results in the initiation of a new Ethernet connection. This case is covered as described in Section 7.2 of [RFC 4974] and modified below in Section 2.2.1. Berger & Fedyk Standards Track PAGE 5 top

RFC 6005 GMPLS Support for MEF and G.8011 UNI October 2010 2.2. Ethernet Endpoint (UNI) Identification UNI identification, except as noted below, MUST follow Ethernet endpoint (UNI) identification as defined in [RFC 6004]. There is one additional case that is covered in this document where the scope of the Ethernet endpoint identifier is relevant beyond the typical case of just ingress and egress nodes. 2.2.1. Address Resolution At the UNI reference point, it is possible for the ingress edge node to not have the egress edge node's IP address when initiating an LSP. This presents an issue as the egress edge node's IP address is carried in the SESSION object. This case is handled leveraging the approach described in Section 7.2 of [RFC 4974] to address call ID assignment by the first core node. When an edge node (the UNI-C) initiates an LSP and it has the egress Ethernet endpoint identifier, but does not have its IP address, the edge node MUST create a Notify message as described in [RFC 4974]. The Notify message MUST include the CALL_ATTRIBUTES object with the Endpoint ID TLV defined [RFC 6004]. The tunnel endpoint address field of the SESSION object in the Notify message MUST be set to zero (0). The message MUST be addressed and sent to an address associated with the first core node. When a core node, i.e., the node providing the network side of the UNI (the UNI-N), receives a Notify message with the tunnel endpoint address field of the SESSION object set to zero, it MUST locate the Endpoint ID TLV in the CALL_ATTRIBUTES object. If the object or TLV are not present, the node MUST discard the message. In this case, a Message ID Acknowledgment MUST NOT be sent for the Notify message. When the Endpoint ID TLV is located, the node MUST map the Endpoint ID into an IP address associated with the egress edge node. If the node is unable to obtain an egress address, it MUST issue an error response Notify messages according to Section 6.2.2. of [RFC 4974]. The Error code and value SHOULD be "Routing Problem/Unknown Endpoint" (Error code 24, Error value 35). When the node is able to obtain an egress address, the endpoint address field of the SESSION object MUST be set to the obtained address, and the Notify message should be sent according to the standard processing defined in [RFC 4974]. The downstream nodes will then process the Notify according to standard processing rules. Berger & Fedyk Standards Track PAGE 6 top

RFC 6005 GMPLS Support for MEF and G.8011 UNI October 2010 When the ingress receives the response Notify message, it SHOULD identify the call based on the Endpoint ID TLV and, when not set to zero on the corresponding setup Notify message, the short and long Call IDs. The endpoint address field of the SESSION object carried in the response Notify message will include the egress's IP address. This returned address MUST be used in all subsequent messages associated with the Ethernet connection. Note that the procedure described in this section MAY be used when the Call IDs are generated by the initiating UNI or generated by the first core node. 2.3. Connection Identification With one exception, UNI signaling for Ethernet connections MUST follow the Connection Identification procedures defined in [RFC 6004]. The exception is that the procedures defined in Section 7.2 of [RFC 4974] MAY be used to provide support for allocation of Call IDs by the first core node rather than by the initiating edge node. 3. EPL Service There are no additional UNI-specific requirements for signaling LSPs supporting Ethernet Private Line (EPL) services. The procedures defined in [RFC 6004], as modified above, MUST be followed when signaling an LSPs supporting an EPL Service. 4. EVPL Service There is one additional UNI-specific requirement for signaling LSPs supporting an EVPL type service as described in Section 4.1. Except as modified above and by this section, the procedures defined in [RFC 6004] MUST be followed when signaling an EVPL Service. 4.1. Egress VLAN ID Control and VLAN ID Preservation Per [MEF6], the mapping of the single VLAN ID used at the ingress UNI to a different VLAN ID at the egress UNI is allowed for EVPL services that do not support both bundling and VLAN ID preservation. Such a mapping MUST be requested and signaled based on the explicit label control mechanism defined in [RFC 4208], and not the mechanisms defined in [RFC 6004]. As is the case in [RFC 6004], when the explicit label control mechanism is not used VLAN IDs MUST be preserved, i.e., not modified, across the LSP. Berger & Fedyk Standards Track PAGE 7 top

RFC 6005 GMPLS Support for MEF and G.8011 UNI October 2010 5. IANA Considerations IANA has assigned new values for namespaces defined in this document and summarized in this section. 5.1. Error Value: Routing Problem/Unknown Endpoint IANA has made the following assignment in the "Error Codes and Globally-Defined Error Value Sub-Codes" section of the "RSVP Parameters" registry located at http://www.iana.org: Error Code Meaning 24 Routing Problem [RFC 3209] Under "This Error Code has the following globally-defined Error Value sub-codes:" 35 = Unknown Endpoint [RFC 6005] 6. Security Considerations This document makes use of the mechanisms defined in [RFC 6004] and [RFC 4974]. It does not in itself change the security models offered in each. (Note that the address resolution discussed in Section 2.2 above, parallels the replacement of information that occurs per Section 7.2 of [RFC 4974].) See [RFC 6004] and [RFC 4974] for the security considerations that are relevant to and introduced by the base mechanisms used by this document. 7. References 7.1. Normative References [RFC 2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. [RFC 3209] Awduche, D., Berger, L., Gan, D., Li, T., Srinivasan, V., and G. Swallow, "RSVP-TE: Extensions to RSVP for LSP Tunnels", RFC 3209, December 2001. [RFC 4208] Swallow, G., Drake, J., Ishimatsu, H., and Y. Rekhter, "Generalized Multiprotocol Label Switching (GMPLS) User- Network Interface (UNI): Resource ReserVation Protocol- Traffic Engineering (RSVP-TE) Support for the Overlay Model", RFC 4208, October 2005. Berger & Fedyk Standards Track PAGE 8 top

RFC 6005 GMPLS Support for MEF and G.8011 UNI October 2010 [RFC 4974] Papadimitriou, D. and A. Farrel, "Generalized MPLS (GMPLS) RSVP-TE Signaling Extensions in Support of Calls", RFC 4974, August 2007. [RFC 6002] Berger, L. and D. Fedyk, "Generalized MPLS (GMPLS) Data Channel Switching Capable (DCSC) and Channel Set Label Extensions", RFC 6002, October 2010. [RFC 6004] Berger, L. and D. Fedyk, "Generalized MPLS (GMPLS) Support for Metro Ethernet Forum and G.8011 Ethernet Service Switching", RFC 6004, October 2010. 7.2. Informative References [G.8011] ITU-T G.8011/Y.1307, "Ethernet over Transport Ethernet services framework", August 2004. [G.8011.1] ITU-T G.G.8011.1/Y.1307.1, "Ethernet private line service", August 2004. [G.8011.2] ITU-T G.8011.2/Y.1307.2, "Ethernet virtual private line service", September 2005. [MEF6] The Metro Ethernet Forum, "Ethernet Services Definitions - Phase I", MEF 6, June 2004. [MEF10.1] The Metro Ethernet Forum, "Ethernet Services Attributes Phase 2", MEF 10.1, November 2006. [MEF11] The Metro Ethernet Forum , "User Network Interface (UNI) Requirements and Framework", MEF 11, November 2004. Acknowledgments Dimitri Papadimitriou provided substantial textual contributions to this document and coauthored earlier versions of this document. The authors would like to thank Evelyne Roch and Stephen Shew for their valuable comments. Berger & Fedyk Standards Track PAGE 9 top

RFC 6005 GMPLS Support for MEF and G.8011 UNI October 2010 Authors' Addresses Lou Berger LabN Consulting, L.L.C. Phone: +1-301-468-9228 EMail: lberger@labn.net Don Fedyk Alcatel-Lucent Groton, MA 01450 Phone: +1-978-467-5645 EMail: donald.fedyk@alcatel-lucent.com Berger & Fedyk Standards Track PAGE 10 top

Generalized MPLS (GMPLS) Support for Metro Ethernet Forum and G.8011 User Network Interface (UNI) RFC TOTAL SIZE: 20301 bytes PUBLICATION DATE: Monday, October 11th, 2010 LEGAL RIGHTS: The IETF Trust (see BCP 78)


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