Internet Engineering Task Force (IETF) R. Aggarwal Request for Comments: 6515 Juniper Networks, Inc. Updates: 6514 E. Rosen Category: Standard Track Cisco Systems, Inc. ISSN: 2070-1721 February 2012 IPv4 and IPv6 Infrastructure Addresses in BGP Updates for Multicast VPNAbstract
To provide Multicast VPN (MVPN) service, Provider Edge routers originate BGP Update messages that carry Multicast-VPN ("MCAST-VPN") BGP routes; they also originate unicast VPN routes that carry MVPN- specific attributes. These routes encode addresses from the customer's address space, as well as addresses from the provider's address space. These two address spaces are independent, and the address family (IPv4 or IPv6) of the two spaces may or may not be the same. These routes always contain an "address family" field that specifies whether the customer addresses are IPv4 addresses or whether they are IPv6 addresses. However, there is no field that explicitly specifies the address family of the provider addresses. To ensure interoperability, this document specifies that provider IPv4 addresses are always encoded in these update messages as 4-octet addresses, and that the distinction between IPv4 and IPv6 is signaled solely by the length of the address field. Specific cases are explained in detail. This document updates RFC 6514. 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/rfc6515.
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1. Introduction ....................................................2 1.1. IPv4 and IPv6 Addresses in MCAST-VPN Routes ................2 1.2. Specification of Requirements ..............................4 1.3. Acronyms Used in This Document .............................4 2. PE Addresses in MCAST-VPN Routes ................................4 3. VRF Route Import Extended Community .............................5 4. PMSI Tunnel Attributes in I-PMSI A-D Routes .....................6 4.1. Relationship to AFI Value ..................................6 4.2. Relationship to Next Hop Address Family ....................6 5. IANA Considerations .............................................7 6. Security Considerations .........................................7 7. Acknowledgments .................................................7 8. Normative References ............................................7 9. Informative References ..........................................71. Introduction
1.1. IPv4 and IPv6 Addresses in MCAST-VPN Routes
[MVPN-BGP] defines a new set of BGP route types that are used by service providers (SPs) to provide Multicast Virtual Private Network service to their customers. These routes have a newly defined BGP NLRI, the "MCAST-VPN" NLRI. The MCAST-VPN NLRI is carried in the NLRI field of the MP_REACH_NLRI/MP_UNREACH_NLRI attributes defined in [BGP-MP]. The SAFI field of the MP_REACH_NLRI/MP_UNREACH_NLRI attribute is used to identify the NLRI as being an MCAST-VPN NLRI.
When the SAFI field of an MP_REACH_NLRI/MP_UNREACH_NLRI attribute has the "MCAST-VPN" value, the AFI field has two defined values: 1 and 2. AFI 1 indicates that any customer multicast addresses occurring in the MP_REACH_NLRI/MP_UNREACH_NLRI attribute are IPv4 addresses; AFI 2 indicates that such addresses are IPv6 addresses. However, some of the MCAST-VPN routes also contain addresses of Provider Edge (PE) routers in the SP network. An SP with an IPv4 network may provide MVPN service for customers using IPv6, and an SP with an IPv6 network may provide MVPN service for customers that use IPv4. Therefore, the address family of the PE addresses MUST NOT be inferred from the AFI field of the associated MP_REACH_NLRI/MP_UNREACH_NLRI attribute. The purpose of this document is to make clear that whenever a PE address occurs in an MCAST-VPN route (whether in the NLRI or in an attribute), the IP address family of that address is determined by the length of the address (a length of 4 octets for IPv4 addresses, a length of 16 octets for IPv6 addresses), NOT by the AFI field of the route. In particular, if a SP with an IPv4 core network is providing MVPN/IPv6 service to a customer, the PE addresses in the MCAST-VPN routes will be 4-octet IPv4 routes, even though the AFI of those routes will have the value 2. Some previous specifications (e.g., [RFC4659] and [RFC4798]) have taken a different approach, requiring that in any routes containing IPv6 or VPN-IPv6 customer addresses, the IPv4 PE addresses be represented as IPv6-mapped IPv4 addresses [RFC4291]. This document does not use that approach. Rather, this specification uses the approach adopted in [RFC4684] and [RFC5549]. The MCAST-VPN routes contain enough information to enable the IP address family of the PE addresses to be inferred from the address lengths. [MVPN-BGP] also defines an attribute, the "VRF Route Import Extended Community", that is attached to unicast VPN-IPv4 or VPN-IPv6 routes. This extended community contains a PE address, and this document specifies how to encode an IPv6 address in this attribute, independent of whether the attribute is attached to a VPN-IPv4 route or a VPN-IPv6 route. This document also clarifies an issue with respect to the significance of the Address Family field of an Intra-AS I-PMSI A-D route that carries a PMSI Tunnel Attribute.
1.2. Specification of Requirements
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 [RFC2119].1.3. Acronyms Used in This Document
This document uses a number of acronyms, mostly taken directly from the BGP and VPN specifications. - A-D Route: Auto-Discovery Route [MVPN] - AFI: Address Family Identifier [BGP-MP] - AS: Autonomous System [BGP] - I-PMSI: Inclusive PMSI [RFC4364] - MVPN: Multicast Virtual Private Network [MVPN] - MCAST-VPN routes: BGP routes of "MCAST-VPN" Subsequent Address Family, as defined in [MVPN-BGP]. The NLRI of such routes may be referred to as MCAST-VPN NLRI. - MP_REACH_NLRI: Multiprotocol Reachable NLRI [BGP-MP] - MP_UNREACH_NLRI: Multiprotocol Unreachable NLRI [BGP-MP] - PMSI: Provider Multicast Service Interface [MVPN] - NLRI: Network Layer Reachability Information [BGP] - PE: Provider Edge [RFC4364] - S-PMSI: Selective PMSI [RFC4364] - SAFI: Subsequent Address Field Identifier [BGP-MP] - SP: Service Provider2. PE Addresses in MCAST-VPN Routes
PE addresses occur in MCAST-VPN routes in the following places: 1. "Network Address of Next Hop" field in the MP_REACH_NLRI attribute, as defined in Section 3 of [BGP-MP]. This field is preceded by a "length of next hop address" field. Hence, it is
always clear whether the address is an IPv4 address (length is 4) or an IPv6 address (length is 16). If the length of the next hop address is neither 4 nor 16, the MP_REACH_NLRI attribute MUST be considered to be "incorrect", and MUST be handled as specified in Section 7 of [BGP-MP]. 2. "Intra-AS I-PMSI A-D route", defined in Section 4.1 of [MVPN-BGP]. All MCAST-VPN routes begin with a 1-octet route type field, followed by a 1-octet "NLRI length" field. In the Intra-AS I-PMSI A-D route, the length is followed by an 8-octet Route Distinguisher (RD), which is then followed by the "Originating Router's IP Address" field. The length of this field (4 octets for IPv4 or 16 octets for IPv6) can thus be inferred from the NLRI length field (which will be either 12 or 24, respectively). If the inferred length of the "Originating Router's IP Address" field is neither 4 nor 16, the MP_REACH_NLRI attribute MUST be considered to be "incorrect", and MUST be handled as specified in Section 7 of [BGP-MP]. 3. "S-PMSI A-D Route", defined in Section 4.3 of [MVPN-BGP]. In this route, the "NLRI length" field is followed by an 8-octet RD, a variable-length "multicast source" field, a variable-length "multicast group" field, and an "Originating Router's IP Address" field. The two variable-length fields have their own length fields. From these two length fields and the NLRI length field, one can compute the length of the "Originating Router's IP Address" field, which again is either 4 for IPv4 or 16 for IPv6. If the computed length of the "Originating Router's IP Address" field is neither 4 nor 16, the MP_REACH_NLRI attribute MUST be considered to be "incorrect", and MUST be handled as specified in Section 7 of [BGP-MP]. 4. "Leaf A-D Route", defined in Section 4.4 of [MVPN-BGP]. In this route, the "NLRI length" field is following by a variable-length "route key", which is followed by the "Originating Router's IP Address" field. The Route Key has its own length field. From the NLRI length and the route key length, one can compute the length of the "Originating Router's IP Address" field. If the computed length of the "Originating Router's IP Address" field is neither 4 nor 16, the MP_REACH_NLRI attribute MUST be considered to be "incorrect", and MUST be handled as specified in Section 7 of [BGP-MP].3. VRF Route Import Extended Community
The "VRF Route Import Extended Community", specified in [MVPN-BGP], is an attribute carried by unicast VPN-IPv4 or VPN-IPv6 routes. It is an "IPv4 Address Specific Extended Community" of type "VRF Route
Import"; hence, it can only carry an IPv4 address. To carry an IPv6 address, an "IPv6 Address Specific Extended Community" [RFC5701], of type "VRF Route Import", must be used. A code point for this type of extended community has been allocated by IANA.4. PMSI Tunnel Attributes in I-PMSI A-D Routes
When a PMSI Tunnel Attribute occurs in an I-PMSI A-D route originated by a particular PE or Autonomous System Border Router (ASBR), it identifies a tunnel that the PE/ASBR uses by default for carrying the multicast traffic of a particular customer MVPN. The proper encoding and interpretation of the PMSI Tunnel attribute is affected by both the AFI and "Network Address of Next Hop" fields.4.1. Relationship to AFI Value
When the PMSI Tunnel Attribute occurs in a BGP Update message with a MP_REACH_NLRI attribute whose AFI is 1, the meaning is that the identified tunnel is used by default to carry IPv4 MVPN traffic for a particular customer MVPN. When the PMSI Tunnel Attribute occurs in a BGP Update message with a MP_REACH_NLRI attribute whose AFI is 2, the meaning is that the identified tunnel is used by default to carry IPv6 MVPN traffic for a particular customer MVPN. To assign both IPv4 and IPv6 MVPN traffic to an I-PMSI tunnel, two I-PMSI A-D routes MUST be used -- one whose MP_REACH_NLRI has an AFI of 1 and one whose MP_REACH_NLRI has an AFI of 2. To use the same tunnel for both IPv4 and IPv6 traffic, the same value of the PMSI Tunnel attribute can be used in each route.4.2. Relationship to Next Hop Address Family
If the "Network Address of Next Hop" field in the MP_REACH_NLRI attribute contains an IPv4 address, then any IP addresses appearing in the "Tunnel Identifier" field of the PMSI Tunnel Attribute MUST be IPv4 addresses. If the "Network Address of Next Hop" field in the MP_REACH_NLRI attribute contains an IPv6 address, then any IP addresses appearing in the "Tunnel Identifier" field of the PMSI Tunnel Attribute MUST be IPv6 addresses. If these conditions are not met, the PMSI Tunnel Attribute MUST be handled as a "malformed" PMSI Tunnel Attribute, as specified in Section 5 of [MVPN-BGP].
5. IANA Considerations
IANA has assigned the code point 0x000b for "VRF Route Import" in the "IPv6 Address Specific Extended Community" registry in the "transitive communities" portion of the namespace. The references are to this document and to [MVPN-BGP].6. Security Considerations
This document does not raise any security considerations beyond those raised by [MVPN-BGP].7. Acknowledgments
The authors wish to thank Dongling Duan, Keyur Patel, Yakov Rekhter, and Karthik Subramanian.8. Normative References
[BGP] Rekhter, Y., Ed., Li, T., Ed., and S. Hares, Ed., "A Border Gateway Protocol 4 (BGP-4)", RFC 4271, January 2006. [BGP-MP] Bates, T., Chandra, R., Katz, D., and Y. Rekhter, "Multiprotocol Extensions for BGP-4", RFC 4760, January 2007. [MVPN] Rosen, E., Ed., and R. Aggarwal, Ed., "Multicast in MPLS/BGP IP VPNs", RFC 6513, February 2012. [MVPN-BGP] Aggarwal, R., Rosen, E., Morin, T., and Y. Rekhter, "BGP Encodings and Procedures for Multicast in MPLS/BGP IP VPNs", RFC 6514, February 2012. [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997.9. Informative References
[RFC4291] Hinden, R. and S. Deering, "IP Version 6 Addressing Architecture", RFC 4291, February 2006. [RFC4364] Rosen, E. and Y. Rekhter, "BGP/MPLS IP Virtual Private Networks (VPNs)", RFC 4364, February 2006. [RFC4659] De Clercq, J., Ooms, D., Carugi, M., and F. Le Faucheur, "BGP-MPLS IP Virtual Private Network (VPN) Extension for IPv6 VPN", RFC 4659, September 2006.
[RFC4798] De Clercq, J., Ooms, D., Prevost, S., and F. Le Faucheur, "Connecting IPv6 Islands over IPv4 MPLS Using IPv6 Provider Edge Routers (6PE)", RFC 4798, February 2007. [RFC4684] Marques, P., Bonica, R., Fang, L., Martini, L., Raszuk, R., Patel, K., and J. Guichard, "Constrained Route Distribution for Border Gateway Protocol/MultiProtocol Label Switching (BGP/MPLS) Internet Protocol (IP) Virtual Private Networks (VPNs)", RFC 4684, November 2006. [RFC5549] Le Faucheur, F. and E. Rosen, "Advertising IPv4 Network Layer Reachability Information with an IPv6 Next Hop", RFC 5549, May 2009. [RFC5701] Rekhter, Y., "IPv6 Address Specific BGP Extended Community Attribute", RFC 5701, November 2009.Authors' Addresses
Rahul Aggarwal Juniper Networks 1194 North Mathilda Avenue Sunnyvale, CA 94089 EMail: raggarwa_1@yahoo.com Eric C. Rosen Cisco Systems, Inc. 1414 Massachusetts Avenue Boxborough, MA 01719 EMail: erosen@cisco.com