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Internet Engineering Task Force (IETF)                         L. Berger
Request for Comments: 6780                                          LabN
Updates: 2205, 3209, 3473, 4872                           F. Le Faucheur
Category: Standards Track                                 A. Narayanan
ISSN: 2070-1721                                                    Cisco
                                                            October 2012


                   RSVP ASSOCIATION Object Extensions

 Abstract

   The RSVP ASSOCIATION object was defined in the context of GMPLS-
   controlled Label Switched Paths (LSPs).  In this context, the object
   is used to associate recovery LSPs with the LSP they are protecting.
   This object also has broader applicability as a mechanism to
   associate RSVP state.  This document defines how the ASSOCIATION
   object can be more generally applied.  This document also defines
   Extended ASSOCIATION objects that, in particular, can be used in the
   context of the MPLS Transport Profile (MPLS-TP).  This document
   updates RFC 2205, RFC 3209, and RFC 3473.  It also generalizes the
   definition of the Association ID field defined in RFC 4872.

 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 6780.















Berger, et al.               Standards Track                 PAGE 1 top


RFC 6780 RSVP Extensions October 2012 Copyright Notice Copyright (c) 2012 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 ....................................................2 1.1. Conventions Used in This Document ..........................4 2. Generalized Association ID Field Definition .....................4 3. Non-GMPLS and Non-Recovery Usage ................................4 3.1. Upstream Initiated Association .............................5 3.1.1. Path Message Format .................................5 3.1.2. Path Message Processing .............................6 3.2. Downstream Initiated Association ...........................7 3.2.1. Resv Message Format .................................8 3.2.2. Resv Message Processing .............................8 3.3. Association Types ..........................................9 3.3.1. Resource Sharing Association Type ...................9 3.3.2. Unknown Association Types ..........................10 4. IPv4 and IPv6 Extended ASSOCIATION Objects .....................10 4.1. IPv4 and IPv6 Extended ASSOCIATION Object Format ..........11 4.2. Processing ................................................13 5. Compatibility ..................................................14 6. Security Considerations ........................................14 7. IANA Considerations ............................................15 7.1. IPv4 and IPv6 Extended ASSOCIATION Objects ................15 7.2. Resource Sharing Association Type .........................15 8. Acknowledgments ................................................16 9. References .....................................................16 9.1. Normative References ......................................16 9.2. Informative References ....................................16 Berger, et al. Standards Track PAGE 2 top

RFC 6780 RSVP Extensions October 2012 1. Introduction End-to-end and segment recovery are defined for GMPLS-controlled Label Switched Paths (LSPs) in [RFC 4872] and [RFC 4873], respectively. Both definitions use the ASSOCIATION object to associate recovery LSPs with the LSP they are protecting. Additional narrative on how such associations are to be identified is provided in [RFC 6689]. This document expands the possible usage of the ASSOCIATION object to non-GMPLS and non-recovery contexts. The expanded usage applies equally to GMPLS LSPs [RFC 3473], MPLS LSPs [RFC 3209], and non-LSP RSVP sessions [RFC 2205] [RFC 2207] [RFC 3175] [RFC 4860]. This document also reviews how associations should be made in the case in which the object is carried in a Path message; additionally, it defines usage with Resv messages. This section also discusses usage of the ASSOCIATION object outside the context of GMPLS LSPs. Some examples of non-LSP association being used to enable resource sharing are: o Voice Call-Waiting: A bidirectional voice call between two endpoints, A and B, is signaled using two separate unidirectional RSVP reservations for the flows A->B and B->A. If endpoint A wishes to put the A-B call on hold and join a separate A-C call, it is desirable that network resources on common links be shared between the A-B and A-C calls. The B->A and C->A subflows of the call can share resources using existing RSVP sharing mechanisms, but only if they use the same destination IP addresses and ports. Since by definition, the RSVP reservations for the subflows A->B and A->C of the call must have different IP addresses in the SESSION objects, this document defines a new mechanism to associate the subflows and allow them to share resources. o Voice Shared Line: A voice shared line is a single number that rings multiple endpoints (which may be geographically diverse), such as phone lines to a manager's desk and to their assistant. A Voice over IP (VoIP) system that models these calls as multiple point-to-point unicast pre-ring reservations would result in significantly over- counting bandwidth on shared links, since RSVP unicast reservations to different endpoints cannot share bandwidth. So, a new mechanism is defined in this document to allow separate unicast reservations to be associated and to share resources. Berger, et al. Standards Track PAGE 3 top

RFC 6780 RSVP Extensions October 2012 o Symmetric NAT: RSVP permits sharing of resources between multiple flows addressed to the same destination D, even from different senders S1 and S2. However, if D is behind a NAT operating in symmetric mode [RFC 5389], it is possible that the destination port of the flows S1->D and S2->D may be different outside the NAT. In this case, these flows cannot share resources using RSVP, since the SESSION objects for these two flows outside the NAT have different destination ports. This document defines a new mechanism to associate these flows and allow them to share resources. In order to support the wider usage of the ASSOCIATION object, this document generalizes the definition of the Association ID field defined in RFC 4872. This generalization has no impact on existing implementations. When using the procedures defined below, association is identified based on exact ASSOCIATION object matching. Some of the other matching mechanisms defined in RFC 4872, e.g., matching based on Session IDs, are not generalized. This document allows for, but does not specify, association type-specific processing. This document also defines the Extended ASSOCIATION objects that can be used in the context of MPLS-TP. The scope of the Extended ASSOCIATION objects is not limited to MPLS-TP. 1.1. 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. Generalized Association ID Field Definition The Association ID field is carried in the IPv4 and IPv6 ASSOCIATION objects defined in [RFC 4872]. The [RFC 4872] definition of the field reads: A value assigned by the LSP head-end. When combined with the Association Type and Association Source, this value uniquely identifies an association. This document allows for the origination of ASSOCIATION objects by nodes other than "the LSP head-end". As such, the definition of the Association ID field needs to be generalized to accommodate such usage. This document defines the Association ID field of the IPv4 and IPv6 ASSOCIATION objects as: Berger, et al. Standards Track PAGE 4 top

RFC 6780 RSVP Extensions October 2012 A value assigned by the node that originated the association. When combined with the other fields carried in the object, this value uniquely identifies an association. This change in definition does not impact the procedures or mechanisms defined in [RFC 4872] or [RFC 4873], nor does it impact the existing implementations of [RFC 4872] or [RFC 4873]. 3. Non-GMPLS and Non-Recovery Usage While the ASSOCIATION object [RFC 4872] is defined in the context of GMPLS recovery, the object can have wider application. [RFC 4872] defines the object to be used to "associate LSPs with each other", and then defines an Association Type field to identify the type of association being identified. It also specifies that the Association Type field is to be considered when determining association, i.e., there may be type-specific association rules. As defined by [RFC 4872] and reviewed in [RFC 6689], this is the case for recovery type ASSOCIATION objects. [RFC 6689], notably the text related to resource sharing types, can also be used as the foundation for a generic method for associating LSPs when there is no type-specific association defined. The remainder of this section defines the general rules to be followed when processing ASSOCIATION objects. Object usage in both Path and Resv messages is discussed. The usage applies equally to GMPLS LSPs [RFC 3473], MPLS LSPs [RFC 3209], and non-LSP RSVP sessions [RFC 2205] [RFC 2207] [RFC 3175] [RFC 4860]. As described below, association is always done based on matching either Path state to Path state, or Resv state to Resv state, but not Path state to Resv State. This section applies to the ASSOCIATION objects defined in [RFC 4872]. 3.1. Upstream-Initiated Association Upstream-initiated association is represented in ASSOCIATION objects carried in Path messages and can be used to associate RSVP Path state across MPLS Tunnels / RSVP sessions. (Note, per [RFC 3209], an MPLS tunnel is represented by an RSVP SESSION object, and multiple LSPs may be represented within a single tunnel.) Cross-LSP association based on Path state is defined in [RFC 4872]. This section extends that definition by specifying generic association rules and usage for non-LSP uses. This section does not modify processing required to support [RFC 4872] and [RFC 4873], which is reviewed in Section 3 of [RFC 6689]. The use of an ASSOCIATION object in a single session is not precluded. Berger, et al. Standards Track PAGE 5 top

RFC 6780 RSVP Extensions October 2012 3.1.1. Path Message Format This section provides the Backus-Naur Form (BNF), see [RFC 5511], for Path messages containing ASSOCIATION objects. BNF is provided for both MPLS and for non-LSP session usage. Unmodified RSVP message formats and some optional objects are not listed. The formats for MPLS and GMPLS sessions are unmodified from [RFC 4872] and can be represented based on the BNF in [RFC 3209] as: <Path Message> ::= <Common Header> [ <INTEGRITY> ] <SESSION> <RSVP_HOP> <TIME_VALUES> [ <EXPLICIT_ROUTE> ] <LABEL_REQUEST> [ <SESSION_ATTRIBUTE> ] [ <ASSOCIATION> ... ] [ <POLICY_DATA> ... ] <sender descriptor> The format for non-LSP sessions as based on the BNF in [RFC 2205] is: <Path Message> ::= <Common Header> [ <INTEGRITY> ] <SESSION> <RSVP_HOP> <TIME_VALUES> [ <ASSOCIATION> ... ] [ <POLICY_DATA> ... ] [ <sender descriptor> ] In general, relative ordering of ASSOCIATION objects with respect to each other, as well as with respect to other objects, is not significant. Relative ordering of ASSOCIATION objects of the same type SHOULD be preserved by transit nodes. 3.1.2. Path Message Processing This section is based on, and extends, the processing rules described in [RFC 4872] and [RFC 4873], which is reviewed in [RFC 6689]. This section applies equally to GMPLS LSPs, MPLS LSPs, and non-LSP session state. Note, as previously stated, this section does not modify processing required to support [RFC 4872] and [RFC 4873]. A node sending a Path message chooses when an ASSOCIATION object is to be included in the outgoing Path message. To indicate association between multiple sessions, an appropriate ASSOCIATION object MUST be included in the outgoing Path messages corresponding to each of the associated sessions. In the absence of Association-Type-specific rules for identifying association, the included ASSOCIATION object Berger, et al. Standards Track PAGE 6 top

RFC 6780 RSVP Extensions October 2012 MUST be identical. When there is an Association-Type-specific definition of association rules, the definition SHOULD allow for association based on identical ASSOCIATION objects. This document does not define any Association-Type-specific rules. (See Section 3 of [RFC 6689] for a review of Association-Type-specific rules derived from [RFC 4872].) When creating an ASSOCIATION object, the originator MUST format the object as defined in Section 16.1 of [RFC 4872]. The originator MUST set the Association Type field based on the type of association being identified. The Association ID field MUST be set to a value that uniquely identifies the specific association within the context of the Association Source field. The Association Source field MUST be set to a unique address assigned to the node originating the association. A downstream node can identify an upstream-initiated association by performing the following checks. When a node receives a Path message, it MUST check each ASSOCIATION object received in the Path message to determine if the object contains an Association Type field value supported by the node. For each ASSOCIATION object containing a supported association type, the node MUST then check to see if the object matches an ASSOCIATION object received in any other Path message. To perform this matching, a node MUST examine the Path state of all other sessions and compare the fields contained in the newly received ASSOCIATION object with the fields contained in the Path state's ASSOCIATION objects. An association is deemed to exist when the same values are carried in all fields of the ASSOCIATION objects being compared. Type-specific processing of ASSOCIATION objects is outside the scope of this document. Note that as more than one association may exist, the described matching MUST continue after a match is identified and MUST be performed against all local Path state. It is also possible for there to be no match identified. Unless there are type-specific processing rules, downstream nodes MUST forward all ASSOCIATION objects received in a Path message in any corresponding outgoing Path messages without modification. This processing MUST be followed for unknown Association Type field values. 3.2. Downstream-Initiated Association Downstream-initiated association is represented in ASSOCIATION objects carried in Resv messages and can be used to associate RSVP Resv state across MPLS Tunnels/RSVP sessions. Cross-LSP association, based on Path state, is defined in [RFC 4872]. This section defines Berger, et al. Standards Track PAGE 7 top

RFC 6780 RSVP Extensions October 2012 cross-session association based on Resv state. This section places no additional requirements on implementations supporting [RFC 4872] and [RFC 4873]. Note, the use of an ASSOCIATION object in a single session is not precluded. 3.2.1. Resv Message Format This section provides the Backus-Naur Form (BNF), see [RFC 5511], for Resv messages containing ASSOCIATION objects. BNF is provided for both MPLS and for non-LSP session usage. Unmodified RSVP message formats and some optional objects are not listed. The formats for MPLS, GMPLS, and non-LSP sessions are identical and are represented based on the BNF in [RFC 2205] and [RFC 3209]: <Resv Message> ::= <Common Header> [ <INTEGRITY> ] <SESSION> <RSVP_HOP> <TIME_VALUES> [ <RESV_CONFIRM> ] [ <SCOPE> ] [ <ASSOCIATION> ... ] [ <POLICY_DATA> ... ] <STYLE> <flow descriptor list> Relative ordering of ASSOCIATION objects with respect to each other, as well as with respect to other objects, is not currently significant. Relative ordering of ASSOCIATION objects of the same type SHOULD be preserved by transit nodes. 3.2.2. Resv Message Processing This section applies equally to GMPLS LSPs, MPLS LSPs, and non-LSP session state. A node sending a Resv message chooses when an ASSOCIATION object is to be included in the outgoing Resv message. A node that wishes to allow upstream nodes to associate Resv state across RSVP sessions MUST include an ASSOCIATION object in the outgoing Resv messages corresponding to the RSVP sessions to be associated. In the absence of Association-Type-specific rules for identifying association, the included ASSOCIATION objects MUST be identical. When there is an Association-Type-specific definition of association rules, the definition SHOULD allow for association based on identical ASSOCIATION objects. This document does not define any Association- Type-specific rules. When creating an ASSOCIATION object, the originator MUST format the object as defined in Section 16.1 of [RFC 4872]. The originator MUST set the Association Type field based on the type of association being Berger, et al. Standards Track PAGE 8 top

RFC 6780 RSVP Extensions October 2012 identified. The Association ID field MUST be set to a value that uniquely identifies the specific association within the context of the Association Source field. The Association Source field MUST be set to a unique address assigned to the node originating the association. An upstream node can identify a downstream-initiated association by performing the following checks. When a node receives a Resv message, it MUST check each ASSOCIATION object received in the Resv message to determine if the object contains an Association Type field value supported by the node. For each ASSOCIATION object containing a supported association type, the node MUST then check to see if the object matches an ASSOCIATION object received in any other Resv message. To perform this matching, a node MUST examine the Resv state of all other sessions and compare the fields contained in the newly received ASSOCIATION object with the fields contained in the Resv state's ASSOCIATION objects. An association is deemed to exist when the same values are carried in all fields of the ASSOCIATION objects being compared. Type-specific processing of ASSOCIATION objects is outside the scope of this document. Note that as more than one association may exist, the described matching MUST continue after a match is identified and MUST be performed against all local Resv state. It is also possible for there to be no match identified. Unless there are type-specific processing rules, upstream nodes MUST forward all ASSOCIATION objects received in a Resv message in any corresponding outgoing Resv messages without modification. This processing MUST be followed for unknown Association Type field values. 3.3. Association Types Two association types are currently defined: recovery and resource sharing. Recovery type association is only applicable within the context of recovery [RFC 4872] [RFC 4873]. Resource sharing is applicable to any context and its general use is defined in this section. 3.3.1. Resource Sharing Association Type The Resource Sharing Association Type was defined in [RFC 4873] and was defined within the context of GMPLS and upstream-initiated association. This section presents a definition of the resource sharing association that allows for its use with any RSVP session type and in both Path and Resv messages. This definition is consistent with the definition of the resource sharing association Berger, et al. Standards Track PAGE 9 top

RFC 6780 RSVP Extensions October 2012 type in [RFC 4873] and no changes are required by this section in order to support [RFC 4873]. The Resource Sharing Association Type MUST be supported by any implementation compliant with this document. The Resource Sharing Association Type is used to enable resource sharing across RSVP sessions. Per [RFC 4873], resource sharing uses the Association Type field value of 2. ASSOCIATION objects with an Association Type with the value Resource Sharing MAY be carried in Path and Resv messages. Association for the Resource Sharing type MUST follow the procedures defined in Section 3.1.2 for upstream- initiated (Path message) association and Section 3.2.1 for downstream-initiated (Resv message) association. There are no type- specific association rules, processing rules, or ordering requirements. Note that, as is always the case with association as enabled by this document, no associations are made across Path and Resv state. Once an association is identified, resources MUST be considered as shared across the identified sessions by the admission-control function. Since the implementation specifics of the admission- control function is outside the scope of RSVP, we observe that how resource sharing is actually reflected may vary according to specific implementations (e.g., depending on the specific admission-control and resource-management algorithm, or on how local policy is taken into account). 3.3.2. Unknown Association Types As required by Sections 3.1.2 and 3.2.2 above, a node that receives an ASSOCIATION object containing an unknown ASSOCIATION type forwards all received ASSOCIATION objects as defined above. The node MAY also identify associations per the defined processing, e.g., to make this information available via a management interface. 4. IPv4 and IPv6 Extended ASSOCIATION Objects [RFC 4872] defines the IPv4 ASSOCIATION object and the IPv6 ASSOCIATION object. As defined, these objects each contain an Association Source field and a 16-bit Association ID field. As previously described, the contents of the object uniquely identify an association. Because the Association ID field is a 16-bit field, an association source can allocate up to 65536 different associations and no more. There are scenarios where this number is insufficient (for example, where the association identification is best known and identified by a fairly centralized entity, and therefore may be involved in a large number of associations). Berger, et al. Standards Track PAGE 10 top

RFC 6780 RSVP Extensions October 2012 An additional case that cannot be supported using the existing ASSOCIATION objects is presented by MPLS-TP LSPs. Per [RFC 6370], MPLS-TP LSPs can be identified based on an operator-unique global identifier. As defined in [RFC 6370], "global identifier", or Global_ID, is based on [RFC 5003] and includes the operator's Autonomous System Number (ASN). This section defines new ASSOCIATION objects to support extended identification in order to address the previously described limitations. Specifically, the IPv4 Extended ASSOCIATION object and IPv6 Extended ASSOCIATION object are defined below. Both new objects include the fields necessary to enable identification of a larger number of associations as well as MPLS-TP-required identification. The IPv4 Extended ASSOCIATION object and IPv6 Extended ASSOCIATION object SHOULD be supported by an implementation compliant with this document. The processing rules for the IPv4 and IPv6 Extended ASSOCIATION object are described below and are based on the rules for the IPv4 and IPv6 ASSOCIATION objects as previously described. 4.1. IPv4 and IPv6 Extended ASSOCIATION Object Format The IPv4 Extended ASSOCIATION object (Class-Num of the form 11bbbbbb with value = 199, C-Type = 3) has the format: 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Length | Class-Num(199)| C-Type (3) | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Association Type | Association ID | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | IPv4 Association Source | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Global Association Source | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ : . : : Extended Association ID : : . : +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Berger, et al. Standards Track PAGE 11 top

RFC 6780 RSVP Extensions October 2012 The IPv6 Extended ASSOCIATION object (Class-Num of the form 11bbbbbb with value = 199, C-Type = 4) has the format: 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Length | Class-Num(199)| C-Type (4) | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Association Type | Association ID | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | | | IPv6 Association Source | | | | | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Global Association Source | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ : . : : Extended Association ID : : . : +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Association Type: 16 bits Same as for IPv4 and IPv6 ASSOCIATION objects, see [RFC 4872]. Association ID: 16 bits Same as for IPv4 and IPv6 ASSOCIATION objects, see Section 2. Association Source: 4 or 16 bytes Same as for IPv4 and IPv6 ASSOCIATION objects, see [RFC 4872]. Global Association Source: 4 bytes This field contains a value that is a unique global identifier or the special value zero (0). When non-zero and not overridden by local policy, the Global_ID as defined in [RFC 6370] SHALL be used. The special value zero indicates that no global identifier is present. Use of the special value zero SHOULD be limited to entities contained within a single operator. If the Global Association Source field value is derived from a 2-octet ASN, then the two high-order octets of this 4-octet field MUST be set to zero. Berger, et al. Standards Track PAGE 12 top

RFC 6780 RSVP Extensions October 2012 Extended Association ID: variable, 4-byte aligned This field contains data that is additional information to support unique identification. The length and contents of this field is scoped by the Association Source. The length of this field is derived from the object Length field and as such MUST have a length of zero or be 4-byte aligned. A length of zero indicates that this field is omitted. 4.2. Processing The processing of an IPv4 or IPv6 Extended ASSOCIATION object MUST be identical to the processing of an IPv4 or IPv6 ASSOCIATION object as previously described, except as extended by this section. This section applies to ASSOCIATION objects included in both Path and Resv messages. The following are the modified procedures for Extended ASSOCIATION object processing: o When creating an Extended ASSOCIATION object, the originator MUST format the object as defined in this document. o The originator MUST set the Association Type, Association ID, and Association Source fields as described in Section 4. o When ASN-based global identification of the Association Source is desired, the originator MUST set the Global Association Source field. When ASN-based global identification is not desired, the originator MUST set the Global Association Source field to zero (0). o The Extended ASSOCIATION object originator MAY include the Extended Association ID field. The field is included based on local policy. The field MUST be included when the Association ID field is insufficient to uniquely identify association within the scope of the source of the association. When included, this field MUST be set to a value that, when taken together with the other fields in the object, uniquely identifies the association being identified. o The object Length field is set based on the length of the Extended Association ID field. When the Extended Association ID field is omitted, the object Length field MUST be set to 16 or 28 for the IPv4 and IPv6 ASSOCIATION objects, respectively. When the Extended Association ID field is present, the object Length field MUST be set to indicate the additional bytes carried in the Extended Association ID field, including pad bytes. Berger, et al. Standards Track PAGE 13 top

RFC 6780 RSVP Extensions October 2012 Note: Per [RFC 2205], the object Length field is set to the total object length in bytes, is always a multiple of 4, and is at least 4. The procedures related to association identification are not modified by this section. It is important to note that Section 4 defines the identification of associations based on ASSOCIATION object matching and that such matching, in the absence of type-specific comparison rules, is based on the comparison of all fields in an ASSOCIATION object. This applies equally to ASSOCIATION objects and Extended ASSOCIATION objects. 5. Compatibility Per [RFC 4872], the ASSOCIATION object uses an object class number of the form 11bbbbbb to ensure compatibility with non-supporting nodes. Per [RFC 2205], such nodes will ignore the object but forward it without modification. This is also the action taken for unknown association types as discussed above in Section 3.1.2, 3.2.2, and 3.3.2. Per [RFC 4872], transit nodes that support the ASSOCIATION object but not the Extended Association C-Types will "transmit, without modification, any received ASSOCIATION object in the corresponding outgoing Path message". Per [RFC 2205], an egress node that supports the ASSOCIATION object but not the Extended Association C-Types, may generate an "Unknown object C-Type" error. This error will propagate to the ingress node for standard error processing. Operators wishing to use a function supported by a particular association type should ensure that the type is supported on any node that is expected to act on the association. 6. Security Considerations A portion of this document reviews procedures defined in [RFC 4872] and [RFC 4873] and does not define new procedures. As such, no new security considerations are introduced in this portion of the document. Section 3 defines broader usage of the ASSOCIATION object, but does not fundamentally expand on the association function that was previously defined in [RFC 4872] and [RFC 4873]. Section 4 increases the number of bits that are carried in an ASSOCIATION object (by 32), and similarly does not expand on the association function that was previously defined. This broader definition does allow for additional information to be conveyed, but this information is not fundamentally different from the information that is already carried Berger, et al. Standards Track PAGE 14 top

RFC 6780 RSVP Extensions October 2012 in RSVP. Therefore, there are no new risks or security considerations introduced by this document. For a general discussion on MPLS- and GMPLS-related security issues, including RSVP's chain of trust security model, see the MPLS/GMPLS security framework [RFC 5920]. 7. IANA Considerations IANA has assigned new values for namespaces defined in this document and they are summarized in this section. 7.1. IPv4 and IPv6 Extended ASSOCIATION Objects Per this document, IANA has assigned two new C-Types (which are defined in Section 3.1) for the existing ASSOCIATION object in the "Class Names, Class Numbers, and Class Types" section of the "Resource Reservation Protocol (RSVP) Parameters" registry located at http://www.iana.org/assignments/rsvp-parameters: 199 ASSOCIATION [RFC 4872] Class Types or C-Types 3 Type 3 IPv4 Extended Association [RFC 6780] 4 Type 4 IPv6 Extended Association [RFC 6780] 7.2. Resource Sharing Association Type This document also broadens the potential usage of the Resource Sharing Association Type defined in [RFC 4873]. As such, IANA has updated the reference of the Resource Sharing Association Type included in the associated registry. Per this document, IANA has also corrected the duplicate usage of '(R)' in this registry. In particular, the "Association Type" registry found at http://www.iana.org/assignments/gmpls-sig-parameters/ has been updated as follows: OLD: 2 Resource Sharing (R) [RFC 4873] NEW: 2 Resource Sharing (S) [RFC 4873][RFC 6780] There are no other IANA considerations introduced by this document. Berger, et al. Standards Track PAGE 15 top

RFC 6780 RSVP Extensions October 2012 8. Acknowledgments Valuable comments and input were received from Dimitri Papadimitriou, Fei Zhang, and Adrian Farrel. We thank Subha Dhesikan for her contribution to the early work on sharing of resources across RSVP reservations. 9. References 9.1. Normative References [RFC 2205] Braden, R., Ed., Zhang, L., Berson, S., Herzog, S., and S. Jamin, "Resource ReSerVation Protocol (RSVP) -- Version 1 Functional Specification", RFC 2205, September 1997. [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 3473] Berger, L., Ed., "Generalized Multi-Protocol Label Switching (GMPLS) Signaling Resource ReserVation Protocol-Traffic Engineering (RSVP-TE) Extensions", RFC 3473, January 2003. [RFC 4872] Lang, J., Ed., Rekhter, Y., Ed., and D. Papadimitriou, Ed., "RSVP-TE Extensions in Support of End-to-End Generalized Multi-Protocol Label Switching (GMPLS) Recovery", RFC 4872, May 2007. [RFC 4873] Berger, L., Bryskin, I., Papadimitriou, D., and A. Farrel, "GMPLS Segment Recovery", RFC 4873, May 2007. [RFC 5511] Farrel, A., "Routing Backus-Naur Form (RBNF): A Syntax Used to Form Encoding Rules in Various Routing Protocol Specifications", RFC 5511, April 2009. 9.2. Informative References [RFC 2207] Berger, L. and T. O'Malley, "RSVP Extensions for IPSEC Data Flows", RFC 2207, September 1997. [RFC 3175] Baker, F., Iturralde, C., Le Faucheur, F., and B. Davie, "Aggregation of RSVP for IPv4 and IPv6 Reservations", RFC 3175, September 2001. Berger, et al. Standards Track PAGE 16 top

RFC 6780 RSVP Extensions October 2012 [RFC 4860] Le Faucheur, F., Davie, B., Bose, P., Christou, C., and M. Davenport, "Generic Aggregate Resource ReSerVation Protocol (RSVP) Reservations", RFC 4860, May 2007. [RFC 5003] Metz, C., Martini, L., Balus, F., and J. Sugimoto, "Attachment Individual Identifier (AII) Types for Aggregation", RFC 5003, September 2007. [RFC 5389] Rosenberg, J., Mahy, R., Matthews, P., and D. Wing, "Session Traversal Utilities for NAT (STUN)", RFC 5389, October 2008. [RFC 5920] Fang, L., Ed., "Security Framework for MPLS and GMPLS Networks", RFC 5920, July 2010. [RFC 6370] Bocci, M., Swallow, G., and E. Gray, "MPLS Transport Profile (MPLS-TP) Identifiers", RFC 6370, September 2011. [RFC 6689] Berger, L., "Usage of the RSVP ASSOCIATION Object", RFC 6689, July 2012. Authors' Addresses Lou Berger LabN Consulting, L.L.C. Phone: +1-301-468-9228 EMail: lberger@labn.net Francois Le Faucheur Cisco Systems Greenside, 400 Avenue de Roumanille Sophia Antipolis 06410 France EMail: flefauch@cisco.com Ashok Narayanan Cisco Systems 300 Beaver Brook Road Boxborough, MA 01719 United States EMail: ashokn@cisco.com Berger, et al. Standards Track PAGE 17 top

RFC TOTAL SIZE: 41252 bytes PUBLICATION DATE: Saturday, October 27th, 2012 LEGAL RIGHTS: The IETF Trust (see BCP 78)


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