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Internet Engineering Task Force (IETF) D. Li Request for Comments: 6898 Huawei Updates: 4204, 4207, 4209, 5818 D. Ceccarelli Category: Standards Track Ericsson ISSN: 2070-1721 L. Berger LabN March 2013 Link Management Protocol Behavior Negotiation and Configuration Modifications Abstract The Link Management Protocol (LMP) is used to coordinate the properties, use, and faults of data links in networks controlled by Generalized Multiprotocol Label Switching (GMPLS). This document defines an extension to LMP to negotiate capabilities and indicate support for LMP extensions. The defined extension is compatible with non-supporting implementations. This document updates RFC 4204, RFC 4207, RFC 4209, and RFC 5818. 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/rfc6898. Li, et al. Standards Track [Page 1] RFC 6898 LMP Behavior Negotiation March 2013 Copyright Notice Copyright (c) 2013 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. Conventions Used in This Document ..........................4 2. LMP Message Modifications .......................................4 2.1. Modified Message Formats ...................................4 2.2. Processing .................................................5 3. LMP Behavior Negotiation ........................................6 3.1. BehaviorConfig C-Type Format ...............................6 3.2. Processing .................................................7 4. Backward Compatibility ..........................................7 5. Security Considerations .........................................8 6. IANA Considerations .............................................9 6.1. New LMP Class Type .........................................9 6.2. New Capabilities Registry ..................................9 7. Normative References ...........................................10 8. Acknowledgments ................................................10 9. Contributors ...................................................10 Li, et al. Standards Track [Page 2] RFC 6898 LMP Behavior Negotiation March 2013 1. Introduction The Link Management Protocol (LMP) [RFC4204] has been successfully deployed in networks controlled by Generalized Multiprotocol Label Switching (GMPLS). New LMP behaviors and protocol extensions have been introduced in a number of IETF documents, as set out later in this section. It is likely that future extensions will be made to support additional functions. In a network, if one LMP-capable node supports a new behavior or protocol extension but its adjacent node does not, it is beneficial to have a protocol mechanism to discover the capabilities of peer nodes so that the right protocol extensions can be selected and the correct features can be enabled. There are no such procedures defined in the base LMP specification [RFC4204]. [RFC4209] defined a specific mechanism to identify support for the functions specified in that document. This document defines an LMP extension to support the identification of supported LMP functions in a generic fashion, as well as how a node supporting these extensions would communicate with legacy nodes. In [RFC4204], the basic behaviors have been defined around the use of the standard LMP messages, which include Config, Hello, Verify, Test, LinkSummary, and ChannelStatus. Per [RFC4204], these behaviors MUST be supported when LMP is implemented, and the message types from 1 to 20 have been assigned by IANA for these messages. Support for all functions required by [RFC4204] is assumed by this document. In [RFC4207], the SONET/SDH technology-specific behavior and information for LMP is defined. The Trace behavior is added to LMP, and the message types from 21 to 31 have been assigned by IANA for the messages that provide the Trace function. In [RFC4209], extensions to LMP are defined to allow it to be used between a peer node and an adjacent Optical Line System (OLS). The LMP object class type and subobject class name have been extended to support Dense Wavelength Division Multiplexing (DWDM) behavior. In [RFC5818], the data channel consistency check behavior is defined, and the message types from 32 to 34 have been assigned by IANA for messages that provide this behavior. It is likely that future extensions to LMP for other functions or technologies will require the definition of further LMP messages. Li, et al. Standards Track [Page 3] RFC 6898 LMP Behavior Negotiation March 2013 This document describes an LMP extension, referred to as behavior negotiation, that enables the nodes at the ends of a link to identify the LMP messages and functions supported by the adjacent node. The extension makes use of a new CONFIG object. The use of this new object does not preclude the use of existing or yet to be defined CONFIG objects. This document also modifies the format of messages that carry the CONFIG object to allow for multiple objects. Multiple CONFIG objects allow behavior negotiation concurrent with existing usage of the CONFIG object, i.e., HelloConfig C-Type defined in [RFC4204] and LMP-WDM_CONFIG C-Type defined in [RFC4209]. This document modifies the ConfigAck message to include CONFIG objects so that acceptable parameters are explicitly identified. It also describes how a node that supports the extensions defined in this document interacts with a legacy LMP-capable node. 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 [RFC2119]. 2. LMP Message Modifications LMP Config, ConfigNack, and ConfigAck messages are modified by this document to allow for the inclusion of multiple CONFIG objects. The Config and ConfigNack messages were only defined to carry one CONFIG object in [RFC4204]. The ConfigAck message, which was defined without carrying any CONFIG objects in [RFC4204], is modified to enable explicit identification of negotiated configuration parameters. The inclusion of CONFIG objects in ConfigAck messages is triggered by the use of the BehaviorConfig object (defined below) in a received Config message. The message formats in the sections that follow use Backus-Naur Form (BNF) encoding as defined in [RFC5511]. 2.1. Modified Message Formats The format of the Config message as updated by this document is as follows: <Config Message> ::= <Common Header> <LOCAL_CCID> <MESSAGE_ID> <LOCAL_NODE_ID> <CONFIG> [ <CONFIG> ... ] Li, et al. Standards Track [Page 4] RFC 6898 LMP Behavior Negotiation March 2013 The format of the ConfigAck message as updated by this document is as follows: <ConfigAck Message> ::= <Common Header> <LOCAL_CCID> <LOCAL_NODE_ID> <REMOTE_CCID> <MESSAGE_ID_ACK> <REMOTE_NODE_ID>[ <CONFIG> ... ] The format of the ConfigNack message as updated by this document is as follows: <ConfigNack Message> ::= <Common Header> <LOCAL_CCID> <LOCAL_NODE_ID> <REMOTE_CCID> <MESSAGE_ID_ACK> <REMOTE_NODE_ID> <CONFIG> [ <CONFIG> ... ] 2.2. Processing Nodes that support the extensions defined in this document MAY include multiple CONFIG objects when sending a Config, ConfigAck, and ConfigNack message. A maximum of a single object of any particular C-type SHALL be included. A node that receives a message with multiple CONFIG objects of the same C-type SHALL process the first object of a particular C-type and ignore any subsequent CONFIG objects of the same C-type. Unless specified as part of the CONFIG object definition, ordering of CONFIG objects with different C-type values is not significant. Nodes that support the extensions defined in this document MUST include a BehaviorConfig type object when sending a Config message to a neighbor whose support for the extensions is either known or unknown. When the neighbor is known to not support the extensions, the object MUST NOT be sent. Inclusion of other CONFIG objects in a Config message is at the discretion of the message sender and is based on the rules defined as part of CONFIG object definition. Nodes MAY include HelloConfig, LMP-WDM_CONFIG, BehaviorConfig object types in a single message. Inclusion of multiple CONFIG objects in a ConfigNack message is based on the processing of a received Config message. Per [RFC4204], "Parameters where agreement was reached MUST NOT be included in the ConfigNack Message." As such, a ConfigNack message MUST NOT include CONFIG objects that are acceptable and MUST include any CONFIG objects which are not acceptable. When a CONFIG object is included in a ConfigNack message, per [RFC4204], the object is to include "acceptable alternate values for negotiable parameters". Li, et al. Standards Track [Page 5] RFC 6898 LMP Behavior Negotiation March 2013 When sending a ConfigAck message, nodes supporting the extensions defined in this document MUST include all CONFIG objects received in the corresponding Config message when that message includes a CONFIG object of type BehaviorConfig. 3. LMP Behavior Negotiation The Config message is used in the control channel negotiation phase of LMP [RFC4204]. The LMP behavior negotiation procedure is defined in this document as an addition to this phase. The Config message is defined in Section 12.3.1 of [RFC4204] and carries the CONFIG object (class name 6) as defined in Section 13.6 of [RFC4204]. Two class types have been defined: - C-Type = 1, HelloConfig, defined in [RFC4204] - C-Type = 2, LMP-WDM_CONFIG, defined in [RFC4209] This document defines a third C-Type to report and negotiate LMP mechanisms and behaviors. Its usage indicates support for the extensions defined in this document. 3.1. BehaviorConfig C-Type Format Class = 6 - C-Type = 3, BehaviorConfig 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 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ |S|D|C| Must Be Zero (MBZ) | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Flags: S: 1 bit This bit indicates support for the Trace behavior of SONET/SDH technology-specific defined in [RFC4207]. D: 1 bit This bit indicates support for the DWDM behavior defined in [RFC4209]. Li, et al. Standards Track [Page 6] RFC 6898 LMP Behavior Negotiation March 2013 C: 1 bit This bit indicates support for the data channel consistency check behavior defined in [RFC5818]. Must Be Zero (MBZ): Variable length The remaining bits in the flags field MUST be set to zero (0). This field MUST be sized to ensure 32-bit alignment of the object. Other bits may be defined in future documents, in which case the number of bits in the MBZ field is expected to change. 3.2. Processing The inclusion of a BehaviorConfig type object in a message is discussed above in Section 2.2. When sending a BehaviorConfig type object, the N-bit (negotiable) in the LMP object header MUST be set (N=1) in the LMP object header. When sending a BehaviorConfig type object in Config and ConfigNack messages, the flags field SHOULD be set based on the supported capabilities of the sending node. When sending a ConfigAck message, the flags field MUST be set to the value received in the corresponding Config message. When receiving a BehaviorConfig type object, the node compares the flags field against its capacities. Any bit set in the MBZ portion of the flags field MUST be interpreted as unacceptable. Processing related to unacceptable values in CONFIG objects is defined in [RFC4204] and is not modified by this document. 4. Backward Compatibility The required use of the BehaviorConfig type CONFIG object enables nodes that support the extensions defined in this document to explicitly identify when a neighboring node does not. When a non- supporting node receives a Config message with the BehaviorConfig type CONFIG object or multiple CONFIG objects, its behavior is to be one of the following behaviors: a) Reject the Config message because of the unknown BehaviorConfig object type and send a ConfigNack message which includes the unsupported C-type. Li, et al. Standards Track [Page 7] RFC 6898 LMP Behavior Negotiation March 2013 b) Reject the message because of multiple CONFIG objects and send a ConfigNack message which includes all but one of the CONFIG objects. c) Silently ignore the one or more of the CONFIG object, and respond with a ConfigAck message that does not include any CONFIG objects. d) Treat the message as malformed, and discard it without any response. Behaviors (a) and (b) result in ConfigNack messages with a BehaviorConfig type object whose contents are identical to what was sent in the Config message. Behavior (c) results in a ConfigAck message without a BehaviorConfig type CONFIG object. In each of these cases, the node SHOULD explicitly identify that the LMP neighbor does not support the extensions defined in this document. Behavior (d) results in no response at all. When the node reaches the "retry limit", defined in [RFC4204], the node SHOULD infer that the LMP neighbor does not support the extensions defined in this document. Once a node identifies a neighbor as not supporting the extensions defined in this document, the node SHOULD follow previously defined Config message usage. 5. Security Considerations [RFC4204] describes how LMP messages between peers can be secured, and these measures are equally applicable to messages carrying the new CONFIG object defined in this document. Alone, the procedures described in this document do not constitute a security risk, since they do not cause any change in network state. It would be possible, if the messages were intercepted or spoofed to cause bogus alerts in the management plane, or to cause LMP peers to consider that they could or could not operate protocol extensions, and so the use of the LMP security measures are RECOMMENDED. Note, however, that [RFC4204] references for security have been updated with [RFC4301], and the current reference for IKEv2 is [RFC5996]. Li, et al. Standards Track [Page 8] RFC 6898 LMP Behavior Negotiation March 2013 6. IANA Considerations 6.1. New LMP Class Type IANA maintains the "Link Management Protocol (LMP) Parameters" registry, which has a subregistry called "LMP Object Class name space and Class type (C-Type)". IANA has made an assignment from this registry as follows: 6 CONFIG [RFC4204] CONFIG Object Class type name space: C-Type Description Reference ------------ --------------------- --------- 3 BehaviorConfig RFC 6898 6.2. New Capabilities Registry IANA has created a new subregistry of the "Link Management Protocol (LMP) Parameters" registry to track the Behavior Configuration bits defined in Section 2 of this document. This registry is called "LMP Behavior Configuration Flags". Allocations from this registry are by Standards Action. Bits in this registry are numbered from zero as the most significant bit (transmitted first). The number of bits that can be present is limited by the length field of the CONFIG object, which gives rise to (255 x 32)-8 = 8152. IANA is strongly recommended to allocate new bits with the lowest available unused number. The registry is initially populated as follows: Bit | Bit | Meaning | Reference Number | Name | | -------+------+----------------------------------------+---------- 0 | S | SONET/SDH Test support | RFC 6898 1 | D | DWDM support | RFC 6898 2 | C | Data Channel consistency check support | RFC 6898 Li, et al. Standards Track [Page 9] RFC 6898 LMP Behavior Negotiation March 2013 7. Normative References [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. [RFC4301] Kent, S. and K. Seo, "Security Architecture for the Internet Protocol", RFC 4301, December 2005. [RFC5996] Kaufman, C., Hoffman, P., Nir, Y., and P. Eronen, "Internet Key Exchange Protocol Version 2 (IKEv2)", RFC 5996, September 2010. [RFC4204] Lang, J., Ed., "Link Management Protocol (LMP)", RFC 4204, October 2005. [RFC4207] Lang, J. and D. Papadimitriou, "Synchronous Optical Network (SONET)/Synchronous Digital Hierarchy (SDH) Encoding for Link Management Protocol (LMP) Test Messages", RFC 4207, October 2005. [RFC4209] Fredette, A., Ed., and J. Lang, Ed., "Link Management Protocol (LMP) for Dense Wavelength Division Multiplexing (DWDM) Optical Line Systems", RFC 4209, October 2005. [RFC5818] Li, D., Xu, H., Bardalai, S., Meuric, J., and D. Caviglia, "Data Channel Status Confirmation Extensions for the Link Management Protocol", RFC 5818, April 2010. [RFC5511] Farrel, A., "Routing Backus-Naur Form (RBNF): A Syntax Used to Form Encoding Rules in Various Routing Protocol Specifications", RFC 5511, April 2009. 8. Acknowledgments Thanks to Adrian Farrel and Richard Graveman for their useful comments. 9. Contributors Diego Caviglia Ericsson Via E. Melen, 77 Genova - Erzelli Italy Phone: +39 010 600 3736 EMail: diego.caviglia@ericsson.com Li, et al. Standards Track [Page 10] RFC 6898 LMP Behavior Negotiation March 2013 Authors' Addresses Dan Li Huawei Technologies F3-5-B R&D Center, Huawei Industrial Base, Shenzhen 518129 China Phone: +86 755-289-70230 EMail: huawei.danli@huawei.com Daniele Ceccarelli Ericsson Via E. Melen, 77 Genova - Erzelli Italy EMail: daniele.ceccarelli@ericsson.com Lou Berger LabN Consulting, L.L.C. EMail: lberger@labn.net Li, et al. Standards Track [Page 11]