TOC 
Network Working GroupL. Ginsberg
Internet-DraftS. Previdi
Intended status: Standards TrackM. Shand
Expires: May 14, 2011Cisco Systems
 November 10, 2010


Advertising Generic Information in IS-IS
draft-ietf-isis-genapp-04.txt

Abstract

This draft describes the manner in which generic application information (i.e. information not directly related to the operation of the IS-IS protocol) should be advertised in IS-IS LSPs and defines guidelines which should be used when flooding such information.

Status of this Memo

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

Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet-Drafts is at http://datatracker.ietf.org/drafts/current/.

Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as “work in progress.”

This Internet-Draft will expire on May 14, 2011.

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.  Conventions used in this Document
2.  Overview
3.  Encoding Format for GENINFO
    3.1.  GENINFO TLV
    3.2.  Use of sub-TLVs in GENINFO TLV
4.  GENINFO Flooding Procedures
    4.1.  Leaking Procedures
    4.2.  Minimizing Update Confusion
    4.3.  Interpreting Attribute Information
5.  Use of a Separate Protocol Instance
6.  Applicability of GENINFO TLV
7.  Standardization Requirements
8.  Security Considerations
9.  IANA Considerations
10.  Acknowledgements
11.  Normative References
§  Authors' Addresses




 TOC 

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] (Bradner, S., “Key words for use in RFCs to Indicate Requirement Levels,” March 1997.).



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2.  Overview

[ISO10589] (International Organization for Standardization, “Intermediate system to Intermediate system intra-domain routeing information exchange protocol for use in conjunction with the protocol for providing the connectionless-mode Network Service (ISO 8473),” Nov 2002.) defines the format of type-length-value (TLVs) which may be sent in IS-IS Protocol Data Units (PDUs). The first octet of a TLV encodes the "type" or "codepoint" which provides a scope for the information and information format which follows. The protocol is therefore limited to 256 different codepoints which may be assigned. This number has proved generous as regards the information required for correct operation of the Intermediate System to Internediate System (IS-IS) protocol. However, the increasing use of IS-IS Link State Protocol Data Units (LSPs) for advertisement of generic information (GENINFO) not directly related to the operation of the IS-IS protocol places additional demands on the TLV encoding space which has the potential to consume a significant number of TLV codepoints. This document therefore defines an encoding format for GENINFO which minimizes the consumption of TLV codepoints and also maximizes the flexibility of the formats which can be used to represent GENINFO.

This document also discusses optimal behavior associated with the advertisement and flooding of LSPs containing GENINFO in order to avoid the advertisement of stale information and minimize the presence of duplicate or conflicting information when advertisements are updated.

The manner in which the information contained in GENINFO TLVs is exchanged between an instance of the IS-IS protocol and the application which generates/consumes the GENINFO is outside the scope of this specification.

In order to minimize the impact advertisement of GENINFO may have on the operation of routing, such advertisements MUST occur in the context of a non-zero instance of the IS-IS protocol as defined in [I‑D.ietf‑isis‑mi] (Previdi, S., Ginsberg, L., Shand, M., Ward, D., and A. Roy, “IS-IS Multi-Instance,” July 2010.) except where the rules for the use of the zero instance set out later in this document are followed.



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3.  Encoding Format for GENINFO

The encoding format defined below has the following goals regarding the advertisement of GENINFO in IS-IS LSPs:

In order to support these goals, a new IANA registry is required. This registry will manage the assignment of IS-IS GENINFO Application Identifiers. These numbers are unsigned 16 bit numbers ranging in value from 1 to 65535. Application specific sub-TLV codepoints are unsigned 8 bit numbers ranging in value from 0 to 255. The assignment of the sub-TLV codepoints is scoped by the Application Identifier. Management of the application specific sub-TLV codepoints is outside the scope of this document.



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3.1.  GENINFO TLV

The GENINFO TLV supports the advertisement of application specific information which is not directly related to the operation of the IS-IS protocol.

  Type   251
  Length # of octets in the value field (3 to 255)
  Value

                                       No. of octets
             +-----------------------+
             | Flags                 |     1
             +-----------------------+
             | Application ID        |     2
             +-----------------------+
             | Application           |
             | IP Address Info       |     0 to 20
             +-----------------------+
             | Additional Application|     0 to (252 -
             |  Specific Information |     len of IP Address info)
             +-----------------------+


           Flags

                 0 1 2 3 4 5 6 7
                +-+-+-+-+-+-+-+-+
                |  Rsvd |V|I|D|S|
                +-+-+-+-+-+-+-+-+


                The following bit flags are defined.

                S bit (0x01): If the S bit is set(1), the GENINFO TLV
                MUST be flooded across the entire routing domain. If
                the S bit is not set(0), the TLV MUST NOT be leaked
                between levels. This bit MUST NOT be altered during the
                TLV leaking.

                D bit (0x02): When the GENINFO TLV is leaked from
                level-2 to level-1, the D bit MUST be set. Otherwise
                this bit MUST be clear. GENINFO TLVs with the D bit set
                MUST NOT be leaked from level-1 to level-2. This is to
                prevent TLV looping.

                I bit (0x04): When the I bit is set the 4 octet IPv4
                address associated with the application immediately
                follows the Application ID.

                V bit (0x08): When the V bit is set, the 16 octet IPv6
                address associated with the application immediately
                follows either the Application ID (if I bit is clear)
                or the IPv4 address (if I bit is set).

           Application ID

                An identifier assigned to this application via the IANA
                registry defined later in this document.

           Application IPv4 Address Info

                The IPv4 address associated with the application. This
                is not necessarily an address of a router running the
                IS-IS protocol.

           Application IPv6 Address Info

                The IPv6 address associated with the application. This
                is not necessarily an address of a router running the
                IS-IS protocol.

           Additional Application Specific Information

                Each application may define additional information to
                be encoded in a GENINFO TLV following the fixed
                information. Definition of such information is beyond
                the scope of this document.



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3.2.  Use of sub-TLVs in GENINFO TLV

[RFC5305] (Li, T. and H. Smit, “IS-IS Extensions for Traffic Engineering,” October 2008.) introduced the definition and use of sub-TLVs. One of the advantages of using sub-TLVs rather than fixed encoding of information inside a TLV is to allow for the addition of new information in a backwards compatible manner i.e. just as with TLVs, implementations are required to ignore sub-TLVs which they do not understand.

GENINFO TLVs MAY include sub-TLVs in the application specific information as deemed necessary and appropriate for each application. The scope of the codepoints used in such sub-TLVs is defined by the combination of the GENINFO TLV codepoint and the Application ID i.e. the sub-TLV codepoints are private to the application. Such sub-TLVs are referred to as APPsub-TLVs.

Additional levels of APPsub-TLVs may be required when there is variable information which is scoped by a specific APPsub-TLV. These "nested" sub-TLVs MUST be encoded in the same manner as sub-TLVs i.e. with a one-octet Type field, a one-octet Length field, and zero or more octets of Value.



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4.  GENINFO Flooding Procedures

This section describes procedures which apply to the propagation of LSPs which contain GENINFO TLVs. These procedures have been previously discussed in [RFC4971] (Vasseur, JP., Shen, N., and R. Aggarwal, “Intermediate System to Intermediate System (IS-IS) Extensions for Advertising Router Information,” July 2007.). This section is intended to serve as a reference specification for future documents which define the use of GENINFO TLV(s) for a specific application - eliminating the need to repeat the definition of these procedures in the application specific documents.

Each GENINFO TLV contains information regarding exactly one application instance as identified by the Application ID in the GENINFO TLV. When it is necessary to advertise sets of information with the same Application ID which have different flooding scopes, a router MUST originate a minimum of one GENINFO TLV for each required flooding scope. GENINFO TLVs which contain information having area/level scope will have the S bit clear. These TLVs MUST NOT be leaked into another level. GENINFO TLVs which contain information which has domain scope will have the S bit set. These TLVs MUST be leaked into other IS-IS levels. When a TLV is leaked from level-2 to level-1, the D bit MUST be set in the level-1 LSP advertisement.



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4.1.  Leaking Procedures

When leaking GENINFO TLVs downward from Level-2 into Level-1, if the originator of the TLV is a Level-1 router in another area, it is possible that multiple copies of the same TLV may be received from multiple L2 routers in the originating area. A router performing downward leaking MUST check for such duplication by comparing the contents of the TLVs. The set of LSPs generated by a router for a given level MUST NOT contain two or more copies of the same GENINFO TLV.

In order to prevent the use of stale GENINFO information, a system MUST NOT use a GENINFO TLV present in an LSP of a system which is not currently reachable via Level-x paths, where "x" is the level (1 or 2) associated with the LSP in which the GENINFO TLV appears. Note that leaking a GENINFO TLV is one of the uses which is prohibited under these conditions. The following example illustrates what might occur in the absence of this restriction.

Example: If Level-1 router A generates a GENINFO TLV and floods it to two L1/L2 routers S and T, they will flood it into the Level-2 sub-domain. Now suppose the Level-1 area partitions, such that A and S are in one partition and T is in another. IP routing will still continue to work, but if A now issues a revised version of the GENINFO TLV, or decides to stop advertising it, S will follow suit, but T will continue to advertise the old version until the LSP times out.

Routers in other areas have to choose whether to trust T's copy of A's GENINFO TLV or S's copy of A's information and they have no reliable way to choose. By making sure that T stops leaking A's information, this removes the possibility that other routers will use stale information from A.



 TOC 

4.2.  Minimizing Update Confusion

If an update to a TLV is advertised in an LSP with a different number than the LSP associated with the old advertisement, the possibility exists that other systems can temporarily have either 0 copies of a particular advertisement or 2 copies of a particular advertisement, depending on the order in which new copies of the LSP which had the old advertisement and the LSP which has the new advertisement arrive at other systems.

Whenever possible, an implementation SHOULD advertise the update to a GENINFO TLV in the LSP with the same number as the advertisement which it replaces. Where this is not possible, the two affected LSPs SHOULD be flooded as an atomic action.

Systems which receive an update to an existing GENINFO TLV can minimize the potential disruption associated with the update by employing a holddown time prior to processing the update so as to allow for the receipt of multiple LSPs associated with the same update prior to beginning processing.



 TOC 

4.3.  Interpreting Attribute Information

Where a receiving system has two copies of a GENINFO TLV with the same Application ID, attribute information in the two TLVs which does not conflict MUST be considered additive. When information in the two GENINFO TLVs conflicts i.e there are different settings for a given attribute, the procedure used to choose which copy shall be used is undefined.



 TOC 

5.  Use of a Separate Protocol Instance

The use of the IS-IS flooding mechanism as a means of reliably and efficiently propagating information is understandably attractive. However, it is prudent to remember that the primary purpose of that mechanism is to flood information necessary for the correct operation of the IS-IS protocol. Flooding of information not directly related to the use of the IS-IS protocol in support of routing degrades the operation of the protocol. Degradation occurs because the frequency of LSP updates is increased and because the processing of non-routing information in each router consumes resources whose primary responsibility is to efficiently respond to reachability changes in the network.

Advertisement of GENINFO therefore MUST occur in the context of a non-zero instance of the IS-IS protocol as defined in [I‑D.ietf‑isis‑mi] (Previdi, S., Ginsberg, L., Shand, M., Ward, D., and A. Roy, “IS-IS Multi-Instance,” July 2010.) except when the use in the zero instance is defined in a Standards Track RFC.

The use of a separate instance of the protocol allows both the flooding and the processing of the non-routing information to be decoupled from the information necessary to support correct routing of data in the network. The flooding and processing of non-routing information can then be prioritized appropriately.

Use of a separate protocol instance to advertise GENINFO does not eliminate the need to use prudence in the frequency with which such information is updated. One of the most egregious oversights is a failure to appropriately dampen changes in the information to be advertised, which can lead to flooding storms. Documents which specify the use of the mechanisms defined here MUST define the expected rate of change of the information to be advertised.

If desirable, independent control of the flooding scope for information related to two different applications can be achieved by utilizing separate non-zero protocol instances for each application.[I‑D.ietf‑isis‑mi] (Previdi, S., Ginsberg, L., Shand, M., Ward, D., and A. Roy, “IS-IS Multi-Instance,” July 2010.).



 TOC 

6.  Applicability of GENINFO TLV

The GENINFO TLV supports the advertisement of application specific information in IS-IS LSPs which is not directly related to the operation of the IS-IS protocol. Information advertised in the GENINFO TLV MUST NOT alter basic IS-IS protocol operation including (but not limited to) the establishment of adjacencies, the update process, and the decision process.



 TOC 

7.  Standardization Requirements

GENINFO is intended to advertise information on behalf of applications whose operations have been defined in a public specification as discussed in [RFC5226] (Narten, T. and H. Alvestrand, “Guidelines for Writing an IANA Considerations Section in RFCs,” May 2008.).

The public specification MUST include:



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8.  Security Considerations

The introduction and use of the new TLV codepoint for GENINFO in and of itself raises no new security issues for IS-IS.

It is possible that information advertised in a GENINFO TLV by a given Application MAY introduce new security issues. The public specification which defines the use of GENINFO by that Application MUST include a discussion of the security issues. Where appropriate, it is recommended that either [RFC5304] (Li, T. and R. Atkinson, “IS-IS Cryptographic Authentication,” October 2008.) or [RFC5310] (Bhatia, M., Manral, V., Li, T., Atkinson, R., White, R., and M. Fanto, “IS-IS Generic Cryptographic Authentication,” February 2009.) be used.



 TOC 

9.  IANA Considerations

This document defines a new IS-IS TLV that needs to be reflected in the IS-IS TLV code-point registry:

Type        Description                            IIH   LSP   SNP
----        -----------------------------------    ---   ---   ---
251         Generic Information                     n     y     n

This document also defines a new registry. The new registry will manage the assignment of Application Identifiers which may be used in the Generic Information TLV. These identifiers are unsigned 16 bit numbers ranging in value from 1 to 65535. The value 0 is reserved. Registration procedure is "Expert Review" as defined in [RFC5226] (Narten, T. and H. Alvestrand, “Guidelines for Writing an IANA Considerations Section in RFCs,” May 2008.). The expert MUST verify that the public specification which defines the use of GENINFO for the application adequately discusses all points mentioned in Section 7 of this document.

The following information MUST be specified in the registry:



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10.  Acknowledgements

The authors would like to thank JP Vasseur and David Ward for providing the need to produce this document and Tony Li for making sure it was done with appropriate wisdom and prudence.



 TOC 

11. Normative References

[I-D.ietf-isis-mi] Previdi, S., Ginsberg, L., Shand, M., Ward, D., and A. Roy, “IS-IS Multi-Instance,” draft-ietf-isis-mi-03 (work in progress), July 2010 (TXT).
[ISO10589] International Organization for Standardization, “Intermediate system to Intermediate system intra-domain routeing information exchange protocol for use in conjunction with the protocol for providing the connectionless-mode Network Service (ISO 8473),” ISO/IEC 10589:2002, Second Edition, Nov 2002.
[RFC2119] Bradner, S., “Key words for use in RFCs to Indicate Requirement Levels,” BCP 14, RFC 2119, March 1997 (TXT, HTML, XML).
[RFC4971] Vasseur, JP., Shen, N., and R. Aggarwal, “Intermediate System to Intermediate System (IS-IS) Extensions for Advertising Router Information,” RFC 4971, July 2007 (TXT).
[RFC5226] Narten, T. and H. Alvestrand, “Guidelines for Writing an IANA Considerations Section in RFCs,” BCP 26, RFC 5226, May 2008 (TXT).
[RFC5304] Li, T. and R. Atkinson, “IS-IS Cryptographic Authentication,” RFC 5304, October 2008 (TXT).
[RFC5305] Li, T. and H. Smit, “IS-IS Extensions for Traffic Engineering,” RFC 5305, October 2008 (TXT).
[RFC5310] Bhatia, M., Manral, V., Li, T., Atkinson, R., White, R., and M. Fanto, “IS-IS Generic Cryptographic Authentication,” RFC 5310, February 2009 (TXT).


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Authors' Addresses

  Les Ginsberg
  Cisco Systems
  510 McCarthy Blvd.
  Milpitas, Ca. 95035
  USA
Email:  ginsberg@cisco.com
  
  Stefano Previdi
  Cisco Systems
  Via Del Serafico 200
  00142 - Roma,
  Italy
Email:  sprevidi@cisco.com
  
  Mike Shand
  Cisco Systems
  250, Longwater Avenue.
  Reading, Berks RG2 6GB
  UK
Email:  mshand@cisco.com