Home

RFC3427

  1. RFC 3427
Network Working Group                                          A. Mankin
Request for Comments: 3427                 Bell Labs, Lucent Corporation
BCP: 67                                                       S. Bradner
Category: Best Current Practice                       Harvard University
                                                                 R. Mahy
                                                                   Cisco
                                                               D. Willis
                                                             dynamicsoft
                                                                  J. Ott
                                               ipDialog / Uni Bremen TZI
                                                                B. Rosen
                                                                 Marconi
                                                           December 2002


        Change Process for the Session Initiation Protocol (SIP)

Status of this Memo

   This document specifies an Internet Best Current Practices for the
   Internet Community, and requests discussion and suggestions for
   improvements.  Distribution of this memo is unlimited.

Copyright Notice

   Copyright (C) The Internet Society (2002).  All Rights Reserved.

Abstract

   This memo documents a process intended to apply architectural
   discipline to the future development of the Session Initiation
   Protocol (SIP).  There have been concerns with regards to new SIP
   proposals.  Specifically, that the addition of new SIP features can
   be damaging towards security and/or greatly increase the complexity
   of the protocol.  The Transport Area directors, along with the SIP
   and Session Initiation Proposal Investigation (SIPPING) working group
   chairs, have provided suggestions for SIP modifications and
   extensions.

1. Terminology

   In this document, the key words "MAY", "MUST, "MUST NOT", "SHOULD",
   and "SHOULD NOT", are to be interpreted as described in Keywords [1].








Mankin, et. al.          Best Current Practice                  [Page 1]
RFC 3427                 Change Process for SIP            December 2002


2. History and Development

   The IETF's Session Initiation Protocol (SIP) [3] was originally
   developed for initiation of multimedia sessions.  Internet
   multimedia, voice over IP, IP telephony, and SIP have become quite
   popular, both inside IETF and with other standards groups, and the
   applications of SIP have grown.  One result of this popularity has
   been a continual flood of suggestions for SIP modifications and
   extensions.  The task for IETF management of SIP has been to keep the
   protocol development focused on SIP's core strengths and the
   applications it does best.

2.1 The IETF SIP Working Group

   The IETF SIP Working Group has been chartered to be the "owner" of
   the SIP protocol [3], as long as the working group exists.  All
   changes or extensions to SIP must first exist as SIP Working Group
   documents.  The SIP Working group is charged with being the guardian
   of the SIP protocol for the Internet, and therefore should only
   extend or change the SIP protocol when there are compelling reasons
   to do so.

   Documents that must be handled by the SIP working group include new
   SIP methods, new SIP option tags, new response codes, and new
   standards track SIP headers.  With the exception of "P-" headers
   described in Section 4.1, all SIP extensions must be standards track
   and must be developed in the IETF based upon requirements provided by
   the SIPPING Working Group.

   IETF working groups do not live forever; typically, mailing lists
   continue after the working group is concluded. If the SIP Working
   Group has closed and no suitable replacement or follow-on working
   group is active, the Transport Area directors will the use the non-
   working group standards track document process (described in section
   6.1.2 of RFC 2026--IETF Standards Process [2]) using the SIP and
   SIPPING mailing lists and designated experts from the SIP community
   for advice. The IETF will remain the home of extensions of SIP and
   the requirement of standards track action will remain as defined in
   the rest of this document.  The rate of growth of extensions of any
   protocol in the IETF is hoped to be low.

   It is appropriate for any working group to develop SIP event packages
   [4], but the working group must have charter approval to do so.  The
   IETF will also require (Individual) RFC publication for the
   registration of event packages developed outside the scope of an IETF
   working group.  Requirements for publishing event packages are
   described in detail in Section 4.3.




Mankin, et. al.          Best Current Practice                  [Page 2]
RFC 3427                 Change Process for SIP            December 2002


2.2 The IETF SIPPING Working Group

   The IETF Session Initiation Protocol Proposal Investigation (sipping)
   Working Group is chartered to be a filter in front of the SIP Working
   Group.  This working group will investigate requirements for
   applications of SIP, some of which may lead to requests for
   extensions to SIP.  These requirements may come from the community at
   large, or from individuals who are reporting the requirements as
   determined by another standards body.  The SIPPING Working Group will
   also not live forever, with similar consideration to the sections
   above.

   The SIPPING Working Group may determine: that these requirements can
   be satisfied by SIP without modifications, that the requirements are
   not sufficiently general to warrant a change to SIP, that the
   requirements justify a change to SIP, or that the requirements should
   be combined with other requirements to solve a more general problem
   or solve the same problem in a more flexible way.

   Because the SIP protocol gets so much attention, some application
   designers may want to use it just because it is there, such as for
   controlling household appliances.  SIPPING should act as a filter,
   accepting only requirements which play to the best strengths of SIP,
   such as realtime presence.

   When the SIPPING working group decides on a set of requirements, it
   forwards them to the SIP working group.  The SIPPING Working Group
   may also document usage or applications of SIP which do not require
   any protocol extensions.

   The SIPPING working group also acts as a filter for proposed event
   packages as described in Section 4.3.

3. SIP Change Process

   Anyone who thinks that the existing SIP protocol is applicable to
   their application, yet not sufficient for their task must write an
   individual Internet-Draft explaining the problem they are trying to
   solve, why SIP is the applicable protocol, and why the existing SIP
   protocol will not work.  The Internet-Draft must include a detailed
   set of requirements (distinct from solutions) that SIP would need to
   meet to solve the particular problem.  The Internet-Draft must also
   describe in detail any security issues that arise from meeting those
   requirements.  After the Internet-Draft is published, the authors
   should send a note to the SIPPING Working Group mailing list to start
   discussion on the Internet-Draft.





Mankin, et. al.          Best Current Practice                  [Page 3]
RFC 3427                 Change Process for SIP            December 2002


   The SIPPING working group chairs, in conjunction with the Transport
   Area Directors, will determine if the particular problems raised in
   the requirements Internet-Draft warrants being added to the SIPPING
   charter based on the mailing list discussion.  The SIPPING working
   group should consider whether the requirements can be merged with
   other requirements from other applications, and refine the ID
   accordingly.

   If the chairs and the ADs both feel that the particular new problems
   should be added to the SIPPING Working Group charter, then the ADs
   will present the proposed SIPPING charter modifications to the IESG
   and IAB, in accordance with the usual process for charter expansion.
   If the IESG (with IAB advice) approves of the charter changes, the
   SIPPING working group can then work on the problems described in the
   Internet-Draft.

   In a separate Internet-Draft, the authors may describe a set of
   changes to SIP that would meet the requirements.  The Internet-Draft
   would then be passed to the SIP working group for consideration (if
   warranted).  The SIP working group is not required to adopt the
   proposed solution from this additional Internet-Draft.

   The SIPPING working group may also evaluate such proposals for
   extensions if the requirements are judged to be appropriate to SIP,
   but are not sufficiently general for standards track activity.  The
   SIPPING working group will attempt to determine if the new proposal
   meets the requirements for publication as a "P-" header, as described
   in Section 4.1, within a specific scope of applicability.

   The Transport ADs may, on a case by case basis, support a process in
   which the requirements analysis is implicit and the SIP working group
   requests the addition of a charter item for an extension without a
   full SIPPING process as described.  This will be the exception.

   With respect to standardization, this process means that SIP
   extensions come only from the IETF, the body that created SIP.  The
   IETF will not publish a SIP extension RFC outside of the processes
   described here.

   The SIP Working Group is required to protect the architectural
   integrity of SIP and must not add features that do not have general
   use beyond the specific case.  Also, they must not add features just
   to make a particular function more efficient at the expense of
   simplicity or robustness.







Mankin, et. al.          Best Current Practice                  [Page 4]
RFC 3427                 Change Process for SIP            December 2002


   Some working groups besides SIPPING generate requirements for SIP
   solutions and/or extensions as well.  At the time this document was
   written, these include SIP for Instant Messaging and Presence
   Leveraging Extensions (simple), Service in the PSTN/IN Requesting
   InTernet Service (spirits), and Telephone Number Mapping (enum).

4. Extensibility and Architecture

   In an idealized protocol model, extensible design would be self-
   contained, and it would be inherent that new extensions and new
   headers would naturally have an architectural coherence with the
   original protocol.

   However, this idealized vision has not been attained in the world of
   standards track protocols.  While, interoperability implications can
   be addressed by capabilities negotiation rules, the effects of adding
   features that overlap, or that deal with a point solution and are not
   general, are much harder to control with rules.  Therefore, the
   Transport Area calls for architectural guardianship and application
   of Occam's Razor by the SIP Working Group.

   In keeping with the IETF tradition of "running code and rough
   consensus", it is valid to allow for the development of SIP
   extensions that are either not ready for standards track, but might
   be understood for that role after some running code, or are private
   or proprietary in nature, because a characteristic motivating them is
   usage that is known not to fit the Internet architecture for SIP.  We
   call these "P-" headers, for "preliminary", "private", or
   "proprietary".

   There are two key issues to consider with respect to keeping the "P-"
   header extension space "safe":

   1.  Clearly indicating the unarchitected or not-yet understood nature
       of the extension.

   2.  Preventing identity conflicts between extensions.

4.1 Indicating a "P-" Header:

   Use of an "X-" prefix on textual identifiers has been widely used to
   indicate experimental extensions in other protocols.  This approach
   is applied in modified form here by use of a "P-" header extension.
   However, there are a number of stronger constraints for "P-" headers,
   including documentation that get Expert and IESG review, and other
   SIP protocol criteria described below.





Mankin, et. al.          Best Current Practice                  [Page 5]
RFC 3427                 Change Process for SIP            December 2002


   Informational SIP Headers can be registered as "P-" headers if all of
   the following conditions are met:

   1.  A designated expert (as defined in RFC 2434 [4]) MUST review the
       proposal for applicability to SIP and conformance to these
       guidelines.  The Expert Reviewer will send email to the Transport
       Area Directors on this determination.  The expert reviewer can
       cite one or more of the guidelines that haven't been followed in
       his/her opinion.

   2.  The proposed extension MUST NOT define SIP option tags, response
       codes, or methods.

   3.  The function of the proposed header MUST NOT overlap with current
       or planned chartered extensions.

   4.  The proposed header MUST be of a purely informational nature, and
       MUST NOT significantly change the behavior of SIP entities which
       support it.  Headers which merely provide additional information
       pertinent to a request or a response are acceptable.  If the
       headers redefine or contradict normative behavior defined in
       standards track SIP specifications, that is what is meant by
       significantly different behavior.

   5.  The proposed header MUST NOT undermine SIP security in any sense.
       The Internet Draft proposing the new header MUST address security
       issues in detail as if it were a Standards Track document.  Note
       that, if the intended application scenario makes certain
       assumptions regarding security, the security considerations only
       need to meet the intended application scenario rather than the
       general Internet case.  In any case, security issues need to be
       discussed for arbitrary usage scenarios (including the general
       Internet case).

   6.  The proposed header MUST be clearly documented in an (Individual
       or Working Group) Informational RFC, and registered with IANA.

   7.  An applicability statement in the Informational RFC MUST clearly
       document the useful scope of the proposal, and explain its
       limitations and why it is not suitable for the general use of SIP
       in the Internet.

   Any implementation of a "P-" header (meaning "not specified by a
   standards-track RFC issued through the SIP Working Group") MUST
   include a "P-" prefix on the header, as in "P-Headername".  Note that
   "P-" extensions are not IETF standards of any kind, and MUST NOT be
   required by any production deployment considered compliant to IETF
   specifications.  Specifically, implementations are only SIP compliant



Mankin, et. al.          Best Current Practice                  [Page 6]
RFC 3427                 Change Process for SIP            December 2002


   if a) they fall back to baseline behavior when they ignore all P-
   headers, and b) when using P- headers they do not contradict any
   normative behavior.

4.2 Preventing Identity Conflicts Between P-Extensions:

   In order to prevent identity conflicts between P-headers, this
   document provides an IANA process (See: "IANA Considerations" below)
   to register the P-headers.  The handling of unknown P-headers is to
   ignore them, however, section 4.1 is to be taken seriously, and users
   of P-headers will have best results with adherence.  All implemented
   P-headers SHOULD meet the P-Header requirements in 4.1.  Any P-header
   used outside of a very restricted research or teaching environment
   (such as a student lab on implementing extensions) MUST meet those
   requirements and MUST be documented in an RFC and be IANA registered.
   IANA registration is permitted when the IESG approves the internet-
   draft.

4.3 SIP Event Packages

   events [4] defines two different types of event packages: normal
   event packages, and event template-packages.  Event template-packages
   can only be created and registered by the publication of a Standards
   Track RFC (from an IETF Working Group).  Normal event packages can be
   created and registered by the publication of any Working Group RFC
   (Informational, Standards Track, Experimental), provided that the RFC
   is a chartered working group item.

   Individuals may also wish to publish SIP Event packages.  Individual
   proposals for registration of a SIP event package MUST first be
   published as Internet-drafts for review by the SIPPING Working Group,
   or the working group, mailing list, or expert designated by the
   Transport Area Directors if the SIPPING Working Group has closed.
   Proposals should include a strong motivational section, a thorough
   description of the proposed syntax and semantics, event package
   considerations, security considerations, and examples of usage.  The
   author should submit his or her proposal as an individual Internet-
   Draft, and post an announcement to the working group mailing list to
   begin discussion.  The SIPPING Working Group will determine if the
   proposed package is a) an inappropriate usage of SIP, b) applicable
   to SIP but not sufficiently interesting, general, or in-scope to
   adopt as a working group effort, c) contrary to similar work planned
   in the Working Group, or d) should be adopted as or merged with
   chartered work.







Mankin, et. al.          Best Current Practice                  [Page 7]
RFC 3427                 Change Process for SIP            December 2002


   The IETF requires (Individual) RFC publication for registration of
   event packages developed outside the scope of an IETF working group,
   according to the following guidelines:

   1.  A designated expert (as defined in RFC 2434 [4]) MUST review the
       proposal for applicability to SIP and conformance with these
       guidelines.  The Expert Reviewer will send email to the IESG on
       this determination.  The expert reviewer can cite one or more of
       the guidelines that have not been followed in his/her opinion.

   2.  The proposed extension MUST NOT define an event template-package.

   3.  The function of the proposed package MUST NOT overlap with
       current or planned chartered packages.

   4.  The event package MUST NOT redefine or contradict the normative
       behavior of SIP events [4], SIP [3], or related standards track
       extensions.

   5.  The proposed package MUST NOT undermine SIP security in any
       sense.  The Internet Draft proposing the new package MUST address
       security issues in detail as if it were a Standards Track
       document.  Security issues need to be discussed for arbitrary
       usage scenarios (including the general Internet case).

   6.  The proposed package MUST be clearly documented in an
       (Individual) Informational RFC, and registered with IANA.  The
       package MUST document all the package considerations required in
       Section 5 of SIP events [4].

   7.  If determined by the expert reviewer or the chairs or ADs of the
       SIPPING WG, an applicability statement in the Informational RFC
       MUST clearly document the useful scope of the proposal, and
       explain its limitations and why it is not suitable for the
       general use of SIP in the Internet.

5. Security Considerations

   Complexity and indeterminate or hard to define protocol behavior,
   depending on which of many extensions operate, is a fine breeding
   ground for security flaws.

   All Internet-Drafts that present new requirements for SIP must
   include a discussion of the security requirements and implications
   inherent in the proposal.  All RFCs that modify or extend SIP must
   show that they have adequate security and do not worsen SIP's
   existing security considerations.




Mankin, et. al.          Best Current Practice                  [Page 8]
RFC 3427                 Change Process for SIP            December 2002


6. IANA Considerations

   RFC 3261 [3] directs the Internet Assigned Numbers Authority (IANA)
   to establish a registry for SIP method names, a registry for SIP
   option tags, and a registry for SIP response codes, and to amend the
   practices used for the existing registry for SIP headers.

   With the exception of P-headers, entries go into these registries
   only by approval of an Internet-Draft as a standards track RFC.

   Each RFC shall include an IANA Considerations section which directs
   IANA to create appropriate registrations.  Registration shall be done
   at the time the IESG announces its approval of the draft containing
   the registration requests.

   Standard headers and messages MUST NOT begin with the leading
   characters "P-".

   "P-" header names MUST begin with the leading characters "P-".  No
   "P-" header which conflicts with (would, without the "P-" prefix have
   the same name as) an existing standards track header is allowed.
   Each registration of a "P-" header will also reserve the name of the
   header as it would appear without the "P-" prefix.  However, the
   reserved name without the "P-" will not explicitly appear in the
   registry.  It will only appear if there is a later standards track
   document (which is unlikely in most cases!).  Please do not accept
   the registration of IANA-Greeting when you see:  P-IANA-Greeting.
   P-header's "reserved standard names" MUST NOT be used in a SIP
   implementation prior to standardization of the header.

   Short forms of headers MUST only be assigned to standards track
   headers.  In other words, P-headers MUST NOT have short forms.

   Similarly, RFC 3265 [4] directs the IANA to establish a registry for
   SIP event packages and SIP event template packages.  For event
   template packages, entries go into this registry only by approval of
   a draft for standards track RFC.  For ordinary event packages,
   entries go into this registry only by approval of a draft for RFC (of
   any type).  In either case, the IESG announcement of approval
   authorizes IANA to make the registration.











Mankin, et. al.          Best Current Practice                  [Page 9]
RFC 3427                 Change Process for SIP            December 2002


7. Acknowledgements

   The Transport ADs thank our IESG and IAB colleagues (especially Randy
   Bush, Harald Alvestrand, John Klensin, Leslie Daigle, Patrik
   Faltstrom, and Ned Freed) for valuable discussions of extensibility
   issues in a wide range of protocols, including those that our area
   brings forward and others.  Thanks to the many members of the SIP
   community engaged in interesting dialogue about this document as
   well; Jonathan Rosenberg and Jon Peterson gave us useful reviews.
   Thanks also to Henning Schulzrinne and William Marshall.

8. Normative References

   [1]  Bradner, S., "Key words for use in RFCs to Indicate Requirement
        Levels", BCP 14, RFC 2119, March 1997.

   [2]  Bradner, S., "The Internet Standards Process -- Revision 3", BCP
        9, RFC 2026, October 1996.

   [3]  Rosenberg, J., Schulzrinne, H., Camarillo, G., Johnston, A.,
        Peterson, J., Sparks, R., Handley, M. and E. Schooler, "SIP:
        Session Initiation Protocol", RFC 3261, June 2002.

   [4]  Roach, A., "Session Initiation Protocol (SIP) - Specific Event
        Notification", RFC 3265, June 2002.


























Mankin, et. al.          Best Current Practice                 [Page 10]
RFC 3427                 Change Process for SIP            December 2002


9. Authors' Addresses

   Allison Mankin
   Bell Labs, Lucent Corporation

   EMail: mankin@psg.com


   Scott Bradner
   Harvard University

   EMail: sob@harvard.edu


   Rohan Mahy
   Cisco

   EMail: rohan@cisco.com


   Dean Willis
   dynamicsoft

   EMail: dean.willis@softarmor.com


   Brian Rosen
   Marconi

   EMail: brian.rosen@marconi.com


   Joerg Ott
   ipDialog / Uni Bremen TZI

   EMail: jo@ipdialog.com















Mankin, et. al.          Best Current Practice                 [Page 11]
RFC 3427                 Change Process for SIP            December 2002


10.  Full Copyright Statement

   Copyright (C) The Internet Society (2002).  All Rights Reserved.

   This document and translations of it may be copied and furnished to
   others, and derivative works that comment on or otherwise explain it
   or assist in its implementation may be prepared, copied, published
   and distributed, in whole or in part, without restriction of any
   kind, provided that the above copyright notice and this paragraph are
   included on all such copies and derivative works.  However, this
   document itself may not be modified in any way, such as by removing
   the copyright notice or references to the Internet Society or other
   Internet organizations, except as needed for the purpose of
   developing Internet standards in which case the procedures for
   copyrights defined in the Internet Standards process must be
   followed, or as required to translate it into languages other than
   English.

   The limited permissions granted above are perpetual and will not be
   revoked by the Internet Society or its successors or assigns.

   This document and the information contained herein is provided on an
   "AS IS" basis and THE INTERNET SOCIETY AND THE INTERNET ENGINEERING
   TASK FORCE DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING
   BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION
   HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF
   MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.

Acknowledgement

   Funding for the RFC Editor function is currently provided by the
   Internet Society.



















Mankin, et. al.          Best Current Practice                 [Page 12]
  1. RFC 3427