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Versions: (draft-johnston-cuss-sip-uui) 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17

Network Working Group                                        A. Johnston
Internet-Draft                                                     Avaya
Intended status: Standards Track                             J. Rafferty
Expires: December 5, 2014                           Human Communications
                                                            June 3, 2014


 A Mechanism for Transporting User to User Call Control Information in
                                  SIP
                       draft-ietf-cuss-sip-uui-17

Abstract

   There is a class of applications which benefit from using SIP to
   exchange User to User Information (UUI) data during session
   establishment.  This information, known as call control UUI data, is
   a small piece of data inserted by an application initiating the
   session, and utilized by an application accepting the session.  The
   syntax and semantics for the UUI data used by a specific application
   are defined by a UUI package.  This UUI data is opaque to SIP and its
   function is unrelated to any basic SIP function.  This document
   defines a new SIP header field, User-to-User, to transport UUI data,
   along with an extension mechanism.

Status of this Memo

   This Internet-Draft is submitted to IETF 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 December 5, 2014.

Copyright Notice

   Copyright (c) 2014 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



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   (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.  Overview . . . . . . . . . . . . . . . . . . . . . . . . . . .  3
   2.  Terminology  . . . . . . . . . . . . . . . . . . . . . . . . .  3
   3.  Requirements Discussion  . . . . . . . . . . . . . . . . . . .  4
   4.  Normative Definition . . . . . . . . . . . . . . . . . . . . .  5
     4.1.  Syntax for UUI Header Field  . . . . . . . . . . . . . . .  6
     4.2.  Hex Encoding Definition  . . . . . . . . . . . . . . . . .  7
     4.3.  Source Identity of UUI data  . . . . . . . . . . . . . . .  7
   5.  Guidelines for UUI Packages  . . . . . . . . . . . . . . . . .  9
     5.1.  Extensibility  . . . . . . . . . . . . . . . . . . . . . . 10
   6.  IANA Considerations  . . . . . . . . . . . . . . . . . . . . . 11
     6.1.  Registration of User-to-User Header Field  . . . . . . . . 11
     6.2.  Registration of User-to-User Header Field Parameters . . . 11
     6.3.  Registration of UUI Packages . . . . . . . . . . . . . . . 12
     6.4.  Registration of UUI Content Parameters . . . . . . . . . . 12
     6.5.  Registration of UUI Encoding Parameters  . . . . . . . . . 12
     6.6.  Registration of SIP Option Tag . . . . . . . . . . . . . . 13
   7.  Security Considerations  . . . . . . . . . . . . . . . . . . . 13
   8.  Appendix - Other Possible Mechanisms . . . . . . . . . . . . . 14
     8.1.  Why INFO is Not Used . . . . . . . . . . . . . . . . . . . 14
     8.2.  Why Other Protocol Encapsulation UUI Mechanisms are
           Not Used . . . . . . . . . . . . . . . . . . . . . . . . . 15
     8.3.  MIME body Approach . . . . . . . . . . . . . . . . . . . . 15
     8.4.  URI Parameter  . . . . . . . . . . . . . . . . . . . . . . 16
   9.  Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 17
   10. References . . . . . . . . . . . . . . . . . . . . . . . . . . 17
     10.1. Normative References . . . . . . . . . . . . . . . . . . . 17
     10.2. Informative References . . . . . . . . . . . . . . . . . . 18
   Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 19












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1.  Overview

   This document describes the transport of User to User Information
   (UUI) data using SIP [RFC3261].  It defines a mechanism for the
   transport of general application UUI data and for the transport of
   call control related ITU-T Q.931 User to User Information Element (UU
   IE) [Q931] and ITU-T Q.763 User to User Information Parameter [Q763]
   data in SIP.  UUI data is widely used in the PSTN today for contact
   centers and call centers.  There is also a trend for the related
   applications to transition from ISDN to SIP.  The UUI extension for
   SIP may also be used for native SIP UAs implementing similar services
   and to interwork with ISDN services.  Note that in most cases, there
   is an a priori understanding between the UAs in regard to what to do
   with received UUI data.  This document enables definition of packages
   and related attributes that can make such understandings more
   explicit.

   The UUI mechanism is designed to meet the use cases, requirements,
   and call flows for SIP call control UUI detailed in [RFC6567].  All
   references to requirement numbers (REQ-N) and figure numbers refer to
   [RFC6567].

   The mechanism is a new SIP header field, along with a new SIP option
   tag.  The header field carries the UUI data, along with parameters
   indicating the encoding of the UUI data, the UUI package, and
   optionally the content of the UUI data.  The package definition
   contains details about how a particular application can utilize the
   UUI mechanism.  The header field can be included (sometimes called
   "escaped") into URIs supporting referral and redirection scenarios.
   In these scenarios, the History-Info header field is used to indicate
   the inserter of the UUI data.  The SIP option tag can be used to
   indicate support for the header field.  Support for the UUI header
   field indicates that a UA is able to extract the information in the
   UUI data and pass it up the protocol stack.  Individual packages
   using the UUI mechanism can utilize SIP media feature tags to
   indicate that a UA supports a particular UUI package.  Guidelines for
   defining UUI packages are provided.


2.  Terminology

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
   "OPTIONAL" in this document are to be interpreted as described in BCP
   14, RFC 2119 [RFC2119].

   Note that the <allOneLine> tag convention from SIP  Torture Test
   Messages [RFC4475] is used to show that there are no line breaks in



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   the actual message syntax.


3.  Requirements Discussion

   This section describes how the User-to-User header field meets the
   requirements in [RFC6567].  The header field can be included in
   INVITE requests and responses and BYE requests and responses, meeting
   REQ-1 and REQ-2.

   For redirection and referral use cases and REQ-3, the header field is
   included (escaped) within the Contact or Refer-To URI.  The details
   of this mechanism as it applies for redirection and referral use
   cases are covered in Section 4.1.

   Since SIP proxy forwarding and retargeting does not affect header
   fields, the header field meets REQ-4.

   The UUI header field will carry the UUI data and not a pointer to the
   data, so REQ-5 is met.

   Since the basic design of the UUI header field is similar to the ISDN
   UUI service, interworking with PSTN protocols is straightforward and
   is documented in a separate specification
   [I-D.ietf-cuss-sip-uui-isdn], meeting REQ-6.

   Requirements REQ-7, REQ-8, and REQ-10 relate to discovery of the
   mechanism and supported packages, and hence applications.  REQ-7
   relates to support of the UUI header field, while REQ-8 relates to
   routing based on support of the UUI header field.  REQ-7 is met by
   defining a new SIP option tag 'uui'.  The use of a Require:uui in a
   request, or Supported:uui in an OPTIONS response could be used to
   require or discover support of the mechanism.  The presence of a
   Supported:uui or Require:uui header field can be used by proxies to
   route to an appropriate UA, meeting REQ-8.  However, note that only
   UAs are expected to understand the UUI data - proxies and other
   intermediaries do not.  REQ-10 is met by utilizing SIP feature tags
   [RFC3840].  For example, the feature tag 'sip.uui-isdn' could be used
   to indicate support of the ISDN UUI package, or 'sip.uui-pk1' could
   be used to indicate support for a particular package, pk1.

   Proxies commonly apply policy to the presence of certain SIP header
   fields in requests by either passing them or removing them from
   requests.  REQ-9 is met by allowing proxies and other intermediaries
   to remove UUI header fields in a request or response based on policy.

   Carrying UUI data elements of at least 129 octets is trivial in the
   UUI header field, meeting REQ-11.  Note that avoiding having very



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   large UUI data elements is a good idea, as SIP header fields have
   traditionally not been large.

   To meet REQ-12 for the redirection and referral use cases, the
   History-Info header field [RFC7044] can be used.  In these
   retargeting cases, the changed Request-URI will be recorded in the
   History-Info header field along with the identity of the element that
   performed the retargeting.

   The requirement for integrity protection in REQ-13 could be met by
   the use of an S/MIME signature over a subset of header fields, as
   defined in Section 23.4 of RFC 3261 "SIP Header Privacy and Integrity
   using S/MIME: Tunneling SIP".  Note that the lack of deployment of
   S/MIME with SIP means that in general REQ-13 is not met.  The
   requirement of REQ-14 for end-to-end privacy could be met using
   S/MIME or using encryption at the application layer.  Note that the
   use of S/MIME to secure the UUI data will result in an additional
   body being added to the request.  Hop-wise Transport Layer Security
   (TLS) [RFC5246] allows the header field to meet REQ-15 for hop-by-hop
   security.


4.  Normative Definition

   This document defines a new SIP header field "User-to-User" to
   transport call control UUI data to meet the requirements in
   [RFC6567].

   To help tag and identify the UUI data used with this header field,
   "purpose", "content", and "encoding" header field parameters are
   defined.  The "purpose" header field parameter identifies the package
   which defines the generation and usage of the UUI data for a
   particular application.  The value of the "purpose" parameter is the
   package name, as registered in the uui-packages sub-registry defined
   in Section 6.3.  For the case of interworking with the ISDN UUI
   Service, the ISDN UUI Service interworking package is used.  The
   default value for the "purpose" header field is "isdn-uui" as defined
   in [I-D.ietf-cuss-sip-uui-isdn].  If the "purpose" header field
   parameter is not present, the ISDN UUI MUST be used.  The "content"
   header field parameter identifies the actual content of the UUI data.
   If not present, the default content defined for the package MUST be
   used.  Newly defined UUI packages MUST define or reference at least a
   default "content" value.  The "encoding" header field parameter
   indicates the method of encoding the information in the UUI data
   associated with a particular "content" value.  This specification
   only defines "encoding=hex".  If the "encoding" header field
   parameter is not present, the default encoding defined for the
   package MUST be used.



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   UUI data is considered an opaque series of octets.  This mechanism
   MUST NOT be used to convey a URL or URI, since the Call-Info header
   field in [RFC3261] already supports this use case.

4.1.  Syntax for UUI Header Field

   The User-to-User (UUI) header field can be present in INVITE requests
   and responses and in BYE requests and responses.  Note that when the
   UUI header is used in responses, it can only be utilized in end-to-
   end responses, e.g. 1xx (excluding 100), 2xx, and 3xx responses.

   The following syntax specification uses the Augmented Backus-Naur
   Form (ABNF) as described in RFC 5234 and extends RFC 3261 (where
   token, quoted-string, and generic-param are defined).

        UUI         = "User-to-User" HCOLON uui-value *(COMMA uui-value)
        uui-value   = uui-data *(SEMI uui-param)
        uui-data    = token / quoted-string
        uui-param   = pkg-param / cont-param / enc-param / generic-param
        pkg-param   = "purpose" EQUAL pkg-param-value
        pkg-param-value = token
        cont-param   = "content" EQUAL cont-param-value
        cont-param-value = token
        enc-param   = "encoding" EQUAL enc-param-value
        enc-param-value = token / "hex"


   Each package defines how many User-to-User header fields of each
   package may be present in a request or a response.  A sender MAY
   include multiple User-to-User header fields, and a receiver MUST be
   prepared to receive multiple User-to-User header fields.  Consistent
   with the rules of SIP syntax, the syntax defined in this document
   allows any combination of individual User-to-User header fields or
   User-to-User header fields with multiple comma separated UUI data
   elements.  Any size limitations on the UUI data for a particular
   purpose are to be defined by the related UUI package.

   UAs SHALL ignore UUI data from packages or encoding that they do not
   understand.

   For redirection use cases, the header field is included (escaped)
   within the Contact URI.  For referral use cases, the header field is
   included (escaped) within the Refer-To URI.  For example, if a UA
   supports this specification, it SHOULD include any UUI data included
   in a redirection URI (if the UUI data and encoding is understood).
   Note that redirection can occur multiple times to a request.
   Currently, UAs that support attended transfer support the ability to
   include a Replaces header field [RFC3891] into a Refer-To URI, and



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   when acting upon this URI, add the Replaces header field to the
   triggered INVITE.  This sort of logic and behavior is utilized for
   the UUI header field (that is, the UUI header field is included in
   the triggered INVITE).  The UA processing the REFER [RFC3515] or the
   3xx response to the INVITE SHOULD support the UUI mechanism.  If the
   REFER or redirect target does not support UUI, the UUI header will be
   discarded as per [RFC3261].  However, this may limit the utility of
   use cases which depend upon the UUI being supported by all elements.

   Here is an example of an included User-to-User header field from the
   redirection response F2 of Figure 2:

   <allOneLine>
   Contact: <sip:+12125551212@gateway.example.com?User-to-User=
   56a390f3d2b7310023a2%3Bencoding%3Dhex%3Bpurpose%3Dfoo%3B
   content%3Dbar>
   </allOneLine>

   The resulting INVITE F4 would contain:

 User-to-User: 56a390f3d2b7310023a2;encoding=hex;purpose=foo;content=bar

4.2.  Hex Encoding Definition

   This specification defines hex encoding of UUI data.  When the value
   of 'hex' is used in the 'encoding' parameter of a header field, the
   data is encoded using base16 encoding according to Section 8 of
   [RFC4648].  The hex-encoded value is normally represented using the
   'token' construction from RFC 3261, although the 'quoted-string'
   construction is permitted, in which case the quotes MUST be ignored.

   If a canonicalized version of a normally case-insensitive hex encoded
   UUI data object is needed for a digital signature or integrity
   checking, then the base16 encoding with all upper case MUST be used.

4.3.  Source Identity of UUI data

   It is important for the recipient of UUI data to know the identity of
   the UA that inserted the UUI data.  In a request without a History-
   Info header field, the identity of the entity which inserted the UUI
   data will be assumed to be the source of the SIP message.  For a SIP
   request, typically this is the UA identified by the URI in the From
   header field or a P-Asserted-Identity [RFC3325] header field.  In a
   request with a History-Info header field, the recipient needs to
   parse the Targeted-to-URIs present (hi-targeted-to-uri defined in
   [RFC7044]) to see if any included User-to-User header fields are
   present.  If an included User-to-User header field is present and
   matches the UUI data in the request, this indicates that redirection



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   has taken place, resulting in the inclusion of UUI data in the
   request.  The inserter of the UUI data will be the UA identified by
   the Targeted-to-URI of the History-Info element prior to the element
   with the included UUI data.  In a response, the inserter of the UUI
   data will be the identity of the UA that generated the response.
   Typically, this is the UA identified in the To header field of the
   response.  Note that any updates to this identity by use of the SIP
   Connected Identity extension [RFC4916] or others will update this
   information.

   For an example of History-Info and redirection, consider Figure 2
   from [RFC6567] where the Originating UA is Carol, the Redirector Bob,
   and the Terminating UA Alice.  The INVITE F4 containing UUI data
   could be:

   INVITE sips:alice@example.com SIP/2.0
   Via: SIP/2.0/TLS lab.example.com:5061
    ;branch=z9hG4bKnashds9
   To: Bob <sips:bob@example.com>
   From: Carol <sips:carol@example.com>;tag=323sf33k2
   Call-ID: dfaosidfoiwe83ifkdf
   Max-Forwards: 70
   Contact: <sips:carol@lab.example.com>
   Supported: histinfo
   User-to-User: 342342ef34;encoding=hex
   History-Info: <sips:bob@example.com>;index=1
   <allOneLine>
   History-Info: <sips:alice@example.com?Reason=SIP%3Bcause%3D302
      &User-to-User=342342ef34%3Bencoding%3Dhex>;index=1.1;rc=1
   </allOneLine>

   Without the redirection captured in the History-Info header field,
   Alice would conclude the UUI data was inserted by Carol.  However,
   the History-Info containing UUI data (index=1.1) indicates that the
   inserter was Bob (index=1).

   To enable maintaining a record of the inserter identity of UUI data,
   UAs supporting this mechanism SHOULD support History-Info [RFC7044]
   and include Supported: histinfo in all requests and responses.

   If a border element such as a proxy or a Back-to-Back User Agent
   (B2BUA) removes a History-Info header field containing a User-to-User
   parameter, the UA consuming the UUI data may not be able at SIP level
   to identify the source of the UUI data.







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5.  Guidelines for UUI Packages

   UUI packages defined using this SIP UUI mechanism MUST follow the
   "Standards Action" guideline as defined in [RFC5226] and publish a
   standards track RFC which describes the usage.  The WG chose to adopt
   this conservative policy while it considers other potential
   registration policies.  Note that this mechanism is not suitable for
   the transport of arbitrary data between UAs.  The following
   guidelines are provided to help determine if this mechanism is
   appropriate or not.  The SIP UUI mechanism is applicable when all of
   the following conditions be met:

      1.  The information is generated and consumed by an application
      during session setup using SIP, but the application is not
      necessarily SIP aware.

      2.  The behavior of SIP entities that support it is not
      significantly changed (as discussed in Section 4 of [RFC5727]).

      3.  User Agents (UAs) are the generators and consumers of the UUI
      data.  Proxies and other intermediaries may route based on the
      presence of a User-to-User header field or a particular package
      tag but do not otherwise consume or generate the UUI data.

      4.  There are no privacy issues associated with the information
      being transported (e.g., geolocation or emergency-related
      information are examples of inappropriate UUI data).

      5.  The UUI data is not being utilized for user-to-user Remote
      Procedure Call (RPC) calls.

   UUI packages define the semantics for a particular application usage
   of UUI data.  The content defines the syntax of the UUI data, while
   the encoding defines the encoding of the UUI data for the content.
   Each content is defined as a stream of octets, which allows multiple
   encodings of that content.  For example, packages may define:

      1.  The SIP methods and responses in which the UUI data may be
      present.

      2.  The maximum number of UUI data elements that may be inserted
      into a request or response.  The default is one per encoding.
      Note that a UA may still receive a request with more than this
      maximum number due to redirection.  The package needs to define
      how to handle this situation.






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      3.  The default values for content and encoding if they are not
      present.  If the same UUI data may be inserted multiple times with
      different encodings, the package needs to state this.  A package
      may support and define multiple contents and their associated
      encodings, and reuse contents defined by other packages.

      4.  Any size limitations on the UUI data.  Size needs to be
      specified in terms of the octet stream output of the content,
      since the size of the resulting uui-data element will vary
      depending on the encoding scheme.

   A package MUST define a "purpose" header field value to identify the
   package in the coding.  A package MUST describe the new application
   which is utilizing the UUI data and provide some use case examples.
   The default "content" value MUST be defined or referenced in another
   document for the package.  Additional allowed contents MAY also be
   defined or referenced.  Any restrictions on the size of the UUI data
   MUST be described.  In addition, a package MAY define a Media Feature
   tag per RFC 3840 [RFC3840] to indicate support for this UUI package.
   For example, the media feature tag sip.uui-pk1 could be defined to
   indicate support for a UUI package named pk1.  The definition of a
   new SIP option tag solely to identify support for a UUI package is
   NOT RECOMMENDED unless there are additional SIP behaviors needed to
   implement this feature.

   For an example UUI package definition, see
   [I-D.ietf-cuss-sip-uui-isdn].

5.1.  Extensibility

   New "content" values MUST describe the semantics of the UUI data,
   valid encodings, and give some example use cases.  A previously
   defined UUI content value can be used in a new package.  In this
   case, the semantics and usage of the content by the new package is
   defined within the new package.  New UUI content types cannot be
   added to existing packages - instead, a new package would need to be
   defined.  New content values defined are added to the IANA registry
   with a standards track RFC, which needs to discuss the issues in this
   section.  If no new encoding value is defined for a content, the
   encoding defaults to "hex" as defined in this document.  In this
   case, the "hex" value will be explicitly stated via the encoding
   parameter as the encoding for the content.

   New "encoding" values associated with a new content MUST reference a
   specific encoding scheme (such as "hex" which is defined in this
   specification) or define the new encoding scheme.  A previously
   defined UUI encoding value can be used with a newly defined content.
   In this case, the usage of the encoding is defined by the content



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   definition.  New UUI encodings cannot be added to existing contents -
   instead, a new content would need to be defined.  Newly defined
   encoding values are added to the IANA registry with a standards track
   RFC, which needs to discuss the issues in this section.


6.  IANA Considerations

6.1.  Registration of User-to-User Header Field

   This document defines a new SIP header field named "User-to-User".

   The following row shall be added to the "Header Fields" section of
   the SIP parameter registry:

                 +------------------+--------------+-----------+
                 | Header Name      | Compact Form | Reference |
                 +------------------+--------------+-----------+
                 | User-to-User     |              | [RFCXXXX] |
                 +------------------+--------------+-----------+

   Editor's Note: [RFCXXXX] should be replaced with the designation of
   this document.

6.2.  Registration of User-to-User Header Field Parameters

   This document defines the parameters for the header field defined in
   the preceding section.  The header field "User-to-User" can contain
   the parameters "encoding", "content", and "purpose".

   The following rows shall be added to the "Header Field Parameters and
   Parameter Values" section of the SIP parameter registry:

   +------------------+----------------+-------------------+-----------+
   | Header Field     | Parameter Name | Predefined Values | Reference |
   +------------------+----------------+-------------------+-----------+
   | User-to-User     | encoding       | yes               | [RFCXXXX] |
   +------------------+----------------+-------------------+-----------+
   | User-to-User     | content        |                   | [RFCXXXX] |
   +------------------+----------------+-------------------+-----------+
   | User-to-User     | purpose        |                   | [RFCXXXX] |
   +------------------+----------------+-------------------+-----------+

   Editor's Note: [RFCXXXX] should be replaced with the designation of
   this document.






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6.3.  Registration of UUI Packages

   This specification establishes the uui-packages sub-registry under
   http://www.iana.org/assignments/sip-parameters.

   The descriptive text for the table of uui-content is:

   UUI Packages provides information about the usage of the UUI data in
   a User-to-User header field [RFCXXXX].

   The registration policy for this registry is "Standards Action" as
   defined in [RFC5226].

   +------------+------------------------------------------+-----------+
   | Package    | Description                              | Reference |
   +------------+------------------------------------------+-----------+

6.4.  Registration of UUI Content Parameters

   This specification establishes the uui-content sub-registry under
   http://www.iana.org/assignments/sip-parameters.

   The descriptive text for the table of uui-content is:

   UUI Content provides information about the content of the UUI data in
   a User-to-User header field [RFCXXXX].

   The registration policy for this registry is "Standards Action" as
   defined in [RFC5226].

   +------------+------------------------------------------+-----------+
   | Content    | Description                              | Reference |
   +------------+------------------------------------------+-----------+


6.5.  Registration of UUI Encoding Parameters

   This specification establishes the uui-encoding sub-registry under
   http://www.iana.org/assignments/sip-parameters and initiates its
   population with the table below.

   The descriptive text for the table of uui-encoding is:

   UUI Encoding provides information about the encoding of the UUI data
   in a User-to-User header field [RFCXXXX].

   The registration policy for this registry is "Standards Action" as
   defined in [RFC5226].



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   +-----------+-------------------------------------------+-----------+
   | Encoding  | Description                               | Reference |
   +-----------+-------------------------------------------+-----------+
   | hex       | The UUI data is encoded using hexadecimal | [RFCXXXX] |
   +-----------+-------------------------------------------+-----------+

6.6.  Registration of SIP Option Tag

   This specification registers a new SIP option tag, as per the
   guidelines in Section 27.1 of [RFC3261].

   This document defines the SIP option tag "uui".

   The following row has been added to the "Option Tags" section of the
   SIP Parameter Registry:

   +------------+------------------------------------------+-----------+
   | Name       | Description                              | Reference |
   +------------+------------------------------------------+-----------+
   | uui        | This option tag is used to indicate that | [RFCXXXX] |
   |            | a UA supports and understands the        |           |
   |            | User-to-User header field.               |           |
   +------------+------------------------------------------+-----------+

   Editor's Note: [RFCXXXX] should be replaced with the designation of
   this document.


7.  Security Considerations

   UUI data can potentially carry sensitive information that might
   require confidentiality protection for privacy or integrity
   protection from third parties that may wish to read or modify the UUI
   data.  [RFC6567] describes three security models which may be
   applicable for the UUI mechanism.

   One model treats the SIP layer as untrusted and requires end-to-end
   integrity protection and/or encryption.  This model can be achieved
   by providing these security services at a layer above SIP.  In this
   case, applications are encouraged to use their own integrity and/or
   encryption mechanisms before passing it to the SIP layer.

   The second approach is for the application to pass the UUI without
   any protection to the SIP layer and require the SIP layer to provide
   this security.  This approach is possible in theory, although its
   practical use would be extremely limited.  To preserve multi-hop or
   end-to-end confidentiality and integrity of UUI data, approaches
   using S/MIME or IPsec can be used, as discussed in the review of



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   REQ-13 and REQ-14 in section 3 of this document.  However, the lack
   of deployment of these mechanisms means that applications cannot in
   general rely on them being present.

   The third model utilizes a trust domain and relies on perimeter
   security at the SIP layer.  This is the security model of the PSTN
   and ISDN where UUI is commonly used today.  This approach uses hop-
   by-hop security mechanisms and relies on border elements for
   filtering and application of policy.  Standard deployed SIP security
   mechanisms such as TLS transport, offer privacy and integrity
   protection properties on a hop-by-hop basis at the SIP layer.

   If the UUI data was included by the UA originator of the SIP request
   or response, normal SIP mechanisms can be used to determine the
   identity of the inserter of the UUI data.  If the UUI data was
   included by a UA that was not the originator of the request, a
   History-Info header field can be used to determine the identity of
   the inserter of the UUI data.  UAs can apply policy based on the
   origin of the UUI data using this information.  In short, the UUI
   data included in an INVITE can be trusted as much as the INVITE
   itself can be trusted.

   Note that it is possible that this mechanism could be used as a
   covert communication channel between UAs, conveying information
   unknown to the SIP network.


8.  Appendix - Other Possible Mechanisms

   Two other possible mechanisms for transporting UUI data will be
   described: MIME body and URI parameter transport.

8.1.  Why INFO is Not Used

   Since the INFO method [RFC6086], was developed for ISUP interworking
   of user-to-user information, it might seem to be the logical choice
   here.  For non-call control user-to-user information, INFO can be
   utilized for end to end transport.  However, for transport of call
   control user-to-user information, INFO can not be used.  As the call
   flows in [RFC6567] show, the information is related to an attempt to
   establish a session and needs to be passed with the session setup
   request (INVITE), responses to that INVITE, or session termination
   requests.  As a result, it is not possible to use INFO in these
   cases.







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8.2.  Why Other Protocol Encapsulation UUI Mechanisms are Not Used

   Other protocols have the ability to transport UUI data.  For example,
   consider the ITU-T Q.931 User to User Information Element (UU IE)
   [Q931] and the ITU-T Q.763 User to User Information Parameter [Q763].
   In addition, NSS (Narrowband Signaling System) [Q1980] is also able
   to transport UUI data.  Should one of these protocols be in use, and
   present in both User Agents, then utilizing these other protocols to
   transport UUI data might be a logical solution.  Essentially, this is
   just adding an additional layer in the protocol stack.  In these
   cases, SIP is not transporting the UUI data; it is encapsulating
   another protocol, and that protocol is transporting the UUI data.
   Once a mechanism to transport that other protocol using SIP exists,
   the UUI data transport function is essentially obtained without any
   additional effort or work.

   However, the CUSS working group believes, consistent with its
   charter, that SIP needs to have its own native UUI data transport
   mechanism.  It is not reasonable for a SIP UA to have to implement
   another entire protocol (either ISDN or NSS, for example) just to get
   the very simple UUI data transport service.  Of course, this work
   does not preclude anyone from using other protocols with SIP to
   transport UUI data.

8.3.  MIME body Approach

   One method of transport is to use a MIME body.  This is in keeping
   with the SIP-T architecture [RFC3372] in which MIME bodies are used
   to transport ISUP information.  Since the INVITE will normally have
   an SDP message body, the resulting INVITE with SDP and UUI data will
   be multipart MIME.  This is not ideal as many SIP UAs do not support
   multipart MIME INVITEs.

   A bigger problem is the insertion of a UUI message body by a redirect
   server or in a REFER.  The body would need to be encoded in the
   Contact URI of the 3xx response or the Refer-To URI of a REFER.
   Currently, the authors are not aware of any UAs that support this
   capability today for any body type.  As such, the complete set of
   semantics for this operation would need to be determined and defined.
   Some issues will need to be resolved, such as, do all the Content-*
   header fields have to be included as well?  And, what if the included
   Content-Length does not agree with the included body?

   Since proxies cannot remove a body from a request or response, it is
   not clear how this mechanism could meet REQ-9.

   The requirement for integrity protection could be met by the use of
   an S/MIME signature over the body, as defined in Section 23.3 of RFC



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   3261 "Securing MIME bodies".  Alternatively, this could be achieved
   using RFC 4474 [RFC4474].  The requirement for end-to-end privacy
   could be met using S/MIME encryption or using encryption at the
   application layer.  However, note that neither S/MIME or RFC 4474
   enjoys deployment in SIP today.

   An example:

   <allOneLine>
   Contact: <sip:+12125551212@gateway.example.com?Content-Type=
   application/uui&body=ZeGl9i2icVqaNVailT6F5iJ90m6mvuTS4OK05M0vDk0Q4Xs>
   </allOneLine>

   As such, the MIME body approach meets REQ-1, REQ-2, REQ-4, REQ-5,
   REQ-7, REQ-11, REQ-13, and REQ-14.  Meeting REQ-12 seems possible,
   although the authors do not have a specific mechanism to propose.
   Meeting REQ-3 is problematic, but not impossible for this mechanism.
   However, this mechanism does not seem to be able to meet REQ-9.

8.4.  URI Parameter

   Another proposed approach is to encode the UUI data as a URI
   parameter.  This UUI parameter could be included in a Request-URI or
   in the Contact URI or Refer-To URI.  It is not clear how it could be
   transported in a responses which does not have a Request-URI, or in
   BYE requests or responses.

  <allOneLine>
  Contact: <sip:+12125551212@gateway.example.com;uui=ZeGl9i2icVqaNVailT6
  F5iJ90m6mvuTS4OK05M0vDk0Q4Xs>
  </allOneLine>

   An INVITE sent to this Contact URI would contain UUI data in the
   Request-URI of the INVITE.  The URI parameter has a drawback in that
   a URI parameter carried in a Request-URI will not survive retargeting
   by a proxy as shown in Figure 2 of [RFC6567].  That is, if the URI is
   included with an Address of Record instead of a Contact URI, the URI
   parameter in the Reqeuest-URI will not be copied over to the Contact
   URI, resulting in the loss of the information.  Note that if this
   same URI was present in a Refer-To header field, the same loss of
   information would occur.

   The URI parameter approach would meet REQ-3, REQ-5, REQ-7, REQ-9, and
   REQ-11.  It is possible the approach could meet REQ-12 and REQ-13.
   The mechanism does not appear to meet REQ-1, REQ-2, REQ-4, and
   REQ-14.





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9.  Acknowledgements

   Joanne McMillen was a major contributor and co-author of earlier
   versions of this document.  Thanks to Paul Kyzivat for his
   contribution of hex encoding rules.  Thanks to Spencer Dawkins, Keith
   Drage, Vijay Gurbani, and Laura Liess for their review of the
   document.  The authors wish to thank Roland Jesske, Celine Serrut-
   Valette, Francois Audet, Denis Alexeitsev, Paul Kyzivat, Cullen
   Jennings, and Mahalingam Mani for their comments.  Thanks to Scott
   Kelly and Joel Halperin for their reviews.


10.  References

10.1.  Normative References

   [RFC2119]  Bradner, S., "Key words for use in RFCs to Indicate
              Requirement Levels", BCP 14, RFC 2119, March 1997.

   [RFC3261]  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.

   [RFC4474]  Peterson, J. and C. Jennings, "Enhancements for
              Authenticated Identity Management in the Session
              Initiation Protocol (SIP)", RFC 4474, August 2006.

   [RFC7044]  Barnes, M., Audet, F., Schubert, S., van Elburg, J., and
              C. Holmberg, "An Extension to the Session Initiation
              Protocol (SIP) for Request History Information", RFC 7044,
              February 2014.

   [RFC4916]  Elwell, J., "Connected Identity in the Session Initiation
              Protocol (SIP)", RFC 4916, June 2007.

   [RFC3840]  Rosenberg, J., Schulzrinne, H., and P. Kyzivat,
              "Indicating User Agent Capabilities in the Session
              Initiation Protocol (SIP)", RFC 3840, August 2004.

   [RFC3515]  Sparks, R., "The Session Initiation Protocol (SIP) Refer
              Method", RFC 3515, April 2003.

   [RFC3891]  Mahy, R., Biggs, B., and R. Dean, "The Session Initiation
              Protocol (SIP) "Replaces" Header", RFC 3891,
              September 2004.

   [RFC5246]  Dierks, T. and E. Rescorla, "The Transport Layer Security



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              (TLS) Protocol Version 1.2", RFC 5246, August 2008.

   [RFC5226]  Narten, T. and H. Alvestrand, "Guidelines for Writing an
              IANA Considerations Section in RFCs", BCP 26, RFC 5226,
              May 2008.

   [I-D.ietf-cuss-sip-uui-isdn]
              Drage, K. and A. Johnston, "Interworking ISDN Call Control
              User Information with SIP",
              draft-ietf-cuss-sip-uui-isdn-08 (work in progress),
              March 2014.

   [RFC4648]  Josefsson, S., "The Base16, Base32, and Base64 Data
              Encodings", RFC 4648, October 2006.

10.2.  Informative References

   [Q763]     "ITU-T Q.763 Signaling System No. 7 - ISDN user part
              formats and codes",
              http://www.itu.int/rec/T-REC-Q.931-199805-I/en .

   [Q931]     "ITU-T Q.931 User to User Information  Element (UU IE)",
              http://www.itu.int/rec/T-REC-Q.931-199805-I/en .

   [RFC3372]  Vemuri, A. and J. Peterson, "Session Initiation Protocol
              for Telephones (SIP-T): Context and Architectures",
              BCP 63, RFC 3372, September 2002.

   [RFC6086]  Holmberg, C., Burger, E., and H. Kaplan, "Session
              Initiation Protocol (SIP) INFO Method and Package
              Framework", RFC 6086, January 2011.

   [RFC4475]  Sparks, R., Hawrylyshen, A., Johnston, A., Rosenberg, J.,
              and H. Schulzrinne, "Session Initiation Protocol (SIP)
              Torture Test Messages", RFC 4475, May 2006.

   [RFC5727]  Peterson, J., Jennings, C., and R. Sparks, "Change Process
              for the Session Initiation Protocol (SIP) and the Real-
              time Applications and Infrastructure Area", BCP 67,
              RFC 5727, March 2010.

   [Q1980]    "ITU-T Q.1980.1 The Narrowband Signalling Syntax (NSS) -
              Syntax Definition", http://www.itu.int/itudoc/itu-t/aap/
              sg11aap/history/q1980.1/q1980.1.html .

   [RFC3325]  Jennings, C., Peterson, J., and M. Watson, "Private
              Extensions to the Session Initiation Protocol (SIP) for
              Asserted Identity within Trusted Networks", RFC 3325,



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              November 2002.

   [RFC6567]  Johnston, A. and L. Liess, "Problem Statement and
              Requirements for Transporting User-to-User Call Control
              Information in SIP", RFC 6567, April 2012.


Authors' Addresses

   Alan Johnston
   Avaya
   St. Louis, MO  63124

   Email: alan.b.johnston@gmail.com


   James Rafferty
   Human Communications
   Norfolk, MA  02056

   Email: jay@humancomm.com






























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