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RFC 3342








Network Working Group                                           G. Klyne
Request for Comments: 3342                        Clearswift Corporation
Category: Standards Track                                        M. Rose
                                            Dover Beach Consulting, Inc.
                                                             M. Schwartz
                                                   Code On The Road, LLC
                                                                E. Dixon
                                                             H. Franklin
                                                                 J. Kint
                                                                  D. New
                                                                 S. Pead
                                                               July 2002


     The Application Exchange (APEX) Option Party Pack, Part Deux!

Status of this Memo

   This document specifies an Internet standards track protocol for the
   Internet community, and requests discussion and suggestions for
   improvements.  Please refer to the current edition of the "Internet
   Official Protocol Standards" (STD 1) for the standardization state
   and status of this protocol.  Distribution of this memo is unlimited.

Copyright Notice

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

Abstract

   Application Exchange (APEX), at its core, provides a best-effort
   application-layer datagram service.  Options are used to alter the
   semantics of the core service.  This memo defines various options to
   change the default behavior of APEX's "relaying mesh".

















Klyne, et. al.              Standards Track                     [Page 1]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


Table of Contents

   1.    The attachOverride Option  . . . . . . . . . . . . . . . . .  2
   2.    The dataTiming Option  . . . . . . . . . . . . . . . . . . .  3
   2.1   Upper-Bounds on Delivery . . . . . . . . . . . . . . . . . .  4
   2.1.1 Final Hop Report . . . . . . . . . . . . . . . . . . . . . .  5
   2.1.2 Timing Error Report  . . . . . . . . . . . . . . . . . . . .  7
   2.2   Reporting on Delayed Delivery  . . . . . . . . . . . . . . .  8
   2.2.1 Transient Timing Report  . . . . . . . . . . . . . . . . . .  9
   3.    The hold4Endpoint Option . . . . . . . . . . . . . . . . . . 10
   4.    The dataHopping Option . . . . . . . . . . . . . . . . . . . 13
   5.    Initial Registrations  . . . . . . . . . . . . . . . . . . . 15
   5.1   Registration: The attachOverride Option  . . . . . . . . . . 15
   5.2   Registration: The dataTiming Option  . . . . . . . . . . . . 16
   5.3   Registration: The hold4Endpoint Option . . . . . . . . . . . 16
   5.4   Registration: The dataHopping Option . . . . . . . . . . . . 16
   6.    The APEX Party Pack DTD  . . . . . . . . . . . . . . . . . . 17
   7.    Security Considerations  . . . . . . . . . . . . . . . . . . 18
         References . . . . . . . . . . . . . . . . . . . . . . . . . 18
   A.    Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 19
   B.    IANA Considerations  . . . . . . . . . . . . . . . . . . . . 19
         Authors' Addresses . . . . . . . . . . . . . . . . . . . . . 20
         Full Copyright Statement . . . . . . . . . . . . . . . . . . 22

1. The attachOverride Option

   Section 5.1 contains the APEX option registration for the
   "attachOverride" option.

   The default behavior of the APEX relaying mesh, in the absence of
   processing options, is to allow at most one application to attach as
   a particular endpoint, on a "first come, first served" basis.  The
   "attachOverride" option provides gives preference to the current
   application trying to attach.

   If this option is present in the "attach" operation (c.f., Section
   4.4.1 of [1]) and if any application is already attached as the
   specified endpoint, that endpoint has its attachment terminated
   (c.f., Section 4.4.3 of [1]) concurrently with processing of that
   "attach" operation.  The "code" attribute of the resulting
   "terminate" operation is set to 556.

   Note that any data being expected by the previously-attached
   application may instead be delivered to the last application to
   successfully attach.  Accordingly, applications should take care to
   properly deal with incoming data having unrecognized transaction-
   identifiers (c.f., Section 6.1.1 of [1]).




Klyne, et. al.              Standards Track                     [Page 2]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


   This option provides for a new attachment to automatically terminate
   any existing attachment for the same endpoint.  For example, this
   might be helpful when a new attachment is required from a different
   device while a previously-used device is still attached e.g.,

        +-------+                  +-------+
        |       | -- attach -----> |       |
        | appl. |                  | relay |
        |   #1  | <--------- ok -- |       |
        +-------+                  +-------+

      C: <attach endpoint='fred@example.com' transID='1' />
      S: <ok />

    ... some time later appl #2 starts on a different computer ...

                                   +-------+                  +-------+
                                   |       | <----- attach -- |       |
        +-------+                  |       |                  | appl. |
        |       | <-- terminate -- | relay | -- ok ---------> |   #2  |
        | appl. |                  |       |                  +-------+
        |   #1  | -- ok ---------> |       |
        +-------+                  +-------+

                C: <attach endpoint='fred@example.com' transID='2'>
                       <option internal='attachOverride' transID='3' />
                   </attach>
                S: <ok />

      C: <terminate transID='1' code='556'>overriden</terminate>
      S: <ok />

2. The dataTiming Option

   Section 5.2 contains the APEX option registration for the
   "dataTiming" option.  This option contains a "dataTiming" element
   (c.f., Section 6).

   The default behavior of the APEX relaying mesh is "immediate, best
   effort", and expects that all relays and endpoints are able to
   process and transfer data without delay -- in the absence of
   processing options, if a relay is unavailable, then data is silently
   dropped.  The "dataTiming" option provides for controlled queuing
   delays in processing, whilst providing reasonable deterministic
   behavior for the originator.






Klyne, et. al.              Standards Track                     [Page 3]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


   There are two types of delays addressed by the "dataTiming" option:

   o  delays in transit through the relaying mesh, possibly due to
      intermittent or slow connections, or congested relays; and,

   o  delays because the intended endpoint is not available to receive
      the data, when used in conjunction with the hold4Endpoint option
      (Section 3).

   Accordingly, the "dataTiming" option allows for:

   o  data to be discarded if not delivered within a finite amount of
      time as specified using the "noLaterThan" attribute (Section 2.1);

   o  a "statusResponse" message (c.f., Section 5.1 of [1]) to be
      generated if data is not delivered within a known amount of time
      as specified using the "reportAfter" attribute (Section 2.2); and,

   o  an upper limit on the amount of time for the "statusResponse"
      message to be delivered using the "returnTrip" attribute (Section
      2.1.1), after which the sender may presume the message to be lost.

   This option does not provide any functionality with respect to the
   priority of the data.  Nor does this option have any effect on other
   parts of the relaying process.

   Further, note that because this option is processed on a per-hop
   basis, the originator must set the "targetHop" attribute to the value
   "all" and the "mustUnderstand" attribute to the value "true".

2.1 Upper-Bounds on Delivery

   The "noLaterThan" attribute of the "dataTiming" option provides for
   control over delays that may occur in transit through the relaying
   mesh or to the recipient endpoint.

   If this option is present in the "data" operation (c.f., Section
   4.4.4 of [1]) and the value of the "noLaterThan" attribute is non-
   zero, then:

   o  For Step 5.2 of Section 4.4.4.1 of [1]:

      Immediately prior to sending the data to the next relay, the value
      of the "noLaterThan" attribute is adjusted to reflect the
      processing time of the data at the local relay (e.g., the time
      required to determine the next relay, to successfully issue a
      "bind" operation, and then be ready to immediately issue a "data"
      operation).



Klyne, et. al.              Standards Track                     [Page 4]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


      If the value of the "noLaterThan" attribute becomes less than or
      equal to zero, an error in processing has occurred, the data
      element is not sent to the next relay, and if the "reportErrors"
      attribute is true, the APEX report service is invoked to send a
      timing error report.

   o  For Step 5.3 of Section 4.4.4.1 of [1]:

      If the relay does not receive an "ok" element from the recipient
      endpoint within the number of milli-seconds indicated by the value
      of the "noLaterThan" attribute, an error in processing has
      occurred, and if the "reportErrors" attribute is true, the APEX
      report service is invoked to send a timing error report.

      Otherwise, if the data is successfully transmitted to the
      recipient, and the "returnTrip" attribute is non-zero, the APEX
      report service is invoked to send a final hop report.

   Note that in some cases, a relay may be able to predict this outcome
   without actually connecting to the next relay; if so, a timing error
   report may be sent without connecting to the next relay.

2.1.1 Final Hop Report

   If the APEX report service (c.f., Section 6.2 of [1]) is invoked to
   send a final hop report, it issues a data operation with:

   o  its originator identifying the report service associated with the
      issuing relay

   o  its recipient identifying the endpoint address of the originator
      associated with the "dataTiming" option

   o  a new "dataTiming" option having:

      *  its "noLaterThan" attribute equal to the "returnTrip" attribute
         of the original "dataTiming" option

      *  and no other attributes present

   o  its content consisting of a "statusResponse" element having:

      *  its "transID" attribute equal to the "transID" attribute of the
         "dataTiming" option

      *  and identifying the original recipient with a permanent success
         indicator




Klyne, et. al.              Standards Track                     [Page 5]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


   For example:

                                  +-------+                  +-------+
                                  |       | -- data -------> |       |
                                  | relay |                  | appl. |
                                  |       | <--------- ok -- |   #2  |
                                  +-------+                  +-------+

     C: <data content='cid:1@example.com'>
            <originator identity='fred@example.com' />
            <recipient identity='barney@example.com' />
            <option internal='dataTiming' targetHop='all'
                    mustUnderstand='true' transID='86'>
                <dataTiming noLaterThan='10000' returnTrip='20000' />
            </option>
        </data>
     S: <ok />

       +-------+                  +-------+
       |       | <------- data -- |       |
       | appl. |                  | relay |
       |   #1  | -- ok ---------> |       |
       +-------+                  +-------+

     C: <data content='#Content'>
            <originator identity='apex=report@example.com' />
            <recipient identity='fred@example.com' />
            <option internal='dataTiming' targetHop='all'
                    mustUnderstand='true' transID='99'>
                <dataTiming noLaterThan='20000' />
            </option>
            <data-content Name='Content'>
                <statusResponse transID='86'>
                    <destination identity='barney@example.com'>
                        <reply code='250' />
                    </destination>
                </statusResponse>
            </data-content>
        </data>
     S: <ok />











Klyne, et. al.              Standards Track                     [Page 6]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


2.1.2 Timing Error Report

   If the APEX report service (c.f., Section 6.2 of [1]) is invoked to
   send a timing error report, it issues a data operation with:

   o  its originator identifying the report service associated with the
      issuing relay

   o  its recipient identifying the endpoint address of the originator
      associated with the "dataTiming" option

   o  its content consisting of a "statusResponse" element having:

      *  its "transID" attribute equal to the "transID" attribute of the
         "dataTiming" option

      *  and identifying the original recipient with a permanent failure
         indicator

































Klyne, et. al.              Standards Track                     [Page 7]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


   For example:

       +-------+                  +-------+
       |       | -- data -------> |       |
       | appl. |                  | relay |
       |       | <--------- ok -- |       |
       +-------+                  +-------+

     C: <data content='cid:1@example.com'>
            <originator identity='fred@example.com' />
            <recipient identity='barney@example.com' />
            <option internal='dataTiming' targetHop='all'
                    mustUnderstand='true' transID='86'>
                <dataTiming noLaterThan='6000' reportErrors='true' />
            </option>
        </data>
     S: <ok />

      ... some time later ...

          +-------+                  +-------+
          |       | <------- data -- |       |
          | appl. |                  | relay |
          |       | -- ok ---------> |       |
          +-------+                  +-------+

        C: <data content='#Content'>
               <originator identity='apex=report@example.com' />
               <recipient identity='fred@example.com' />
               <data-content Name='Content'>
                   <statusResponse transID='86'>
                       <destination identity='barney@example.com'>
                           <reply code='550' />
                       </destination>
                   </statusResponse>
               </data-content>
           </data>
        S: <ok />

2.2 Reporting on Delayed Delivery

   The "reportAfter" attribute of the "dataTiming" option provides for
   the originator to be notified if delivery is delayed beyond a
   specified time.  Delivery of the data is not affected.  Note that if
   the value of the "noLaterThan" attribute is non-zero, then it
   provides the operational upper-bounds for the "reportAfter"
   attribute.




Klyne, et. al.              Standards Track                     [Page 8]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


   If this option is present in the "data" operation (c.f., Section
   4.4.4 of [1]) and the value of the "reportAfter" attribute is non-
   zero, then:

   o  For Step 5.2 of Section 4.4.4.1 of [1]:

      Immediately prior to sending the data to the next relay, the value
      of the "reportAfter" attribute is adjusted to reflect the
      processing time of the data at the local relay (e.g., the time
      required to determine the next relay, to successfully issue a
      "bind" operation, and then be ready to immediately issue a "data"
      operation).

      If the value of the "reportAfter" attribute becomes less than or
      equal to zero, then its value is set to zero and the APEX report
      service is invoked to send a transient timing report; regardless,
      the data element is sent to the next relay.

   o  For Step 5.3 of Section 4.4.4.1 of [1]:

      If the relay does not receive an "ok" element from the recipient
      endpoint within the number of milli-seconds indicated by the value
      of the "reportAfter" attribute, then its value is set to zero and
      the APEX report service is invoked to send a transient timing
      report.

2.2.1 Transient Timing Report

   If the APEX report service (c.f., Section 6.2 of [1]) is invoked to
   send a transient timing report, it issues a data operation with:

   o  its originator identifying the report service associated with the
      issuing relay

   o  its recipient identifying the endpoint address of the originator
      associated with the "dataTiming" option

   o  its content consisting of a "statusResponse" element having:

      *  its "transID" attribute equal to the "transID" attribute of the
         "dataTiming" option

      *  and identifying the original recipient with a transient success
         indicator







Klyne, et. al.              Standards Track                     [Page 9]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


   For example:

        +-------+                  +-------+
        |       | -- data -------> |       |
        | appl. |                  | relay |
        |   #1  | <--------- ok -- |       |
        +-------+                  +-------+

      C: <data content='cid:1@example.com'>
             <originator identity='fred@example.com' />
             <recipient identity='barney@example.com' />
             <option internal='dataTiming' targetHop='all'
                     mustUnderstand='true' transID='86'>
                 <dataTiming reportAfter='60000' />
             </option>
         </data>
      S: <ok />

    ... some time later ...

                                   +-------+                  +-------+
                                   |       | <------- data -- |       |
                                   | relay |                  | relay |
                                   |  #n-1 | -- ok ---------> |   #n  |
                                   +-------+                  +-------+

      C: <data content='#Content'>
             <originator identity='apex=report@example.com' />
             <recipient identity='fred@example.com' />
             <data-content Name='Content'>
                 <statusResponse transID='86'>
                     <destination identity='barney@example.com'>
                         <reply code='350' />
                     </destination>
                 </statusResponse>
             </data-content>
         </data>
      S: <ok />

3. The hold4Endpoint Option

   Section 5.3 contains the APEX option registration for the
   "hold4Endpoint" option.

   The default behavior of the APEX relaying mesh, in the absence of
   processing options, is to silently drop data for a recipient if its
   endpoint isn't attached.  The "hold4Endpoint" option provides for
   data to be queued if the recipient endpoint is not attached.



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RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


   If this option is present in the "data" operation (c.f., Section
   4.4.4 of [1]), and the value of the "hold4Endpoint" attribute is true
   then:

   o  For Step 5.3 of Section 4.4.4.1 of [1]:

      If the recipient's endpoint is not currently attached, the relay
      will queue the data waiting for an application to attach as that
      endpoint.

   Note that in the absence of an upper-bounds on delivery, such as
   limits provided by the dataTiming option (Section 2), the data will
   be queued indefinitely for the endpoint.






































Klyne, et. al.              Standards Track                    [Page 11]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


   For example:

        +-------+                  +-------+
        |       | -- data -------> |       |
        | appl. |                  | relay |
        |   #1  | <--------- ok -- |       |
        +-------+                  +-------+

      C: <data content='cid:1@example.com'>
             <originator identity='fred@example.com' />
             <recipient identity='barney@example.com' />
             <option internal='hold4Endpoint' />
             <option internal='dataTiming' targetHop='all'
                     mustUnderstand='true' transID='86'>
                 <dataTiming noLaterThan='60000' />
             </option>
         </data>
      S: <ok />

    ... some time later the recipient's endpoint attaches ...

                                   +-------+                  +-------+
                                   |       | <----- attach -- |       |
                                   |       |                  |       |
                                   |       | -- ok ---------> |       |
                                   | relay |                  | appl. |
                                   |       | -- data -------> |   #2  |
                                   |       |                  |       |
                                   |       | <--------- ok -- |       |
                                   +-------+                  +-------+

      C: <attach endpoint='barney@example.com' transID='2'>
             <option internal='attachOverride' transID='3' />
         </attach>
      S: <ok />

      C: <data content='cid:1@example.com'>
             <originator identity='fred@example.com' />
             <recipient identity='barney@example.com' />
             <option internal='hold4Endpoint' />
             <option internal='dataTiming' targetHop='all'
                     mustUnderstand='true' transID='86'>
                 <dataTiming noLaterThan='18000' />
             </option>
         </data>
      S: <ok />





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RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


4. The dataHopping Option

   To detect misconfigurations that cause forwarding loops in the APEX
   relaying mesh, the APEX pubsub service re-introduces a mechanism
   similar to the IP TTL [2] mechanism, in the form of an APEX option.
   Section 5.4 contains the APEX option registration for the
   "dataHopping" option.

   If this option is present in the "data" operation (c.f., Section
   4.4.4 of [1]) and the value of the "noMoreThan" attribute is non-
   zero, then:

   o  For Step 5.2 of Section 4.4.4.1 of [1]:

      Immediately prior to sending the data to the next relay, the value
      of the "noMoreThan" attribute is reduced by 1.

      If the value of the "noMoreThan" attribute becomes less than or
      equal to zero, an error in processing has occurred, the data
      element is not sent to the next relay, and if the "reportErrors"
      attribute is true, the APEX report service is invoked to send an
      error report.

   Further, note that because this option is processed on a per-hop
   basis, the originator must set the "targetHop" attribute to the value
   "all" and the "mustUnderstand" attribute to the value "true".

   If the APEX report service (c.f., Section 6.2 of [1]) is invoked to
   send an error report, it issues a data operation with:

   o  its originator identifying the report service associated with the
      issuing relay

   o  its recipient identifying the endpoint address of the originator
      associated with the "dataHopping" option

   o  its content consisting of a "statusResponse" element having:

      *  its "transID" attribute equal to the "transID" attribute of the
         "dataHopping" option

      *  and identifying the original recipient with a permanent failure
         indicator








Klyne, et. al.              Standards Track                    [Page 13]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


   For example:

       +-------+                  +-------+
       |       | -- data -------> |       |
       | appl. |                  | relay |
       |       | <--------- ok -- |   #1  |
       +-------+                  +-------+

     C: <data content='cid:1@example.com'>
            <originator identity='appl=pubsub/topic=fred@example.com' />
            <recipient identity='barney@example.com' />
            <option internal='dataHopping' targetHop='all'
                    mustUnderstand='true' transID='86'>
                <dataHopping noMoreThan='2' reportErrors='true' />
            </option>
        </data>
     S: <ok />
                                  +-------+                  +-------+
                                  |       | -- data -------> |       |
                                  | relay |                  | relay |
                                  |   #1  | <--------- ok -- |   #2  |
                                  +-------+                  +-------+

     C: <data content='cid:1@example.com'>
            <originator identity='appl=pubsub/topic=fred@example.com' />
            <recipient identity='barney@example.com' />
            <option internal='dataHopping' targetHop='all'
                    mustUnderstand='true' transID='86'>
                <dataHopping noMoreThan='1' reportErrors='true' />
            </option>
        </data>
     S: <ok />



















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RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


   relay #2 determines that further relaying is necessary:

       +-------+                  +-------+
       |       | <------- data -- |       |
       | relay |                  | relay |
       |   #1  | -- ok ---------> |   #2  |
       +-------+                  +-------+

     C: <data content='#Content'>
            <originator identity='apex=report@example.com' />
            <recipient identity='appl=pubsub/topic=fred@example.com' />
            <data-content Name='Content'>
                <statusResponse transID='86'>
                    <destination identity='barney@example.com'>
                        <reply code='550' />
                    </destination>
                </statusResponse>
            </data-content>
        </data>
     S: <ok />

5. Initial Registrations

   The APEX option registration template is defined in Section 7.1 of
   [1].

5.1 Registration: The attachOverride Option

   Option Identification: attachOverride

   Present in: APEX's "attach" element

   Contains: nothing

   Processing Rules: c.f., Section 1

   Contact Information: c.f., the "Authors' Addresses" section of this
      memo













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RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


5.2 Registration: The dataTiming Option

   Option Identification: dataTiming

   Present in: APEX's "data" element

   Contains: dataTiming (c.f., Section 6)

   Processing Rules: c.f., Section 2

   Contact Information: c.f., the "Authors' Addresses" section of this
      memo

5.3 Registration: The hold4Endpoint Option

   Option Identification: hold4Endpoint

   Present in: APEX's "data" element

   Contains: nothing

   Processing Rules: c.f., Section 3

   Contact Information: c.f., the "Authors' Addresses" section of this
      memo

5.4 Registration: The dataHopping Option

   Option Identification: dataHopping

   Present in: APEX's "data" element

   Contains: dataHopping (c.f., Section 6)

   Processing Rules: c.f., Section 4

   Contact Information: c.f., the "Authors' Addresses" section of this
      memo













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RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


6. The APEX Party Pack DTD

   <!--
     DTD for the APEX option party pack, as of 2001-05-14


     Refer to this DTD as:

       <!ENTITY % APEXPARTY PUBLIC "-//IETF//DTD APEX PARTY//EN" "">
       %APEXPARTY;
     -->

   <!ENTITY % APEXCORE PUBLIC "-//IETF//DTD APEX CORE//EN"
   %APEXCORE;

   <!--
     DTD data types:

          entity        syntax/reference     example
          ======        ================     =======
       hopcount
           HOPS         0..255               17

       milli-seconds
           MILLISECS    0..2147483647        60000
     -->

   <!ENTITY  % HOPS     "CDATA">
   <!ENTITY  % MILLISECS
                         "CDATA">


   <!ELEMENT dataHopping EMPTY>
   <!ATTLIST dataHopping
             noMoreThan  %HOPS;            "0"
             reportErrors
                         (true|false)      "false">

   <!ELEMENT dataTiming  EMPTY>
   <!ATTLIST dataTiming
             noLaterThan %MILLISECS;       "0"
             returnTrip  %MILLISECS;       "0"
             reportAfter %MILLISECS;       "0"
             reportErrors
                         (true|false)      "false">






Klyne, et. al.              Standards Track                    [Page 17]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


7. Security Considerations

   Consult [1]'s Section 11 for a discussion of security issues.

   In addition:

   o  The dataTiming option (Section 2) may be used to expose private
      network topology.  Accordingly, an administrator may wish to
      choose to disable this option except at the ingress/egress points
      for its administrative domain.

   o  The hold4Endpoint option (Section 3) may be used to facilitate
      denial-of-service attacks.  Accordingly, an administrator may wish
      to impose administrative limits on this attribute (e.g., always
      require that the "dataTiming" option also be present with a
      short-lived "noLaterThan" attribute).

References

   [1]   Rose, M., Klyne, G. and D. Crocker, "The Application Exchange
         Core", RFC 3340, July 2002.

   [2]   Postel, J., "Internet Protocol", STD 5, RFC 791, September
         1981.

   [3]   Newman, D., "Deliver By SMTP Service Extension", RFC 2852, June
         2000.
























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RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


Appendix A. Acknowledgements

   The authors gratefully acknowledge the contributions of Chris Newman
   and Bob Wyman.  Further, the dataTiming option is similar in function
   to "Deliver By" SMTP service extension defined by Dan Newman in [3].

Appendix B. IANA Considerations

   The IANA completed the registrations specified in Section 5.










































Klyne, et. al.              Standards Track                    [Page 19]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


Authors' Addresses

   Graham Klyne
   Clearswift Corporation
   1310 Waterside
   Arlington Business Park
   Theale, Reading  RG7 4SA
   UK

   Phone: +44 11 8903 8903
   EMail: Graham.Klyne@MIMEsweeper.com


   Marshall T. Rose
   Dover Beach Consulting, Inc.
   POB 255268
   Sacramento, CA  95865-5268
   US

   Phone: +1 916 483 8878
   EMail: mrose@dbc.mtview.ca.us


   Michael F. Schwartz
   Code On The Road, LLC

   EMail: schwartz@CodeOnTheRoad.com
   URI:   http://www.CodeOnTheRoad.com


   Eric Dixon

   EMail: edixon@myrealbox.com


   Huston Franklin

   EMail: huston@franklin.ro


   Jay Kint

   EMail: d20@icosahedron.org








Klyne, et. al.              Standards Track                    [Page 20]


RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


   Darren New
   5390 Caminito Exquisito
   San Diego, CA  92130
   US

   Phone: +1 858 350 9733
   EMail: dnew@san.rr.com


   Scott Pead

   EMail: spead@fiber.net







































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RFC 3342       The Application Exchange (APEX) Party Pack      July 2002


Full Copyright Statement

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

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   The limited permissions granted above are perpetual and will not be
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   This document and the information contained herein is provided on an
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Acknowledgement

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



















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