One document matched: draft-kiss-simple-presence-wireless-reqs-02.txt
Differences from draft-kiss-simple-presence-wireless-reqs-01.txt
Network Working Group Krisztian Kiss (ed.)
Internet-Draft Nokia
Expires: August 29, 2003 February 28, 2002
Requirements for Presence Service in 3GPP Wireless Systems
draft-kiss-simple-presence-wireless-reqs-02
Status of this Memo
This document is an Internet-Draft and is in full conformance
with all provisions of Section 10 of RFC2026 [1].
Internet-Drafts are working documents of the Internet
Engineering Task Force (IETF), its areas, and its working
groups. Note that other groups may also distribute working
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time. It is inappropriate to use Internet- Drafts as reference
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The list of current Internet-Drafts can be accessed at
http://www.ietf.org/ietf/1id-abstracts.txt
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at http://www.ietf.org/shadow.html.
The distribution of this memo is unlimited.
Copyright Notice
Copyright (C) The Internet Society (2003). All Rights
Reserved.
Abstract
This Internet-Draft defines requirements for Presence Service
in 3GPP wireless systems.
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Krisztian Kiss 3GPP Presence Requirements February 2003
Table of contents
1. Introduction 2
1.1 Conventions used in this document 3
2. General characteristics of Wireless Systems 3
3. Requirements 3
3.1 Addressing Requirements 4
3.2 Publishing requirements 4
3.3 Subscription and notification requirements 5
3.4 Requirements for the content of the presence document 6
3.5 Authorization requirements 7
3.6 Watcher information requirements 8
3.7 Presencelist requirements 9
4. Security requirements 9
5. Charging Requirements 9
6. Proposal for next steps 9
Normative References 9
Informative References 10
Author's address 12
Appendix A. Contributors 12
Full Copyright Statement 13
1. Introduction
This Internet-Draft lists the requirements for Presence
Service in 3GPP wireless systems [24][25][26]. The 3GPP
Presence Service requirements are defined in [27], the 3GPP
Presence Service architecture is defined in [28], presence
service information flows and protocol details are defined in
[29]. The requirements on the Session Initiation Protocol
(SIP) for the Release 5 of the 3GPP IP Multimedia Subsystem
are described in [19]. Presence Service is referenced as
defined in IMPP Working Group in documents [5] and [6].
This document does not document requirements that have led to
the creation and work in progress on a number of SIMPLE WG
specifications, i.e. subscriptions and notifications of user
presence [7], the SIP event notification extension for
collections [9], the SIP Event Template-Package for Watcher
Information documents [11][12], the content indirection
mechanism [17] and the SIMPLE Presence Publication Mechanism
[15]. Rather this document lists only requirements that are
additional to those that have led to the mechanisms proposed
in these documents.
The document also assumes the usage of the Common Presence and
Instant Messaging (CPIM) Presence Information Data Format
(PIDF) defined in [8] as the default presence document data
format, however some of the requirements presented here might
require extensions to PIDF.
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The requirements presented in this document are proposed to be
evaluated by the SIMPLE Working Group. The result of this
evaluation process would help to determine the work expected
to be done in IETF and identify the work which might be done
in other standardization bodies, such as 3GPP. Thus, a more
precise work-share between standardization bodies could be
worked out. The overall goal of these requirements is to allow
the development of a fully standardized presence application
for wireless terminals, utilizing existing IETF and 3GPP
specifications.
Note that some of the requirements herein may be already
addressed in specific requirements documents, i.e. the data
manipulation requirements of SIMPLE systems [10], the presence
specific event notification filters requirements [14], the
rate limiting of event notifications requirements [16], the
watcher information filtering requirements [21], the SIMPLE
Presence Publication Requirements [23].
1.1 Conventions used in this document
This document does not specify any protocol of any kind.
Therefore, the use of the key words "MUST", "MUST NOT",
"REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT",
"RECOMMENDED", "MAY", and "OPTIONAL" in this document, as
described in RFC 2119 [2], does not apply.
2. General characteristics of Wireless Systems
The radio interface of wireless systems is often a scarce
resource. As such, the message exchange over the radio
interface and the size of the messages should be efficiently
compact and kept to a minimum. All the mechanisms developed
should make an efficient use of the radio interface.
There are existing mechanisms to fulfill this requirement,
such as signaling compression [31], partial publication,
partial notification [20], content indirection [17]. These
mechanisms must not be exclusive and must be capable to work
together.
As terminals could be rather small devices, the memory and
power consumption requirements, requirements for processing
power, and for screen size and rendering capabilities should
be kept to a minimum. Mandating support for additional
protocols and mechanisms in the wireless terminal must meet
this criteria.
3. Requirements
This section lists the requirements for Presence Service in the
3GPP IP Multimedia Subsystem wireless environment. Generally,
these protocol requirements stem from the special characteristics
of wireless systems, and the specific set of capabilities
specified by the 3GPP. More information on these aspects can be
found in 3GPP TS 23.228 [24].
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3.1 Addressing Requirements
ADDR-REQ1: It must be possible to use a single address to
identify the presentity and the watcher.
ADDR-REQ2: Use of E.164 numbers [32] in addressing presence
service entities must be supported.
3.2 Publishing requirements
Generic SIMPLE Presence Publication Requirements are listed in
[23].
PUBL-REQ1: Standardized mechanism to publish presence information
There must be a standardized mechanism to publish the
presence information.
PUBL-REQ2: Partial publishing
The publish mechanism must allow a PUA to change only part
of the presentity's presence information. For example, a
PUA must be able to publish one single <tuple> element of
the presentity's PIDF document, while the document
contains several <tuple> elements.
PUBL-REQ3: Basic operations of publishing
It must be possible for the PUA to add segments to the
presence information as well as overwrite, modify or
remove existing elements of the presence information.
PUBL-REQ4: Mandatory-to-implement MIME type for presence document
There must be one mandatory-to-implement MIME type for the
publish mechanism.
PUBL-REQ5: Inclusion of direct content in the presence document
It must be possible for the presentity to include direct
content in the presence document. If the direct content is
part of the presence document, the signaling compression
should be able to maintain the compression efficiency.
PUBL-REQ6: Multiple PUAs
The publication mechanism must allow simultaneous
publishing from multiple distinct PUAs of a single
presentity.
PUBL-REQ7: Identifiers for PUAs
It must be possible to allocate unique identifiers for
every distinct PUAs of a particular presentity.
PUBL-REQ8: Identification of segments
The PUA must be able to publish to a specific segment of
the presence document, shared among many PUAs (the number
of sources must neither be limited nor pre-defined). This
means that the published segments need to be identified
across all of the PUAs of a particular presentity. The PUA
must be able to generate identifiers for the published
segments.
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PUBL-REQ9: Discovering existing segments
It must be possible for the PUA to discover existing
segment identifiers together with their content published
by other PUAs belonging to the same presentity.
PUBL-REQ10: Hard-state segments
It must be possible to include hard-state segments in the
presence documents. This means that in case the PUAs do
not refresh presence information, the hard-state segments
remain available for the watchers.
PUBL-REQ11: Feedback on publishing
The PUA must be able to receive feedback about the result
of a publishing transaction, the feedback must contain
enough information for the principal controlling the
presentity to know that the published presence information
was successfully composed into the presence document by
the Presence Compositor.
3.3 Subscription and notification requirements
SUBNOT-REQ1: Presence information filtering
It must be possible for a watcher to select certain
elements from the presence information that he wants (or
does not want) to receive notifications for. As an
example, the watcher may only want to be notified when the
presentity becomes available for conferencing.
The Presence Server must be able to construct the presence
document to be delivered to the watcher according to the
watcher's filtering preferences.
Note that when determining the elements to be included in
the presence document, authorization rules are also needed
to be taken into account.
Note that there are detailed presence event filtering
requirements listed in [14].
SUBNOT-REQ2: Limiting the rate of event notification
The watcher must be able to limit the maximum rate at
which the notifier can generate notifications in a
subscription.
Note that there are detailed requirements for the throttle
mechanism listed in [16].
SUBNOT-REQ3: Anonymous subscription
It must be possible for the watcher to request an
anonymous subscription (i.e. the watcher's identifier will
not be revealed to the presentity). The anonymous request
may be accepted or rejected, depending on the presentity's
authorization rules as described by the AUTH-REQs.
Note that this requirement may be met with the overall
privacy solution for SIP.
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SUBNOT-REQ4: Gathering information on presence information
It must be possible for the watcher to determine what presence
information is available for a particular presentity before
fetching or subscribing to the presence information elements
with actual values.
SUBNOT-REQ5: Direct content inclusion in presence information
It must be possible for the watcher to receive
notifications including direct contents. The mechanism
selected for notifying large size content must make
efficient use of the network resources and satisfy generic
wireless requirements as described in section 2.
SUBNOT-REQ6: Content indirection
Generic requirements for content indirection are listed in
[13]. In connection to presence the following requirements
have been identified: the Presence Server should be able
to perform content indirection. Watchers should have the
capability to indicate the support of content indirection.
The Presence Server must honor watcher's preferences
whether to perform content indirection or not when it
detects a situation where content indirection should be
performed.
SUBNOT-REQ7: Subscription on behalf of another user
It must be possible for a watcher to subscribe to the
presentityÆs presence information on behalf of another
user. As an example, an Application Server may act as a
network-based watcher to provide presence based call
control, or a Resource List Server may collect
notifications from the individual resources of the
presentity collection on behalf of the watcher.
3.4 Requirements for the content of the presence document
CONT-REQ1: Unique identifiers for presence segments
The presence document contains presence segments. Each
presence segment must contain a unique identity which
makes it distinguishable from other presence segments
inside the presence document.
CONT-REQ2: Application specific identifiers
It must be possible to include application specific
identifiers in a presence tuple. This means that a
publishing application running in a PUA is able to address
a specific presence tuple to its peer watcher application
running in the watcher user agent.
CONT-REQ3: Rich content of the presence segments
RFC 2778 [6] defines the presence information element to
consist of a STATUS marker, an optional COMMUNICATION
ADDRESS, and optional OTHER PRESENCE MARKUP. A
COMMUNICATION ADDRESS includes a COMMUNICATION MEANS and a
CONTACT ADDRESS.
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As a further requirement for this definition, it must be
possible to define rich content for a presence information
element (e.g. for the communication means: voice, video,
instant messaging, application). One possible solution to
fulfill this requirement is defined in [30].
CONT-REQ4: Multivalue concept
It must be possible to include multiple instances of the
semantically same presence information in the presence
document. The different instances should contain different
values of the same presence information and used to be
shown for different watchers. The different watchers must
only receive those instances of the presence information
they are authorized to by the presentity. As an example,
one group of watchers is shown a different value for the
status of presentity than the other.
The Presence Server must be able to distinguish whether
two presence information elements contain semantically
different presence information or they are different
instances of the semantically same presence information.
CONT-REQ5: Geographic location information
There must be a standardized attribute for the geographic
location information within the presence document.
CONT-REQ6: PresentityÆs status
There must be a standardized attribute for the
presentityÆs status within the presence document.
3.5 Authorization requirements
This section defines the requirements for how presentity is
able to authorize the presence subscriptions. Generic SIMPLE
data manipulation requirements are listed in [10].
AUTH-REQ1: Standardized setting of authorization policy
There must be a standardized mechanism for the presentity
to control the authorization policy related to his own
presence information.
This means that the authorization policy document format
and a set of manipulation operations upon that format must
be standardized.
AUTH-REQ2: Extensibility of authorization policy
It should be possible for network operators to extend the
format of the authorization policy document and the
operations upon that format based on local policy.
AUTH-REQ3: Expressiveness of authorization rules
It must be possible for the presentity to set separate
authorization rules for different watchers and groups of
watchers. With these rules the presentity must be able to
override the default behaviour of the presence server for
the generation of notifications and content of the
notifications. As an example, only watchers belonging to a
particular group are allowed to receive information
related to presentity's location.
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AUTH-REQ4: Managing the authorization policy from multiple sources
It must be possible for the presentity to manage the
authorization rules from multiple sources (e.g. from
different terminals of the presentity or by the service
provider on behalf of the presentity). It must be possible
for the presentity from one source to learn the changes in
the authorization rules changed by other sources belonging
to the same presentity.
AUTH-REQ5: Granularity of access rights
It must be possible for the presentity to grant access
rights separately for all elements of the presence
information.
RFC 2778 [6] defines a model for presence information.
Based on this model more specific requirements can be
stated:
It must be possible for the Presence Server to decide
based on authorization rules whether to include a certain
tuple in the notification. It must be possible to base
that decision on any element in the tuple. In the default
case these must include at least TUPLE ID, CONTACT
ADDRESS, COMMUNICATION MEANS and STATUS attributes. As a
special case, it must be possible for the Presence Server
to provide different status values for same COMMUNICATION
ADDRESS or combination of COMMUNICATION ADDRESS and OTHER
PRESENCE MARKUPs.
AUTH-REQ6: Expiry of access rights
It must be possible to grant access rights with an expiry
time to a particular watcher or group.
AUTH-REQ7: Presence authorization policy manipulation alignment
with conferencing
The solution for authorization policy manipulation should
be aligned with other data manipulation operations used
for similar purposes (such as conferencing).
AUTH-REQ8: Authorization of subscriptions generated on behalf
of another user
It must be possible for the Presence Server to authorize
subscriptions to presentityÆs presence information which
are generated on behalf of another user. It should be
possible for the presentity to set authorization rules
taking into account both the identity of the watcher and
the identity of the user on whose behalf the subscription
is made.
3.6 Watcher information requirements
WATCHINF-REQ1: Pending watcher notification
It must be possible for a presentity to be informed of a
pending watcher subscription from a currently unauthorized
and/or unknown watcher.
WATCHINF-REQ2: Watcher information filtering
It must be possible for the presentity to monitor the
watcher status of certain watchers.
Note that there are detailed watcher information filtering
requirements listed in [21].
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WATCHINF-REQ3: Watcher history
It must be possible for the presentity to fetch the list
of the watchers who have accessed (by subscription or
fetch) his presence information during a well-defined time-
period (e.g. last 7 days).
Additionally to the list of watchers, the details of the
presence information provided to different watchers should
be available for the presentity when fetching the watcher
history.
3.7 Presencelist requirements
PRLIST-REQ1: Filtering for presentity collection
It must be possible for the Resource List Server [9] to
construct and store appropriate filtering rules for every
URI in the presencelist based on the watcher's filtering
preferences.
PRLIST-REQ2: Management of presentity collection data element
Requirements for creating a presentity collection, adding
new URIs to an existing presentity collection, modifying
or removing existing URIs from an existing presentity
collection, or deleting a presentity collection are listed
in [10].
4. Security requirements
Presence specifications must not preclude authentication on
behalf of presence entities by other entities within a trust
domain, and communication as defined by RFC 3325 [33].
Security requirements assume requirements that have led to
existing security mechanism described in [18]. Further
security requirements over and above this have not yet been
identified.
5. Charging Requirements
This document refers to the charging requirements of [19], and
does not list any additional charging requirements at this
time.
6. Proposal for next steps
It is proposed that SIMPLE Working Group evaluates the
requirements presented in this document and incorporates the
relevant ones in its current work items. Those requirements
possibly falling out of the scope of the SIMPLE WG should find
a more suitable home, possibly also in other standardization
bodies.
Normative References
1. S. Bradner, "The Internet Standards Process -- Revision 3",
BCP 9, RFC 2026, October 1996.
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2. S. Bradner, "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
Informative References
3. J. Rosenberg, H. Schulzrinne, G. Camarillo, A. Johnston, J.
Peterson, R. Sparks, M. Handley, E. Schooler: "SIP, Session
Initiation Protocol", RFC 3261, June 2002
4. A. Roach, "ession Initiation Protocol (SIP)-Specific Event
Notification", RFC 3265, June 2002
5. M. Day, S. Aggarwal, G. Mohr, J. Vincent "Instant Messaging
/ Presence Protocol Requirements", RFC 2779
6. M. Day, J. Rosenberg, H. Sugano, "A Model for Presence and
Instant Messaging", RFC 2778
7. J. Rosenberg et al., "SIP Extensions for Presence", draft-
ietf-simple-presence-10.txt, January 2003, work in progress
8. H. Sugano, S. Fujimoto, G. Klyne, A. Bateman: "CPIM
Presence Information Data Format", draft-ietf-impp-cpim-pidf-
07.txt, December 2002, work in progress
9. A. Roach, J. Rosenberg, B. Campbell, " A Session Initiation
Protocol (SIP) Event Notification Extension for Collections",
draft-ietf-simple-event-list-00.txt, February 2003, work in
progress
10. J. Rosenberg, M. Isomaki, "Requirements for Manipulation
of Data Elements in SIMPLE Systems", draft-ietf-simple-data-
req-01.txt, February 2003, work in progress
11. J. Rosenberg, "A Session Initiation Protocol (SIP) Event
Template-Package for Watcher Information", draft-ietf-simple-
winfo-package-05.txt, January 2003, work in progress
12. J. Rosenberg, "An Extensible Markup Language (XML) Based
Format for Watcher Information", draft-ietf-simple-winfo-
format-04.txt, January 2003, work in progress
13. S. Olson, "Requirements for Content Indirection in SIP
Messages", draft-ietf-sipping-content-indirect-02.txt,
September 2002, work in progress
14. T. Moran, S. Addagatla, "Requirements for Presence
specific Event Notification Filters", draft-moran-simple-pres-
filter-reqs-00.txt, January 2003, work in progress
15. B. Campbell, S. Olson, J. Peterson, J. Rosenberg, B.
Stucker, "SIMPLE Presence Publication Mechanism", draft-olson-
simple-publish-01, October 2003, work in progress
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16. A. Niemi, "Requirements for Limiting the Rate of Event
Notifications", draft-niemi-sipping-event-throttle-reqs-00,
January 2003, work in progress
17. S. Olson, "A Mechanism for Content Indirection in SIP
Messages", draft-olson-sip-content-indirect-mech-01, August
2002, work in progress
18. J. Arkko, V. Torvinen, G. Camarillo, T. Haukka, S. Sen,
"Security Mechanism Agreement for SIP Sessions", RFC 3329,
January 2003
19. M. Garcia-Martin, "3rd-Generation Partnership Project
(3GPP) Release 5 requirements on the Session Initiation
Protocol (SIP), draft-ietf-sipping-3gpp-r5-requirements-
00.txt, October 2002, work in progress
20. J. Costa-Requena, E. Leppanen, H. Khartabil, M. Lonnfors,
"Partial Notification of Presence Information", draft-
lonnofors-simple-partial-notify-00.txt, January 2003, work in
progress
21. K. Kiss, E. Leppanen, H. Khartabil, "Requirements for
Filtering of Watcher Information", draft-kiss-simple-winfo-
filter-reqs-00.txt, February 2003, work in progress
22. J. Costa-Requena, E. Leppanen, H. Khartabil, M. Lonnfors,
"Event Notification Filtering for Presence", draft-khartabil-
simple-presence-filter-00.txt, January 2003, work in progress
23. B. Campbell, S. Olson, J. Peterson, J. Rosenberg, B.
Stucker, "SIMPLE Presence Publication Requirements", draft-
ietf-simple-publish-reqs-00, February 2003, work in progress
24. 3GPP TS 23.228 "IP Multimedia Subsystem (IMS) (Stage 2) -
Release 5", Version 6.0.1 available at
ftp://ftp.3gpp.org/specs/latest/Rel-5/23_series/
25. 3GPP TS 24.228: "Signaling flows for the IP Multimedia
call control based on SIP and SDP", Version 5.3.0 available at
ftp://ftp.3gpp.org/specs/archive/24_series/24.228/
26. 3GPP TS 24.229: "IP Multimedia Call Control Protocol based
on SIP and SDP, stage 3", Version 5.3.0 available at
ftp://ftp.3gpp.org/specs/archive/24_series/24.229/
27. 3GPP TS 22.141: "Presence Service, Stage 1", Version 5.2.0
available at
ftp://ftp.3gpp.org/specs/archive/22_series/22.141/
28. 3GPP TS 23.141: "Presence Service, Architecture and
Functional Description, Stage 2", Version 6.1.0 available at
ftp://ftp.3gpp.org/specs/archive/23_series/23.141/
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Krisztian Kiss 3GPP Presence Requirements February 2003
29. 3GPP TS 24.841: "Presence service based on Session
Initiation Protocol (SIP); Functional models, information
flows and protocol details", Version 0.5.0 available at
ftp://ftp.3gpp.org/specs/latest-drafts
30. V. Gurbani, K. Kiss, P. Kyzivat, M. Lonnfors, J.
Rosenberg, H. Schulzrinne, "RPIDS -- Rich Presence Information
Data Format for Presence Based on the Session Initiation
Protocol (SIP)", draft-schulzrinne-simple-rpids-02.txt,
February 2003, work in progress
31. R. Price, C. Bormann, J. Christoffersson, H. Hannu, Z.
Liu, J. Rosenberg, "Signaling Compression (SigComp)", RFC
3320, January 2003
32. International Telecommunications Union, "The International
Public Telecommunication Numbering Plan", ITU-T Recommendation
E.164, 1991.
33. C. Jennings, J. Peterson, M. Watson, "Private Extensions
to the Session Initiation Protocol (SIP) for Asserted Identity
within Trusted Networks", RFC 3325, November 2002
Author's address
Krisztian Kiss
Nokia
P.O. Box 100
FIN-33721 Tampere, Finland
Tel: +358 50 4835363
e-mail: krisztian.kiss@nokia.com
Appendix A. Contributors
The author would like to thank the following people for their
interest, support and efforts when writing this Internet-
Draft:
Gabor Bajko (Nokia), Markus Isomaki (Nokia), Mikko
Lonnfors (Nokia), Juha Kalliokulju (Nokia), Eva-Maria
Leppanen (Nokia), Georg Mayer (Nokia), Mark Beckmann
(Siemens), Sonia Garapaty (Nortel), Jayshree Bharatia
(Nortel), Keith Drage (Lucent), Andrew Allen, Kevan Hobbis
(3), Alexandre Harmand (O2), Duncan Mills (Vodafone),
Miguel A. Garcia (Ericsson), Milo Orsic (Lucent), Hugh
Shieh (AWS), Aki Niemi (Nokia).
Although not an official communication of the 3GPP, this
document has been discussed and commented by a number of
delegates in the relevant 3GPP working groups.
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Full Copyright Statement
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Acknowledgement
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