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GEOPRIV                                                   H. Schulzrinne
Internet-Draft                                               Columbia U.
Expires: August 15, 2006                                       J. Morris
                                                                     CDT
                                                           H. Tschofenig
                                                              J. Cuellar
                                                                 Siemens
                                                                 J. Polk
                                                                   Cisco
                                                            J. Rosenberg
                                                           Cisco Systems
                                                       February 11, 2006


          A Document Format for Expressing Privacy Preferences
                draft-ietf-geopriv-common-policy-07.txt

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Copyright Notice

   Copyright (C) The Internet Society (2006).

Abstract




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   This document defines a framework for authorization policies
   controling access to application specific data.  This framework
   combines common location- and presence-specific authorization
   aspects.  An XML schema specifies the language in which common policy
   rules are represented.  The common policy framework can be extended
   to other application domains.













































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Table of Contents

   1.  Introduction . . . . . . . . . . . . . . . . . . . . . . . . .  4
   2.  Terminology  . . . . . . . . . . . . . . . . . . . . . . . . .  6
   3.  Modes of Operation . . . . . . . . . . . . . . . . . . . . . .  7
     3.1.  Passive Request-Response - PS as Server (Responder)  . . .  7
     3.2.  Active Request-Response - PS as Client (Initiator) . . . .  7
     3.3.  Event Notification . . . . . . . . . . . . . . . . . . . .  7
   4.  Goals and Assumptions  . . . . . . . . . . . . . . . . . . . .  9
   5.  Non-Goals  . . . . . . . . . . . . . . . . . . . . . . . . . . 11
   6.  Basic Data Model and Processing  . . . . . . . . . . . . . . . 12
     6.1.  Identification of Rules  . . . . . . . . . . . . . . . . . 13
     6.2.  Extensions . . . . . . . . . . . . . . . . . . . . . . . . 13
   7.  Conditions . . . . . . . . . . . . . . . . . . . . . . . . . . 14
     7.1.  Identity Condition . . . . . . . . . . . . . . . . . . . . 14
       7.1.1.  Overview . . . . . . . . . . . . . . . . . . . . . . . 14
       7.1.2.  Matching One Entity  . . . . . . . . . . . . . . . . . 14
       7.1.3.  Single Entity  . . . . . . . . . . . . . . . . . . . . 15
       7.1.4.  Matching Multiple Entities . . . . . . . . . . . . . . 15
     7.2.  Sphere . . . . . . . . . . . . . . . . . . . . . . . . . . 19
     7.3.  Validity . . . . . . . . . . . . . . . . . . . . . . . . . 20
   8.  Actions  . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
   9.  Transformations  . . . . . . . . . . . . . . . . . . . . . . . 23
   10. Procedure for Combining Permissions  . . . . . . . . . . . . . 24
     10.1. Introduction . . . . . . . . . . . . . . . . . . . . . . . 24
     10.2. Algorithm  . . . . . . . . . . . . . . . . . . . . . . . . 24
     10.3. Example  . . . . . . . . . . . . . . . . . . . . . . . . . 25
   11. Meta Policies  . . . . . . . . . . . . . . . . . . . . . . . . 28
   12. Example  . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
   13. XML Schema Definition  . . . . . . . . . . . . . . . . . . . . 30
   14. Security Considerations  . . . . . . . . . . . . . . . . . . . 33
   15. IANA Considerations  . . . . . . . . . . . . . . . . . . . . . 34
     15.1. Common Policy Namespace Registration . . . . . . . . . . . 34
     15.2. Content-type registration for
           'application/auth-policy+xml'  . . . . . . . . . . . . . . 34
     15.3. Common Policy Schema Registration  . . . . . . . . . . . . 36
   16. References . . . . . . . . . . . . . . . . . . . . . . . . . . 37
     16.1. Normative References . . . . . . . . . . . . . . . . . . . 37
     16.2. Informative References . . . . . . . . . . . . . . . . . . 37
   Appendix A.  Contributors  . . . . . . . . . . . . . . . . . . . . 38
   Appendix B.  Acknowledgments . . . . . . . . . . . . . . . . . . . 39
   Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 40
   Intellectual Property and Copyright Statements . . . . . . . . . . 42








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1.  Introduction

   This document defines a framework for creating authorization policies
   for access to application specific data.  This framework is the
   result of combining the common aspects of single authorization
   systems that more specifically control access to presence and
   location information and that previously had been developed
   separately.  The benefit of combining these two authorization systems
   is two-fold.  First, it allows to build a system which enhances the
   value of presence with location information in a natural way and
   reuses the same underlying authorization mechanism.  Second, it
   encourages a more generic authorization framework with mechanisms for
   extensibility.  The applicability of the framework specified in this
   document is not limited to policies controling access to presence and
   location information data, but can be extended to other application
   domains.

   The general framework defined in this document is intended to be
   accompanied and enhanced by application-specific policies specified
   elsewhere.  The common policy framework described here is enhanced by
   domain-speific policy documents, including presence [6] and
   location[7].  This relationship is shown inFigure 1.

                           +-----------------+
                           |                 |
                           |     Common      |
                           |     Policy      |
                           |                 |
                           +---+---------+---+
                              /|\       /|\
                               |         |
      +-------------------+    |         |    +-------------------+
      |                   |    | enhance |    |                   |
      | Location-specific |    |         |    | Presence-specific |
      |      Policy       |----+         +----|      Policy       |
      |                   |                   |                   |
      +-------------------+                   +-------------------+

   Figure 1: Common Policy Enhancements

   This document starts with an introduction to the terminology in
   Section 2, an illustration of basic modes of operation in Section 3,
   a description of goals (see Section 4) and non-goals (see Section 5)
   of the authorization policy framework, followed by the data model in
   Section 6.  The structure of a rule, namely conditions, actions and
   transformations, are described in Section 7, in Section 8 and in
   Section 9.  The procedure for combining permissions is explained in
   Section 10 and used when more than one rule fires.  A short



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   description of meta policies is given in Section 11.  An example is
   provided in Section 12.  The XML schema will be discussed in
   Section 13.  IANA considerations in Section 15 follow security
   considerations Section 14.















































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2.  Terminology

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT","RECOMMENDED", "MAY", and "OPTIONAL" in this
   document are to be interpreted as described in [1].

   This document introduces the following terms:

   PT - Presentity / Target: The PT is the entity about whom information
      has been requested.

   RM - Rule Maker: RM is an entity which creates the authorization
      rules which restrict access to data items.

   PS - (Authorization) Policy Server: This entity has access to both
      the authorization policies and to the data items.  In location-
      specific applications, the entity PS is labeled as location server
      (LS).

   WR - Watcher / Recipient: This entity requests access to data items
      of the PT.  An access operation might be either be a read, write
      or any other operation.  In case of access to location information
      it might be a read operation.

   An 'authorization policy' is given by a 'rule set'.  A 'rule set'
   contains an unordered list of 'rules'.  A 'rule' has a 'conditions',
   an 'actions' and a 'transformations' part.

   The term 'permission' indicates the action and transformation
   components of a 'rule'.

   The terms 'authorization policy', 'policy' and 'rule set' are used
   interchangeably.

   The terms 'authorization policy rule', 'policy rule' and 'rule' are
   used interchangeable.

   The term 'using protocol' is defined in [8].  It refers to the
   protocol which is used to request access to and to return privacy
   sensitive data items.











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3.  Modes of Operation

   The abstract sequence of operations can roughly be described as
   follows.  The PS receives a query for data items for a particular PT,
   via the using protocol.  The using protocol provides the identity of
   the requestor (or more precisely the authentication protocol), either
   at the time of the query or at the subscription time.  The
   authenticated identity of the WR, together with other information
   provided by the using protocol or generally available to the server,
   is then used for searching through the rule set.  All matching rules
   are combined according to a permission combining algorithm described
   in Section 10.  The combined rules are applied to the application
   data, resulting in the application of privacy based on the
   transformation policies.  The resulting application data is returned
   to the WR.

   Three different modes of operation can be distinguished:

3.1.  Passive Request-Response - PS as Server (Responder)

   In a passive request-response mode, the WR queries the PS for data
   items about the PT.  Examples of protocols following this mode of
   operation include HTTP, FTP, LDAP, finger or various RPC protocols,
   including Sun RPC, DCE, DCOM, Corba and SOAP.  The PS uses the
   ruleset to determine whether the WR is authorized to access the PTs
   information, refusing the request if necessary.  Furthermore, the PS
   might filter information by removing elements or by reducing the
   resolution of elements.

3.2.  Active Request-Response - PS as Client (Initiator)

   Alternatively, the PS may contact the WR and convey data items.
   Examples include HTTP, SIP session setup (INVITE request), H.323
   session setup or SMTP.

3.3.  Event Notification

   Event notification adds a subscription phase to the "PS as client"
   mode of operation.  A watcher or subscriber asks to be added to the
   notification list for a particular presentity or event.  When the
   presentity changes state or the event occurs, the PS sends a message
   to the WR containing the updated state.  (Presence is a special case
   of event notification; thus, we often use the term interchangeably.)

   In addition, the subscriber may itself add a filter to the
   subscription, limiting the rate or content of the notifications.  If
   an event, after filtering by the rulemaker-provided rules and by the
   subscriber-provided rules, only produces the same notification



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   content that was sent previously, no event notification is sent.

   A single PS may authorize access to data items in more than one mode.
   Rather than having different rule sets for different modes all three
   modes are supported with a one rule set schema.  Specific instances
   of the rule set can omit elements that are only applicable to the
   subscription model.












































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4.  Goals and Assumptions

   Below, we summarize our design goals and constraints.

   Table representation:

      Each rule must be representable as a row in a relational database.
      This design goal should allow efficient policy rule implementation
      by utilizing standard database optimization techniques.

   Permit only:

      Rules only provide permissions rather than denying them.  Allowing
      both 'permit' and 'deny' actions would require some rule ordering
      which had implications on the update operations executed on these
      rules.  Additionally it would make distributed rule sets more
      complicated.  Hence, only 'permit' actions are allowed which
      result in more efficient rule processing.  This also implies that
      rule ordering is not important.  Consequently, to make a policy
      decision requires processing all policy rules.

   Additive permissions:

      A query for access to data items is matched against the rules in
      the rule database.  If several rules match, then the overall
      permissions granted to the WR are the union of those permissions.
      A more detailed discussion is provided inSection 10.

   Upgradeable:

      It should be possible to add additional rules later, without
      breaking PSs that have not been upgraded.  Any such upgrades must
      not degrade privacy constraints, but PSs not yet upgraded may
      reveal less information than the rulemaker would have chosen.

   Versioning support:

      In addition to the previous goal, a RM should be able to determine
      which types of rules are supported by the PS.  The mechanism used
      to determine the capability of a PS is outside the scope of this
      specification.

   Protocol-independent:

      The rule set supports constraints on both notifications or queries
      as well as subscriptions for event-based systems such as presence
      systems.




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   No false assurance:

      It appears more dangerous to give the user the impression that the
      system will prevent disclosure automatically, but fail to do so
      with a significant probability of operator error or
      misunderstanding, than to force the user to explicitly invoke
      simpler rules.  For example, rules based on weekday and time-of-
      day ranges seem particularly subject to misinterpretation and
      false assumptions on part of the RM.  (For example, a non-
      technical RM would probably assume that the rules are based on the
      timezone of his current location, which may not be known to other
      components of the system.)







































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5.  Non-Goals

   We explicitly decided that a number of possibly worthwhile
   capabilities are beyond the scope of this first version.  Future
   versions may include these capabilities, using the extension
   mechanism described in this document.  Non-goals include:

   No external references:

      Attributes within specific rules cannot refer to external rule
      sets, databases, directories or other network elements.  Any such
      external reference would make simple database implementation
      difficult and hence they are not supported in this version.

   No regular expression or wildcard matching:

      Conditions are matched on equality or 'greater-than'-style
      comparisons, not regular expressions, partial matches such as the
      SQL LIKE operator (e.g., LIKE "%foo%") or glob-style matches
      ("*@example.com").  Most of these are better expressed as explicit
      elements.

   No all-except conditions:

      It is not possible to express exclusion conditions based on
      identities such as "everybody except Alice".  However, this
      restriction does not prevent all forms of blacklisting.  It is
      still possible to express an authorization rule like 'I allow
      access to my location information for everyone of domain
      example.com except for John'.  See the example in Section 7.1
      describing how exceptions can be made to work.  The reason for
      this choice is the ease with which identities can be manufactured,
      and the implication that all-except types of rules are easily
      subverted.

   No repeat times:

      Repeat times are difficult to make work correctly, due to the
      different time zones that PT, WR, PS and RM may occupy.  It
      appears that suggestions for including time intervals are often
      based on supporting work/non-work distinctions, which
      unfortunately are difficult to capture by time alone.









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6.  Basic Data Model and Processing

   A rule set (or synonymously, a policy) consists of zero or more
   rules.  The ordering of these rules is irrelevant.  The rule set can
   be stored at the PS and conveyed from RM to PS as a single document,
   in subsets or as individual rules.  A rule consists of three parts -
   conditions (see Section 7), actions (see Section 8), and
   transformations (see Section 9).

   The conditions part is a set of expressions, each of which evaluates
   to either TRUE or FALSE, i.e. each of which is equipped with a value
   of either TRUE or FALSE by the PS.  When a WR asks for information
   about a PT, the PS goes through each rule in the rule set.  For each
   rule, it evaluates the expressions in the conditions part.  If all of
   the expressions evaluate to TRUE, then the rule is applicable to this
   request.  Generally, each expression specifies a condition based on
   some variable that is associated with the context of the request.
   These variables can include the identity of the WR, the domain of the
   WR, the time of day, or even external variables, such as the
   temperature or the mood of the PT.

   Assuming that the rule is applicable to the request, the actions and
   transformations (commonly referred to as permissions) in the rule
   specify how the PS is supposed to handle this request.  If the
   request is to view the location of the PT, or to view its presence,
   the typical action is "permit", which allows the request to proceed.

   Assuming the action allows the request to proceed, the
   transformations part of the rule specifies how the information about
   the PT - their location information, their presence, etc. - is
   modified before being presented to the WR.  These transformations are
   in the form of positive permissions.  That is, they always specify a
   piece of information which is allowed to be seen by the WR.  When a
   PS processes a request, it takes the transformations specified across
   all rules that match, and creates the union of them.  For computing
   this union the data type, such as Integer, Boolean, Set, or the Undef
   data type, plays a role.  The details of the algorithm for combining
   permissions is described in Section 10.  The resulting union
   effectively represents a "mask" - it defines what information is
   exposed to the WR.  This mask is applied to the actual location or
   presence data for the PT, and the data which is permitted by the mask
   is shown to the WR.  If the WR request a subset of information only
   (such as city-level civil location data only, instead of the full
   civil location information), the information delivered to the WR
   SHOULD be the intersection of the permissions granted to the WR and
   the data requested by the WR.

   In accordance to this document, rules are encoded in XML.  To this



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   end, Section 13 contains an XML schema defining the Common Policy
   Markup Language.  This, however, is purely an exchange format between
   RM and PS.  The format does not imply that the RM or the PS use this
   format internally, e.g., in matching a query with the policy rules.
   The rules are designed so that a PS can translate the rules into a
   relational database table, with each rule represented by one row in
   the database.  The database representation is by no means mandatory;
   we will use it as a convenient and widely-understood example of an
   internal representation.  The database model has the advantage that
   operations on rows have tightly defined meanings.  In addition, it
   appears plausible that larger-scale implementations will employ a
   backend database to store and query rules, as they can then benefit
   from existing optimized indexing, access control, scaling and
   integrity constraint mechanisms.  Smaller-scale implementations may
   well choose different implementations, e.g., a simple traversal of
   the set of rules.

6.1.  Identification of Rules

   Each rule is equipped with a parameter that identifies the rule.
   This rule identifier is an opaque token chosen by the RM.  A RM MUST
   NOT use the same identifier for two rules that are available to the
   PS at the same time for a given PT.

6.2.  Extensions

   The authorization policy framework defined in this document is meant
   to be extensible towards specific application domains.  Such an
   extension is accomplished by defining conditions, actions and
   transformations that are specific to the desired application domain.
   Each extension MUST define its own namespace.

   Extensions cannot change the schema defined in this document, and
   this schema is not expected to change excepting a revision to this
   specification, and that no versioning procedures for this schema or
   namespace are therfore provided.















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7.  Conditions

   The access to data items needs to be matched with the rule set stored
   at the PS.  Each instance of a request has different attributes
   (e.g., the identity of the requestor) which are used for
   authorization.  A rule in a rule set might have a number of
   conditions which need to be met before executing the remaining parts
   of a rule (i.e., actions and transformations).  Details about rule
   matching are described in Section 10.  This document specifies only a
   few conditions (namely identity, sphere, and validity).  Other
   conditions are left for extensions of this document.

7.1.  Identity Condition

7.1.1.  Overview

   The identity condition restricts matching of a rule either to a
   single entity or a group of entitites.  Only authenticated entities
   can be matched; acceptable means of authentication are defined in
   protocol-specific documents.  As usual, if the <identity> element is
   (or all its child elements are) omitted, identities are not
   considered and, thus, the condition matches any user, authenticated
   or not.

   The <identity> condition is considered TRUE if any of its child
   elements (i.e., the <one/> and the <many/> elements as defined in
   this document) evaluate to TRUE, i.e., the results of the individual
   child element are combined using a logical OR.

7.1.2.  Matching One Entity

   The <one> element matches the authenticated identity (as contained in
   the 'id' attribute) of exactly one entity or user.  For
   considerations regarding the 'id' attribute refer to Section 7.1.3.

   An example is shown below:















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   <?xml version="1.0" encoding="UTF-8"?>
   <ruleset xmlns="urn:ietf:params:xml:ns:common-policy">

       <rule id="f3g44r1">
           <conditions>
               <identity>
                   <one id="sip:alice@example.com"/>
                   <one id="tel:+1-212-555-1234" />
                   <one id="mailto:bob@example.net" />
               </identity>
           </conditions>
           <actions/>
           <transformations/>
       </rule>

   </ruleset>

   This example matches if the authenticated identity of the WR is
   either sip:alice@example.com, tel:+1-212-555-1234 or
   mailto:bob@example.net.

7.1.3.  Single Entity

   The 'id' attribute used in the <one> and in the <except> element
   refers to a single entity.  In the subsequent text we use the term
   'single-user' element as a placeholder for the <one> and the <except>
   element.

   The <single-user> element matches the authenticated identity (as
   contained in the 'id' attribute) of exactly one entity or user.  The
   <single-user> element MUST NOT contain a 'domain' attribute.

   The 'id' attribute contains an identity that MUST first be expressed
   as a URI.  Applications using this framework must describe how the
   identities they are using can be expressed as a URIs.

7.1.4.  Matching Multiple Entities

   The <many> element is a mechanism to perform authorization decisions
   based on the domain part of the authenticated identity.  As such, it
   allows to match a large and possibly unknown number of users within a
   domain.

   Furthermore, it is possible to include one or multiple <except>
   elements to exclude either individual users or users belonging to a
   specific domain.  Excluding individual entities is implemented using
   a <except id="..."/> statement.  The semantic of the 'id' attribute
   of the <except> element has the same meaning as the 'id' attribute of



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   the <one> element (see Section 7.1.3).  Excluding users belonging to
   a specific domain is implemented using the <except domain="..."/>
   element that excludes any user from the indicated domain.

   If multiple <except> elements are listed as child elements of the
   <many> element then the result of each <except> element is combined
   using a logical OR.

   Common policy MUST either use UTF-8 or UTF-16 to store domain names
   in the 'domain' attribute.  For non-IDNs, lower-case ASCII SHOULD be
   used.  For the comparison operation between the value stored in the
   'domain' attribute and the domain value provided via the using
   protocol (referred as "protocol domain identifier") the following
   rules are applicable:

   1.  If the values of the 'domain' attribute and the value of the
       protocol domain identifier does not begin with xn--, attempt a
       string comparison.  If the string comparison indicates equality,
       the comparison succeeds and the remaining steps are skipped.

   2.  Translate percent-encoding for either string and repeat (1).

   3.  Convert both domain strings using the toASCII operation described
       in RFC 3490 [2].  (Naturally, if one of the strings already
       begins with the ACE prefix xn--, the conversion operation has
       already been performed.)

   4.  Compare the two domain strings for ASCII equality, for each
       label.

   If the conversion fails in step (3), the domains are not equal.

7.1.4.1.  Matching Any Authenticated Entity

   The <many/> element without any child elements or attributes matches
   any authenticated user.

   The following example shows such a rule that matches any
   authenticated user:












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   <?xml version="1.0" encoding="UTF-8"?>
   <ruleset xmlns="urn:ietf:params:xml:ns:common-policy">

       <rule id="f3g44r5">
           <conditions>
               <identity>
                 <many/>
               </identity>
           </conditions>
           <actions/>
           <transformations/>
       </rule>

   </ruleset>

   The following rule, in comparison, would match any user,
   authenticated and unauthenticated:

   <?xml version="1.0" encoding="UTF-8"?>
   <ruleset xmlns="urn:ietf:params:xml:ns:common-policy">

       <rule id="f3g44r5">
           <conditions>
             <identity/>
           </conditions>
           <actions/>
           <transformations/>
       </rule>

   </ruleset>

7.1.4.2.  Matching Any Identity Excepting Enumerated Domains and
          Identities

   The <many> element enclosing one or more <except domain="..."/>
   elements matches any user from any domain except those enumerated.
   The <except id="..."/> element excludes particular users.  The
   semantic of the 'id' attribute of the <except> element is described
   in Section 7.1.3.  The results of the child elements of the <many>
   element are combined using a logical OR.

   An example is shown below:









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   <?xml version="1.0" encoding="UTF-8"?>
   <ruleset xmlns="urn:ietf:params:xml:ns:common-policy">

       <rule id="f3g44r1">
           <conditions>
               <sphere value="work"/>
               <identity>
                   <many>
                       <except domain="example.com"/>
                       <except domain="example.org"/>
                       <except id="sip:alice@bad.example.net"/>
                       <except id="sip:bob@good.example.net"/>
                       <except id="tel:+1-212-555-1234" />
                       <except id="sip:alice@example.com"/>
                   </many>
               </identity>
               <validity>
                   <from>2003-12-24T17:00:00+01:00</from>
                   <until>2003-12-24T19:00:00+01:00</until>
               </validity>
           </conditions>
           <actions/>
           <transformations/>
       </rule>

   </ruleset>

   This example matches all users except any user in example.com, or any
   user in example.org or the particular users alice@bad.example.net,
   bob@good.example.net and the user with the telephone number
   'tel:+1-212-555-1234'.  The last 'except' element is redundant since
   alice@example.com is already excluded through the first line.

7.1.4.3.  Matching Any Identity Within a Domain Excepting Enumerated
          Identities

   The <many> element with a 'domain' attribute and zero or more <except
   id="..."/> elements matches any authenticated user from the indicated
   domain except those explicitly enumerated.  The semantic of the 'id'
   attribute of the <except> element is described in Section 7.1.3.

   An example is shown below:









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   <?xml version="1.0" encoding="UTF-8"?>
   <ruleset xmlns="urn:ietf:params:xml:ns:common-policy">

       <rule id="f3g44r1">
           <conditions>
               <identity>
                   <many domain="example.com">
                       <except id="sip:alice@example.com"/>
                       <except id="sip:bob@example.com"/>
                   </many>
               </identity>
           </conditions>
           <actions/>
           <transformations/>
       </rule>

   </ruleset>

   This example matches any user within example.com (such as
   carol@example.com) except alice@example and bob@example.com.

7.2.  Sphere

   The <sphere> element belongs to the group of condition elements.  It
   can be used to indicate a state (e.g., 'work', 'home', 'meeting',
   'travel') the PT is currently in.  A sphere condition matches only if
   the PT is currently in the state indicated.  The state may be
   conveyed by manual configuration or by some protocol.  For example,
   RPID [9] provides the ability to inform the PS of its current sphere.
   The application domain needs to describe in more detail how the
   sphere state is determined.  Switching from one sphere to another
   causes to switch between different modes of visibility.  As a result
   different subsets of rules might be applicable.

   The content of the 'value' attribute of the <sphere> element MAY
   contain more than one token.  The individual tokens MUST be separated
   by a blank character.  A logical OR is used for the matching the
   tokens against the sphere settings of the PT.  As an example, if the
   the content of the 'value' attribute in the sphere attribute contains
   two tokens 'work' and 'home' then this part of the rule matches if
   the sphere for a particular PT is either 'work' OR 'home'.  To
   compare the content of the 'value' attribute in the <sphere> element
   with the stored state information about the PT's sphere setting a
   string comparison MUST be used for each individual token.  There is
   no registry for these values nor a language specific indication of
   the sphere content.  As such, the tokens are treated as opaque
   strings.




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   <?xml version="1.0" encoding="UTF-8"?>
   <ruleset xmlns="urn:ietf:params:xml:ns:common-policy">


     <rule id="f3g44r2">
       <conditions>
         <sphere value="work"/>
         <identity>
           <one id="sip:andrew@example.com"/>
         </identity>
       </conditions>
       <actions/>
       <transformations/>
     </rule>

     <rule id="y6y55r2">
       <conditions>
         <sphere value="home"/>
         <identity>
           <one id="sip:allison@example.com"/>
         </identity>
       </conditions>
       <actions/>
       <transformations/>
     </rule>

     <rule id="z6y55r2">
       <conditions>
         <identity>
              <one id="sip:john@doe.com"/>
         </identity>
         <sphere value="home work"/>
       </conditions>
       <actions/>
       <transformations/>
     </rule>
   </ruleset>

   The rule example above illustrates that the rule with the entity
   andrew@example.com matches if the sphere is been set to 'work'.  In
   the second rule with the entity allison@example.com matches if the
   sphere is set to 'home'.

7.3.  Validity

   The <validity> element is the third condition element specified in
   this document.  It expresses the rule validity period by two
   attributes, a starting and a ending time.  The validity condition is



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   TRUE if the current time is greater than or equal to at least one
   <from> child, but less than the <until> child after it.  This
   represents a logical OR operation across each <from> and <until>
   pair.  Times are expressed in XML dateTime format.  A rule maker
   might not have always access to the PS to invalidate some rules which
   grant permissions.  Hence this mechanisms allows to invalidate
   granted permissions automatically without further interaction between
   the rule maker and the PS.  The PS does not remove the rules instead
   the rule maker has to clean them up.

   An example of a rule fragment is shown below:


   <?xml version="1.0" encoding="UTF-8"?>
   <ruleset xmlns="urn:ietf:params:xml:ns:common-policy">

     <rule id="f3g44r3">
       <conditions>
           <validity>
               <from>2003-08-15T10:20:00.000-05:00</from>
               <until>2003-09-15T10:20:00.000-05:00</until>
           </validity>
       </conditions>
       <actions/>
       <transformations/>
     </rule>
   </ruleset>

   The <validity> element MUST have the <from> and <until> subelements
   in pairs.  Multiple <from> and <until> elements might appear in pairs
   (i.e., without nesting of <from> and <until> elements).  Using
   multiple <validity> elements as subelements of the <conditions>
   element is not useful since all subelements of the <conditions>
   element are combined as a logical AND.

















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8.  Actions

   While conditions are the 'if'-part of rules, actions and
   transformations build the 'then'-part of them.  The actions and
   transformations parts of a rule determine which operations the PS
   MUST execute after having received from a WR a data access request
   that matches all conditions of this rule.  Actions and
   transformations only permit certain operations; there is no 'deny'
   functionality.  Transformations exclusively specify PS-side
   operations that lead to a modification of the data items requested by
   the WR.  Regarding location data items, for instance, a
   transformation could force the PS to lower the precision of the
   location information which is returned to the WR.

   Actions, on the other hand, specify all remaining types of operations
   the PS is obliged to execute, i.e., all operations that are not of
   transformation type.  Actions are defined by application specific
   usages of this framework.  The reader is referred to the
   corresponding extensions to see examples of such elements.
































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9.  Transformations

   Two sub-parts follow the conditions part of a rule: transformations
   and actions.  As defined in Section 8, transformations specify
   operations that the PS MUST execute and that modify the result which
   is returned to the WR.  This functionality is particularly helpful in
   reducing the granularity of information provided to the WR, as for
   example required for location privacy.  Transformations are defined
   by application specific usages of this framework.

   A simple transformation example is provided in Section 10.








































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10.  Procedure for Combining Permissions

10.1.  Introduction

   This section describes the mechanism to evaluate the final result of
   a rule evaluation.  The result is reflected in the action and
   transformation part of a rule.  This procedure is sometimes referred
   as conflict resolution.

   We use the following terminology (which in parts has already been
   introduced in previous sections): The term 'permission' stands for an
   action or a transformation.  The notion 'attribute' terms a
   condition, an action, or a transformation.  An attribute has a name,
   has a certain data type.  A value may be assigned to an attribute or
   it may be undefined, in case it does not have a value associated with
   the attribute.  For example, the name of the <sphere> attribute
   discussed in Section 7 is 'sphere', its data type is 'string', and
   its value may be set to 'home'.  To evaluate a condition means to
   associate either TRUE or FALSE to the condition.  Please note that
   the <identity> element is a condition whereas the <id> element is a
   parameter of that condition.  A rule matches if all conditions
   contained in the conditions part of a rule evaluate to TRUE.

   When the PS receives a request for access to privacy-sensitive data
   then it needs to be matched against a rule set.  The conditions part
   of each individual rule is evaluated and as a result one or more
   rules might match.  If only a single rule matches then the result is
   determined by executing the actions and the transformations part
   following the conditions part of a rule.  However, it can also be the
   case that two or more matching rules contain a permission of the same
   name (e.g., two rules contain a permission named 'precision of
   geospatial location information'), but do not specify the same value
   for that permission (e.g., the two rule might specify values of '10
   km' and '200 km', respectively, for the permission named 'precision
   of geospatial location information').  This section describes the
   procedure for combining permissions in such cases.

10.2.  Algorithm

   The combining rules are simple and depend on the data types of the
   values of permissions: Let P be a policy.  Let M be the subset of P
   consisting of rules r in P that match with respect to a given
   request.  Let n be a name of a permission contained in a rule r in M,
   and let M(n) be the subset of M consisting of rules r in M that have
   a permission of name n.  For each rule r in M(n), let v(r,n) and
   d(r,n) be the value and the data type, respectively, of the attribute
   of r with name n.  Finally, let V(n) be the combined value of all the
   permissions values v(r,n), r in M(n).  The combining rules that lead



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   to the resulting value V(n) are the following:

   CR 1: If d(r,n)=Boolean for all r in M(n), then V(n) is given as
   follows: If there is a r in M(n) with v(r,n)=TRUE, then V(n)=TRUE.
      Otherwise, V(n)=FALSE.

   CR 2: If d(r,n)=Integer for all r in M(n), then V(n) is given as
   follows: If v(r,n)=undefined for all r in M(n), then V(n) is not
      specified by this specification.  Otherwise, V(n)=max{v(r,n) | r
      in M(n)}.

   CR 3: If d(r,n)=Set for all r in M(n), then V(n) is given as
   follows: V(n)=union of all v(r,n), the union to be computed over all
      r in M(n) with v(r,n)!=undefined.

   The combining operation will result in the largest value for an
   Integral type, the Or operation for boolean, and union for set.

   As a result, applications should define values such that, for
   integers, the lowest value corresponds to the most privacy, for
   booleans, false corresponds to the most privacy, and for sets, the
   empty set corresponds to the most privacy.  More

10.3.  Example

   In the following example we illustrate the process of combining
   permissions.  We will consider three conditions for our purpose,
   namely those of name identity, sphere, and validity.  For editorial
   reasons the rule set in this example is represented in a table.
   Furthermore, the domain part of the identity of the WR is omitted.
   For actions we use two permissions with names X and Y. The values of
   X and Y are of data types Boolean and Integer, respectively.
   Permission X might, for example, represent the <sub-handling> action.
   For transformations we use the attribute with the name Z whose value
   can be set either to '+'(or 1), 'o' (or 2) or '-' (or 3).  Permission
   Z allows us to show the granularity reduction whereby a value of '+'
   shows the corresponding information unrestricted and '-' shows
   nothing.  This permission might be related to location information or
   other presence attributes like mood.  Internally we use the data type
   Integer for computing the permission of this attribute.











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         Conditions                  Actions/Transformations
     +---------------------------------+---------------------+
     | Id  WR-ID    sphere  from until |  X       Y     Z    |
     +---------------------------------+---------------------+
     |  1   bob      home    A1    A2  |  TRUE    10    o    |
     |  2   alice    work    A1    A2  |  FALSE   5     +    |
     |  3   bob      work    A1    A2  |  TRUE    3     -    |
     |  4   tom      work    A1    A2  |  TRUE    5     +    |
     |  5   bob      work    A1    A3  |  undef   12    o    |
     |  6   bob      work    B1    B2  |  FALSE   10    -    |
     +---------------------------------+---------------------+

   Again for editorial reasons, we use the following abbreviations for
   the two <validity> attributes 'from' and 'until':


     A1=2003-12-24T17:00:00+01:00
     A2=2003-12-24T21:00:00+01:00
     A3=2003-12-24T23:30:00+01:00
     B1=2003-12-22T17:00:00+01:00
     B2=2003-12-23T17:00:00+01:00

   Note that B1 < B2 < A1 < A2 < A3.

   The entity 'bob' acts as a WR and requests data items.  The policy P
   consists of the six rules shown in the table and identified by the
   values 1 to 6 in the 'Id' column.  The PS receives the query at 2003-
   12-24T17:15:00+01:00 which falls between A1 and A2.  The value of the
   attribute with name 'sphere' indicating the state the PT is currently
   in is set to 'work'.

   Rule 1 does not match since the sphere condition does not match.
   Rule 2 does not match as the identity of the WR (here 'alice') does
   not equal 'bob'.  Rule 3 matches since all conditions evaluate to
   TRUE.  Rule 4 does not match as the identity of the WR (here 'tom')
   does not equal 'bob'.  Rule 5 matches.  Rule 6 does not match since
   the rule is not valid anymore.  Therefore, the set M of matching
   rules consists of the rules 3 and 5.  These two rules are used to
   compute the combined permission V(X), V(Y), and V(Z) for each of the
   permissions X, Y, and Z:


             Actions/Transformations
     +-----+-----------------------+
     | Id  |  X       Y      Z     |
     +-----+-----------------------+
     |  3  |  TRUE     3     -     |
     |  5  |  undef   12     o     |



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     +-----+-----------------------+

   The results of the permission combining algorithm is shown below.
   The combined value V(X) regarding the permission with name X equals
   TRUE according to the first combining rule listed above.  The maximum
   of 3 and 12 is 12, so that V(Y)=12.  For the attribute Z in this
   example the maximum between 'o' and '-' (i.e., between 2 and 3) is
   '-'.


             Actions/Transformations
     +-----+-----------------------+
     | Id  |  X       Y      Z     |
     +-----+-----------------------+
     |  5  |  TRUE    12     -     |
     +-----+-----------------------+



































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11.  Meta Policies

   Meta policies authorize a rulemaker to insert, update or delete a
   particular rule or an entire rule set.  Some authorization policies
   are required to prevent unauthorized modification of rule sets.  Meta
   policies are outside the scope of this document.

   A simple implementation could restrict access to the rule set only to
   the PT but more sophisticated mechanisms could be useful.  As an
   example of such policies one could think of parents configuring the
   policies for their children.








































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12.  Example

   This section gives an example of an XML document valid with respect
   to the XML schema defined in Section 13.  Semantically richer
   examples can be found in documents which extend this schema with
   application domain specific data (e.g., location or presence
   information).

   Below a rule is shown with a condition that matches for a given
   authenticated identity (bob@example.com) and within a given time
   period.  Additionally, the rule matches only if the target has set
   its sphere to 'work'.


   <?xml version="1.0" encoding="UTF-8"?>
   <ruleset xmlns="urn:ietf:params:xml:ns:common-policy">

       <rule id="f3g44r1">
           <conditions>
               <identity>
                   <one id="sip:bob@example.com"/>
               </identity>
               <sphere value="work"/>
               <validity>
                   <from>2003-12-24T17:00:00+01:00</from>
                   <until>2003-12-24T19:00:00+01:00</until>
               </validity>
           </conditions>
           <actions/>
           <transformations/>
       </rule>
   </ruleset>



















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13.  XML Schema Definition

   This section provides the XML schema definition for the common policy
   markup language described in this document.


   <?xml version="1.0" encoding="UTF-8"?>
   <xs:schema targetNamespace="urn:ietf:params:xml:ns:common-policy"
       xmlns:cp="urn:ietf:params:xml:ns:common-policy"
       xmlns:xs="http://www.w3.org/2001/XMLSchema"
       elementFormDefault="qualified" attributeFormDefault="unqualified">
       <!-- /ruleset -->
       <xs:element name="ruleset">
           <xs:complexType>
               <xs:complexContent>
                   <xs:restriction base="xs:anyType">
                       <xs:sequence>
                           <xs:element name="rule" type="cp:ruleType"
                           minOccurs="0" maxOccurs="unbounded"/>
                       </xs:sequence>
                   </xs:restriction>
               </xs:complexContent>
           </xs:complexType>
       </xs:element>
       <!-- /ruleset/rule -->
       <xs:complexType name="ruleType">
           <xs:complexContent>
               <xs:restriction base="xs:anyType">
                   <xs:sequence>
                       <xs:element name="conditions"
                       type="cp:conditionsType" minOccurs="0"/>
                       <xs:element name="actions"
                       type="cp:extensibleType" minOccurs="0"/>
                       <xs:element name="transformations"
                       type="cp:extensibleType" minOccurs="0"/>
                   </xs:sequence>
                   <xs:attribute name="id" type="xs:ID" use="required"/>
               </xs:restriction>
           </xs:complexContent>
       </xs:complexType>
       <!-- //rule/conditions -->
       <xs:complexType name="conditionsType">
           <xs:complexContent>
               <xs:restriction base="xs:anyType">
                   <xs:choice maxOccurs="unbounded">
                       <xs:element name="identity"
                       type="cp:identityType" minOccurs="0"/>
                       <xs:element name="sphere"



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                       type="cp:sphereType" minOccurs="0"/>
                       <xs:element name="validity"
                       type="cp:validityType" minOccurs="0"/>
                       <xs:any namespace="##other" processContents="lax"
                       minOccurs="0" maxOccurs="unbounded"/>
                   </xs:choice>
               </xs:restriction>
           </xs:complexContent>
       </xs:complexType>
       <!-- //conditions/identity -->
       <xs:complexType name="identityType">
           <xs:complexContent>
               <xs:restriction base="xs:anyType">
                   <xs:choice  minOccurs="0" maxOccurs="unbounded">
                       <xs:element name="one" type="cp:oneType"/>
                       <xs:element name="many" type="cp:manyType"/>
                   </xs:choice>
               </xs:restriction>
           </xs:complexContent>
       </xs:complexType>
       <!-- //identity/one -->
       <xs:complexType name="oneType">
           <xs:complexContent>
               <xs:restriction base="xs:anyType">
                   <xs:sequence>
                       <xs:any namespace="##other"
                       minOccurs="0" processContents="lax"/>
                   </xs:sequence>
                   <xs:attribute name="id"
                   type="xs:anyURI" use="required"/>
               </xs:restriction>
           </xs:complexContent>
       </xs:complexType>
       <!-- //identity/many -->
       <xs:complexType name="manyType">
           <xs:complexContent>
               <xs:restriction base="xs:anyType">
                   <xs:choice minOccurs="0" maxOccurs="unbounded">
                       <xs:element name="except" type="cp:exceptType"/>
                       <xs:any namespace="##other"
                       minOccurs="0" processContents="lax"/>
                   </xs:choice>
                   <xs:attribute name="domain"
                   use="optional" type="xs:string"/>
               </xs:restriction>
           </xs:complexContent>
       </xs:complexType>
       <!-- //many/except -->



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       <xs:complexType name="exceptType">
           <xs:attribute name="domain" type="xs:string" use="optional"/>
           <xs:attribute name="id" type="xs:anyURI" use="optional"/>
       </xs:complexType>
       <!-- //conditions/sphere -->
       <xs:complexType name="sphereType">
           <xs:complexContent>
               <xs:restriction base="xs:anyType">
                   <xs:attribute name="value"
                   type="xs:string" use="required"/>
               </xs:restriction>
           </xs:complexContent>
       </xs:complexType>
       <!-- //conditions/validity -->
       <xs:complexType name="validityType">
           <xs:complexContent>
               <xs:restriction base="xs:anyType">
                   <xs:sequence minOccurs="0" maxOccurs="unbounded">
                       <xs:element name="from" type="xs:dateTime"/>
                       <xs:element name="until" type="xs:dateTime"/>
                   </xs:sequence>
               </xs:restriction>
           </xs:complexContent>
       </xs:complexType>
       <!-- //rule/actions or //rule/transformations -->
       <xs:complexType name="extensibleType">
           <xs:complexContent>
               <xs:restriction base="xs:anyType">
                   <xs:sequence>
                       <xs:any namespace="##other"
                       processContents="lax" minOccurs="0" maxOccurs="unbounded"/>
                   </xs:sequence>
               </xs:restriction>
           </xs:complexContent>
       </xs:complexType>
   </xs:schema>















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14.  Security Considerations

   This document describes a framework for authorization policy rules.
   This framework is intended to be enhanced elsewhere towards
   application domain specific data.  Security considerations are to a
   great extent application data dependent, and therefore need to be
   covered by documents that extend the framework defined in this
   specification.  However, new action and transformation permissions
   along with their allowed values must be defined in a way so that the
   usage of the permissions combining rules of Section 10 does not lower
   the level of privacy protection.  See Section 10 for more details on
   this privacy issue.







































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15.  IANA Considerations

   This section registers a new XML namespace, a new XML schema and a
   new MIME-type.  This section registers a new XML namespace per the
   procedures in [3].

15.1.  Common Policy Namespace Registration

   URI: urn:ietf:params:xml:ns:common-policy

   Registrant Contact: IETF Geopriv Working Group, Henning Schulzrinne
      (hgs+geopriv@cs.columbia.edu).

   XML:

   BEGIN
   <?xml version="1.0"?>
   <!DOCTYPE html PUBLIC "-//W3C//DTD XHTML Basic 1.0//EN"
     "http://www.w3.org/TR/xhtml-basic/xhtml-basic10.dtd">
   <html xmlns="http://www.w3.org/1999/xhtml">
   <head>
     <meta http-equiv="content-type"
           content="text/html;charset=iso-8859-1"/>
     <title>Common Policy Namespace</title>
   </head>
   <body>
     <h1>Namespace for Common Authorization Policies</h1>
     <h2>urn:ietf:params:xml:ns:common-policy</h2>
   <p>See <a href="[URL of published RFC]">RFCXXXX
       [NOTE TO IANA/RFC-EDITOR:
        Please replace XXXX with the RFC number of this
       specification.]</a>.</p>
   </body>
   </html>
   END

15.2.  Content-type registration for 'application/auth-policy+xml'

   This specification requests the registration of a new MIME type
   according to the procedures of RFC 2048 [4] and guidelines in RFC
   3023 [5].

   MIME media type name: application








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   MIME subtype name: auth-policy+xml


   Mandatory parameters: none


   Optional parameters: charset

      Indicates the character encoding of enclosed XML.  Default is
      UTF-8.


   Encoding considerations:

      Uses XML, which can employ 8-bit characters, depending on the
      character encoding used.  See RFC 3023 [5], Section 3.2.


   Security considerations:

      This content type is designed to carry authorization policies.
      Appropriate precautions should be adopted to limit disclosure of
      this information.  Please refer to RFCXXXX [NOTE TO IANA/
      RFC-EDITOR: Please replace XXXX with the RFC number of this
      specification.] security considerations section for more
      information.


   Interoperability considerations: none


   Published specification: RFCXXXX [NOTE TO IANA/RFC-EDITOR: Please
      replace XXXX with the RFC number of this specification.] this
      document


   Applications which use this media type:

      Presence- and location-based systems


   Additional information:

      Magic Number: None







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      File Extension: .xml


      Macintosh file type code: 'TEXT'


   Personal and email address for further information: Hannes
      Tschofenig, Hannes.Tschofenig@siemens.com


   Intended usage: LIMITED USE


   Author/Change controller:

      This specification is a work item of the IETF GEOPRIV working
      group, with mailing list address <geopriv@ietf.org>.

15.3.  Common Policy Schema Registration

   URI: urn:ietf:params:xml:schema:common-policy

   Registrant Contact: IETF Geopriv Working Group, Henning Schulzrinne
      (hgs+geopriv@cs.columbia.edu).

   XML: The XML schema to be registered is contained in Section 13.  Its
      first line is

   <?xml version="1.0" encoding="UTF-8"?>

      and its last line is

   </xs:schema>


















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16.  References

16.1.  Normative References

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

   [2]  Faltstrom, P., Hoffman, P., and A. Costello, "Internationalizing
        Domain Names in Applications (IDNA)", RFC 3490, March 2003.

   [3]  Mealling, M., "The IETF XML Registry", BCP 81, RFC 3688,
        January 2004.

   [4]  Freed, N., Klensin, J., and J. Postel, "Multipurpose Internet
        Mail Extensions (MIME) Part Four: Registration Procedures",
        BCP 13, RFC 2048, November 1996.

   [5]  Murata, M., St. Laurent, S., and D. Kohn, "XML Media Types",
        RFC 3023, January 2001.

16.2.  Informative References

   [6]   Rosenberg, J., "Presence Authorization Rules",
         draft-ietf-simple-presence-rules-04 (work in progress),
         October 2005.

   [7]   Schulzrinne, H., "A Document Format for Expressing Privacy
         Preferences for Location  Information",
         draft-ietf-geopriv-policy-07 (work in progress), October 2005.

   [8]   Cuellar, J., Morris, J., Mulligan, D., Peterson, J., and J.
         Polk, "Geopriv Requirements", RFC 3693, February 2004.

   [9]   Schulzrinne, H., "RPID: Rich Presence Extensions to the
         Presence Information Data Format  (PIDF)",
         draft-ietf-simple-rpid-10 (work in progress), December 2005.

   [10]  Jennings, C., Peterson, J., and M. Watson, "Private Extensions
         to the Session Initiation Protocol (SIP) for Asserted Identity
         within Trusted Networks", RFC 3325, November 2002.











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Appendix A.  Contributors

   We would like to thank Christian Guenther for his help with initial
   versions of this document.















































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Appendix B.  Acknowledgments

   This document is partially based on the discussions within the IETF
   GEOPRIV working group.  Discussions at the Geopriv Interim Meeting
   2003 in Washington, D.C., helped the working group to make progress
   on the authorization policies based on the discussions among the
   participants.

   We particularly want to thank Allison Mankin <mankin@psg.com>,
   Randall Gellens <rg+ietf@qualcomm.com>, Andrew Newton
   <anewton@ecotroph.net>, Ted Hardie <hardie@qualcomm.com>, Jon
   Peterson <jon.peterson@neustar.biz> for discussing a number of
   details with us.  They helped us to improve the quality of this
   document.  Allison, Ted and Andrew helped us to make good progress
   with the internationalization support of the identifier/domain
   attributes.

   Furthermore, we would like to thank the IETF SIMPLE working group for
   their discussions of J. Rosenberg's draft on presence authorization
   policies.  We would also like to thank Stefan Berg, Murugaraj
   Shanmugam, Christian Schmidt, Martin Thomson, Markus Isomaki, Aki
   Niemi and Eva Maria Leppanen for their comments.  Martin Thomson
   helped us with the XML schema.




























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Authors' Addresses

   Henning Schulzrinne
   Columbia University
   Department of Computer Science
   450 Computer Science Building
   New York, NY  10027
   USA

   Phone: +1 212 939 7042
   Email: schulzrinne@cs.columbia.edu
   URI:   http://www.cs.columbia.edu/~hgs


   John B. Morris, Jr.
   Center for Democracy and Technology
   1634 I Street NW, Suite 1100
   Washington, DC  20006
   USA

   Email: jmorris@cdt.org
   URI:   http://www.cdt.org


   Hannes Tschofenig
   Siemens
   Otto-Hahn-Ring 6
   Munich, Bavaria  81739
   Germany

   Email: Hannes.Tschofenig@siemens.com
   URI:   http://www.tschofenig.com


   Jorge R. Cuellar
   Siemens
   Otto-Hahn-Ring 6
   Munich, Bavaria  81739
   Germany

   Email: Jorge.Cuellar@siemens.com










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   James Polk
   Cisco
   2200 East President George Bush Turnpike
   Richardson, Texas  75082
   USA

   Email: jmpolk@cisco.com


   Jonathan Rosenberg
   Cisco Systems
   600 Lanidex Plaza
   Parsippany, New York  07054
   USA

   Email: jdrosen@cisco.com
   URI:   http://www.jdrosen.net


































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Intellectual Property Statement

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