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This document defines an authorization policy language for controlling access to location information. It extends the Common Policy authorization framework to provide location-specific access control. More specifically, this document defines condition elements specific to location information in order to restrict access based on the current location of the Target. Furthermore, it offers location-specific transformation elements to reduce the granularity of the returned location information.
1.
Introduction
2.
Terminology
3.
Generic Processing
3.1.
Structure of Geolocation Authorization Documents
3.2.
Rule Transport
4.
Location-specific Conditions
4.1.
Geodetic Location Condition Profile
4.2.
Civic Location Condition Profile
5.
Actions
6.
Transformations
6.1.
Set Retransmission-Allowed
6.2.
Set Retention-Expiry
6.3.
Set Note-Well
6.4.
Keep Ruleset Reference
6.5.
Provide Location
6.5.1.
Civic Location Profile
6.5.2.
Geodetic Location Profile
7.
Examples
7.1.
Rule Example with Civic Location Condition
7.2.
Rule Example with Geodetic Location Condition
7.3.
Rule Example with Civic and Geodetic Location Condition
7.4.
Rule Example with Location-based Transformations
8.
XML Schema for Basic Location Profiles
9.
XML Schema for Geolocation Policy
10.
XCAP Usage
10.1.
Application Unique ID
10.2.
XML Schema
10.3.
Default Namespace
10.4.
MIME Type
10.5.
Validation Constraints
10.6.
Data Semantics
10.7.
Naming Conventions
10.8.
Resource Interdependencies
10.9.
Authorization Policies
11.
IANA Considerations
11.1.
Geolocation Policy XML Schema Registration
11.2.
Geolocation Policy Namespace Registration
11.3.
Geolocation Policy Location Profile Registry
11.4.
Basic Location Profile XML Schema Registration
11.5.
Basic Location Profile Namespace Registration
11.6.
XCAP Application Usage ID
12.
Security Considerations
13.
References
13.1.
Normative References
13.2.
Informative References
Appendix A.
Acknowledgments
§
Authors' Addresses
§
Intellectual Property and Copyright Statements
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Location information needs to be protected against unauthorized access to preserve the privacy of humans. In RFC 3693 [7] (Cuellar, J., Morris, J., Mulligan, D., Peterson, J., and J. Polk, “Geopriv Requirements,” February 2004.), a protocol-independent model for access to geographic information is defined. The model includes a Location Generator (LG) that determines location information, a Location Server (LS) that authorizes access to location information, a Location Recipient (LR) that requests and receives location information, and a Rule Maker (RM) that writes authorization policies. An authorization policy is a set of rules that regulates an entity's activities with respect to privacy-sensitive information, such as location information.
The data object containing location information in the context of this document is referred to as a Location Object (LO). The basic rule set defined in the Presence Information Data Format Location Object (PIDF-LO) [8] (Peterson, J., “A Presence-based GEOPRIV Location Object Format,” December 2005.) can restrict how long the Location Recipient is allowed to retain the information, and it can prohibit further distribution. It also contains a reference to an enhanced rule set and a human readable privacy policy. The basic rule set, however, does not allow to control access to location information based on specific Location Recipients. This document describes an enhanced rule set that provides richer constraints on the distribution of LOs.
The rule set allows the entity that uses the rules defined in this document to restrict the retention and to enforce access restrictions on location data, including prohibiting any dissemination to particular individuals, during particular times or when the Target is located in a specific region. The RM can also stipulate that only certain parts of the Location Object are to be distributed to recipients or that the resolution of parts of the Location Object is reduced.
The typical sequence of operations is as follows. A Location Server receives a query for location information for a particular Target, via the using protocol [7] (Cuellar, J., Morris, J., Mulligan, D., Peterson, J., and J. Polk, “Geopriv Requirements,” February 2004.). The using protocol provides the identity of the requestor, either at the time of the query or when subscribing to the location information. The authenticated identity of the Location Recipient, together with other information provided by the using protocol or generally available to the server, is then used for searching through the rule set. If more than one rule matches the condition element, then the combined permission is evaluated according to the description in Section 10 of [1] (Schulzrinne, H., Tschofenig, H., Morris, J., Cuellar, J., Polk, J., and J. Rosenberg, “Common Policy: A Document Format for Expressing Privacy Preferences,” February 2007.). The result of the rule evalation is applied to the location information, yielding a possibly modified Location Object that is delivered to the Location Recipient.
This document does not describe the protocol used to convey location information from the Location Server to the Location Recipient (i.e., the using protocol; see RFC 3693 [7] (Cuellar, J., Morris, J., Mulligan, D., Peterson, J., and J. Polk, “Geopriv Requirements,” February 2004.)).
This document extends the Common Policy framework defined in [1] (Schulzrinne, H., Tschofenig, H., Morris, J., Cuellar, J., Polk, J., and J. Rosenberg, “Common Policy: A Document Format for Expressing Privacy Preferences,” February 2007.). That document provides an abstract framework for expressing authorization rules. As specified there, each such rule consists of conditions, actions and transformations. Conditions determine under which circumstances the entity executing the rules, for example a Location Server, is permitted to apply actions and transformations. Transformations regulate in a location information context how a Location Server modifies the information elements that are returned to the requestor, for example, by reducing the granularity of returned location information.
The XML schema defined in Section 9 (XML Schema for Geolocation Policy) extends the Common Policy schema by introducing new child elements to the condition and transformation elements. This document does not define child elements for the action part of a rule.
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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 RFC 2119 [2] (Bradner, S., “Key words for use in RFCs to Indicate Requirement Levels,” March 1997.).
This document reuses the terminology of RFC 3693 [7] (Cuellar, J., Morris, J., Mulligan, D., Peterson, J., and J. Polk, “Geopriv Requirements,” February 2004.), such as Location Server (LS), Location Recipient (LR), Rule Maker (RM), Target, Location Generator (LG) and Location Object (LO). This document uses the following terminology:
- Presentity or Target:
RFC 3693 [7] (Cuellar, J., Morris, J., Mulligan, D., Peterson, J., and J. Polk, “Geopriv Requirements,” February 2004.) uses the term Target to identify the object or person of which location information is required. The presence model described in RFC 2778 [9] (Day, M., Rosenberg, J., and H. Sugano, “A Model for Presence and Instant Messaging,” February 2000.) uses the term presentity to describe the entity that provides presence information to a presence service. A Presentity in a presence system is a Target in a location information system.
- Watcher or Location Recipient:
The receiver of location information is the Location Recipient (LR) in the terminology of RFC 3693 [7] (Cuellar, J., Morris, J., Mulligan, D., Peterson, J., and J. Polk, “Geopriv Requirements,” February 2004.). A watcher in a presence system, i.e., an entity that requests presence information about a presentity, is a Location Recipient in a location information system.
- Authorization policy:
An authorization policy is given by a rule set. A rule set contains an unordered list of (policy) rules. Each rule has a condition, an action and a transformation component.
- Permission:
The term permission refers to the action and transformation components of a rule.
The term 'using protocol' is defined in [7] (Cuellar, J., Morris, J., Mulligan, D., Peterson, J., and J. Polk, “Geopriv Requirements,” February 2004.) and refers to the protocol that is used to request access to and to return privacy sensitive data items.
In this document we use the term Location Servers as the entities that evaluate the geolocation authorization policies. The geolocation privacy architecture is, as motivated in RFC 4079 [10] (Peterson, J., “A Presence Architecture for the Distribution of GEOPRIV Location Objects,” July 2005.), aligned with the presence architecture and a Presence Server is therefore an entity that distributes location information along with other presence-specific XML data elements.
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A geolocation authorization document is an XML document, formatted according to the schema defined in [1] (Schulzrinne, H., Tschofenig, H., Morris, J., Cuellar, J., Polk, J., and J. Rosenberg, “Common Policy: A Document Format for Expressing Privacy Preferences,” February 2007.). Geolocation authorization documents inherit the MIME type of common policy documents, application/auth-policy+xml. As described in [1] (Schulzrinne, H., Tschofenig, H., Morris, J., Cuellar, J., Polk, J., and J. Rosenberg, “Common Policy: A Document Format for Expressing Privacy Preferences,” February 2007.), this document is composed of rules which contain three parts - conditions, actions, and transformations. Each action or transformation, which is also called a permission, has the property of being a positive grant of information to the Location Recipient. As a result, there is a well-defined mechanism for combining actions and transformations obtained from several sources. This mechanism is privacy safe, since the lack of any action or transformation can only result in less information being presented to a Location Recipient.
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There are two ways how the authorization rules described in this document may be conveyed between different parties:
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This section describes the location-specific conditions of a rule, namely the civic and geodetic location conditions. The <conditions> element contains zero, one or an unbounded number of <location-condition> child element(s). Providing more than one <location-condition> child element may not be useful since all child elements of the <conditions> element must evaluate to TRUE in order for the <conditions> element to be TRUE. The <location-condition> element MUST contain at least one <location> child element. The <location-condition> element evaluates to TRUE if any of its child elements is TRUE, i.e., a logical OR.
A location profile needs to describe under what conditions each <location> element evaluates to TRUE. This document defines two location profiles, one civic and one geodetic location profile.
The <location-condition> and the <location> elements provide extension points. If an extension is not understood by the entity evaluating the rules then this rule evaluates to FALSE.
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The geodetic location profile is identified by the token 'geodetic-condition'. Rule Makers use this profile by placing a GML (OpenGIS, “OpenGIS Geography Markup Language (GML) Implementation Specification, Version 3.00, OGC 02 023r4,” January 2003.) [3] <Circle> element within the <location> element (as described in Section 5.2.3 of [4] (Winterbottom, J., Thomson, M., and H. Tschofenig, “GEOPRIV PIDF-LO Usage Clarification, Considerations and Recommendations,” November 2008.)).
The <location> element containing the information for the geodetic location profile evaluates to TRUE if the current location of the Target is within the described location. Note that the Target's actual location might be represented by any of the location shapes described in [4] (Winterbottom, J., Thomson, M., and H. Tschofenig, “GEOPRIV PIDF-LO Usage Clarification, Considerations and Recommendations,” November 2008.). If the geodetic location of the Target is unknown then the <location> element containing the information for the geodetic location profile evaluates to FALSE.
Implementations are REQUIRED to support the following coordinate reference system based on WGS 84 [5] (OpenGIS, “US National Imagery and Mapping Agency, "Department of Defense (DoD) World Geodetic System 1984 (WGS 84), Third Edition, NIMA TR8350.2,” January 2000.) based on the European Petroleum Survey Group (EPSG) Geodetic Parameter Dataset (as formalized by the Open Geospatial Consortium (OGC)):
- 2D:
- WGS 84 (latitude, longitude), as identified by the URN "urn:ogc:def:crs:EPSG::4326". This is a two dimensional CRS.
A CRS MUST be specified using the above URN notation only, implementations do not need to support user-defined CRSs.
Implementations MUST specify the CRS using the "srsName" attribute on the outermost geometry element. The CRS MUST NOT be changed for any sub-elements. The "srsDimension" attribute MUST be omitted, since the number of dimensions in these CRSs is known.
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The civic location profile is identified by the token 'civic-condition'. Rule Makers use this profile by placing a <civicAddress> element, defined in [6] (Thomson, M. and J. Winterbottom, “Revised Civic Location Format for PIDF-LO,” December 2007.), within the <location> element.
All child elements of <location> element that carry civicAddress elements MUST evaluate to TRUE (i.e., logical AND) in order for the <location> element to evaluate to TRUE. For each child element, the value of that element is compared to the value of the same element in the Target's civic location. The child element evaluates to TRUE if the two values are identical based on a bit-by-bit comparison.
If the civic location of the Target is unknown, then the <location> element containing the information for the civic location profile evaluates to FALSE. This case may occur, for example, if location information has been removed by earlier transmitters of location information or if only the geodetic location is known. In general, it is RECOMMENDED behavior for a LS not to apply a translation from geodetic location to civic location (i.e., geocode the location).
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This document does not define location-specific actions.
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This document defines several elements that allow Rule Makers to specify transformations that
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This element asks the LS to change or set the value of the <retransmission-allowed> element in the PIDF-LO. The data type of the <set-retransmission-allowed> element is a boolean.
If the value of the <set-retransmission-allowed> element is set to TRUE then the <retransmission-allowed> element in the PIDF-LO MUST be set to TRUE. If the value of the <set-retransmission-allowed> element is set to FALSE, then the <retransmission-allowed> element in the PIDF-LO MUST be set to FALSE.
If the <set-retransmission-allowed> element is absent then the value of the <retransmission-allowed> element in the PIDF-LO MUST be kept unchanged or, if the PIDF-LO is created for the first time, then the value MUST be set to FALSE.
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This transformation asks the LS to change or set the value of the <retention-expiry> element in the PIDF-LO. The data type of the <set-retention-expiry> element is an integer.
The value provided with the <set-retention-expiry> element indicates seconds and these seconds are added to the current date.
If the <set-retention-expiry> element is absent then the value of the <retention-expiry> element in the PIDF-LO is kept unchanged or, if the PIDF-LO is created for the first time, then the value MUST be set to the current date.
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This transformation asks the LS to change or set the value of the <note-well> element in the PIDF-LO. The data type of the <set-note-well> element is a string.
The value provided with the <set-note-well> element contains a privacy statement as a human readable text string and an 'xml:lang' attribute denotes the language of the human readable text.
If the <set-note-well> element is absent, then the value of the <note-well> element in the PIDF-LO is kept unchanged or, if the PIDF-LO is created for the first time, then no content is provided for the <note-well> element.
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This transformation allows to influence whether the <external-ruleset> element in the PIDF-LO carries the extended authorization rules defined in [1] (Schulzrinne, H., Tschofenig, H., Morris, J., Cuellar, J., Polk, J., and J. Rosenberg, “Common Policy: A Document Format for Expressing Privacy Preferences,” February 2007.). The data type of the <keep-rule-reference> element is Boolean.
If the value of the <keep-rule-reference> element is set to TRUE, then the <external-ruleset> element in the PIDF-LO is kept unchanged when included. If the value of the <keep-rule-reference> element is set to FALSE, then the <external-ruleset> element in the PIDF-LO MUST NOT contain a reference to an external rule set. The reference to the ruleset is removed and no rules are carried as MIME bodies (in case of CID URIs).
If the <keep-rule-reference> element is absent, then the value of the <external-ruleset> element in the PIDF-LO is kept unchanged when available or, if the PIDF-LO is created for the first time then the <external-ruleset> element MUST NOT be included.
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The <provide-location> element contains child elements of a specific
location profile that controls the granularity of returned location information. This
document defines two location profiles, namely:
The <provide-location> element MUST contain the 'profile' attribute if it contains child elements and the 'profile' attribute MUST match with the contained child elements. The <provide-location> element MUST contain the 'profile' attribute if it contains child elements.
If the <provide-location> element has no child elements then civic, as well as, geodetic location information is disclosed without reducing its granularity, subject to availability. In this case the profile attribute MUST NOT be included.
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This profile uses the token 'civic-transformation'. This profile allows civic location transformations to be specified by means of the <provide-civic> element that restricts the level of civic location information the LS is permitted to disclose. The symbols of these levels are: 'country', 'region', 'city', 'building', 'full'. Each level is given by a set of civic location data items such as <country> and <A1>, ..., <POM>, as defined in [6] (Thomson, M. and J. Winterbottom, “Revised Civic Location Format for PIDF-LO,” December 2007.). Each level includes all elements included by the lower levels.
The 'country' level includes only the <country> element; the 'region' level adds the <A1> element; the 'city' level adds the <A2> and <A3> elements; the 'building' level and the 'full' level add further civic location data as shown below.
full {<country>, <A1>, <A2>, <A3>, <A4>, <A5>, <A6>, <PRD>, <POD>, <STS>, <HNO>, <HNS>, <LMK>, <LOC>, <PC>, <NAM>, <FLR>, <BLD>,<UNIT>,<ROOM>,<PLC>, <PCN>, <POBOX>, <ADDCODE>, <SEAT> <RD>, <RDSEC>, <RDBR>, <RDSUBBR>, <PRM>, <POM>} | | building {<country>, <A1>, <A2>, <A3>, <A4>, <A5>, <A6>, <PRD> <POD>, <STS>, <HNO>, <HNS>, <LMK>, <PC>, <RD>, <RDSEC>, <RDBR>, <RDSUBBR> <PRM>, <POM>} | | city {<country>, <A1>, <A2>, <A3>} | | region {<country>, <A1>} | | country {<country>} | | none {}
The default value is "none".
The schema of the <provide-civic> element is defined in Section 8 (XML Schema for Basic Location Profiles).
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This profile uses the token 'geodetic-transformation' and refers only to the Coordinate Reference System (CRS) WGS 84 (urn:ogc:def:crs:EPSG::4326, 2D). This profile allows geodetic location transformations to be specified by means of the <provide-geo> element that may restrict the returned geodetic location information based on the value provided in the 'radius' attribute. The value of the 'radius' attribute expresses the radius in meters.
The schema of the <provide-geo> element is defined in Section 8 (XML Schema for Basic Location Profiles).
For each rule in the policy specification containing a <provide-geo> element, the LS chooses a circle with a radius F given by the 'radius' attribute of the <provide-geo> element. The center of the circle is chosen randomly, under the constraint that the circle MUST contain the Target's location, which may be a point or another location shape. In response to queries matching this rule, the LS MUST return a shape containing this circle; while the returned shape may change from one query to another, the chosen circle remains constant. An LS may, for example, store the location of the center or compute it based on a hash function that includes the target's identity.
The above-described procedure aims to satisfy the following design goals:
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This section provides a few examples for authorization rules using the extensions defined in this document.
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This example illustrates a single rule that employs the civic location condition. It matches if the current location of the Target equal the content of the child elements of the <location> element. Requests match only if the Target is at a civic location with country set to 'Germany', state (A1) set to 'Bavaria', city (A3) set to 'Munich', city division (A4) set to 'Perlach', street name (A6) set to 'Otto-Hahn-Ring' and house number (HNO) set to '6'.
No actions and transformation child elements are provided in this rule example. The actions and transformation could include presence specific information when the Geolocation Policy framework is applied to the Presence Policy framework (see [12] (Rosenberg, J., “Presence Authorization Rules,” December 2007.)).
<?xml version="1.0" encoding="UTF-8"?> <ruleset xmlns="urn:ietf:params:xml:ns:common-policy" xmlns:gp="urn:ietf:params:xml:ns:geolocation-policy"> <rule id="AA56i09"> <conditions> <gp:location-condition> <gp:location profile="civic-condition" xmlns="urn:ietf:params:xml:ns:pidf:geopriv10:civicAddr"> <country>DE</country> <A1>Bavaria</A1> <A3>Munich</A3> <A4>Perlach</A4> <A6>Otto-Hahn-Ring</A6> <HNO>6</HNO> </gp:location> </gp:location-condition> </conditions> <actions/> <transformations/> </rule> </ruleset>
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This example illustrates a rule that employs the geodetic location condition. The rule matches if the current location of the Target is inside the area specified by the polygon. The polygon uses the EPSG 4326 coordinate reference system. No altitude is included in this example.
<?xml version="1.0" encoding="UTF-8"?> <ruleset xmlns="urn:ietf:params:xml:ns:common-policy" xmlns:gp="urn:ietf:params:xml:ns:geolocation-policy" xmlns:gml="http://www.opengis.net/gml" xmlns:gs="http://www.opengis.net/pidflo/1.0"> <rule id="BB56A19"> <conditions> <gp:location-condition> <gp:location profile="geodetic-condition"> <gs:Circle srsName="urn:ogc:def:crs:EPSG::4326"> <gml:pos>-34.410649 150.87651</gml:pos> <gs:radius uom="urn:ogc:def:uom:EPSG::9001">1500 </gs:radius> </gs:Circle> </gp:location> </gp:location-condition> </conditions> <transformations/> </rule> </ruleset>
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This example illustrates a rule that employs a mixed civic and geodetic location condition. Depending on the available type of location information, namely civic or geodetic location information, one of the location elements may match.
<?xml version="1.0" encoding="UTF-8"?> <ruleset xmlns="urn:ietf:params:xml:ns:common-policy" xmlns:gp="urn:ietf:params:xml:ns:geolocation-policy" xmlns:gml="http://www.opengis.net/gml" xmlns:gs="http://www.opengis.net/pidflo/1.0"> <rule id="AA56i09"> <conditions> <gp:location-condition> <gp:location profile="civic-condition" xmlns="urn:ietf:params:xml:ns:pidf:geopriv10:civicAddr"> <country>DE</country> <A1>Bavaria</A1> <A3>Munich</A3> <A4>Perlach</A4> <A6>Otto-Hahn-Ring</A6> <HNO>6</HNO> </gp:location> <gp:location profile="geodetic-condition"> <gs:Circle srsName="urn:ogc:def:crs:EPSG::4326"> <gml:pos>-34.410649 150.87651</gml:pos> <gs:radius uom="urn:ogc:def:uom:EPSG::9001">1500 </gs:radius> </gs:Circle> </gp:location> </gp:location-condition> </conditions> <actions/> <transformations/> </rule> </ruleset>
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This example shows the transformations specified in this document. The <provide-civic> element indicates that the available civic location information is reduced to building level granularity. If geodetic location information is requested then a granularity reduction is provided as well.
<?xml version="1.0" encoding="UTF-8"?> <ruleset xmlns="urn:ietf:params:xml:ns:common-policy" xmlns:gp="urn:ietf:params:xml:ns:geolocation-policy" xmlns:lp="urn:ietf:params:xml:ns:basic-location-profiles"> <rule id="AA56i09"> <conditions/> <actions/> <transformations> <gp:set-retransmission-allowed>false </gp:set-retransmission-allowed> <gp:set-retention-expiry>86400</gp:set-retention-expiry> <gp:set-note-well xml:lang="en">My privacy policy goes in here. </gp:set-note-well> <gp:keep-rule-reference>false </gp:keep-rule-reference> <gp:provide-location profile="civic-transformation"> <lp:provide-civic>building</lp:provide-civic> </gp:provide-location> <gp:provide-location profile="geodetic-transformation"> <lp:provide-geo radius="500"/> </gp:provide-location> </transformations> </rule> </ruleset>
The following rule describes the short-hand notation for making the current location of the Target available to Location Recipients without granularity reduction.
<?xml version="1.0" encoding="UTF-8"?> <ruleset xmlns="urn:ietf:params:xml:ns:common-policy" xmlns:gp="urn:ietf:params:xml:ns:geolocation-policy"> <rule id="AA56ia9"> <conditions/> <actions/> <transformations> <gp:provide-location/> </transformations> </rule> </ruleset>
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This section defines the location profiles used as child elements of the transformation element.
<?xml version="1.0" encoding="UTF-8"?> <xs:schema targetNamespace="urn:ietf:params:xml:ns:basic-location-profiles" xmlns:xs="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified" attributeFormDefault="unqualified"> <!-- profile="civic-transformation" --> <xs:element name="provide-civic" default="none"> <xs:simpleType> <xs:restriction base="xs:string"> <xs:enumeration value="full"/> <xs:enumeration value="building"/> <xs:enumeration value="city"/> <xs:enumeration value="region"/> <xs:enumeration value="country"/> <xs:enumeration value="none"/> </xs:restriction> </xs:simpleType> </xs:element> <!-- profile="geodetic-transformation" --> <xs:element name="provide-geo"> <xs:complexType> <xs:attribute name="radius" type="xs:integer"/> </xs:complexType> </xs:element> </xs:schema>
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This section presents the XML schema that defines the Geolocation Policy schema described in this document. The Geolocation Policy schema extends the Common Policy schema (see [1] (Schulzrinne, H., Tschofenig, H., Morris, J., Cuellar, J., Polk, J., and J. Rosenberg, “Common Policy: A Document Format for Expressing Privacy Preferences,” February 2007.)).
<?xml version="1.0" encoding="UTF-8"?> <xs:schema targetNamespace="urn:ietf:params:xml:ns:geolocation-policy" xmlns:gp="urn:ietf:params:xml:ns:geolocation-policy" xmlns:xs="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified" attributeFormDefault="unqualified"> <!-- Import Common Policy--> <xs:import namespace="urn:ietf:params:xml:ns:common-policy"/> <!-- This import brings in the XML language attribute xml:lang--> <xs:import namespace="http://www.w3.org/XML/1998/namespace" schemaLocation="http://www.w3.org/2001/xml.xsd"/> <!-- Geopriv Conditions --> <xs:element name="location-condition" type="gp:locationconditionType"/> <xs:complexType name="locationconditionType"> <xs:complexContent> <xs:restriction base="xs:anyType"> <xs:choice minOccurs="1" maxOccurs="unbounded"> <xs:element name="location" type="gp:locationType" minOccurs="1" maxOccurs="unbounded"/> <xs:any namespace="##other" processContents="lax" minOccurs="0" maxOccurs="unbounded"/> </xs:choice> </xs:restriction> </xs:complexContent> </xs:complexType> <xs:complexType name="locationType"> <xs:complexContent> <xs:restriction base="xs:anyType"> <xs:choice minOccurs="1" maxOccurs="unbounded"> <xs:any namespace="##other" processContents="lax" minOccurs="0" maxOccurs="unbounded"/> </xs:choice> <xs:attribute name="profile" type="xs:string"/> </xs:restriction> </xs:complexContent> </xs:complexType> <!-- Geopriv transformations --> <xs:element name="set-retransmission-allowed" type="xs:boolean" default="false"/> <xs:element name="set-retention-expiry" type="xs:integer" default="0"/> <xs:element name="set-note-well" type="gp:notewellType"/> <xs:element name="keep-rule-reference" type="xs:boolean" default="false"/> <xs:element name="provide-location" type="gp:providelocationType"/> <xs:complexType name="notewellType"> <xs:simpleContent> <xs:extension base="xs:string"> <xs:attribute ref="xml:lang" /> </xs:extension> </xs:simpleContent> </xs:complexType> <xs:complexType name="providelocationType"> <xs:complexContent> <xs:restriction base="xs:anyType"> <xs:choice minOccurs="0" maxOccurs="unbounded"> <xs:any namespace="##other" processContents="lax" minOccurs="0" maxOccurs="unbounded"/> </xs:choice> <xs:attribute name="profile" type="xs:string" /> </xs:restriction> </xs:complexContent> </xs:complexType> </xs:schema>
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The following section defines the details necessary for clients to manipulate geolocation privacy documents from a server using XCAP. If used as part of a presence system, it uses the same AUID as those rules. See [12] (Rosenberg, J., “Presence Authorization Rules,” December 2007.) for a description of the XCAP usage in context with presence authorization rules.
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XCAP requires application usages to define a unique application usage ID (AUID) in either the IETF tree or a vendor tree. This specification defines the "geolocation-policy" AUID within the IETF tree, via the IANA registration in Section 11 (IANA Considerations).
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XCAP requires application usages to define a schema for their documents. The schema for geolocation authorization documents is described in Section 9 (XML Schema for Geolocation Policy).
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XCAP requires application usages to define the default namespace for their documents. The default namespace is urn:ietf:params:xml:ns:geolocation-policy.
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XCAP requires application usages to defined the MIME type for documents they carry. Geolocation privacy authorization documents inherit the MIME type of common policy documents, application/auth-policy+xml.
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This specification does not define additional constraints.
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This document discusses the semantics of a geolocation privacy authorization.
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When a Location Server receives a request to access location information of some user foo, it will look for all documents within http://[xcaproot]/geolocation-policy/users/foo, and use all documents found beneath that point to guide authorization policy.
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This application usage does not define additional resource interdependencies.
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This application usage does not modify the default XCAP authorization policy, which is that only a user can read, write or modify his/her own documents. A server can allow privileged users to modify documents that they do not own, but the establishment and indication of such policies is outside the scope of this document.
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There are several IANA considerations associated with this specification.
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- URI:
- urn:ietf:params:xml:schema:geolocation-policy
- Registrant Contact:
- IETF Geopriv Working Group, Hannes Tschofenig (hannes.tschofenig@nsn.com).
- XML:
- The XML schema to be registered is contained in Section 9 (XML Schema for Geolocation Policy). Its first line is
and its last line is<?xml version="1.0" encoding="UTF-8"?></xs:schema>
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- URI:
- urn:ietf:params:xml:ns:geolocation-policy
- Registrant Contact:
- IETF Geopriv Working Group, Hannes Tschofenig (hannes.tschofenig@nsn.com).
- 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>Geolocation Policy Namespace</title> </head> <body> <h1>Namespace for Geolocation Authorization Policies</h1> <h2>urn:ietf:params:xml:schema:geolocation-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
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This document seeks to create a registry of location profile names for the Geolocation Policy framework. Profile names are XML tokens. This registry will operate in accordance with RFC 2434 (Narten, T. and H. Alvestrand, “Guidelines for Writing an IANA Considerations Section in RFCs,” October 1998.) [13], Standards Action.
This document defines the following profile names:
- geodetic-condition:
- Defined in Section 4.1 (Geodetic Location Condition Profile).
- civic-condition:
- Defined in Section 4.2 (Civic Location Condition Profile).
- geodetic-transformation:
- Defined in Section 6.5.2 (Geodetic Location Profile).
- civic-transformation:
- Defined in Section 6.5.1 (Civic Location Profile).
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- URI:
- urn:ietf:params:xml:schema:basic-location-profiles
- Registrant Contact:
- IETF Geopriv Working Group, Hannes Tschofenig (hannes.tschofenig@nsn.com).
- XML:
- The XML schema to be registered is contained in Section 8 (XML Schema for Basic Location Profiles). Its first line is
and its last line is<?xml version="1.0" encoding="UTF-8"?></xs:schema>
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- URI:
- urn:ietf:params:xml:ns:basic-location-profiles
- Registrant Contact:
- IETF Geopriv Working Group, Hannes Tschofenig (hannes.tschofenig@nsn.com).
- 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>Basic Location Profile Namespace</title> </head> <body> <h1>Namespace for Basic Location Profile</h1> <h2>urn:ietf:params:xml:schema:basic-location-profiles</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
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This section registers an XCAP Application Usage ID (AUID) according to the IANA procedures defined in [11] (Rosenberg, J., “The Extensible Markup Language (XML) Configuration Access Protocol (XCAP),” May 2007.).
Name of the AUID: geolocation-policy
Description: Geolocation privacy rules are documents that describe the permissions that a Target has granted to Location Recipients that access information about his/her geographic location.
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This document aims to make it simple for users to prevent the unintended disclosure of private information to third parties. This is accomplished through the usage of authorization policies. Security requirements are described in [7] (Cuellar, J., Morris, J., Mulligan, D., Peterson, J., and J. Polk, “Geopriv Requirements,” February 2004.) and a discussion of generic security threats is available with [14] (Danley, M., Mulligan, D., Morris, J., and J. Peterson, “Threat Analysis of the Geopriv Protocol,” February 2004.). Aspects of combining permissions in cases of multiple occurrence are treated in [1] (Schulzrinne, H., Tschofenig, H., Morris, J., Cuellar, J., Polk, J., and J. Rosenberg, “Common Policy: A Document Format for Expressing Privacy Preferences,” February 2007.)).
When the Target is moving then the location transformations reveal information when switching from one privacy region to another one. For example, when a transformation indicates that civic location is provided at a 'building' level of granularity. Hence, room numbers, floors etc. would be hidden. However, when the Target moves from one building to the next one then the movement would still be recognizable as the disclosed location information would be reflected by the new civic location information indicating the new building. With additional knowledge about building entrances and streets it would be possible to learn a certain amont of information. It is therefore important to ensure that selected privacy regions are not chosen too small when mobility is a concern and that a random number to is added to the position of the Target, with an absolute value of half the privacy region. The latter aspect is only applicable for geodetic information or when geodetic information is translated to civic information by the Location Server.
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[1] | Schulzrinne, H., Tschofenig, H., Morris, J., Cuellar, J., Polk, J., and J. Rosenberg, “Common Policy: A Document Format for Expressing Privacy Preferences,” RFC 4745, February 2007 (TXT). |
[2] | Bradner, S., “Key words for use in RFCs to Indicate Requirement Levels,” March 1997. |
[3] | OpenGIS, “OpenGIS Geography Markup Language (GML) Implementation Specification, Version 3.00, OGC 02 023r4,” http://www.opengeospatial.org/docs/02-023r4.pdf, January 2003. |
[4] | Winterbottom, J., Thomson, M., and H. Tschofenig, “GEOPRIV PIDF-LO Usage Clarification, Considerations and Recommendations,” draft-ietf-geopriv-pdif-lo-profile-14 (work in progress), November 2008 (TXT). |
[5] | OpenGIS, “US National Imagery and Mapping Agency, "Department of Defense (DoD) World Geodetic System 1984 (WGS 84), Third Edition, NIMA TR8350.2,” , January 2000. |
[6] | Thomson, M. and J. Winterbottom, “Revised Civic Location Format for PIDF-LO,” draft-ietf-geopriv-revised-civic-lo-07 (work in progress), December 2007 (TXT). |
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[7] | Cuellar, J., Morris, J., Mulligan, D., Peterson, J., and J. Polk, “Geopriv Requirements,” RFC 3693, February 2004 (TXT). |
[8] | Peterson, J., “A Presence-based GEOPRIV Location Object Format,” RFC 4119, December 2005 (TXT). |
[9] | Day, M., Rosenberg, J., and H. Sugano, “A Model for Presence and Instant Messaging,” RFC 2778, February 2000 (TXT). |
[10] | Peterson, J., “A Presence Architecture for the Distribution of GEOPRIV Location Objects,” RFC 4079, July 2005 (TXT). |
[11] | Rosenberg, J., “The Extensible Markup Language (XML) Configuration Access Protocol (XCAP),” RFC 4825, May 2007 (TXT). |
[12] | Rosenberg, J., “Presence Authorization Rules,” RFC 5025, December 2007 (TXT). |
[13] | Narten, T. and H. Alvestrand, “Guidelines for Writing an IANA Considerations Section in RFCs,” BCP 26, RFC 2434, October 1998 (TXT, HTML, XML). |
[14] | Danley, M., Mulligan, D., Morris, J., and J. Peterson, “Threat Analysis of the Geopriv Protocol,” RFC 3694, February 2004 (TXT). |
[15] | Thomson, M., “Geodetic Shapes for the Representation of Uncertainty in PIDF-LO,” draft-thomson-geopriv-geo-shape-03 (work in progress), December 2006 (TXT). |
[16] | Thomson, M. and J. Winterbottom, “Representation of Uncertainty and Confidence in PIDF-LO,” draft-thomson-geopriv-uncertainty-04 (work in progress), November 2009 (TXT). |
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This document is informed by the discussions within the IETF GEOPRIV working group, including discussions at the GEOPRIV interim meeting in Washington, D.C., in 2003.
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 their help in improving the quality of this document.
We would like to thank Christian Guenther for his help with an earlier version of this document. Furthermore, we would like to thank Johnny Vrancken for his document reviews in September 2006, December 2006 and January 2007. James Winterbottom provided a detailed review in November 2006. Richard Barnes gave a detailed review in February 2008.
This document uses text from [15] (Thomson, M., “Geodetic Shapes for the Representation of Uncertainty in PIDF-LO,” December 2006.). Therefore, we would like to thank Martin Thomson for his work in [15] (Thomson, M., “Geodetic Shapes for the Representation of Uncertainty in PIDF-LO,” December 2006.). We would also like to thank Martin Thomson, Matt Lepinski and Richard Barnes for their comments regarding the geodetic location transformation procedure.
We would like to thank Dan Romascanu, Yoshiko Chong and Jari Urpalainen for their last call comments.
Finally, we would like to thank the following individuals for their feedback as part of the IESG, GenArt, and SecDir review: Jari Arkko, Eric Gray, Russ Housley, Carl Reed, Martin Thomson, Lisa Dusseault, Chris Newman, Jon Peterson, Sam Hartman, Cullen Jennings, Tim Polk, and Brian Rosen.
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Henning Schulzrinne (editor) | |
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 |
Hannes Tschofenig (editor) | |
Nokia Siemens Networks | |
Linnoitustie 6 | |
Espoo 02600 | |
Finland | |
Phone: | +358 (50) 4871445 |
Email: | Hannes.Tschofenig@gmx.net |
URI: | http://www.tschofenig.priv.at |
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 |
Jorge R. Cuellar | |
Siemens | |
Otto-Hahn-Ring 6 | |
Munich, Bavaria 81739 | |
Germany | |
Email: | Jorge.Cuellar@siemens.com |
James Polk | |
Cisco | |
2200 East President George Bush Turnpike | |
Richardson, Texas 75082 | |
USA | |
Email: | jmpolk@cisco.com |
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