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563 lines
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563 lines
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Internet Engineering Task Force (IETF) L. Dusseault
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Request for Comments: 5789 Linden Lab
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Category: Standards Track J. Snell
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ISSN: 2070-1721 March 2010
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PATCH Method for HTTP
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Abstract
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Several applications extending the Hypertext Transfer Protocol (HTTP)
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require a feature to do partial resource modification. The existing
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HTTP PUT method only allows a complete replacement of a document.
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This proposal adds a new HTTP method, PATCH, to modify an existing
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HTTP resource.
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Status of This Memo
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This is an Internet Standards Track document.
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This document is a product of the Internet Engineering Task Force
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(IETF). It represents the consensus of the IETF community. It has
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received public review and has been approved for publication by the
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Internet Engineering Steering Group (IESG). Further information on
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Internet Standards is available in Section 2 of RFC 5741.
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Information about the current status of this document, any errata,
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and how to provide feedback on it may be obtained at
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http://www.rfc-editor.org/info/rfc5789.
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Copyright Notice
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Copyright (c) 2010 IETF Trust and the persons identified as the
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document authors. All rights reserved.
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This document is subject to BCP 78 and the IETF Trust's Legal
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Provisions Relating to IETF Documents
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(http://trustee.ietf.org/license-info) in effect on the date of
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publication of this document. Please review these documents
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carefully, as they describe your rights and restrictions with respect
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to this document. Code Components extracted from this document must
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include Simplified BSD License text as described in Section 4.e of
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the Trust Legal Provisions and are provided without warranty as
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described in the Simplified BSD License.
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Dusseault & Snell Standards Track [Page 1]
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RFC 5789 HTTP PATCH March 2010
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Table of Contents
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1. Introduction ....................................................2
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2. The PATCH Method ................................................2
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2.1. A Simple PATCH Example .....................................4
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2.2. Error Handling .............................................5
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3. Advertising Support in OPTIONS ..................................7
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3.1. The Accept-Patch Header ....................................7
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3.2. Example OPTIONS Request and Response .......................7
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4. IANA Considerations .............................................8
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4.1. The Accept-Patch Response Header ...........................8
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5. Security Considerations .........................................8
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6. References ......................................................9
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6.1. Normative References .......................................9
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6.2. Informative References .....................................9
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Appendix A. Acknowledgements .....................................10
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1. Introduction
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This specification defines the new HTTP/1.1 [RFC2616] method, PATCH,
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which is used to apply partial modifications to a resource.
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A new method is necessary to improve interoperability and prevent
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errors. The PUT method is already defined to overwrite a resource
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with a complete new body, and cannot be reused to do partial changes.
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Otherwise, proxies and caches, and even clients and servers, may get
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confused as to the result of the operation. POST is already used but
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without broad interoperability (for one, there is no standard way to
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discover patch format support). PATCH was mentioned in earlier HTTP
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specifications, but not completely defined.
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In this document, the key words "MUST", "MUST NOT", "REQUIRED",
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"SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY",
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and "OPTIONAL" are to be interpreted as described in [RFC2119].
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Furthermore, this document uses the ABNF syntax defined in Section
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2.1 of [RFC2616].
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2. The PATCH Method
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The PATCH method requests that a set of changes described in the
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request entity be applied to the resource identified by the Request-
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URI. The set of changes is represented in a format called a "patch
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document" identified by a media type. If the Request-URI does not
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point to an existing resource, the server MAY create a new resource,
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depending on the patch document type (whether it can logically modify
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a null resource) and permissions, etc.
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Dusseault & Snell Standards Track [Page 2]
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RFC 5789 HTTP PATCH March 2010
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The difference between the PUT and PATCH requests is reflected in the
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way the server processes the enclosed entity to modify the resource
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identified by the Request-URI. In a PUT request, the enclosed entity
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is considered to be a modified version of the resource stored on the
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origin server, and the client is requesting that the stored version
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be replaced. With PATCH, however, the enclosed entity contains a set
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of instructions describing how a resource currently residing on the
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origin server should be modified to produce a new version. The PATCH
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method affects the resource identified by the Request-URI, and it
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also MAY have side effects on other resources; i.e., new resources
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may be created, or existing ones modified, by the application of a
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PATCH.
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PATCH is neither safe nor idempotent as defined by [RFC2616], Section
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9.1.
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A PATCH request can be issued in such a way as to be idempotent,
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which also helps prevent bad outcomes from collisions between two
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PATCH requests on the same resource in a similar time frame.
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Collisions from multiple PATCH requests may be more dangerous than
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PUT collisions because some patch formats need to operate from a
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known base-point or else they will corrupt the resource. Clients
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using this kind of patch application SHOULD use a conditional request
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such that the request will fail if the resource has been updated
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since the client last accessed the resource. For example, the client
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can use a strong ETag [RFC2616] in an If-Match header on the PATCH
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request.
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There are also cases where patch formats do not need to operate from
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a known base-point (e.g., appending text lines to log files, or non-
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colliding rows to database tables), in which case the same care in
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client requests is not needed.
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The server MUST apply the entire set of changes atomically and never
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provide (e.g., in response to a GET during this operation) a
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partially modified representation. If the entire patch document
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cannot be successfully applied, then the server MUST NOT apply any of
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the changes. The determination of what constitutes a successful
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PATCH can vary depending on the patch document and the type of
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resource(s) being modified. For example, the common 'diff' utility
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can generate a patch document that applies to multiple files in a
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directory hierarchy. The atomicity requirement holds for all
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directly affected files. See "Error Handling", Section 2.2, for
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details on status codes and possible error conditions.
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If the request passes through a cache and the Request-URI identifies
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one or more currently cached entities, those entries SHOULD be
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treated as stale. A response to this method is only cacheable if it
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Dusseault & Snell Standards Track [Page 3]
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RFC 5789 HTTP PATCH March 2010
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contains explicit freshness information (such as an Expires header or
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"Cache-Control: max-age" directive) as well as the Content-Location
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header matching the Request-URI, indicating that the PATCH response
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body is a resource representation. A cached PATCH response can only
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be used to respond to subsequent GET and HEAD requests; it MUST NOT
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be used to respond to other methods (in particular, PATCH).
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Note that entity-headers contained in the request apply only to the
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contained patch document and MUST NOT be applied to the resource
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being modified. Thus, a Content-Language header could be present on
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the request, but it would only mean (for whatever that's worth) that
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the patch document had a language. Servers SHOULD NOT store such
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headers except as trace information, and SHOULD NOT use such header
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values the same way they might be used on PUT requests. Therefore,
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this document does not specify a way to modify a document's Content-
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Type or Content-Language value through headers, though a mechanism
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could well be designed to achieve this goal through a patch document.
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There is no guarantee that a resource can be modified with PATCH.
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Further, it is expected that different patch document formats will be
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appropriate for different types of resources and that no single
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format will be appropriate for all types of resources. Therefore,
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there is no single default patch document format that implementations
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are required to support. Servers MUST ensure that a received patch
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document is appropriate for the type of resource identified by the
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Request-URI.
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Clients need to choose when to use PATCH rather than PUT. For
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example, if the patch document size is larger than the size of the
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new resource data that would be used in a PUT, then it might make
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sense to use PUT instead of PATCH. A comparison to POST is even more
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difficult, because POST is used in widely varying ways and can
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encompass PUT and PATCH-like operations if the server chooses. If
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the operation does not modify the resource identified by the Request-
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URI in a predictable way, POST should be considered instead of PATCH
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or PUT.
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2.1. A Simple PATCH Example
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PATCH /file.txt HTTP/1.1
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Host: www.example.com
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Content-Type: application/example
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If-Match: "e0023aa4e"
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Content-Length: 100
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[description of changes]
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Dusseault & Snell Standards Track [Page 4]
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RFC 5789 HTTP PATCH March 2010
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This example illustrates use of a hypothetical patch document on an
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existing resource.
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Successful PATCH response to existing text file:
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HTTP/1.1 204 No Content
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Content-Location: /file.txt
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ETag: "e0023aa4f"
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The 204 response code is used because the response does not carry a
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message body (which a response with the 200 code would have). Note
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that other success codes could be used as well.
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Furthermore, the ETag response header field contains the ETag for the
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entity created by applying the PATCH, available at
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http://www.example.com/file.txt, as indicated by the Content-Location
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response header field.
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2.2. Error Handling
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There are several known conditions under which a PATCH request can
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fail.
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Malformed patch document: When the server determines that the patch
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document provided by the client is not properly formatted, it
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SHOULD return a 400 (Bad Request) response. The definition of
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badly formatted depends on the patch document chosen.
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Unsupported patch document: Can be specified using a 415
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(Unsupported Media Type) response when the client sends a patch
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document format that the server does not support for the resource
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identified by the Request-URI. Such a response SHOULD include an
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Accept-Patch response header as described in Section 3.1 to notify
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the client what patch document media types are supported.
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Unprocessable request: Can be specified with a 422 (Unprocessable
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Entity) response ([RFC4918], Section 11.2) when the server
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understands the patch document and the syntax of the patch
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document appears to be valid, but the server is incapable of
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processing the request. This might include attempts to modify a
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resource in a way that would cause the resource to become invalid;
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for instance, a modification to a well-formed XML document that
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would cause it to no longer be well-formed. There may also be
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more specific errors like "Conflicting State" that could be
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signaled with this status code, but the more specific error would
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generally be more helpful.
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Dusseault & Snell Standards Track [Page 5]
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RFC 5789 HTTP PATCH March 2010
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Resource not found: Can be specified with a 404 (Not Found) status
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code when the client attempted to apply a patch document to a non-
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existent resource, but the patch document chosen cannot be applied
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to a non-existent resource.
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Conflicting state: Can be specified with a 409 (Conflict) status
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code when the request cannot be applied given the state of the
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resource. For example, if the client attempted to apply a
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structural modification and the structures assumed to exist did
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not exist (with XML, a patch might specify changing element 'foo'
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to element 'bar' but element 'foo' might not exist).
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Conflicting modification: When a client uses either the If-Match or
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If-Unmodified-Since header to define a precondition, and that
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precondition failed, then the 412 (Precondition Failed) error is
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most helpful to the client. However, that response makes no sense
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if there was no precondition on the request. In cases when the
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server detects a possible conflicting modification and no
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precondition was defined in the request, the server can return a
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409 (Conflict) response.
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Concurrent modification: Some applications of PATCH might require
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the server to process requests in the order in which they are
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received. If a server is operating under those restrictions, and
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it receives concurrent requests to modify the same resource, but
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is unable to queue those requests, the server can usefully
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indicate this error by using a 409 (Conflict) response.
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Note that the 409 Conflict response gives reasonably consistent
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information to clients. Depending on the application and the nature
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of the patch format, the client might be able to reissue the request
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as is (e.g., an instruction to append a line to a log file), have to
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retrieve the resource content to recalculate a patch, or have to fail
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the operation.
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Other HTTP status codes can also be used under the appropriate
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circumstances.
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The entity body of error responses SHOULD contain enough information
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to communicate the nature of the error to the client. The content-
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type of the response entity can vary across implementations.
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Dusseault & Snell Standards Track [Page 6]
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RFC 5789 HTTP PATCH March 2010
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3. Advertising Support in OPTIONS
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A server can advertise its support for the PATCH method by adding it
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to the listing of allowed methods in the "Allow" OPTIONS response
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header defined in HTTP/1.1. The PATCH method MAY appear in the
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"Allow" header even if the Accept-Patch header is absent, in which
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case the list of allowed patch documents is not advertised.
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3.1. The Accept-Patch Header
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This specification introduces a new response header Accept-Patch used
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to specify the patch document formats accepted by the server.
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Accept-Patch SHOULD appear in the OPTIONS response for any resource
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that supports the use of the PATCH method. The presence of the
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Accept-Patch header in response to any method is an implicit
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indication that PATCH is allowed on the resource identified by the
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Request-URI. The presence of a specific patch document format in
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this header indicates that that specific format is allowed on the
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resource identified by the Request-URI.
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Accept-Patch = "Accept-Patch" ":" 1#media-type
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The Accept-Patch header specifies a comma-separated listing of media-
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types (with optional parameters) as defined by [RFC2616], Section
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3.7.
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Example:
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Accept-Patch: text/example;charset=utf-8
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3.2. Example OPTIONS Request and Response
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[request]
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OPTIONS /example/buddies.xml HTTP/1.1
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Host: www.example.com
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[response]
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HTTP/1.1 200 OK
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Allow: GET, PUT, POST, OPTIONS, HEAD, DELETE, PATCH
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Accept-Patch: application/example, text/example
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The examples show a server that supports PATCH generally using two
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hypothetical patch document formats.
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Dusseault & Snell Standards Track [Page 7]
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RFC 5789 HTTP PATCH March 2010
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4. IANA Considerations
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4.1. The Accept-Patch Response Header
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The Accept-Patch response header has been added to the permanent
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registry (see [RFC3864]).
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Header field name: Accept-Patch
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Applicable Protocol: HTTP
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Author/Change controller: IETF
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Specification document: this specification
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5. Security Considerations
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The security considerations for PATCH are nearly identical to the
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security considerations for PUT ([RFC2616], Section 9.6). These
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include authorizing requests (possibly through access control and/or
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authentication) and ensuring that data is not corrupted through
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transport errors or through accidental overwrites. Whatever
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mechanisms are used for PUT can be used for PATCH as well. The
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following considerations apply especially to PATCH.
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A document that is patched might be more likely to be corrupted than
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a document that is overridden in entirety, but that concern can be
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addressed through the use of mechanisms such as conditional requests
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using ETags and the If-Match request header as described in
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Section 2. If a PATCH request fails, the client can issue a GET
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request to the resource to see what state it is in. In some cases,
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the client might be able to check the contents of the resource to see
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if the PATCH request can be resent, but in other cases, the attempt
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will just fail and/or a user will have to verify intent. In the case
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of a failure of the underlying transport channel, where a PATCH
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response is not received before the channel fails or some other
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timeout happens, the client might have to issue a GET request to see
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whether the request was applied. The client might want to ensure
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that the GET request bypasses caches using mechanisms described in
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HTTP specifications (see, for example, Section 13.1.6 of [RFC2616]).
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Sometimes an HTTP intermediary might try to detect viruses being sent
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via HTTP by checking the body of the PUT/POST request or GET
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response. The PATCH method complicates such watch-keeping because
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neither the source document nor the patch document might be a virus,
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yet the result could be. This security consideration is not
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Dusseault & Snell Standards Track [Page 8]
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RFC 5789 HTTP PATCH March 2010
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materially different from those already introduced by byte-range
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downloads, downloading patch documents, uploading zipped (compressed)
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files, and so on.
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Individual patch documents will have their own specific security
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considerations that will likely vary depending on the types of
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resources being patched. The considerations for patched binary
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resources, for instance, will be different than those for patched XML
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documents. Servers MUST take adequate precautions to ensure that
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malicious clients cannot consume excessive server resources (e.g.,
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CPU, disk I/O) through the client's use of PATCH.
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6. References
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6.1. Normative References
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[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
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Requirement Levels", BCP 14, RFC 2119, March 1997.
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[RFC2616] Fielding, R., Gettys, J., Mogul, J., Frystyk, H.,
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Masinter, L., Leach, P., and T. Berners-Lee, "Hypertext
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Transfer Protocol -- HTTP/1.1", RFC 2616, June 1999.
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[RFC3864] Klyne, G., Nottingham, M., and J. Mogul, "Registration
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Procedures for Message Header Fields", BCP 90, RFC 3864,
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September 2004.
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6.2. Informative References
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[RFC4918] Dusseault, L., "HTTP Extensions for Web Distributed
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Authoring and Versioning (WebDAV)", RFC 4918, June 2007.
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Dusseault & Snell Standards Track [Page 9]
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RFC 5789 HTTP PATCH March 2010
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Appendix A. Acknowledgements
|
||
|
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PATCH is not a new concept, it first appeared in HTTP in drafts of
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version 1.1 written by Roy Fielding and Henrik Frystyk and also
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appears in Section 19.6.1.1 of RFC 2068.
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Thanks to Adam Roach, Chris Sharp, Julian Reschke, Geoff Clemm, Scott
|
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Lawrence, Jeffrey Mogul, Roy Fielding, Greg Stein, Jim Luther, Alex
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Rousskov, Jamie Lokier, Joe Hildebrand, Mark Nottingham, Michael
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||
Balloni, Cyrus Daboo, Brian Carpenter, John Klensin, Eliot Lear, SM,
|
||
and Bernie Hoeneisen for review and advice on this document. In
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||
particular, Julian Reschke did repeated reviews, made many useful
|
||
suggestions, and was critical to the publication of this document.
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Authors' Addresses
|
||
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Lisa Dusseault
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||
Linden Lab
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||
945 Battery Street
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San Francisco, CA 94111
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USA
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EMail: lisa.dusseault@gmail.com
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James M. Snell
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EMail: jasnell@gmail.com
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URI: http://www.snellspace.com
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Dusseault & Snell Standards Track [Page 10]
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