The Hypertext Transfer Protocol (HTTP)
Entity Tag ("ETag") Response Header in Write Operationsgreenbytes GmbHHafenweg 16MuensterNW48155Germany+49 251 2807760julian.reschke@greenbytes.dehttp://greenbytes.de/tech/webdav/
The Hypertext Transfer Protocol (HTTP) specifies a state identifier,
called "Entity Tag", to be returned in the "ETag" response header. However,
the description of this header for write operations
such as PUT is incomplete, and has caused confusion among developers and
protocol designers, and potentially interoperability problems.
This document explains the problem in detail and suggests both a
clarification for a revision to the HTTP/1.1 specification (RFC2616) and a new header for use in responses,
making HTTP entity tags more useful for user agents that want to avoid
round-trips to the server after modifying a resource.
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The Hypertext Transfer Protocol (HTTP) specifies a state identifier,
called "Entity Tag", to be returned in the "ETag" response header (see
, Section 14.19). However,
the description of this header for write operations
such as PUT is incomplete, and has caused confusion among developers and
protocol designers, and potentially interoperability problems.
This document explains the problem in detail and suggests both a
clarification for a revision to
and a new header for use in responses, making HTTP entity tags more useful for user agents that want to avoid
round-trips to the server after modifying a resource.
Note that there is a related problem: modifying content-negotiated
resources. Here the consensus seems to be simply not to do it. Instead,
the origin server should reveal specific URIs of content that is not
content-negotiated in the Content-Location response header (, Section 14.14), and user
agents should use this more specific URI for authoring. Thus, the remainder
of this document will focus on resources for which no content negotiation
takes place.
Another related question is the usability of the weak entity tags for
authoring (see , Section 13.3.3). Although
this document focuses on the usage of strong entity tags, it is believed
that the changes suggested in this document could be applied to weak
entity tags as well.
For a long time, nobody realized that there was a problem at all, or
those who realized preferred to ignore it.
Server implementers added code that would return the new value of the
"ETag" header in a response to a successful PUT request. After all, the client
could be interested in it.
User agent developers in turn were happy to get a new "ETag" value, saving
a subsequent HEAD request to retrieve the new entity tag.
However, at some point of time, potentially during a Web Distributed
Authoring and Versioning (WebDAV, , obsoleted by ) interoperability
event, client programmers asked server programmers to always return "ETag" headers
upon PUT, never ever to change the entity tag without "good reason", and
- by the way - always to guarantee that the server stores the new content
octet-by-octet.
From the perspective of client software that wants to treat an HTTP
server as a file system replacement, this makes a lot of sense. After all,
when one writes to a file one usually expects the file system to
store what was written, and not to unexpectedly change the contents.
However, in general, an HTTP server is not a file system replacement. There
may be some that have been designed that way, and some that expose some
parts of their namespace that have this quality.
But in general, HTTP server implementers have a lot of freedom in how
resources are implemented. Indeed, this flexibility is one of the reasons
for HTTP's success, allowing it to be used for a wide range of tasks, of which
replacing file systems is just one (and not necessarily the most
interesting one).
In particular:
A server may not store a resource as a binary object - in this case,
the representation returned in a subsequent GET request may just
be similar, but not identical to what was written. Good examples
are servers that use HTTP to access XML data (),
Calendaring data () or newsfeed data
().
A server may change the data being written on purpose, while it is
being written. Examples that immediately come to mind are keyword
substitution in a source control system, or filters that remove
potentially insecure parts out of HTML pages.
Furthermore:
An "unrelated" method such as WebDAV's PROPPATCH (see , Section 9.2)
may affect the entity body and therefore the entity tag in an
unexpected way, because the server stores some or all of the WebDAV
properties inside the entity body (for instance, GPS information inside a
JPG image file).
As long as servers store the content octet-by-octet, and return exactly
what the client wrote, there is no problem at all.
Things get more interesting when a server does change the content,
such as in the "simple authoring" example given in .
Here, the server does change the content upon writing to the resource,
yet no harm is done, because the final state of the resource on the
server does not depend on the client being aware of that.
All of the content rewriting examples mentioned above have this quality:
the client can safely continue to edit the entity it sent, because
the result of the transformation done by the server will be the same
in the end. Formally, if we call the server-side transformation "t", the
initial content "c", and the client-side editing steps "e1" and "e2",
then
Question: does anybody know a real-world example for server-side content
rewriting where the above is not true?
Problems will only occur if the client uses the entity body it sent,
and the entity tag it obtained
in return, in subsequent requests that only transfer part of the
entity body, such as GET or PUT requests using the "Range" request header
(see , Section 14.35).
Furthermore, some clients need to expose the actual contents to the end user.
These clients will have to ensure that they really have the current
representation.
Entity bodies (and thus entity tags) changing due to side effects of
seemingly unrelated requests are indeed a problem, as demonstrated in
, and this specification
proposes a way to resolve this in .
There are several places in the HTTP/1.1 specification ()
mentioning the "ETag" response header.
Let us start with the header definition in Section 14.19:
The ETag response-header field provides the current value of the entity
tag for the requested variant. Sections 14.24, 14.26 and 14.44
describe the headers used with entity tags. The entity tag MAY be
used for comparison with other entities from the same resource (see
Section 13.3.3).
The meaning of a "response-header" in turn is defined in Section 6.2:
The response-header fields allow the server to pass additional information
about the response which cannot be placed in the Status-Line. These header
fields give information about the server and about further access to the
resource identified by the Request-URI.
The "ETag" response header itself is mentioned mainly in the context
of cache validation, such as in Section 13.3.2.
What is missing is a coherent description on how the origin server can notify the
user-agent when the entity tag changes as result of a write operation, such
as PUT.
Indeed, the definition of the 201 Created status code mentions entity tags (Section 10.2.2):
A 201 response MAY contain an ETag response header field indicating the
current value of the entity tag for the requested variant just created,
see Section 14.19.
The "ETag" response header is mentioned again in the definition of
206 Partial Content (Section 10.2.7)
and 304 Not Modified (Section 10.3.5),
but notably missing are statements about other 2xx series status codes
that can occur upon a successful PUT operation, such as 200 OK (Section 10.2.1)
and 204 No Content (Section 10.2.5).
Summarizing, the specification is a bit vague about what an ETag
response header upon a write operation means,
but this problem is somewhat mitigated by the precise definition
of a response header. A proposal for enhancing
in this regard is made in below.
While working on the revision of , the IETF WebDAV
working group realized that this is a generic problem that needs attention
independently of WebDAV. An initial attempt was made with
in February 2006, but no
progress was made since.
Since then, two specifications based on HTTP
were just published by the RFC Editor, taking two opposite approaches:
Section 8.5 of makes it a MUST-level
requirement to return an entity tag upon PUT, even though the very nature of
an XCAP server will cause it to rewrite contents (due to its XML-based
storage).
Section 5.3.4 of explicitly forbids
("MUST NOT") returning an entity tag upon PUT if the content was rewritten.
In essence, this makes it impossible to implement an HTTP resource that
conforms to both specifications. Due to the differing use cases of XCAP and CalDAV,
this may not be a problem in practice, but the disagreement in itself is
scary. Publication of these specifications on the standards track will
make it much harder for future protocols to deal with this topic in a
meaningful way (comments were sent during IETF Last Call for CalDAV,
see ).
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 .
The terminology used here follows and extends that in the HTTP specification
, notably the augmented Backus-Naur Form (BNF) defined
in Section 2.1 of that document.
This section describes a minimal change to , proposed
in .
At the end of Section 10.2 of , add:
The response MAY contain an ETag response header field indicating the
current value of the entity tag (Section 14.19) for the requested
variant. The value SHOULD be the same as the one returned upon a
subsequent HEAD request addressing the same variant.
In Section 10.2.1 of , remove:
A 201 response MAY contain an ETag response header field indicating
the current value of the entity tag for the requested variant just
created, see Section 14.19.
In essence, this moves the statement about entity tags in write operations
from the specific case of status 201 Created into the more generic
description of the 2xx series status codes.
Note that the term "requested variant" is somewhat misleading, in particular
in the context of write operations (see
on the RFC2616bis issues list).
The 'Entity-Transform' entity header provides information about whether a
transformation has been applied to an entity body.
When used in an HTTP request, its meaning is undefined. In an HTTP response,
it provides information whether the server has applied a transformation
when the entity was stored last.
In general, entity headers may be stored in intermediates. The main use
of this header however applies to the HTTP PUT method, of which by default
the results are not cacheable (see , Section 9.6).
In addition, the value format is defined so that a client can reliably
detect whether the information is fresh.
The entity-tag specifies the entity body to which this information applies.
An entity-transform-keyword of "identity" specifies that the origin server has stored the
entity octet-by-octet, thus the user agent MAY use a local copy of the entity body
with the given entity-tag for subsequent requests that rely on octet-by-octet identity (such
as a PUT with "Range" request header).
Both the absence of this response header and any entity-transform-keyword value other than "identity"
specify that the origin server may have transformed the entity before
storage, thus a subsequent retrieval will not necessarily return an exact
copy of the submitted entity.
Note: usage of keywords other than "identity" or "unspecified" is
reserved for future revisisions of this specification.
Further note that the definition of the "identity" keyword is independant
of the type of entity-tag. Thus, when "identity" is returned with a weak
entity-tag, the client can indeed rely on octet-by-octet identity.
The clarification of (see )
makes it clear that user agents can use "ETag" headers obtained in write
operations, as long as they do not require octet-by-octet identity. In
particular, a new entity tag can be returned for any method, such
as a WebDAV PROPPATCH (see , Section 9.2).
This helps dealing with the problem described in .
See for details.
The addition of the "Entity-Transform" header (see )
enables origin servers to signal that they stored an exact copy of the
content, thus allowing clients not to refetch the content. Note that by
default (in absence of the response header), a client can not make any
assumptions about the server's behavior in this regard. Thus clients will
only benefit from new servers explicitly setting the new header.
This document specifies the new HTTP header listed below.
Entity-TransformhttpinformationalIETF of this specification
This specification introduces no new security considerations beyond those
discussed in Section 15 of .
Key words for use in RFCs to Indicate Requirement LevelsHarvard Universitysob@harvard.eduHypertext Transfer Protocol -- HTTP/1.1University of California, Irvinefielding@ics.uci.eduW3Cjg@w3.orgCompaq Computer Corporationmogul@wrl.dec.comMIT Laboratory for Computer Sciencefrystyk@w3.orgXerox Corporationmasinter@parc.xerox.comMicrosoft Corporationpaulle@microsoft.comW3Ctimbl@w3.orgHTTP Extensions for Distributed Authoring -- WEBDAVMicrosoft Corporationyarong@microsoft.comDept. Of Information and Computer Science, University of California, Irvineejw@ics.uci.eduNetscapeasad@netscape.comNovellsrcarter@novell.comNovelldcjensen@novell.comCalendaring Extensions to WebDAV (CalDAV)Apple Inc.1 Infinite LoopCupertinoCA95014USAcyrus@daboo.namehttp://www.apple.com/Oracle Corporation600 Blvd. de Maisonneuve WestSuite 1900MontrealQCH3A 3J2CANADAbernard.desruisseaux@oracle.comhttp://www.oracle.com/CommerceNet169 University Ave.Palo AltoCA94301USAldusseault@commerce.nethttp://commerce.net/HTML 4.01 SpecificationW3Cdsr@w3.orgW3CW3CDesign Considerations for State Identifiers in HTTP and WebDAVUC Santa Cruz, Dept. of Computer Science1156 High StreetSanta CruzCA95064ejw@cse.ucsc.edu
(Not updated since.)
The Extensible Markup Language (XML) Configuration Access Protocol (XCAP)Cisco Systemsjdrosen@cisco.comHTTP Extensions for Web Distributed Authoring and Versioning (WebDAV)CommerceNet2064 Edgewood Dr.Palo AltoCA94303USldusseault@commerce.netThe Atom Publishing ProtocolGooglejoe@bitworking.orghttp://bitworking.org/NewBay Softwarebill@dehora.nethttp://dehora.net/
Let us consider a server not having the quality of preserving octet-by-octet
identity, for instance because
of SVN-style keyword expansion in text content ().
In this case, the client has previously retrieved the representation for
<http://example.com/test>, and the server has returned the ETag "1":
The client now wants to update the resource. To avoid overwriting
somebody else's changes, it submits the PUT request with the HTTP
"If-Match" request header (see , Section 14.24):
If the resource was modified in the meantime, the server will reject
the request with a 412 Precondition Failed status:
In this case, the client usually has take care of merging the changes
made locally with those made on the server ("Merge Conflict").
If there was no overlapping update, the server will execute the
request and return a new entity tag:
What seems to be a problem at first may not be a real problem in
practice. Let us assume that the client continues editing the resource,
using the entity tag obtained from the previous request, but editing
the entity it last sent:
Assuming there was no overlapping update, the PUT request will succeed:
Note that the only problem here is that the client doesn't have an exact
copy of the entity it is editing. However, from the server's point of view
this is entirely irrelevant, because the "Revision" keyword will be
automatically updated upon every write anyway.
In any case, the final contents will be:
In the example above (, Response 2b), the server
returns an ETag response header upon PUT, although the content actually
was rewritten due to keyword substitution.
A server implementing this specification would instead respond with:
This indicates that the content that was sent is not
octet-by-octet identical to what a subsequent GET request would retrieve.
It is then up to the client to decide whether it wants to re-fetch the
content before continuing edits.
In this example, the server exposes data extracted from the HTML
<title> element (, Section 7.4.2)
as a custom WebDAV property (, Section 4),
allowing both read and write access.
In the first step, the client obtains the current representation for
<http://example.com/test.html>: