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+Network Working Group J. C. Mogul
+Request for Comments: 2145 DEC
+Category: Informational R. Fielding
+ UC Irvine
+ J. Gettys
+ DEC
+ H. Frystyk
+ MIT/LCS
+ May 1997
+
+ Use and Interpretation of
+ HTTP Version Numbers
+
+Status of this Memo
+
+ This memo provides information for the Internet community. This memo
+ does not specify an Internet standard of any kind. Distribution of
+ this memo is unlimited.
+
+ Distribution of this document is unlimited. Please send comments to
+ the HTTP working group at <[email protected]>. Discussions
+ of the working group are archived at
+ <URL:http://www.ics.uci.edu/pub/ietf/http/>. General discussions
+ about HTTP and the applications which use HTTP should take place on
+ the <[email protected]> mailing list.
+
+Abstract
+
+ HTTP request and response messages include an HTTP protocol version
+ number. Some confusion exists concerning the proper use and
+ interpretation of HTTP version numbers, and concerning
+ interoperability of HTTP implementations of different protocol
+ versions. This document is an attempt to clarify the situation. It
+ is not a modification of the intended meaning of the existing
+ HTTP/1.0 and HTTP/1.1 documents, but it does describe the intention
+ of the authors of those documents, and can be considered definitive
+ when there is any ambiguity in those documents concerning HTTP
+ version numbers, for all versions of HTTP.
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+Mogul, et. al. Informational [Page 1]
+
+RFC 2145 HTTP Version Numbers May 1997
+
+
+TABLE OF CONTENTS
+
+ 1 Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . 2
+ 1.1 Robustness Principle . . . . . . . . . . . . . . . . . . 3
+ 2 HTTP version numbers. . . . . . . . . . . . . . . . . . . . . . 3
+ 2.1 Proxy behavior. . . . . . . . . . . . . . . . . . . . . . . . 4
+ 2.2 Compatibility between minor versions of the same major
+ version. . . . . . . . . . . . . . . . . . . . . . . . 4
+ 2.3 Which version number to send in a message. . . . . . . . 5
+ 3 Security Considerations . . . . . . . . . . . . . . . . . . . . 6
+ 4 References. . . . . . . . . . . . . . . . . . . . . . . . . . . 6
+ 5 Authors' addresses. . . . . . . . . . . . . . . . . . . . . . . 6
+
+1 Introduction
+
+ HTTP request and response messages include an HTTP protocol version
+ number. According to section 3.1 of the HTTP/1.1 specification [2],
+
+ HTTP uses a "<major>.<minor>" numbering scheme to indicate
+ versions of the protocol. The protocol versioning policy is
+ intended to allow the sender to indicate the format of a message
+ and its capacity for understanding further HTTP communication,
+ rather than the features obtained via that communication. No
+ change is made to the version number for the addition of message
+ components which do not affect communication behavior or which
+ only add to extensible field values. The <minor> number is
+ incremented when the changes made to the protocol add features
+ which do not change the general message parsing algorithm, but
+ which may add to the message semantics and imply additional
+ capabilities of the sender. The <major> number is incremented when
+ the format of a message within the protocol is changed.
+
+ The same language appears in the description of HTTP/1.0 [1].
+
+ Many readers of these documents have expressed some confusion about
+ the intended meaning of this policy. Also, some people who wrote
+ HTTP implementations before RFC1945 [1] was issued were not aware of
+ the intentions behind the introduction of version numbers in
+ HTTP/1.0. This has led to debate and inconsistency regarding the use
+ and interpretation of HTTP version numbers, and has led to
+ interoperability problems in certain cases.
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+Mogul, et. al. Informational [Page 2]
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+RFC 2145 HTTP Version Numbers May 1997
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+
+ This document is an attempt to clarify the situation. It is not a
+ modification of the intended meaning of the existing HTTP/1.0 and
+ HTTP/1.1 documents, but it does describe the intention of the authors
+ of those documents. In any case where either of those two documents
+ is ambiguous regarding the use and interpretation of HTTP version
+ numbers, this document should be considered the definitive as to the
+ intentions of the designers of HTTP.
+
+ The specification described in this document is not part of the
+ specification of any individual version of HTTP, such as HTTP/1.0 or
+ HTTP/1.1. Rather, this document describes the use of HTTP version
+ numbers in any version of HTTP (except for HTTP/0.9, which did not
+ include version numbers).
+
+ No vendor or other provider of an HTTP implementation should claim
+ any compliance with any IETF HTTP specification unless the
+ implementation conditionally complies with the rules in this
+ document.
+
+1.1 Robustness Principle
+
+ RFC791 [4] defines the "robustness principle" in section 3.2:
+
+ an implementation must be conservative in its sending
+ behavior, and liberal in its receiving behavior.
+
+ This principle applies to HTTP, as well. It is the fundamental basis
+ for interpreting any part of the HTTP specification that might still
+ be ambiguous. In particular, implementations of HTTP SHOULD NOT
+ reject messages or generate errors unnecessarily.
+
+2 HTTP version numbers
+
+ We start by restating the language quoted above from section 3.1 of
+ the HTTP/1.1 specification [2]:
+
+ It is, and has always been, the explicit intent of the
+ HTTP specification that the interpretation of an HTTP message
+ header does not change between minor versions of the same major
+ version.
+
+ It is, and has always been, the explicit intent of the
+ HTTP specification that an implementation receiving a message
+ header that it does not understand MUST ignore that header. (The
+ word "ignore" has a special meaning for proxies; see section 2.1
+ below.)
+
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+Mogul, et. al. Informational [Page 3]
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+RFC 2145 HTTP Version Numbers May 1997
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+ To make this as clear as possible: The major version sent in a
+ message MAY indicate the interpretation of other header fields. The
+ minor version sent in a message MUST NOT indicate the interpretation
+ of other header fields. This reflects the principle that the minor
+ version labels the capability of the sender, not the interpretation
+ of the message.
+
+ Note: In a future version of HTTP, we may introduce a mechanism
+ that explicitly requires a receiving implementation to reject a
+ message if it does not understand certain headers. For example,
+ this might be implemented by means of a header that lists a set of
+ other message headers that must be understood by the recipient.
+ Any implementation claiming at least conditional compliance with
+ this future version of HTTP would have to implement this
+ mechanism. However, no implementation claiming compliance with a
+ lower HTTP version (in particular, HTTP/1.1) will have to
+ implement this mechanism.
+
+ This future change may be required to support the Protocol
+ Extension Protocol (PEP) [3].
+
+ One consequence of these rules is that an HTTP/1.1 message sent to an
+ HTTP/1.0 recipient (or a recipient whose version is unknown) MUST be
+ constructed so that it remains a valid HTTP/1.0 message when all
+ headers not defined in the HTTP/1.0 specification [1] are removed.
+
+2.1 Proxy behavior
+
+ A proxy MUST forward an unknown header, unless it is protected by a
+ Connection header. A proxy implementing an HTTP version >= 1.1 MUST
+ NOT forward unknown headers that are protected by a Connection
+ header, as described in section 14.10 of the HTTP/1.1 specification
+ [2].
+
+ We remind the reader that that HTTP version numbers are hop-by-hop
+ components of HTTP messages, and are not end-to-end. That is, an
+ HTTP proxy never "forwards" an HTTP version number in either a
+ request or response.
+
+2.2 Compatibility between minor versions of the same major version
+
+ An implementation of HTTP/x.b sending a message to a recipient whose
+ version is known to be HTTP/x.a, a < b, MAY send a header that is not
+ defined in the specification for HTTP/x.a. For example, an HTTP/1.1
+ server may send a "Cache-control" header to an HTTP/1.0 client; this
+ may be useful if the immediate recipient is an HTTP/1.0 proxy, but
+ the ultimate recipient is an HTTP/1.1 client.
+
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+Mogul, et. al. Informational [Page 4]
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+RFC 2145 HTTP Version Numbers May 1997
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+ An implementation of HTTP/x.b sending a message to a recipient whose
+ version is known to be HTTP/x.a, a < b, MUST NOT depend on the
+ recipient understanding a header not defined in the specification for
+ HTTP/x.a. For example, HTTP/1.0 clients cannot be expected to
+ understand chunked encodings, and so an HTTP/1.1 server must never
+ send "Transfer-Encoding: chunked" in response to an HTTP/1.0 request.
+
+2.3 Which version number to send in a message
+
+ The most strenuous debate over the use of HTTP version numbers has
+ centered on the problem of implementations that do not follow the
+ robustness principle, and which fail to produce useful results when
+ they receive a message with an HTTP minor version higher than the
+ minor version they implement. We consider these implementations
+ buggy, but we recognize that the robustness principle also implies
+ that message senders should make concessions to buggy implementations
+ when this is truly necessary for interoperation.
+
+ An HTTP client SHOULD send a request version equal to the highest
+ version for which the client is at least conditionally compliant, and
+ whose major version is no higher than the highest version supported
+ by the server, if this is known. An HTTP client MUST NOT send a
+ version for which it is not at least conditionally compliant.
+
+ An HTTP client MAY send a lower request version, if it is known that
+ the server incorrectly implements the HTTP specification, but only
+ after the client has determined that the server is actually buggy.
+
+ An HTTP server SHOULD send a response version equal to the highest
+ version for which the server is at least conditionally compliant, and
+ whose major version is less than or equal to the one received in the
+ request. An HTTP server MUST NOT send a version for which it is not
+ at least conditionally compliant. A server MAY send a 505 (HTTP
+ Version Not Supported) response if cannot send a response using the
+ major version used in the client's request.
+
+ An HTTP server MAY send a lower response version, if it is known or
+ suspected that the client incorrectly implements the HTTP
+ specification, but this should not be the default, and this SHOULD
+ NOT be done if the request version is HTTP/1.1 or greater.
+
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+RFC 2145 HTTP Version Numbers May 1997
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+3 Security Considerations
+
+ None, except to the extent that security mechanisms introduced in one
+ version of HTTP might depend on the proper interpretation of HTTP
+ version numbers in older implementations.
+
+4 References
+
+ 1. Berners-Lee, T., R. Fielding, and H. Frystyk. Hypertext
+ Transfer Protocol -- HTTP/1.0. RFC 1945, HTTP Working Group, May,
+ 1996.
+
+ 2. Fielding, Roy T., Jim Gettys, Jeffrey C. Mogul, Henrik Frystyk
+ Nielsen, and Tim Berners-Lee. Hypertext Transfer Protocol --
+ HTTP/1.1. RFC 2068, HTTP Working Group, January, 1997.
+
+ 3. Khare, Rohit. HTTP/1.2 Extension Protocol (PEP). HTTP Working
+ Group, Work in Progress.
+
+ 4. Postel, Jon. Internet Protocol. RFC 791, NIC, September, 1981.
+
+5 Authors' addresses
+
+ Jeffrey C. Mogul
+ Western Research Laboratory
+ Digital Equipment Corporation
+ 250 University Avenue
+ Palo Alto, California, 94305, USA
+ Email: [email protected]
+
+ Roy T. Fielding
+ Department of Information and Computer Science
+ University of California
+ Irvine, CA 92717-3425, USA
+ Fax: +1 (714) 824-4056
+ Email: [email protected]
+
+ Jim Gettys
+ MIT Laboratory for Computer Science
+ 545 Technology Square
+ Cambridge, MA 02139, USA
+ Fax: +1 (617) 258 8682
+ Email: [email protected]
+
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+Mogul, et. al. Informational [Page 6]
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+RFC 2145 HTTP Version Numbers May 1997
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+ Henrik Frystyk Nielsen
+ W3 Consortium
+ MIT Laboratory for Computer Science
+ 545 Technology Square
+ Cambridge, MA 02139, USA
+ Fax: +1 (617) 258 8682
+ Email: [email protected]
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