datavow.com - Documents

1) Introduction
- 1) Purpose
- 2) Requirements
- 3) Terminology
- 4) Overall Operation
2) Notational Conventions and Generic Grammar
- 1) Augmented BNF
- 2) Basic Rules
3) Protocol Parameters
- 1) HTTP Version
- 2) Uniform Resource Identifiers
- 3) Date/Time Formats
  - 1) Full Date
  - 2) Delta Seconds
- 4) Character Sets
  - 1) Missing Charset
- 5) Content Codings
- 6) Transfer Codings
  - 1) Chunked Transfer Coding
- 7) Media Types
  - 1) Canonicalization and Text Defaults
  - 2) Multipart Types
- 8) Product Tokens
- 9) Quality Values
- 10) Language Tags
- 11) Entity Tags
- 12) Range Units
4) HTTP Message
- 1) Message Types
- 2) Message Headers
- 3) Message Body
- 4) Message Length
- 5) General Header Fields
5) Request
- 1) Request-Line
  - 1) Method
  - 2) Request-URI
- 2) The Resource Identified by a Request
- 3) Request Header Fields
6) Response
- 1) Status-Line
  - 1) Status Code and Reason Phrase
- 2) Response Header Fields
7) Entity
- 1) Entity Header Fields
- 2) Entity Body
  - 1) Type
  - 2) Entity Length
8) Connections
- 1) Persistent Connections
- 2) Message Transmission Requirements
9) Method Definitions
- 1) Safe and Idempotent Methods
  - 1) Safe Methods
  - 2) Idempotent Methods
- 2) OPTIONS
- 3) GET
- 4) HEAD
- 5) POST
- 6) PUT
- 7) DELETE
- 8) TRACE
- 9) CONNECT
10) Status Code Definitions
- 1) Informational 1xx
  - 1) Continue
  - 2) Switching Protocols
- 2) Successful 2xx
- 3) Redirection 3xx
- 4) Client Error 4xx
- 5) Server Error 5xx
11) Access Authentication
12) Content Negotiation
- 1) Server-driven Negotiation
- 2) Agent-driven Negotiation
- 3) Transparent Negotiation
13) Caching in HTTP
- 1) ..
- 2) Expiration Model
- 3) Validation Model
- 4) Response Cacheability
- 5) Constructing Responses From Caches
- 6) Caching Negotiated Responses
- 7) Shared and Non-Shared Caches
- 8) Errors or Incomplete Response Cache Behavior
- 9) Side Effects of GET and HEAD
- 10) Invalidation After Updates or Deletions
- 11) Write-Through Mandatory
- 12) Cache Replacement
- 13) History Lists
14) Header Field Definitions
- 1) Accept
- 2) Accept-Charset
- 3) Accept-Encoding
- 4) Accept-Language
- 5) Accept-Ranges
- 6) Age
- 7) Allow
- 8) Authorization
- 9) Cache-Control
  - 1) What is Cacheable
  - 2) What May be Stored by Caches
  - 3) Modifications of the Basic Expiration Mechanism
  - 4) Cache Revalidation and Reload Controls
  - 5) No-Transform Directive
  - 6) Cache Control Extensions
- 10) Connection
- 11) Content-Encoding
- 12) Content-Language
- 13) Content-Length
- 14) Content-Location
- 15) Content-MD5
- 16) Content-Range
- 17) Content-Type
- 18) Date
  - 1) Clockless Origin Server Operation
- 19) ETag
- 20) Expect
- 21) Expires
- 22) From
- 23) Host
- 24) If-Match
- 25) If-Modified-Since
- 26) If-None-Match
- 27) If-Range
- 28) If-Unmodified-Since
- 29) Last-Modified
- 30) Location
- 31) Max-Forwards
- 32) Pragma
- 33) Proxy-Authenticate
- 34) Proxy-Authorization
- 35) Range
  - 1) Byte Ranges
  - 2) Range Retrieval Requests
- 36) Referer
- 37) Retry-After
- 38) Server
- 39) TE
- 40) Trailer
- 41) Transfer-Encoding
- 42) Upgrade
- 43) User-Agent
- 44) Vary
- 45) Via
- 46) Warning
- 47) WWW-Authenticate
15) Security Considerations
- 1) Personal Information
- 2) Attacks Based On File and Path Names
- 3) DNS Spoofing
- 4) Location Headers and Spoofing
- 5) Content-Disposition Issues
- 6) Authentication Credentials and Idle Clients
- 7) Proxies and Caching
  - 1) Denial of Service Attacks on Proxies
16) Acknowledgments
17) References
18) Authors' Addresses
19) Appendices
- 1) Internet Media Type message/http and application/http
- 2) Internet Media Type multipart/byteranges
- 3) Tolerant Applications
- 4) Differences Between HTTP Entities and RFC 2045 Entities
- 5) Additional Features
  - 1) Content-Disposition
- 6) Compatibility with Previous Versions
20) Index
21) Full Copyright Statement
22) Acknowledgement

14.39 TE

The TE request-header field indicates what extension transfer-codings it is willing to accept in the response and whether or not it is willing to accept trailer fields in a chunked transfer-coding. Its value may consist of the keyword "trailers" and/or a comma-separated list of extension transfer-coding names with optional accept parameters (as described in Section 3.6).

TE	= "TE" ":" #( t-codings )
t-codings	= "trailers" \| ( transfer-extension [ accept-params ] )

The presence of the keyword "trailers" indicates that the client is willing to accept trailer fields in a chunked transfer-coding, as defined in Section 3.6.1. This keyword is reserved for use with transfer-coding values even though it does not itself represent a transfer-coding.

Examples of its use are:

TE: deflate

TE:

TE: trailers, deflate;q=0.5

The TE header field only applies to the immediate connection. Therefore, the keyword MUST be supplied within a Connection header field (Section 14.10) whenever TE is present in an HTTP/1.1 message.

A server tests whether a transfer-coding is acceptable, according to a TE field, using these rules:

The "chunked" transfer-coding is always acceptable. If the keyword "trailers" is listed, the client indicates that it is willing to accept trailer fields in the chunked response on behalf of itself and any downstream clients. The implication is that, if given, the client is stating that either all downstream clients are willing to accept trailer fields in the forwarded response, or that it will attempt to buffer the response on behalf of downstream recipients.
Note: HTTP/1.1 does not define any means to limit the size of a chunked response such that a client can be assured of buffering the entire response.
If the transfer-coding being tested is one of the transfer- codings listed in the TE field, then it is acceptable unless it is accompanied by a qvalue of 0. (As defined in Section 3.9, a qvalue of 0 means "not acceptable.")
If multiple transfer-codings are acceptable, then the acceptable transfer-coding with the highest non-zero qvalue is preferred. The "chunked" transfer-coding always has a qvalue of 1.

If the TE field-value is empty or if no TE field is present, the only transfer-coding is "chunked". A message with no transfer-coding is always acceptable.