List of HTTP header fields

This article lists standard and notable non-standard HTTP header fields.

A core set of fields is standardized by the Internet Engineering Task Force (IETF) in RFC 9110 and 9111. The Field Names, Header Fields and Repository of Provisional Registrations are maintained by the IANA. Additional fields may be defined by a web application.

In the past, non-standard header field names were prefixed with X- but this convention was deprecated in June 2012 because of the inconveniences it caused when non-standard fields became standard.^[1] An earlier restriction on use of Downgraded- was lifted in March 2013.^[2]

A few field values can contain comments (i.e. in User-Agent, Server, Via fields), which can be ignored by software.^[3]

Many field values may contain a quality (q) key-value pair separated by equals sign, specifying a weight to use in content negotiation.^[4] For example, a browser may indicate that it accepts information in German or English, with German as preferred by setting the q value for de higher than that of en, as follows:

Accept-Language: de; q=1.0, en; q=0.5

Request fields

This section lists header fields used in a request.

Standard request fields

A-IM

[RFC 3229, permanent] Acceptable instance-manipulations for the request.^[5]

For example: A-IM: feed

Accept

[RFC 9110, permanent] Media type(s) that is/are acceptable for the response. See Content negotiation.

For example: Accept: text/html

Accept-Charset

[RFC 9110, permanent] Character sets that are acceptable.

For example: Accept-Charset: utf-8

Accept-Datetime

[RFC 7089, provisional] Acceptable version in time.

For example: Accept-Datetime: Thu, 31 May 2007 20:35:00 GMT

Accept-Encoding

[RFC 9110, permanent] List of acceptable encodings. See HTTP compression.

For example: Accept-Encoding: gzip, deflate

Accept-Language

[RFC 9110, permanent] List of acceptable human languages for response. See Content negotiation.

For example: Accept-Language: en-US

Access-Control-Request-Method, Access-Control-Request-Headers

[permanent] Initiates a request for cross-origin resource sharing with Origin (below).^[6]

For example: Access-Control-Request-Method: GET

Authorization

[RFC 9110, permanent] Authentication credentials for HTTP authentication.

For example: Authorization: Basic QWxhZGRpbjpvcGVuIHNlc2FtZQ==

Cache-Control

[RFC 9111, permanent] Used to specify directives that must be obeyed by all caching mechanisms along the request-response chain. Per HTTP/1.1, the no-cache value allows the browser to tell the server and intermediate caches that it wants a fresh version of the resource. The HTTP/1.0, Pragma: no-cache header field has the same purpose.^[7]

The behavior of Pragma: no-cache in a response is not specified yet some user agents support it.^[8] HTTP/1.1 specifically warns against relying on this behavior.

For example: Cache-Control: no-cache

Connection

[RFC 9110, permanent] Control options for the current connection and list of hop-by-hop request fields.^[9] Must not be used with HTTP/2.^[10]

For example: Connection: keep-alive Connection: Upgrade

Content-Encoding

[RFC 9110, permanent] The type of encoding used on the data. See HTTP compression.

For example: Content-Encoding: gzip

Content-Length

[RFC 9110, permanent] The length of the request body in octets (8-bit bytes).

For example: Content-Length: 348

Content-MD5

[RFC 1544, 1864, 4021, obsolete] A Base64-encoded binary MD5 sum of the content of the request body.^[11]

For example: Content-MD5: Q2hlY2sgSW50ZWdyaXR5IQ==

Content-Type

[RFC 9110, permanent] The Media type of the body of the request (used with POST and PUT requests).

For example: Content-Type: application/x-www-form-urlencoded

[RFC 2965, 6265, permanent] An HTTP cookie previously sent by the server with Set-Cookie (below).

For example: Cookie: $Version=1; Skin=new;

Date

[RFC 9110, permanent] The date and time at which the message was originated (in "HTTP-date" format as defined by RFC 9110: HTTP Semantics, section 5.6.7 "Date/Time Formats").

For example: Date: Tue, 15 Nov 1994 08:12:31 GMT

Expect

[RFC 9110, permanent] Indicates that particular server behaviors are required by the client.

For example: Expect: 100-continue

Forwarded

[RFC 7239, permanent] Disclose original information of a client connecting to a web server through an HTTP proxy.^[12]

For example: Forwarded: for=192.0.2.60;proto=http;by=203.0.113.43 Forwarded: for=192.0.2.43, for=198.51.100.17

From

[RFC 9110, permanent] The email address of the user making the request.

For example: From: user@example.com

Host

[RFC 9110, 9113, permanent] The domain name of the server (for virtual hosting), and the TCP port number on which the server is listening. The port number may be omitted if the port is the standard port for the service requested. Mandatory since HTTP/1.1.^[13] If the request is generated directly in HTTP/2, it should not be used.^[14]

For example: Host: en.wikipedia.org:8080 Host: en.wikipedia.org

HTTP2-Settings

[RFC 7540, 9113, obsolete] A request that upgrades from HTTP/1.1 to HTTP/2 MUST include exactly one HTTP2-Settings header field. The HTTP2-Settings header field is a connection-specific header field that includes parameters that govern the HTTP/2 connection, provided in anticipation of the server accepting the request to upgrade.^[15]^[16]

For example: HTTP2-Settings: token64

If-Match

[RFC 9110, permanent] Only perform the action if the client supplied entity matches the same entity on the server. This is mainly for methods like PUT to only update a resource if it has not been modified since the user last updated it.

For example: If-Match: "737060cd8c284d8af7ad3082f209582d"

If-Modified-Since

[RFC 9110, permanent] Allows a 304 Not Modified to be returned if content is unchanged.

For example: If-Modified-Since: Sat, 29 Oct 1994 19:43:31 GMT

If-None-Match

[RFC 9110, permanent] Allows a 304 Not Modified to be returned if content is unchanged, see HTTP ETag.

For example: If-None-Match: "737060cd8c284d8af7ad3082f209582d"

If-Range

[RFC 9110, permanent] If the entity is unchanged, send me the part(s) that I am missing; otherwise, send me the entire new entity.

For example: If-Range: "737060cd8c284d8af7ad3082f209582d"

If-Unmodified-Since

[RFC 9110, permanent] Only send the response if the entity has not been modified since a specific time.

For example: If-Unmodified-Since: Sat, 29 Oct 1994 19:43:31 GMT

Max-Forwards

[RFC 9110, permanent] Limit the number of times the message can be forwarded through proxies or gateways.

For example: Max-Forwards: 10

Origin

[RFC 6454, permanent] Initiates a request for cross-origin resource sharing (asks server for Access-Control-* response fields).^[6]

For example: Origin: http://www.example-social-network.com

Pragma

[RFC 9111, outdated] Implementation-specific fields that may have various effects anywhere along the request-response chain.

For example: Pragma: no-cache

Prefer

[RFC 7240, permanent] Allows client to request that certain behaviors be employed by a server while processing a request.

For example: Prefer: return=representation

Proxy-Authorization

[RFC 9110, permanent] Authorization credentials for connecting to a proxy.

For example: Proxy-Authorization: Basic QWxhZGRpbjpvcGVuIHNlc2FtZQ==

Range

[RFC 9110, permanent] Request only part of an entity. Bytes are numbered from 0. See Byte serving.

For example: Range: bytes=500-999

Referer [sic]

[RFC 9110, permanent] The address of the previous web page from which a link to the currently requested page was followed.

Although the intended term is actually spelled "referrer", the misspelling is in the RFC as well as in most implementations, and is therefore considered correct terminology.

For example: Referer: http://en.wikipedia.org/wiki/Main_Page

TE

[RFC 9110, permanent] The transfer encodings the user agent is willing to accept: the same values as for the response header field Transfer-Encoding can be used, plus the "trailers" value (related to the "chunked" transfer method) to notify the server it expects to receive additional fields in the trailer after the last, zero-sized, chunk. Only trailers is supported in HTTP/2.^[10]

For example: TE: trailers, deflate

Trailer

[RFC 9110, permanent] The Trailer general field value indicates that the given set of header fields is present in the trailer of a message encoded with chunked transfer coding.

For example: Trailer: Max-Forwards

Transfer-Encoding

[RFC 9110, permanent] The form of encoding used to safely transfer the entity to the user. Currently defined methods are: chunked, compress, deflate, gzip, identity. Must not be used with HTTP/2.^[10]

For example: Transfer-Encoding: chunked

User-Agent

[RFC 9110, permanent] The user agent string of the user agent.

For example: User-Agent: Mozilla/5.0 (X11; Linux x86_64; rv:12.0) Gecko/20100101 Firefox/12.0

Upgrade

[RFC 9110, permanent] Ask the server to upgrade to another protocol. Must not be used in HTTP/2.^[10]

For example: Upgrade: h2c, HTTPS/1.3, IRC/6.9, RTA/x11, websocket

Via

[RFC 9110, permanent] Informs the server of proxies through which the request was sent.

For example: Via: 1.0 fred, 1.1 example.com (Apache/1.1)

Warning

[RFC 7234, 9111, obsolete] A warning about a possible problem with the entity body.^[17] Since this header is often neither sent by servers nor acknowledged by clients, this header and its codes were obsoleted by the HTTP Working Group in 2022 with RFC 9111.^[18]

The following caching related warning codes were specified under RFC 7234.^[19]^[20]

110 Response is Stale: The response provided by a cache is stale (the content's age exceeds a maximum age set by a Cache-Control header or heuristically chosen lifetime).

111 Revalidation Failed: The cache was unable to validate the response, due to an inability to reach the origin server.

112 Disconnected Operation: The cache is intentionally disconnected from the rest of the network.

113 Heuristic Expiration: The cache heuristically chose a freshness lifetime greater than 24 hours and the response's age is greater than 24 hours.

199 Miscellaneous Warning: Arbitrary, non-specific warning. The warning text may be logged or presented to the user.

214 Transformation Applied: Added by a proxy if it applies any transformation to the representation, such as changing the content encoding, media type or the like.

299 Miscellaneous Persistent Warning: Same as 199, but indicating a persistent warning.

For example: Warning: 199 Miscellaneous warning

Common non-standard request fields

Upgrade-Insecure-Requests

Tells a server which (presumably in the middle of a HTTP -> HTTPS migration) hosts mixed content that the client would prefer redirection to HTTPS and can handle Content-Security-Policy: upgrade-insecure-requests ^[21]

For example: Upgrade-Insecure-Requests: 1

X-Requested-With

Mainly used to identify Ajax requests (most JavaScript frameworks send this field with value of XMLHttpRequest); also identifies Android apps using WebView^[22]

For example: X-Requested-With: XMLHttpRequest

DNT

Requests a web application to disable their tracking of a user. This is Mozilla's version of the X-Do-Not-Track header field (since Firefox 4.0 Beta 11). Safari and IE9 also have support for this field.^[23] On March 7, 2011, a draft proposal was submitted to IETF.^[24] The W3C Tracking Protection Working Group is producing a specification.^[25]^[26]

For example:

DNT: 1 (Do Not Track Enabled)

DNT: 0 (Do Not Track Disabled)

X-Forwarded-For

A de facto standard for identifying the originating IP address of a client connecting to a web server through an HTTP proxy or load balancer. Superseded by Forwarded header.^[27]

For example: X-Forwarded-For: client1, proxy1, proxy2 X-Forwarded-For: 129.78.138.66, 129.78.64.103

X-Forwarded-Host

A de facto standard for identifying the original host requested by the client in the Host HTTP request header, since the host name and/or port of the reverse proxy (load balancer) may differ from the origin server handling the request. Superseded by Forwarded header.^[28]

For example:

X-Forwarded-Host: en.wikipedia.org:8080

X-Forwarded-Host: en.wikipedia.org

X-Forwarded-Proto

A de facto standard for identifying the originating protocol of an HTTP request, since a reverse proxy (or a load balancer) may communicate with a web server using HTTP even if the request to the reverse proxy is HTTPS. An alternative form of the header (X-ProxyUser-Ip) is used by Google clients talking to Google servers. Superseded by Forwarded header.^[29]

For example: X-Forwarded-Proto: https

Front-End-Https

Non-standard header field used by Microsoft applications and load-balancers.^[30]

For example: Front-End-Https: on

X-Http-Method-Override

Requests a web application to override the method specified in the request (typically POST) with the method given in the header field (typically PUT or DELETE). This can be used when a user agent or firewall prevents PUT or DELETE methods from being sent directly (this is either a bug in the software component, which ought to be fixed, or an intentional configuration, in which case bypassing it may be the wrong thing to do).^[31]

For example: X-HTTP-Method-Override: DELETE

X-ATT-DeviceId

Allows easier parsing of the MakeModel/Firmware that is usually found in the User-Agent String of AT&T Devices.^[32]

For example: X-Att-Deviceid: GT-P7320/P7320XXLPG

X-Wap-Profile

Links to an XML file on the Internet with a full description and details about the device currently connecting. In the example to the right is an XML file for an AT&T Samsung Galaxy S2.^[33]

For example: x-wap-profile: http://wap.samsungmobile.com/uaprof/SGH-I777.xml

Proxy-Connection

Implemented as a misunderstanding of the HTTP specifications. Common because of mistakes in implementations of early HTTP versions. Has exactly the same functionality as standard Connection field. Must not be used with HTTP/2.^[34]^[10]

For example: Proxy-Connection: keep-alive

X-UIDH

Server-side deep packet inspection of a unique ID identifying customers of Verizon Wireless; also known as "perma-cookie" or "supercookie".^[35]^[36]^[37]

For example: X-UIDH: ...

X-Csrf-Token

Used to prevent cross-site request forgery. Alternative header names are: X-CSRFToken^[38] and X-XSRF-TOKEN^[39].^[40]

For example: X-Csrf-Token: i8XNjC4b8KVok4uw5RftR38Wgp2BFwql

X-Request-ID, X-Correlation-ID, Correlation-ID

Correlates HTTP requests between a client and server. Superseded by the traceparent header.^{[stackoverflow2 1]}^[41]^[42]^[43]^[44]

For example: X-Request-ID: f058ebd6-02f7-4d3f-942e-904344e8cde5

Save-Data

The Save-Data client hint request header available in Chrome, Opera, and Yandex browsers lets developers deliver lighter, faster applications to users who opt-in to data saving mode in their browser.^[45]

For example: Save-Data: on

Sec-GPC

The Sec-GPC (Global Privacy Control^{[broken anchor]}) request header indicates whether the user consents to a website or service selling or sharing their personal information with third parties.^[46]

For example: Sec-GPC: 1

Response fields

This section lists header fields used in a response.

Standard response fields

Accept-CH

[RFC 8942, experimental] Requests HTTP Client Hints.

For example: Accept-CH: UA, Platform

Access-Control-Allow-Origin, Access-Control-Allow-Credentials, Access-Control-Expose-Headers, Access-Control-Max-Age, Access-Control-Allow-Methods, Access-Control-Allow-Headers

[RFC 7480, permanent] Specifying which web sites can participate in cross-origin resource sharing.^[6]

For example: Access-Control-Allow-Origin: *

Accept-Patch

[RFC 5789, permanent] Specifies which patch document formats this server supports.^[47]

For example: Accept-Patch: text/example;charset=utf-8

Accept-Ranges

[RFC 9110, permanent] What partial content range types this server supports via byte serving.

For example: Accept-Ranges: bytes

Age

[RFC 9111, permanent] The age the object has been in a proxy cache in seconds.

For example: Age: 12

Allow

[RFC 9110, permanent] Valid methods for a specified resource. To be used for a 405 Method not allowed.

For example: Allow: GET, HEAD

Alt-Svc

[RFC 7838, permanent] A server uses "Alt-Svc" header (meaning Alternative Services) to indicate that its resources can also be accessed at a different network location (host or port) or using a different protocol. When using HTTP/2, servers should instead send an ALTSVC frame.^[48]

For example: Alt-Svc: http/1.1="http2.example.com:8001"; ma=7200

Cache-Control

[RFC 9111, permanent] Tells all caching mechanisms from server to client whether they may cache the response. A numeric value is in seconds.

If a web server responds with Cache-Control: no-cache, then a web browser or other caching system (intermediate proxies) must not use the response to satisfy subsequent requests without first checking with the originating server (this process is called validation). This header field is part of HTTP/1.1, and is ignored by some caches and browsers. It may be simulated by setting the Expires HTTP/1.0 header field value to a time earlier than the response time. Notice that no-cache is not instructing the browser or proxies about whether or not to cache the content. It tells the browser and proxies to validate the cache content with the server before using it (this is done via If-Modified-Since, If-Unmodified-Since, If-Match, and If-None-Match). Sending a no-cache value thus instructs a browser or proxy to not use the cache contents merely based on "freshness criteria" of the cache content. Another common way to prevent old content from being shown to the user without validation is Cache-Control: max-age=0 which instructs the user agent that the content is stale and should be validated before use.

The value no-store instructs a browser to not cache the response, yet the browser is allowed to cache it none-the-less. In particular, the HTTP/1.1 definition draws a distinction between history stores and caches. If the user navigates back to a previous page, a browser may show a page that was stored on disk in the history store. This is correct behavior according to the specification. Many user agents provide different behavior in loading pages from the history store or cache depending on whether the protocol is HTTP or HTTPS.

For example: Cache-Control: max-age=3600

Connection

[RFC 9110, permanent] Control options for the current connection and list of hop-by-hop response fields.^[9] Must not be used with HTTP/2.^[10]

For example: Connection: close

Content-Disposition

[RFC 2616, 4021, 6266, permanent] An opportunity to raise a "File Download" dialogue box for a known MIME type with binary format or suggest a filename for dynamic content. Quotes are necessary with special characters.^[49]

For example: Content-Disposition: attachment; filename="fname.ext"

Content-Encoding

[RFC 9110, permanent] The type of encoding used on the data. See HTTP compression.

For example: Content-Encoding: gzip

Content-Language

[RFC 9110, permanent] The natural language or languages of the intended audience for the enclosed content.^[50]

For example: Content-Language: da

Content-Length

[RFC 9110, permanent] The length of the response body in octets (8-bit bytes).

For example: Content-Length: 348

Content-Location

[RFC 9110, permanent] An alternate location for the returned data.

For example: Content-Location: /index.htm

Content-MD5

[RFC 1544, 1864, 4021, obsolete] A Base64-encoded binary MD5 sum of the content of the response.^[11]

For example: Content-MD5: Q2hlY2sgSW50ZWdyaXR5IQ==

Content-Range

[RFC 9110, permanent] Where in a full body message this partial message belongs.

For example: Content-Range: bytes 21010-47021/47022

Content-Type

[RFC 9110, permanent] The MIME type of this content.

For example: Content-Type: text/html; charset=utf-8

Date

[RFC 9110, permanent] The date and time that the message was sent (in "HTTP-date" format as defined by RFC 9110).

For example: Date: Tue, 15 Nov 1994 08:12:31 GMT

Delta-Base

[RFC 3229, permanent] Specifies the delta-encoding entity tag of the response.^[5]

For example: Delta-Base: "abc"

ETag

[RFC 9110, permanent] An identifier for a specific version of a resource, often a message digest.

For example: ETag: "737060cd8c284d8af7ad3082f209582d"

Expires

[RFC 9111, permanent] Gives the date/time after which the response is considered stale (in "HTTP-date" format as defined by RFC 9110).

For example: Expires: Thu, 01 Dec 1994 16:00:00 GMT

IM

[RFC 3229, permanent] Instance-manipulations applied to the response.^[5]

For example: IM: feed

Last-Modified

[RFC 9110, permanent] The last modified date for the requested object (in "HTTP-date" format as defined by RFC 9110).

For example: Last-Modified: Tue, 15 Nov 1994 12:45:26 GMT

Link

[RFC 8288, permanent] Used to express a typed relationship with another resource, where the relation type is defined by RFC 8288.^[51]

For example: Link: </feed>; rel="alternate"

Location

[RFC 9110, permanent] Used in redirection, or when a new resource has been created.

For example: Location: http://www.w3.org/pub/WWW/People.html

For example: Location: /pub/WWW/People.html

P3P

[RFC 2626, permanent] This field is supposed to set P3P policy, in the form of P3P:CP="your_compact_policy". However, P3P did not take off,^[52] most browsers have never fully implemented it; a lot of websites set this field with fake policy text, enough to fool browsers into thinking a P3P policy existed and granting permissions for third party cookies.

For example: P3P: CP="This is not a P3P policy! See https://en.wikipedia.org/wiki/Special:CentralAutoLogin/P3P for more info."

Pragma

[RFC 9111, permanent] Implementation-specific fields that may have various effects anywhere along the request-response chain.

For example: Pragma: no-cache

Preference-Applied

[RFC 7240, permanent] Indicates which Prefer tokens were honored by the server and applied to the processing of the request.

For example: Preference-Applied: return=representation

Proxy-Authenticate

[RFC 9110, permanent] Request authentication to access the proxy.

For example: Proxy-Authenticate: Basic

Public-Key-Pins

[RFC 7469, permanent] HTTP Public Key Pinning, announces hash of website's authentic TLS certificate.^[53]

For example: Public-Key-Pins: max-age=2592000; pin-sha256="E9CZ9INDbd+2eRQozYqqbQ2yXLVKB9+xcprMF+44U1g=";

Retry-After

[RFC 9110, permanent] If an entity is temporarily unavailable, this instructs the client to try again later. Value could be a specified period of time (in seconds) or a HTTP-date.^[54]

For example 1: Retry-After: 120 For example 2: Retry-After: Fri, 07 Nov 2014 23:59:59 GMT

Server

[RFC 9110, permanent] A name for the server.

For example: Server: Apache/2.4.1 (Unix)

[RFC 6265, permanent] An HTTP cookie.

For example: Set-Cookie: CookieName=CookieValue; Max-Age=3600; Version=1

Strict-Transport-Security

[RFC 6797, permanent] A HSTS Policy informing the HTTP client how long to cache the HTTPS-only policy and whether this applies to subdomains.

For example: Strict-Transport-Security: max-age=16070400; includeSubDomains

Trailer

[RFC 9110, permanent] The Trailer general field value indicates that the given set of header fields is present in the trailer of a message encoded with chunked transfer coding.

For example: Trailer: Max-Forwards

Transfer-Encoding

[RFC 9110, permanent] The form of encoding used to safely transfer the entity to the user. Currently defined methods are: chunked, compress, deflate, gzip, identity. Must not be used with HTTP/2.^[10]

For example: Transfer-Encoding: chunked

Tk

[RFC 2295, permanent] Tracking Status header, value suggested to be sent in response to a DNT (do-not-track) request. Possible values:

"!" — under construction
"?" — dynamic
"G" — gateway to multiple parties
"N" — not tracking
"T" — tracking
"C" — tracking with consent
"P" — tracking only if consented
"D" — disregarding DNT
"U" — updated

For example: Tk: ?

Upgrade

[RFC 9110, permanent] Ask the client to upgrade to another protocol. Must not be used in HTTP/2.^[10]

For example: Upgrade: h2c, HTTPS/1.3, IRC/6.9, RTA/x11, websocket

Vary

[RFC 9110, permanent] Tells downstream proxies how to match future request headers to decide whether the cached response can be used rather than requesting a fresh one from the origin server.

For example 1: Vary: * For example 2: Vary: Accept-Language

Via

[RFC 9110, permanent] Informs the client of proxies through which the response was sent.

For example: Via: 1.0 fred, 1.1 example.com (Apache/1.1)

Warning

[RFC 7234, RFC 9111, obsolete] A general warning about possible problems with the entity body.^[17]

For example: Warning: 199 Miscellaneous warning

WWW-Authenticate

[RFC 9110, permanent] Indicates the authentication scheme that should be used to access the requested entity.

For example: WWW-Authenticate: Basic

X-Frame-Options

[RFC 7034, obsolete] Clickjacking protection: deny - no rendering within a frame, sameorigin - no rendering if origin mismatch, allow-from - allow from specified location, allowall - non-standard, allow from any location.^[55]

For example: X-Frame-Options: deny

Common non-standard response fields

Content-Security-Policy, X-Content-Security-Policy, X-WebKit-CSP

Content Security Policy definition.^[56]

For example: X-WebKit-CSP: default-src 'self'

Expect-CT

Notify to prefer to enforce Certificate Transparency.^[57]

For example: Expect-CT: max-age=604800, enforce, report-uri="https://example.example/report"

NEL

Used to configure network request logging.^[58]

For example: NEL: { "report_to": "name_of_reporting_group", "max_age": 12345, "include_subdomains": false, "success_fraction": 0.0, "failure_fraction": 1.0 }

Permissions-Policy

To allow or disable different features or APIs of the browser.^[59]

For example: Permissions-Policy: fullscreen=(), camera=(), microphone=(), geolocation=(), interest-cohort=()^[60]

Refresh

Tells the browser to refresh the page or redirect to a different URL, after a given number of seconds (0 meaning immediately); or when a new resource has been created^{[clarification needed]}. Header introduced by Netscape in 1995 and became a de facto standard supported by most web browsers. Eventually standardized in the HTML Living Standard in 2017.^[61]

For example: Refresh: 5; url=http://www.w3.org/pub/WWW/People.html

Report-To

Instructs the user agent to store reporting endpoints for an origin.^[62]

For example: Report-To: { "group": "csp-endpoint", "max_age": 10886400, "endpoints": [ { "url": "https-url-of-site-which-collects-reports" } ] }

Status

CGI header field specifying the status of the HTTP response. Normal HTTP responses use a separate "Status-Line" instead, defined by RFC 9110.^[63]

For example: Status: 200 OK

Timing-Allow-Origin

The Timing-Allow-Origin response header specifies origins that are allowed to see values of attributes retrieved via features of the Resource Timing API, which would otherwise be reported as zero due to cross-origin restrictions.^[64]

For example: Timing-Allow-Origin: *
Timing-Allow-Origin: <origin>[, <origin>]*

X-Content-Duration

Provide the duration of the audio or video in seconds. Not supported by current browsers – the header was only supported by Gecko browsers, from which support was removed in 2015.^[65]^[66]

For example: X-Content-Duration: 42.666

X-Content-Type-Options

The only defined value, "nosniff", prevents Internet Explorer from MIME-sniffing a response away from the declared content-type. This also applies to Google Chrome, when downloading extensions.^[67]^[68]

For example: X-Content-Type-Options: nosniff^[69]

X-Powered-By

Specifies the technology (e.g. ASP.NET, PHP, JBoss) supporting the web application (version details are often in X-Runtime, X-Version, or X-AspNet-Version).^{[stackoverflow1 1]}

For example: X-Powered-By: PHP/5.4.0

X-Redirect-By

Specifies the component that is responsible for a particular redirect.^[70]

For example: X-Redirect-By: WordPress
X-Redirect-By: Polylang

X-Request-ID, X-Correlation-ID

Correlates HTTP requests between a client and server.^{[stackoverflow2 1]}

For example: X-Request-ID: f058ebd6-02f7-4d3f-942e-904344e8cde5

X-UA-Compatible

Recommends the preferred rendering engine (often a backward-compatibility mode) to use to display the content. Also used to activate Chrome Frame in Internet Explorer. In HTML Standard, only the IE=edge value is defined.^[71]^[72]

For example:

X-UA-Compatible: IE=edge
X-UA-Compatible: IE=EmulateIE7
X-UA-Compatible: Chrome=1

X-XSS-Protection

Cross-site scripting (XSS) filter^[73]

For example: X-XSS-Protection: 1; mode=block

References

^ Saint-Andre, P.; Crocker, D.; Nottingham, M. (June 1, 2012). Deprecating the "X-" Prefix and Similar Constructs in Application Protocols. doi:10.17487/RFC6648. RFC 6648.
^ "Message Headers". Iana.org. June 11, 2014. Retrieved June 12, 2014.
^ "Comments". HTTP Semantics. June 2022. sec. 5.6.5. doi:10.17487/RFC9110. RFC 9110.
^ "Quality Values". HTTP Semantics. June 2022. sec. 12.4.2. doi:10.17487/RFC9110. RFC 9110.
^ ^a ^b ^c RFC 3229. doi:10.17487/RFC3229.
^ ^a ^b ^c "Cross-Origin Resource Sharing". Retrieved July 24, 2017.
^ "Pragme". HTTP Caching. June 2022. sec. 5.4. doi:10.17487/RFC9111. RFC 9111.
^ "How to prevent caching in Internet Explorer". Microsoft. September 22, 2011. Retrieved April 15, 2015.
^ ^a ^b "Connection header". HTTP Semantics. June 2022. sec. 7.6.1. doi:10.17487/RFC9110. RFC 9110.
^ ^a ^b ^c ^d ^e ^f ^g ^h "Connection-Specific Header Fields". HTTP/2. June 2022. sec. 8.2.2. doi:10.17487/RFC9113. RFC 9113.
^ ^a ^b "Changes from RFC 2616". Hypertext Transfer Protocol (HTTP/1.1): Semantics and Content. June 2014. sec. B. doi:10.17487/RFC7231. RFC 7231.
^ Petersson, A.; Nilsson, M. (June 2014). Forwarded HTTP Extension: Introduction. IETF. doi:10.17487/RFC7239. RFC 7239.
^ "Host and :authority". HTTP Semantics. June 2022. sec. 7.2. doi:10.17487/RFC9110. RFC 9110.
^ "Request Pseudo-Header Fields". HTTP/2. June 2022. sec. 8.3.1. doi:10.17487/RFC9113. RFC 9113.
^ "Message Headers". www.iana.org. Retrieved November 26, 2018.
^ "HTTP2-Settings Header Field". Hypertext Transfer Protocol Version 2 (HTTP/2). sec. 3.2.1. doi:10.17487/RFC7540. RFC 7540.
^ ^a ^b "Warning header". HTTP Caching. June 2022. sec. 5.5. doi:10.17487/RFC9111. RFC 9111.
^ "Warning". HTTP Caching. June 2022. sec. 5.5. doi:10.17487/RFC9111. RFC 9111.
^ R. Fielding; M. Nottingham; J. Reschke (June 2014). Hypertext Transfer Protocol (HTTP/1.1): Caching. Internet Engineering Task Force. doi:10.17487/RFC7234. RFC 7234. Obsolete. sec. 5.5. Obsoleted by RFC 9111. Obsoletes RFC 2616.
^ "Warning – HTTP | MDN". developer.mozilla.org. Retrieved August 15, 2021. This article incorporates text available under the CC BY-SA 2.5 license.
^ "Upgrade Insecure Requests - W3C Candidate Recommendation". W3C. October 8, 2015. Retrieved January 14, 2016.
^ "The "X-Requested-With" Header – Stoutner". October 31, 2022.
^ "Try out the "Do Not Track" HTTP header". Retrieved January 31, 2011.
^ IETF Do Not Track: A Universal Third-Party Web Tracking Opt Out March 7, 2011
^ W3C Tracking Preference Expression (DNT), January 26, 2012
^ "Do Not Track field reference from col 1".
^ Amos Jeffries (July 2, 2010). "SquidFaq/ConfiguringSquid - Squid Web Proxy Wiki". Retrieved September 10, 2009.
^ The Apache Software Foundation. "mod_proxy - Apache HTTP Server Version 2.2". Retrieved November 12, 2014.
^ Dave Steinberg (April 10, 2007). "How do I adjust my SSL site to work with GeekISP's loadbalancer?". Retrieved September 30, 2010.
^ "Helping to Secure Communication: Client to Front-End Server". July 27, 2006. Retrieved April 23, 2012.
^ "OpenSocial Core API Server Specification 2.5.1". Retrieved October 8, 2014.
^ "ATT Device ID". Archived from the original on February 16, 2012. Retrieved January 14, 2012.
^ "WAP Profile". Retrieved January 14, 2012.
^ de Boyne Pollard, Jonathan (2007). "The Proxy-Connection: header is a mistake in how some web browsers use HTTP". Archived from the original on October 23, 2016. Retrieved January 16, 2018.
^ "Verizon Injecting Perma-Cookies to Track Mobile Customers, Bypassing Privacy Controls". Electronic Frontier Foundation. Retrieved January 19, 2014.
^ "Checking known AT&T, Verizon, Sprint, Bell Canada & Vodacom Unique Identifier beacons". Retrieved January 19, 2014.
^ Craig Timberg. "Verizon, AT&T tracking their users with 'supercookies'". The Washington Post. Retrieved January 19, 2014.
^ "Django Cross Site Request Forgery protection". Django (web framework). Archived from the original on January 20, 2015. Retrieved January 20, 2015.
^ "Angular Cross Site Request Forgery (XSRF) Protection". AngularJS. Retrieved January 20, 2015.
^ "SAP Cross-Site Request Forgery Protection". SAP SE. Retrieved January 20, 2015.
^ "HTTP Request IDs". devcenter.heroku.com. Retrieved March 22, 2022.
^ "The Value of Correlation IDs". Rapid7 Blog. December 23, 2016. Retrieved April 13, 2018.
^ Hilton, Peter (July 12, 2017). "Correlation IDs for microservices architectures - Peter Hilton". hilton.org.uk. Retrieved April 13, 2018.
^ "W3C Trace Context". w3c.org. Retrieved June 19, 2024.
^ "Save Data API Living Document Draft Community Group Report 2.1.1. Save-Data Request Header Field". Web Platform Incubator Community Group. June 30, 2020. Retrieved March 5, 2021.
^ MDN contributors (March 3, 2023). "Sec-GPC". MDN Web Docs. Retrieved March 12, 2023.
^ Dusseault, L.; Snell, J. (2010). PATCH Method for HTTP. doi:10.17487/RFC5789. RFC 5789.
^ Nottingham, M.; McManus, P.; Reschke, J. (April 2016). HTTP Alternative Services, section 3. IETF. doi:10.17487/RFC7838. RFC 7838.
^ Reschke, J. (2011). Use of the Content-Disposition Header Field in the Hypertext Transfer Protocol (HTTP). doi:10.17487/RFC6266. RFC 6266.
^ "Content-Language". HTTP Semantics. June 2022. sec. 8.5. doi:10.17487/RFC9110. RFC 9110.
^ Indicate the canonical version of a URL by responding with the Link rel="canonical" HTTP header Retrieved: 2012-02-09
^ W3C P3P Work Suspended
^ "Public Key Pinning Extension for HTTP". IETF. Retrieved April 17, 2015.
^ "Retry-After". HTTP Semantics. June 2022. sec. 10.2.3. doi:10.17487/RFC9110. RFC 9110.
^ "Content Security Policy Level 2". Retrieved August 2, 2014.
^ "Content Security Policy". W3C. 2012. Retrieved April 28, 2017.
^ "Expect-CT". Mozilla Developer Network. Retrieved July 23, 2021.
^ "NEL". Mozilla Developer Network. 2021. Retrieved May 18, 2021.
^ "Permissions Policy". W3C. 2020. Retrieved May 1, 2021.
^ "Am I FLoCed?". EFF. 2021. Retrieved May 1, 2021.
^ "Define the HTTP Refresh header by annevk · Pull Request #2892 · whatwg/html". GitHub. August 9, 2017. Retrieved April 17, 2021.
^ "CSP: report-to". Mozilla Developer Network. 2021. Retrieved May 18, 2021.
^ RFC 9110: HTTP Semantics
^ "Timing-Allow-Origin". Mozilla Developer Network. Retrieved January 25, 2018.
^ "Configuring servers for Ogg media". May 26, 2014. Retrieved January 3, 2015.
^ "Clean up duration tracking and use mirroring for cross-thread access". Bugzilla@Mozilla. Retrieved February 9, 2024.
^ "Hosting - Google Chrome Extensions - Google Code". Retrieved June 14, 2012.
^ Eric Lawrence (September 3, 2008). "IE8 Security Part VI: Beta 2 Update". Retrieved September 28, 2010.
^ van Kesteren, Anne (August 26, 2016). "Fetch standard". WHATWG. Archived from the original on August 26, 2016. Retrieved August 26, 2016.
^ "X-Redirect-By HTTP response header". Retrieved May 29, 2021.
^ "HTML Living Standard 4.2.5.3 Pragma directives, X-UA-Compatible state". WHATWG. March 12, 2021. Retrieved March 14, 2021. For meta elements with an http-equiv attribute in the X-UA-Compatible state, the content attribute must have a value that is an ASCII case-insensitive match for the string"IE=edge".
^ "Defining Document Compatibility: Specifying Document Compatibility Modes". April 1, 2011. Retrieved January 24, 2012.
^ Eric Lawrence (July 2, 2008). "IE8 Security Part IV: The XSS Filter". Retrieved September 30, 2010.

As of this edit, this article uses content from "What is the X-REQUEST-ID http header?", authored by Stefan Kögl at Stack Exchange, which is licensed in a way that permits reuse under the Creative Commons Attribution-ShareAlike 3.0 Unported License, but not under the GFDL. All relevant terms must be followed.

^ ^a ^b "What is the X-REQUEST-ID http header?". Retrieved March 20, 2022.

As of this edit, this article uses content from "Why does ASP.NET framework add the 'X-Powered-By:ASP.NET' HTTP Header in responses?", authored by Adrian Grigore at Stack Exchange, which is licensed in a way that permits reuse under the Creative Commons Attribution-ShareAlike 3.0 Unported License, but not under the GFDL. All relevant terms must be followed.

^ "Why does ASP.NET framework add the 'X-Powered-By:ASP.NET' HTTP Header in responses? - Stack Overflow". Retrieved March 20, 2022.

External links

Headers: Permanent Message Header Field Names
RFC 6265: IETF HTTP State Management Mechanism
RFC 9110: HTTP Semantics
RFC 9111: HTTP Caching
RFC 9112: HTTP/1.1
RFC 9113: HTTP/2
RFC 9114: HTTP/3
RFC 7239: Forwarded HTTP Extension
RFC 7240: Prefer Header for HTTP
HTTP/1.1 headers from a web server point of view
Internet Explorer and Custom HTTP Headers - EricLaw's IEInternals - Site Home - MSDN Blogs

[1] Saint-Andre, P.; Crocker, D.; Nottingham, M. (June 1, 2012). Deprecating the "X-" Prefix and Similar Constructs in Application Protocols. doi:10.17487/RFC6648. RFC 6648.

[2] "Message Headers". Iana.org. June 11, 2014. Retrieved June 12, 2014.

[3] "Comments". HTTP Semantics. June 2022. sec. 5.6.5. doi:10.17487/RFC9110. RFC 9110.

[4] "Quality Values". HTTP Semantics. June 2022. sec. 12.4.2. doi:10.17487/RFC9110. RFC 9110.

[rfc3229-5] RFC 3229. doi:10.17487/RFC3229.

[CORS-6] "Cross-Origin Resource Sharing". Retrieved July 24, 2017.

[7] "Pragme". HTTP Caching. June 2022. sec. 5.4. doi:10.17487/RFC9111. RFC 9111.

[Q234067-8] "How to prevent caching in Internet Explorer". Microsoft. September 22, 2011. Retrieved April 15, 2015.

[rfc9110_connection-9] "Connection header". HTTP Semantics. June 2022. sec. 7.6.1. doi:10.17487/RFC9110. RFC 9110.

[rfc9113_connection-10] ^ ^a ^b ^c ^d ^e ^f ^g ^h "Connection-Specific Header Fields". HTTP/2. June 2022. sec. 8.2.2. doi:10.17487/RFC9113. RFC 9113.

[7231_appendixB-11] "Changes from RFC 2616". Hypertext Transfer Protocol (HTTP/1.1): Semantics and Content. June 2014. sec. B. doi:10.17487/RFC7231. RFC 7231.

[12] Petersson, A.; Nilsson, M. (June 2014). Forwarded HTTP Extension: Introduction. IETF. doi:10.17487/RFC7239. RFC 7239.

[13] "Host and :authority". HTTP Semantics. June 2022. sec. 7.2. doi:10.17487/RFC9110. RFC 9110.

[rfc9113_Request_Pseudo_Header_Fields-14] "Request Pseudo-Header Fields". HTTP/2. June 2022. sec. 8.3.1. doi:10.17487/RFC9113. RFC 9113.

[15] "Message Headers". www.iana.org. Retrieved November 26, 2018.

[16] "HTTP2-Settings Header Field". Hypertext Transfer Protocol Version 2 (HTTP/2). sec. 3.2.1. doi:10.17487/RFC7540. RFC 7540.

[rfc9111_5.5-17] "Warning header". HTTP Caching. June 2022. sec. 5.5. doi:10.17487/RFC9111. RFC 9111.

[18] "Warning". HTTP Caching. June 2022. sec. 5.5. doi:10.17487/RFC9111. RFC 9111.

[19] R. Fielding; M. Nottingham; J. Reschke (June 2014). Hypertext Transfer Protocol (HTTP/1.1): Caching. Internet Engineering Task Force. doi:10.17487/RFC7234. RFC 7234. Obsolete. sec. 5.5. Obsoleted by RFC 9111. Obsoletes RFC 2616.

[20] "Warning – HTTP | MDN". developer.mozilla.org. Retrieved August 15, 2021. This article incorporates text available under the CC BY-SA 2.5 license.

[21] "Upgrade Insecure Requests - W3C Candidate Recommendation". W3C. October 8, 2015. Retrieved January 14, 2016.

[22] "The "X-Requested-With" Header – Stoutner". October 31, 2022.

[23] "Try out the "Do Not Track" HTTP header". Retrieved January 31, 2011.

[24] IETF Do Not Track: A Universal Third-Party Web Tracking Opt Out March 7, 2011

[25] W3C Tracking Preference Expression (DNT), January 26, 2012

[26] "Do Not Track field reference from col 1".

[27] Amos Jeffries (July 2, 2010). "SquidFaq/ConfiguringSquid - Squid Web Proxy Wiki". Retrieved September 10, 2009.

[28] The Apache Software Foundation. "mod_proxy - Apache HTTP Server Version 2.2". Retrieved November 12, 2014.

[29] Dave Steinberg (April 10, 2007). "How do I adjust my SSL site to work with GeekISP's loadbalancer?". Retrieved September 30, 2010.

[30] "Helping to Secure Communication: Client to Front-End Server". July 27, 2006. Retrieved April 23, 2012.

[31] "OpenSocial Core API Server Specification 2.5.1". Retrieved October 8, 2014.

[32] "ATT Device ID". Archived from the original on February 16, 2012. Retrieved January 14, 2012.

[33] "WAP Profile". Retrieved January 14, 2012.

[34] Boyne Pollard, Jonathan (2007). "The Proxy-Connection: header is a mistake in how some web browsers use HTTP". Archived from the original on October 23, 2016. Retrieved January 16, 2018.

[35] "Verizon Injecting Perma-Cookies to Track Mobile Customers, Bypassing Privacy Controls". Electronic Frontier Foundation. Retrieved January 19, 2014.

[36] "Checking known AT&T, Verizon, Sprint, Bell Canada & Vodacom Unique Identifier beacons". Retrieved January 19, 2014.

[37] Craig Timberg. "Verizon, AT&T tracking their users with 'supercookies'". The Washington Post. Retrieved January 19, 2014.

[38] "Django Cross Site Request Forgery protection". Django (web framework). Archived from the original on January 20, 2015. Retrieved January 20, 2015.

[39] "Angular Cross Site Request Forgery (XSRF) Protection". AngularJS. Retrieved January 20, 2015.

[40] "SAP Cross-Site Request Forgery Protection". SAP SE. Retrieved January 20, 2015.

[42] "HTTP Request IDs". devcenter.heroku.com. Retrieved March 22, 2022.

[43] "The Value of Correlation IDs". Rapid7 Blog. December 23, 2016. Retrieved April 13, 2018.

[44] Hilton, Peter (July 12, 2017). "Correlation IDs for microservices architectures - Peter Hilton". hilton.org.uk. Retrieved April 13, 2018.

[45] "W3C Trace Context". w3c.org. Retrieved June 19, 2024.

[46] "Save Data API Living Document Draft Community Group Report 2.1.1. Save-Data Request Header Field". Web Platform Incubator Community Group. June 30, 2020. Retrieved March 5, 2021.

[47] MDN contributors (March 3, 2023). "Sec-GPC". MDN Web Docs. Retrieved March 12, 2023.

[48] Dusseault, L.; Snell, J. (2010). PATCH Method for HTTP. doi:10.17487/RFC5789. RFC 5789.

[49] Nottingham, M.; McManus, P.; Reschke, J. (April 2016). HTTP Alternative Services, section 3. IETF. doi:10.17487/RFC7838. RFC 7838.

[50] Reschke, J. (2011). Use of the Content-Disposition Header Field in the Hypertext Transfer Protocol (HTTP). doi:10.17487/RFC6266. RFC 6266.

[51] "Content-Language". HTTP Semantics. June 2022. sec. 8.5. doi:10.17487/RFC9110. RFC 9110.

[google_canonical-52] Indicate the canonical version of a URL by responding with the Link rel="canonical" HTTP header Retrieved: 2012-02-09

[53] W3C P3P Work Suspended

[54] "Public Key Pinning Extension for HTTP". IETF. Retrieved April 17, 2015.

[55] "Retry-After". HTTP Semantics. June 2022. sec. 10.2.3. doi:10.17487/RFC9110. RFC 9110.

[56] "Content Security Policy Level 2". Retrieved August 2, 2014.

[57] "Content Security Policy". W3C. 2012. Retrieved April 28, 2017.

[58] "Expect-CT". Mozilla Developer Network. Retrieved July 23, 2021.

[59] "NEL". Mozilla Developer Network. 2021. Retrieved May 18, 2021.

[60] "Permissions Policy". W3C. 2020. Retrieved May 1, 2021.

[61] "Am I FLoCed?". EFF. 2021. Retrieved May 1, 2021.

[62] "Define the HTTP Refresh header by annevk · Pull Request #2892 · whatwg/html". GitHub. August 9, 2017. Retrieved April 17, 2021.

[63] "CSP: report-to". Mozilla Developer Network. 2021. Retrieved May 18, 2021.

[64] RFC 9110: HTTP Semantics

[65] "Timing-Allow-Origin". Mozilla Developer Network. Retrieved January 25, 2018.

[66] "Configuring servers for Ogg media". May 26, 2014. Retrieved January 3, 2015.

[67] "Clean up duration tracking and use mirroring for cross-thread access". Bugzilla@Mozilla. Retrieved February 9, 2024.

[68] "Hosting - Google Chrome Extensions - Google Code". Retrieved June 14, 2012.

[69] Eric Lawrence (September 3, 2008). "IE8 Security Part VI: Beta 2 Update". Retrieved September 28, 2010.

[whatwg-fetch-xcto-70] van Kesteren, Anne (August 26, 2016). "Fetch standard". WHATWG. Archived from the original on August 26, 2016. Retrieved August 26, 2016.

[72] "X-Redirect-By HTTP response header". Retrieved May 29, 2021.

[73] "HTML Living Standard 4.2.5.3 Pragma directives, X-UA-Compatible state". WHATWG. March 12, 2021. Retrieved March 14, 2021. For meta elements with an http-equiv attribute in the X-UA-Compatible state, the content attribute must have a value that is an ASCII case-insensitive match for the string"IE=edge".

[74] "Defining Document Compatibility: Specifying Document Compatibility Modes". April 1, 2011. Retrieved January 24, 2012.

[75] Eric Lawrence (July 2, 2008). "IE8 Security Part IV: The XSS Filter". Retrieved September 30, 2010.

[stackoverflow2-41] "What is the X-REQUEST-ID http header?". Retrieved March 20, 2022.

[stackoverflow1-71] "Why does ASP.NET framework add the 'X-Powered-By:ASP.NET' HTTP Header in responses? - Stack Overflow". Retrieved March 20, 2022.

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