HTTP access control

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Table of contents

1. 1. Overview
2. 2. Examples of access control scenarios
   1. 2.1. Simple requests
   2. 2.2. Preflighted requests
   3. 2.3. Requests with credentials
3. 3. The HTTP response headers
   1. 3.1. Access-Control-Allow-Origin
   2. 3.2. Access-Control-Max-Age
   3. 3.3. Access-Control-Allow-Credentials
   4. 3.4. Access-Control-Allow-Methods
   5. 3.5. Access-Control-Allow-Headers
4. 4. The HTTP request headers
   1. 4.1. Origin
   2. 4.2. Access-Control-Request-Method
   3. 4.3. Access-Control-Request-Headers
5. 5. See also

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HTTP access control

Table of contents

1. 1. Overview
2. 2. Examples of access control scenarios
   1. 2.1. Simple requests
   2. 2.2. Preflighted requests
   3. 2.3. Requests with credentials
3. 3. The HTTP response headers
   1. 3.1. Access-Control-Allow-Origin
   2. 3.2. Access-Control-Max-Age
   3. 3.3. Access-Control-Allow-Credentials
   4. 3.4. Access-Control-Allow-Methods
   5. 3.5. Access-Control-Allow-Headers
4. 4. The HTTP request headers
   1. 4.1. Origin
   2. 4.2. Access-Control-Request-Method
   3. 4.3. Access-Control-Request-Headers
5. 5. See also

 

Cross-site HTTP requests are HTTP requests for resources from a different domain than the domain of the resource making the request.  For instance, a resource loaded from Domain A (http://domaina.example) such as an HTML web page, makes a request for a resource on Domain B (http://domainb.foo), such as an image, using the img element (<img src="http://domainb.foo/image.jpg" />).  This occurs very commonly on the web today -- pages load a number of resources in a cross-site manner, including CSS stylesheets, images and scripts, and other resources.

Cross-site HTTP requests initiated from within script have been subject to well-known restrictions, for well-understood security reasons.  For example, prior to Firefox 3.5, HTTP Requests made using the XMLHttpRequest object were subject to the same-origin policy.  In particular, this meant that a web application using XMLHttpRequest could only make HTTP requests to the domain it was loaded from, and not to other domains.  Developers expressed the desire to safely evolve capabilities such as XMLHttpRequest to make cross-site requests, for better, safer mash-ups within web applications.

The Web Applications Working Group within the W3C has proposed the new Cross-Origin Resource Sharing recommendation, which provides a way for web servers to support cross-site access controls, which enable secure cross-site data transfers.  Of particular note is that this specification is used within an API container such as XMLHttpRequest as a mitigation mechanism, allowing the crossing of the same-domain restriction in Firefox 3.5 and beyond.  The information in this article is of interest to web administrators, server developers and web developers.  Another article for server programmers discussing cross-origin sharing from a server perspective (with PHP code snippets) is supplementary reading.  On the client, Firefox handles the components of cross-origin sharing, including headers and policy enforcement.  The introduction of this new capability, however, does mean that servers have to handle new headers, and send resources back with new headers.

This cross-origin sharing standard is supported by Firefox 3.5 and later, and is used to enable cross-site HTTP requests for:

• Invocations of the XMLHttpRequest API in a cross-site manner, as discussed above.  This is implemented in Firefox 3.5.
• Web Fonts (for cross-domain font usage in @font-face within CSS), so that servers can deploy TrueType fonts that can only be cross-site loaded and used by web sites that are permitted to do so.  This is implemented in Firefox 3.5.

This article is a general discussion of Cross-Origin Resource Sharing, and includes a discussion of the HTTP headers as implemented in Firefox 3.5. 

Overview

The Cross-Origin Resource Sharing standard works by adding new HTTP headers that allow servers to describe the set of origins that are permitted to read that information using a web browser.  Firefox supports these headers and enforces the restrictions they establish.  Additionally, for HTTP request methods that can cause side-effects on user data (in particular, for HTTP methods other than GET, or for POST usage with certain MIME types), the specification mandates that browsers "preflight" the request, soliciting supported methods from the server with an HTTP OPTIONS request header, and then, upon "approval" from the server, sending the actual request with the actual HTTP request method.  Servers can also notify clients whether "credentials" (including Cookies and HTTP Authentication data) should be sent with requests.

Subsequent sections discuss scenarios, as well as a breakdown of the HTTP headers used. 

Examples of access control scenarios

Here, we present three scenarios that are illustrative of how Cross-Origin Resource Sharing works.  All of these examples use the XMLHttpRequest object, which can be used to make cross-site invocations in Firefox 3.5 and beyond.

The JavaScript snippets included in these sections (and running instances of the server-code that correctly handles these cross-site requests) can be found "in action" here, and will work in browsers that support cross-site XMLHttpRequest.  A discussion of Cross-Origin Resource Sharing from a server perspective (including PHP code snippets) can be found here.

Simple requests

A simple cross-site request is one that:

• Only uses GET or POST.  If POST is used to send data to the server, the Content-Type of the data sent to the server with the HTTP POST request is one of application/x-www-form-urlencoded, multipart/form-data, or text/plain.
• Does not set custom headers with the HTTP Request (such as X-Modified, etc.)

For example, suppose web content on domain http://foo.example wishes to invoke content on domain http://bar.other.  Code of this sort might be used within JavaScript deployed on foo.example:

var invocation = new XMLHttpRequest();
var url = 'http://bar.other/resources/public-data/';

     function callOtherDomain(){
        if(invocation)
        {
            invocation.open('GET', url, true);
            invocation.onreadystatechange = handler;
            invocation.send();
        }

var invocation = new XMLHttpRequest();
var url = 'http://bar.other/resources/public-data/';
   
     function callOtherDomain(){
        if(invocation)
        {    
            invocation.open('GET', url, true);
            invocation.onreadystatechange = handler;
            invocation.send(); 
        }

Let us look at what the browser will send the server in this case, and let's see how the server responds:

GET /resources/public-data/ HTTP/1.1
Host: bar.other
User-Agent: Mozilla/5.0 (Macintosh; U; Intel Mac OS X 10.5; en-US; rv:1.9.1b3pre) Gecko/20081130 Minefield/3.1b3pre
Accept: text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8
Accept-Language: en-us,en;q=0.5
Accept-Encoding: gzip,deflate
Accept-Charset: ISO-8859-1,utf-8;q=0.7,*;q=0.7
Keep-Alive: 300
Connection: keep-alive
Referer: http://foo.example/examples/access-control/simpleXSInvocation.html
Origin: http://foo.example


HTTP/1.1 200 OK
Date: Mon, 01 Dec 2008 00:23:53 GMT
Server: Apache/2.0.61
Access-Control-Allow-Origin: *
Keep-Alive: timeout=2, max=100
Connection: Keep-Alive
Transfer-Encoding: chunked
Content-Type: application/xml

[XML Data]

GET /resources/public-data/ HTTP/1.1
Host: bar.other
User-Agent: Mozilla/5.0 (Macintosh; U; Intel Mac OS X 10.5; en-US; rv:1.9.1b3pre) Gecko/20081130 Minefield/3.1b3pre
Accept: text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8
Accept-Language: en-us,en;q=0.5
Accept-Encoding: gzip,deflate
Accept-Charset: ISO-8859-1,utf-8;q=0.7,*;q=0.7
Keep-Alive: 300
Connection: keep-alive
Referer: http://foo.example/examples/access-control/simpleXSInvocation.html
Origin: http://foo.example


HTTP/1.1 200 OK
Date: Mon, 01 Dec 2008 00:23:53 GMT
Server: Apache/2.0.61 
Access-Control-Allow-Origin: *
Keep-Alive: timeout=2, max=100
Connection: Keep-Alive
Transfer-Encoding: chunked
Content-Type: application/xml

[XML Data]

 Lines 1 - 11 are headers sent by Firefox 3.5.  Note that the main HTTP request header of note here is the Origin: header on line 11 above, which shows that the invocation is coming from content on the the domain http://foo.example.

Lines 14 - 23 show the HTTP response from the server on domain http://bar.other.  In response, the server sends back an Access-Control-Allow-Origin: header, shown above in line 17.  The use of the Origin: header and of Access-Control-Allow-Origin: show the access control protocol in its simplest use.  In this case, the server responds with a Access-Control-Allow-Origin: * which means that the resource can be accessed by any domain in a cross-site manner.  If the resource owners at http://bar.other wished to restrict access to the resource to be only from http://foo.example, they would send back:

Access-Control-Allow-Origin: http://foo.example

Note that now, no other domain other than http://foo.example (identified by the ORIGIN: header in the request, as in line 11 above) can access the resource on in a cross-site manner.  The Access-Control-Allow-Origin header should contain a comma separated list of acceptable domains. 

Preflighted requests

Unlike simple requests (discussed above), "preflighted" requests first send an HTTP OPTIONS request header to the resource on the other domain, in order to determine whether the actual request is safe to send.  Cross-site requests are preflighted like this since they may have implications to user data.  In particular, a request is preflighted if:

• It uses methods other than GET or POST.  Also, if POST is used to send request data with a Content-Type other than application/x-www-form-urlencoded, multipart/form-data, or text/plain, e.g. if the POST request sends an XML payload to the server using application/xml or text/xml, then the request is preflighted.
• It sets custom headers in the request (e.g. the request uses a header such as X-PINGOTHER)

An example of this kind of invocation might be:

var invocation = new XMLHttpRequest();
var url = 'http://bar.other/resources/post-here/';
var body = '<?xml version="1.0"?><person><name>Arun</name></person>';

    function callOtherDomain(){
        if(invocation)
        {
            invocation.open('POST', url, true);
            invocation.setRequestHeader('X-PINGOTHER', 'pingpong');
            invocation.setRequestHeader('Content-Type', 'application/xml');
            invocation.onreadystatechange = handler;
            invocation.send(body);
        }

......

var invocation = new XMLHttpRequest();
var url = 'http://bar.other/resources/post-here/';
var body = '<?xml version="1.0"?><person><name>Arun</name></person>';
    
    function callOtherDomain(){
        if(invocation)
        {
            invocation.open('POST', url, true);
            invocation.setRequestHeader('X-PINGOTHER', 'pingpong');
            invocation.setRequestHeader('Content-Type', 'application/xml');
            invocation.onreadystatechange = handler;
            invocation.send(body); 
        }

......

In the example above, line 3 creates an XML body to send with the POST request in line 8.  Also, on line 9, a "customized" (non-standard) HTTP request header is set (X-PINGOTHER: pingpong).  Such headers are not part of the HTTP/1.1 protocol, but are generally useful to web applications.  Since the request (POST) uses a Content-Type of application/xml, and since a custom header is set, this request is preflighted.

Let's take a look at the full exchange between client and server:

OPTIONS /resources/post-here/ HTTP/1.1
Host: bar.other
User-Agent: Mozilla/5.0 (Macintosh; U; Intel Mac OS X 10.5; en-US; rv:1.9.1b3pre) Gecko/20081130 Minefield/3.1b3pre
Accept: text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8
Accept-Language: en-us,en;q=0.5
Accept-Encoding: gzip,deflate
Accept-Charset: ISO-8859-1,utf-8;q=0.7,*;q=0.7
Keep-Alive: 300
Connection: keep-alive
Origin: http://foo.example
Access-Control-Request-Method: POST
Access-Control-Request-Headers: X-PINGOTHER


HTTP/1.1 200 OK
Date: Mon, 01 Dec 2008 01:15:39 GMT
Server: Apache/2.0.61 (Unix)
Access-Control-Allow-Origin: http://foo.example
Access-Control-Allow-Methods: POST, GET, OPTIONS
Access-Control-Allow-Headers: X-PINGOTHER
Access-Control-Max-Age: 1728000
Vary: Accept-Encoding
Content-Encoding: gzip
Content-Length: 0
Keep-Alive: timeout=2, max=100
Connection: Keep-Alive
Content-Type: text/plain

POST /resources/post-here/ HTTP/1.1
Host: bar.other
User-Agent: Mozilla/5.0 (Macintosh; U; Intel Mac OS X 10.5; en-US; rv:1.9.1b3pre) Gecko/20081130 Minefield/3.1b3pre
Accept: text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8
Accept-Language: en-us,en;q=0.5
Accept-Encoding: gzip,deflate
Accept-Charset: ISO-8859-1,utf-8;q=0.7,*;q=0.7
Keep-Alive: 300
Connection: keep-alive
X-PINGOTHER: pingpong
Content-Type: text/xml; charset=UTF-8
Referer: http://foo.example/examples/preflightInvocation.html
Content-Length: 55
Origin: http://foo.example
Pragma: no-cache
Cache-Control: no-cache

<?xml version="1.0"?><person><name>Arun</name></person>


HTTP/1.1 200 OK
Date: Mon, 01 Dec 2008 01:15:40 GMT
Server: Apache/2.0.61 (Unix)
Access-Control-Allow-Origin: http://foo.example
Vary: Accept-Encoding
Content-Encoding: gzip
Content-Length: 235
Keep-Alive: timeout=2, max=99
Connection: Keep-Alive
Content-Type: text/plain

[Some GZIP'd payload]

OPTIONS /resources/post-here/ HTTP/1.1
Host: bar.other
User-Agent: Mozilla/5.0 (Macintosh; U; Intel Mac OS X 10.5; en-US; rv:1.9.1b3pre) Gecko/20081130 Minefield/3.1b3pre
Accept: text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8
Accept-Language: en-us,en;q=0.5
Accept-Encoding: gzip,deflate
Accept-Charset: ISO-8859-1,utf-8;q=0.7,*;q=0.7
Keep-Alive: 300
Connection: keep-alive
Origin: http://foo.example
Access-Control-Request-Method: POST
Access-Control-Request-Headers: X-PINGOTHER


HTTP/1.1 200 OK
Date: Mon, 01 Dec 2008 01:15:39 GMT
Server: Apache/2.0.61 (Unix)
Access-Control-Allow-Origin: http://foo.example
Access-Control-Allow-Methods: POST, GET, OPTIONS
Access-Control-Allow-Headers: X-PINGOTHER
Access-Control-Max-Age: 1728000
Vary: Accept-Encoding
Content-Encoding: gzip
Content-Length: 0
Keep-Alive: timeout=2, max=100
Connection: Keep-Alive
Content-Type: text/plain

POST /resources/post-here/ HTTP/1.1
Host: bar.other
User-Agent: Mozilla/5.0 (Macintosh; U; Intel Mac OS X 10.5; en-US; rv:1.9.1b3pre) Gecko/20081130 Minefield/3.1b3pre
Accept: text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8
Accept-Language: en-us,en;q=0.5
Accept-Encoding: gzip,deflate
Accept-Charset: ISO-8859-1,utf-8;q=0.7,*;q=0.7
Keep-Alive: 300
Connection: keep-alive
X-PINGOTHER: pingpong
Content-Type: text/xml; charset=UTF-8
Referer: http://foo.example/examples/preflightInvocation.html
Content-Length: 55
Origin: http://foo.example
Pragma: no-cache
Cache-Control: no-cache

<?xml version="1.0"?><person><name>Arun</name></person>


HTTP/1.1 200 OK
Date: Mon, 01 Dec 2008 01:15:40 GMT
Server: Apache/2.0.61 (Unix)
Access-Control-Allow-Origin: http://foo.example
Vary: Accept-Encoding
Content-Encoding: gzip
Content-Length: 235
Keep-Alive: timeout=2, max=99
Connection: Keep-Alive
Content-Type: text/plain

[Some GZIP'd payload]

Lines 1 - 12 above represent the preflight request with the OPTIONS header.  Firefox 3.1 determines that it needs to send this based on the request parameters that the JavaScript code snippet above was using, so that the server can respond whether it is acceptable to send the request with the actual request parameters.  OPTIONS is an HTTP/1.1 header that is used to determine further information from servers, and is an idempotent method, meaning that it can't be used to change the resource.  Note that along with the OPTIONS header, two other request headers are sent (lines 11 and 12 respectively):

Access-Control-Request-Method: POST
Access-Control-Request-Headers: X-PINGOTHER

The Access-Control-Request-Method header notifies the server as part of a preflight request that when the actual request is sent, it will be sent with a POST request method. The Access-Control-Request-Headers header notifies the server that when the actual request is sent, it will be sent with an X-PINGOTHER custom header.  The server now has an opportunity to determine whether it wishes to accept a request under these circumstances.

Lines 15 - 27 above are the response that the server sends back indicating that the request method (POST) and request headers (X-PINGOTHER) are acceptable.  In particular, let's look at lines 18-21:

Access-Control-Allow-Origin: http://foo.example
Access-Control-Allow-Methods: POST, GET, OPTIONS
Access-Control-Allow-Headers: X-PINGOTHER
Access-Control-Max-Age: 1728000

The server responds with Access-Control-Allow-Methods and says that POST, GET, and OPTIONS are viable methods to query the resource in question.  Note that this header is similar to the HTTP/1.1 Allow: response header, but used strictly within the context of access control.  The server also sends Access-Control-Allow-Headers with a value of X-PINGOTHER, confirming that this is a permitted header to be used with the actual request.  Like Access-Control-Allow-Methods, Access-Control-Allow-Headers is a comma separated list of acceptable headers.  Finally, Access-Control-Max-Age gives the value in seconds for how long the response to the preflight request can be cached for without sending another preflight request.  In this case, 1728000 seconds is 20 days.

Requests with credentials

The most interesting capability exposed by both XMLHttpRequest and Access Control in Firefox 3.5 is the ability to make "credentialed" requests that are cognizant of HTTP Cookies and HTTP Authentication information.  By default, in cross-site XMLHttpRequest invocations, Firefox 3.5 and beyond will not send credentials.  A specific flag has to be set on the XMLHttpRequest object when it is invoked.

In this example, content originally loaded from http://foo.example makes a simple GET request to a resource on http://bar.other which sets Cookies.  Content on foo.example might contain JavaScript like this:

var invocation = new XMLHttpRequest();
    var url = 'http://bar.other/resources/credentialed-content/';

    function callOtherDomain(){
        if(invocation)
        {
            invocation.open('GET', url, true);
            invocation.withCredentials = "true";
            invocation.onreadystatechange = handler;
            invocation.send();
        }

var invocation = new XMLHttpRequest();
    var url = 'http://bar.other/resources/credentialed-content/';
    
    function callOtherDomain(){
        if(invocation)
        {
            invocation.open('GET', url, true);
            invocation.withCredentials = "true";
            invocation.onreadystatechange = handler;
            invocation.send(); 
        }

Line 8 shows the flag on XMLHttpRequest that has to be set in order to make the invocation with Cookies, namely the withCredentials boolean value.  By default, the invocation is made without Cookies.  Since this is a simple GET request, it is not preflighted, but Firefox 3.5 (and greater) will reject any response that does not have the Access-Control-Allow-Credentials: true header, and not make the response available to the invoking web content.

Here is a sample exchange between client and server:

GET /resources/access-control-with-credentials/ HTTP/1.1
Host: bar.other
User-Agent: Mozilla/5.0 (Macintosh; U; Intel Mac OS X 10.5; en-US; rv:1.9.1b3pre) Gecko/20081130 Minefield/3.1b3pre
Accept: text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8
Accept-Language: en-us,en;q=0.5
Accept-Encoding: gzip,deflate
Accept-Charset: ISO-8859-1,utf-8;q=0.7,*;q=0.7
Keep-Alive: 300
Connection: keep-alive
Referer: http://foo.example/examples/credential.html
Origin: http://foo.example
Cookie: pageAccess=2


HTTP/1.1 200 OK
Date: Mon, 01 Dec 2008 01:34:52 GMT
Server: Apache/2.0.61 (Unix) PHP/4.4.7 mod_ssl/2.0.61 OpenSSL/0.9.7e mod_fastcgi/2.4.2 DAV/2 SVN/1.4.2
X-Powered-By: PHP/5.2.6
Access-Control-Allow-Origin: http://foo.example
Access-Control-Allow-Credentials: true
Cache-Control: no-cache
Pragma: no-cache
Set-Cookie: pageAccess=3; expires=Wed, 31-Dec-2008 01:34:53 GMT
Vary: Accept-Encoding
Content-Encoding: gzip
Content-Length: 106
Keep-Alive: timeout=2, max=100
Connection: Keep-Alive
Content-Type: text/plain


[text/plain payload]

GET /resources/access-control-with-credentials/ HTTP/1.1
Host: bar.other
User-Agent: Mozilla/5.0 (Macintosh; U; Intel Mac OS X 10.5; en-US; rv:1.9.1b3pre) Gecko/20081130 Minefield/3.1b3pre
Accept: text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8
Accept-Language: en-us,en;q=0.5
Accept-Encoding: gzip,deflate
Accept-Charset: ISO-8859-1,utf-8;q=0.7,*;q=0.7
Keep-Alive: 300
Connection: keep-alive
Referer: http://foo.example/examples/credential.html
Origin: http://foo.example
Cookie: pageAccess=2


HTTP/1.1 200 OK
Date: Mon, 01 Dec 2008 01:34:52 GMT
Server: Apache/2.0.61 (Unix) PHP/4.4.7 mod_ssl/2.0.61 OpenSSL/0.9.7e mod_fastcgi/2.4.2 DAV/2 SVN/1.4.2
X-Powered-By: PHP/5.2.6
Access-Control-Allow-Origin: http://foo.example
Access-Control-Allow-Credentials: true
Cache-Control: no-cache
Pragma: no-cache
Set-Cookie: pageAccess=3; expires=Wed, 31-Dec-2008 01:34:53 GMT
Vary: Accept-Encoding
Content-Encoding: gzip
Content-Length: 106
Keep-Alive: timeout=2, max=100
Connection: Keep-Alive
Content-Type: text/plain


[text/plain payload]

Although line 12 contains the Cookie destined for the content on http://bar.other, if bar.other did not respond with an Access-Control-Allow-Credentials: true (line 20) the response would be ignored and not made available to web content.  Important note: when responding to a credentialed request,  server must specify a domain, and cannot use wild carding.  The above example would fail if the header was wildcarded as: Access-Control-Allow-Origin: *.  Since the Access-Control-Allow-Origin explicitly mentions http://foo.example, the credential-cognizant content is returned to the invoking web content.  Note that in line 23, a further cookie is set.

All of these examples can be seen working here.  The next section deals with the actual HTTP headers.

The HTTP response headers

This section lists the HTTP response headers that servers send back for access control requests as defined by the Cross-Origin Resource Sharing specification.  The previous section gives an overview of these in action.

Access-Control-Allow-Origin

A returned resource may have one Access-Control-Allow-Origin header, with the following syntax:

Access-Control-Allow-Origin: <origin> | *

The origin parameter specifies a URI that may access the resource.  The browser must enforce this.  For requests without credentials, the server may specify "*" as a wildcard, thereby allowing any origin to access the resource.

For example, to allow http://mozilla.com to access the resource, you can specify:

Access-Control-Allow-Origin: http://mozilla.com

Access-Control-Max-Age

This header indicates how long the results of a preflight request can be cached.  For an example of a preflight request, see the above examples.

Access-Control-Max-Age: <delta-seconds>

The delta-seconds parameter indicates the number of seconds the results can be cached.

Access-Control-Allow-Credentials

Indicates whether or not the response to the request can be exposed when the credentials flag is true.  When used as part of a response to a preflight request, this indicates whether or not the actual request can be made using credentials.  Note that simple GET requests are not preflighted, and so if a request is made for a resource with credentials, if this header is not returned with the resource, the response is ignored by the browser and not returned to web content.

Access-Control-Allow-Credentials: true | false

Credentialed requests are discussed above.

Access-Control-Allow-Methods

Specifies the method or methods allowed when accessing the resource.  This is used in response to a preflight request.  The conditions under which a request is preflighted by Firefox 3.5 are discussed above.

Access-Control-Allow-Methods: <method>[, <method>]*

An example of a preflight request is given above, including an example which sends this header to the browser.

Access-Control-Allow-Headers

Used in response to a preflight request to indicate which HTTP headers can be used when making the actual request.

Access-Control-Allow-Headers: <field-name>[, <field-name>]*

The HTTP request headers

This section lists headers that clients may use when issuing HTTP requests in order to make use of the cross-origin sharing feature.  Note that Firefox 3.5 will set these headers for you when making invocations to servers.  Developers using Firefox's cross-site XMLHttpRequest capability do not have to set any cross-origing sharing request headers programmatically.

Origin

Indicates the origin of the cross-site access request or preflight request.

Origin: <origin>

The origin is a URI indicating the server from which the request initiated.  It does not include any path information, but only the server name.

Note: The origin can be the empty string; this is useful, for example, if the source is a data URL.

Note that in any access control request, the ORIGIN header is always sent.

Access-Control-Request-Method

Used when issuing a preflight request to let the server know what HTTP method will be used when the actual request is made.

Access-Control-Request-Method: <method>

Examples of this usage can be found above. 

Access-Control-Request-Headers

Used when issuing a preflight request to let the server know what HTTP headers will be used when the actual request is made.

Access-Control-Request-Headers: <field-name>[, <field-name>]*

Examples of this usage can be found above.

This article covers features introduced in Firefox 3.5