Cross-Origin Resource Sharing (CORS)
Baseline Widely available
This feature is well established and works across many devices and browser versions. It’s been available across browsers since July 2015.
Cross-Origin Resource Sharing (CORS) is an HTTP-header based mechanism that allows a server to indicate any origins (domain, scheme, or port) other than its own from which a browser should permit loading resources. CORS also relies on a mechanism by which browsers make a "preflight" request to the server hosting the cross-origin resource, in order to check that the server will permit the actual request. In that preflight, the browser sends headers that indicate the HTTP method and headers that will be used in the actual request.
An example of a cross-origin request: the front-end JavaScript code served from https://domain-a.com
uses fetch()
to make a request for https://domain-b.com/data.json
.
For security reasons, browsers restrict cross-origin HTTP requests initiated from scripts. For example, fetch()
and XMLHttpRequest
follow the same-origin policy. This means that a web application using those APIs can only request resources from the same origin the application was loaded from unless the response from other origins includes the right CORS headers.
The CORS mechanism supports secure cross-origin requests and data transfers between browsers and servers. Browsers use CORS in APIs such as fetch()
or XMLHttpRequest
to mitigate the risks of cross-origin HTTP requests.
What requests use CORS?
This cross-origin sharing standard can enable cross-origin HTTP requests for:
- Invocations of
fetch()
orXMLHttpRequest
, as discussed above. - Web Fonts (for cross-domain font usage in
@font-face
within CSS), so that servers can deploy TrueType fonts that can only be loaded cross-origin and used by websites that are permitted to do so. - WebGL textures.
- Images/video frames drawn to a canvas using
drawImage()
. - CSS Shapes from images.
This is a general article about Cross-Origin Resource Sharing and includes a discussion of the necessary HTTP headers.
Functional overview
The Cross-Origin Resource Sharing standard works by adding new HTTP headers that let servers describe which origins are permitted to read that information from a web browser. Additionally, for HTTP request methods that can cause side-effects on server data (in particular, HTTP methods other than GET
, or POST
with certain MIME types), the specification mandates that browsers "preflight" the request, soliciting supported methods from the server with the HTTP OPTIONS
request method, and then, upon "approval" from the server, sending the actual request. Servers can also inform clients whether "credentials" (such as Cookies and HTTP Authentication) should be sent with requests.
CORS failures result in errors but for security reasons, specifics about the error are not available to JavaScript. All the code knows is that an error occurred. The only way to determine what specifically went wrong is to look at the browser's console for details.
Subsequent sections discuss scenarios, as well as provide a breakdown of the HTTP headers used.
Examples of access control scenarios
We present three scenarios that demonstrate how Cross-Origin Resource Sharing works. All these examples use fetch()
, which can make cross-origin requests in any supporting browser.
Simple requests
Some requests don't trigger a CORS preflight. Those are called simple requests from the obsolete CORS spec, though the Fetch spec (which now defines CORS) doesn't use that term.
The motivation is that the <form>
element from HTML 4.0 (which predates cross-site fetch()
and XMLHttpRequest
) can submit simple requests to any origin, so anyone writing a server must already be protecting against cross-site request forgery (CSRF). Under this assumption, the server doesn't have to opt-in (by responding to a preflight request) to receive any request that looks like a form submission, since the threat of CSRF is no worse than that of form submission. However, the server still must opt-in using Access-Control-Allow-Origin
to share the response with the script.
A simple request is one that meets all the following conditions:
-
One of the allowed methods:
-
Apart from the headers automatically set by the user agent (for example,
Connection
,User-Agent
, or the other headers defined in the Fetch spec as a forbidden header name), the only headers which are allowed to be manually set are those which the Fetch spec defines as a CORS-safelisted request-header, which are:Accept
Accept-Language
Content-Language
Content-Type
(please note the additional requirements below)Range
(only with a simple range header value; e.g.,bytes=256-
orbytes=127-255
)
-
The only type/subtype combinations allowed for the media type specified in the
Content-Type
header are:application/x-www-form-urlencoded
multipart/form-data
text/plain
-
If the request is made using an
XMLHttpRequest
object, no event listeners are registered on the object returned by theXMLHttpRequest.upload
property used in the request; that is, given anXMLHttpRequest
instancexhr
, no code has calledxhr.upload.addEventListener()
to add an event listener to monitor the upload. -
No
ReadableStream
object is used in the request.
Note:
WebKit Nightly and Safari Technology Preview place additional restrictions on the values allowed in the Accept
, Accept-Language
, and Content-Language
headers. If any of those headers have "nonstandard" values, WebKit/Safari does not consider the request to be a "simple request". What values WebKit/Safari consider "nonstandard" is not documented, except in the following WebKit bugs:
- Require preflight for non-standard CORS-safelisted request headers Accept, Accept-Language, and Content-Language
- Allow commas in Accept, Accept-Language, and Content-Language request headers for simple CORS
- Switch to a blacklist model for restricted Accept headers in simple CORS requests
No other browsers implement these extra restrictions because they're not part of the spec.
For example, suppose web content at https://foo.example
wishes to fetch JSON content from domain https://bar.other
. Code of this sort might be used in JavaScript deployed on foo.example
:
const fetchPromise = fetch("https://bar.other");
fetchPromise
.then((response) => response.json())
.then((data) => {
console.log(data);
});
This operation performs a simple exchange between the client and the server, using CORS headers to handle the privileges:
Let's look at what the browser will send to the server in this case:
GET /resources/public-data/ HTTP/1.1
Host: bar.other
User-Agent: Mozilla/5.0 (Macintosh; Intel Mac OS X 10.14; rv:71.0) Gecko/20100101 Firefox/71.0
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
Connection: keep-alive
Origin: https://foo.example
The request header of note is Origin
, which shows that the invocation is coming from https://foo.example
.
Now let's see how the server responds:
HTTP/1.1 200 OK
Date: Mon, 01 Dec 2008 00:23:53 GMT
Server: Apache/2
Access-Control-Allow-Origin: *
Keep-Alive: timeout=2, max=100
Connection: Keep-Alive
Transfer-Encoding: chunked
Content-Type: application/xml
[…XML Data…]
In response, the server returns a Access-Control-Allow-Origin
header with Access-Control-Allow-Origin: *
, which means that the resource can be accessed by any origin.
Access-Control-Allow-Origin: *
This pattern of the Origin
and Access-Control-Allow-Origin
headers is the simplest use of the access control protocol. If the resource owners at https://bar.other
wished to restrict access to the resource to requests only from https://foo.example
(i.e., no domain other than https://foo.example
can access the resource in a cross-origin manner), they would send:
Access-Control-Allow-Origin: https://foo.example
Note:
When responding to a credentialed requests request, the server must specify an origin in the value of the Access-Control-Allow-Origin
header, instead of specifying the *
wildcard.
Preflighted requests
Unlike simple requests, for "preflighted" requests the browser first sends an HTTP request using the OPTIONS
method to the resource on the other origin, in order to determine if the actual request is safe to send. Such cross-origin requests are preflighted since they may have implications for user data.
The following is an example of a request that will be preflighted:
const fetchPromise = fetch("https://bar.other/doc", {
method: "POST",
mode: "cors",
headers: {
"Content-Type": "text/xml",
"X-PINGOTHER": "pingpong",
},
body: "<person><name>Arun</name></person>",
});
fetchPromise.then((response) => {
console.log(response.status);
});
The example above creates an XML body to send with the POST
request. Also, a non-standard HTTP X-PINGOTHER
request header is set. Such headers are not part of HTTP/1.1, but are generally useful to web applications. Since the request uses a Content-Type
of text/xml
, and since a custom header is set, this request is preflighted.
Note:
As described below, the actual POST
request does not include the Access-Control-Request-*
headers; they are needed only for the OPTIONS
request.
Let's look at the full exchange between client and server. The first exchange is the preflight request/response:
OPTIONS /doc HTTP/1.1
Host: bar.other
User-Agent: Mozilla/5.0 (Macintosh; Intel Mac OS X 10.14; rv:71.0) Gecko/20100101 Firefox/71.0
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
Connection: keep-alive
Origin: https://foo.example
Access-Control-Request-Method: POST
Access-Control-Request-Headers: content-type,x-pingother
HTTP/1.1 204 No Content
Date: Mon, 01 Dec 2008 01:15:39 GMT
Server: Apache/2
Access-Control-Allow-Origin: https://foo.example
Access-Control-Allow-Methods: POST, GET, OPTIONS
Access-Control-Allow-Headers: X-PINGOTHER, Content-Type
Access-Control-Max-Age: 86400
Vary: Accept-Encoding, Origin
Keep-Alive: timeout=2, max=100
Connection: Keep-Alive
The first block above represents the preflight request with the OPTIONS
method. The browser 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 method that is used to determine further information from servers, and is a safe method, meaning that it can't be used to change the resource. Note that along with the OPTIONS request, two other request headers are sent:
Access-Control-Request-Method: POST
Access-Control-Request-Headers: content-type,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 do so with a POST
request method. The Access-Control-Request-Headers
header notifies the server that when the actual request is sent, it will do so with X-PINGOTHER
and Content-Type
custom headers. Now the server has an opportunity to determine whether it can accept a request under these conditions.
The second block above is the response that the server returns, which indicate that the request method (POST
) and request headers (X-PINGOTHER
) are acceptable. Let's have a closer look at the following lines:
Access-Control-Allow-Origin: https://foo.example
Access-Control-Allow-Methods: POST, GET, OPTIONS
Access-Control-Allow-Headers: X-PINGOTHER, Content-Type
Access-Control-Max-Age: 86400
The server responds with Access-Control-Allow-Origin: https://foo.example
, restricting access to the requesting origin domain only. It also responds with Access-Control-Allow-Methods
, which says that POST
and GET
are valid methods to query the resource in question (this header is similar to the 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, Content-Type
, confirming that these are permitted headers 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 without sending another preflight request. The default value is 5 seconds. In the present case, the max age is 86400 seconds (= 24 hours). Note that each browser has a maximum internal value that takes precedence when the Access-Control-Max-Age
exceeds it.
Once the preflight request is complete, the real request is sent:
POST /doc HTTP/1.1
Host: bar.other
User-Agent: Mozilla/5.0 (Macintosh; Intel Mac OS X 10.14; rv:71.0) Gecko/20100101 Firefox/71.0
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
Connection: keep-alive
X-PINGOTHER: pingpong
Content-Type: text/xml; charset=UTF-8
Referer: https://foo.example/examples/preflightInvocation.html
Content-Length: 55
Origin: https://foo.example
Pragma: no-cache
Cache-Control: no-cache
<person><name>Arun</name></person>
HTTP/1.1 200 OK
Date: Mon, 01 Dec 2008 01:15:40 GMT
Server: Apache/2
Access-Control-Allow-Origin: https://foo.example
Vary: Accept-Encoding, Origin
Content-Encoding: gzip
Content-Length: 235
Keep-Alive: timeout=2, max=99
Connection: Keep-Alive
Content-Type: text/plain
[Some XML content]
Preflighted requests and redirects
Not all browsers currently support following redirects after a preflighted request. If a redirect occurs after such a request, some browsers currently will report an error message such as the following:
The request was redirected to
https://example.com/foo
, which is disallowed for cross-origin requests that require preflight. Request requires preflight, which is disallowed to follow cross-origin redirects.
The CORS protocol originally required that behavior but was subsequently changed to no longer require it. However, not all browsers have implemented the change, and thus still exhibit the originally required behavior.
Until browsers catch up with the spec, you may be able to work around this limitation by doing one or both of the following:
- Change the server-side behavior to avoid the preflight and/or to avoid the redirect
- Change the request such that it is a simple request that doesn't cause a preflight
If that's not possible, then another way is to:
- Make a simple request (using
Response.url
for the Fetch API, orXMLHttpRequest.responseURL
) to determine what URL the real preflighted request would end up at. - Make another request (the real request) using the URL you obtained from
Response.url
orXMLHttpRequest.responseURL
in the first step.
However, if the request is one that triggers a preflight due to the presence of the Authorization
header in the request, you won't be able to work around the limitation using the steps above. And you won't be able to work around it at all unless you have control over the server the request is being made to.
Requests with credentials
Note: When making credentialed requests to a different domain, third-party cookie policies will still apply. The policy is always enforced regardless of any setup on the server and the client as described in this chapter.
The most interesting capability exposed by both fetch()
or XMLHttpRequest
and CORS is the ability to make "credentialed" requests that are aware of HTTP cookies and HTTP Authentication information. By default, in cross-origin fetch()
or XMLHttpRequest
calls, browsers will not send credentials.
To ask for a fetch()
request to include credentials, set the credentials
option to "include"
.
To ask for an XMLHttpRequest
request to include credentials, set the XMLHttpRequest.withCredentials
property to true
.
In this example, content originally loaded from https://foo.example
makes a simple GET request to a resource on https://bar.other
which sets Cookies. Content on foo.example might contain JavaScript like this:
const url = "https://bar.other/resources/credentialed-content/";
const request = new Request(url, { credentials: "include" });
const fetchPromise = fetch(request);
fetchPromise.then((response) => console.log(response));
This code creates a Request
object, setting the credentials
option to "include"
in the constructor, then passes this request into fetch()
. Since this is a simple GET
request, it is not preflighted but the browser 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/credentialed-content/ HTTP/1.1
Host: bar.other
User-Agent: Mozilla/5.0 (Macintosh; Intel Mac OS X 10.14; rv:71.0) Gecko/20100101 Firefox/71.0
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
Connection: keep-alive
Referer: https://foo.example/examples/credential.html
Origin: https://foo.example
Cookie: pageAccess=2
HTTP/1.1 200 OK
Date: Mon, 01 Dec 2008 01:34:52 GMT
Server: Apache/2
Access-Control-Allow-Origin: https://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, Origin
Content-Encoding: gzip
Content-Length: 106
Keep-Alive: timeout=2, max=100
Connection: Keep-Alive
Content-Type: text/plain
[text/plain content]
Although the request's Cookie
header contains the cookie destined for the content on https://bar.other
, if bar.other did not respond with an Access-Control-Allow-Credentials
with value true
, as demonstrated in this example, the response would be ignored and not made available to the web content.
Preflight requests and credentials
CORS-preflight requests must never include credentials. The response to a preflight request must specify Access-Control-Allow-Credentials: true
to indicate that the actual request can be made with credentials.
Note: Some enterprise authentication services require that TLS client certificates be sent in preflight requests, in contravention of the Fetch specification.
Firefox 87 allows this non-compliant behavior to be enabled by setting the preference: network.cors_preflight.allow_client_cert
to true
(Firefox bug 1511151). Chromium-based browsers currently always send TLS client certificates in CORS preflight requests (Chrome bug 775438).
Credentialed requests and wildcards
When responding to a credentialed request:
- The server must not specify the
*
wildcard for theAccess-Control-Allow-Origin
response-header value, but must instead specify an explicit origin; for example:Access-Control-Allow-Origin: https://example.com
- The server must not specify the
*
wildcard for theAccess-Control-Allow-Headers
response-header value, but must instead specify an explicit list of header names; for example,Access-Control-Allow-Headers: X-PINGOTHER, Content-Type
- The server must not specify the
*
wildcard for theAccess-Control-Allow-Methods
response-header value, but must instead specify an explicit list of method names; for example,Access-Control-Allow-Methods: POST, GET
- The server must not specify the
*
wildcard for theAccess-Control-Expose-Headers
response-header value, but must instead specify an explicit list of header names; for example,Access-Control-Expose-Headers: Content-Encoding, Kuma-Revision
If a request includes a credential (most commonly a Cookie
header) and the response includes an Access-Control-Allow-Origin: *
header (that is, with the wildcard), the browser will block access to the response, and report a CORS error in the devtools console.
But if a request does include a credential (like the Cookie
header) and the response includes an actual origin rather than the wildcard (like, for example, Access-Control-Allow-Origin: https://example.com
), then the browser will allow access to the response from the specified origin.
Also note that any Set-Cookie
response header in a response would not set a cookie if the Access-Control-Allow-Origin
value in that response is the *
wildcard rather an actual origin.
Third-party cookies
Note that cookies set in CORS responses are subject to normal third-party cookie policies. In the example above, the page is loaded from foo.example
but the Cookie
header in the response is sent by bar.other
, and would thus not be saved if the user's browser is configured to reject all third-party cookies.
Cookie in the request may also be suppressed in normal third-party cookie policies. The enforced cookie policy may therefore nullify the capability described in this chapter, effectively preventing you from making credentialed requests whatsoever.
Cookie policy around the SameSite attribute would apply.
The HTTP response headers
This section lists the HTTP response headers that servers return 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> | *
Access-Control-Allow-Origin
specifies either a single origin which tells browsers to allow that origin to access the resource; or else — for requests without credentials — the *
wildcard tells browsers to allow any origin to access the resource.
For example, to allow code from the origin https://mozilla.org
to access the resource, you can specify:
Access-Control-Allow-Origin: https://mozilla.org
Vary: Origin
If the server specifies a single origin (that may dynamically change based on the requesting origin as part of an allowlist) rather than the *
wildcard, then the server should also include Origin
in the Vary
response header to indicate to clients that server responses will differ based on the value of the Origin
request header.
Access-Control-Expose-Headers
The Access-Control-Expose-Headers
header adds the specified headers to the allowlist that JavaScript (such as Response.headers
) in browsers is allowed to access.
Access-Control-Expose-Headers: <header-name>[, <header-name>]*
For example, the following:
Access-Control-Expose-Headers: X-My-Custom-Header, X-Another-Custom-Header
…would allow the X-My-Custom-Header
and X-Another-Custom-Header
headers to be exposed to the browser.
Access-Control-Max-Age
The Access-Control-Max-Age
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
The Access-Control-Allow-Credentials
header 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
Credentialed requests are discussed above.
Access-Control-Allow-Methods
The Access-Control-Allow-Methods
header 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 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
The Access-Control-Allow-Headers
header is used in response to a preflight request to indicate which HTTP headers can be used when making the actual request. This header is the server side response to the browser's Access-Control-Request-Headers
header.
Access-Control-Allow-Headers: <header-name>[, <header-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 these headers are set for you when making invocations to servers. Developers making cross-origin requests do not have to set any cross-origin sharing request headers programmatically.
Origin
The Origin
header indicates the origin of the cross-origin access request or preflight request.
Origin: <origin>
The origin is a URL indicating the server from which the request is initiated. It does not include any path information, only the server name.
Note:
The origin
value can be null
.
Note that in any access control request, the Origin
header is always sent.
Access-Control-Request-Method
The Access-Control-Request-Method
is 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
The Access-Control-Request-Headers
header is used when issuing a preflight request to let the server know what HTTP headers will be used when the actual request is made (for example, by passing them as the headers
option). This browser-side header will be answered by the complementary server-side header of Access-Control-Allow-Headers
.
Access-Control-Request-Headers: <field-name>[,<field-name>]*
Examples of this usage can be found above.
Specifications
Specification |
---|
Fetch Standard # http-access-control-allow-origin |
Browser compatibility
BCD tables only load in the browser
See also
XMLHttpRequest
-
Will it CORS? - an interactive CORS explainer & generator
-
Stack Overflow answer with "how to" info for dealing with common problems:
- How to avoid the CORS preflight
- How to use a CORS proxy to get around "No Access-Control-Allow-Origin header"
- How to fix "Access-Control-Allow-Origin header must not be the wildcard"