Apparently, I have completely misunderstood its semantics. I thought of something like this:
A client downloads JavaScript code MyCode.js from http://siteA - the origin.
The response header of MyCode.js contains Access-Control-Allow-Origin: http://siteB, which I thought meant that MyCode.js was allowed to make cross-origin references to the site B.
The client triggers some functionality of MyCode.js, which in turn make requests to http://siteB, which should be fine, despite being cross-origin requests.
Well, I am wrong. It does not work like this at all. So, I have read Cross-origin resource sharing and attempted to read Cross-Origin Resource Sharing in w3c recommendation.
One thing is sure - I still do not understand how I am supposed to use this header.
I have full control of both site A and site B. How do I enable the JavaScript code downloaded from the site A to access resources on the site B using this header?
P.S.: I do not want to utilize JSONP.
Access-Control-Allow-Origin is a CORS (cross-origin resource sharing) header.
When Site A tries to fetch content from Site B, Site B can send an Access-Control-Allow-Origin response header to tell the browser that the content of this page is accessible to certain origins. (An origin is a domain, plus a scheme and port number.) By default, Site B's pages are not accessible to any other origin; using the Access-Control-Allow-Origin header opens a door for cross-origin access by specific requesting origins.
For each resource/page that Site B wants to make accessible to Site A, Site B should serve its pages with the response header:
Access-Control-Allow-Origin: http://siteA.com
Modern browsers will not block cross-domain requests outright. If Site A requests a page from Site B, the browser will actually fetch the requested page on the network level and check if the response headers list Site A as a permitted requester domain. If Site B has not indicated that Site A is allowed to access this page, the browser will trigger the XMLHttpRequest's error event and deny the response data to the requesting JavaScript code.
Non-simple requests
What happens on the network level can be slightly more complex than explained above. If the request is a "non-simple" request, the browser first sends a data-less "preflight" OPTIONS request, to verify that the server will accept the request. A request is non-simple when either (or both):
using an HTTP verb other than GET or POST (e.g. PUT, DELETE)
using non-simple request headers; the only simple requests headers are:
Accept
Accept-Language
Content-Language
Content-Type (this is only simple when its value is application/x-www-form-urlencoded, multipart/form-data, or text/plain)
If the server responds to the OPTIONS preflight with appropriate response headers (Access-Control-Allow-Headers for non-simple headers, Access-Control-Allow-Methods for non-simple verbs) that match the non-simple verb and/or non-simple headers, then the browser sends the actual request.
Supposing that Site A wants to send a PUT request for /somePage, with a non-simple Content-Type value of application/json, the browser would first send a preflight request:
OPTIONS /somePage HTTP/1.1
Origin: http://siteA.com
Access-Control-Request-Method: PUT
Access-Control-Request-Headers: Content-Type
Note that Access-Control-Request-Method and Access-Control-Request-Headers are added by the browser automatically; you do not need to add them. This OPTIONS preflight gets the successful response headers:
Access-Control-Allow-Origin: http://siteA.com
Access-Control-Allow-Methods: GET, POST, PUT
Access-Control-Allow-Headers: Content-Type
When sending the actual request (after preflight is done), the behavior is identical to how a simple request is handled. In other words, a non-simple request whose preflight is successful is treated the same as a simple request (i.e., the server must still send Access-Control-Allow-Origin again for the actual response).
The browsers sends the actual request:
PUT /somePage HTTP/1.1
Origin: http://siteA.com
Content-Type: application/json
{ "myRequestContent": "JSON is so great" }
And the server sends back an Access-Control-Allow-Origin, just as it would for a simple request:
Access-Control-Allow-Origin: http://siteA.com
See Understanding XMLHttpRequest over CORS for a little more information about non-simple requests.
Cross-Origin Resource Sharing - CORS (A.K.A. Cross-Domain AJAX request) is an issue that most web developers might encounter, according to Same-Origin-Policy, browsers restrict client JavaScript in a security sandbox, usually JS cannot directly communicate with a remote server from a different domain. In the past developers created many tricky ways to achieve Cross-Domain resource request, most commonly using ways are:
Use Flash/Silverlight or server side as a "proxy" to communicate
with remote.
JSON With Padding (JSONP).
Embeds remote server in an iframe and communicate through fragment or window.name, refer here.
Those tricky ways have more or less some issues, for example JSONP might result in security hole if developers simply "eval" it, and #3 above, although it works, both domains should build strict contract between each other, it neither flexible nor elegant IMHO:)
W3C had introduced Cross-Origin Resource Sharing (CORS) as a standard solution to provide a safe, flexible and a recommended standard way to solve this issue.
The Mechanism
From a high level we can simply deem CORS as a contract between client AJAX call from domain A and a page hosted on domain B, a typical Cross-Origin request/response would be:
DomainA AJAX request headers
Host DomainB.com
User-Agent Mozilla/5.0 (Windows NT 6.1; WOW64; rv:2.0) Gecko/20100101 Firefox/4.0
Accept text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8,application/json
Accept-Language en-us;
Accept-Encoding gzip, deflate
Keep-Alive 115
Origin http://DomainA.com
DomainB response headers
Cache-Control private
Content-Type application/json; charset=utf-8
Access-Control-Allow-Origin DomainA.com
Content-Length 87
Proxy-Connection Keep-Alive
Connection Keep-Alive
The blue parts I marked above were the kernal facts, "Origin" request header "indicates where the cross-origin request or preflight request originates from", the "Access-Control-Allow-Origin" response header indicates this page allows remote request from DomainA (if the value is * indicate allows remote requests from any domain).
As I mentioned above, W3 recommended browser to implement a "preflight request" before submiting the actually Cross-Origin HTTP request, in a nutshell it is an HTTP OPTIONS request:
OPTIONS DomainB.com/foo.aspx HTTP/1.1
If foo.aspx supports OPTIONS HTTP verb, it might return response like below:
HTTP/1.1 200 OK
Date: Wed, 01 Mar 2011 15:38:19 GMT
Access-Control-Allow-Origin: http://DomainA.com
Access-Control-Allow-Methods: POST, GET, OPTIONS, HEAD
Access-Control-Allow-Headers: X-Requested-With
Access-Control-Max-Age: 1728000
Connection: Keep-Alive
Content-Type: application/json
Only if the response contains "Access-Control-Allow-Origin" AND its value is "*" or contain the domain who submitted the CORS request, by satisfying this mandtory condition browser will submit the actual Cross-Domain request, and cache the result in "Preflight-Result-Cache".
I blogged about CORS three years ago: AJAX Cross-Origin HTTP request
According to this Mozilla Developer Network article,
A resource makes a cross-origin HTTP request when it requests a resource from a different domain, or port than the one which the first resource itself serves.
An HTML page served from http://domain-a.com makes an <img> src request for http://domain-b.com/image.jpg.
Many pages on the web today load resources like CSS style sheets, images and scripts from separate domains (thus it should be cool).
Same-Origin Policy
For security reasons, browsers restrict cross-origin HTTP requests initiated from within scripts.
For example, XMLHttpRequest and Fetch follow the same-origin policy.
So, a web application using XMLHttpRequest or Fetch could only make HTTP requests to its own domain.
Cross-Origin Resource Sharing (CORS)
To improve web applications, developers asked browser vendors to allow cross-domain requests.
The Cross-origin resource sharing (CORS) mechanism gives web servers cross-domain access controls, which enable secure cross-domain data transfers.
Modern browsers use CORS in an API container - such as XMLHttpRequest or fetch - to mitigate risks of cross-origin HTTP requests.
How CORS works (Access-Control-Allow-Origin header)
Wikipedia:
The CORS standard describes new HTTP headers which provide browsers and servers a way to request remote URLs only when they have permission.
Although some validation and authorization can be performed by the server, it is generally the browser's responsibility to support these headers and honor the restrictions they impose.
Example
The browser sends the OPTIONS request with an Origin HTTP header.
The value of this header is the domain that served the parent page. When a page from http://www.example.com attempts to access a user's data in service.example.com, the following request header would be sent to service.example.com:
Origin: http://www.example.com
The server at service.example.com may respond with:
An Access-Control-Allow-Origin (ACAO) header in its response indicating which origin sites are allowed.
For example:
Access-Control-Allow-Origin: http://www.example.com
An error page if the server does not allow the cross-origin request
An Access-Control-Allow-Origin (ACAO) header with a wildcard that allows all domains:
Access-Control-Allow-Origin: *
Whenever I start thinking about CORS, my intuition about which site hosts the headers is incorrect, just as you described in your question. For me, it helps to think about the purpose of the same-origin policy.
The purpose of the same-origin policy is to protect you from malicious JavaScript on siteA.com accessing private information you've chosen to share only with siteB.com. Without the same-origin policy, JavaScript written by the authors of siteA.com could have your browser make requests to siteB.com, using your authentication cookies for siteB.com. In this way, siteA.com could steal the secret information you share with siteB.com.
Sometimes you need to work cross domain, which is where CORS comes in. CORS relaxes the same-origin policy for siteB.com, using the Access-Control-Allow-Origin header to list other domains (siteA.com) that are trusted to run JavaScript that can interact with siteB.com.
To understand which domain should serve the CORS headers, consider this. You visit malicious.com, which contains some JavaScript that tries to make a cross domain request to mybank.com. It should be up to mybank.com, not malicious.com, to decide whether or not it sets CORS headers that relax the same-origin policy, allowing the JavaScript from malicious.com to interact with it. If malicous.com could set its own CORS headers allowing its own JavaScript access to mybank.com, this would completely nullify the same-origin policy.
I think the reason for my bad intuition is the point of view I have when developing a site. It's my site, with all my JavaScript. Therefore, it isn't doing anything malicious, and it should be up to me to specify which other sites my JavaScript can interact with. When in fact I should be thinking: Which other sites' JavaScript are trying to interact with my site and should I use CORS to allow them?
From my own experience, it's hard to find a simple explanation why CORS is even a concern.
Once you understand why it's there, the headers and discussion becomes a lot clearer. I'll give it a shot in a few lines.
It's all about cookies. Cookies are stored on a client by their domain.
An example story: On your computer, there's a cookie for yourbank.com. Maybe your session is in there.
Key point: When a client makes a request to the server, it will send the cookies stored under the domain for that request.
You're logged in on your browser to yourbank.com. You request to see all your accounts, and cookies are sent for yourbank.com. yourbank.com receives the pile of cookies and sends back its response (your accounts).
If another client makes a cross origin request to a server, those cookies are sent along, just as before. Ruh roh.
You browse to malicious.com. Malicious makes a bunch of requests to different banks, including yourbank.com.
Since the cookies are validated as expected, the server will authorize the response.
Those cookies get gathered up and sent along - and now, malicious.com has a response from yourbank.
Yikes.
So now, a few questions and answers become apparent:
"Why don't we just block the browser from doing that?" Yep. That's CORS.
"How do we get around it?" Have the server tell the request that CORS is OK.
1. A client downloads javascript code MyCode.js from http://siteA - the origin.
The code that does the downloading - your html script tag or xhr from javascript or whatever - came from, let's say, http://siteZ. And, when the browser requests MyCode.js, it sends an Origin: header saying "Origin: http://siteZ", because it can see that you're requesting to siteA and siteZ != siteA. (You cannot stop or interfere with this.)
2. The response header of MyCode.js contains Access-Control-Allow-Origin: http://siteB, which I thought meant that MyCode.js was allowed to make cross-origin references to the site B.
no. It means, Only siteB is allowed to do this request. So your request for MyCode.js from siteZ gets an error instead, and the browser typically gives you nothing. But if you make your server return A-C-A-O: siteZ instead, you'll get MyCode.js . Or if it sends '*', that'll work, that'll let everybody in. Or if the server always sends the string from the Origin: header... but... for security, if you're afraid of hackers, your server should only allow origins on a shortlist, that are allowed to make those requests.
Then, MyCode.js comes from siteA. When it makes requests to siteB, they are all cross-origin, the browser sends Origin: siteA, and siteB has to take the siteA, recognize it's on the short list of allowed requesters, and send back A-C-A-O: siteA. Only then will the browser let your script get the result of those requests.
Using React and Axios, join a proxy link to the URL and add a header as shown below:
https://cors-anywhere.herokuapp.com/ + Your API URL
Just adding the proxy link will work, but it can also throw an error for No Access again. Hence it is better to add a header as shown below.
axios.get(`https://cors-anywhere.herokuapp.com/[YOUR_API_URL]`,{headers: {'Access-Control-Allow-Origin': '*'}})
.then(response => console.log(response:data);
}
Warning: Not to be used in production
This is just a quick fix. If you're struggling with why you're not able to get a response, you can use this.
But again it's not the best answer for production.
If you are using PHP, try adding the following code at the beginning of the php file:
If you are using localhost, try this:
header("Access-Control-Allow-Origin: *");
If you are using external domains such as server, try this:
header("Access-Control-Allow-Origin: http://www.website.com");
I worked with Express.js 4, Node.js 7.4 and Angular, and I had the same problem. This helped me:
a) server side: in file app.js I add headers to all responses, like:
app.use(function(req, res, next) {
res.header('Access-Control-Allow-Origin', req.headers.origin);
res.header("Access-Control-Allow-Headers", "Origin, X-Requested-With, Content-Type, Accept");
next();
});
This must be before all routes.
I saw a lot of added this headers:
res.header("Access-Control-Allow-Headers","*");
res.header('Access-Control-Allow-Credentials', true);
res.header('Access-Control-Allow-Methods', 'GET,PUT,POST,DELETE');
But I don’t need that,
b) client side: in sending by Ajax, you need to add "withCredentials: true," like:
$http({
method: 'POST',
url: 'url',
withCredentials: true,
data : {}
}).then(function(response){
// Code
}, function (response) {
// Code
});
If you want just to test a cross-domain application in which the browser blocks your request, then you can just open your browser in unsafe mode and test your application without changing your code and without making your code unsafe.
From macOS, you can do this from the terminal line:
open -a Google\ Chrome --args --disable-web-security --user-data-dir
In Python, I have been using the Flask-CORS library with great success. It makes dealing with CORS super easy and painless. I added some code from the library's documentation below.
Installing:
pip install -U flask-cors
Simple example that allows CORS for all domains on all routes:
from flask import Flask
from flask_cors import CORS
app = Flask(__name__)
CORS(app)
#app.route("/")
def helloWorld():
return "Hello, cross-origin-world!"
For more specific examples, see the documentation. I have used the simple example above to get around the CORS issue in an Ionic application I am building that has to access a separate flask server.
Simply paste the following code in your web.config file.
Noted that, you have to paste the following code under <system.webServer> tag
<httpProtocol>
<customHeaders>
<add name="Access-Control-Allow-Origin" value="*" />
<add name="Access-Control-Allow-Headers" value="Content-Type" />
<add name="Access-Control-Allow-Methods" value="GET, POST, PUT, DELETE, OPTIONS" />
</customHeaders>
</httpProtocol>
I can't configure it on the back-end server, but with these extensions in the browsers, it works for me:
For Firefox:
CORS Everywhere
For Google Chrome:
Allow CORS: Access-Control-Allow-Origin
Note: CORS works for me with this configuration:
For cross origin sharing, set header: 'Access-Control-Allow-Origin':'*';
Php: header('Access-Control-Allow-Origin':'*');
Node: app.use('Access-Control-Allow-Origin':'*');
This will allow to share content for different domain.
Nginx and Apache
As an addition to apsiller's answer, I would like to add a wiki graph which shows when a request is simple or not (and OPTIONS pre-flight request is send or not)
For a simple request (e.g., hotlinking images), you don't need to change your server configuration files, but you can add headers in the application (hosted on the server, e.g., in PHP) like Melvin Guerrero mentions in his answer - but remember: if you add full CORS headers in your server (configuration) and at same time you allow simple CORS in the application (e.g., PHP), this will not work at all.
And here are configurations for two popular servers:
turn on CORS on Nginx (nginx.conf file)
location ~ ^/index\.php(/|$) {
...
add_header 'Access-Control-Allow-Origin' "$http_origin" always; # if you change "$http_origin" to "*" you shoud get same result - allow all domain to CORS (but better change it to your particular domain)
add_header 'Access-Control-Allow-Credentials' 'true' always;
if ($request_method = OPTIONS) {
add_header 'Access-Control-Allow-Origin' "$http_origin"; # DO NOT remove THIS LINES (doubled with outside 'if' above)
add_header 'Access-Control-Allow-Credentials' 'true';
add_header 'Access-Control-Max-Age' 1728000; # cache preflight value for 20 days
add_header 'Access-Control-Allow-Methods' 'GET, POST, OPTIONS'; # arbitrary methods
add_header 'Access-Control-Allow-Headers' 'My-First-Header,My-Second-Header,Authorization,Content-Type,Accept,Origin'; # arbitrary headers
add_header 'Content-Length' 0;
add_header 'Content-Type' 'text/plain charset=UTF-8';
return 204;
}
}
turn on CORS on Apache (.htaccess file)
# ------------------------------------------------------------------------------
# | Cross-domain Ajax requests |
# ------------------------------------------------------------------------------
# Enable cross-origin Ajax requests.
# http://code.google.com/p/html5security/wiki/CrossOriginRequestSecurity
# http://enable-cors.org/
# change * (allow any domain) below to your domain
Header set Access-Control-Allow-Origin "*"
Header always set Access-Control-Allow-Methods "POST, GET, OPTIONS, DELETE, PUT"
Header always set Access-Control-Allow-Headers "My-First-Header,My-Second-Header,Authorization, content-type, csrf-token"
Header always set Access-Control-Allow-Credentials "true"
The Access-Control-Allow-Origin response header indicates whether the
response can be shared with requesting code from the given origin.
Header type Response header
-------------------------------------------
Forbidden header name no
A response that tells the browser to allow code from any origin to
access a resource will include the following:
Access-Control-Allow-Origin: *
For more information, visit Access-Control-Allow-Origin...
For .NET Core 3.1 API With Angular
Startup.cs : Add CORS
//SERVICES
public void ConfigureServices(IServiceCollection services){
//CORS (Cross Origin Resource Sharing)
//=====================================
services.AddCors();
}
//MIDDLEWARES
public void Configure(IApplicationBuilder app, IWebHostEnvironment env)
{
app.UseRouting();
//ORDER: CORS -> Authentication -> Authorization)
//CORS (Cross Origin Resource Sharing)
//=====================================
app.UseCors(x=>x.AllowAnyHeader().AllowAnyMethod().WithOrigins("http://localhost:4200"));
app.UseHttpsRedirection();
}
}
Controller : Enable CORS For Authorized Controller
//Authorize all methods inside this controller
[Authorize]
[EnableCors()]
public class UsersController : ControllerBase
{
//ActionMethods
}
Note: Only a temporary solution for testing
For those who can't control the backend for Options 405 Method Not Allowed, here is a workaround for theChrome browser.
Execute in the command line:
"C:\Program Files (x86)\Google\Chrome\Application\chrome.exe" --disable-web-security --user-data-dir="path_to_profile"
Example:
"C:\Program Files (x86)\Google\Chrome\Application\chrome.exe" --disable-web-security --user-data-dir="C:\Users\vital\AppData\Local\Google\Chrome\User Data\Profile 2"
Most CORS issues are because you are trying to request via client side ajax from a react, angular, jquery apps that are frontend basic libs.
You must request from a backend application.
You are trying to request from a frontend API, but the API you are trying to consume is expecting this request to be made from a backend application and it will never accept client side requests.
Related
In background.js, my browser extension periodically fetches a JSON file published in a GitHub public repository.
Now I want it to be nicer to GitHub and its bandwidth limits, and only fetch file again if it was modified since last update:
url='https://raw.githubusercontent.com/LearnWebCode/json-example/master/pets-data.json';
fetch(url, {
headers: {'If-Modified-Since': 'Wed, 15 Aug 2022 18:30:00 GMT'}})
.then(response => response.json())
.then(json => console.log('Loaded: ', json));
However I get CORS error I don't understand how to deal with:
Access to fetch at
'https://raw.githubusercontent.com/LearnWebCode/json-example/master/pets-data.json'
from origin 'chrome-extension://...'
has been blocked by CORS policy:
Response to preflight request doesn't pass access control check:
It does not have HTTP ok status.
Adding either combination of other headers doesn't make difference:
'Content-Type': 'text/plain;charset=UTF-8'
'Accept': 'application/vnd.github.v3.raw'
'User-Agent': 'my_github_username/my_github_repository (Chrome 104.0.5112.79)'
Neither does using GitHub Pages as an alternative way to access the file.
Update: I easily eliminated CORS error adding raw.githubusercontent.com to host_permissions in manifest.json (thanks #wOxxOm). However now If-Modified-Since doesn't seem to be affect server behavior in the way I expect, see followup question with details.
Because your request contains an If-Modified-Since header, the browser triggers CORS preflight. However, the resource, despite responding to GET requests with Access-Control-Allow-Origin: *, doesn't seem to support preflight: if you try to spoof a preflight request, it invariably (according to my tests) replies with a 403 status, which is sufficient for CORS preflight to fail.
The resource does respond with an ETag header. One approach would consist in sending a simple HEAD request first, read the value of the response's ETag header, and conditionally send a GET request after that. Unfortunately, because ETag is not a CORS-safelisted response-header name and the response doesn't contain any Access-Control-Expose-Headers header, the browser won't expose the response's ETag header to JavaScript. Very sad.
Short of pressuring GitHub into adding support for CORS preflight on https://raw.githubusercontent.com, a viable, albeit annoying, alternative would be to proxy your original GET request (containing the If-Modified-Since header) to a server you control, which would be unconstrained by the Same-Origin Policy.
I am wondering how server should respond for CORS request that asks for unsupported method.
I have server endpoint, lets say server.com/endpoint which supports only GET. But client is sending CORS OPTIONS request with headers:
Origin: another.com
Access-Control-Request-Method: POST
How proper response should look? Should it return some error message about unsupported POST method, or just return 200 OK with typical CORS response headers like:
Access-Control-Allow-Methods: GET
Access-Control-Allow-Origin: another.com
Or maybe I should treat it as request without CORS headers?
Also what should be returned in case of some random origin in request? Should i reveal which origins are allowed or keep it hidden and return no "Allow" headers?
I am wondering how server should respond for CORS request that asks for unsupported method.
I have server endpoint, lets say server.com/endpoint which supports only GET. But client is sending CORS OPTIONS request with headers:
Origin: another.com
Access-Control-Request-Method: POST
https://developer.mozilla.org/en-US/docs/Web/HTTP/Access_control_CORS#Preflighted_requests explains what’s happening: That OPTIONS is an expected request that browsers on their own automatically send as part of the CORS protocol.
How proper response should look? Should it return some error message about unsupported POST method
No, supporting the CORS protocol as expected on your server side doesn’t require you to send any special error response for this case. The browser just interprets the lack of "Allow" headers in the normal response as meaning that the server doesn’t allow the type of request it’s received.
or just return 200 OK with typical CORS response headers like:
Access-Control-Allow-Methods: GET
Access-Control-Allow-Origin: another.com
That would be the right way to respond to it as far as supporting CORS as expected for the case where you get a request from the allowed origin another.com but for an unsupported method (e.g., POST, if you don’t support that). That enables the browser to log a specific CORS error on the client side to let the developer know the non-allowed method is the problem, not the origin.
Also what should be returned in case of some random origin in request? Should I reveal which origins are allowed or keep it hidden and return no "Allow" headers?
You can just return no "Allow" headers in the case of a non-allowed origin. There’s never any need to reveal what origins are allowed, except to allowed origins. (Anyway, the Access-Control-Allow-Origin value is always just going to contain either a single origin, or else the * wildcard, so no random origin making a request is going to be able to sniff out all the allowed origins.)
And to be clear, the CORS protocol in no way requires servers to respond to random non-allowed origins with any CORS headers at all. The semantics of the protocol are such that to a browser, a response with no "Allow" headers at all means, “This server does not allow cross-origin requests from your origin”. A random non-allowed origin doesn’t need any more information than just that.
I've created an JAXRS REST API on my JEE server. So, in order to be able to receive cross origin requests, I've added a filter provider in order to accept CORS requests:
#Provider
public class CORSFilter implements ContainerResponseFilter
{
#Override
public void filter(ContainerRequestContext requestContext, ContainerResponseContext responseContext) throws IOException
{
responseContext.getHeaders().add("Access-Control-Allow-Origin", "*");
responseContext.getHeaders().add("Access-Control-Allow-Headers", "origin, content-type, accept, authorization");
responseContext.getHeaders().add("Access-Control-Allow-Credentials", "true");
responseContext.getHeaders().add("Access-Control-Allow-Methods", "GET, POST, PUT, DELETE, OPTIONS, HEAD");
responseContext.getHeaders().add("Access-Control-Max-Age", "1209600");
}
}
I've also created a single page web application (SPWA) (located at localhost:3000) where I'm trying to get information from my REST endpoint located at localhost:8082.
So, browser is detecting I'm trying to get information crossing origins. So it's trying to first OPTIONS the request I'm trying to send (check is a user exists).
This is the CORS request browser is trying to send to my server:
Host: localhost:8082
User-Agent: Mozilla/5.0 (Windows NT 10.0; WOW64; rv:50.0) Gecko/20100101 Firefox/50.0
Accept: text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8
Accept-Language: es-ES,es;q=0.8,en-US;q=0.5,en;q=0.3
Accept-Encoding: gzip, deflate
Access-Control-Request-Method: PUT
Access-Control-Request-Headers: passwd,user
Origin: http://localhost:3000
Connection: keep-alive
As you can see on Filter Provider, I'm allowing these headers:
responseContext.getHeaders().add("Access-Control-Allow-Headers", "origin, content-type, accept, authorization");
So, the question is:
My REST endpoint is going to grow, and each time I add a method with parameters, I'm going to have to check and update "Access-Control-Allow-Headers" -> I think is a very hard task.
Is there some way to trust some origins and avoid browser first send an OPTIONS request each time a request is made.
I hope I've explained so well.
1.My REST endpoint is going to grow, and each time I add a method with parameters, I'm going to have to check and update "Access-Control-Allow-Headers" -> I think is a very hard task.
You have to include only the allowed headers your server is able to manage
(there are not so much. About 30 are standard in this list). Usually a new business methods will not require a new header because they usually work with the payload. Mostly of the headers are managed by the container or JAX-RS you are using.
Is there some way to trust some origins and avoid browser first send an OPTIONS request each time a request is made.
CORS requests are preflighted using an OPTIONS request. See Preflighted requests at Mozilla Developer Network. In your example, a PUT request with application/xml also will be preflighted even it is requested in the same origing
Unlike simple requests (discussed above), "preflighted" requests first send an HTTP request by the OPTIONS method 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, HEAD 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)
If I fake an OPTIONS preflight CORS request from Postman, I don't get the CORS headers back from my API.
After completely reverse engineering the Microsoft.Owin.Cors library I discovered that the headers weren't on the request!
Which led me to this beauty from the Postman docs:
Restricted headers and cookies
Unfortunately some headers are restricted by Chrome and the
XMLHttpRequest specification. The following headers are blocked:
Accept-Charset Accept-Encoding Access-Control-Request-Headers
Access-Control-Request-Method Connection Content-Length Cookie Cookie
2 Content-Transfer-Encoding Date Expect Host Keep-Alive Origin Referer
TE Trailer Transfer-Encoding Upgrade User-Agent Via
https://www.getpostman.com/docs/requests
Aaaaargh. That's a day of my life I won't get back.
I managed to get it working using Postman Interceptor
The settings I had were as below
I had to check a problem of preflight requests cut by firewall in production environment. I used the Postman to sent the OPTIONS requests. This article explains which headers you must set in OPTIONS request https://developer.mozilla.org/en-US/docs/Glossary/Preflight_request . In my case I added: Origin, Referer, Access-Control-Request-Method and Access-Control-Request-Headers. If you miss some required headers the response returns 405 Method Not Allowed. If all is set correctly the response is 204 No Content and in headers you will find headers Access-Control-Allow-Methods and Access-Control-Allow-Headers. These headers are used by browser to confirm that preflight request is accepted and browser can send main request.
I have used a proxy tool to capture a certain REST HttpRequest. The request is a HTTP PUT command followed by an extremely long REST link containing specific data that gets sent to the server.
In the proxy tool it looks something like this:
Header
PUT http://XXX.XXX.XXX.XXX:8080/rest/blah/blah/.../ HTTP/1.1
Host: XXX.XXX.XXX.XXX:8080
User-Agent: Mozilla/5.0
Accept: application/json, text/javascript, */*; q=0.01
Accept-language: en-us, en:q=0.5
Proxy Connection:keep-alive
Content-Type:XMLHttpRequest
Referer: http://XXX.XXX.XXX.XXX:8080/plugins/blah/blah
Content-length: 11156
Cookie: JSESSIONID=<really long alpha numeric>
Body:
{"links":{"self":"/rest/plugins/1.0/blah/blah.....
...
... lots and lots of JSON text
}
}
So the proxy tool has been helpful in identifying what the request looks like.
But the only way to generate this request is by clicking a button on the webpage. I would like to send exact same request on my own (like creating a custom link that when clicked generates a similar request to the one shown above). How do I do this?
Also, anything I type in the web browser URL area automatically is a "GET". How do I force a PUT?
Cookie: JSESSIONID=
This clearly indicates that the API you want to use is not a REST API, because it violates the stateless constraint of REST.
How do I force a PUT?
Probably you don't have a way to do that. It depends on the security settings of the web API. If you want to do this with AJAX from the browser, and your domain is different from the APIs domain, then you need a CORS header from the API, which allows your domain to read cross origin responses. By PUT the browsers sends a preflight first, and if it cannot read the response, it will never send the real PUT. Security policy and other headers can block XSS in the browser, so you probably don't have a way to do this from browser.
You can do this from your server by copying the request details and catching the session id somehow.
If the API allows access to 3rd party clients, then I suggest you to contact with them. If not, then you 99% that you won't be able to do this.