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The way I understand it, if a client-side script running on a page from foo.com wants to request data from bar.com, in the request it must specify the header Origin: http://foo.com, and bar must respond with Access-Control-Allow-Origin: http://foo.com.

What is there to stop malicious code from the site roh.com from simply spoofing the header Origin: http://foo.com to request pages from bar?

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    I believe the point is that the original domain the page is served from (here, foo.com) has to provide the Access-Control-Allow-Origin header or else the browser doesn't allow the request to bar.com. – Chris Hayes Jan 11 '14 at 3:28
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    Reading through this post really helped me out in my understanding of the cors process between the browser, origin server, and target server. html5rocks.com/en/tutorials/cors – brendonparker Jan 11 '14 at 3:30
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    @ChrisHayes That's not how CORS works at all. You can read up on this a bit more by looking at the spec, or this great MDN wiki page on the subject. – Ray Nicholus Jan 11 '14 at 3:52
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    @brendonparker Yes, that's a great article. That author answers a lot of CORS questions on SO, and also maintains enable-cors.org. – Ray Nicholus Jan 11 '14 at 3:54
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    @RayNicholus Interesting, I was clearly way off. Thanks for the links. Judging by the votes on my comment I'm not the only one suffering under this delusion. I hope those two come back and learn (and remove their votes!). – Chris Hayes Jan 11 '14 at 4:06
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Browsers are in control of setting the Origin header, and users can't override this value. So you won't see the Origin header spoofed from a browser. A malicious user could craft a curl request that manually sets the Origin header, but this request would come from outside a browser, and may not have browser-specific info (such as cookies).

Remember: CORS is not security. Do not rely on CORS to secure your site. If you are serving protected data, use cookies or OAuth tokens or something other than the Origin header to secure that data. The Access-Control-Allow-Origin header in CORS only dictates which origins should be allowed to make cross-origin requests. Don't rely on it for anything more.

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    This makes a lot of sense. If the browser doesn't allow JavaScript to override the Origin header, then there is no problem. If you're executing requests from outside the browser, you're not going to have the cookies. I guess I was confused because in all of the docs I was reading, nowhere did it say explicitly that the Origin header couldn't be overridden. Thanks! – Jay Lamont Jan 12 '14 at 0:39
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    If someone wants to spoof something, then they can do so. Using pretty much any scripting language they can construct http requests. Perl and Python have http libraries which make this pretty easy. The libraries store and send cookies, let you add arbitrary headers, and give plenty of debugging information. So the CORS headers are just to make it harder for malicious javascript on a forum you read to do something nasty to your bank account on another domain when you're logged into both in your browser. – Mnebuerquo Jan 15 '14 at 15:30
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    And just to clarify, the malicious user could simply spawn a browser instance that was patched to allow them manual control over the Origin header, and then perfectly impersonate a normal user, cookies, AJAX and all. – Jordan Rieger Oct 1 '14 at 18:35
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    "Browsers are in control of setting the Origin header, and user's can't override this value." I'm sure it's very easy to use a tool like Fiddler2 or Charles to modify the headers once the request leaves the browser. – Asa Jan 13 '15 at 6:51
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    the malicious user could simply spawn a browser instance that was patched to allow them manual control over the Origin header If you have access to the machine to the point where you can 'simply spawn a patched browser instance' (doesn't actually sound that simple to me), why not just directly read the cookies from disk? They are stored in plain text you know. In real life, cross-site scripting is a real threat, whereas your attack scenario is just contrived and impractical. – Stijn de Witt Oct 5 '17 at 17:42
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TLDR: There's nothing stopping malicious code from spoofing the origin. When that happens, your server will never know about it and will act upon the requests. Sometimes those requests are expensive. So don't use CORS in place of any type of security.


I've been playing around with CORS recently, and I've asked myself the same question. What I've found is that the browser may be smart enough to know a spoofed CORS request when it sees one, but your server isn't as smart.

The first thing I found was that the Origin header is an HTTP forbidden header name that cannot be modified programmatically. Which means you can modify it in about 8 seconds using Modify Headers for Google Chrome.

To test this, I set up two Client domains and one Server domain. I included a CORS whitelist on the Server, which allowed CORS requests from Client 1 but not from Client 2. I tested both clients, and indeed Client 1's CORS requests succeeded while Client 2's failed.

Then I spoofed Client 2's Origin header to match Client 1's. The Server received the spoofed Origin header, and successfully passed the whitelist check (or failed if you're a glass-half-empty kind of guy). After that, the Server performed dutifully by consuming all the resources that it was designed to consume (database calls, sending expensive emails, sending even more expensive sms messages, etc.). When that was done, the server happily sent the spoofed Access-Control-Allow-Origin header back to the browser.

The documentation I've read states that the Access-Control-Allow-Origin value received must match the Origin value sent in the request exactly. They did match, so I was surprised when I saw the following message in Chrome:

XMLHttpRequest cannot load http://server.dev/test. The 'Access-Control-Allow-Origin' header has a value http://client1.dev that is not equal to the supplied origin. Origin http://client2.dev is therefore not allowed access.

The documentation I read doesn't seem to be accurate. Chrome's network tab clearly shows both the request and response headers as http://client1.dev, but you can see in the error that Chrome somehow knows the real origin was http://client2.dev and correctly rejects the response. Which doesn't matter at this point because the server had already accepted the spoofed request and spent my money.

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    Spoofed Request --> But if you use fiddler for intercepting the response, before it reaches chrome, then you can see the data sent back from the CORS server, right?! – Legends May 20 '16 at 9:22
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    @Nocturno, thank you for the example. Let me just add my observation. CORS relates to browser safety features. If a safe browser is modified from its pristine state, that could be interpreted as the browser possibly lacks a safety feature. – Luka Žitnik Mar 4 '17 at 8:09
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    Not brilliant at all. It completely misses the point of CORS. If you are in the position to intercept requests originating from the user's machine, you can just read their cookies, install keyloggers, virusses and all those other real threats. CORS is there to protect honest users logged into site A from a malicious script that somehow got injected to site B. The script on site B (which could be a snippet of Javascript in a forum post that was not escaped correctly by site B) performs actions on site A under the user's account (e.g. delete stuff etc), using the session cookie from site A. – Stijn de Witt Oct 5 '17 at 17:48
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    This is called cross-site scripting and without CORS could be done without ever needing to gain control over the user's machine. That's the whole point. No control over the user's machine was needed because when making requests to site A the browser used to automatically add the session cookie to the request so it looked like a valid request from the user itself when in fact it was coming from a script on some other site. Same-Origin policy prevents it and CORS is used to whitelist domains that should be granted access even though they are on a different origin. – Stijn de Witt Oct 5 '17 at 17:50
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    @Nocturno Yeah I was maybe a bit too crude, sorry about that. Your original point stands. Same-Origin policy is a browser security feature and CORS is a mechanism to weaken that security by whitelisting some domains. OP needs to understand that spoofing the Origin header is not really viable as an 'attack' since it does not bring you anything that can't be had with e.g. curl. – Stijn de Witt Oct 6 '17 at 11:21
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Just a humble wrap up:

Q: Is Same Origin Policy (SOP) enforced only by browsers?
A: Yes. For all calls you make inside a browser, the SOP is definitely applied by the browser. Server might or might not check the origin of the request.

Q: If a request doesn't comply with SOP, does the browser block it?
A: No, it's beyond authority of browsers. Browsers just send cross origin requests and wait for the response to see if the call is signaled legit by server through Access-Control-* headers . If server doesn't send back Access-Control-Allow-Origin header, doesn't echo back the origin of caller, or doesn't send back * in the header, then all the browser can do is to refrain from providing the response to the caller.

Q: Does it mean I cannot spoof Origin?
A: In browser and using scripting, you cannot override Origin as it's in control of browser. However, if you want to hack yourself, you can tamper the calls coming out of YOUR browser using browser extensions or other tools you install on your machine. You can also issue HTTP calls using curl, Python, C#, etc and alter the Origin header to trick server.

Q: So if I can trick server by altering Origin, does it mean CORS is not secure?
A: CORS per say is silent about security - i.e. authentication and authorization of requests. It's up to servers to inspect requests and authenticate/authorize them by any mechanism they work with such as cookies and headers. Having said that, it can protect us a bit more in case of attacks like XSS:

Example: Let's say you login to your website and a malicious script code attempts to send a request to your bank website to inquire your balance. Your bank website trusts the credentials coming from your website so the request gets authenticated and a HTTP response aiming for the malicious code gets issued. If your bank website doesn't care about sharing its endpoints with other origins, it doesn't include Access-Control-Allow-Origin header in the response. Now, upon arrival of the request, the browser realizes that the request was a Cross Origins one but the response doesn't show that the server was happy to share the resource (here the balance query endpoint) with your website. So it breaks the flow and the returned result will never reach the malicious code.

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