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I was trying to understand CORS. As per my understanding it is a security mechanism implemented in browsers to avoid any ajax request to domain other than the one open by the user (specified in the url)

Now, due to this limitation many CORS was implemented to enable websites to do cross origin request. but as per my understanding implementing CORS defy the security purpose of the "Same Origin Policy" SOP

CORS is just to provide extra control over which request server wants to serve. Maybe it can avoid spammers.

From Wikipedia:

To initiate a cross-origin request, a browser sends the request with an Origin HTTP header. The value of this header is the site that served the page. For example, suppose a page on http://www.example-social-network.com attempts to access a user's data in online-personal-calendar.com. If the user's browser implements CORS, the following request header would be sent:

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

If online-personal-calendar.com allows the request, it sends an Access-Control-Allow-Origin header in its response. The value of the header indicates what origin sites are allowed. For example, a response to the previous request would contain the following:

Access-Control-Allow-Origin: http://www.example-social-network.com

If the server does not allow the cross-origin request, the browser will deliver an error to example-social-network.com page instead of the online-personal-calendar.com response.

To allow access to all pages, a server can send the following response header:

Access-Control-Allow-Origin: *

However, this might not be appropriate for situations in which security is a concern.

What am i missing here? what is the the intend of CORS to secure the server vs secure the client.

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Side note: CORS is spelled wrong in your question/title - en.wikipedia.org/wiki/Cross-origin_resource_sharing –  Alexei Levenkov Feb 4 '13 at 6:14
    
@Alexie - Fixed the typo –  David Feb 4 '13 at 6:26

2 Answers 2

The Same Origin Policy (SOP) is the policy browsers implement to prevent vulnerabilities via Cross Site Scripting (XSS). This is mainly for protecting the server, as there are many occasions when a server can be dealing with authentication, cookies, sessions, etc.

The Cross Origin Resource Sharing (CORS) is one of the few techniques for relaxing the SOP. Because SOP is "on" by default, setting CORS at the server-side will allow a request to be sent to the server via an XMLHttpRequest even if the request was sent from a different domain. This becomes useful if your server was intended to serve requests from other domains (e.g. if you are providing an API).

I hope this clears up the distinction between SOP and CORS and the purposes of each.

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1  
CORS is one of the few techniques for relaxing the SOP. ==> to me it looks implementing support of CORSin browsers to support can create the vulnerability and completely bypass the safety net provided by SOP –  David Feb 4 '13 at 20:09
    
CORS is actually implemented in the server. When "enabled", it simply sends an HTTP header (Access Control Allow Origin) with the response. The browser implements the SOP. If it doesn't see the right headers, it blocks the response. –  compid Feb 5 '13 at 16:32
    
For me CORS is implemented in the wrong server. The only server which must be allowed to disable SOP is the origin server and not the second server to which the ajax request is made. –  Biber Apr 24 at 7:19

Same-origin policy

What is it?

The same-origin policy is a security measure standardized among browsers. The "origin" mostly refers to a "domain". It prevents different origins from interacting with each other, to prevent attacks such as Cross Site Request Forgery.

How does CSRF attack work?

Browsers allow websites to store information on client's computer, in the form of... cookies. These cookies have some information attached to them. Like the name of the cookie, when was it created, when would it expire, who set the cookie etc. A cookie looks something like this:

Cookie: cookiename=chocolate; Domain=.bakery.com; Path=/ [// ;otherDdata]

So this is a chocolate cookie. Which should be accessible from http://bakery.com and all of its subdomains.

This cookie might contain some sensitive data. In this case, that data is... chocolate. Highly sensitive, as you can see.

So the browser stores this cookie. And whenever the user makes a request to a domain on which this cookie is accessible, the cookie would be sent to the server for that domain. Happy server.

This is a good thing. Super cool way for the server to store and retrieve information on and of the client-side.
But the problem is that this allows http://malicious-site.com to send those cookies to http://bakery.com, without the user knowing! For example, consider the following scenario:

# malicious-site.com/attackpage

var xhr = new XMLHttpRequest();
xhr.open('GET', 'http://bakery.com/order/new?deliveryAddress="address of malicious user"');
xhr.send();

If you visit the malicious site, and the above code executes, and same-origin policy was not there, the malicious user would place an order on behalf of you, and get the order at his place... and you might not like this thing.

This happened because your browser sent your chocolate cookie to http://bakery.com, which made http://bakery.com think that you are making the request for the new order, knowingly. But you aren't.

This is, in plain words, a CSRF attack. A "cross" "site", made a "request", and the request was a "forged" one. "Cross Site Request Forgery". And it would not work, thanks to the same-origin policy.

How does Same-origin policy solve this?

It stops the malicious-site.com to make requests to other domains. Simple.

In other words, the browser would not allow any site to make a request to any other site. It would prevent different origins from interacting with each other through such requests, like AJAX.


CORS

However, the policy can be circumvented, when cross site requests are required. This is known as CORS. Cross Origin Resource Sharing.

This works by having the "domains" to tell the browser to chill, and allow such requests. This "telling" thing can be done by passing a header. Something like:

Access-Control-Allow-Origin: //comma separated allowed origins list, or just * So if http://bakery.com passes this header to the browser, and the page creating the request to http://bakery.com is present in the origin list, then the browser will let the request go, along with the cookies.

There are rules according to which the origin is defined1. For example, different ports for the same domain are not the same origin. So the browser might decline this request if the ports are different. As always, our dear Internet Explorer is exception to this. IE treats all ports the same way. This is NON-STANDARD and NO OTHER BROWSER behaves this way. DO NOT RELY ON THIS.


JSONP

JSON with Padding is just a way to circumvent same-origin policy, when CORS is not an option. This is risky and a bad practice. Do not use this.

What this technique involves is making a request to the other server like following:

<script src="http://badbakery.com/jsonpurl?callback=cake"></script>

Since same-origin policy does not prevent this2 request, the response of this request will be loaded into the page.

This url would most probably respond with JSON content. But just including that JSON content on the page is not gonna help. It would result in an error, ofcourse. So http://badbakery.com accepts a callback parameter, and modifies the JSON data, sending it wrapped in whatever is passed to the callback parameter.

So instead of returning,

{ user: "vuln", acc: "B4D455" }

it would return,

cake({user: "vuln", acc:"B4D455"});

which is valid JavaScript, it would get executed, and probably get stored somewhere according to the cake function, so that the rest of the JavaScript on the page can use the data.

This is mostly used by APIs to send data to other domains. Again, this is a bad practice, can be risky, and should be strictly avoided.


References

1. https://developer.mozilla.org/en-US/docs/Web/Security/Same-origin_policy#Definition_of_an_origin

2. https://www.w3.org/Security/wiki/Same_Origin_Policy#Details

Other worthy reads

http://scarybeastsecurity.blogspot.dk/2009/12/generic-cross-browser-cross-domain.html

http://tools.ietf.org/html/rfc3986 (sorry :p)

https://developer.mozilla.org/en-US/docs/Web/Security/Same-origin_policy

https://www.owasp.org/index.php/Cross-Site_Request_Forgery_(CSRF)

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I have tried to give a canonical answer to all general same-origin policy questions. Any constructive edits are more than welcome :) –  Awal Garg Dec 4 '14 at 13:10

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