I've read about Same Origin Policy, but for a better understanding of the matter: could anyone please write a simple code (in any language) that will demonstrate an attack that SOP stops?

How was it possible to attack someone before SOP came about?

migrated from superuser.com Feb 2 '13 at 22:27

This question came from our site for computer enthusiasts and power users.

<iframe id="bank" src="https://yourbank.com"></iframe>

    window.onload = function() {
        document.getElementById('bank').contentWindow.document.forms[0].action =

The Javascript code changes the form's action property (the destination, in a matter of speaking), so when you submit the form, you send your credentials to me, not your bank.

If I set up a PHP script on my server that redirects you to your bank, you won't even notice it.

With Same Origin Policy, this attack isn't possible. A site on my domain cannot read or modify the contents of the bank's website.

  • 1
    So the same origin policy exists to inconvenience the pfishers? Now to steal your password they have to copy the facade of the real site onto their malicious site, rather host an iframe. Does this really add any security? – Edward Brey Feb 11 '14 at 4:04
  • @EdwardBrey: That's only one example. Without the SOP, you couldn't safely load any website in an iframe. Since cookies enable automatic logins to many websites, any malicious website you visit could make purchases on eBay, send fake emails to your friends or close your Facebook account. All it takes is a (hidden) iframe and you having used the stay logged in option on any of those sites. – Dennis Feb 11 '14 at 12:25
  • If I understand correctly, the type of attacks that you're talking about work by first luring the user to the wrong site. Instead of https://yourbank.com, the attacker somehow gets the user to visit http://mysite.co, which the attacker controls. The attacker has his choice of tricks to convince the user who doesn't notice the URL that his site is legit. No need to use an iframe: just copy and paste the code from the real site. That said, many banks add a user-specific picture or word before asking for the password, in which case restricting iframes does add value. – Edward Brey Feb 11 '14 at 14:45
  • That applies to the example in the answer, but not to the comment. Using a hidden iframe and taking advantage of session cookies, you can embed an iframe in every blog, forum or whatever and secretly perform actions using the attackee's account without his intervention. – Dennis Feb 11 '14 at 15:15
  • @Dennis Cookies have a "domain" property and are only available on the page where they were loaded as far as I understand. So you couldn't steal the cookie of an iFramed page, what am I missing? – bersling Dec 4 '18 at 7:59

Attack example 1: Cross-Site Request Forgery (CSRF) with an HTML form

On page at evil.com the attacker has put:

<form method="post" action="http://bank.com/trasfer">
    <input type="hidden" name="to" value="ciro">
    <input type="hidden" name="ammount" value="100000000">
    <input type="submit" value="CLICK TO CLAIM YOUR PRIZE!!!">

Without further security measures, this would:

  • the request does get sent. The SOP does not forbid this request from being sent.
  • it includes authentication cookies from bank.com which log you in

It is the synchronizer token pattern, alone, even without the SOP, prevents this from working.

Synchronizer token pattern

For every form on bank.com, the developers generate a one time random sequence as a hidden parameter, and only accept the request if the server gets the parameter.

E.g., Rails' HTML helpers automatically add an authenticity_token parameter to the HTML, so the legitimate form would look like:

<form action="http://bank.com/transfer" method="post">
  <p><input type="hidden" name="authenticity_token"
            value="j/DcoJ2VZvr7vdf8CHKsvjdlDbmiizaOb5B8DMALg6s=" ></p>
  <p><input type="hidden" name="to"      value="ciro"></p>
  <p><input type="hidden" name="ammount" value="100000000"></p>
  <p><button type="submit">Send 100000000$ to Ciro.</button></p>

as mentioned at: Understanding the Rails Authenticity Token

So if evil.com makes a post single request, he would never guess that token, and the server would reject the transaction!

See also: synchronizer token pattern at OWASP.

Attack example 2: Cross-Site Request Forgery (CSRF) with JavaScript AJAX

But then, what prevents the evil.com from making 2 requests with JavaScript, just like a legitimate browser would do:

  1. XHR GET for the token
  2. XHR POST containing the good token

so evil.com would try something like this (jQuery because lazy):

// Parse HTML reply and extract token.
$.post('http://bank.com/transfer', {
  to: 'ciro',
  ammount: '100000000',
  authenticity_token: extracted_token

This is where the SOP comes into play. Although the $.get and $.post do actually send the authenticated request just like the HTML form, the sender's browser prevents the JavaScript code from reading the HTML reply back, because the request was sent to a separate domain!

The Chromium developer console shows an error for it of type:

Access to XMLHttpRequest at 'http://bank.com' from origin 'http://evil.com' has been blocked by CORS policy: No 'Access-Control-Allow-Origin' header is present on the requested resource.

which has been asked at: Why does my JavaScript code get a "No 'Access-Control-Allow-Origin' header is present on the requested resource" error when Postman does not?

Why not just not send cross request cookies instead?

I was asking myself: but what if implementations had a rule like: "allow any request, but only send cookies on current domain XHR"?

But that would still allow for another type of attack: when authentication is based not on cookies, but on source (IP) of the request.

For example, you are in your company's intranet and from there you can access an internal server, which is not visible from the outside and serves secret data.

Are all cross-origin requests forbidden?

Even forgetting CORS, no, we do them every day!

From MDN:

  • Cross-origin writes are typically allowed: links, redirects and form submissions.

  • Cross-origin embedding is typically allowed: images, external CSS and Javascript, iframes.

  • Cross-origin reads are typically not allowed: XHR (example above), iframe read.

    However, read access is often leaked by embedding. For example you can read the width and height of an embedded image, the actions of an embedded script, or the availability of an embedded resource (and thus possibly if the user is logged in or not on a given domain)

Other prevention approaches

See also:

  • Why XHR GET can obtain the token without SOP? – ZillGate Jun 17 '15 at 16:01
  • @ZillGate why not? XHR (from evil.com) makes a GET request (to bank.com) and retrieves the data (the HTML of the web page containing the token) just like a browser would. The only thing preventing it is the SOP. Let me know if not clear. – Ciro Santilli 新疆改造中心法轮功六四事件 Jun 17 '15 at 17:21
  • Got it. Thank you very much! – ZillGate Jun 18 '15 at 7:10
  • 1
    @CyberMew exactly, it is the browser that implements SOP. If the user uses a vulnerable browser that doesn't implement SOP, the user will get hacked big time by hackers if he ever goes to an untrusted website. Banks however, also use re-authentication (ask password before critical operations). All major browsers implement SOP by default of course. – Ciro Santilli 新疆改造中心法轮功六四事件 Mar 14 '17 at 7:32
  • 1
    Ah I got it now. Thank you very much for explaining in detail. 谢谢! – CyberMew Mar 14 '17 at 8:16

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.