I am writing an application (Django, it so happens) and I just want an idea of what actually a "CSRF token" is and how it protects the data. Is the post data not safe if you do not use CSRF tokens?
Cross-Site Request Forgery (CSRF) in simple words
- Assume you are currently logged into your online banking at
- Assume a money transfer from
mybank.comwill result in a request of (conceptually) the form
http://www.mybank.com/transfer?to=<SomeAccountnumber>;amount=<SomeAmount>. (Your account number is not needed, because it is implied by your login.)
- You visit
www.cute-cat-pictures.org, not knowing that it is a malicious site.
- If the owner of that site knows the form of the above request (easy!) and correctly guesses you are logged into
mybank.com(requires some luck!), they could include on their page a request like
123456is the number of their Cayman Islands account and
10000is an amount that you previously thought you were glad to possess).
- You retrieved that
www.cute-cat-pictures.orgpage, so your browser will make that request.
- Your bank cannot recognize this origin of the request: Your web browser will send the request along with your
www.mybank.comcookie and it will look perfectly legitimate. There goes your money!
This is the world without CSRF tokens.
Now for the better one with CSRF tokens:
- The transfer request is extended with a third argument:
- That token is a huge, impossible-to-guess random number that
mybank.comwill include on their own web page when they serve it to you. It is different each time they serve any page to anybody.
- The attacker is not able to guess the token, is not able to convince your web browser to surrender it (if the browser works correctly...), and so the attacker will not be able to create a valid request, because requests with the wrong token (or no token) will be refused by
Result: You keep your
10000 monetary units. I suggest you donate some of that to Wikipedia.
(Your mileage may vary.)
EDIT from comment worth reading:
It would be worthy to note that script from
www.cute-cat-pictures.org normally does not have access to your anti-CSRF token from
www.mybank.com because of HTTP access control. This note is important for some people who unreasonably send a header
Access-Control-Allow-Origin: * for every website response without knowing what it is for, just because they can't use the API from another website.
Yes, the post data is safe. But the origin of that data is not. This way somebody can trick user with JS into logging in to your site, while browsing attacker's web page.
In order to prevent that, django will send a random key both in cookie, and form data. Then, when users POSTs, it will check if two keys are identical. In case where user is tricked, 3rd party website cannot get your site's cookies, thus causing auth error.
The site generates a unique token when it makes the form page. This token is required to post/get data back to the server.
Since the token is generated by your site and provided only when the page with the form is generated, some other site can't mimic your forms -- they won't have the token and therefore can't post to your site.
Imagine you had a website like a simplified Twitter, hosted on a.com. Signed in users can enter some text (a tweet) into a form that’s being sent to the server as a POST request and published when they hit the submit button. On the server the user is identified by a cookie containing their unique session ID, so your server knows who posted the Tweet.
The form could be as simple as that:
<form action="http://a.com/tweet" method="POST"> <input type="text" name="tweet"> <input type="submit"> </form>
Now imagine, a bad guy copies and pastes this form to his malicious website, let’s say b.com. The form would still work. As long as a user is signed in to your Twitter (i.e. they’ve got a valid session cookie for a.com), the POST request would be sent to
http://a.com/tweetand processed as usual when the user clicks the submit button.
So far this is not a big issue as long as the user is made aware about what the form exactly does, but what if our bad guy tweaks the form like this:
<form action="https://example.com/tweet" method="POST"> <input type="hidden" name="tweet" value="Buy great products at http://b.com/#iambad"> <input type="submit" value="Click to win!"> </form>
Now, if one of your users ends up on the bad guy’s website and hits the “Click to win!” button, the form is submitted to your website, the user is correctly identified by the session ID in the cookie and the hidden Tweet gets published.
A form can easily be submitted from everywhere to everywhere. Generally that’s a common feature, but there are many more cases where it’s important to only allow a form being submitted from the domain where it belongs to.
Things are even worse if your web application doesn’t distinguish between POST and GET requests (e.g. in PHP by using $_REQUEST instead of $_POST). Don’t do that! Data altering requests could be submitted as easy as
<img src="http://a.com/tweet?tweet=This+is+really+bad">, embedded in a malicious website or even an email.
How do I make sure a form can only be submitted from my own website? This is where the CSRF token comes in. A CSRF token is a random, hard-to-guess string. On a page with a form you want to protect, the server would generate a random string, the CSRF token, add it to the form as a hidden field and also remember it somehow, either by storing it in the session or by setting a cookie containing the value. Now the form would look like this:
<form action="https://example.com/tweet" method="POST"> <input type="hidden" name="csrf-token" value="nc98P987bcpncYhoadjoiydc9ajDlcn"> <input type="text" name="tweet"> <input type="submit"> </form>
When the user submits the form, the server simply has to compare the value of the posted field csrf-token (the name doesn’t matter) with the CSRF token remembered by the server. If both strings are equal, the server may continue to process the form. Otherwise the server should immediately stop processing the form and respond with an error.
Why does this work? There are several reasons why the bad guy from our example above is unable to obtain the CSRF token:
Copying the static source code from our page to a different website would be useless, because the value of the hidden field changes with each user. Without the bad guy’s website knowing the current user’s CSRF token your server would always reject the POST request.
The bad guy is also unable to access the cookie set by your server, because the domains wouldn’t match.
When should I protect against cross-site request forgery? If you can ensure that you don’t mix up GET, POST and other request methods as described above, a good start would be to protect all POST requests by default.
You don’t have to protect PUT and DELETE requests, because as explained above, a standard HTML form cannot be submitted by a browser using those methods.
This means, often you do not even have to add a CSRF token to AJAX requests, even if they are POST requests, but you will have to make sure that you only bypass the CSRF check in your web application if the POST request is actually an AJAX request. You can do that by looking for the presence of a header like X-Requested-With, which AJAX requests usually include. You could also set another custom header and check for its presence on the server side. That’s safe, because a browser would not add custom headers to a regular HTML form submission (see above), so no chance for Mr Bad Guy to simulate this behaviour with a form.
The root of it all is to make sure that the requests are coming from the actual users of the site. A csrf token is generated for the forms and Must be tied to the user's sessions. It is used to send requests to the server, in which the token validates them. This is one way of protecting against csrf, another would be checking the referrer header.
protected by revo Aug 2 '18 at 14:48
Thank you for your interest in this question.
Because it has attracted low-quality or spam answers that had to be removed, posting an answer now requires 10 reputation on this site (the association bonus does not count).
Would you like to answer one of these unanswered questions instead?