JSON responses can be exploited by overriding Array constructors or if hostile values are not JavaScript string-escaped.

Let's assume both of those vectors are addressed in the normal way. Google famously traps JSON response direct sourcing by prefixing all JSON with something like:

throw 1; < don't be evil' >

And then the rest of the JSON follows. So Dr. Evil cannot, using the sort of exploit discussed here http://sla.ckers.org/forum/read.php?2,25788 get your cookie (assuming you're logged in) by putting the following on his site:

<script src="http://yourbank.com/accountStatus.json"> 

As for string escaping rules, well if we're using double quotes, we need to prefix each with a backslash and each backslash with another backslash etc.

But my question is, what if you're doing all of this?

Burpsuite (the automated security tool) detects embedded XSS attempts that are returned unHTML-escaped in a JSON response and it reports it as an XSS vulnerability. I have a report that my application contains vulnerabilities of this kind but I am not convinced. I've tried it and I can't make an exploit work.

So I don't think this is correct, but I ask you StackOverflow community, to weigh in.

There is one specific case, that of IE MIME-type sniffing that I think could result in an exploit. After all, IE 7 still had the "feature" that script tags embedded in image comments were executed regardless of the Content-Type header. Let's also leave such clearly stupid behaviour aside at first.

Surely the JSON would be parsed by either the native JavaScript parser (Window.JSON in Firefox) or by an eval() as per the old default jQuery behaviour. In neither case would the following expression result in the alert being executed:

{"myJSON": "legit", "someParam": "12345<script>alert(1)</script>"}

Am I right or am I wrong?


This potential xss vulnerability can be avoided by using the correct Content-Type. Based on RFC-4627 all JSON responses should use the application/json type. The following code is not vulnerable to xss, go ahead test it:

header('Content-type: application/json'); 
header("x-content-type-options: nosniff");
print $_GET['json'];

The nosniff header is used to disable content-sniffing on old versions of Internet Explorer. Another variant is as follows:

header("Content-Type: application/json");
header("x-content-type-options: nosniff");
print('{"someKey":"<body onload=alert(\'alert(/ThisIsNotXSS/)\')>"}');

when the above code is viewed by a browser the user was prompted to download a JSON file, the JavaScript was not executed on modern versions of Chrome, FireFox and Internet Explorer. This would be an RFC violation.

If you use JavaScript to eval() the JSON above or write the response to the page then it becomes DOM Based XSS. DOM based XSS is patched on the client by sanitizing the JSON before acting on this data.

  • OK so I suppose I could have made it clearer, but the JSON response I'm talking about is defined by the presence of the Content-Type header having the value "application/json". So it seems you're confirming that there is no exploit. Can't your code can be exploited by direct sourcing on a hostile domain, that is using the script tag and parametising the source to include code that will then be executed in the context of the domain it's from? In that case that domain's cookies would be accessible and could be captured by the calling page using document.write. Right? – Chris Mountford Jul 1 '10 at 4:44
  • @Chris Mountford the injected JavaScript is not executed because the server is telling the browser not too. Think of it like this, what if you had JavaScript in a .exe? This could lead Dom Based XSS, but so could other designs. Dom based xss executes with the same policy as it is executed from. The only way that this can be a problem for you is if you are eval()ing the code on your own site. – rook Jul 1 '10 at 6:23
  • My understanding was that JSON was eval()'d very commonly in the past, at least by default on jQuery (as I said). However, I'm interested not in JavaScript injection but in HTML injection in JSON which leads to JavaScript execution. Can you comment on that? Also, as I said IE as recent as v7 I have confirmed can IGNORE the Content-Type header under certain circumstances. Yes this is a bug in IE but Microsoft argued no (regardless of the RFC) and in the end, for security ,it only matters what the browsers do not what the spec says. – Chris Mountford Jul 1 '10 at 23:54
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    Rook, I haven't read it in detail yet, so forgive me if I've misread or am just plain being thick, but I believe that this blog post, provided by @anon below, describes an attack by which Internet Explorer can be made to treat responses with the application/json Content-type as though they were HTML, allowing reflected XSS attacks despite the header. If I'm understanding all this correctly, it means that your answer here is wrong. Perhaps you'd like to have a look at this? – Mark Amery Jan 13 '14 at 10:54
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    @Rook You've dismissed the post too early. The bit about eval was in an intro passage about previously known exploits, and obviously only applies if the JSON response is being parsed somewhere using eval. If you continue reading, the actual vulnerability being described starts after the line that says we have discovered a way to render JSON responses in IE by direct browsing. I've posted my own answer describing this (although the painful level of detail is for the sake of people unfamiliar with XSS - I know it's not necessary for you!) – Mark Amery Jan 18 '14 at 23:38

Burpsuite (the automated security tool) detects embedded XSS attempts that are returned unHTML-escaped in a JSON response and it reports it as an XSS vulnerability.

Maybe it tries to prevent the vulnerability described in the rule 3.1 of OWASP XSS Cheat Sheet.

They give the following example of vulnerable code:

    var initData = <%= data.to_json %>;

Even if double quotes, slashes and newlines are properly escaped, you can break out of JSON if it's embedded in HTML:

    var initData = {"foo":"</script><script>alert('XSS')</script>"};


to_json() function can prevent this issue by prefixing each slash with a backslash. If JSON is used in HTML attribute, the whole JSON string must be HTML-escaped. If it's used in a href="javascript:" attribute, it must be URL-escaped.

  • This is a very basic bug in the php (I assume it's php). You must not inline tainted data into HTML without HTML escaping. But as I indicated in my question, I am not doing this. While it's possible that Burpsuite may be trying to prevent this problem, that approach is misguided. – Chris Mountford Jan 21 '14 at 10:14
  • What approach is misguided? I don't understand you. As for "You must not inline tainted data into HTML without HTML escaping.", guess what, you shouldn't inline even untainted data without escaping. – Alexey Lebedev Jan 21 '14 at 11:06
  • The matter of what you can inline is completely outside the scope of this question. You can certainly inline untainted data if that data is composed of HTML. In fact if you have HTML and you inline it WITH escaping, you will end up with double escaped output, which, while not a security bug, is still a bug. The approach I describe as misguided is the attempt "to prevent the vulnerability described in the rule 3.1 of OWASP XSS Cheat Sheet" which you suggest as Burpsuite's intention. If your suggestion about Burpsuite is true, then they are misguided. – Chris Mountford Jan 22 '14 at 6:11

If we limit our scope to IE (all versions), assume you are running a site based on PHP or ASP.NET, and ignore the IE anti-xss filter, then you are wrong: your users are vulnerable. Setting 'Content-type: application/json' will not help, either.

This is due to (as you mention) IE's content detection behavior, which goes beyond sniffing for HTML tags in the response body to include URI analysis.

This blog posting explains this very well:


  • OK, but the URI is still totally under the server control. – Chris Mountford Apr 3 '12 at 3:08
  • I see that the sniffing behaviour of IE creates multiple attack vectors possible, but modifying the path info is not possible on my application. Also, finally I can put this sniffing problem to rest since IE version 8+ will turn off MIME sniffing using this: X-Content-Type-Options: nosniff For anyone reading this, I think I've established that JSON can safely carry values with tainted user input as long as it is JSON value encoded and of course it should never be attached to an HTML DOM without client-side html encoding. – Chris Mountford Apr 3 '12 at 3:14
  • To clarify, I mean there is no opportunity for attackers to choose their own path info. This means my app has no vulnerability in that category. Also, in my original question, I did state that I wanted to put aside the question of IE's MIME sniffing, because I wanted to concentrate on other categories (I had a workaround for IE's MIME sniffing already). – Chris Mountford Apr 3 '12 at 6:17

For the record, although I accepted an answer, for the exact literal question I am asking, I was right and there was no vulnerability due to the presence of non-HTML-escaped yet correctly JSON-escaped HTML inside JSON values. There could be a bug there if that value was inserted into the DOM without client-side escaping but Burpsuite has little chance of knowing if that would happen just by looking at network traffic.

In the general case of determining what is a security vulnerability in these circumstances, it's instructive to recognise that while it may not feel like good design, the response content of a JSON value could legitimately be known to certainly contain no user input and be intended to be already rendered HTML to be safely inserted in the DOM unescaped. Escaping it would be a (non-security) bug as I mentioned in another comment.

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