Double Encoding

Revision as of 06:07, 26 May 2009 by Deleted user (Talk | contribs)

Jump to: navigation, search

[ how to remove symantec antivirus ] [ my children my africa ] [ download norton antivirus updates ] [ asian female oregon site ] [ educational african american quote ] [ australian girls names ] [ south africa tourism ] [ norton antivirus corporate edition 7.5 ] [ custom auto body work fl ] [ austin asian massage tx ] links top [ slavery in africa in the 1800s ] [ asian recipes for children ] url url [ auto paint for sale ] sitemap [ african scholarships ] [ panda titanium 2006 antivirus crack ] [ glory hole locations australia ] [ auto lift springs ] links [ australian service sector are productivity leaders ] [ south asia tribune proxy server ] [ zambian embassy in south africa ] african imports uk [ african and asian elephants ] [ quokka newspaper australia ] [ south africa for kids ] [ australian live music ] [ asian beach community type ] [ reward management asia ] [ big day out australia 2005 ] [ manually uninstall symantec antivirus corporate 9 ] [ clam antivirus ] page [ blasia costumes ] [ antivirus sofware ] [ symantec antivirus auto protect is disabled ] [ etv news south africa ] [ quickheal antivirus free download ] [ automatic cappuccino coffee espresso maker ] [ performance auto and sound models ] [ whos who in australia ] [ asian journalist ] [ automobile custom paint jobs ] [ africa disease image in ] [ australia car hand second ]

This is an Attack. To view all attacks, please see the Attack Category page.

Last revision: 05/26/2009


This attack technique consists of encoding user request parameters twice in hexadecimal format in order to bypass security controls or cause unexpected behavior from the application. It's possible because the webserver accepts and processes client requests in many encoded forms.

By using double encoding it’s possible to bypass security filters that only decode user input once. The second decoding process is executed by the backend platform or modules that properly handle encoded data, but don't have the corresponding security checks in place.

Attackers can inject double encoding in pathnames or query strings to bypass the authentication schema and security filters in use by the web application.

There are some common characters sets that are used in Web applications attacks. For example, Path Traversal attacks use “../” (dot-dot-slash) , while XSS attacks use “<” and “>” characters. These characters give a hexadecimal representation that differs from normal data.

For example, “../” (dot-dot-slash) characters represent %2E%2E%2f in hexadecimal representation. When the % symbol is encoded again, its representation in hexadecimal code is %25. The result from the double encoding process ”../”(dot-dot-slash) would be %252E%252E%252F:

  • The hexadecimal encoding of “../” represents "%2E%2E%2f"
  • Then encoding the “%” represents "%25"
  • Double encoding of “../” represents "%252E%252E%252F"

Risk Factors



Example 1

This example presents an old well-known vulnerability found in IIS versions 4.0 and 5.0, where an attacker could bypass an authorization schema and gain access to any file on the same drive as the web root directory due to an issue with the decoding mechanism. For more details about folder traversal vulnerability, see CVE 2001-0333.

In this scenario, the victim has a published executable directory (e.g. cgi) that’s stored on the same partition as the Windows system folder. An attacker could execute arbitrary commands on the web server by submitting the following URL:

Original URL:


However, the application uses a security check filter that refuses requests containing characters like “../”. By double encoding the URL, it’s possible to bypass security the filter:

Double encoded URL:


Example 2

A double encoded URL can be used to perform an XSS attack in order to bypass a built-in XSS detection module. Depending on the implementation, the first decoding process is performed by HTTP protocol and the resultant encoded URL will bypass the XSS filter, since it has no mechanisms to improve detection. A simple example XSS would be:


This malicious code could be inserted into a vulnerable application, resulting in an alert window with the message “XSS”. However, the web application can have a character filter which prohibits characters such as “< “, “>” and “/”, since they are used to perform web application attacks. The attacker could use a double encoding technique to bypass the filter and exploit the client’s session. The encoding process for this Java script is:

Char Hex encode Then encoding '%' Double encode
“<” “%3C” “%25” “%253C”
“/” “%2F” “%25” “%252F”
“>” “%3E” “%25” “%253E”

Finally, the malicious double encoding code is:


Related Threat Agents

Related Attacks

Related Vulnerabilities

  • TBD

Related Controls