Testing for Bypassing Authentication Schema (OTG-AUTHN-004)

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Brief Summary
While most applications require authentication for gaining access to private information or to execute tasks, not every authentication method is able to provide adequate security.

Negligence, ignorance, or simple understatement of security threats often result in authentication schemes that can be bypassed by simply skipping the login page and directly calling an internal page that is supposed to be accessed only after authentication has been performed.

In addition to this, it is often possible to bypass authentication measures by tampering with requests and tricking the application into thinking that we're already authenticated. This can be accomplished either by modifying the given URL parameter or by manipulating the form or by counterfeiting sessions.

Description of the Issue
Problems related to Authentication Schema could be found at different stages of the software development life cycle (SDLC), like design, development, and deployment phase.

Examples of design errors include a wrong definition of application parts to be protected, the choice of not applying strong encryption protocols for securing authentication data exchange, and many more.

Problems in the development phase are, for example, the incorrect implementation of input validation functionalities, or not following the security best practices for the specific language.

In addition, there may be issues during the application setup (installation and configuration activities), due to a lack in required technical skills, or due to poor documentation available.

Black Box testing and example
There are several methods to bypass the authentication schema in use by a web application:
 * Direct page request (forced browsing)
 * Parameter Modification
 * Session ID Prediction
 * SQL Injection

Direct page request

If a web application implements access control only on the login page, the authentication schema could be bypassed. For example, if a user directly requests a different page via forced browsing, that page may not check the credentials of the user before granting access. Attempt to directly access a protected page through the address bar in your browser to test using this method.



Parameter Modification

Another problem related to authentication design is when the application verifies a successful login on the basis of a fixed value parameters. A user could modify these parameters to gain access to the protected areas without providing valid credentials. In the example below, the "authenticated" parameter is changed to a value of "yes", which allows the user to gain access. In this example, the parameter is in the URL, but a proxy could also be used to modify the parameter, especially when the parameters are sent as form elements in a POST request.

http://www.site.com/page.asp?authenticated=no

raven@blackbox /home $nc www.site.com 80 GET /page.asp?authenticated=yes HTTP/1.0 HTTP/1.1 200 OK                                            Date: Sat, 11 Nov 2006 10:22:44 GMT Server: Apache Connection: close Content-Type: text/html; charset=iso-8859-1 <!DOCTYPE HTML PUBLIC "-//IETF//DTD HTML 2.0//EN">   You Are Auhtenticated 



Session ID Prediction

Many web applications manage authentication using session identification values (SESSION ID). Therefore, if session ID generation is predictable, a malicious user could be able to find a valid session ID and gain unauthorized access to the application, impersonating a previously authenticated user.

In the following figure, values inside cookies increase linearly, so it could be easy for an attacker to guess a valid session ID.



In the following figure, values inside cookies change only partially, so it's possible to restrict a brute force attack to the defined fields shown below.



SQL Injection (HTML Form Authentication)

SQL Injection is a widely known attack technique. We are not going to describe this technique in detail in this section; there are several sections in this guide that explain injection techniques beyond the scope of this section.



The following figure shows that with a simple SQL injection attack, it is sometimes possible to bypass the authentication form.



Gray Box Testing And Example
If an attacker has been able to retrieve the application source code by exploiting a previously discovered vulnerability (e.g., directory traversal), or from a web repository (Open Source Applications), it could be possible to perform refined attacks against the implementation of the authentication process. In the following example (PHPBB 2.0.13 - Authentication Bypass Vulnerability), at line 5, the unserialize function parses a user supplied cookie and sets values inside the $row array. At line 10, the user's md5 password hash stored inside the backend database is compared to the one supplied. 1. if ( isset($HTTP_COOKIE_VARS[$cookiename. '_sid']) || 2. { 3.  $sessiondata = isset( $HTTP_COOKIE_VARS[$cookiename. '_data'] ) ? 4. 5. unserialize(stripslashes($HTTP_COOKIE_VARS[$cookiename . '_data'])) : array; 6. 7.  $sessionmethod = SESSION_METHOD_COOKIE; 8.  } 9. 10. if( md5($password) == $row['user_password'] && $row['user_active'] ) 11. 12. { 13. $autologin = ( isset($HTTP_POST_VARS['autologin']) ) ? TRUE : 0; 14. }

In PHP, a comparison between a string value and a boolean value (1 - "TRUE") is always "TRUE", so by supplying the following string (the important part is "b:1") to the unserialize function, it is possible to bypass the authentication control:

a:2:{s:11:"autologinid";b:1;s:6:"userid";s:1:"2";}