Difference between revisions of "Session hijacking attack"
|Line 83:||Line 83:|
Revision as of 07:08, 30 October 2007
The session hijack attack consists of the exploitation of the web session control mechanism, which is normally managed for a session token.
Because a http communication use many different TCP connection, the web server need a method to recognize every user’s connections. The most useful method in use, depends on a token that the Web Server send to the client browser after a successful client authentication. A session token is normally composed by a string of variable width and it could be used indifferent ways, like: in the URL, in the header of the http requisition as a cookie or in the other parts of the header of the http request or yet in the body of the http requisition.
The Session Hijacking attack compromise the session token by stealing or predicting a valid session token to gain unauthorized access to the Web Server.
Predictable session token
A session token is normally composed by a string of variable width, which randomness is very important to avoid its prediction. Some bad implementation use sessions token composed by user information or other predictable information like timestamp or client IP address. In the worst case this information are in clear text or coded using some weak algorithm like base64 encoding. In this case the session hijack is done guessing the token of a logged on user. So, looking at the example in Figure 1, the token used is a JSESSIONID cookie, witch content is user01 that correspond to the user ID. The attack consists in trying connection using valid userIDs in the hope that a valid user is authenticated in the moment of the attack.
Figure 1. Predictable cookie
In the example as we can see, first the attacker uses a sniffer to capture a valid token session called “Session ID”, then he uses the valid token session to gain unauthorized access to the Web Server.
Figure 2. Manipulating the token session executing the session hijacking attack.
Cross-site script attack
Figure 3. Code injection.
The following attacks acts intercepting the information exchange between the client and the server