Cross-Site Request Forgery (CSRF) is an attack that tricks the victim into loading a page that contains a malicious request. It is malicious in the sense that it inherits the identity and privileges of the victim to perform an undesired function on the victim's behalf, like change the victim's e-mail address, home address, or password, or purchase something. CSRF attacks generally target functions that cause a state change on the server but can also be used to access sensitive data. For most sites, browsers will automatically include with such requests any credentials associated with the site, such as the user's session cookie, basic auth credentials, IP address, Windows domain credentials, etc. Therefore, if the user is currently authenticated to the site, the site will have no way to distinguish this from a legitimate user request. In this way, the attacker can make the victim perform actions that they didn't intend to, such as logout, purchase item, change account information, retrieve account information, or any other function provided by the vulnerable website. Sometimes, it is possible to store the CSRF attack on the vulnerable site itself. Such vulnerabilities are called Stored CSRF flaws. This can be accomplished by simply storing an IMG or IFRAME tag in a field that accepts HTML, or by a more complex cross-site scripting attack. If the attack can store a CSRF attack in the site, the severity of the attack is amplified. In particular, the likelihood is increased because the victim is more likely to view the page containing the attack than some random page on the Internet. The likelihood is also increased because the victim is sure to be authenticated to the site already. Synonyms: CSRF attacks are also known by a number of other names, including XSRF, "Sea Surf", Session Riding, Cross-Site Reference Forgery, Hostile Linking. Microsoft refers to this type of attack as a One-Click attack in their threat modeling process and many places in their online documentation.
How does the attack work? How does the attack work? There are numerous ways in which an end-user can be tricked into loading information from or submitting information to a web application. In order to execute an attack, we must first understand how to generate a malicious request for our victim to execute. Let us consider the following example: Alice wishes to transfer $100 to Bob using bank.com. The request generated by Alice will look similar to the following: POST http://bank.com/transfer.do HTTP/1.1 ... ... ... Content-Length: 19; acct=BOB&amount=100 However, Maria notices that the same web application will execute the same transfer using URL parameters as follows: GET http://bank.com/transfer.do?acct=BOB&amount=100 HTTP/1.1 Maria now decides to exploit this web application vulnerability using Alice as her victim. Maria first constructs the following URL which will transfer $100,000 from Alice's account to her account: http://bank.com/transfer.do?acct=MARIA&amount=100000 Now that her malicious request is generated, Maria must trick Alice into submitting the request. The most basic method is to send Alice an HTML email containing the following: <a href="http://bank.com/transfer.do?acct=MARIA&amount=100000">View my Pictures!</a> Assuming Alice is authenticated with the application when she clicks the link, the transfer of $100,000 to Maria's account will occur. However, Maria realizes that if Alice clicks the link, then Alice will notice that a transfer has occurred. Therefore, Maria decides to hide the attack in a zero-byte image: <img src="http://bank.com/transfer.do?acct=MARIA&amount=100000" width="1" height="1" border="0"> If this image tag were included in the email, Alice would only see a little box indicating that the browser could not render the image. However, the browser will still submit the request to bank.com without any visual indication that the transfer has taken place.
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