com.smartgwt.client.docs

Interface XssAndCSRFSecurity

public interface XssAndCSRFSecurity

XSS and CSRF Security

Cross-site scripting (XSS) and Cross-site request forgery (CSRF, sometimes XSRF) are two separate exploits that can be used to attack a vulnerable web application:

• XSS allows an attacker to execute arbitrary Javascript in the user's browser. Wikipedia
• CSRF allows an attacker to mislead the user into carrying out an action they did not intend. Wikipedia

Cross-site scripting

XSS attacks are made possible when values sent from the client are accepted as data values without first sanitizing them. Here, sanitizing means checking values to ensure that they do not contain structures that would be interpreted as executable code if placed into an HTML document. An example of this in a Smart GWT application would be a text field into which the user is supposed to enter their name. If an attacker instead enters into that field

     <script>alert("Hacked!")</script>
  

then inserting that field value into an HTML document will cause the script to execute.

The way to prevent this kind of attack is DataSourceField.escapeHTML. Setting that flag on your fields will ensure that script embedded in field values won't execute; because it is escaped, the value will be treated as literal text.

Cross-site request forgery

CSRF attacks occur when a malicious website sends a legitimate-looking request to a web application that the user is already logged into. Such attacks rely on the use of session cookies as the sole mechanism for identifying and authenticating the user, so the best way to prevent such an attack is to introduce an additional means of identifying the user: this is usually known as a CSRF token.

A CSRF token is a unique string of text that you generate on the server on session creation, and then expect to be passed as a parameter with all future requests. By storing the CSRF token in the session and comparing it to the passed token parameter, you can be sure that the request came from a source that is privy to the CSRF token, and thus that the request is not forged.

implementing a CSRF token strategy is really easy with Smart GWT, especially if you are using the Smart GWT server framework. Since all data-related requests go to a single URL, specified with actionURL, you can just add your CSRF token to that URL in your bootstrap file. Alternatively, you could use RPCManager.transformRequest() to add your token, if your authentication system requires the CSRF token in another part of the request (for example, in an HTTP header). Using a CSRF token is a highly recommended security practice.

Domain synchronization

Smart GWT implements a technique called domain synchronization to ensure that server communications using the "hiddenFrame" protocol work reliably.

The "hiddenFrame" protocol uses an iframe to load content from the server. If your page sets document.domain at all, an iframe must have a matching document.domain setting or it can't contact the main page to report results. Due to proxying and other commonly-used techniques, there is no reliable way for the server to know what document.domain setting must be used. Therefore, Smart GWT passes the setting to the server with each "hiddenFrame" request, in a parameter called isc_dd, and the server echoes that setting back down to the client.

Domain synchronization opens up the potential for an obscure hybrid XSS/CSRF attack on a Smart GWT application, where it shares a domain with another, non-Smart GWT application that is vulnerable to XSS attacks - for example, a Smart GWT app at payments.example.com and a non-Smart GWT app at enquiry.example.com. This attack would work by injecting an XSS payload into the vulnerable, non-Smart GWT app at enquiry.example.com; this injected code would set the domain to "example.com", and then create an iframe that targets the Smart GWT app at "payments.example.com", passing isc_dd as "example.com". The return function from that CSRF call would be able to access data from "payments.example.com", as a result of exploiting an XSS vulnerability in the app at "enquiry.example.com".

• This exploit is only possible in these exact circumstances: ie, where a Smart GWT app is deployed to the same domain as a non-Smart GWT app that is vulnerable to XSS attacks
• The attack is only meaningful if you have multiple separate apps deployed at different subdomains, with separate sets of users for each app
• The attack is impossible if CSRF tokens are employed in the Smart GWT app, since the forged request to "payments.example.com" would be rejected as lacking a CSRF token
• If your page does not set document.domain, there is no need for domain synchronization, and you can simply switch it off by specifying domainSync.disabled: true in your server.properties file
• If your page does set document.domain, you can prevent this kind of exploit by providing a comma-separated list of valid base domains in server.properties setting domainSync.baseDomains. For example, the following setting would have prevented the above attack: domainSync.baseDomains: payments.example.com

Note that if you leave domain synchronization switched on and do not constrain it by providing a baseDomains setting as described above, the system will log a warning every time it echoes a client-provided domain name in a response.