authentication_manager

The Quick Setup component of RSA Authentication Manager versions prior to 8.4 is vulnerable to a relative path traversal vulnerability. A local attacker could potentially provide an administrator with a crafted license that if used during the quick setup deployment of the initial RSA Authentication Manager system, could allow the attacker unauthorized access to that system.

RSA Authentication Manager Security Console, version 8.3 and earlier, contains a XML External Entity (XXE) vulnerability. This could potentially allow admin users to cause a denial of service or extract server data via injecting a maliciously crafted DTD in an XML file submitted to the application.

RSA Authentication Manager Security Console, Operation Console and Self-Service Console, version 8.3 and earlier, is affected by a Host header injection vulnerability. This could allow a remote attacker to potentially poison HTTP cache and subsequently redirect users to arbitrary web domains.

RSA Authentication Manager versions prior to 8.3 P3 contain a stored cross-site scripting vulnerability in the Operations Console. A malicious Operations Console administrator could exploit this vulnerability to store arbitrary HTML or JavaScript code through the web interface. When other Operations Console administrators open the affected page, the injected scripts could potentially be executed in their browser.

RSA Authentication Manager versions prior to 8.3 P3 are affected by a DOM-based cross-site scripting vulnerability which exists in its embedded MadCap Flare Help files. A remote unauthenticated attacker could potentially exploit this vulnerability by tricking a victim application user to supply malicious HTML or JavaScript code to the browser DOM, which code is then executed by the web browser in the context of the vulnerable web application.

RSA Authentication Manager versions prior to 8.3 P3 contain a reflected cross-site scripting vulnerability in a Security Console page. A remote, unauthenticated malicious user, with the knowledge of a target user’s anti-CSRF token, could potentially exploit this vulnerability by tricking a victim Security Console user to supply malicious HTML or JavaScript code to the vulnerable web application, which code is then executed by the victim’s web browser in the context of the vulnerable web application.