Apple Mac OS X Multiple Vulnerabilities

Multiple vulnerabilities have been identified in Apple Mac OS X, which could be exploited by remote or local attackers to disclose sensitive information, bypass security restrictions, cause a denial of service or compromise an affected system.

1. A race condition error in the AFP Server can be exploited to trigger the execution of an infinite loop by sending a specially crafted file enumeration request.

2. An error in the handling of movie files using the Pixlet codec can be exploited to trigger a memory corruption.

3. An error in the Resource Manager related to CarbonCore can be exploited to trigger a memory corruption via a file containing a specially crafted resource fork.

Successful exploitation of vulnerabilities #2 and #3 may allow execution of arbitrary code.

4. Certificate Assistant handles temporary files in an insecure manner. This can be exploited to overwrite arbitrary files with the privileges of the user running the application.

5. Two errors in ClamAV can be exploited to cause a crash or potentially execute arbitrary code.

6. An error in CoreText when processing specially crafted Unicode strings can be exploited to cause a heap-based buffer overflow via e.g. a specially crafted web page.

Successful exploitation of this vulnerability may allow execution of arbitrary code.

7. The dscl program accepts passwords passed via command line arguments. This can be exploited by local users to obtain the received passwords via the process list.

8. Multiple errors in fetchmail can be exploited by malicious people to cause a crash via overly large e-mail headers.

9. Folder Manager creates the "Downloads" folder with global read permissions after a user deletes it. This can be exploited by unprivileged local users to gain access to the "Downloads" folder.

10. An error in the fseventsd program can be exploited to disclose normally restricted filesystem activity via the FSEvents framework.

11. An error in perl when processing Unicode characters can be exploited to trigger a memory corruption and potentially execute arbitrary code.

12. An error handling problem in csregprinter can be exploited to cause a heap-based buffer overflow and potentially gain system privileges.

13. Multiple errors in python have an unknown impact or can be exploited to cause a crash or potentially compromise a vulnerable system.

14. An uninitialized memory access error in the Remote Apple events server can be exploited to disclose potentially sensitive memory contents via specially crafted Remote Apple events.

15. An error in Server Manager while validating authentication credentials can be exploited to alter the system configuration.

16. An integer overflow in the SMB implementation can be exploited to cause a heap-based buffer overflow by tricking a user into connecting to a malicious SMB server.

Successful exploitation of this vulnerability may allow execution of arbitrary code.

17. An error in the SMB implementation can be exploited to exhaust available memory resources and cause a system shutdown by tricking a user into connecting to a malicious SMB server.

18. An error in SquirrelMail can be exploited to inject and execute arbitrary HTML and script code via a specially crafted email.

19. Multiple errors in the X11 server can be exploited by malicious, local users to cause a DoS, disclose potentially sensitive information, or gain escalated privileges.

20. Multiple errors in FreeType can be exploited to cause a DoS or compromise an application using the library.

21. Multiple errors in LibX11 can be exploited by malicious, local users to disclose sensitive information, cause a DoS, and gain escalated privileges.

22. Xterm creates TTY devices accessible to all users, when used with "luit". This can be exploited to e.g. write data to another user's Xterm.

23. Multiple errors in Java can be exploited by malicious people to bypass certain security restrictions, disclose sensitive information, or compromise a vulnerable system.