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I am working on a exploit project which needs me to invoke a root shell from within the kernel. After searching through various documents and websites, I came to know that the only way to do that is to elevate the current process to root privileges and then execute instructions to invoke shell. This is because we cannot simply invoke a system call from kernel.

For the same, I have come across the call commit_creds (prepare_kernel_cred (0));, which can be used to grant root privilege to the process. However, I am using Red Hat Enterprise Linux 4.4 Base and it does not have the above call:

[dmazumd@bn19-62 ~]$ grep commit_cred /proc/kallsyms 
[dmazumd@bn19-62 ~]$ grep _cred /proc/kallsyms 
c0164655 T compute_creds
c01a7cdd t dummy_bprm_apply_creds.....

So, my question is, how to go about this? I understand that the need is to set the uid of the process to zero which will provide it root privileges. AFAIK, the uid resides in struct_cred rather than struct_task now. And I am unaware if I can directly access these structures without the use of any API as mentioned above. Is there any other call to achieve the same? Or, is there any other approach?

PS: I am not asking for the exact answer to my question, any direction/help would be appreciated.

share|improve this question
please care to comment why the question was down-voted. – Deepanjan Mazumdar Sep 25 '12 at 4:54

To clarify things: Your kernel does not need 'root privileges'. It is actually above that. What you need is a process which can have privileges.

You could start looking what execve does to launch a process and do that.

If you've already a shell running AND you're in kernel mode, you could simply modify the uid in the task_struct (shed.h).

Also, take a look here.

share|improve this answer
To start, that was an obvious typo which I am correcting (please look at my 2nd sentence in the question). Also, my question was not about how to spawn a shell, rather about setting the root privilege of the process. I am editing my question with more details. – Deepanjan Mazumdar Sep 25 '12 at 4:12
I know nothing about you, so it's not obvious to me :) As for setting the privileges, you could do as I stated (task_struct modification) or look into the execve syscall and see how uids are set there. – nemo Sep 25 '12 at 13:15
I looked at ways to modify the uid before calling execve. It can be done with setuid. But, problem is that /bin/bash has protection around it. I tried linking /bin/sh to /bin/zsh instead, but doesn't help either, refer this document:… – Deepanjan Mazumdar Sep 25 '12 at 17:03
If I'm getting you right, you're attempting to elevate your privileges using a buffer overflow in an unprivileged program. This is not possible as such. You can only operate on the privileges the program has. – nemo Sep 25 '12 at 18:14
I read in the link above that it is possible once you link /bin/sh to /bin/zsh/. To elevate the privileges, I am using setuid(0). – Deepanjan Mazumdar Sep 25 '12 at 19:43
up vote 0 down vote accepted

I could finally achieve root shell by first elevating the process to root status while inside kernel. This was achieved by using the call set_user(0) call which is defined inside /proc/kallsyms.

Once this is done, the process switches back to user space using iret and then spawns a shell. This shell has root privileges.

share|improve this answer
Do you mean setuid instead of set_user? – nemo Sep 26 '12 at 19:27
nope, setuid is a system call, it is set_user. This may vary with the OS you use. While inside the kernel, we can only invoke routines defined in /proc/kallsyms. Also, the invocation is just a redirection to the routine address, not a function call as such. – Deepanjan Mazumdar Sep 27 '12 at 0:13
It would be helpful if you'd link to the definition of set_user in the source code. I didn't find it. – nemo Sep 27 '12 at 13:39
as i said earlier, these routines are OS kernel dependent, please check in your /proc/kallsyms – Deepanjan Mazumdar Sep 27 '12 at 14:04

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