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How to protect a shared resource from both user processes and kernel processes simultaneously?. It's rare and very corner case. I have been asked this query in an interview. TIA

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You can't protect anything from the kernel. It has control over everything. – Linuxios Jul 18 '12 at 19:15
    
You can try to mark the pages of the resource (assuming it is a memory resource) inaccessible. I suppose this must be done in kernel, as the userspace permissions might not affect the kernel. – fork0 Jul 18 '12 at 21:34
    
@Linuxios, This is is general statement. But in general, we are using couple of locking mechanisms(of course, under co-operative environment only) like spin locks, semaphores, mutexs, may be using some condtional signals etc.. My query is related(limited) to this context only. Thanks – kannah Jul 19 '12 at 5:33
    
I think this kind of interview question is a candidate for "I don't understand, can you explain what exactly you want to achieve?". As Linuxios said, you cannot really "protect" (or hide) anything from the kernel. Unless the kernel runs in a VM and you can control the host, the endeavour is kind of stupid (and in that case, the "kernel" is more like a user process than a kernel). On the other hand, the meaning of "protecting" might be about concurrently accessing a resource such as a port or a block device correctly (atomically). You just have to know what they really want. – Damon Jul 19 '12 at 11:05
    
@kannah: I ment that if the kernel isen't cooperating with you, it can still access anything it wants. That's all I ment. – Linuxios Jul 19 '12 at 14:45

Well, it can be done by several way. One such way is

System Call
Create two system call, one to acquire a lock and one to release a lock. If user process wants to access the shared resource, it would call the acquire-lock system call. If the system call successfully returns, user process can access the shared resource. When user process is done it would release the lock, by calling the release system call. The system calls itself acquire a release a spinlock_t or mutex_t(or any other locking mechanism). The kernel processes that wants to access the shared resource has to acquire the same lock using spin_lock/spin_unlock or mutex_lock/mutex_unlock.

As pointed out by @Damon this is very generic questions, and you should be asking specific question to the interview inorder to give a concrete answer.

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