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volatile seems to be a never ending question of every one. I thought I knew everything about it, but then I encountered this:

So, I have a piece of memory shared between threads and I defined it like this:

volatile type *name;

If it makes you feel better, you can imagine type is just an int.

This means I have a pointer (that is not volatile) to some data that are volatile. So, for example when it comes to optimizing, the compiler can cache the value of name but not name[0]. Am I right?

So, now I am vfreeing this pointer (it's in a Linux kernel module) and it tells me that vfree expects const void * while I am passing it volatile type *.

I understand how it can be dangerous to pass a volatile type * as a type * because in that function, the values of name[i] could be cached (as a result of optimization) which is not desirable.

I don't understand why though, vfree expects me to send it a pointer necessarily to non-volatile data. Is there something I am missing there? Or is it just the guys who wrote vfree not thinking about this situation?

I assume me simply casting my pointer to void * would not cause any harm, is that right?

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The vfree function (and every sane deallocation function in general) does not care about your actual data (be it volatile or not). It just expects a (valid) pointer (think: passing the pointer as a long value in a CPU register).

Based on that value, the function will:

  1. call the SLAB/SLUB to free the memory
  2. remove the memory mapping

So yes, casting to a void * will not cause any harm at runtime.

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Well yeah, but why doesn't vfree accept volatile type *? Do you think the coders who wrote that forgot about it or does it actually matter to them? – Shahbaz Oct 18 '11 at 14:46
I think I agree with Mircea here. free() shouldn't care if the data is volatile or not. If you're using volatile because it's shared memory between tasks, then you had better make sure no one is using it by the time you free it, and then you have nothing to worry about. If you're using volatile because it's memory-mapped I/O, then I'm not sure why you would be freeing. The vfree function doesn't take a volatile void * because the "v" in vmalloc stands for "virtual", not "volatile". – Brian McFarland Oct 18 '11 at 15:26
@Shahbaz: It does not matter to those developers if the memory you allocated contains volatile data. The vfree() function just needs a pointer to that memory. The developers did not forget anything. – Mircea Oct 18 '11 at 15:32
@BrianMcFarland, I think you are taking me for an idiot! :)) I know what vmalloc is and I know no one should be accessing the array when I'm freeing it!! I also don't say vfree should care if my data are volatile or not. (read next comment) – Shahbaz Oct 18 '11 at 16:20
@MirceaGherzan, What I was saying was "Why don't they declare vfree as void vfree(const volatile void *); so that it accepts both kinds of pointers?" Exactly since the behavior with both types shouldn't matter. – Shahbaz Oct 18 '11 at 16:20
up vote 0 down vote accepted

My conclusion was that just casting the pointer to void * would not cause a problem and the fact that free and vfree don't directly accept pointers to volatile data is just something that was overlooked.

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