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I want to get the stack address of a thread through some function to which we can pass pthread_self(). Is it possible? The reason I am doing this is because I want to write my own assigned thread identifier for a thread somewhere in its stack. I can write near the end of the stack (end of the stack memory and not the current stack address. We can ofcourse expect the application to not get to the bottom of the stack and therefore use space from there).

In other words, I want to use the thread stack for putting a kind of thread local variable there. So, do we have some function like the following provided by pthread?

stack_address = stack_address_for_thread( pthread_self() );

I can use the syntax for thread local variables by gcc for this purpose, but I'm in a situation where I can't use them.

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1  
How would you use such an address? The address of "the stack" is not very well-defined in C, since the language itself doesn't require a stack to be used. Even if you know the architecture uses stacks, the current frame for a thread will change all the time as the thread calls into and returns out of functions. –  unwind Jan 4 '12 at 15:35
    
uwind, I agree, but like I said I can place my variable somewhere at the end of the stack. By end I mean the end of allocated stack. So If we have a stack of 1 MB, I can place it 1MB down. I know its hackish, but we can expect that an application is unlikely to get down to the bottom of the stack and few bytes there will remain free forever. –  MetallicPriest Jan 4 '12 at 15:38
    
@MetallicPriest: still though, why? I like the question, but still wonder why you can't just store the data somewhere easier to access (and safer). –  Dan Fego Jan 4 '12 at 15:41
    
@Dan Fego, which safer place can we use? Any idea? –  MetallicPriest Jan 4 '12 at 15:42
2  
@MetallicPriest: If you want your own assigned thread identifier, you could have some structure/array on the heap that correlates pthread_ts with your own identifiers? Or am I perhaps missing the crux of your problem? –  Dan Fego Jan 4 '12 at 15:45

4 Answers 4

Probably it's better to use pthread_key_create and pthread_key_getspecific and let the implementation worry about those details.

A good example of usage is here:

pthread_key_create

Edit: I should clarify -- I'm suggesting you use the libpthread provided method of creating thread-local information, instead of rolling your own by pushing something onto the end of the stack where it's possible your information could be lost.

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With GCC, it is simpler to declare your thread local variables with __thread keyword, like

  __thread int i;
  extern __thread struct state s;
  static __thread char *p;

That is GCC specific (but I'll guess clang has it also, and the newest C++ & future C standards have something similar), but less brittle than pointers hacks based upeon pthread_self() (and should be a bit faster, but less portable, than pthread_key_getsspecific, as suggested by Denniston)

But I would really like you to give more context and motivation in your questions.

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Yes Basile, I know how to create thread local variables in gcc but like I said in my question, I can't use them here. –  MetallicPriest Jan 4 '12 at 15:52
    
You should explain why you cannot use them. And you should explain why your solution is better (I don't think so). –  Basile Starynkevitch Jan 4 '12 at 15:54
1  
thread local storage _Thread_local is also a new feature that comes with C11 and it is practically equivalent to this gcc extension. So using this feature in gcc is future proof. –  Jens Gustedt Jan 4 '12 at 16:29

I want to write my own assigned thread identifier for a thread

There are multiple ways to achieve that. The most obvious one:

__thread int my_id;

I can use the syntax for thread local variables by gcc for this purpose, but I'm in a situation where I can't use them.

You need to explain why you can't use thread-locals. Chances are high that other solutions, such as pthread_getattr_np, wouldn't work either.

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up vote -2 down vote accepted

First get the bottom of the stack and give read/write permission to it with the following code.

pthread_attr_t attr;
void * stackaddr;
int * plocal_var;
size_t stacksize;

pthread_getattr_np(pthread_self(), &attr);
pthread_attr_getstack( &attr, &stackaddr, &stacksize );

printf( "stackaddr = %p, stacksize = %d\n", stackaddr, stacksize );

plocal_var = (int*)mmap( stackaddr, 4096, PROT_READ | PROT_WRITE, 
          MAP_PRIVATE | MAP_ANONYMOUS | MAP_FIXED, -1, 0 );
// Now try to write something 
*plocal_var = 4;

and then you can get the thread ID, with the function get_thread_id() shown below. Note that calling mmap with size 4096 has the effect of pushing the boundary of the stack by 4096, that is why we subtract 4096 when getting the local variable address.

int get_thread_id()
{
    pthread_attr_t attr;
    char * stackaddr;
    int * plocal_var;
    size_t stacksize;

    pthread_getattr_np(pthread_self(), &attr);
    pthread_attr_getstack( &attr, (void**)&stackaddr, &stacksize );

    //printf( "stackaddr = %p, stacksize = %d\n", stackaddr, stacksize );

    plocal_var = (int*)(stackaddr - 4096);

    return *plocal_var;
}
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1  
If you can't use thread-locals, what makes you believe that pthread_getattr_np will work? –  Employed Russian Jan 4 '12 at 15:59
    
This is really hacky and will rely on a specific data layout of your stack. Ways for thread specific storage are provided in the standards and by the tools, use them. –  Jens Gustedt Jan 4 '12 at 16:32
1  
By using MAP_FIXED you run the significant risk of running over anything that happened to be mapped there. This is an imperfect solution at best. –  proc-self-maps Jan 4 '12 at 18:05

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