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I have written the following code using the POSIX pthread library:


pthread_t pid1,pid2;

void *test(void *arg)
void **end;
printf("\nNew Thread ID: 0x%x\n",(unsigned int)pid2);
printf("\nNew Thread going to go off\n");
printf("\nNew Thread ID: 0x%x\n",(unsigned int)pid2);
return ((void *)NULL);

int main()
pid1 = pthread_self();
printf("\nMain Thread ID: 0x%x\n",(unsigned int)pid1);
printf("\nI am going off\n");

On executing the code I got the following output:

Main Thread ID: 0xb7880b30
New Thread ID: 0xb787eb70
I am going off
Segmentation fault

As I studied, the thread(pid2) calling the pthread_join will block until the thread passed in argument(pid1) calls pthread_exit(). And pthread_exit() is used to stop the execution of a particular thread letting all others to keep on executing.

I want to know why I got Segmentation Fault at last.

Please explain me properly.

share|improve this question
Usually, the child would exit, not the main application thread. Have you tried it the other way round? – forsvarir May 3 '11 at 19:24
Did you debug where segfault is coming from? – Alexander Pogrebnyak May 3 '11 at 19:26
pthread_join() will make the child to wait for the parent to exit first. – pradeepchhetri May 3 '11 at 19:28
Also note that casting pthread_t to unsigned int is bogus (and could easily result in two distinct thread ids looking the same); you should use void * and %p to print it, but even this is not 100% portable since POSIX allows pthread_t to be a struct/union type. And pid1 and pid2 are rather misleading names for variables which are not pids but rather thread ids... – R.. May 3 '11 at 20:30
up vote 9 down vote accepted

You're using an uninitialized variable, void **end;, which results in undefined behavior:


What you should instead be doing is:

void *end;
pthread_join(pid1, &end);

i.e. passing a meaningful pointer to a variable in which you want the result, rather than an uninitialized pointer.

share|improve this answer

I think the problem is that your end pointer passed to pthread_join()isn't actually pointing anywhere. Try the following:

void *test(void *arg)
    void *end;    // <===
    printf("\nNew Thread ID: 0x%x\n",(unsigned int)pid2);
    pthread_join(pid1,&end);  // <===
    printf("\nNew Thread going to go off\n");
    printf("\nNew Thread ID: 0x%x\n",(unsigned int)pid2);
    return ((void *)NULL);
share|improve this answer

A segmentation fault merely means that you've tried to make a memory access or jump to some location in memory that the OS hasn't allowed you to either execute code from or read/write from. In this case where is your spawned child thread suppose to return to after the pthread_join() call since the OS has cleaned up the main parent process and reclaimed the all the memory used by the main parent process (this includes execution code as well as stack-space, heap-space, etc.)? ... It's definitely not memory that a user-land thread has access to, hence the OS throws a segmentation fault.

share|improve this answer
With pthreads, main() can call pthread_exit() while other threads are left running. This is different than the Win32 threading API (I'm not sure if the Win32 pthreads port handles this or not). – Michael Burr May 3 '11 at 20:10
Okay, thanks for clarifying that – Jason May 3 '11 at 20:15

You call pthread_exit() in the main thread, which then itself immediately exits by coming to the end of main(), ending the process. The second thread unblocks and finds itself in a very strange position! At this point you are deep in undefined behaviour land. You should call pthread_join from the main thread.

share|improve this answer
No, this is wrong. If you call pthread_exit from the main thread, the process does not end, but any automatic storage in the main thread becomes invalid. Global storage, and other threads' automatic storage, and memory obtained by malloc, etc. are all still valid until the rest of the process terminates. – R.. May 3 '11 at 20:38

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