Whenever I create a pthread, valgrind outputs a memory leak,

For example the below code:

#include <stdio.h>
#include <unistd.h>
#include <pthread.h> 

void *timer1_function (void *eit){
  (void) eit;
    printf("hello world\n");

int main(void){
   pthread_t timer1;
   pthread_create( &timer1, NULL, timer1_function,  NULL);  ///////line13
   int i=0;
   return 0;

valgrind outputs

==1395== HEAP SUMMARY:
==1395==     in use at exit: 136 bytes in 1 blocks
==1395==   total heap usage: 6 allocs, 5 frees, 1,134 bytes allocated
==1395== 136 bytes in 1 blocks are possibly lost in loss record 1 of 1
==1395==    at 0x402A629: calloc (in /usr/lib/valgrind/vgpreload_memcheck-x86-linux.so)
==1395==    by 0x4011304: allocate_dtv (dl-tls.c:297)
==1395==    by 0x4011AAB: _dl_allocate_tls (dl-tls.c:461)
==1395==    by 0x4052470: pthread_create@@GLIBC_2.1 (allocatestack.c:571)
==1395==    by 0x8048566: main (test.c:13)
==1395== LEAK SUMMARY:
==1395==    definitely lost: 0 bytes in 0 blocks
==1395==    indirectly lost: 0 bytes in 0 blocks
==1395==      possibly lost: 136 bytes in 1 blocks
==1395==    still reachable: 0 bytes in 0 blocks
==1395==         suppressed: 0 bytes in 0 blocks

why pthread_create cause a problem although I was using the man page as reference, and how can I fix it?


A thread is an allocated resource and you did not free it before exiting. You should call pthread_join; this would also eliminate the need for your hackish and incorrect sleep loop.

It's possible that even once you fix this, valgrind will still see a "leak", since some implementations of POSIX threads (I'm guessing you're using glibc/NPTL) cache and reuse thread resources rather than freeing them fully. I'm not sure if valgrind works around this or not.

  • 1
    +1. I think your second paragraph explains why I've seen the suppressions approach in my answer used so often. – simonc Jul 14 '13 at 18:52
  • Alternative to pthread_join: use pthread_detach but the memory leak remains. – Aubin Dec 1 '15 at 17:53

I think that valgrind analyzes the state of your program at the time it exits, which is likely before the thread finishes its execution: two microseconds may not be enough to write "Hello, world!\n" to console. Adding a call to pthread_join should fix this leak:

pthread_join(timer1, NULL);
  • 3
    You can just pass a null pointer for the second argument rather than a pointer to a dummy variable. – R.. Jul 14 '13 at 18:45
  • @R.. Yeah, I guess you're right... OP's passing NULL to pthread_exit, so pthread_join might as well explicitly ignore the result. Thanks! – dasblinkenlight Jul 14 '13 at 18:46

I've seen similar results when I fail to call pthread_join.

When I do call pthread_join, Valgrind will indicate no memory errors or leaks. I've had a clean result using pthread_kill to see if the thread still exists, then calling join to clean up and release resources.

stop_worker(worker_t *self)
    if (self) {
        // signal the thread to quit
            // (here using a variable and semaphore)

        // wait for it to stop
        // (could use counter, etc. to limit wait)
        int test=0;
        while (pthread_kill(self->thread,0) == 0) {
            MDEBUG(MD_XF_LOGGER,"waiting for thread to exit...\n",test);

        // even though thread is finished, need to call join
        // otherwise, it will not release its memory (and valgrind indicates a leak)
        return 0;           
    return -1;

The leak that shows up is related to the DTV (Dynamic Thread Vector) structure that is allocated in the child thread's local storage (tls).

Using pthread_join() in the main thread (i.e. the thread that spawned the child) will ensure to fix the leak. For use cases where pthread_join() call is not required, calling pthread_detach with child pthread_t ensures the memory is released.

From man for pthread_detach:

The pthread_detach() function marks the thread identified by thread as detached. When a detached thread terminates, its resources are automatically released back to the system without the need for another thread to join with the terminated thread.


memory leak is a result of the fact that if the thread is left running without cancellation , then the corresponding dynamically allocated memory is not freed. Use pthread_cancel() along with pthread_cleanup_push(CleanupHandler, NULL) and pthread_cleanup_pop(0) to do the thread cleanup after cancellation.

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