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I have thread which sleeps for a long time, then wakes up to do something, then sleep again, like this:

    // do something

How could I make this thread exit gracefully and QUICKLY?

I tried to use pthread_cancel(), but sleeping threads could not be canceled. I also tried changing the condition of the while loop, but it will still take long to exit. And I don't want to use pthread_kill(), since it may kill the thread when it's working.

So, are there any good ideas?

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well, i think i make a mistake, sleep() is a cancel point difined by posix.1 – qiuxiafei Jan 24 '11 at 3:40
Just a note - pthread_kill does not kill a thread. It sends a signal to a thread. If the action of that signal is to terminate the process (e.g. the default action of SIGTERM, or the unblockable action of SIGKILL) then it will terminate the whole process, not the target thread. Really the only time pthread_kill is useful is if you've installed an interrupting signal handler, and you want to interrupt a syscall that's blocked in a particular thread (which would be a potential solution to your question). – R.. May 18 '11 at 23:11

3 Answers 3

up vote 11 down vote accepted

As an alternative to sleep, you could use pthread_cond_timedwait with a 1000 ms timeout. Then when you want to exit, signal the condition variable.

This is similar to how you might do this in C#/Java using wait and notify.

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Correct. This is the simple and non-racy way to do it. – caf Jan 24 '11 at 4:04
This is correct, but cancellation is easier and perhaps slightly more efficient. Of course if you call pthread_cancel on the thread, you need to make sure that it can't get cancelled at a point it shouldn't. Calling pthread_setcancelstate to disable cancellation when the thread starts, and only enabling it just before the sleep, would be a safe approach. – R.. May 18 '11 at 23:10
IMO, pthread_cancel() may be preferable since sleep() is already a cancellation point. And be sure to call pthread_cleanup_push() and pthread_cleanup_pop() to set up cleanup handlers if you have allocated resources. – zeekvfu Oct 22 '13 at 4:45

The classic UNIX condition variable is the self-pipe.

int fds[2];
pipe2(fds, O_NONBLOCK);  // requires newish kernel and glibc; use pipe + 2*fcntl otherwise

    while (some_condition) {
        // do something
        struct pollfd pd = { .fd = fds[0], .events = POLLIN };
        int rc;
        char c;
        while ((rc = poll(&pd, 1, 1000000)) == -1 && errno == EINTR)
            // not entirely correct; 1000000 should be decreased according to elapsed time when repeating after a signal interruption
        if (rc > 0 && (pd.revents & POLLIN) && read(fds[0], &c, 1) >= 0)

    cancel() {
        char c = 0;
        write(fds[1], &c, 1);

Yeah, it's a lot of fiddly (and untested) code. You should probably just use pthread_cond_wait, it requires a pthread_mutex_t and a pthread_cond_t but is much easier.

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Did you use pthread_cleanup_push and pop? Canceling with pthread_cancel doesn't work without them. You must use them in pairs just like I did in the example below. if you forget one it wont compile (fancy macros, one has the '{' and the other has the '}'). You can even nest different levels of cleanup/pops. Anyway, they set a long jump point that cancel jumps to when cancel occurs (pretty cool). Also, if your test program does not wait for the thread to start or to stop, you may not notice the canceling happening.


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

static void *ThreadProc(void * arg);
static void unwind(__attribute__ ((unused)) void *arg);

int _fActive = 0;

int main(int argc, char** argv)
pthread_t    Thread;
int      nRet;

    nRet = pthread_create(&Thread, NULL, ThreadProc, NULL);
    printf("MAIN: waiting for thread to startup...\n");
    while (_fActive == 0)
        nanosleep(&(struct timespec){ 0, 0}, NULL);
    printf("MAIN: sending cancel...\n");
    nRet = pthread_cancel(Thread);

    printf("MAIN: waiting for thread to exit...\n");
    while (_fActive)
        nanosleep(&(struct timespec){ 0, 0}, NULL);

    printf("MAIN: done\n");
    return 0;

static void unwind(__attribute__ ((unused)) void *arg)
    // do some cleanup if u want
    printf("THREAD: unwind (all threads, canceled or normal exit get here)\n");
    _fActive = 0;

static void *ThreadProc(void * arg)
    pthread_cleanup_push(unwind, arg);
    // optional : pthread_setcancelstate(PTHREAD_CANCEL_ENABLE, NULL);
    printf("THREAD: Enter Sleep\n");
    _fActive = 1;
    printf("THREAD: Exit Sleep (canceled thread never gets here)\n");

    printf("THREAD: Exit (canceled thread never gets here)\n");
    return NULL;

Program output:

MAIN: waiting for thread to startup...
THREAD: Enter Sleep
MAIN: sending cancel...
MAIN: waiting for thread to exit...
THREAD: unwind (all threads, canceled or normal exit get here)
MAIN: done

Notice how the cancel blows out of ThreadProc at the cancel point sleep() and executes only the unwind() function.

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You can use pthread_cancel just fine without cleanup handlers, but if you've allocated resources that should be freed, doing so would result in a resource leak. – R.. May 18 '11 at 19:43
I'm sure you are right when it comes to this subject. I had previously believed that cleanup_push and pop setup the longjump that pthread_cancel invoked. I guess you are you saying there is a default one setup by pthread_create. Do I have it right? – johnnycrash May 18 '11 at 22:53
At the end of the chain of cleanup handlers, the implementation-internal thread exit code (which includes thread-specific-data destructors and possibly other implementation-specific stuff) runs. If there are no cleanup handlers, execution passes directly there. Both cancellation and a call to pthread_exit by the thread itself have this effect. – R.. May 18 '11 at 23:08

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