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Imagine I have a process that starts several child processes. The parent needs to know when a child exits.

I can use waitpid, but then if/when the parent needs to exit I have no way of telling the thread that is blocked in waitpid to exit gracefully and join it. It's nice to have things clean up themselves, but it may not be that big of a deal.

I can use waitpid with WNOHANG, and then sleep for some arbitrary time to prevent a busy wait. However then I can only know if a child has exited every so often. In my case it may not be super critical that I know when a child exits right away, but I'd like to know ASAP...

I can use a signal handler for SIGCHLD, and in the signal handler do whatever I was going to do when a child exits, or send a message to a different thread to do some action. But using a signal handler obfuscates the flow of the code a little bit.

What I'd really like to do is use waitpid on some timeout, say 5 sec. Since exiting the process isn't a time critical operation, I can lazily signal the thread to exit, while still having it blocked in waitpid the rest of the time, always ready to react. Is there such a call in linux? Of the alternatives, which one is best?


Another method based on the replies would be to block SIGCHLD in all threads with pthread \ _sigmask(). Then in one thread, keep calling sigtimedwait() while looking for SIGCHLD. This means that I can time out on that call and check whether the thread should exit, and if not, remain blocked waiting for the signal. Once a SIGCHLD is delivered to this thread, we can react to it immediately, and in line of the wait thread, without using a signal handler.

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8 Answers 8

up vote 8 down vote accepted

The function can be interrupted with a signal, so you could set a timer before calling waitpid() and it will exit with an EINTR when the timer signal is raised. Edit: It should be as simple as calling alarm(5) before calling waitpid().

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What determines which thread handles a signal? How will I be sure that this is the thread that handles it? Is it that alarm was called in some thread, so that thread handles the signal? –  Greg Rogers Nov 11 '08 at 21:39
The man page for signal seems to say that the result is unspecified, which means that it may not be handled by the right thread and lead to incorrect results. –  Greg Rogers Nov 11 '08 at 21:44
It is probably a good idea to have just one thread which receives signals, ensuring that all other threads mask the signal with sigprocmask or similar –  MarkR Nov 11 '08 at 22:16
note to anyone reading the above comment: use pthread_sigmask not sigprocmask –  Greg Rogers Nov 11 '08 at 22:41
Don't actually do this. You can lose children if waitpid() reaps the child but SIGALRM fires before the kernel returns. Many unixes have bugs here as well, and don't EINTR correctly even in the ideal case. –  geocar Dec 12 '08 at 2:52

I can use a signal handler for SIGCHLD, and in the signal handler do whatever I was going to do when a child exits, or send a message to a different thread to do some action. But using a signal handler obfuscates the flow of the code a little bit.

In order to avoid race conditions you should avoid doing anything more complex than changing a volatile flag in a signal handler.

I think the best option in your case is to send a signal to the parent. waitpid() will then set errno to EINTR and return. At this point you check for waitpid return value and errno, notice you have been sent a signal and take appropriate action.

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Well, you can do the self-pipe trick, and have the waitpid-thread really be blocking on a select to a pipe instead. Then, when it gets SIGCHLD, have it write a byte to the pipe, which wakes itself up. –  wnoise Nov 12 '08 at 16:43

If you're going to use signals anyways (as per Steve's suggestion), you can just send the signal manually when you want to exit. This will cause waitpid to return EINTR and the thread can then exit. No need for a periodic alarm/restart.

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Don't mix alarm() with wait(). You can lose error information that way.

Use the self-pipe trick. This turns any signal into a select()able event:

int selfpipe[2];
void selfpipe_sigh(int n)
    int save_errno = errno;
    (void)write(selfpipe[1], "",1);
    errno = save_errno;
void selfpipe_setup(void)
    static struct sigaction act;
    if (pipe(selfpipe) == -1) { abort(); }

    memset(&act, 0, sizeof(act));
    act.sa_handler = selfpipe_sigh;
    sigaction(SIGCHLD, &act, NULL);

Then, your waitpid-like function looks like this:

int selfpipe_waitpid(void)
    static char dummy[4096];
    fd_set rfds;
    struct timeval tv;
    int died = 0, st;

    tv.tv_sec = 5;
    tv.tv_usec = 0;
    FD_SET(selfpipe[0], &rfds);
    if (select(selfpipe[0]+1, &rfds, NULL, NULL, &tv) > 0) {
       while (read(selfpipe[0],dummy,sizeof(dummy)) > 0);
       while (waitpid(-1, &st, WNOHANG) != -1) died++;
    return died;

You can see in selfpipe_waitpid() how you can control the timeout and even mix with other select()-based IO.

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seems like an interesting concept. question, why make the pipe non-blocking? and why do you need to loops after the select? shouldn't there always be data when the select succeeds? –  Evan Teran Dec 11 '08 at 3:53
If two children die, you won't necessarily get two SIGCHLD notifications. You make the pipe non-blocking in case too many SIGCHLDs come in (roughly PIPE_BUF). –  geocar Dec 12 '08 at 2:46
The loops also help to protect against too many SIGCHLDs, and while ideally there would always be data after select completes, read() will block until sizeof(dummy) bytes are filled unless it is marked non-blocking for read. –  geocar Dec 12 '08 at 2:49
I was going to fault your choice of non-blocking mode, since it means that if more than PIPE_BUF SIGCHLDs come in some of their write()s will be lost, but I see now that you don't actually care about reading exactly the right number of bytes back from this pipe. Nice! –  j_random_hacker Sep 6 '12 at 15:10
But I am wondering: why include the no-op act.sa_flags |= 0;? –  j_random_hacker Sep 6 '12 at 15:11

I thought that select will return EINTR when SIGCHLD signaled by on of the child. I belive this should work:

  int retval = select(0, NULL, NULL, NULL, &tv, &mask);
  if (retval == -1 && errno == EINTR) // some signal
      pid_t pid = (waitpid(-1, &st, WNOHANG) == 0);
      if (pid != 0) // some child signaled
  else if (retval == 0)
      // timeout
  else // error

Note: you can use pselect to override current sigmask and avoid interrupts from unneeded signals.

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Fork an intermediate child, which forks the real child and a timeout process and waits for all (both) of its children. When one exits, it'll kill the other one and exit.

pid_t intermediate_pid = fork();
if (intermediate_pid == 0) {
    pid_t worker_pid = fork();
    if (worker_pid == 0) {

    pid_t timeout_pid = fork();
    if (timeout_pid == 0) {

    pid_t exited_pid = wait(NULL);
    if (exited_pid == worker_pid) {
        kill(timeout_pid, SIGKILL);
    } else {
        kill(worker_pid, SIGKILL); // Or something less violent if you prefer
    wait(NULL); // Collect the other process
    _exit(0); // Or some more informative status
waitpid(intermediate_pid, 0, 0);

Surprisingly simple :)

You can even leave out the intermediate child if you're sure no other module in the program is spwaning child processes of its own.

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I'm not sure if I'm going to use it (I have exactly the same problem as OP), but damn, this is a very cool trick! Kudos (just wonder why it isn't upvoted more) –  Aktau Apr 18 '13 at 8:14
Is there any way make the do_work function a system() call? I want the niceties of what the shell has to offer (globbing, piping), but calling system() there causes it to keep running if the worker fork gets killed. –  Brian Schlenker Dec 3 '13 at 17:58
This may seem to provide no guarantee that the timeout is respected, since the latter is measured since the start of the timeout_pid() process. However, the delay between calling timeout_pid = fork() and the actual start of the timeout_pid process is arbitrary. –  axeoth Aug 7 '14 at 13:24
Isn't all CPU scheduling strictly speaking arbitrary on most (non-realtime) OSes? That is, you can have an arbitrarily long scheduling delay immediately after starting your worker no matter which timeout mechanism you use. That said, this solution is indeed likely to be somewhat less accurate than many others. –  mpartel Aug 7 '14 at 20:30
There is an exotic condition with this approach when using signal(SIGCHLD, SIG_IGN); that can cause problems. See here for details. –  Dr. P3pp3r Nov 25 '14 at 14:34

Due to circumstances I absolutely needed this to run in the main thread and it was not very simple to use the self-pipe trick or eventfd because my epoll loop was running in another thread. So I came up with this by scrounging together other stack overflow handlers. Note that in general it's much safer to do this in other ways but this is simple. If anyone cares to comment about how it's really really bad then I'm all ears.

NOTE: It is absolutely necessary to block signals handling in any thread save for the one you want to run this in. I do this by default as I believe it messy to handle signals in random threads.

static void ctlWaitPidTimeout(pid_t child, useconds_t usec, int *timedOut) {
    int rc = -1;

    static pthread_mutex_t alarmMutex = PTHREAD_MUTEX_INITIALIZER;

    TRACE("ctlWaitPidTimeout: waiting on %lu\n", (unsigned long) child);

     * paranoid, in case this was called twice in a row by different
     * threads, which could quickly turn very messy.

    /* set the alarm handler */
    struct sigaction alarmSigaction;
    struct sigaction oldSigaction;

    alarmSigaction.sa_flags   = 0;
    alarmSigaction.sa_handler = ctlAlarmSignalHandler;
    sigaction(SIGALRM, &alarmSigaction, &oldSigaction);

    /* set alarm, because no alarm is fired when the first argument is 0, 1 is used instead */
    ualarm((usec == 0) ? 1 : usec, 0);

    /* wait for the child we just killed */
    rc = waitpid(child, NULL, 0);

    /* if errno == EINTR, the alarm went off, set timedOut to true */
    *timedOut = (rc == -1 && errno == EINTR);

    /* in case we did not time out, unset the current alarm so it doesn't bother us later */
    ualarm(0, 0);

    /* restore old signal action */
    sigaction(SIGALRM, &oldSigaction, NULL);


    TRACE("ctlWaitPidTimeout: timeout wait done, rc = %d, error = '%s'\n", rc, (rc == -1) ? strerror(errno) : "none");

static void ctlAlarmSignalHandler(int s) {
    TRACE("ctlAlarmSignalHandler: alarm occured, %d\n", s);

EDIT: I've since transitioned to using a solution that integrates well with my existing epoll()-based eventloop, using timerfd. I don't really lose any platform-independence since I was using epoll anyway, and I gain extra sleep because I know the unholy combination of multi-threading and UNIX signals won't hurt my program again.

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This is an interesting question. I found sigtimedwait can do it.

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How can noone else appreciate this answer? :) –  everlof Mar 13 at 14:39

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