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I am currently working with condition variables to synchronize two threads (pthreads) and am getting an unexpected behaviour where, even though I have verified a thread is already waiting on a condition, it does not wake when another thread signals on the condition.

It may be worth noting that I have ran this on a desktop environment, and it runs as expected, but this issue arises when I ran the program in an embedded environment using uclibc.

To troubleshoot, I stripped down my code to just the two threads performing lock/unlocking/signalling, which is listed below:

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

pthread_mutex_t mutex1 = PTHREAD_MUTEX_INITIALIZER;
pthread_mutex_t mutex2 = PTHREAD_MUTEX_INITIALIZER;
pthread_cond_t condition1 = PTHREAD_COND_INITIALIZER;
pthread_cond_t condition2 = PTHREAD_COND_INITIALIZER;
bool predicate1 = false;
bool predicate2 = false;

static void * ThreadFunc2(void * arg) {
    sleep(1);    // For testing purposes, ensures this thread is run after Thread1

    while(1) {
        // Do some work - Eg receive some data from a socket
        predicate1 = false;

        predicate2 = true;
        while(predicate2 == true)
            pthread_cond_wait(&condition2, &mutex2);

        // Do some more work - Eg send response data to socket

static void * ThreadFunc1(void * arg) {
    int result;

    while(1) {
        predicate1 = true;
        while(predicate1 == true)
            pthread_cond_wait(&condition1, &mutex1);

        // Do some work - Eg process data on the socket and prepare response data to be sent
        predicate2 = false;

int main(int argc, char * argv[]) {
    pthread_t thread1Id, thread2Id;

    pthread_create(&thread1Id, NULL, ThreadFunc1, NULL);
    pthread_create(&thread2Id, NULL, ThreadFunc2, NULL);

    while(1) {

    return 0;

If I exclude all statements relating to mutex2/condition2/predicate2, the two threads work together as expected.

With the code as listed above, after a short time (since all work has been stripped out, each loop runs very quickly) the wait on condition1 in ThreadFunc1 does not wake even though it is signalled by Threadfunc2 leading to the application being halted.

Also to help me debug, I had redefined the pthread_* functions to print a message to stdout with the matching line numbers prior to calling the actual pthread_* functions. This allowed me to follow the flow of each pthread operation, and verify that the signal was being sent to an already waiting condition.

Can anyone please help me shed some light on any potential issue(s) that may be present from my implementation above?

Thanks in advance for any suggestions.

share|improve this question
Your example code never sets predicate2 to false. – caf May 27 '13 at 5:09
I have added the missing predicate2 statement as noted by @caf - Thanks. Unfortunately the issue still remains. – wei May 27 '13 at 5:21
Can you post the complete test program (it sounds like there shouldn't be a whole lot more), the command used to build the program and info about the platform and tools versions used? I'm unable to repro with just enough scaffolding added to run the threads and a few puts() calls to make sure progress is being made. That's on x86 Linux 3.0 with gcc 4.6.1. – Michael Burr May 27 '13 at 6:34
I am beginning to wonder if it is due to the toolchain that was built with my embedded board support package (BSP using buildroot) that is the issue. My platform is m68k-based using uclibc 0.9.31 and gcc 4.4.1. I tested on another older platform (avr32-based using uclibc 0.9.29 and gcc 4.2.1) and the issue was not reproduced. – wei May 27 '13 at 23:47
@wei: You might be right. Are you passing the -pthread option to gcc? (Note: that's -pthread, as distinct from -lpthread). If you can reproduce it with the latest version of uclibc, you could report it as a bug. – caf May 28 '13 at 1:06

2 Answers 2

Your mistake is that you do not unlock the mutex used by the condition variable after the calls to pthread_cond_wait().

e.g pthread_cond_wait() unlocks the mutex internally while the thread is blocked but it re-acquires the lock when it wakes up and you need to explicitly release it.

See this tutorial for more details on cond. variables:

share|improve this answer
Thanks for your answer. I didn't unlock each mutex after each wait as there are no dependencies on the respective mutex until the loop restarts. From my understanding (which may be incorrect), the only requirement for a wait statement is that the mutex must already be locked by the current thread, which is the case when each thread executes the pthread_cond_wait statement. Are there additional requirements I missed such as requiring the mutex to be released and reacquired prior to a subsequent pthread_cond_wait statement? Thanks. – wei May 27 '13 at 6:08
There is no need, in the code shown, to unlock those mutexes. – caf May 27 '13 at 7:13
@wei what keeps the compiler from keeping predicate2 in a register? if you acquire and release the mutex, you would have gone via a compiler memory barrier. I am not sure pthread_cond_wait() is a memory barrier. – gby May 27 '13 at 10:10
@caf what tells the compiler the value of predicate changes during calls to pthread_cond_wait()? I suspect the usefulness of the mutex ops here are the memory barriers they provide. I am only guessing though. – gby May 27 '13 at 10:11
@gby: POSIX lists the "functions that synchronize memory with respect to other threads", which includes the pthread_cond_wait() function. – caf May 27 '13 at 13:44

I experienced similar problems. In my case, sometimes the signal was sent before the blocked thread was waiting. The behavior in such case was that both threads were "stuck". We solved it by adding a flag notifying a signal was sent.

share|improve this answer
How did you manage to wake up the waiting thread when it was stuck in pthread_cond_wait? Did you use timedwait instead of wait, and check the flag variable in the same manner as the predicate variables I have used above? Thanks. – wei May 27 '13 at 5:37
If the flag was set, it did not wait, just continued. In such a way we did not miss the signal. – eyalm May 27 '13 at 5:56

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