In the following pseudo c program:
int shared; pthread_barrier_t b; // Thread 1 shared = 42; pthread_barrier_wait(&b); // Thread 2 pthread_barrier_wait(&b); int v = shared; printf("shared = %d\n", v);
does the POSIX standard ensures thread 2 will always print 42 ? (I am running this program on X86) I spent some time reading about memory consistency models (TSO for X86) and cache coherency protocols, and I am wondering if the answer to my question is yes, how does a pthread implementation such as NPTL guarantees that ? If the answer is no, what should I do to ensure 42 is always printed ?
Moreover, I am interested for learning purpose in solutions about manually writing such barrier (a spinning one) with the guaranty that values written before the barrier by thread 1 are always seen by thread 2 after the barrier.