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In the following pseudo c program:

int shared;
pthread_barrier_t b;

// Thread 1
shared = 42;

// Thread 2
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.

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2 Answers 2

up vote 1 down vote accepted

Yes, As long as you initialize the barrier properly with a count of 2

The functions documented here act as full memory (and compiler) barriers, meaning memory stores/loads performed before calls to those functions are visible to other threads after those functions. (and memory load/stores are not moved across those calls)

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The sentence "The following functions synchronize memory with respect to other threads: ... pthread_barrier_wait ..." is the one saying that pthread_barrier_wait acts as a full memory barrier ? Can you elaborate on the way pthread implementation is doing this, using an mfence ? –  Manuel Selva Apr 9 at 21:02
Yes that is a full memory barrier. No, pthreads is just a specifciation - it doesn't implement anything. A particular implementation would need to do whatever is needed to guarantee that. (e.g. issue an mfence instruction on an x86 processor) –  nos Apr 9 at 21:04
Sorry I was asking for the NTPL implementation ? I am asking because I am curious to learn the internal of that and was not able to have a clear picture in my mind after spending time reading on the subject. To be more precise, I am not sure an mfence instruction is required on x86 using a TSO memory model –  Manuel Selva Apr 9 at 21:05
The atomic compare-and-swap needed to implement the function is already sufficient to provide memory barrier semantics. No "mfence" is needed. (And in general mfence is almost useless on x86 which has strong memory consistency guarantees built-in. –  R.. Apr 10 at 8:30
@R.. many thanks for this comment that confirm what I was thinking. Is the CAS sufficient for barrier semantics because it also "implements" a barrier or because of the TSO memory model ? –  Manuel Selva Apr 11 at 7:22

Before you create the threads, you should initialize the structure with the the number of threads.

#define THREADS 2
pthread_barrier_init(&b, NULL, THREADS)

At this point, pthread will ensure that neither thread will return from pthread_barrier_wait(&b); until they have both reached it, so you should see 42 printed.

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