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Consider the following scenario:


  • Intel x64 Server (multiple CPU-sockets => NUMA)
  • Ubuntu 12, GCC 4.8.1, MPICH-3
  • Two processes sharing data over shared-memory

Program sequence (Pseudo code):


volatile int data = 0; //allocated in (named) shared-memory
volatile int flag = 0; //allocated in (named) shared-memory

void setData()
    data = 1;  
    flag = 1;  

void getData( int& result )
    while( !flag ){};

    //Data ready
    result = data;

Process A:

int main( int argc, char** argv )

    return 0;

Process B:

int main( int argc, char** argv )
    int result = 0;

    //Print result (result should be 1)
    ::std::cout << "Received: " << result << ::std::endl;

    return 0;

When I run the program, I obviously expect "result" to be 1 at the end of process B. While the "waiting loop" in getData() works just fine, the result in most cases is "wrong" (result=0).

I can even throw in a memory barrier in getData() and some compiler memory barriers (asm _volatile_ ( "" ::: "memory" )), but the results still remain erratic.

So my question is, shouldn't the memory barrier (__sync_synchronize) in setData() guarantee that all previous reads/writes have been comitted to memory, before any operation after it?

PS: This is a follow up question to: Shared-memory IPC synchronization (lock-free)

EDIT (Probably important): I use MPICH-3 to start the processes. Does this render every assumption I make about memory visibility/consistency invalid?

share|improve this question
The atomic "__sync" functions have been renamed "legacy" for a while. __sync_synchronize in particular has been known not to work properly for many years. Seeing how you use GCC 4.8, why do you not use the more modern functions that not only work properly, but are also more efficient since you can specify the memory model (or std::atomic for that matter)? –  Damon Mar 6 '14 at 17:19
From everything I read, the C++11 atomics do not work between processes. See here: stackoverflow.com/questions/8759429/… –  Ben Mar 6 '14 at 17:54
Why wouldn't they work between processes? Sure the C++ standard has no notion of processes, but it must make sure that atomics work properly for threads within the same process. The processor(s) don't know about processes either. They have a number of hardware threads that execute concurrently, whether these are in one process or in several. Which means that if there is something to take care of (like having to issue a sync instruction, or NUMA, or whatever it may be) then the compiler must account for that. std::atomic_thread_fence will certainly not perform any worse than ... –  Damon Mar 6 '14 at 18:06
... than __sync_synchronize whether or not C++ has a notion of processes. But I would use atomic loads and stores (with acquire/release) instead of manually setting a fence in between anyway, for the code you posted. It's what they're made for. –  Damon Mar 6 '14 at 18:07

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