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Barrier is a synchronization construct where a set of processes synchronizes globally i.e. each process in the set arrives at the barrier and waits for all others to arrive and then all processes leave the barrier. Let the number of processes in the set be three and S be a binary semaphore with the usual P and V functions. Consider the following C implementation of a barrier with line numbers shown on left.

void barrier (void) {    
    1: P(S);
    2: process_arrived++;
    3: V(S);
    4: while (process_arrived !=3);
    5: P(S);
    6: process_left++;
    7: if (process_left==3) 
         8: process_arrived = 0;
         9: process_left = 0;
    10: }
    11: V(S);

The variables process_arrived and process_left are shared among all processes and are initialized to zero. In a concurrent program all the three processes call the barrier function when they need to synchronize globally.

Will the above implementation work? I think it may lead to a deadlock if two barrier invocations are used in immediate succession as first process to enter the barrier doesn’t waits until process_arrived becomes zero before proceeding to execute P(S).

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Well. If we assume the semaphore has been initialzed to 1 before barrier() is called, all 3 threads should get to the nasty spin at 4, unless the number of processors is less than 3 and priority of the first thread/s to arrive is higher than the later one/s, in which case the system will livelock. If 3 do manage to turn up at the loop, one will get the lock at 5 and trundle through, setting process_left to 1 but leaving process_arrived at 3. It could then release the semaphore, do stuff, loop around. call barrier() again and set process_arrived to 4.... –  Martin James Nov 4 '11 at 16:21
No thread should be allowed to leave the barrier until all threads are in it, then all the threads must leave the barrier before any thread can get in again. –  Martin James Nov 4 '11 at 16:26
Then there's the globals issue.. –  Martin James Nov 4 '11 at 16:27
Thanks Martin. Would checking the value of process_arrived before entering and checking the value of process_left before leaving help to solve this problem? –  user966892 Nov 4 '11 at 17:17
This might be late but I have a question, If 2 processes come at the same time there might not be a deadlock but then a third process comes and waits at 4 indefinitely because till now process_arrived = 2. Am I right? –  Soumyajit Feb 10 '14 at 16:37

2 Answers 2

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Hmm... restricted to three threads and only binary semaphores, I would be tempted to try this using three semaphores, A, B, C. A controls access to the process_arrived count, B and C are for the first and second threads to wait on. A is initialized to 1, B & C to 0. Thread 1 gets A, so preventing 2 & 3 from entering. A switch on process_arrived causes thread 1 to inc process_arrived, release A and wait on B. Thread 2 gets A, and the switch causes it to inc process_arrived, switch and so release A and wait on C. Thread 3 gets A and the switch causes it to signal B, signal C, set process_arrived to 0, signal A and continue on.

Threads 1 and 2 cannot pass B and C until 3 signals them. When B/C is signaled by 3, 1/2 can run but cannot loop back and get into the barrier until 3 releases A, at which point the barrier is in the correct state to act as a barrier again - A has a count of 1, B and C have zero and process_arrived is zero.

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It is mentioned that there are 3 processes. Let it be P1, P2 & P3. Every process arrives at the barrier, that is it completes its first section of the code. Hence process_arrived = 3. Now assume that P1 continues its execution and leaves the barrier and makes process_left=1. Now assume that P1 again invokes the barrier function immediately. At this stage, process_arrived =4. P1 now waits. Soon P2 leaves the barrier, which makes process_left=2. Now P3 leaves the barrier which makes process_left=3. "If" condition is true and now process_arrived and process_left is reset to 0. We know that P1 is waiting. At this stage assume that P2 invokes the barrier function, hence process_arrived=1 and it waits. P3 invokes the barrier function, hence process_arrived=2. All process have reached the barrier but since the process_arrived=2, all processes keeps on waiting. Hence deadlock.

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I'm actually not sure how deadlock is occuring.Plz comment, if i got it right? –  Ujjwal Saini Dec 29 '14 at 13:17

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