I am going through process synchronization, and facing difficulty in understanding semaphore. So here is my doubt:

the source says that

" Semaphore S is an integer variable that is accessed through standard atomic operations i.e. wait() and signal().

It also provided basic definition of wait()

wait(Semaphore S)
   while S<=0
     ; //no operation

Definition of signal()


Let the initial value of a semaphore be 1, and say there are two concurrent processes P0 and P1 which are not supposed to perform operations of their critical section simultaneously.

Now say P0 is in its critical section, so the Semaphore S must have value 0, now say P1 wants to enter its critical section so it executes wait(), and in wait() it continuously loops, now to exit from the loop the semaphore value must be incremented, but it may not be possible because according the source, wait() is an atomic operation and can't be interrupted and thus the process P0 can't call signal() in a single processor system.

I want to know, is the understanding i have so far is correct or not. and if correct then how come process P0 call signal() when process P1 is strucked in while loop?


I think it's an inaccuracy in your source. Atomic for the wait() operation means each iteration of it is atomic, meaning S-- is performed without interruption, but the whole operation is interruptible after each completion of S-- inside the while loop.

  • actually the source is a famous book for operating systems by galvin, so i doubt its inaccuracy, and i think you didn't see properly that the S-- statement is out of while loop, the while loop is a kind of null loop. – Akashdeep Saluja Nov 23 '12 at 14:50
  • Are you sure the atomic refers to the entire wait in your implementation? I'm familiar with other implementations with s-- inside the while and the while itself isn't atomic. See for example: en.wikipedia.org/wiki/Semaphore_(programming) – SomeWittyUsername Nov 23 '12 at 16:39
  • i think you are right, i was not aware of what atomicity actually mean, it simply means that if wait() is still executing and some other process needs to be gain access on processor the whole wait() will be rolled back. correct me if i am wrong. – Akashdeep Saluja Nov 23 '12 at 18:48
  • 1
    Yep. But not rolled back, just aborted. – SomeWittyUsername Nov 24 '12 at 6:39

I don't think, keeping an infinite while loop inside the wait() operation is wise. I would go for Stallings' example;

void semWait(semaphore s){
        *place this process in s.queue and block this process

When a task attempts to acquire a semaphore that is unavailable, the semaphore places the task onto a wait queue and puts the task to sleep.The processor is then free to execute other code.When the semaphore becomes available, one of the tasks on the wait queue is awakened so that it can then acquire the semaphore.

while S<=0 ; //no operation This doesn't mean that the processor running this code. The process/task is blocked until it gets the semaphore.


I think what the book means for the atomic operation is testing S<=0 to be true as well as S--. Just like testAndset() it mention before.

if both separate operations S<=0 and S-- are atomic but can be interrupt by other process, this method won't work.

imagine two process p0 and p1, if p0 want to enter the critical section and tested S<=0 to be true. and it was interrupted by p1 and tested S<=0 also be true. then both of the process will enter the critical section. And that's wrong.

the actual not atomic operation is inside the while loop, even if the while loop is empty, other process can still interrupt current one when S<=0 tested to be false, which enable other process can continue their work in critical section and release the lock.

however, I think the code from the book can not actually use in OS since I don't know how to make operations S<=0 to be true and S-- together atomic. more possible way to do that is put the S-- inside the while loop like SomeWittyUsername said.


i think , when process P1 is strucked in while loop it will be in the wait state.processor will switch over among the process p0 & p1 (context switching) so the priority goes to p0 and it call signal() and then s will be incremented by 1 and p0 exit from the section so process P1 can enter into critical section and can avoid the mutual exclusion

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