Let's say a semaphore(bm) has been put to wait or sleep, after P(bm). This means that in my case its sem_op=-1 and absolute value of sem_op > semval. The current semval=0 and sem_op=-1. Process goes to sleep and semval remains 0.
The man page for semop shows this, when this condition happens:
semncnt (the counter of processes waiting for this semaphore's value to increase) is incremented by one and the process sleeps until one of the following occurs:
· semval becomes greater than or equal to the absolute value of sem_op, at which time the value of semncnt is decremented, the abso‐ lute value of sem_op is subtracted from semval and, if SEM_UNDO is specified for this operation, the system updates the process undo count (semadj) for this semaphore.
· The semaphore set is removed from the system: semop() fails, with errno set to EIDRM.
· The calling process catches a signal: the value of semncnt is decre‐ mented and semop() fails, with errno set to EINTR.
· The time limit specified by timeout in a semtimedop() call expires: the system call fails, with errno set to EAGAIN.
Let's say that process is asleep and another process runs V(bm). This would set the sem_op=1 and modify bm.semval=0 to bm.semval=1; therefore, fulfilling the first condition from the man-page that would wake the other process up.
My questions are: If there is no context switch(process currently executing V(bm) doesn't change to process with bm waiting), the process with waiting bm won't change anything and would keep waiting? Also,is it possible that if process that executed V(bm) keeps going and executes P(bm) and sets bm.semval=0 again, and then switches to process waiting it will find that process waiting doesn't fulfill the condition to stop waiting anymore and process will keep waiting?
I believe that if this conditions are true one process can starve another. Thank you.