# How to use TestAndSet() for solving the critical section problem?

I'm studying for an exam and I'm having difficulty with a concept. This is the pseudo code I am given:

``````int mutex = 0;
do {
while (TestAndSet(&mutex));
// critical section
mutiex = 0;
// remainder section
} while (TRUE);
``````

My instructor says that only two of the three necessary conditions (mutual exclusion, progress, and bounded waiting) are met with this code, but I don't understand which one isn't being met...??

How should the code be modified to support the missing condition to solve the critical region problem? Thanks in advance for any insight!

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I assume "mutiex" is a typo. –  Mike Daniels Apr 6 '10 at 23:59
yes, it's a typo. And if it's unclear, Set-and-test is defined as SetAndTest(*target) { bool rv = *target; target = True; return rv; } –  Dan Mantyla Apr 7 '10 at 0:04
Also, I believe `mutex = 0 should` be `mutex = False`. –  Jeff B Apr 7 '10 at 0:39
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## 4 Answers

If anybody sees this looking for the answer, the above code does not support bounded waiting (there must be a bound on the amount of time a process has to wait). This is the correct code to ensure all three conditions are met to ensure synchronyzation using SetAndTest:

``````do{
waiting[i] = TRUE;
key = TRUE;
while(waiting[i] && key)
key = TestAndSet(&lock);
waiting[i] = FALSE;

// Critical Section

j = (i + 1) % n;
while ((j != i) && !waiting[j])
j = (j+1) % n;

if (j == i )
lock = FALSE;
else
waiting[j] = FALSE;

// Remainder Section
} while (TRUE);
``````
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First of all nice little example but testandset takes boolean args and by default mutex is set to `FALSE`. So `int mutex=0` is actually `boolean mutex=FALSE`.The above code does have mutual exclusion and progress but not bounded waiting. Also your definition of `testandset` is wrong. It should be `target=TRUE` and not `target=TRUE`.

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it was pseudo code. relax a little whydontya –  Dan Mantyla Jan 14 '13 at 16:59
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Is it because the mutex should be set using atomic LOAD and STORE instructions so that memory access is not reordered? Atomic execution of a set of instructions means that the instructions are treated as a single step that cannot be interrupted.

``````// example process using mutual exclusion
void process() {
int mutex;
init_lock (&mutex);
do {
lock (&mutex);
// critical section
unlock (&mutex);
//remainder section
} while(TRUE);
}

// mutual exclusion functions
void init_lock (int *mutex) {
*mutex = 0;
}

void lock (int *mutex) {
while(TestAndSet(mutex))
}

void unlock (int *mutex) {
*mutex = 0;
}

int TestAndSet(*target) {
int rv = *target;
*target = 1;
return rv;
}
``````

Just looking at it, it appears that the functions do the same thing as the sample code posted earlier, but I guess this way ensures mutual exclusion because the functions operating on *target are atomic...??

Excuse any typos...

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Bounded waiting is not met here. you can see there must be bound on the number of times a particular process can go into Critical Section , inorder to avoid starvation of other processes ...and there must be a bound on the time a process should wait

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