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this is an interview question i met which i don't know how to answer it.

first of all what is a bounded waiting mutex, can you give me some examples of a mutex that ensure bounded waiting and doesn't ensure bounded waiting?

secondly, i don't know how to implement it because it seems mutex is a build-in feature of the operating system.

how would you answer this interview question? what kind of atomic operation i can use to implement mutex and how?

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2 Answers 2

You could certainly implement mutexes which time out on top of your OS's never-time-out mutexes. Use the OS-provided mutex to regulate access to your own counter, guaranteeing to always release it quickly.

... obtain OS mutex lock on counter
... check counter, see > 0.
... ... if greater than 0, decrement, release OS mutex, return timeout-mutex has been acquired
... release OS mutex lock on counter
... check if timed out
... ... if timed out, return timeout-mutex has timed out
... sleep for some amount of time
end repeat

Of course, POSIX mutexes have a trylock function which makes the wait loop trivial.

Busy-waiting is of course a waste of CPU power. More efficient implementations are possible, POSIX has condition variables for example.

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There appear to be two usages of "bounded waiting". One usage seems to be a simple time-based meaning:

There is a bound on the wait time for any specific process to enter its critical section.

Another usage seems to be a thread-count meaning:

A process requesting entry to a critical section should only have to wait for a bounded number of other processes to enter and leave the critical section.

Unfortunately, I have no idea how to actually answer the question. It does seem dependent upon OS primitives. Maybe they were looking for something like Peterson's solution.

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