Depends on how you view that.
On concept layer binary semaphore provide mutual exclusion - guarantee that only one thread will enter a critical section. I.e. Tanenbaum in his book "Operating Systems" Ed. 3 introduces mutexes with the following sentence:
When the semaphore's ability to count is not needed, a simplified version of semaphore called a mutex is sometimes used.
However, semaphore is usually a reference to classical Dijkstra concept with P()
and V()
functions, while mutex is very broad term. That's what Linus Torvalds says on semaphores:
A spinlock is a mutual exclusion mechanism, not a semaphore (a semaphore
is a very specific kind of mutual exclusion).
(from comp.os.linux.development.system: Re: NT kernel guy playing with Linux)
On implementation layer mutexes may be implemented as semaphores, i.e. in Linux 2.4: http://lxr.free-electrons.com/source/include/asm-i386/semaphore.h?v=2.4.37#L89
Usually mutex has much more complex implementation and wider concept:
- Mutex has
owner
field -- thread that currently entered mutex. It provides various benefits like re-enterable mutexes, priority inversion, etc.
- While semaphore is usually blocks thread that fails to acquire it, mutex may be adaptive (like in Solaris) that could spin (busy-wait until mutex is unlocked).
- Semaphore usually implemented via incrementing/decrementing counter, but mutexes may use atomic exchange and test operations.
Some of that ideas came from Wikipedia: w:Semaphore (programming)