That certainly depends on (at least) two things:
- How the mutex is implemented, and
- How the thread crashes (does it throw an exception, or does it just "disappear").
For instance, in Java's
synchronized blocks are guaranteed to be released when the "thread is done with the object" - whatever that means (see link). According to this article:
Stopping a thread causes it to unlock all the monitors that it has locked.
stop()ing the thread releases the monitors, but what if a thread just somehow disappears, is it then "done with the object"? I don't see this documented anywhere. But it's obvious that someone must release locked mutexes, or otherwise they'll deadlock; perhaps some mutexes or environments include mechanisms that release mutexes automatically if the thread, who locked them, becomes nonexistent.
Another example: java.util.concurrent.Lock docs recommend using a
finally statement to release the lock so that whatever happens with the executing thread, the lock would get released. But, if the thread disappears before that
finally statement gets executed, then the lock never gets released and a deadlock indeed occurs. Of course, threads shouldn't "disappear" just like that.
Quite a good question!