I'm allocating my pthread thread-specific data from a fixed-size global pool that's controlled by a mutex. (The code in question is not permitted to allocate memory dynamically; all the memory it's allowed to use is provided by the caller as a single buffer. pthreads might allocate memory, I couldn't say, but this doesn't mean that my code is allowed to.)
This is easy to handle when creating the data, because the function can check the result of pthread_getspecific
: if it returns NULL
, the global pool's mutex can be taken there and then, the pool entry acquired, and the value set using pthread_setspecific
.
When the thread is destroyed, the destructor function (as per pthread_key_create
) is called, but the pthreads manual is a bit vague about any restrictions that might be in place.
(I can't impose any requirements on the thread code, such as needing it to call a destructor manually before it exits. So, I could leave the data allocated, and maybe treat the pool as some kind of cache, reusing entries on an LRU basis once it becomes full -- and this is probably the approach I'd take on Windows when using the native API -- but it would be neatest to have the per-thread data correctly freed when each thread is destroyed.)
Can I just take the mutex in the destructor? There's no problem with thread destruction being delayed a bit, should some other thread have the mutex taken at that point. But is this guaranteed to work? My worry is that the thread may "no longer exist" at that point. I use quotes, because of course it certainly exists if it's still running code! -- but will it exist enough开发者_StackOverflow中文版 to permit a mutex to be acquired? Is this documented anywhere?
The pthread_key_create()
rationale seems to justify doing whatever you want from a destructor, provided you keep signal handlers from calling pthread_exit()
:
There is no notion of a destructor-safe function. If an application does not call pthread_exit() from a signal handler, or if it blocks any signal whose handler may call pthread_exit() while calling async-unsafe functions, all functions may be safely called from destructors.
Do note, however, that this section is informative, not normative.
The thread's existence or non-existence will most likely not affect the mutex in the least, unless the mutex is error-checking. Even then, the kernel is still scheduling whatever thread your destructor is being run on, so there should definitely be enough thread to go around.
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