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If a thread calls pthread_cond_wait(cond_ptr,mutex_ptr) will a null cond_ptr, is it guaranteed to not fall asleep?

According to, a null cond_ptr just means pthread_cond_wait() may (not an emphatic will) fail, so I guess threads can then fall asleep on null condition variables?

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In the link that you posted it actually says: "[EINVAL] The value specified by cond, mutex, or abstime is invalid." I don't think a null cond_ptr is allowed – gnobal Mar 2 '11 at 11:21
But it says "may" fail, for my application I'd need it to be a guaranteed "will". – ManRow Mar 2 '11 at 11:31
I think the "may" means "as opposed to crash", not "as opposed to succeed". null doesn't work for this function (and in any case - it's easy to check) – gnobal Mar 2 '11 at 13:22

1 Answer 1

up vote 3 down vote accepted

I can't see a valid use case for this and I'm wondering why it would ever matter. You shouldn't be calling pthread_cond_wait with an invalid condition variable.

If you're worried about it, just change your code from:

pthread_cond_wait (pcv, pmutex);

to something like:

if (pcv != NULL) pthread_cond_wait (pcv, pmutex);

and it won't be called with a NULL.

I suspect it was put in as "may" simply because there was an implementation of pthreads (perhaps even the original DEC threads itself) which didn't return a failure code for that circumstance.

But, since the alternative is almost certainly that the whole thing fell in a screaming heap, I wouldn't be relying on it :-)

If you're worried about the atomicity of that code, you needn't be. Simply use the same mutex that protects the condition variable to protect the CV pointer being held in your list:

claim mutex A
somenode->cv = NULL
release mutex A

and, in your looping code:

claim mutex A
if loopnode->cv != null:
    wait on condvar loopnode->cv using mutex A
// mutex A is locked again
: : :

The fact that the mutex is locked during both the if and calling pthread_condvar_wait means that no race condition can exist. Nothing can change the node condition variables until the looping thread releases the mutex within the pthread_condvar_wait call. And by that time, the call is using its own local copy of the pointer so changing te one in the list will have no effect.

And, if the node-changing code grabs the mutex, the if and pthread_condvar_wait can't execute until that mutex is released.

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@ManRow, then my suggestion is to use the if variant in the answer. In other words, only attempt to call pthread_cond_wait() if the node has a non-NULL CV in it. – paxdiablo Mar 2 '11 at 11:33
Your posted solution is non-atomic and will fail if "pcv" is set to NULL after the if-statement (i.e, the classic ABA problem, of course!). That is why I need a guaranteed pthread_cond_wait() fail on a null condition variable pointer. – ManRow Mar 2 '11 at 11:43
No, it is atomic since you are required to have a lock on the mutex before calling cv_wait. You just use the same mutex when attempting to change the CV anywhere. The entry and exit conditions before calling cv_wait or that if variant are the same: mutex locked. Changing the pointer in the node won't affect the cv being waited on in the call (when the mutex is unlocked) since the old pointer value has already been passed in. – paxdiablo Mar 2 '11 at 11:46
That is a good point; essentially, the problem (in my program) then is rather a misuse of pthread_cond_wait() functionality, than pthread_cond_wait() itself. I would like to ask then (while on that topic), whether it is possible for a thread that locked a mutex to somehow "query" whether any other threads are currently blocked on it? – ManRow Mar 2 '11 at 12:10
No, not portably. You may want to open another question with the detail so you get a wider response than just me :-) – paxdiablo Mar 2 '11 at 12:13

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