问题
I am trying to implement very simple Windows events in Linux. Only for my scenario - 3 threads, 1 main and 2 secondary. Each of secondary threads raise 1 event by SetEvent and main thread wait it. Example:
int main()
{
void* Events[2];
Events[0] = CreateEvent();
Events[1] = CreateEvent();
pthread_start(Thread, Events[0]);
pthread_start(Thread, Events[1]);
WaitForMultipleObjects(2, Events, 30000) // 30 seconds timeout
return 0;
}
int* thread(void* Event)
{
// Do something
SetEvent(Event);
// Do something
}
So, to implement it, i use conditional variables. But my question is - is this a right way? Or i doing something wrong? My implementation:
// Actually, this function return pointer to struct with mutex and cond
// here i just simplified example
void* CreateEvent(mutex, condition)
{
pthread_mutex_init(mutex, NULL);
pthread_cond_init(condition, NULL);
}
bool SetEvent (mutex, condition)
{
pthread_mutex_lock(mutex);
pthread_cond_signal(condition);
pthread_mutex_unlock(mutex);
}
int WaitForSingleObject(mutex, condition, timeout)
{
pthread_mutex_lock(mutex);
pthread_cond_timedwait(condition, mutex, timeout);
pthread_mutex_unlock(mutex);
}
// Call WaitForSingleObject for each event.
// Yes, i know, that its a wrong way, but it should work in my example.
int WaitForMultipleObjects(count, mutex[], condition[], timeout);
And all seems good, but i think, that problem will appear when i call WaitFor.. function in Main thread before SetEvent in secondary thread will be called. In Windows, it worked well, but in Linux - only idea is described above.
Maybe you tell me the better way to solve it? Thank you.
UPD: Timeout is very important, because one of the secondary threads may not pass SetEvent().
回答1:
There was similar question on stackoverflow already: WaitForSingleObject and WaitForMultipleObjects equivalent in linux
In addition you can use semaphores:
sem_t semOne ;
sem_t semTwo ;
sem_t semMain ;
In main thread:
sem_init(semOne,0,0) ;
sem_init(semTwo,0,0) ;
sem_init(semMain,0,0) ;
...
sem_wait(&semMain);
// Thread 1
sem_wait(&semOne);
sem_post(&semMain);
// Thread 2
sem_wait(&semTwo);
sem_post(&semMain);
Detailed description and various examples could be found here: ------http://www.ibm.com/developerworks/linux/library/l-ipc2lin3/index.html
The previous link is no longer available. The most recent archived version at The Internet Archive's Wayback Machine is: https://web.archive.org/web/20130515223326/http://www.ibm.com/developerworks/linux/library/l-ipc2lin3/index.html
回答2:
Basing this on the description of WaitForSingleObject
The WaitForSingleObject function checks the current state of the specified object. If the object's state is nonsignaled, the calling thread enters the wait state until the object is signaled or the time-out interval elapses.
The difference between that behavior and the code is that the code will always wait on the condition variable, as it does not check a predicate. This introduces synchronization issues between the pthread_condt_timewait
and pthread_cond_signal
calls.
The general idiom for signalling a condition variable is:
lock mutex set predicate unlock mutex signal condition variable
And when waiting for a condition variable:
lock mutex while ( !predicate ) { wait on condition variable } unlock mutex
Based on what is trying to be accomplished, a separate bool
could be used as a predicate for each Event
. By introducing a predicate, WaitForSingleObject
should only wait on the condition variable if the Event
has not been signaled. The code would look similar to the following:
bool SetEvent (mutex, condition)
{
pthread_mutex_lock(mutex); // lock mutex
bool& signalled = find_signal(condition); // find predicate
signalled = true; // set predicate
pthread_mutex_unlock(mutex); // unlock mutex
pthread_cond_signal(condition); // signal condition variable
}
int WaitForSingleObject(mutex, condition, timeout)
{
pthread_mutex_lock(mutex); // lock mutex
bool& signalled = find_signal(condition); // find predicate
while (!signalled)
{
pthread_cond_timedwait(condition, mutex, timeout);
}
signalled = false; // reset predicate
pthread_mutex_unlock(mutex); // unlock mutex
}
回答3:
I think semaphore is a better solution here, because it can be used inter-process. You can wrap the interface, if name is not provide, then use pthread_ to initialize it for intra-process to use, which can short the resource usage, but when name used, try to use sem initialize it, for intra-process use.
来源:https://stackoverflow.com/questions/13030413/windows-event-implementation-in-linux-using-conditional-variables