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214 lines
6.9 KiB
Groff
214 lines
6.9 KiB
Groff
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.TH PTHREAD_MUTEX 3 LinuxThreads
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.XREF pthread_mutex_lock
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.XREF pthread_mutex_unlock
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.XREF pthread_mutex_trylock
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.XREF pthread_mutex_destroy
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.SH NAME
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pthread_mutex_init, pthread_mutex_lock, pthread_mutex_trylock, pthread_mutex_unlock, pthread_mutex_destroy \- operations on mutexes
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.SH SYNOPSIS
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#include <pthread.h>
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pthread_mutex_t fastmutex = PTHREAD_MUTEX_INITIALIZER;
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pthread_mutex_t recmutex = PTHREAD_RECURSIVE_MUTEX_INITIALIZER_NP;
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pthread_mutex_t errchkmutex = PTHREAD_ERRORCHECK_MUTEX_INITIALIZER_NP;
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int pthread_mutex_init(pthread_mutex_t *mutex, const pthread_mutexattr_t *mutexattr);
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int pthread_mutex_lock(pthread_mutex_t *mutex));
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int pthread_mutex_trylock(pthread_mutex_t *mutex);
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int pthread_mutex_unlock(pthread_mutex_t *mutex);
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int pthread_mutex_destroy(pthread_mutex_t *mutex);
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.SH DESCRIPTION
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A mutex is a MUTual EXclusion device, and is useful for protecting
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shared data structures from concurrent modifications, and implementing
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critical sections and monitors.
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A mutex has two possible states: unlocked (not owned by any thread),
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and locked (owned by one thread). A mutex can never be owned by two
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different threads simultaneously. A thread attempting to lock a mutex
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that is already locked by another thread is suspended until the owning
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thread unlocks the mutex first.
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!pthread_mutex_init! initializes the mutex object pointed to by
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|mutex| according to the mutex attributes specified in |mutexattr|.
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If |mutexattr| is !NULL!, default attributes are used instead.
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The LinuxThreads implementation supports only one mutex attributes,
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the |mutex kind|, which is either ``fast'', ``recursive'', or
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``error checking''. The kind of a mutex determines whether
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it can be locked again by a thread that already owns it.
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The default kind is ``fast''. See !pthread_mutexattr_init!(3) for more
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information on mutex attributes.
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Variables of type !pthread_mutex_t! can also be initialized
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statically, using the constants !PTHREAD_MUTEX_INITIALIZER! (for fast
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mutexes), !PTHREAD_RECURSIVE_MUTEX_INITIALIZER_NP! (for recursive
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mutexes), and !PTHREAD_ERRORCHECK_MUTEX_INITIALIZER_NP! (for error checking
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mutexes).
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!pthread_mutex_lock! locks the given mutex. If the mutex is currently
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unlocked, it becomes locked and owned by the calling thread, and
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!pthread_mutex_lock! returns immediately. If the mutex is already
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locked by another thread, !pthread_mutex_lock! suspends the calling
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thread until the mutex is unlocked.
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If the mutex is already locked by the calling thread, the behavior of
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!pthread_mutex_lock! depends on the kind of the mutex. If the mutex is
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of the ``fast'' kind, the calling thread is suspended until the mutex
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is unlocked, thus effectively causing the calling thread to
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deadlock. If the mutex is of the ``error checking'' kind,
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!pthread_mutex_lock! returns immediately with the error code !EDEADLK!.
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If the mutex is of the ``recursive'' kind, !pthread_mutex_lock!
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succeeds and returns immediately, recording the number of times the
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calling thread has locked the mutex. An equal number of
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!pthread_mutex_unlock! operations must be performed before the mutex
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returns to the unlocked state.
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!pthread_mutex_trylock! behaves identically to !pthread_mutex_lock!,
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except that it does not block the calling thread if the mutex is
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already locked by another thread (or by the calling thread in the case
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of a ``fast'' mutex). Instead, !pthread_mutex_trylock! returns
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immediately with the error code !EBUSY!.
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!pthread_mutex_unlock! unlocks the given mutex. The mutex is assumed
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to be locked and owned by the calling thread on entrance to
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!pthread_mutex_unlock!. If the mutex is of the ``fast'' kind,
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!pthread_mutex_unlock! always returns it to the unlocked state. If it
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is of the ``recursive'' kind, it decrements the locking count of the
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mutex (number of !pthread_mutex_lock! operations performed on it by
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the calling thread), and only when this count reaches zero is the
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mutex actually unlocked.
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On ``error checking'' mutexes, !pthread_mutex_unlock! actually checks
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at run-time that the mutex is locked on entrance, and that it was
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locked by the same thread that is now calling !pthread_mutex_unlock!.
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If these conditions are not met, an error code is returned and the
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mutex remains unchanged. ``Fast'' and ``recursive'' mutexes perform
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no such checks, thus allowing a locked mutex to be unlocked by a
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thread other than its owner. This is non-portable behavior and must
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not be relied upon.
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!pthread_mutex_destroy! destroys a mutex object, freeing the resources
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it might hold. The mutex must be unlocked on entrance. In the
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LinuxThreads implementation, no resources are associated with mutex
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objects, thus !pthread_mutex_destroy! actually does nothing except
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checking that the mutex is unlocked.
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.SH CANCELLATION
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None of the mutex functions is a cancellation point, not even
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!pthread_mutex_lock!, in spite of the fact that it can suspend a
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thread for arbitrary durations. This way, the status of mutexes at
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cancellation points is predictable, allowing cancellation handlers to
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unlock precisely those mutexes that need to be unlocked before the
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thread stops executing. Consequently, threads using deferred
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cancellation should never hold a mutex for extended periods of time.
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.SH "ASYNC-SIGNAL SAFETY"
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The mutex functions are not async-signal safe. What this means is that
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they should not be called from a signal handler. In particular,
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calling !pthread_mutex_lock! or !pthread_mutex_unlock! from a signal
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handler may deadlock the calling thread.
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.SH "RETURN VALUE"
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!pthread_mutex_init! always returns 0. The other mutex functions
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return 0 on success and a non-zero error code on error.
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.SH ERRORS
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The !pthread_mutex_lock! function returns the following error code
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on error:
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.RS
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.TP
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!EINVAL!
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the mutex has not been properly initialized.
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.TP
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!EDEADLK!
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the mutex is already locked by the calling thread
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(``error checking'' mutexes only).
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.RE
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The !pthread_mutex_trylock! function returns the following error codes
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on error:
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.RS
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.TP
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!EBUSY!
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the mutex could not be acquired because it was currently locked.
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.TP
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!EINVAL!
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the mutex has not been properly initialized.
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.RE
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The !pthread_mutex_unlock! function returns the following error code
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on error:
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.RS
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.TP
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!EINVAL!
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the mutex has not been properly initialized.
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.TP
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!EPERM!
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the calling thread does not own the mutex (``error checking'' mutexes only).
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.RE
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The !pthread_mutex_destroy! function returns the following error code
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on error:
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.RS
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.TP
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!EBUSY!
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the mutex is currently locked.
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.RE
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.SH AUTHOR
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Xavier Leroy <Xavier.Leroy@inria.fr>
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.SH "SEE ALSO"
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!pthread_mutexattr_init!(3),
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!pthread_mutexattr_setkind_np!(3),
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!pthread_cancel!(3).
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.SH EXAMPLE
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A shared global variable |x| can be protected by a mutex as follows:
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.RS
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.ft 3
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.nf
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.sp
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int x;
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pthread_mutex_t mut = PTHREAD_MUTEX_INITIALIZER;
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.ft
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.LP
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.RE
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.fi
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All accesses and modifications to |x| should be bracketed by calls to
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!pthread_mutex_lock! and !pthread_mutex_unlock! as follows:
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.RS
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.ft 3
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.nf
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.sp
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pthread_mutex_lock(&mut);
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/* operate on x */
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pthread_mutex_unlock(&mut);
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.ft
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.LP
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.RE
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.fi
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