195 lines
5.3 KiB
Groff
195 lines
5.3 KiB
Groff
.TH PTHREAD_CLEANUP 3 LinuxThreads
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.XREF pthread_cleanup_pop
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.XREF pthread_cleanup_push_defer_np
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.XREF pthread_cleanup_pop_restore_np
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.SH NAME
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pthread_cleanup_push, pthread_cleanup_pop, pthread_cleanup_push_defer_np, pthread_cleanup_pop_restore_np \- install and remove cleanup handlers
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.SH SYNOPSIS
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#include <pthread.h>
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void pthread_cleanup_push(void (*routine) (void *), void *arg);
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void pthread_cleanup_pop(int execute);
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void pthread_cleanup_push_defer_np(void (*routine) (void *), void *arg);
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void pthread_cleanup_pop_restore_np(int execute);
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.SH DESCRIPTION
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Cleanup handlers are functions that get called when a thread
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terminates, either by calling !pthread_exit!(3) or because of
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cancellation. Cleanup handlers are installed and removed following a
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stack-like discipline.
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The purpose of cleanup handlers is to free the resources that a thread
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may hold at the time it terminates. In particular, if a thread
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exits or is cancelled while it owns a locked mutex, the mutex will
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remain locked forever and prevent other threads from executing
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normally. The best way to avoid this is, just before locking the
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mutex, to install a cleanup handler whose effect is to unlock the
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mutex. Cleanup handlers can be used similarly to free blocks allocated
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with !malloc!(3) or close file descriptors on thread termination.
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!pthread_cleanup_push! installs the |routine| function with argument
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|arg| as a cleanup handler. From this point on to the matching
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!pthread_cleanup_pop!, the function |routine| will be called with
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arguments |arg| when the thread terminates, either through !pthread_exit!(3)
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or by cancellation. If several cleanup handlers are active at that
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point, they are called in LIFO order: the most recently installed
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handler is called first.
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!pthread_cleanup_pop! removes the most recently installed cleanup
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handler. If the |execute| argument is not 0, it also executes the
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handler, by calling the |routine| function with arguments |arg|. If
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the |execute| argument is 0, the handler is only removed but not
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executed.
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Matching pairs of !pthread_cleanup_push! and !pthread_cleanup_pop!
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must occur in the same function, at the same level of block nesting.
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Actually, !pthread_cleanup_push! and !pthread_cleanup_pop! are macros,
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and the expansion of !pthread_cleanup_push! introduces an open brace !{!
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with the matching closing brace !}! being introduced by the expansion
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of the matching !pthread_cleanup_pop!.
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!pthread_cleanup_push_defer_np! is a non-portable extension that
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combines !pthread_cleanup_push! and !pthread_setcanceltype!(3).
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It pushes a cleanup handler just as !pthread_cleanup_push! does, but
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also saves the current cancellation type and sets it to deferred
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cancellation. This ensures that the cleanup mechanism is effective
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even if the thread was initially in asynchronous cancellation mode.
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!pthread_cleanup_pop_restore_np! pops a cleanup handler introduced by
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!pthread_cleanup_push_defer_np!, and restores the cancellation type to
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its value at the time !pthread_cleanup_push_defer_np! was called.
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!pthread_cleanup_push_defer_np! and !pthread_cleanup_pop_restore_np!
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must occur in matching pairs, at the same level of block nesting.
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The following sequence
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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_cleanup_push_defer_np(routine, arg);
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...
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pthread_cleanup_pop_defer_np(execute);
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.ft
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.LP
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.RE
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.fi
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is functionally equivalent to (but more compact and more efficient than)
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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 oldtype;
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pthread_setcanceltype(PTHREAD_CANCEL_DEFERRED, &oldtype);
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pthread_cleanup_push(routine, arg);
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...
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pthread_cleanup_pop(execute);
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pthread_setcanceltype(oldtype, NULL);
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}
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.ft
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.LP
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.RE
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.fi
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.SH "RETURN VALUE"
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None.
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.SH ERRORS
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None.
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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_exit!(3),
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!pthread_cancel!(3),
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!pthread_setcanceltype!(3).
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.SH EXAMPLE
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Here is how to lock a mutex |mut| in such a way that it will be
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unlocked if the thread is canceled while |mut| is locked:
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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_cleanup_push(pthread_mutex_unlock, (void *) &mut);
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pthread_mutex_lock(&mut);
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/* do some work */
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pthread_mutex_unlock(&mut);
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pthread_cleanup_pop(0);
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.ft
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.LP
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.RE
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.fi
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Equivalently, the last two lines can be replaced by
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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_cleanup_pop(1);
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.ft
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.LP
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.RE
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.fi
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Notice that the code above is safe only in deferred cancellation mode
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(see !pthread_setcanceltype!(3)). In asynchronous cancellation mode,
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a cancellation can occur between !pthread_cleanup_push! and
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!pthread_mutex_lock!, or between !pthread_mutex_unlock! and
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!pthread_cleanup_pop!, resulting in both cases in the thread trying to
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unlock a mutex not locked by the current thread. This is the main
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reason why asynchronous cancellation is difficult to use.
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If the code above must also work in asynchronous cancellation mode,
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then it must switch to deferred mode for locking and unlocking the
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mutex:
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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_setcanceltype(PTHREAD_CANCEL_DEFERRED, &oldtype);
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pthread_cleanup_push(pthread_mutex_unlock, (void *) &mut);
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pthread_mutex_lock(&mut);
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/* do some work */
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pthread_cleanup_pop(1);
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pthread_setcanceltype(oldtype, NULL);
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.ft
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.LP
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.RE
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.fi
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The code above can be rewritten in a more compact and more
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efficient way, using the non-portable functions
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!pthread_cleanup_push_defer_np! and !pthread_cleanup_pop_restore_np!:
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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_cleanup_push_restore_np(pthread_mutex_unlock, (void *) &mut);
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pthread_mutex_lock(&mut);
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/* do some work */
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pthread_cleanup_pop_restore_np(1);
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.ft
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.LP
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.RE
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.fi
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