8a3b6e2cfd
git-svn-id: file:///srv/svn/repos/haiku/trunk/current@4662 a95241bf-73f2-0310-859d-f6bbb57e9c96
254 lines
3.9 KiB
C
254 lines
3.9 KiB
C
/* Mutex and recursive_lock code */
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/*
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** Copyright 2001-2002, Travis Geiselbrecht. All rights reserved.
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** Distributed under the terms of the NewOS License.
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*/
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#include <OS.h>
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#include <lock.h>
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#include <int.h>
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#include <debug.h>
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#include <thread.h>
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int
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recursive_lock_get_recursion(recursive_lock *lock)
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{
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thread_id thid = thread_get_current_thread_id();
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if (lock->holder == thid)
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return lock->recursion;
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return -1;
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}
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status_t
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recursive_lock_init(recursive_lock *lock, const char *name)
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{
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if (lock == NULL)
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return B_BAD_VALUE;
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if (name == NULL)
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name = "recursive lock";
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lock->holder = -1;
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lock->recursion = 0;
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lock->sem = create_sem(1, name);
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if (lock->sem >= B_OK) {
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//set_sem_owner(lock->sem, B_SYSTEM_TEAM);
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return B_OK;
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}
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return lock->sem;
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}
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void
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recursive_lock_destroy(recursive_lock *lock)
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{
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if (lock == NULL)
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return;
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delete_sem(lock->sem);
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lock->sem = -1;
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}
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bool
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recursive_lock_lock(recursive_lock *lock)
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{
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thread_id thid = thread_get_current_thread_id();
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bool retval = false;
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if (!kernel_startup && !are_interrupts_enabled())
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panic("recursive_lock_lock: called with interrupts disabled for lock %p, sem %#lx\n", lock, lock->sem);
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if (thid != lock->holder) {
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acquire_sem(lock->sem);
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lock->holder = thid;
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retval = true;
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}
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lock->recursion++;
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return retval;
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}
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bool
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recursive_lock_unlock(recursive_lock *lock)
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{
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thread_id thid = thread_get_current_thread_id();
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bool retval = false;
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if (thid != lock->holder)
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panic("recursive_lock %p unlocked by non-holder thread!\n", lock);
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if (--lock->recursion == 0) {
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lock->holder = -1;
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release_sem(lock->sem);
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retval = true;
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}
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return retval;
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}
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// #pragma mark -
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status_t
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mutex_init(mutex *m, const char *name)
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{
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if (m == NULL)
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return EINVAL;
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if (name == NULL)
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name = "mutex_sem";
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m->holder = -1;
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m->sem = create_sem(1, name);
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if (m->sem >= B_OK) {
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//set_sem_owner(m->sem, B_SYSTEM_TEAM);
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return B_OK;
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}
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return m->sem;
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}
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void
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mutex_destroy(mutex *mutex)
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{
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if (mutex == NULL)
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return;
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if (mutex->sem >= 0) {
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delete_sem(mutex->sem);
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mutex->sem = -1;
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}
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mutex->holder = -1;
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}
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void
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mutex_lock(mutex *mutex)
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{
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thread_id me = thread_get_current_thread_id();
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if (!kernel_startup && !are_interrupts_enabled())
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panic("mutex_lock: called with interrupts disabled for mutex %p, sem %#lx\n", mutex, mutex->sem);
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if (me == mutex->holder)
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panic("mutex_lock failure: mutex %p (sem = 0x%lx) acquired twice by thread 0x%lx\n", mutex, mutex->sem, me);
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acquire_sem(mutex->sem);
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mutex->holder = me;
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}
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void
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mutex_unlock(mutex *mutex)
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{
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thread_id me = thread_get_current_thread_id();
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if (me != mutex->holder)
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panic("mutex_unlock failure: thread 0x%lx is trying to release mutex %p (current holder 0x%lx)\n",
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me, mutex, mutex->holder);
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mutex->holder = -1;
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release_sem(mutex->sem);
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}
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// #pragma mark -
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status_t
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benaphore_init(benaphore *ben, const char *name)
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{
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if (ben == NULL || name == NULL)
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return B_BAD_VALUE;
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ben->count = 1;
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ben->sem = create_sem(0, name);
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if (ben->sem >= B_OK) {
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set_sem_owner(ben->sem, B_SYSTEM_TEAM);
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return B_OK;
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}
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return ben->sem;
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}
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void
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benaphore_destroy(benaphore *ben)
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{
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delete_sem(ben->sem);
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ben->sem = -1;
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}
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// #pragma mark -
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status_t
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rw_lock_init(rw_lock *lock, const char *name)
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{
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if (lock == NULL)
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return B_BAD_VALUE;
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if (name == NULL)
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name = "r/w lock";
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lock->sem = create_sem(RW_MAX_READERS, name);
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if (lock->sem >= B_OK) {
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set_sem_owner(lock->sem, B_SYSTEM_TEAM);
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return B_OK;
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}
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return lock->sem;
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}
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void
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rw_lock_destroy(rw_lock *lock)
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{
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if (lock == NULL)
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return;
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delete_sem(lock->sem);
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}
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status_t
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rw_lock_read_lock(rw_lock *lock)
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{
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return acquire_sem(lock->sem);
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}
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status_t
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rw_lock_read_unlock(rw_lock *lock)
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{
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return release_sem(lock->sem);
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}
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status_t
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rw_lock_write_lock(rw_lock *lock)
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{
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return acquire_sem_etc(lock->sem, RW_MAX_READERS, 0, 0);
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}
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status_t
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rw_lock_write_unlock(rw_lock *lock)
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{
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return release_sem_etc(lock->sem, RW_MAX_READERS, 0);
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}
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