e182b46db6
git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@34403 a95241bf-73f2-0310-859d-f6bbb57e9c96
218 lines
5.4 KiB
C
218 lines
5.4 KiB
C
/*
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* Copyright 2008, Ingo Weinhold, ingo_weinhold@gmx.de.
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* Copyright 2002-2009, Axel Dörfler, axeld@pinc-software.de.
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* Distributed under the terms of the MIT License.
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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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#ifndef _KERNEL_LOCK_H
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#define _KERNEL_LOCK_H
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#include <OS.h>
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#include <debug.h>
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struct mutex_waiter;
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typedef struct mutex {
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const char* name;
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struct mutex_waiter* waiters;
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#if KDEBUG
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thread_id holder;
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#else
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int32 count;
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uint16 ignore_unlock_count;
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#endif
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uint8 flags;
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} mutex;
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#define MUTEX_FLAG_CLONE_NAME 0x1
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typedef struct recursive_lock {
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mutex lock;
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#if !KDEBUG
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thread_id holder;
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#endif
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int recursion;
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} recursive_lock;
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struct rw_lock_waiter;
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typedef struct rw_lock {
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const char* name;
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struct rw_lock_waiter* waiters;
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thread_id holder;
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int32 reader_count;
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int32 writer_count;
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int32 owner_count;
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uint32 flags;
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} rw_lock;
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#define RW_LOCK_FLAG_CLONE_NAME 0x1
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#if KDEBUG
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# define KDEBUG_RW_LOCK_DEBUG 0
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// Define to 1 if you want to use ASSERT_READ_LOCKED_RW_LOCK().
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// The rw_lock will just behave like a recursive locker then.
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# define ASSERT_LOCKED_RECURSIVE(r) \
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{ ASSERT(find_thread(NULL) == (r)->lock.holder); }
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# define ASSERT_LOCKED_MUTEX(m) { ASSERT(find_thread(NULL) == (m)->holder); }
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# define ASSERT_WRITE_LOCKED_RW_LOCK(l) \
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{ ASSERT(find_thread(NULL) == (l)->holder); }
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# if KDEBUG_RW_LOCK_DEBUG
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# define ASSERT_READ_LOCKED_RW_LOCK(l) \
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{ ASSERT(find_thread(NULL) == (l)->holder); }
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# else
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# define ASSERT_READ_LOCKED_RW_LOCK(l) do {} while (false)
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# endif
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#else
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# define ASSERT_LOCKED_RECURSIVE(r) do {} while (false)
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# define ASSERT_LOCKED_MUTEX(m) do {} while (false)
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# define ASSERT_WRITE_LOCKED_RW_LOCK(m) do {} while (false)
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# define ASSERT_READ_LOCKED_RW_LOCK(l) do {} while (false)
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#endif
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// static initializers
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#if KDEBUG
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# define MUTEX_INITIALIZER(name) { name, NULL, -1, 0 }
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# define RECURSIVE_LOCK_INITIALIZER(name) { MUTEX_INITIALIZER(name), 0 }
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#else
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# define MUTEX_INITIALIZER(name) { name, NULL, 0, 0, 0 }
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# define RECURSIVE_LOCK_INITIALIZER(name) { MUTEX_INITIALIZER(name), -1, 0 }
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#endif
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#define RW_LOCK_INITIALIZER(name) { name, NULL, -1, 0, 0, 0 }
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#if KDEBUG
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# define RECURSIVE_LOCK_HOLDER(recursiveLock) ((recursiveLock)->lock.holder)
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#else
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# define RECURSIVE_LOCK_HOLDER(recursiveLock) ((recursiveLock)->holder)
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#endif
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#ifdef __cplusplus
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extern "C" {
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#endif
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extern void recursive_lock_init(recursive_lock *lock, const char *name);
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// name is *not* cloned nor freed in recursive_lock_destroy()
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extern void recursive_lock_init_etc(recursive_lock *lock, const char *name,
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uint32 flags);
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extern void recursive_lock_destroy(recursive_lock *lock);
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extern status_t recursive_lock_lock(recursive_lock *lock);
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extern status_t recursive_lock_trylock(recursive_lock *lock);
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extern void recursive_lock_unlock(recursive_lock *lock);
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extern int32 recursive_lock_get_recursion(recursive_lock *lock);
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extern void rw_lock_init(rw_lock* lock, const char* name);
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// name is *not* cloned nor freed in rw_lock_destroy()
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extern void rw_lock_init_etc(rw_lock* lock, const char* name, uint32 flags);
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extern void rw_lock_destroy(rw_lock* lock);
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extern status_t rw_lock_read_lock(rw_lock* lock);
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extern status_t rw_lock_read_unlock(rw_lock* lock);
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extern status_t rw_lock_write_lock(rw_lock* lock);
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extern status_t rw_lock_write_unlock(rw_lock* lock);
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extern void mutex_init(mutex* lock, const char* name);
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// name is *not* cloned nor freed in mutex_destroy()
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extern void mutex_init_etc(mutex* lock, const char* name, uint32 flags);
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extern void mutex_destroy(mutex* lock);
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extern status_t mutex_switch_lock(mutex* from, mutex* to);
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// Unlocks "from" and locks "to" such that unlocking and starting to wait
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// for the lock is atomically. I.e. if "from" guards the object "to" belongs
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// to, the operation is safe as long as "from" is held while destroying
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// "to".
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// implementation private:
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extern status_t _mutex_lock(mutex* lock, bool threadsLocked);
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extern void _mutex_unlock(mutex* lock, bool threadsLocked);
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extern status_t _mutex_trylock(mutex* lock);
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extern status_t _mutex_lock_with_timeout(mutex* lock, uint32 timeoutFlags,
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bigtime_t timeout);
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static inline status_t
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mutex_lock(mutex* lock)
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{
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#if KDEBUG
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return _mutex_lock(lock, false);
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#else
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if (atomic_add(&lock->count, -1) < 0)
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return _mutex_lock(lock, false);
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return B_OK;
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#endif
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}
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static inline status_t
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mutex_lock_threads_locked(mutex* lock)
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{
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#if KDEBUG
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return _mutex_lock(lock, true);
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#else
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if (atomic_add(&lock->count, -1) < 0)
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return _mutex_lock(lock, true);
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return B_OK;
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#endif
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}
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static inline status_t
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mutex_trylock(mutex* lock)
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{
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#if KDEBUG
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return _mutex_trylock(lock);
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#else
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if (atomic_test_and_set(&lock->count, -1, 0) != 0)
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return B_WOULD_BLOCK;
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return B_OK;
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#endif
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}
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static inline status_t
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mutex_lock_with_timeout(mutex* lock, uint32 timeoutFlags, bigtime_t timeout)
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{
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#if KDEBUG
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return _mutex_lock_with_timeout(lock, timeoutFlags, timeout);
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#else
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if (atomic_add(&lock->count, -1) < 0)
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return _mutex_lock_with_timeout(lock, timeoutFlags, timeout);
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return B_OK;
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#endif
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}
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static inline void
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mutex_unlock(mutex* lock)
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{
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#if !KDEBUG
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if (atomic_add(&lock->count, 1) < -1)
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#endif
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_mutex_unlock(lock, false);
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}
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static inline void
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mutex_transfer_lock(mutex* lock, thread_id thread)
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{
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#if KDEBUG
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lock->holder = thread;
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#endif
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}
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extern void lock_debug_init();
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#ifdef __cplusplus
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}
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#endif
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#endif /* _KERNEL_LOCK_H */
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