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/*
 * Assembly implementation of the mutex fastpath, based on atomic
 * decrement/increment.
 *
 * started by Ingo Molnar:
 *
 *  Copyright (C) 2004, 2005, 2006 Red Hat, Inc., Ingo Molnar <mingo@redhat.com>
 */
#ifndef _ASM_MUTEX_H
#define _ASM_MUTEX_H

/**
 *  __mutex_fastpath_lock - try to take the lock by moving the count
 *                          from 1 to a 0 value
 *  @count: pointer of type atomic_t
 *  @fn: function to call if the original value was not 1
 *
 * Change the count from 1 to a value lower than 1, and call <fn> if it
 * wasn't 1 originally. This function MUST leave the value lower than 1
 * even when the "1" assertion wasn't true.
 */
#define __mutex_fastpath_lock(count, fail_fn)				\
do {									\
	unsigned int dummy;						\
									\
	typecheck(atomic_t *, count);					\
	typecheck_fn(fastcall void (*)(atomic_t *), fail_fn);		\
									\
	__asm__ __volatile__(						\
		LOCK	"   decl (%%eax)	\n"			\
			"   js "#fail_fn"	\n"			\
									\
		:"=a" (dummy)						\
		: "a" (count)						\
		: "memory", "ecx", "edx");				\
} while (0)


/**
 *  __mutex_fastpath_lock_retval - try to take the lock by moving the count
 *                                 from 1 to a 0 value
 *  @count: pointer of type atomic_t
 *  @fail_fn: function to call if the original value was not 1
 *
 * Change the count from 1 to a value lower than 1, and call <fail_fn> if it
 * wasn't 1 originally. This function returns 0 if the fastpath succeeds,
 * or anything the slow path function returns
 */
static inline int
__mutex_fastpath_lock_retval(atomic_t *count,
			     int fastcall (*fail_fn)(atomic_t *))
{
	if (unlikely(atomic_dec_return(count) < 0))
		return fail_fn(count);
	else
		return 0;
}

/**
 *  __mutex_fastpath_unlock - try to promote the mutex from 0 to 1
 *  @count: pointer of type atomic_t
 *  @fail_fn: function to call if the original value was not 0
 *
 * try to promote the mutex from 0 to 1. if it wasn't 0, call <fail_fn>.
 * In the failure case, this function is allowed to either set the value
 * to 1, or to set it to a value lower than 1.
 *
 * If the implementation sets it to a value of lower than 1, the
 * __mutex_slowpath_needs_to_unlock() macro needs to return 1, it needs
 * to return 0 otherwise.
 */
#define __mutex_fastpath_unlock(count, fail_fn)				\
do {									\
	unsigned int dummy;						\
									\
	typecheck(atomic_t *, count);					\
	typecheck_fn(fastcall void (*)(atomic_t *), fail_fn);		\
									\
	__asm__ __volatile__(						\
		LOCK	"   incl (%%eax)	\n"			\
			"   jle "#fail_fn"	\n"			\
									\
		:"=a" (dummy)						\
		: "a" (count)						\
		: "memory", "ecx", "edx");				\
} while (0)

#define __mutex_slowpath_needs_to_unlock()	1

/**
 * __mutex_fastpath_trylock - try to acquire the mutex, without waiting
 *
 *  @count: pointer of type atomic_t
 *  @fail_fn: fallback function
 *
 * Change the count from 1 to a value lower than 1, and return 0 (failure)
 * if it wasn't 1 originally, or return 1 (success) otherwise. This function
 * MUST leave the value lower than 1 even when the "1" assertion wasn't true.
 * Additionally, if the value was < 0 originally, this function must not leave
 * it to 0 on failure.
 */
static inline int
__mutex_fastpath_trylock(atomic_t *count, int (*fail_fn)(atomic_t *))
{
	/*
	 * We have two variants here. The cmpxchg based one is the best one
	 * because it never induce a false contention state.  It is included
	 * here because architectures using the inc/dec algorithms over the
	 * xchg ones are much more likely to support cmpxchg natively.
	 *
	 * If not we fall back to the spinlock based variant - that is
	 * just as efficient (and simpler) as a 'destructive' probing of
	 * the mutex state would be.
	 */
#ifdef __HAVE_ARCH_CMPXCHG
	if (likely(atomic_cmpxchg(count, 1, 0)) == 1)
		return 1;
	return 0;
#else
	return fail_fn(count);
#endif
}

#endif
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