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/* SPDX-License-Identifier: GPL-2.0 */
#ifndef _ASM_X86_CMPXCHG_32_H
#define _ASM_X86_CMPXCHG_32_H

/*
 * Note: if you use set64_bit(), __cmpxchg64(), or their variants, you
 *       you need to test for the feature in boot_cpu_data.
 */

/*
 * CMPXCHG8B only writes to the target if we had the previous
 * value in registers, otherwise it acts as a read and gives us the
 * "new previous" value.  That is why there is a loop.  Preloading
 * EDX:EAX is a performance optimization: in the common case it means
 * we need only one locked operation.
 *
 * A SIMD/3DNOW!/MMX/FPU 64-bit store here would require at the very
 * least an FPU save and/or %cr0.ts manipulation.
 *
 * cmpxchg8b must be used with the lock prefix here to allow the
 * instruction to be executed atomically.  We need to have the reader
 * side to see the coherent 64bit value.
 */
static inline void set_64bit(volatile u64 *ptr, u64 value)
{
	u32 low  = value;
	u32 high = value >> 32;
	u64 prev = *ptr;

	asm volatile("\n1:\t"
		     LOCK_PREFIX "cmpxchg8b %0\n\t"
		     "jnz 1b"
		     : "=m" (*ptr), "+A" (prev)
		     : "b" (low), "c" (high)
		     : "memory");
}

#ifdef CONFIG_X86_CMPXCHG64
#define cmpxchg64(ptr, o, n)						\
	((__typeof__(*(ptr)))__cmpxchg64((ptr), (unsigned long long)(o), \
					 (unsigned long long)(n)))
#define cmpxchg64_local(ptr, o, n)					\
	((__typeof__(*(ptr)))__cmpxchg64_local((ptr), (unsigned long long)(o), \
					       (unsigned long long)(n)))
#endif

static inline u64 __cmpxchg64(volatile u64 *ptr, u64 old, u64 new)
{
	u64 prev;
	asm volatile(LOCK_PREFIX "cmpxchg8b %1"
		     : "=A" (prev),
		       "+m" (*ptr)
		     : "b" ((u32)new),
		       "c" ((u32)(new >> 32)),
		       "0" (old)
		     : "memory");
	return prev;
}

static inline u64 __cmpxchg64_local(volatile u64 *ptr, u64 old, u64 new)
{
	u64 prev;
	asm volatile("cmpxchg8b %1"
		     : "=A" (prev),
		       "+m" (*ptr)
		     : "b" ((u32)new),
		       "c" ((u32)(new >> 32)),
		       "0" (old)
		     : "memory");
	return prev;
}

#ifndef CONFIG_X86_CMPXCHG64
/*
 * Building a kernel capable running on 80386 and 80486. It may be necessary
 * to simulate the cmpxchg8b on the 80386 and 80486 CPU.
 */

#define cmpxchg64(ptr, o, n)					\
({								\
	__typeof__(*(ptr)) __ret;				\
	__typeof__(*(ptr)) __old = (o);				\
	__typeof__(*(ptr)) __new = (n);				\
	alternative_io(LOCK_PREFIX_HERE				\
			"call cmpxchg8b_emu",			\
			"lock; cmpxchg8b (%%esi)" ,		\
		       X86_FEATURE_CX8,				\
		       "=A" (__ret),				\
		       "S" ((ptr)), "0" (__old),		\
		       "b" ((unsigned int)__new),		\
		       "c" ((unsigned int)(__new>>32))		\
		       : "memory");				\
	__ret; })


#define cmpxchg64_local(ptr, o, n)				\
({								\
	__typeof__(*(ptr)) __ret;				\
	__typeof__(*(ptr)) __old = (o);				\
	__typeof__(*(ptr)) __new = (n);				\
	alternative_io("call cmpxchg8b_emu",			\
		       "cmpxchg8b (%%esi)" ,			\
		       X86_FEATURE_CX8,				\
		       "=A" (__ret),				\
		       "S" ((ptr)), "0" (__old),		\
		       "b" ((unsigned int)__new),		\
		       "c" ((unsigned int)(__new>>32))		\
		       : "memory");				\
	__ret; })

#endif

#define system_has_cmpxchg_double() boot_cpu_has(X86_FEATURE_CX8)

#endif /* _ASM_X86_CMPXCHG_32_H */

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