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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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a378d9338e
We have two functions for doing exactly the same thing -- emulating cmpxchg8b on 486 and older hardware -- with different calling conventions, and yet doing the same thing. Drop the C version and use the assembly version, via alternatives, for both the local and non-local versions of cmpxchg8b. Signed-off-by: H. Peter Anvin <hpa@linux.intel.com> LKML-Reference: <AANLkTikAmaDPji-TVDarmG1yD=fwbffcsmEU=YEuP+8r@mail.gmail.com>
284 lines
7.7 KiB
C
284 lines
7.7 KiB
C
#ifndef _ASM_X86_CMPXCHG_32_H
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#define _ASM_X86_CMPXCHG_32_H
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#include <linux/bitops.h> /* for LOCK_PREFIX */
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/*
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* Note: if you use set64_bit(), __cmpxchg64(), or their variants, you
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* you need to test for the feature in boot_cpu_data.
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*/
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extern void __xchg_wrong_size(void);
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/*
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* Note: no "lock" prefix even on SMP: xchg always implies lock anyway.
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* Since this is generally used to protect other memory information, we
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* use "asm volatile" and "memory" clobbers to prevent gcc from moving
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* information around.
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*/
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#define __xchg(x, ptr, size) \
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({ \
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__typeof(*(ptr)) __x = (x); \
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switch (size) { \
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case 1: \
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{ \
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volatile u8 *__ptr = (volatile u8 *)(ptr); \
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asm volatile("xchgb %0,%1" \
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: "=q" (__x), "+m" (*__ptr) \
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: "0" (__x) \
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: "memory"); \
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break; \
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} \
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case 2: \
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{ \
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volatile u16 *__ptr = (volatile u16 *)(ptr); \
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asm volatile("xchgw %0,%1" \
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: "=r" (__x), "+m" (*__ptr) \
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: "0" (__x) \
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: "memory"); \
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break; \
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} \
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case 4: \
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{ \
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volatile u32 *__ptr = (volatile u32 *)(ptr); \
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asm volatile("xchgl %0,%1" \
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: "=r" (__x), "+m" (*__ptr) \
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: "0" (__x) \
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: "memory"); \
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break; \
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} \
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default: \
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__xchg_wrong_size(); \
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} \
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__x; \
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})
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#define xchg(ptr, v) \
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__xchg((v), (ptr), sizeof(*ptr))
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/*
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* CMPXCHG8B only writes to the target if we had the previous
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* value in registers, otherwise it acts as a read and gives us the
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* "new previous" value. That is why there is a loop. Preloading
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* EDX:EAX is a performance optimization: in the common case it means
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* we need only one locked operation.
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*
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* A SIMD/3DNOW!/MMX/FPU 64-bit store here would require at the very
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* least an FPU save and/or %cr0.ts manipulation.
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*
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* cmpxchg8b must be used with the lock prefix here to allow the
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* instruction to be executed atomically. We need to have the reader
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* side to see the coherent 64bit value.
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*/
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static inline void set_64bit(volatile u64 *ptr, u64 value)
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{
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u32 low = value;
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u32 high = value >> 32;
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u64 prev = *ptr;
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asm volatile("\n1:\t"
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LOCK_PREFIX "cmpxchg8b %0\n\t"
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"jnz 1b"
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: "=m" (*ptr), "+A" (prev)
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: "b" (low), "c" (high)
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: "memory");
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}
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extern void __cmpxchg_wrong_size(void);
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/*
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* Atomic compare and exchange. Compare OLD with MEM, if identical,
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* store NEW in MEM. Return the initial value in MEM. Success is
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* indicated by comparing RETURN with OLD.
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*/
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#define __raw_cmpxchg(ptr, old, new, size, lock) \
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({ \
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__typeof__(*(ptr)) __ret; \
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__typeof__(*(ptr)) __old = (old); \
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__typeof__(*(ptr)) __new = (new); \
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switch (size) { \
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case 1: \
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{ \
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volatile u8 *__ptr = (volatile u8 *)(ptr); \
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asm volatile(lock "cmpxchgb %2,%1" \
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: "=a" (__ret), "+m" (*__ptr) \
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: "q" (__new), "0" (__old) \
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: "memory"); \
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break; \
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} \
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case 2: \
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{ \
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volatile u16 *__ptr = (volatile u16 *)(ptr); \
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asm volatile(lock "cmpxchgw %2,%1" \
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: "=a" (__ret), "+m" (*__ptr) \
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: "r" (__new), "0" (__old) \
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: "memory"); \
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break; \
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} \
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case 4: \
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{ \
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volatile u32 *__ptr = (volatile u32 *)(ptr); \
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asm volatile(lock "cmpxchgl %2,%1" \
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: "=a" (__ret), "+m" (*__ptr) \
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: "r" (__new), "0" (__old) \
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: "memory"); \
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break; \
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} \
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default: \
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__cmpxchg_wrong_size(); \
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} \
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__ret; \
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})
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#define __cmpxchg(ptr, old, new, size) \
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__raw_cmpxchg((ptr), (old), (new), (size), LOCK_PREFIX)
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#define __sync_cmpxchg(ptr, old, new, size) \
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__raw_cmpxchg((ptr), (old), (new), (size), "lock; ")
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#define __cmpxchg_local(ptr, old, new, size) \
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__raw_cmpxchg((ptr), (old), (new), (size), "")
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#ifdef CONFIG_X86_CMPXCHG
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#define __HAVE_ARCH_CMPXCHG 1
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#define cmpxchg(ptr, old, new) \
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__cmpxchg((ptr), (old), (new), sizeof(*ptr))
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#define sync_cmpxchg(ptr, old, new) \
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__sync_cmpxchg((ptr), (old), (new), sizeof(*ptr))
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#define cmpxchg_local(ptr, old, new) \
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__cmpxchg_local((ptr), (old), (new), sizeof(*ptr))
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#endif
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#ifdef CONFIG_X86_CMPXCHG64
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#define cmpxchg64(ptr, o, n) \
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((__typeof__(*(ptr)))__cmpxchg64((ptr), (unsigned long long)(o), \
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(unsigned long long)(n)))
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#define cmpxchg64_local(ptr, o, n) \
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((__typeof__(*(ptr)))__cmpxchg64_local((ptr), (unsigned long long)(o), \
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(unsigned long long)(n)))
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#endif
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static inline u64 __cmpxchg64(volatile u64 *ptr, u64 old, u64 new)
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{
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u64 prev;
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asm volatile(LOCK_PREFIX "cmpxchg8b %1"
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: "=A" (prev),
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"+m" (*ptr)
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: "b" ((u32)new),
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"c" ((u32)(new >> 32)),
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"0" (old)
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: "memory");
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return prev;
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}
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static inline u64 __cmpxchg64_local(volatile u64 *ptr, u64 old, u64 new)
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{
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u64 prev;
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asm volatile("cmpxchg8b %1"
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: "=A" (prev),
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"+m" (*ptr)
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: "b" ((u32)new),
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"c" ((u32)(new >> 32)),
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"0" (old)
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: "memory");
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return prev;
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}
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#ifndef CONFIG_X86_CMPXCHG
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/*
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* Building a kernel capable running on 80386. It may be necessary to
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* simulate the cmpxchg on the 80386 CPU. For that purpose we define
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* a function for each of the sizes we support.
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*/
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extern unsigned long cmpxchg_386_u8(volatile void *, u8, u8);
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extern unsigned long cmpxchg_386_u16(volatile void *, u16, u16);
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extern unsigned long cmpxchg_386_u32(volatile void *, u32, u32);
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static inline unsigned long cmpxchg_386(volatile void *ptr, unsigned long old,
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unsigned long new, int size)
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{
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switch (size) {
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case 1:
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return cmpxchg_386_u8(ptr, old, new);
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case 2:
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return cmpxchg_386_u16(ptr, old, new);
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case 4:
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return cmpxchg_386_u32(ptr, old, new);
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}
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return old;
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}
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#define cmpxchg(ptr, o, n) \
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({ \
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__typeof__(*(ptr)) __ret; \
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if (likely(boot_cpu_data.x86 > 3)) \
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__ret = (__typeof__(*(ptr)))__cmpxchg((ptr), \
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(unsigned long)(o), (unsigned long)(n), \
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sizeof(*(ptr))); \
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else \
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__ret = (__typeof__(*(ptr)))cmpxchg_386((ptr), \
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(unsigned long)(o), (unsigned long)(n), \
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sizeof(*(ptr))); \
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__ret; \
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})
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#define cmpxchg_local(ptr, o, n) \
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({ \
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__typeof__(*(ptr)) __ret; \
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if (likely(boot_cpu_data.x86 > 3)) \
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__ret = (__typeof__(*(ptr)))__cmpxchg_local((ptr), \
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(unsigned long)(o), (unsigned long)(n), \
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sizeof(*(ptr))); \
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else \
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__ret = (__typeof__(*(ptr)))cmpxchg_386((ptr), \
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(unsigned long)(o), (unsigned long)(n), \
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sizeof(*(ptr))); \
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__ret; \
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})
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#endif
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#ifndef CONFIG_X86_CMPXCHG64
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/*
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* Building a kernel capable running on 80386 and 80486. It may be necessary
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* to simulate the cmpxchg8b on the 80386 and 80486 CPU.
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*/
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#define cmpxchg64(ptr, o, n) \
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({ \
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__typeof__(*(ptr)) __ret; \
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__typeof__(*(ptr)) __old = (o); \
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__typeof__(*(ptr)) __new = (n); \
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alternative_io(LOCK_PREFIX_HERE \
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"call cmpxchg8b_emu", \
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"lock; cmpxchg8b (%%esi)" , \
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X86_FEATURE_CX8, \
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"=A" (__ret), \
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"S" ((ptr)), "0" (__old), \
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"b" ((unsigned int)__new), \
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"c" ((unsigned int)(__new>>32)) \
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: "memory"); \
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__ret; })
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#define cmpxchg64_local(ptr, o, n) \
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({ \
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__typeof__(*(ptr)) __ret; \
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__typeof__(*(ptr)) __old = (o); \
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__typeof__(*(ptr)) __new = (n); \
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alternative_io("call cmpxchg8b_emu", \
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"cmpxchg8b (%%esi)" , \
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X86_FEATURE_CX8, \
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"=A" (__ret), \
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"S" ((ptr)), "0" (__old), \
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"b" ((unsigned int)__new), \
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"c" ((unsigned int)(__new>>32)) \
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: "memory"); \
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__ret; })
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#endif
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#endif /* _ASM_X86_CMPXCHG_32_H */
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