host/include/x86_64/host/load-extract-al16-al8.h.inc - third_party/qemu - Git at Google

 /*
  * SPDX-License-Identifier: GPL-2.0-or-later
  * Atomic extract 64 from 128-bit, x86_64 version.
  *
  * Copyright (C) 2023 Linaro, Ltd.
  */

 #ifndef X86_64_LOAD_EXTRACT_AL16_AL8_H
 #define X86_64_LOAD_EXTRACT_AL16_AL8_H

 #ifdef CONFIG_INT128_TYPE
 #include "host/atomic128-ldst.h"

 /**
  * load_atom_extract_al16_or_al8:
  * @pv: host address
  * @s: object size in bytes, @s <= 8.
  *
  * Load @s bytes from @pv, when pv % s != 0.  If [p, p+s-1] does not
  * cross an 16-byte boundary then the access must be 16-byte atomic,
  * otherwise the access must be 8-byte atomic.
  */
 static inline uint64_t ATTRIBUTE_ATOMIC128_OPT
 load_atom_extract_al16_or_al8(void *pv, int s)
 {
     uintptr_t pi = (uintptr_t)pv;
     __int128_t *ptr_align = (__int128_t *)(pi & ~7);
     int shr = (pi & 7) * 8;
     X86Int128Union r;

     /*
      * ptr_align % 16 is now only 0 or 8.
      * If the host supports atomic loads with VMOVDQU, then always use that,
      * making the branch highly predictable.  Otherwise we must use VMOVDQA
      * when ptr_align % 16 == 0 for 16-byte atomicity.
      */
     if ((cpuinfo & CPUINFO_ATOMIC_VMOVDQU) || (pi & 8)) {
         asm("vmovdqu %1, %0" : "=x" (r.v) : "m" (*ptr_align));
     } else {
         asm("vmovdqa %1, %0" : "=x" (r.v) : "m" (*ptr_align));
     }
     return int128_getlo(int128_urshift(r.s, shr));
 }
 #else
 /* Fallback definition that must be optimized away, or error.  */
 uint64_t QEMU_ERROR("unsupported atomic")
     load_atom_extract_al16_or_al8(void *pv, int s);
 #endif

 #endif /* X86_64_LOAD_EXTRACT_AL16_AL8_H */
	/*
	* SPDX-License-Identifier: GPL-2.0-or-later
	* Atomic extract 64 from 128-bit, x86_64 version.
	*
	* Copyright (C) 2023 Linaro, Ltd.
	*/

	#ifndef X86_64_LOAD_EXTRACT_AL16_AL8_H
	#define X86_64_LOAD_EXTRACT_AL16_AL8_H

	#ifdef CONFIG_INT128_TYPE
	#include "host/atomic128-ldst.h"

	/**
	* load_atom_extract_al16_or_al8:
	* @pv: host address
	* @s: object size in bytes, @s <= 8.
	*
	* Load @s bytes from @pv, when pv % s != 0. If [p, p+s-1] does not
	* cross an 16-byte boundary then the access must be 16-byte atomic,
	* otherwise the access must be 8-byte atomic.
	*/
	static inline uint64_t ATTRIBUTE_ATOMIC128_OPT
	load_atom_extract_al16_or_al8(void *pv, int s)
	{
	uintptr_t pi = (uintptr_t)pv;
	__int128_t ptr_align = (__int128_t )(pi & ~7);
	int shr = (pi & 7) * 8;
	X86Int128Union r;

	/*
	* ptr_align % 16 is now only 0 or 8.
	* If the host supports atomic loads with VMOVDQU, then always use that,
	* making the branch highly predictable. Otherwise we must use VMOVDQA
	* when ptr_align % 16 == 0 for 16-byte atomicity.
	*/
	if ((cpuinfo & CPUINFO_ATOMIC_VMOVDQU) \|\| (pi & 8)) {
	asm("vmovdqu %1, %0" : "=x" (r.v) : "m" (*ptr_align));
	} else {
	asm("vmovdqa %1, %0" : "=x" (r.v) : "m" (*ptr_align));
	}
	return int128_getlo(int128_urshift(r.s, shr));
	}
	#else
	/* Fallback definition that must be optimized away, or error. */
	uint64_t QEMU_ERROR("unsupported atomic")
	load_atom_extract_al16_or_al8(void *pv, int s);
	#endif

	#endif /* X86_64_LOAD_EXTRACT_AL16_AL8_H */