mirror of https://github.com/openzfs/zfs.git
369 lines
9.0 KiB
C
369 lines
9.0 KiB
C
/*
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* CDDL HEADER START
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*
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* The contents of this file are subject to the terms of the
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* Common Development and Distribution License, Version 1.0 only
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* (the "License"). You may not use this file except in compliance
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* with the License.
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*
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* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
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* or http://www.opensolaris.org/os/licensing.
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* See the License for the specific language governing permissions
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* and limitations under the License.
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*
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* When distributing Covered Code, include this CDDL HEADER in each
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* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
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* If applicable, add the following below this CDDL HEADER, with the
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* fields enclosed by brackets "[]" replaced with your own identifying
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* information: Portions Copyright [yyyy] [name of copyright owner]
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*
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* CDDL HEADER END
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*/
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/*
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* Copyright (c) 2009 by Sun Microsystems, Inc. All rights reserved.
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* Use is subject to license terms.
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*/
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#include <atomic.h>
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/*
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* These are the void returning variants
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*/
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/* BEGIN CSTYLED */
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#define ATOMIC_INC(name, type) \
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void atomic_inc_##name(volatile type *target) \
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{ \
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(void) __atomic_add_fetch(target, 1, __ATOMIC_SEQ_CST); \
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}
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ATOMIC_INC(8, uint8_t)
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ATOMIC_INC(uchar, uchar_t)
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ATOMIC_INC(16, uint16_t)
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ATOMIC_INC(ushort, ushort_t)
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ATOMIC_INC(32, uint32_t)
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ATOMIC_INC(uint, uint_t)
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ATOMIC_INC(ulong, ulong_t)
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ATOMIC_INC(64, uint64_t)
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#define ATOMIC_DEC(name, type) \
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void atomic_dec_##name(volatile type *target) \
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{ \
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(void) __atomic_sub_fetch(target, 1, __ATOMIC_SEQ_CST); \
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}
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ATOMIC_DEC(8, uint8_t)
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ATOMIC_DEC(uchar, uchar_t)
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ATOMIC_DEC(16, uint16_t)
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ATOMIC_DEC(ushort, ushort_t)
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ATOMIC_DEC(32, uint32_t)
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ATOMIC_DEC(uint, uint_t)
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ATOMIC_DEC(ulong, ulong_t)
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ATOMIC_DEC(64, uint64_t)
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#define ATOMIC_ADD(name, type1, type2) \
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void atomic_add_##name(volatile type1 *target, type2 bits) \
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{ \
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(void) __atomic_add_fetch(target, bits, __ATOMIC_SEQ_CST); \
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}
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ATOMIC_ADD(8, uint8_t, int8_t)
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ATOMIC_ADD(char, uchar_t, signed char)
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ATOMIC_ADD(16, uint16_t, int16_t)
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ATOMIC_ADD(short, ushort_t, short)
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ATOMIC_ADD(32, uint32_t, int32_t)
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ATOMIC_ADD(int, uint_t, int)
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ATOMIC_ADD(long, ulong_t, long)
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ATOMIC_ADD(64, uint64_t, int64_t)
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void
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atomic_add_ptr(volatile void *target, ssize_t bits)
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{
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(void) __atomic_add_fetch((void **)target, bits, __ATOMIC_SEQ_CST);
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}
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#define ATOMIC_SUB(name, type1, type2) \
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void atomic_sub_##name(volatile type1 *target, type2 bits) \
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{ \
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(void) __atomic_sub_fetch(target, bits, __ATOMIC_SEQ_CST); \
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}
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ATOMIC_SUB(8, uint8_t, int8_t)
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ATOMIC_SUB(char, uchar_t, signed char)
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ATOMIC_SUB(16, uint16_t, int16_t)
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ATOMIC_SUB(short, ushort_t, short)
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ATOMIC_SUB(32, uint32_t, int32_t)
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ATOMIC_SUB(int, uint_t, int)
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ATOMIC_SUB(long, ulong_t, long)
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ATOMIC_SUB(64, uint64_t, int64_t)
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void
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atomic_sub_ptr(volatile void *target, ssize_t bits)
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{
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(void) __atomic_sub_fetch((void **)target, bits, __ATOMIC_SEQ_CST);
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}
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#define ATOMIC_OR(name, type) \
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void atomic_or_##name(volatile type *target, type bits) \
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{ \
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(void) __atomic_or_fetch(target, bits, __ATOMIC_SEQ_CST); \
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}
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ATOMIC_OR(8, uint8_t)
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ATOMIC_OR(uchar, uchar_t)
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ATOMIC_OR(16, uint16_t)
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ATOMIC_OR(ushort, ushort_t)
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ATOMIC_OR(32, uint32_t)
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ATOMIC_OR(uint, uint_t)
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ATOMIC_OR(ulong, ulong_t)
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ATOMIC_OR(64, uint64_t)
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#define ATOMIC_AND(name, type) \
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void atomic_and_##name(volatile type *target, type bits) \
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{ \
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(void) __atomic_and_fetch(target, bits, __ATOMIC_SEQ_CST); \
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}
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ATOMIC_AND(8, uint8_t)
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ATOMIC_AND(uchar, uchar_t)
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ATOMIC_AND(16, uint16_t)
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ATOMIC_AND(ushort, ushort_t)
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ATOMIC_AND(32, uint32_t)
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ATOMIC_AND(uint, uint_t)
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ATOMIC_AND(ulong, ulong_t)
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ATOMIC_AND(64, uint64_t)
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/*
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* New value returning variants
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*/
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#define ATOMIC_INC_NV(name, type) \
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type atomic_inc_##name##_nv(volatile type *target) \
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{ \
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return (__atomic_add_fetch(target, 1, __ATOMIC_SEQ_CST)); \
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}
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ATOMIC_INC_NV(8, uint8_t)
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ATOMIC_INC_NV(uchar, uchar_t)
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ATOMIC_INC_NV(16, uint16_t)
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ATOMIC_INC_NV(ushort, ushort_t)
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ATOMIC_INC_NV(32, uint32_t)
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ATOMIC_INC_NV(uint, uint_t)
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ATOMIC_INC_NV(ulong, ulong_t)
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ATOMIC_INC_NV(64, uint64_t)
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#define ATOMIC_DEC_NV(name, type) \
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type atomic_dec_##name##_nv(volatile type *target) \
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{ \
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return (__atomic_sub_fetch(target, 1, __ATOMIC_SEQ_CST)); \
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}
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ATOMIC_DEC_NV(8, uint8_t)
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ATOMIC_DEC_NV(uchar, uchar_t)
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ATOMIC_DEC_NV(16, uint16_t)
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ATOMIC_DEC_NV(ushort, ushort_t)
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ATOMIC_DEC_NV(32, uint32_t)
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ATOMIC_DEC_NV(uint, uint_t)
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ATOMIC_DEC_NV(ulong, ulong_t)
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ATOMIC_DEC_NV(64, uint64_t)
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#define ATOMIC_ADD_NV(name, type1, type2) \
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type1 atomic_add_##name##_nv(volatile type1 *target, type2 bits) \
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{ \
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return (__atomic_add_fetch(target, bits, __ATOMIC_SEQ_CST)); \
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}
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ATOMIC_ADD_NV(8, uint8_t, int8_t)
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ATOMIC_ADD_NV(char, uchar_t, signed char)
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ATOMIC_ADD_NV(16, uint16_t, int16_t)
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ATOMIC_ADD_NV(short, ushort_t, short)
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ATOMIC_ADD_NV(32, uint32_t, int32_t)
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ATOMIC_ADD_NV(int, uint_t, int)
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ATOMIC_ADD_NV(long, ulong_t, long)
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ATOMIC_ADD_NV(64, uint64_t, int64_t)
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void *
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atomic_add_ptr_nv(volatile void *target, ssize_t bits)
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{
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return (__atomic_add_fetch((void **)target, bits, __ATOMIC_SEQ_CST));
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}
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#define ATOMIC_SUB_NV(name, type1, type2) \
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type1 atomic_sub_##name##_nv(volatile type1 *target, type2 bits) \
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{ \
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return (__atomic_sub_fetch(target, bits, __ATOMIC_SEQ_CST)); \
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}
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ATOMIC_SUB_NV(8, uint8_t, int8_t)
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ATOMIC_SUB_NV(char, uchar_t, signed char)
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ATOMIC_SUB_NV(16, uint16_t, int16_t)
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ATOMIC_SUB_NV(short, ushort_t, short)
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ATOMIC_SUB_NV(32, uint32_t, int32_t)
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ATOMIC_SUB_NV(int, uint_t, int)
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ATOMIC_SUB_NV(long, ulong_t, long)
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ATOMIC_SUB_NV(64, uint64_t, int64_t)
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void *
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atomic_sub_ptr_nv(volatile void *target, ssize_t bits)
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{
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return (__atomic_sub_fetch((void **)target, bits, __ATOMIC_SEQ_CST));
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}
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#define ATOMIC_OR_NV(name, type) \
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type atomic_or_##name##_nv(volatile type *target, type bits) \
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{ \
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return (__atomic_or_fetch(target, bits, __ATOMIC_SEQ_CST)); \
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}
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ATOMIC_OR_NV(8, uint8_t)
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ATOMIC_OR_NV(uchar, uchar_t)
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ATOMIC_OR_NV(16, uint16_t)
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ATOMIC_OR_NV(ushort, ushort_t)
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ATOMIC_OR_NV(32, uint32_t)
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ATOMIC_OR_NV(uint, uint_t)
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ATOMIC_OR_NV(ulong, ulong_t)
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ATOMIC_OR_NV(64, uint64_t)
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#define ATOMIC_AND_NV(name, type) \
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type atomic_and_##name##_nv(volatile type *target, type bits) \
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{ \
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return (__atomic_and_fetch(target, bits, __ATOMIC_SEQ_CST)); \
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}
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ATOMIC_AND_NV(8, uint8_t)
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ATOMIC_AND_NV(uchar, uchar_t)
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ATOMIC_AND_NV(16, uint16_t)
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ATOMIC_AND_NV(ushort, ushort_t)
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ATOMIC_AND_NV(32, uint32_t)
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ATOMIC_AND_NV(uint, uint_t)
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ATOMIC_AND_NV(ulong, ulong_t)
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ATOMIC_AND_NV(64, uint64_t)
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/*
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* If *tgt == exp, set *tgt = des; return old value
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*
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* This may not look right on the first pass (or the sixteenth), but,
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* from https://gcc.gnu.org/onlinedocs/gcc/_005f_005fatomic-Builtins.html:
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* > If they are not equal, the operation is a read
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* > and the current contents of *ptr are written into *expected.
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* And, in the converse case, exp is already *target by definition.
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*/
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#define ATOMIC_CAS(name, type) \
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type atomic_cas_##name(volatile type *target, type exp, type des) \
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{ \
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__atomic_compare_exchange_n(target, &exp, des, B_FALSE, \
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__ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST); \
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return (exp); \
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}
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ATOMIC_CAS(8, uint8_t)
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ATOMIC_CAS(uchar, uchar_t)
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ATOMIC_CAS(16, uint16_t)
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ATOMIC_CAS(ushort, ushort_t)
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ATOMIC_CAS(32, uint32_t)
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ATOMIC_CAS(uint, uint_t)
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ATOMIC_CAS(ulong, ulong_t)
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ATOMIC_CAS(64, uint64_t)
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void *
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atomic_cas_ptr(volatile void *target, void *exp, void *des)
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{
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__atomic_compare_exchange_n((void **)target, &exp, des, B_FALSE,
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__ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST);
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return (exp);
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}
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/*
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* Swap target and return old value
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*/
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#define ATOMIC_SWAP(name, type) \
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type atomic_swap_##name(volatile type *target, type bits) \
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{ \
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return (__atomic_exchange_n(target, bits, __ATOMIC_SEQ_CST)); \
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}
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ATOMIC_SWAP(8, uint8_t)
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ATOMIC_SWAP(uchar, uchar_t)
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ATOMIC_SWAP(16, uint16_t)
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ATOMIC_SWAP(ushort, ushort_t)
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ATOMIC_SWAP(32, uint32_t)
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ATOMIC_SWAP(uint, uint_t)
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ATOMIC_SWAP(ulong, ulong_t)
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ATOMIC_SWAP(64, uint64_t)
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/* END CSTYLED */
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void *
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atomic_swap_ptr(volatile void *target, void *bits)
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{
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return (__atomic_exchange_n((void **)target, bits, __ATOMIC_SEQ_CST));
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}
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#ifndef _LP64
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uint64_t
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atomic_load_64(volatile uint64_t *target)
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{
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return (__atomic_load_n(target, __ATOMIC_RELAXED));
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}
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void
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atomic_store_64(volatile uint64_t *target, uint64_t bits)
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{
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return (__atomic_store_n(target, bits, __ATOMIC_RELAXED));
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}
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#endif
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int
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atomic_set_long_excl(volatile ulong_t *target, uint_t value)
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{
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ulong_t bit = 1UL << value;
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ulong_t old = __atomic_fetch_or(target, bit, __ATOMIC_SEQ_CST);
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return ((old & bit) ? -1 : 0);
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}
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int
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atomic_clear_long_excl(volatile ulong_t *target, uint_t value)
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{
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ulong_t bit = 1UL << value;
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ulong_t old = __atomic_fetch_and(target, ~bit, __ATOMIC_SEQ_CST);
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return ((old & bit) ? 0 : -1);
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}
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void
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membar_enter(void)
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{
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__atomic_thread_fence(__ATOMIC_SEQ_CST);
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}
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void
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membar_exit(void)
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{
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__atomic_thread_fence(__ATOMIC_SEQ_CST);
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}
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void
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membar_producer(void)
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{
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__atomic_thread_fence(__ATOMIC_RELEASE);
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}
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void
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membar_consumer(void)
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{
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__atomic_thread_fence(__ATOMIC_ACQUIRE);
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}
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