/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ .ident "%Z%%M% %I% %E% SMI" .file "%M%" #include #if defined(_KERNEL) /* * Legacy kernel interfaces; they will go away (eventually). */ ANSI_PRAGMA_WEAK2(cas8,atomic_cas_8,function) ANSI_PRAGMA_WEAK2(cas32,atomic_cas_32,function) ANSI_PRAGMA_WEAK2(cas64,atomic_cas_64,function) ANSI_PRAGMA_WEAK2(caslong,atomic_cas_ulong,function) ANSI_PRAGMA_WEAK2(casptr,atomic_cas_ptr,function) ANSI_PRAGMA_WEAK2(atomic_and_long,atomic_and_ulong,function) ANSI_PRAGMA_WEAK2(atomic_or_long,atomic_or_ulong,function) #else /* * Include the definitions for the libc weak aliases. */ #include "../atomic_asm_weak.h" #endif ENTRY(atomic_inc_8) ALTENTRY(atomic_inc_uchar) lock incb (%rdi) ret SET_SIZE(atomic_inc_uchar) SET_SIZE(atomic_inc_8) ENTRY(atomic_inc_16) ALTENTRY(atomic_inc_ushort) lock incw (%rdi) ret SET_SIZE(atomic_inc_ushort) SET_SIZE(atomic_inc_16) ENTRY(atomic_inc_32) ALTENTRY(atomic_inc_uint) lock incl (%rdi) ret SET_SIZE(atomic_inc_uint) SET_SIZE(atomic_inc_32) ENTRY(atomic_inc_64) ALTENTRY(atomic_inc_ulong) lock incq (%rdi) ret SET_SIZE(atomic_inc_ulong) SET_SIZE(atomic_inc_64) ENTRY(atomic_inc_8_nv) ALTENTRY(atomic_inc_uchar_nv) movb (%rdi), %al / %al = old value 1: leaq 1(%rax), %rcx / %cl = new value lock cmpxchgb %cl, (%rdi) / try to stick it in jne 1b movzbl %cl, %eax / return new value ret SET_SIZE(atomic_inc_uchar_nv) SET_SIZE(atomic_inc_8_nv) ENTRY(atomic_inc_16_nv) ALTENTRY(atomic_inc_ushort_nv) movw (%rdi), %ax / %ax = old value 1: leaq 1(%rax), %rcx / %cx = new value lock cmpxchgw %cx, (%rdi) / try to stick it in jne 1b movzwl %cx, %eax / return new value ret SET_SIZE(atomic_inc_ushort_nv) SET_SIZE(atomic_inc_16_nv) ENTRY(atomic_inc_32_nv) ALTENTRY(atomic_inc_uint_nv) movl (%rdi), %eax / %eax = old value 1: leaq 1(%rax), %rcx / %ecx = new value lock cmpxchgl %ecx, (%rdi) / try to stick it in jne 1b movl %ecx, %eax / return new value ret SET_SIZE(atomic_inc_uint_nv) SET_SIZE(atomic_inc_32_nv) ENTRY(atomic_inc_64_nv) ALTENTRY(atomic_inc_ulong_nv) movq (%rdi), %rax / %rax = old value 1: leaq 1(%rax), %rcx / %rcx = new value lock cmpxchgq %rcx, (%rdi) / try to stick it in jne 1b movq %rcx, %rax / return new value ret SET_SIZE(atomic_inc_ulong_nv) SET_SIZE(atomic_inc_64_nv) ENTRY(atomic_dec_8) ALTENTRY(atomic_dec_uchar) lock decb (%rdi) ret SET_SIZE(atomic_dec_uchar) SET_SIZE(atomic_dec_8) ENTRY(atomic_dec_16) ALTENTRY(atomic_dec_ushort) lock decw (%rdi) ret SET_SIZE(atomic_dec_ushort) SET_SIZE(atomic_dec_16) ENTRY(atomic_dec_32) ALTENTRY(atomic_dec_uint) lock decl (%rdi) ret SET_SIZE(atomic_dec_uint) SET_SIZE(atomic_dec_32) ENTRY(atomic_dec_64) ALTENTRY(atomic_dec_ulong) lock decq (%rdi) ret SET_SIZE(atomic_dec_ulong) SET_SIZE(atomic_dec_64) ENTRY(atomic_dec_8_nv) ALTENTRY(atomic_dec_uchar_nv) movb (%rdi), %al / %al = old value 1: leaq -1(%rax), %rcx / %cl = new value lock cmpxchgb %cl, (%rdi) / try to stick it in jne 1b movzbl %cl, %eax / return new value ret SET_SIZE(atomic_dec_uchar_nv) SET_SIZE(atomic_dec_8_nv) ENTRY(atomic_dec_16_nv) ALTENTRY(atomic_dec_ushort_nv) movw (%rdi), %ax / %ax = old value 1: leaq -1(%rax), %rcx / %cx = new value lock cmpxchgw %cx, (%rdi) / try to stick it in jne 1b movzwl %cx, %eax / return new value ret SET_SIZE(atomic_dec_ushort_nv) SET_SIZE(atomic_dec_16_nv) ENTRY(atomic_dec_32_nv) ALTENTRY(atomic_dec_uint_nv) movl (%rdi), %eax / %eax = old value 1: leaq -1(%rax), %rcx / %ecx = new value lock cmpxchgl %ecx, (%rdi) / try to stick it in jne 1b movl %ecx, %eax / return new value ret SET_SIZE(atomic_dec_uint_nv) SET_SIZE(atomic_dec_32_nv) ENTRY(atomic_dec_64_nv) ALTENTRY(atomic_dec_ulong_nv) movq (%rdi), %rax / %rax = old value 1: leaq -1(%rax), %rcx / %rcx = new value lock cmpxchgq %rcx, (%rdi) / try to stick it in jne 1b movq %rcx, %rax / return new value ret SET_SIZE(atomic_dec_ulong_nv) SET_SIZE(atomic_dec_64_nv) ENTRY(atomic_add_8) ALTENTRY(atomic_add_char) lock addb %sil, (%rdi) ret SET_SIZE(atomic_add_char) SET_SIZE(atomic_add_8) ENTRY(atomic_add_16) ALTENTRY(atomic_add_short) lock addw %si, (%rdi) ret SET_SIZE(atomic_add_short) SET_SIZE(atomic_add_16) ENTRY(atomic_add_32) ALTENTRY(atomic_add_int) lock addl %esi, (%rdi) ret SET_SIZE(atomic_add_int) SET_SIZE(atomic_add_32) ENTRY(atomic_add_64) ALTENTRY(atomic_add_ptr) ALTENTRY(atomic_add_long) lock addq %rsi, (%rdi) ret SET_SIZE(atomic_add_long) SET_SIZE(atomic_add_ptr) SET_SIZE(atomic_add_64) ENTRY(atomic_or_8) ALTENTRY(atomic_or_uchar) lock orb %sil, (%rdi) ret SET_SIZE(atomic_or_uchar) SET_SIZE(atomic_or_8) ENTRY(atomic_or_16) ALTENTRY(atomic_or_ushort) lock orw %si, (%rdi) ret SET_SIZE(atomic_or_ushort) SET_SIZE(atomic_or_16) ENTRY(atomic_or_32) ALTENTRY(atomic_or_uint) lock orl %esi, (%rdi) ret SET_SIZE(atomic_or_uint) SET_SIZE(atomic_or_32) ENTRY(atomic_or_64) ALTENTRY(atomic_or_ulong) lock orq %rsi, (%rdi) ret SET_SIZE(atomic_or_ulong) SET_SIZE(atomic_or_64) ENTRY(atomic_and_8) ALTENTRY(atomic_and_uchar) lock andb %sil, (%rdi) ret SET_SIZE(atomic_and_uchar) SET_SIZE(atomic_and_8) ENTRY(atomic_and_16) ALTENTRY(atomic_and_ushort) lock andw %si, (%rdi) ret SET_SIZE(atomic_and_ushort) SET_SIZE(atomic_and_16) ENTRY(atomic_and_32) ALTENTRY(atomic_and_uint) lock andl %esi, (%rdi) ret SET_SIZE(atomic_and_uint) SET_SIZE(atomic_and_32) ENTRY(atomic_and_64) ALTENTRY(atomic_and_ulong) lock andq %rsi, (%rdi) ret SET_SIZE(atomic_and_ulong) SET_SIZE(atomic_and_64) ENTRY(atomic_add_8_nv) ALTENTRY(atomic_add_char_nv) movb (%rdi), %al / %al = old value 1: movb %sil, %cl addb %al, %cl / %cl = new value lock cmpxchgb %cl, (%rdi) / try to stick it in jne 1b movzbl %cl, %eax / return new value ret SET_SIZE(atomic_add_char_nv) SET_SIZE(atomic_add_8_nv) ENTRY(atomic_add_16_nv) ALTENTRY(atomic_add_short_nv) movw (%rdi), %ax / %ax = old value 1: movw %si, %cx addw %ax, %cx / %cx = new value lock cmpxchgw %cx, (%rdi) / try to stick it in jne 1b movzwl %cx, %eax / return new value ret SET_SIZE(atomic_add_short_nv) SET_SIZE(atomic_add_16_nv) ENTRY(atomic_add_32_nv) ALTENTRY(atomic_add_int_nv) movl (%rdi), %eax 1: movl %esi, %ecx addl %eax, %ecx lock cmpxchgl %ecx, (%rdi) jne 1b movl %ecx, %eax ret SET_SIZE(atomic_add_int_nv) SET_SIZE(atomic_add_32_nv) ENTRY(atomic_add_64_nv) ALTENTRY(atomic_add_ptr_nv) ALTENTRY(atomic_add_long_nv) movq (%rdi), %rax 1: movq %rsi, %rcx addq %rax, %rcx lock cmpxchgq %rcx, (%rdi) jne 1b movq %rcx, %rax ret SET_SIZE(atomic_add_long_nv) SET_SIZE(atomic_add_ptr_nv) SET_SIZE(atomic_add_64_nv) ENTRY(atomic_and_8_nv) ALTENTRY(atomic_and_uchar_nv) movb (%rdi), %al / %al = old value 1: movb %sil, %cl andb %al, %cl / %cl = new value lock cmpxchgb %cl, (%rdi) / try to stick it in jne 1b movzbl %cl, %eax / return new value ret SET_SIZE(atomic_and_uchar_nv) SET_SIZE(atomic_and_8_nv) ENTRY(atomic_and_16_nv) ALTENTRY(atomic_and_ushort_nv) movw (%rdi), %ax / %ax = old value 1: movw %si, %cx andw %ax, %cx / %cx = new value lock cmpxchgw %cx, (%rdi) / try to stick it in jne 1b movzwl %cx, %eax / return new value ret SET_SIZE(atomic_and_ushort_nv) SET_SIZE(atomic_and_16_nv) ENTRY(atomic_and_32_nv) ALTENTRY(atomic_and_uint_nv) movl (%rdi), %eax 1: movl %esi, %ecx andl %eax, %ecx lock cmpxchgl %ecx, (%rdi) jne 1b movl %ecx, %eax ret SET_SIZE(atomic_and_uint_nv) SET_SIZE(atomic_and_32_nv) ENTRY(atomic_and_64_nv) ALTENTRY(atomic_and_ulong_nv) movq (%rdi), %rax 1: movq %rsi, %rcx andq %rax, %rcx lock cmpxchgq %rcx, (%rdi) jne 1b movq %rcx, %rax ret SET_SIZE(atomic_and_ulong_nv) SET_SIZE(atomic_and_64_nv) ENTRY(atomic_or_8_nv) ALTENTRY(atomic_or_uchar_nv) movb (%rdi), %al / %al = old value 1: movb %sil, %cl orb %al, %cl / %cl = new value lock cmpxchgb %cl, (%rdi) / try to stick it in jne 1b movzbl %cl, %eax / return new value ret SET_SIZE(atomic_and_uchar_nv) SET_SIZE(atomic_and_8_nv) ENTRY(atomic_or_16_nv) ALTENTRY(atomic_or_ushort_nv) movw (%rdi), %ax / %ax = old value 1: movw %si, %cx orw %ax, %cx / %cx = new value lock cmpxchgw %cx, (%rdi) / try to stick it in jne 1b movzwl %cx, %eax / return new value ret SET_SIZE(atomic_or_ushort_nv) SET_SIZE(atomic_or_16_nv) ENTRY(atomic_or_32_nv) ALTENTRY(atomic_or_uint_nv) movl (%rdi), %eax 1: movl %esi, %ecx orl %eax, %ecx lock cmpxchgl %ecx, (%rdi) jne 1b movl %ecx, %eax ret SET_SIZE(atomic_or_uint_nv) SET_SIZE(atomic_or_32_nv) ENTRY(atomic_or_64_nv) ALTENTRY(atomic_or_ulong_nv) movq (%rdi), %rax 1: movq %rsi, %rcx orq %rax, %rcx lock cmpxchgq %rcx, (%rdi) jne 1b movq %rcx, %rax ret SET_SIZE(atomic_or_ulong_nv) SET_SIZE(atomic_or_64_nv) ENTRY(atomic_cas_8) ALTENTRY(atomic_cas_uchar) movzbl %sil, %eax lock cmpxchgb %dl, (%rdi) ret SET_SIZE(atomic_cas_uchar) SET_SIZE(atomic_cas_8) ENTRY(atomic_cas_16) ALTENTRY(atomic_cas_ushort) movzwl %si, %eax lock cmpxchgw %dx, (%rdi) ret SET_SIZE(atomic_cas_ushort) SET_SIZE(atomic_cas_16) ENTRY(atomic_cas_32) ALTENTRY(atomic_cas_uint) movl %esi, %eax lock cmpxchgl %edx, (%rdi) ret SET_SIZE(atomic_cas_uint) SET_SIZE(atomic_cas_32) ENTRY(atomic_cas_64) ALTENTRY(atomic_cas_ulong) ALTENTRY(atomic_cas_ptr) movq %rsi, %rax lock cmpxchgq %rdx, (%rdi) ret SET_SIZE(atomic_cas_ptr) SET_SIZE(atomic_cas_ulong) SET_SIZE(atomic_cas_64) ENTRY(atomic_swap_8) ALTENTRY(atomic_swap_uchar) movzbl %sil, %eax lock xchgb %al, (%rdi) ret SET_SIZE(atomic_swap_uchar) SET_SIZE(atomic_swap_8) ENTRY(atomic_swap_16) ALTENTRY(atomic_swap_ushort) movzwl %si, %eax lock xchgw %ax, (%rdi) ret SET_SIZE(atomic_swap_ushort) SET_SIZE(atomic_swap_16) ENTRY(atomic_swap_32) ALTENTRY(atomic_swap_uint) movl %esi, %eax lock xchgl %eax, (%rdi) ret SET_SIZE(atomic_swap_uint) SET_SIZE(atomic_swap_32) ENTRY(atomic_swap_64) ALTENTRY(atomic_swap_ulong) ALTENTRY(atomic_swap_ptr) movq %rsi, %rax lock xchgq %rax, (%rdi) ret SET_SIZE(atomic_swap_ptr) SET_SIZE(atomic_swap_ulong) SET_SIZE(atomic_swap_64) ENTRY(atomic_set_long_excl) xorl %eax, %eax lock btsq %rsi, (%rdi) jnc 1f decl %eax / return -1 1: ret SET_SIZE(atomic_set_long_excl) ENTRY(atomic_clear_long_excl) xorl %eax, %eax lock btrq %rsi, (%rdi) jc 1f decl %eax / return -1 1: ret SET_SIZE(atomic_clear_long_excl) #if !defined(_KERNEL) /* * NOTE: membar_enter, and membar_exit are identical routines. * We define them separately, instead of using an ALTENTRY * definitions to alias them together, so that DTrace and * debuggers will see a unique address for them, allowing * more accurate tracing. */ ENTRY(membar_enter) mfence ret SET_SIZE(membar_enter) ENTRY(membar_exit) mfence ret SET_SIZE(membar_exit) ENTRY(membar_producer) sfence ret SET_SIZE(membar_producer) ENTRY(membar_consumer) lfence ret SET_SIZE(membar_consumer) #endif /* !_KERNEL */