atomic.S revision 1.9
1 1.9 ad /* $NetBSD: atomic.S,v 1.9 2008/02/10 13:25:46 ad Exp $ */ 2 1.1 ad 3 1.1 ad /*- 4 1.1 ad * Copyright (c) 2007 The NetBSD Foundation, Inc. 5 1.1 ad * All rights reserved. 6 1.1 ad * 7 1.1 ad * This code is derived from software contributed to The NetBSD Foundation 8 1.1 ad * by Jason R. Thorpe, and by Andrew Doran. 9 1.1 ad * 10 1.1 ad * Redistribution and use in source and binary forms, with or without 11 1.1 ad * modification, are permitted provided that the following conditions 12 1.1 ad * are met: 13 1.1 ad * 1. Redistributions of source code must retain the above copyright 14 1.1 ad * notice, this list of conditions and the following disclaimer. 15 1.1 ad * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 ad * notice, this list of conditions and the following disclaimer in the 17 1.1 ad * documentation and/or other materials provided with the distribution. 18 1.1 ad * 3. All advertising materials mentioning features or use of this software 19 1.1 ad * must display the following acknowledgement: 20 1.1 ad * This product includes software developed by the NetBSD 21 1.1 ad * Foundation, Inc. and its contributors. 22 1.1 ad * 4. Neither the name of The NetBSD Foundation nor the names of its 23 1.1 ad * contributors may be used to endorse or promote products derived 24 1.1 ad * from this software without specific prior written permission. 25 1.1 ad * 26 1.1 ad * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 27 1.1 ad * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 28 1.1 ad * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 29 1.1 ad * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 30 1.1 ad * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 31 1.1 ad * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 32 1.1 ad * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 33 1.1 ad * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 34 1.1 ad * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 35 1.1 ad * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 36 1.1 ad * POSSIBILITY OF SUCH DAMAGE. 37 1.1 ad */ 38 1.1 ad 39 1.1 ad #include <machine/asm.h> 40 1.1 ad 41 1.1 ad #ifdef _KERNEL 42 1.1 ad #define LOCK(n) .Lpatch/**/n: lock 43 1.1 ad #define ALIAS(f, t) STRONG_ALIAS(f,t) 44 1.2 ad #define END(a) _ALIGN_TEXT; LABEL(a) 45 1.1 ad #else 46 1.1 ad #define LOCK(n) lock 47 1.1 ad #define ALIAS(f, t) WEAK_ALIAS(f,t) 48 1.2 ad #define END(a) /* nothing */ 49 1.1 ad #endif 50 1.1 ad 51 1.1 ad .text 52 1.1 ad 53 1.1 ad /* 32-bit */ 54 1.1 ad 55 1.1 ad NENTRY(_atomic_add_32) 56 1.1 ad LOCK(1) 57 1.1 ad addl %esi, (%rdi) 58 1.1 ad ret 59 1.1 ad 60 1.1 ad NENTRY(_atomic_add_32_nv) 61 1.1 ad movl %esi, %eax 62 1.1 ad LOCK(2) 63 1.1 ad xaddl %eax, (%rdi) 64 1.1 ad addl %esi, %eax 65 1.1 ad ret 66 1.1 ad 67 1.1 ad NENTRY(_atomic_and_32) 68 1.1 ad LOCK(3) 69 1.1 ad andl %esi, (%rdi) 70 1.1 ad ret 71 1.1 ad 72 1.1 ad NENTRY(_atomic_and_32_nv) 73 1.1 ad movl (%rdi), %eax 74 1.1 ad 1: 75 1.1 ad movl %eax, %ecx 76 1.1 ad andl %esi, %ecx 77 1.1 ad LOCK(4) 78 1.1 ad cmpxchgl %ecx, (%rdi) 79 1.1 ad jnz 1b 80 1.1 ad movl %ecx, %eax 81 1.1 ad ret 82 1.1 ad 83 1.1 ad NENTRY(_atomic_dec_32) 84 1.1 ad LOCK(5) 85 1.1 ad decl (%rdi) 86 1.1 ad ret 87 1.1 ad 88 1.1 ad NENTRY(_atomic_dec_32_nv) 89 1.1 ad movl $-1, %eax 90 1.1 ad LOCK(6) 91 1.1 ad xaddl %eax, (%rdi) 92 1.1 ad decl %eax 93 1.1 ad ret 94 1.1 ad 95 1.1 ad NENTRY(_atomic_inc_32) 96 1.1 ad LOCK(7) 97 1.1 ad incl (%rdi) 98 1.1 ad ret 99 1.1 ad 100 1.1 ad NENTRY(_atomic_inc_32_nv) 101 1.1 ad movl $1, %eax 102 1.1 ad LOCK(8) 103 1.1 ad xaddl %eax, (%rdi) 104 1.1 ad incl %eax 105 1.1 ad ret 106 1.1 ad 107 1.1 ad NENTRY(_atomic_or_32) 108 1.1 ad LOCK(9) 109 1.1 ad orl %esi, (%rdi) 110 1.1 ad ret 111 1.1 ad 112 1.1 ad NENTRY(_atomic_or_32_nv) 113 1.1 ad movl (%rdi), %eax 114 1.1 ad 1: 115 1.1 ad movl %eax, %ecx 116 1.1 ad orl %esi, %ecx 117 1.1 ad LOCK(10) 118 1.1 ad cmpxchgl %ecx, (%rdi) 119 1.1 ad jnz 1b 120 1.1 ad movl %ecx, %eax 121 1.1 ad ret 122 1.1 ad 123 1.1 ad NENTRY(_atomic_swap_32) 124 1.5 ad movl %esi, %eax 125 1.5 ad xchgl %eax, (%rdi) 126 1.1 ad ret 127 1.1 ad 128 1.1 ad NENTRY(_atomic_cas_32) 129 1.1 ad movl %esi, %eax 130 1.1 ad LOCK(12) 131 1.1 ad cmpxchgl %edx, (%rdi) 132 1.1 ad /* %eax now contains the old value */ 133 1.1 ad ret 134 1.1 ad 135 1.9 ad NENTRY(_atomic_cas_32_ni) 136 1.9 ad movl %esi, %eax 137 1.9 ad cmpxchgl %edx, (%rdi) 138 1.9 ad /* %eax now contains the old value */ 139 1.9 ad ret 140 1.9 ad 141 1.1 ad /* 64-bit */ 142 1.1 ad 143 1.1 ad NENTRY(_atomic_add_64) 144 1.1 ad LOCK(13) 145 1.1 ad addq %rsi, (%rdi) 146 1.1 ad ret 147 1.1 ad 148 1.1 ad NENTRY(_atomic_add_64_nv) 149 1.1 ad movq %rsi, %rax 150 1.1 ad LOCK(14) 151 1.1 ad xaddq %rax, (%rdi) 152 1.1 ad addq %rsi, %rax 153 1.1 ad ret 154 1.1 ad 155 1.1 ad NENTRY(_atomic_and_64) 156 1.1 ad LOCK(15) 157 1.1 ad andq %rsi, (%rdi) 158 1.1 ad ret 159 1.1 ad 160 1.1 ad NENTRY(_atomic_and_64_nv) 161 1.1 ad movq (%rdi), %rax 162 1.1 ad 1: 163 1.1 ad movq %rax, %rcx 164 1.1 ad andq %rsi, %rcx 165 1.1 ad LOCK(16) 166 1.1 ad cmpxchgq %rcx, (%rdi) 167 1.1 ad jnz 1b 168 1.1 ad movq %rcx, %rax 169 1.1 ad ret 170 1.1 ad 171 1.1 ad NENTRY(_atomic_dec_64) 172 1.1 ad LOCK(17) 173 1.1 ad decq (%rdi) 174 1.1 ad ret 175 1.1 ad 176 1.1 ad NENTRY(_atomic_dec_64_nv) 177 1.1 ad movq $-1, %rax 178 1.1 ad LOCK(18) 179 1.1 ad xaddq %rax, (%rdi) 180 1.1 ad decq %rax 181 1.1 ad ret 182 1.1 ad 183 1.1 ad NENTRY(_atomic_inc_64) 184 1.1 ad LOCK(19) 185 1.1 ad incq (%rdi) 186 1.1 ad ret 187 1.1 ad 188 1.1 ad NENTRY(_atomic_inc_64_nv) 189 1.1 ad movq $1, %rax 190 1.1 ad LOCK(20) 191 1.1 ad xaddq %rax, (%rdi) 192 1.1 ad incq %rax 193 1.1 ad ret 194 1.1 ad 195 1.1 ad NENTRY(_atomic_or_64) 196 1.1 ad LOCK(21) 197 1.1 ad orq %rsi, (%rdi) 198 1.1 ad ret 199 1.1 ad 200 1.1 ad NENTRY(_atomic_or_64_nv) 201 1.1 ad movq (%rdi), %rax 202 1.1 ad 1: 203 1.1 ad movq %rax, %rcx 204 1.1 ad orq %rsi, %rcx 205 1.1 ad LOCK(22) 206 1.1 ad cmpxchgq %rcx, (%rdi) 207 1.1 ad jnz 1b 208 1.1 ad movq %rcx, %rax 209 1.1 ad ret 210 1.1 ad 211 1.1 ad NENTRY(_atomic_swap_64) 212 1.5 ad movq %rsi, %rax 213 1.5 ad xchgq %rax, (%rdi) 214 1.1 ad ret 215 1.1 ad 216 1.1 ad NENTRY(_atomic_cas_64) 217 1.1 ad movq %rsi, %rax 218 1.1 ad LOCK(24) 219 1.7 ad cmpxchgq %rdx, (%rdi) 220 1.1 ad /* %eax now contains the old value */ 221 1.1 ad ret 222 1.1 ad 223 1.9 ad NENTRY(_atomic_cas_64_ni) 224 1.9 ad movq %rsi, %rax 225 1.9 ad cmpxchgq %rdx, (%rdi) 226 1.9 ad /* %eax now contains the old value */ 227 1.9 ad ret 228 1.9 ad 229 1.1 ad /* memory barriers */ 230 1.1 ad 231 1.1 ad NENTRY(_membar_consumer) 232 1.1 ad LOCK(25) 233 1.1 ad addq $0, -8(%rsp) 234 1.1 ad ret 235 1.2 ad END(membar_consumer_end) 236 1.1 ad 237 1.1 ad NENTRY(_membar_producer) 238 1.1 ad /* A store is enough */ 239 1.1 ad movq $0, -8(%rsp) 240 1.1 ad ret 241 1.2 ad END(membar_producer_end) 242 1.1 ad 243 1.1 ad NENTRY(_membar_sync) 244 1.1 ad LOCK(26) 245 1.1 ad addq $0, -8(%rsp) 246 1.1 ad ret 247 1.2 ad END(membar_sync_end) 248 1.1 ad 249 1.1 ad #ifdef _KERNEL 250 1.1 ad NENTRY(sse2_lfence) 251 1.1 ad lfence 252 1.1 ad ret 253 1.2 ad END(sse2_lfence_end) 254 1.1 ad 255 1.1 ad NENTRY(sse2_mfence) 256 1.1 ad mfence 257 1.1 ad ret 258 1.2 ad END(sse2_mfence_end) 259 1.1 ad 260 1.1 ad atomic_lockpatch: 261 1.1 ad .globl atomic_lockpatch 262 1.2 ad .quad .Lpatch1, .Lpatch2, .Lpatch3, .Lpatch4, .Lpatch5 263 1.2 ad .quad .Lpatch6, .Lpatch7, .Lpatch8, .Lpatch9, .Lpatch10 264 1.3 ad .quad .Lpatch12, .Lpatch13, .Lpatch14, .Lpatch15 265 1.2 ad .quad .Lpatch16, .Lpatch17, .Lpatch18, .Lpatch19, .Lpatch20 266 1.3 ad .quad .Lpatch21, .Lpatch22, .Lpatch24, .Lpatch25 267 1.2 ad .quad .Lpatch26, 0 268 1.1 ad #endif /* _KERNEL */ 269 1.1 ad 270 1.1 ad ALIAS(atomic_add_32,_atomic_add_32) 271 1.1 ad ALIAS(atomic_add_64,_atomic_add_64) 272 1.4 ad ALIAS(atomic_add_int,_atomic_add_32) 273 1.4 ad ALIAS(atomic_add_long,_atomic_add_64) 274 1.1 ad ALIAS(atomic_add_ptr,_atomic_add_64) 275 1.1 ad 276 1.1 ad ALIAS(atomic_add_32_nv,_atomic_add_32_nv) 277 1.1 ad ALIAS(atomic_add_64_nv,_atomic_add_64_nv) 278 1.4 ad ALIAS(atomic_add_int_nv,_atomic_add_32_nv) 279 1.4 ad ALIAS(atomic_add_long_nv,_atomic_add_64_nv) 280 1.1 ad ALIAS(atomic_add_ptr_nv,_atomic_add_64_nv) 281 1.1 ad 282 1.1 ad ALIAS(atomic_and_32,_atomic_and_32) 283 1.1 ad ALIAS(atomic_and_64,_atomic_and_64) 284 1.1 ad ALIAS(atomic_and_uint,_atomic_and_32) 285 1.1 ad ALIAS(atomic_and_ulong,_atomic_and_64) 286 1.1 ad ALIAS(atomic_and_ptr,_atomic_and_64) 287 1.1 ad 288 1.1 ad ALIAS(atomic_and_32_nv,_atomic_and_32_nv) 289 1.1 ad ALIAS(atomic_and_64_nv,_atomic_and_64_nv) 290 1.1 ad ALIAS(atomic_and_uint_nv,_atomic_and_32_nv) 291 1.1 ad ALIAS(atomic_and_ulong_nv,_atomic_and_64_nv) 292 1.1 ad ALIAS(atomic_and_ptr_nv,_atomic_and_64_nv) 293 1.1 ad 294 1.1 ad ALIAS(atomic_dec_32,_atomic_dec_32) 295 1.1 ad ALIAS(atomic_dec_64,_atomic_dec_64) 296 1.1 ad ALIAS(atomic_dec_uint,_atomic_dec_32) 297 1.1 ad ALIAS(atomic_dec_ulong,_atomic_dec_64) 298 1.1 ad ALIAS(atomic_dec_ptr,_atomic_dec_64) 299 1.1 ad 300 1.1 ad ALIAS(atomic_dec_32_nv,_atomic_dec_32_nv) 301 1.1 ad ALIAS(atomic_dec_64_nv,_atomic_dec_64_nv) 302 1.1 ad ALIAS(atomic_dec_uint_nv,_atomic_dec_32_nv) 303 1.1 ad ALIAS(atomic_dec_ulong_nv,_atomic_dec_64_nv) 304 1.1 ad ALIAS(atomic_dec_ptr_nv,_atomic_dec_64_nv) 305 1.1 ad 306 1.1 ad ALIAS(atomic_inc_32,_atomic_inc_32) 307 1.1 ad ALIAS(atomic_inc_64,_atomic_inc_64) 308 1.1 ad ALIAS(atomic_inc_uint,_atomic_inc_32) 309 1.1 ad ALIAS(atomic_inc_ulong,_atomic_inc_64) 310 1.1 ad ALIAS(atomic_inc_ptr,_atomic_inc_64) 311 1.1 ad 312 1.1 ad ALIAS(atomic_inc_32_nv,_atomic_inc_32_nv) 313 1.1 ad ALIAS(atomic_inc_64_nv,_atomic_inc_64_nv) 314 1.1 ad ALIAS(atomic_inc_uint_nv,_atomic_inc_32_nv) 315 1.1 ad ALIAS(atomic_inc_ulong_nv,_atomic_inc_64_nv) 316 1.1 ad ALIAS(atomic_inc_ptr_nv,_atomic_inc_64_nv) 317 1.1 ad 318 1.1 ad ALIAS(atomic_or_32,_atomic_or_32) 319 1.1 ad ALIAS(atomic_or_uint,_atomic_or_32) 320 1.1 ad ALIAS(atomic_or_ulong,_atomic_or_64) 321 1.1 ad ALIAS(atomic_or_ptr,_atomic_or_64) 322 1.1 ad 323 1.1 ad ALIAS(atomic_or_32_nv,_atomic_or_32_nv) 324 1.1 ad ALIAS(atomic_or_64_nv,_atomic_or_64_nv) 325 1.1 ad ALIAS(atomic_or_uint_nv,_atomic_or_32_nv) 326 1.1 ad ALIAS(atomic_or_ulong_nv,_atomic_or_64_nv) 327 1.1 ad ALIAS(atomic_or_ptr_nv,_atomic_or_64_nv) 328 1.1 ad 329 1.1 ad ALIAS(atomic_swap_32,_atomic_swap_32) 330 1.1 ad ALIAS(atomic_swap_64,_atomic_swap_64) 331 1.1 ad ALIAS(atomic_swap_uint,_atomic_swap_32) 332 1.1 ad ALIAS(atomic_swap_ulong,_atomic_swap_64) 333 1.1 ad ALIAS(atomic_swap_ptr,_atomic_swap_64) 334 1.1 ad 335 1.1 ad ALIAS(atomic_cas_32,_atomic_cas_32) 336 1.1 ad ALIAS(atomic_cas_64,_atomic_cas_64) 337 1.1 ad ALIAS(atomic_cas_uint,_atomic_cas_32) 338 1.1 ad ALIAS(atomic_cas_ulong,_atomic_cas_64) 339 1.1 ad ALIAS(atomic_cas_ptr,_atomic_cas_64) 340 1.1 ad 341 1.9 ad ALIAS(atomic_cas_32_ni,_atomic_cas_32_ni) 342 1.9 ad ALIAS(atomic_cas_64_ni,_atomic_cas_64_ni) 343 1.9 ad ALIAS(atomic_cas_uint_ni,_atomic_cas_32_ni) 344 1.9 ad ALIAS(atomic_cas_ulong_ni,_atomic_cas_64_ni) 345 1.9 ad ALIAS(atomic_cas_ptr_ni,_atomic_cas_64_ni) 346 1.9 ad 347 1.1 ad ALIAS(membar_consumer,_membar_consumer) 348 1.1 ad ALIAS(membar_producer,_membar_producer) 349 1.8 ad ALIAS(membar_enter,_membar_consumer) 350 1.8 ad ALIAS(membar_exit,_membar_producer) 351 1.1 ad ALIAS(membar_sync,_membar_sync) 352 1.6 ad 353 1.6 ad STRONG_ALIAS(_atomic_add_int,_atomic_add_32) 354 1.6 ad STRONG_ALIAS(_atomic_add_long,_atomic_add_64) 355 1.6 ad STRONG_ALIAS(_atomic_add_ptr,_atomic_add_64) 356 1.6 ad 357 1.6 ad STRONG_ALIAS(_atomic_add_int_nv,_atomic_add_32_nv) 358 1.6 ad STRONG_ALIAS(_atomic_add_long_nv,_atomic_add_64_nv) 359 1.6 ad STRONG_ALIAS(_atomic_add_ptr_nv,_atomic_add_64_nv) 360 1.6 ad 361 1.6 ad STRONG_ALIAS(_atomic_and_uint,_atomic_and_32) 362 1.6 ad STRONG_ALIAS(_atomic_and_ulong,_atomic_and_64) 363 1.6 ad STRONG_ALIAS(_atomic_and_ptr,_atomic_and_64) 364 1.6 ad 365 1.6 ad STRONG_ALIAS(_atomic_and_uint_nv,_atomic_and_32_nv) 366 1.6 ad STRONG_ALIAS(_atomic_and_ulong_nv,_atomic_and_64_nv) 367 1.6 ad STRONG_ALIAS(_atomic_and_ptr_nv,_atomic_and_64_nv) 368 1.6 ad 369 1.6 ad STRONG_ALIAS(_atomic_dec_uint,_atomic_dec_32) 370 1.6 ad STRONG_ALIAS(_atomic_dec_ulong,_atomic_dec_64) 371 1.6 ad STRONG_ALIAS(_atomic_dec_ptr,_atomic_dec_64) 372 1.6 ad 373 1.6 ad STRONG_ALIAS(_atomic_dec_uint_nv,_atomic_dec_32_nv) 374 1.6 ad STRONG_ALIAS(_atomic_dec_ulong_nv,_atomic_dec_64_nv) 375 1.6 ad STRONG_ALIAS(_atomic_dec_ptr_nv,_atomic_dec_64_nv) 376 1.6 ad 377 1.6 ad STRONG_ALIAS(_atomic_inc_uint,_atomic_inc_32) 378 1.6 ad STRONG_ALIAS(_atomic_inc_ulong,_atomic_inc_64) 379 1.6 ad STRONG_ALIAS(_atomic_inc_ptr,_atomic_inc_64) 380 1.6 ad 381 1.6 ad STRONG_ALIAS(_atomic_inc_uint_nv,_atomic_inc_32_nv) 382 1.6 ad STRONG_ALIAS(_atomic_inc_ulong_nv,_atomic_inc_64_nv) 383 1.6 ad STRONG_ALIAS(_atomic_inc_ptr_nv,_atomic_inc_64_nv) 384 1.6 ad 385 1.6 ad STRONG_ALIAS(_atomic_or_uint,_atomic_or_32) 386 1.6 ad STRONG_ALIAS(_atomic_or_ulong,_atomic_or_64) 387 1.6 ad STRONG_ALIAS(_atomic_or_ptr,_atomic_or_64) 388 1.6 ad 389 1.6 ad STRONG_ALIAS(_atomic_or_uint_nv,_atomic_or_32_nv) 390 1.6 ad STRONG_ALIAS(_atomic_or_ulong_nv,_atomic_or_64_nv) 391 1.6 ad STRONG_ALIAS(_atomic_or_ptr_nv,_atomic_or_64_nv) 392 1.6 ad 393 1.6 ad STRONG_ALIAS(_atomic_swap_uint,_atomic_swap_32) 394 1.6 ad STRONG_ALIAS(_atomic_swap_ulong,_atomic_swap_64) 395 1.6 ad STRONG_ALIAS(_atomic_swap_ptr,_atomic_swap_64) 396 1.6 ad 397 1.6 ad STRONG_ALIAS(_atomic_cas_uint,_atomic_cas_32) 398 1.6 ad STRONG_ALIAS(_atomic_cas_ulong,_atomic_cas_64) 399 1.6 ad STRONG_ALIAS(_atomic_cas_ptr,_atomic_cas_64) 400 1.8 ad 401 1.9 ad STRONG_ALIAS(_atomic_cas_uint_ni,_atomic_cas_32_ni) 402 1.9 ad STRONG_ALIAS(_atomic_cas_ulong_ni,_atomic_cas_64_ni) 403 1.9 ad STRONG_ALIAS(_atomic_cas_ptr_ni,_atomic_cas_64_ni) 404 1.9 ad 405 1.8 ad STRONG_ALIAS(_membar_enter,_membar_consumer) 406 1.8 ad STRONG_ALIAS(_membar_exit,_membar_producer) 407
Indexes created Tue Sep 30 07:10:03 GMT 2025