t_mutex.c revision 1.10
1 1.10 christos /* $NetBSD: t_mutex.c,v 1.10 2016/07/31 13:01:29 christos Exp $ */ 2 1.1 jmmv 3 1.1 jmmv /* 4 1.1 jmmv * Copyright (c) 2008 The NetBSD Foundation, Inc. 5 1.1 jmmv * All rights reserved. 6 1.1 jmmv * 7 1.1 jmmv * Redistribution and use in source and binary forms, with or without 8 1.1 jmmv * modification, are permitted provided that the following conditions 9 1.1 jmmv * are met: 10 1.1 jmmv * 1. Redistributions of source code must retain the above copyright 11 1.1 jmmv * notice, this list of conditions and the following disclaimer. 12 1.1 jmmv * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 jmmv * notice, this list of conditions and the following disclaimer in the 14 1.1 jmmv * documentation and/or other materials provided with the distribution. 15 1.1 jmmv * 16 1.1 jmmv * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 17 1.1 jmmv * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 18 1.1 jmmv * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 19 1.1 jmmv * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 20 1.1 jmmv * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 21 1.1 jmmv * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 22 1.1 jmmv * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 23 1.1 jmmv * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 24 1.1 jmmv * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 25 1.1 jmmv * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 26 1.1 jmmv * POSSIBILITY OF SUCH DAMAGE. 27 1.1 jmmv */ 28 1.1 jmmv 29 1.1 jmmv #include <sys/cdefs.h> 30 1.1 jmmv __COPYRIGHT("@(#) Copyright (c) 2008\ 31 1.1 jmmv The NetBSD Foundation, inc. All rights reserved."); 32 1.10 christos __RCSID("$NetBSD: t_mutex.c,v 1.10 2016/07/31 13:01:29 christos Exp $"); 33 1.1 jmmv 34 1.1 jmmv #include <pthread.h> 35 1.1 jmmv #include <stdio.h> 36 1.4 riz #include <string.h> 37 1.8 christos #include <errno.h> 38 1.1 jmmv #include <unistd.h> 39 1.8 christos #include <sys/sched.h> 40 1.8 christos #include <sys/param.h> 41 1.1 jmmv 42 1.1 jmmv #include <atf-c.h> 43 1.1 jmmv 44 1.1 jmmv #include "h_common.h" 45 1.1 jmmv 46 1.1 jmmv static pthread_mutex_t mutex; 47 1.3 jmmv static pthread_mutex_t static_mutex = PTHREAD_MUTEX_INITIALIZER; 48 1.1 jmmv static int global_x; 49 1.1 jmmv 50 1.1 jmmv static void * 51 1.1 jmmv mutex1_threadfunc(void *arg) 52 1.1 jmmv { 53 1.1 jmmv int *param; 54 1.1 jmmv 55 1.1 jmmv printf("2: Second thread.\n"); 56 1.1 jmmv 57 1.1 jmmv param = arg; 58 1.1 jmmv printf("2: Locking mutex\n"); 59 1.1 jmmv pthread_mutex_lock(&mutex); 60 1.1 jmmv printf("2: Got mutex. *param = %d\n", *param); 61 1.1 jmmv ATF_REQUIRE_EQ(*param, 20); 62 1.1 jmmv (*param)++; 63 1.1 jmmv 64 1.1 jmmv pthread_mutex_unlock(&mutex); 65 1.1 jmmv 66 1.1 jmmv return param; 67 1.1 jmmv } 68 1.1 jmmv 69 1.1 jmmv ATF_TC(mutex1); 70 1.1 jmmv ATF_TC_HEAD(mutex1, tc) 71 1.1 jmmv { 72 1.1 jmmv atf_tc_set_md_var(tc, "descr", "Checks mutexes"); 73 1.1 jmmv } 74 1.1 jmmv ATF_TC_BODY(mutex1, tc) 75 1.1 jmmv { 76 1.1 jmmv int x; 77 1.1 jmmv pthread_t new; 78 1.1 jmmv void *joinval; 79 1.1 jmmv 80 1.1 jmmv printf("1: Mutex-test 1\n"); 81 1.1 jmmv 82 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_init(&mutex, NULL)); 83 1.1 jmmv x = 1; 84 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&mutex)); 85 1.1 jmmv PTHREAD_REQUIRE(pthread_create(&new, NULL, mutex1_threadfunc, &x)); 86 1.1 jmmv printf("1: Before changing the value.\n"); 87 1.1 jmmv sleep(2); 88 1.1 jmmv x = 20; 89 1.1 jmmv printf("1: Before releasing the mutex.\n"); 90 1.1 jmmv sleep(2); 91 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_unlock(&mutex)); 92 1.1 jmmv printf("1: After releasing the mutex.\n"); 93 1.1 jmmv PTHREAD_REQUIRE(pthread_join(new, &joinval)); 94 1.1 jmmv 95 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&mutex)); 96 1.1 jmmv printf("1: Thread joined. X was %d. Return value (int) was %d\n", 97 1.1 jmmv x, *(int *)joinval); 98 1.1 jmmv ATF_REQUIRE_EQ(x, 21); 99 1.1 jmmv ATF_REQUIRE_EQ(*(int *)joinval, 21); 100 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_unlock(&mutex)); 101 1.1 jmmv } 102 1.1 jmmv 103 1.1 jmmv static void * 104 1.1 jmmv mutex2_threadfunc(void *arg) 105 1.1 jmmv { 106 1.1 jmmv long count = *(int *)arg; 107 1.1 jmmv 108 1.1 jmmv printf("2: Second thread (%p). Count is %ld\n", pthread_self(), count); 109 1.1 jmmv 110 1.1 jmmv while (count--) { 111 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&mutex)); 112 1.1 jmmv global_x++; 113 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_unlock(&mutex)); 114 1.1 jmmv } 115 1.1 jmmv 116 1.1 jmmv return (void *)count; 117 1.1 jmmv } 118 1.1 jmmv 119 1.1 jmmv ATF_TC(mutex2); 120 1.1 jmmv ATF_TC_HEAD(mutex2, tc) 121 1.1 jmmv { 122 1.1 jmmv atf_tc_set_md_var(tc, "descr", "Checks mutexes"); 123 1.6 jmmv #if defined(__powerpc__) 124 1.6 jmmv atf_tc_set_md_var(tc, "timeout", "40"); 125 1.6 jmmv #endif 126 1.1 jmmv } 127 1.1 jmmv ATF_TC_BODY(mutex2, tc) 128 1.1 jmmv { 129 1.1 jmmv int count, count2; 130 1.1 jmmv pthread_t new; 131 1.1 jmmv void *joinval; 132 1.1 jmmv 133 1.1 jmmv printf("1: Mutex-test 2\n"); 134 1.1 jmmv 135 1.6 jmmv #if defined(__powerpc__) 136 1.6 jmmv atf_tc_expect_timeout("PR port-powerpc/44387"); 137 1.6 jmmv #endif 138 1.4 riz 139 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_init(&mutex, NULL)); 140 1.4 riz 141 1.1 jmmv global_x = 0; 142 1.1 jmmv count = count2 = 10000000; 143 1.1 jmmv 144 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&mutex)); 145 1.1 jmmv PTHREAD_REQUIRE(pthread_create(&new, NULL, mutex2_threadfunc, &count2)); 146 1.1 jmmv 147 1.1 jmmv printf("1: Thread %p\n", pthread_self()); 148 1.1 jmmv 149 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_unlock(&mutex)); 150 1.1 jmmv 151 1.1 jmmv while (count--) { 152 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&mutex)); 153 1.1 jmmv global_x++; 154 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_unlock(&mutex)); 155 1.1 jmmv } 156 1.1 jmmv 157 1.1 jmmv PTHREAD_REQUIRE(pthread_join(new, &joinval)); 158 1.1 jmmv 159 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&mutex)); 160 1.1 jmmv printf("1: Thread joined. X was %d. Return value (long) was %ld\n", 161 1.1 jmmv global_x, (long)joinval); 162 1.1 jmmv ATF_REQUIRE_EQ(global_x, 20000000); 163 1.4 riz 164 1.6 jmmv #if defined(__powerpc__) 165 1.4 riz /* XXX force a timeout in ppc case since an un-triggered race 166 1.4 riz otherwise looks like a "failure" */ 167 1.6 jmmv /* We sleep for longer than the timeout to make ATF not 168 1.6 jmmv complain about unexpected success */ 169 1.6 jmmv sleep(41); 170 1.6 jmmv #endif 171 1.1 jmmv } 172 1.1 jmmv 173 1.1 jmmv static void * 174 1.1 jmmv mutex3_threadfunc(void *arg) 175 1.1 jmmv { 176 1.1 jmmv long count = *(int *)arg; 177 1.1 jmmv 178 1.1 jmmv printf("2: Second thread (%p). Count is %ld\n", pthread_self(), count); 179 1.1 jmmv 180 1.1 jmmv while (count--) { 181 1.3 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&static_mutex)); 182 1.1 jmmv global_x++; 183 1.3 jmmv PTHREAD_REQUIRE(pthread_mutex_unlock(&static_mutex)); 184 1.1 jmmv } 185 1.1 jmmv 186 1.1 jmmv return (void *)count; 187 1.1 jmmv } 188 1.1 jmmv 189 1.1 jmmv ATF_TC(mutex3); 190 1.1 jmmv ATF_TC_HEAD(mutex3, tc) 191 1.1 jmmv { 192 1.3 jmmv atf_tc_set_md_var(tc, "descr", "Checks mutexes using a static " 193 1.3 jmmv "initializer"); 194 1.6 jmmv #if defined(__powerpc__) 195 1.6 jmmv atf_tc_set_md_var(tc, "timeout", "40"); 196 1.6 jmmv #endif 197 1.1 jmmv } 198 1.1 jmmv ATF_TC_BODY(mutex3, tc) 199 1.1 jmmv { 200 1.1 jmmv int count, count2; 201 1.1 jmmv pthread_t new; 202 1.1 jmmv void *joinval; 203 1.1 jmmv 204 1.1 jmmv printf("1: Mutex-test 3\n"); 205 1.1 jmmv 206 1.6 jmmv #if defined(__powerpc__) 207 1.6 jmmv atf_tc_expect_timeout("PR port-powerpc/44387"); 208 1.6 jmmv #endif 209 1.4 riz 210 1.1 jmmv global_x = 0; 211 1.1 jmmv count = count2 = 10000000; 212 1.1 jmmv 213 1.3 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&static_mutex)); 214 1.1 jmmv PTHREAD_REQUIRE(pthread_create(&new, NULL, mutex3_threadfunc, &count2)); 215 1.1 jmmv 216 1.1 jmmv printf("1: Thread %p\n", pthread_self()); 217 1.3 jmmv 218 1.3 jmmv PTHREAD_REQUIRE(pthread_mutex_unlock(&static_mutex)); 219 1.1 jmmv 220 1.1 jmmv while (count--) { 221 1.3 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&static_mutex)); 222 1.1 jmmv global_x++; 223 1.3 jmmv PTHREAD_REQUIRE(pthread_mutex_unlock(&static_mutex)); 224 1.1 jmmv } 225 1.1 jmmv 226 1.1 jmmv PTHREAD_REQUIRE(pthread_join(new, &joinval)); 227 1.1 jmmv 228 1.3 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&static_mutex)); 229 1.1 jmmv printf("1: Thread joined. X was %d. Return value (long) was %ld\n", 230 1.1 jmmv global_x, (long)joinval); 231 1.1 jmmv ATF_REQUIRE_EQ(global_x, 20000000); 232 1.4 riz 233 1.6 jmmv #if defined(__powerpc__) 234 1.4 riz /* XXX force a timeout in ppc case since an un-triggered race 235 1.4 riz otherwise looks like a "failure" */ 236 1.6 jmmv /* We sleep for longer than the timeout to make ATF not 237 1.6 jmmv complain about unexpected success */ 238 1.6 jmmv sleep(41); 239 1.6 jmmv #endif 240 1.1 jmmv } 241 1.1 jmmv 242 1.1 jmmv static void * 243 1.1 jmmv mutex4_threadfunc(void *arg) 244 1.1 jmmv { 245 1.1 jmmv int *param; 246 1.1 jmmv 247 1.1 jmmv printf("2: Second thread.\n"); 248 1.1 jmmv 249 1.1 jmmv param = arg; 250 1.1 jmmv printf("2: Locking mutex\n"); 251 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&mutex)); 252 1.1 jmmv printf("2: Got mutex. *param = %d\n", *param); 253 1.1 jmmv (*param)++; 254 1.1 jmmv 255 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_unlock(&mutex)); 256 1.1 jmmv 257 1.1 jmmv return param; 258 1.1 jmmv } 259 1.1 jmmv 260 1.1 jmmv ATF_TC(mutex4); 261 1.1 jmmv ATF_TC_HEAD(mutex4, tc) 262 1.1 jmmv { 263 1.1 jmmv atf_tc_set_md_var(tc, "descr", "Checks mutexes"); 264 1.1 jmmv } 265 1.1 jmmv ATF_TC_BODY(mutex4, tc) 266 1.1 jmmv { 267 1.1 jmmv int x; 268 1.1 jmmv pthread_t new; 269 1.1 jmmv pthread_mutexattr_t mattr; 270 1.1 jmmv void *joinval; 271 1.1 jmmv 272 1.1 jmmv printf("1: Mutex-test 4\n"); 273 1.1 jmmv 274 1.1 jmmv PTHREAD_REQUIRE(pthread_mutexattr_init(&mattr)); 275 1.1 jmmv PTHREAD_REQUIRE(pthread_mutexattr_settype(&mattr, PTHREAD_MUTEX_RECURSIVE)); 276 1.1 jmmv 277 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_init(&mutex, &mattr)); 278 1.1 jmmv 279 1.1 jmmv PTHREAD_REQUIRE(pthread_mutexattr_destroy(&mattr)); 280 1.1 jmmv 281 1.1 jmmv x = 1; 282 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&mutex)); 283 1.1 jmmv PTHREAD_REQUIRE(pthread_create(&new, NULL, mutex4_threadfunc, &x)); 284 1.1 jmmv 285 1.1 jmmv printf("1: Before recursively acquiring the mutex.\n"); 286 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&mutex)); 287 1.1 jmmv 288 1.1 jmmv printf("1: Before releasing the mutex once.\n"); 289 1.1 jmmv sleep(2); 290 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_unlock(&mutex)); 291 1.1 jmmv printf("1: After releasing the mutex once.\n"); 292 1.1 jmmv 293 1.1 jmmv x = 20; 294 1.1 jmmv 295 1.1 jmmv printf("1: Before releasing the mutex twice.\n"); 296 1.1 jmmv sleep(2); 297 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_unlock(&mutex)); 298 1.1 jmmv printf("1: After releasing the mutex twice.\n"); 299 1.1 jmmv 300 1.1 jmmv PTHREAD_REQUIRE(pthread_join(new, &joinval)); 301 1.1 jmmv 302 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_lock(&mutex)); 303 1.1 jmmv printf("1: Thread joined. X was %d. Return value (int) was %d\n", 304 1.1 jmmv x, *(int *)joinval); 305 1.1 jmmv ATF_REQUIRE_EQ(x, 21); 306 1.1 jmmv ATF_REQUIRE_EQ(*(int *)joinval, 21); 307 1.1 jmmv PTHREAD_REQUIRE(pthread_mutex_unlock(&mutex)); 308 1.1 jmmv } 309 1.1 jmmv 310 1.8 christos static pthread_mutexattr_t attr5; 311 1.8 christos static pthread_mutex_t mutex5; 312 1.8 christos static int min_fifo_prio, max_fifo_prio; 313 1.8 christos 314 1.8 christos static void * 315 1.8 christos child_func(void* arg) 316 1.8 christos { 317 1.8 christos int res; 318 1.8 christos 319 1.8 christos printf("child is waiting\n"); 320 1.8 christos res = _sched_protect(-2); 321 1.10 christos ATF_REQUIRE_EQ_MSG(res, -1, "sched_protect returned %d", res); 322 1.8 christos ATF_REQUIRE_EQ(errno, ENOENT); 323 1.8 christos PTHREAD_REQUIRE(pthread_mutex_lock(&mutex5)); 324 1.8 christos printf("child is owning resource\n"); 325 1.8 christos res = _sched_protect(-2); 326 1.8 christos ATF_REQUIRE_EQ(res, max_fifo_prio); 327 1.8 christos PTHREAD_REQUIRE(pthread_mutex_unlock(&mutex5)); 328 1.8 christos printf("child is done\n"); 329 1.8 christos 330 1.8 christos return 0; 331 1.8 christos } 332 1.8 christos 333 1.8 christos ATF_TC(mutex5); 334 1.8 christos ATF_TC_HEAD(mutex5, tc) 335 1.8 christos { 336 1.8 christos atf_tc_set_md_var(tc, "descr", "Checks mutexes for priority setting"); 337 1.10 christos atf_tc_set_md_var(tc, "require.user", "root"); 338 1.8 christos } 339 1.8 christos 340 1.8 christos ATF_TC_BODY(mutex5, tc) 341 1.8 christos { 342 1.8 christos int res; 343 1.8 christos struct sched_param param; 344 1.8 christos pthread_t child; 345 1.8 christos 346 1.8 christos min_fifo_prio = sched_get_priority_min(SCHED_FIFO); 347 1.8 christos max_fifo_prio = sched_get_priority_max(SCHED_FIFO); 348 1.8 christos printf("min prio for FIFO = %d\n", min_fifo_prio); 349 1.8 christos param.sched_priority = min_fifo_prio; 350 1.9 christos 351 1.8 christos /* = 0 OTHER, 1 FIFO, 2 RR, -1 NONE */ 352 1.8 christos res = sched_setscheduler(getpid(), SCHED_FIFO, ¶m); 353 1.8 christos printf("previous policy used = %d\n", res); 354 1.8 christos 355 1.8 christos res = sched_getscheduler(getpid()); 356 1.10 christos ATF_REQUIRE_EQ_MSG(res, SCHED_FIFO, "sched %d != FIFO %d", res, 357 1.10 christos SCHED_FIFO); 358 1.8 christos 359 1.8 christos PTHREAD_REQUIRE(pthread_mutexattr_init(&attr5)); 360 1.8 christos PTHREAD_REQUIRE(pthread_mutexattr_setprotocol(&attr5, 361 1.8 christos PTHREAD_PRIO_PROTECT)); 362 1.8 christos PTHREAD_REQUIRE(pthread_mutexattr_setprioceiling(&attr5, 363 1.8 christos max_fifo_prio)); 364 1.8 christos 365 1.8 christos PTHREAD_REQUIRE(pthread_mutex_init(&mutex5, &attr5)); 366 1.8 christos PTHREAD_REQUIRE(pthread_mutex_lock(&mutex5)); 367 1.8 christos printf("enter critical section for main\n"); 368 1.8 christos PTHREAD_REQUIRE(pthread_create(&child, NULL, child_func, NULL)); 369 1.8 christos printf("main starts to sleep\n"); 370 1.8 christos sleep(10); 371 1.8 christos printf("main completes\n"); 372 1.8 christos PTHREAD_REQUIRE(pthread_mutex_unlock(&mutex5)); 373 1.8 christos PTHREAD_REQUIRE(pthread_join(child, NULL)); 374 1.8 christos } 375 1.8 christos 376 1.8 christos static pthread_mutex_t mutex6; 377 1.8 christos static int start = 0; 378 1.8 christos static uintmax_t high_cnt = 0, low_cnt = 0, MAX_LOOP = 100000000; 379 1.8 christos 380 1.8 christos static void * 381 1.8 christos high_prio(void* arg) 382 1.8 christos { 383 1.8 christos struct sched_param param; 384 1.8 christos int policy; 385 1.8 christos param.sched_priority = min_fifo_prio + 10; 386 1.8 christos pthread_t childid = pthread_self(); 387 1.8 christos 388 1.8 christos PTHREAD_REQUIRE(pthread_setschedparam(childid, 1, ¶m)); 389 1.8 christos PTHREAD_REQUIRE(pthread_getschedparam(childid, &policy, ¶m)); 390 1.8 christos printf("high protect = %d, prio = %d\n", 391 1.8 christos _sched_protect(-2), param.sched_priority); 392 1.8 christos ATF_REQUIRE_EQ(policy, 1); 393 1.8 christos printf("high prio = %d\n", param.sched_priority); 394 1.8 christos sleep(1); 395 1.8 christos long tmp = 0; 396 1.9 christos for (int i = 0; i < 20; i++) { 397 1.8 christos while (high_cnt < MAX_LOOP) { 398 1.8 christos tmp += (123456789 % 1234) * (987654321 % 54321); 399 1.8 christos high_cnt += 1; 400 1.8 christos } 401 1.8 christos high_cnt = 0; 402 1.8 christos sleep(1); 403 1.8 christos } 404 1.8 christos PTHREAD_REQUIRE(pthread_mutex_lock(&mutex6)); 405 1.8 christos if (start == 0) start = 2; 406 1.8 christos PTHREAD_REQUIRE(pthread_mutex_unlock(&mutex6)); 407 1.8 christos 408 1.8 christos return 0; 409 1.8 christos } 410 1.8 christos 411 1.8 christos static void * 412 1.8 christos low_prio(void* arg) 413 1.8 christos { 414 1.8 christos struct sched_param param; 415 1.8 christos int policy; 416 1.8 christos param.sched_priority = min_fifo_prio; 417 1.8 christos pthread_t childid = pthread_self(); 418 1.8 christos int res = _sched_protect(max_fifo_prio); 419 1.8 christos ATF_REQUIRE_EQ(res, 0); 420 1.8 christos PTHREAD_REQUIRE(pthread_setschedparam(childid, 1, ¶m)); 421 1.8 christos PTHREAD_REQUIRE(pthread_getschedparam(childid, &policy, ¶m)); 422 1.8 christos printf("low protect = %d, prio = %d\n", _sched_protect(-2), 423 1.8 christos param.sched_priority); 424 1.8 christos ATF_REQUIRE_EQ(policy, 1); 425 1.8 christos printf("low prio = %d\n", param.sched_priority); 426 1.8 christos sleep(1); 427 1.9 christos long tmp = 0; 428 1.8 christos for (int i = 0; i < 20; i++) { 429 1.8 christos while (low_cnt < MAX_LOOP) { 430 1.8 christos tmp += (123456789 % 1234) * (987654321 % 54321); 431 1.8 christos low_cnt += 1; 432 1.8 christos } 433 1.8 christos low_cnt = 0; 434 1.8 christos sleep(1); 435 1.8 christos } 436 1.8 christos PTHREAD_REQUIRE(pthread_mutex_lock(&mutex6)); 437 1.8 christos if (start == 0) 438 1.8 christos start = 1; 439 1.8 christos PTHREAD_REQUIRE(pthread_mutex_unlock(&mutex6)); 440 1.8 christos 441 1.8 christos return 0; 442 1.8 christos } 443 1.8 christos 444 1.8 christos ATF_TC(mutex6); 445 1.8 christos ATF_TC_HEAD(mutex6, tc) 446 1.8 christos { 447 1.8 christos atf_tc_set_md_var(tc, "descr", 448 1.8 christos "Checks scheduling for priority ceiling"); 449 1.10 christos atf_tc_set_md_var(tc, "require.user", "root"); 450 1.8 christos } 451 1.8 christos 452 1.8 christos /* 453 1.8 christos * 1. main thread sets itself to be a realtime task and launched two tasks, 454 1.8 christos * one has higher priority and the other has lower priority. 455 1.8 christos * 2. each child thread(low and high priority thread) sets its scheduler and 456 1.8 christos * priority. 457 1.8 christos * 3. each child thread did several rounds of computation, after each round it 458 1.8 christos * sleep 1 second. 459 1.8 christos * 4. the child thread with low priority will call _sched_protect to increase 460 1.8 christos * its protect priority. 461 1.8 christos * 5. We verify the thread with low priority runs first. 462 1.8 christos * 463 1.8 christos * Why does it work? From the main thread, we launched the high 464 1.8 christos * priority thread first. This gives this thread the benefit of 465 1.8 christos * starting first. The low priority thread did not call _sched_protect(2). 466 1.8 christos * The high priority thread should finish the task first. After each 467 1.8 christos * round of computation, we call sleep, to put the task into the 468 1.8 christos * sleep queue, and wake up again after the timer expires. This 469 1.8 christos * gives the scheduler the chance to decide which task to run. So, 470 1.8 christos * the thread with real high priority will always block the thread 471 1.8 christos * with real low priority. 472 1.8 christos * 473 1.8 christos */ 474 1.8 christos ATF_TC_BODY(mutex6, tc) 475 1.8 christos { 476 1.9 christos struct sched_param param; 477 1.8 christos int res; 478 1.8 christos pthread_t high, low; 479 1.9 christos 480 1.8 christos min_fifo_prio = sched_get_priority_min(SCHED_FIFO); 481 1.8 christos max_fifo_prio = sched_get_priority_max(SCHED_FIFO); 482 1.8 christos PTHREAD_REQUIRE(pthread_mutex_init(&mutex, NULL)); 483 1.8 christos printf("min_fifo_prio = %d, max_fifo_info = %d\n", min_fifo_prio, 484 1.8 christos max_fifo_prio); 485 1.9 christos 486 1.8 christos param.sched_priority = min_fifo_prio; 487 1.8 christos res = sched_setscheduler(getpid(), SCHED_FIFO, ¶m); 488 1.8 christos printf("previous policy used = %d\n", res); 489 1.8 christos 490 1.8 christos res = sched_getscheduler(getpid()); 491 1.8 christos ATF_REQUIRE_EQ(res, 1); 492 1.8 christos PTHREAD_REQUIRE(pthread_create(&high, NULL, high_prio, NULL)); 493 1.8 christos PTHREAD_REQUIRE(pthread_create(&low, NULL, low_prio, NULL)); 494 1.8 christos sleep(5); 495 1.8 christos PTHREAD_REQUIRE(pthread_join(low, NULL)); 496 1.8 christos PTHREAD_REQUIRE(pthread_join(high, NULL)); 497 1.8 christos 498 1.8 christos ATF_REQUIRE_EQ(start, 1); 499 1.8 christos } 500 1.8 christos 501 1.8 christos ATF_TC(mutexattr1); 502 1.8 christos ATF_TC_HEAD(mutexattr1, tc) 503 1.8 christos { 504 1.8 christos atf_tc_set_md_var(tc, "descr", "Checks mutexattr"); 505 1.8 christos } 506 1.8 christos 507 1.8 christos ATF_TC_BODY(mutexattr1, tc) 508 1.8 christos { 509 1.8 christos pthread_mutexattr_t mattr; 510 1.8 christos int protocol, target; 511 1.8 christos 512 1.8 christos PTHREAD_REQUIRE(pthread_mutexattr_init(&mattr)); 513 1.8 christos 514 1.8 christos target = PTHREAD_PRIO_NONE; 515 1.8 christos PTHREAD_REQUIRE(pthread_mutexattr_setprotocol(&mattr, target)); 516 1.8 christos PTHREAD_REQUIRE(pthread_mutexattr_getprotocol(&mattr, &protocol)); 517 1.8 christos ATF_REQUIRE_EQ(protocol, target); 518 1.8 christos 519 1.8 christos /* 520 1.8 christos target = PTHREAD_PRIO_INHERIT; 521 1.8 christos PTHREAD_REQUIRE(pthread_mutexattr_setprotocol(&mattr, target)); 522 1.8 christos PTHREAD_REQUIRE(pthread_mutexattr_getprotocol(&mattr, &protocol)); 523 1.8 christos ATF_REQUIRE_EQ(protocol, target); 524 1.8 christos */ 525 1.8 christos 526 1.8 christos target = PTHREAD_PRIO_PROTECT; 527 1.8 christos PTHREAD_REQUIRE(pthread_mutexattr_setprotocol(&mattr, target)); 528 1.8 christos PTHREAD_REQUIRE(pthread_mutexattr_getprotocol(&mattr, &protocol)); 529 1.8 christos ATF_REQUIRE_EQ(protocol, target); 530 1.8 christos } 531 1.8 christos 532 1.8 christos ATF_TC(mutexattr2); 533 1.8 christos ATF_TC_HEAD(mutexattr2, tc) 534 1.8 christos { 535 1.8 christos atf_tc_set_md_var(tc, "descr", "Checks mutexattr"); 536 1.8 christos } 537 1.8 christos 538 1.8 christos ATF_TC_BODY(mutexattr2, tc) 539 1.8 christos { 540 1.8 christos pthread_mutexattr_t mattr; 541 1.8 christos 542 1.8 christos PTHREAD_REQUIRE(pthread_mutexattr_init(&mattr)); 543 1.8 christos int max_prio = sched_get_priority_max(SCHED_FIFO); 544 1.8 christos int min_prio = sched_get_priority_min(SCHED_FIFO); 545 1.8 christos for (int i = min_prio; i <= max_prio; i++) { 546 1.8 christos int prioceiling; 547 1.8 christos PTHREAD_REQUIRE(pthread_mutexattr_setprioceiling(&mattr, i)); 548 1.8 christos PTHREAD_REQUIRE(pthread_mutexattr_getprioceiling(&mattr, 549 1.8 christos &prioceiling)); 550 1.8 christos ATF_REQUIRE_EQ(i, prioceiling); 551 1.8 christos } 552 1.8 christos } 553 1.8 christos 554 1.1 jmmv ATF_TP_ADD_TCS(tp) 555 1.1 jmmv { 556 1.1 jmmv ATF_TP_ADD_TC(tp, mutex1); 557 1.1 jmmv ATF_TP_ADD_TC(tp, mutex2); 558 1.1 jmmv ATF_TP_ADD_TC(tp, mutex3); 559 1.1 jmmv ATF_TP_ADD_TC(tp, mutex4); 560 1.8 christos ATF_TP_ADD_TC(tp, mutex5); 561 1.8 christos ATF_TP_ADD_TC(tp, mutex6); 562 1.8 christos ATF_TP_ADD_TC(tp, mutexattr1); 563 1.8 christos ATF_TP_ADD_TC(tp, mutexattr2); 564 1.8 christos 565 1.1 jmmv return atf_no_error(); 566 1.1 jmmv } 567
Indexes created Sat Sep 20 22:09:52 GMT 2025