/* * Copyright (c) 2004, Bull S.A.. All rights reserved. * Created by: Sebastien Decugis * This program is free software; you can redistribute it and/or modify it * under the terms of version 2 of the GNU General Public License as * published by the Free Software Foundation. * * This program is distributed in the hope that it would be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * * You should have received a copy of the GNU General Public License along * with this program; if not, write the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * This file tests the following assertion: * * The pthread_cond_broadcast function unblocks all the threads blocked on the * conditional variable. * The steps are: * -> Create N threads which will wait on a condition variable * -> broadcast the condition * -> Every child checks that it owns the mutex (when possible) * */ #include #include #include #include #include #include #include #include #include #include #include #include "../testfrmw/testfrmw.h" #include "../testfrmw/testfrmw.c" #define UNRESOLVED_KILLALL(error, text) { \ if (td->fork) { \ int _nch; \ for (_nch = 0; _nch < children.nb; _nch++) \ kill(children.ch[_nch].p, SIGKILL); \ } \ UNRESOLVED(error, text); \ } #define FAILED_KILLALL(text, Tchild) { \ if (td->fork) { \ int _nch; \ for (_nch = 0; _nch < children.nb; _nch++) \ kill(children.ch[_nch].p, SIGKILL); \ } \ FAILED(text); \ } #ifndef VERBOSE #define VERBOSE 1 #endif #define NCHILDREN (20) #define TIMEOUT (120) #ifndef WITHOUT_ALTCLK #define USE_ALTCLK /* make tests with MONOTONIC CLOCK if supported */ #endif #ifdef WITHOUT_XOPEN /* We define those to avoid compilation errors, but they won't be used */ #define PTHREAD_MUTEX_DEFAULT 0 #define PTHREAD_MUTEX_NORMAL 0 #define PTHREAD_MUTEX_ERRORCHECK 0 #define PTHREAD_MUTEX_RECURSIVE 0 #endif static struct _scenar { int m_type; int mc_pshared; int c_clock; int fork; char *descr; } scenarii[] = { { PTHREAD_MUTEX_DEFAULT, 0, 0, 0, "Default mutex"}, { PTHREAD_MUTEX_NORMAL, 0, 0, 0, "Normal mutex"}, { PTHREAD_MUTEX_ERRORCHECK, 0, 0, 0, "Errorcheck mutex"}, { PTHREAD_MUTEX_RECURSIVE, 0, 0, 0, "Recursive mutex"}, { PTHREAD_MUTEX_DEFAULT, 1, 0, 0, "PShared default mutex"}, { PTHREAD_MUTEX_NORMAL, 1, 0, 0, "Pshared normal mutex"}, { PTHREAD_MUTEX_ERRORCHECK, 1, 0, 0, "Pshared errorcheck mutex"}, { PTHREAD_MUTEX_RECURSIVE, 1, 0, 0, "Pshared recursive mutex"}, { PTHREAD_MUTEX_DEFAULT, 1, 0, 1, "Pshared default mutex across processes"}, { PTHREAD_MUTEX_NORMAL, 1, 0, 1, "Pshared normal mutex across processes"}, { PTHREAD_MUTEX_ERRORCHECK, 1, 0, 1, "Pshared errorcheck mutex across processes"}, { PTHREAD_MUTEX_RECURSIVE, 1, 0, 1, "Pshared recursive mutex across processes"}, #ifdef USE_ALTCLK { PTHREAD_MUTEX_DEFAULT, 1, 1, 1, "Pshared default mutex and alt clock condvar across processes"}, { PTHREAD_MUTEX_NORMAL, 1, 1, 1, "Pshared normal mutex and alt clock condvar across processes"}, { PTHREAD_MUTEX_ERRORCHECK, 1, 1, 1, "Pshared errorcheck mutex and alt clock condvar across processes"}, { PTHREAD_MUTEX_RECURSIVE, 1, 1, 1, "Pshared recursive mutex and alt clock condvar across processes"}, { PTHREAD_MUTEX_DEFAULT, 0, 1, 0, "Default mutex and alt clock condvar"}, { PTHREAD_MUTEX_NORMAL, 0, 1, 0, "Normal mutex and alt clock condvar"}, { PTHREAD_MUTEX_ERRORCHECK, 0, 1, 0, "Errorcheck mutex and alt clock condvar"}, { PTHREAD_MUTEX_RECURSIVE, 0, 1, 0, "Recursive mutex and alt clock condvar"}, { PTHREAD_MUTEX_DEFAULT, 1, 1, 0, "PShared default mutex and alt clock condvar"}, { PTHREAD_MUTEX_NORMAL, 1, 1, 0, "Pshared normal mutex and alt clock condvar"}, { PTHREAD_MUTEX_ERRORCHECK, 1, 1, 0, "Pshared errorcheck mutex and alt clock condvar"}, { PTHREAD_MUTEX_RECURSIVE, 1, 1, 0, "Pshared recursive mutex and alt clock condvar"}, #endif }; #define NSCENAR (sizeof(scenarii) / sizeof(scenarii[0])) static struct testdata { int count; pthread_cond_t cnd; pthread_mutex_t mtx; int predicate; clockid_t cid; int mtype; char fork; } *td; static struct { union { pthread_t t; pid_t p; } ch[NCHILDREN]; int nb; } children; static void *child(void *arg PTS_ATTRIBUTE_UNUSED) { int ret = 0; int timed; struct timespec ts; /* lock the mutex */ ret = pthread_mutex_lock(&td->mtx); if (ret != 0) UNRESOLVED(ret, "Failed to lock mutex in child"); /* increment count */ td->count++; timed = td->count & 1; if (timed) { ret = clock_gettime(td->cid, &ts); if (ret != 0) UNRESOLVED(errno, "Unable to read clock"); ts.tv_sec += TIMEOUT; } do { /* Wait while the predicate is false */ if (timed) ret = pthread_cond_timedwait(&td->cnd, &td->mtx, &ts); else ret = pthread_cond_wait(&td->cnd, &td->mtx); #if VERBOSE > 5 output("[child] Wokenup timed=%i, Predicate=%i, ret=%i\n", timed, td->predicate, ret); #endif } while ((ret == 0) && (td->predicate == 0)); if (ret == ETIMEDOUT) { FAILED("Timeout occured. This means a cond signal was lost " "-- or parent died"); } if (ret != 0) UNRESOLVED(ret, "Failed to wait for the cond"); /* Check that we are owning the mutex */ #ifdef WITHOUT_XOPEN ret = pthread_mutex_trylock(&(td->mtx)); if (ret == 0) FAILED("The mutex was not owned after return from " "condition waiting"); #else if (td->mtype == PTHREAD_MUTEX_RECURSIVE) { ret = pthread_mutex_trylock(&(td->mtx)); if (ret != 0) FAILED("Unable to relock recursive mutex: not owning?"); ret = pthread_mutex_unlock(&(td->mtx)); if (ret != 0) UNRESOLVED(ret, "Failed to unlock the mutex"); } if (td->mtype == PTHREAD_MUTEX_ERRORCHECK) { ret = pthread_mutex_lock(&(td->mtx)); if (ret == 0) FAILED("Was able to lock errorcheck mutex: " "the mutex was not acquired once already?"); } #endif /* unlock the mutex */ ret = pthread_mutex_unlock(&td->mtx); if (ret != 0) UNRESOLVED(ret, "Failed to unlock the mutex."); return NULL; } static void *timer(void *arg PTS_ATTRIBUTE_UNUSED) { unsigned int to = TIMEOUT; do { to = sleep(to); } while (to > 0); FAILED_KILLALL("Operation timed out. A signal was lost.", pchildren); return NULL; } int main(void) { int ret; pthread_mutexattr_t ma; pthread_condattr_t ca; int scenar; long pshared, monotonic, cs, mf; int child_count; pid_t pid; int status; pthread_t t_timer; pthread_attr_t ta; struct testdata alternativ; output_init(); /* check the system abilities */ pshared = sysconf(_SC_THREAD_PROCESS_SHARED); cs = sysconf(_SC_CLOCK_SELECTION); monotonic = sysconf(_SC_MONOTONIC_CLOCK); mf = sysconf(_SC_MAPPED_FILES); #if VERBOSE > 0 output("Test starting\n"); output("System abilities:\n"); output(" TPS : %li\n", pshared); output(" CS : %li\n", cs); output(" MON : %li\n", monotonic); output(" MF : %li\n", mf); if ((mf < 0) || (pshared < 0)) output("Process-shared attributes won't be tested\n"); if ((cs < 0) || (monotonic < 0)) output("Alternative clock won't be tested\n"); #endif if (monotonic < 0) cs = -1; #ifndef USE_ALTCLK if (cs > 0) output("Implementation supports the MONOTONIC CLOCK " "but option is disabled in test.\n"); #endif if (mf < 0) { /* Cannot mmap a file, we use an alternative method */ td = &alternativ; pshared = -1; /* We won't do this testing anyway */ #if VERBOSE > 0 output("Testdata allocated in the process memory.\n"); #endif } else { char filename[] = "/tmp/cond_broadcast-XXXXXX"; size_t sz, ps; void *mmaped; int fd; char *tmp; fd = mkstemp(filename); if (fd == -1) UNRESOLVED(errno, "Temporary file could not be created"); unlink(filename); #if VERBOSE > 1 output("Temp file created (%s).\n", filename); #endif ps = (size_t) sysconf(_SC_PAGESIZE); sz = ((sizeof(struct testdata) / ps) + 1) * ps; tmp = calloc(1, sz); if (tmp == NULL) UNRESOLVED(errno, "Memory allocation failed"); if (write(fd, tmp, sz) != (ssize_t) sz) UNRESOLVED(sz, "Writting to the file failed"); free(tmp); mmaped = mmap(NULL, sz, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0); if (mmaped == MAP_FAILED) UNRESOLVED(errno, "mmap failed"); td = (struct testdata *)mmaped; /* Our datatest structure is now in shared memory */ #if VERBOSE > 1 output("Testdata allocated in shared memory (%ib).\n", sizeof(struct testdata)); #endif } ret = pthread_attr_init(&ta); if (ret != 0) UNRESOLVED(ret, "[parent] Failed to initialize a thread " "attribute object"); ret = pthread_attr_setstacksize(&ta, sysconf(_SC_THREAD_STACK_MIN)); if (ret != 0) UNRESOLVED(ret, "[parent] Failed to set thread stack size"); /* Do the test for each test scenario */ for (scenar = 0; scenar < (int)NSCENAR; scenar++) { /* set / reset everything */ td->fork = 0; ret = pthread_mutexattr_init(&ma); if (ret != 0) UNRESOLVED(ret, "[parent] Unable to initialize the " "mutex attribute object"); ret = pthread_condattr_init(&ca); if (ret != 0) UNRESOLVED(ret, "[parent] Unable to initialize the " "cond attribute object"); #ifndef WITHOUT_XOPEN /* Set the mutex type */ ret = pthread_mutexattr_settype(&ma, scenarii[scenar].m_type); if (ret != 0) UNRESOLVED(ret, "[parent] Unable to set mutex type"); #endif td->mtype = scenarii[scenar].m_type; /* Set the pshared attributes, if supported */ if ((pshared > 0) && (scenarii[scenar].mc_pshared != 0)) { ret = pthread_mutexattr_setpshared(&ma, PTHREAD_PROCESS_SHARED); if (ret != 0) UNRESOLVED(ret, "[parent] Unable to set " "the mutex process-shared"); ret = pthread_condattr_setpshared(&ca, PTHREAD_PROCESS_SHARED); if (ret != 0) UNRESOLVED(ret, "[parent] Unable to set " "the cond var process-shared"); } /* Set the alternative clock, if supported */ #ifdef USE_ALTCLK if ((cs > 0) && (scenarii[scenar].c_clock != 0)) { ret = pthread_condattr_setclock(&ca, CLOCK_MONOTONIC); if (ret != 0) UNRESOLVED(ret, "[parent] Unable to set the " "monotonic clock for the cond"); } ret = pthread_condattr_getclock(&ca, &td->cid); if (ret != 0) UNRESOLVED(ret, "Unable to get clock from cond attr"); #else td->cid = CLOCK_REALTIME; #endif /* Tell whether the test will be across processes */ if ((pshared > 0) && (scenarii[scenar].fork != 0)) td->fork = 1; ret = pthread_cond_init(&td->cnd, &ca); if (ret != 0) UNRESOLVED(ret, "Cond init failed"); ret = pthread_mutex_init(&td->mtx, &ma); if (ret != 0) UNRESOLVED(ret, "Mutex init failed"); ret = pthread_condattr_destroy(&ca); if (ret != 0) UNRESOLVED(ret, "Failed to destroy the cond var " "attribute object"); ret = pthread_mutexattr_destroy(&ma); if (ret != 0) UNRESOLVED(ret, "Failed to destroy the mutex " "attribute object"); #if VERBOSE > 2 output("[parent] Starting test %s\n", scenarii[scenar].descr); #endif td->count = 0; /* Create all the children */ for (children.nb = 0; children.nb < NCHILDREN; children.nb++) { if (td->fork == 0) { ret = pthread_create(& (children.ch[children.nb].t), &ta, child, NULL); if (ret != 0) UNRESOLVED(ret, "Failed to create " "enough threads"); } else { children.ch[children.nb].p = fork(); if (children.ch[children.nb].p == 0) { child(NULL); exit(0); } if (children.ch[children.nb].p == -1) { children.nb--; UNRESOLVED_KILLALL(errno, "Failed to " "create enough processes"); } } } #if VERBOSE > 4 output("[parent] Created %i children\n", NCHILDREN); #endif /* Make sure all children are waiting */ ret = pthread_mutex_lock(&td->mtx); if (ret != 0) UNRESOLVED_KILLALL(ret, "Failed to lock mutex"); child_count = td->count; while (child_count < NCHILDREN) { ret = pthread_mutex_unlock(&td->mtx); if (ret != 0) UNRESOLVED_KILLALL(ret, "Failed to unlock mutex"); sched_yield(); ret = pthread_mutex_lock(&td->mtx); if (ret != 0) UNRESOLVED_KILLALL(ret, "Failed to lock mutex"); child_count = td->count; } #if VERBOSE > 4 output("[parent] All children are waiting\n"); #endif ret = pthread_create(&t_timer, NULL, timer, NULL); if (ret != 0) UNRESOLVED_KILLALL(ret, "Unable to create timer thread"); /* Wakeup the children */ td->predicate = 1; ret = pthread_cond_broadcast(&td->cnd); if (ret != 0) UNRESOLVED_KILLALL(ret, "Failed to broadcast " "the condition."); #if VERBOSE > 4 output("[parent] Condition was signaled\n"); #endif ret = pthread_mutex_unlock(&td->mtx); if (ret != 0) UNRESOLVED_KILLALL(ret, "Failed to unlock mutex"); #if VERBOSE > 4 output("[parent] Joining the children\n"); #endif /* join the children */ for (--children.nb; children.nb >= 0; children.nb--) { if (td->fork == 0) { ret = pthread_join(children.ch[children.nb].t, NULL); if (ret != 0) UNRESOLVED(ret, "Failed to join a child thread"); } else { pid = waitpid(children.ch[children.nb].p, &status, 0); if (pid != children.ch[children.nb].p) { ret = errno; output("Waitpid failed (expected: %i, " "got: %i)\n", children.ch[children.nb].p, pid); UNRESOLVED_KILLALL(ret, "Waitpid failed"); } if (WIFEXITED(status)) { if (ret != PTS_FAIL) ret |= WEXITSTATUS(status); } } } if (ret != 0) { output_fini(); exit(ret); } #if VERBOSE > 4 output("[parent] All children terminated\n"); #endif ret = pthread_cancel(t_timer); if (ret != 0) UNRESOLVED(ret, "Failed to cancel the timeout handler"); ret = pthread_join(t_timer, NULL); if (ret != 0) UNRESOLVED(ret, "Failed to join the timeout handler"); ret = pthread_cond_destroy(&td->cnd); if (ret != 0) UNRESOLVED(ret, "Failed to destroy the condvar"); ret = pthread_mutex_destroy(&td->mtx); if (ret != 0) UNRESOLVED(ret, "Failed to destroy the mutex"); } ret = pthread_attr_destroy(&ta); if (ret != 0) UNRESOLVED(ret, "Final thread attr destroy failed"); PASSED; }