/* * Copyright 2017-2020 Leonid Yuriev * and other libmdbx authors: please see AUTHORS file. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted only as authorized by the OpenLDAP * Public License. * * A copy of this license is available in the file LICENSE in the * top-level directory of the distribution or, alternatively, at * . */ #include "test.h" #if !(defined(_WIN32) || defined(_WIN64)) #include #include #include #include #include #include #ifndef MDBX_LOCKING #error "Opps, MDBX_LOCKING is undefined!" #endif #if defined(__APPLE__) && (MDBX_LOCKING == MDBX_LOCKING_POSIX2001 || \ MDBX_LOCKING == MDBX_LOCKING_POSIX2008) #include "darwin/pthread_barrier.c" #endif /* __APPLE__ && MDBX_LOCKING >= MDBX_LOCKING_POSIX2001 */ #if MDBX_LOCKING == MDBX_LOCKING_SYSV #include #include #endif /* MDBX_LOCKING == MDBX_LOCKING_SYSV */ #if MDBX_LOCKING == MDBX_LOCKING_POSIX1988 #include #if __cplusplus >= 201103L #include static __inline __maybe_unused int atomic_decrement(std::atomic_int *p) { return std::atomic_fetch_sub(p, 1) - 1; } #else static __inline __maybe_unused int atomic_decrement(volatile int *p) { #if defined(__GNUC__) || defined(__clang__) return __sync_sub_and_fetch(p, 1); #elif defined(_MSC_VER) STATIC_ASSERT(sizeof(volatile long) == sizeof(volatile int)); return _InterlockedDecrement((volatile long *)p); #elif defined(__APPLE__) return OSAtomicDecrement32Barrier((volatile int *)p); #else #error FIXME: Unsupported compiler #endif } #endif /* C++11 */ #endif /* MDBX_LOCKING == MDBX_LOCKING_POSIX1988 */ #if MDBX_LOCKING == MDBX_LOCKING_SYSV static int ipc; static pid_t ipc_overlord_pid; static void ipc_remove(void) { if (ipc_overlord_pid == getpid()) semctl(ipc, 0, IPC_RMID, nullptr); } #else struct shared_t { #if MDBX_LOCKING == MDBX_LOCKING_POSIX2001 || \ MDBX_LOCKING == MDBX_LOCKING_POSIX2008 pthread_barrier_t barrier; pthread_mutex_t mutex; size_t count; pthread_cond_t events[1]; #elif MDBX_LOCKING == MDBX_LOCKING_POSIX1988 struct { #if __cplusplus >= 201103L std::atomic_int countdown; #else volatile int countdown; #endif /* C++11 */ sem_t sema; } barrier; size_t count; sem_t events[1]; #else #error "FIXME" #endif /* MDBX_LOCKING */ }; static shared_t *shared; #endif /* MDBX_LOCKING != MDBX_LOCKING_SYSV */ void osal_wait4barrier(void) { #if MDBX_LOCKING == MDBX_LOCKING_SYSV struct sembuf op; op.sem_num = 0; op.sem_op = -1; op.sem_flg = IPC_NOWAIT; if (semop(ipc, &op, 1)) failure_perror("semop(dec)", errno); op.sem_op = 0; op.sem_flg = 0; if (semop(ipc, &op, 1)) failure_perror("semop(wait)", errno); #elif MDBX_LOCKING == MDBX_LOCKING_POSIX2001 || \ MDBX_LOCKING == MDBX_LOCKING_POSIX2008 assert(shared != nullptr && shared != MAP_FAILED); int err = pthread_barrier_wait(&shared->barrier); if (err != 0 && err != PTHREAD_BARRIER_SERIAL_THREAD) failure_perror("pthread_barrier_wait(shared)", err); #elif MDBX_LOCKING == MDBX_LOCKING_POSIX1988 assert(shared != nullptr && shared != MAP_FAILED); int err = (atomic_decrement(&shared->barrier.countdown) > 0 && sem_wait(&shared->barrier.sema)) ? errno : 0; if (err != 0) failure_perror("sem_wait(shared)", err); if (sem_post(&shared->barrier.sema)) failure_perror("sem_post(shared)", errno); #else #error "FIXME" #endif /* MDBX_LOCKING */ } void osal_setup(const std::vector &actors) { #if MDBX_LOCKING == MDBX_LOCKING_SYSV if (ipc_overlord_pid) failure("ipc already created by %ld pid", (long)ipc_overlord_pid); ipc_overlord_pid = getpid(); #ifndef SEM_A #define SEM_A S_IRUSR #endif #ifndef SEM_R #define SEM_R S_IWUSR #endif ipc = semget(IPC_PRIVATE, actors.size() + 2, IPC_CREAT | SEM_A | SEM_R); if (ipc < 0) failure_perror("semget(IPC_PRIVATE, shared_sems)", errno); if (atexit(ipc_remove)) failure_perror("atexit(ipc_remove)", errno); if (semctl(ipc, 0, SETVAL, (int)(actors.size() + 1))) failure_perror("semctl(SETVAL.0, shared_sems)", errno); for (size_t i = 1; i < actors.size() + 2; ++i) if (semctl(ipc, i, SETVAL, 1)) failure_perror("semctl(SETVAL.N, shared_sems)", errno); #else assert(shared == nullptr); shared = (shared_t *)mmap( nullptr, sizeof(shared_t) + actors.size() * sizeof(shared->events[0]), PROT_READ | PROT_WRITE, MAP_SHARED | MAP_ANONYMOUS #ifdef MAP_HASSEMAPHORE | MAP_HASSEMAPHORE #endif , -1, 0); if (MAP_FAILED == (void *)shared) failure_perror("mmap(shared_conds)", errno); shared->count = actors.size() + 1; #if MDBX_LOCKING == MDBX_LOCKING_POSIX2001 || \ MDBX_LOCKING == MDBX_LOCKING_POSIX2008 pthread_barrierattr_t barrierattr; int err = pthread_barrierattr_init(&barrierattr); if (err) failure_perror("pthread_barrierattr_init()", err); err = pthread_barrierattr_setpshared(&barrierattr, PTHREAD_PROCESS_SHARED); if (err) failure_perror("pthread_barrierattr_setpshared()", err); err = pthread_barrier_init(&shared->barrier, &barrierattr, shared->count); if (err) failure_perror("pthread_barrier_init(shared)", err); pthread_barrierattr_destroy(&barrierattr); pthread_mutexattr_t mutexattr; err = pthread_mutexattr_init(&mutexattr); if (err) failure_perror("pthread_mutexattr_init()", err); err = pthread_mutexattr_setpshared(&mutexattr, PTHREAD_PROCESS_SHARED); if (err) failure_perror("pthread_mutexattr_setpshared()", err); pthread_condattr_t condattr; err = pthread_condattr_init(&condattr); if (err) failure_perror("pthread_condattr_init()", err); err = pthread_condattr_setpshared(&condattr, PTHREAD_PROCESS_SHARED); if (err) failure_perror("pthread_condattr_setpshared()", err); err = pthread_mutex_init(&shared->mutex, &mutexattr); if (err) failure_perror("pthread_mutex_init(shared)", err); for (size_t i = 0; i < shared->count; ++i) { pthread_cond_t *event = &shared->events[i]; err = pthread_cond_init(event, &condattr); if (err) failure_perror("pthread_cond_init(shared)", err); log_trace("osal_setup: event(shared pthread_cond) %" PRIuPTR " -> %p", i, __Wpedantic_format_voidptr(event)); } pthread_condattr_destroy(&condattr); pthread_mutexattr_destroy(&mutexattr); #elif MDBX_LOCKING == MDBX_LOCKING_POSIX1988 shared->barrier.countdown = shared->count; if (sem_init(&shared->barrier.sema, true, 1)) failure_perror("sem_init(shared.barrier)", errno); for (size_t i = 0; i < shared->count; ++i) { sem_t *event = &shared->events[i]; if (sem_init(event, true, 0)) failure_perror("sem_init(shared.event)", errno); log_trace("osal_setup: event(shared sem_init) %" PRIuPTR " -> %p", i, __Wpedantic_format_voidptr(event)); } #else #error "FIXME" #endif /* MDBX_LOCKING */ #endif /* MDBX_LOCKING != MDBX_LOCKING_SYSV */ } void osal_broadcast(unsigned id) { log_trace("osal_broadcast: event %u", id); #if MDBX_LOCKING == MDBX_LOCKING_SYSV if (semctl(ipc, id + 1, SETVAL, 0)) failure_perror("semctl(SETVAL)", errno); #else assert(shared != nullptr && shared != MAP_FAILED); if (id >= shared->count) failure("osal_broadcast: id > limit"); #if MDBX_LOCKING == MDBX_LOCKING_POSIX2001 || \ MDBX_LOCKING == MDBX_LOCKING_POSIX2008 int err = pthread_cond_broadcast(shared->events + id); if (err) failure_perror("pthread_cond_broadcast(shared)", err); #elif MDBX_LOCKING == MDBX_LOCKING_POSIX1988 if (sem_post(shared->events + id)) failure_perror("sem_post(shared)", errno); #else #error "FIXME" #endif /* MDBX_LOCKING */ #endif /* MDBX_LOCKING != MDBX_LOCKING_SYSV */ } int osal_waitfor(unsigned id) { log_trace("osal_waitfor: event %u", id); #if MDBX_LOCKING == MDBX_LOCKING_SYSV struct sembuf op; memset(&op, 0, sizeof(op)); op.sem_num = (short)(id + 1); int rc = semop(ipc, &op, 1) ? errno : MDBX_SUCCESS; #else assert(shared != nullptr && shared != MAP_FAILED); if (id >= shared->count) failure("osal_waitfor: id > limit"); #if MDBX_LOCKING == MDBX_LOCKING_POSIX2001 || \ MDBX_LOCKING == MDBX_LOCKING_POSIX2008 int rc = pthread_mutex_lock(&shared->mutex); if (rc != 0) failure_perror("pthread_mutex_lock(shared)", rc); rc = pthread_cond_wait(shared->events + id, &shared->mutex); if (rc && rc != EINTR) failure_perror("pthread_cond_wait(shared)", rc); rc = pthread_mutex_unlock(&shared->mutex); if (rc != 0) failure_perror("pthread_mutex_unlock(shared)", rc); #elif MDBX_LOCKING == MDBX_LOCKING_POSIX1988 int rc = sem_wait(shared->events + id) ? errno : 0; if (rc == 0 && sem_post(shared->events + id)) failure_perror("sem_post(shared)", errno); #else #error "FIXME" #endif /* MDBX_LOCKING */ #endif /* MDBX_LOCKING != MDBX_LOCKING_SYSV */ return (rc == 0) ? true : false; } //----------------------------------------------------------------------------- const std::string actor_config::osal_serialize(simple_checksum &checksum) const { (void)checksum; /* not used in workload, but just for testing */ return "unix.fork"; } bool actor_config::osal_deserialize(const char *str, const char *end, simple_checksum &checksum) { (void)checksum; /* not used in workload, but just for testing */ return strncmp(str, "unix.fork", 9) == 0 && str + 9 == end; } //----------------------------------------------------------------------------- static pid_t overlord_pid; static volatile sig_atomic_t sigusr1_head, sigusr2_head; static void handler_SIGUSR(int signum) { switch (signum) { case SIGUSR1: sigusr1_head += 1; return; case SIGUSR2: sigusr2_head += 1; return; default: abort(); } } bool osal_progress_push(bool active) { if (overlord_pid) { if (kill(overlord_pid, active ? SIGUSR1 : SIGUSR2)) failure_perror("osal_progress_push: kill(overload)", errno); return true; } return false; } //----------------------------------------------------------------------------- static std::unordered_map childs; static volatile sig_atomic_t sigalarm_head; static void handler_SIGCHLD(int signum) { if (signum == SIGALRM) sigalarm_head += 1; } mdbx_pid_t osal_getpid(void) { return getpid(); } int osal_delay(unsigned seconds) { return sleep(seconds) ? errno : 0; } int osal_actor_start(const actor_config &config, mdbx_pid_t &pid) { if (childs.empty()) { struct sigaction act; memset(&act, 0, sizeof(act)); act.sa_handler = handler_SIGCHLD; sigaction(SIGCHLD, &act, nullptr); sigaction(SIGALRM, &act, nullptr); act.sa_handler = handler_SIGUSR; sigaction(SIGUSR1, &act, nullptr); sigaction(SIGUSR2, &act, nullptr); sigset_t mask; sigemptyset(&mask); sigaddset(&mask, SIGCHLD); sigaddset(&mask, SIGUSR1); sigaddset(&mask, SIGUSR2); sigprocmask(SIG_UNBLOCK, &mask, nullptr); } pid = fork(); if (pid == 0) { overlord_pid = getppid(); const bool result = test_execute(config); exit(result ? EXIT_SUCCESS : EXIT_FAILURE); } if (pid < 0) return errno; log_trace("osal_actor_start: fork pid %ld for %u", (long)pid, config.actor_id); childs[pid] = as_running; return 0; } actor_status osal_actor_info(const mdbx_pid_t pid) { return childs.at(pid); } void osal_killall_actors(void) { for (auto &pair : childs) { kill(pair.first, SIGKILL); pair.second = as_killed; } } int osal_actor_poll(mdbx_pid_t &pid, unsigned timeout) { static sig_atomic_t sigalarm_tail; alarm(0) /* cancel prev timeout */; sigalarm_tail = sigalarm_head /* reset timeout flag */; int options = WNOHANG; if (timeout) { alarm((timeout > INT_MAX) ? INT_MAX : timeout); options = 0; } #ifdef WUNTRACED options |= WUNTRACED; #endif #ifdef WCONTINUED options |= WCONTINUED; #endif while (sigalarm_tail == sigalarm_head) { int status; pid = waitpid(0, &status, options); if (pid > 0) { if (WIFEXITED(status)) childs[pid] = (WEXITSTATUS(status) == EXIT_SUCCESS) ? as_successful : as_failed; else if (WCOREDUMP(status)) childs[pid] = as_coredump; else if (WIFSIGNALED(status)) childs[pid] = as_killed; else if (WIFSTOPPED(status)) childs[pid] = as_debugging; else if (WIFCONTINUED(status)) childs[pid] = as_running; else { assert(false); } return 0; } static sig_atomic_t sigusr1_tail, sigusr2_tail; if (sigusr1_tail != sigusr1_head) { sigusr1_tail = sigusr1_head; logging::progress_canary(true); if (pid < 0 && errno == EINTR) continue; } if (sigusr2_tail != sigusr2_head) { sigusr2_tail = sigusr2_head; logging::progress_canary(false); if (pid < 0 && errno == EINTR) continue; } if (pid == 0) break; int err = errno; if (err != EINTR) return err; } return 0 /* timeout */; } void osal_yield(void) { if (sched_yield()) failure_perror("sched_yield()", errno); } void osal_udelay(unsigned us) { chrono::time until, now = chrono::now_motonic(); until.fixedpoint = now.fixedpoint + chrono::from_us(us).fixedpoint; struct timespec ts; static unsigned threshold_us; if (threshold_us == 0) { #if defined(_POSIX_CPUTIME) && _POSIX_CPUTIME > -1 && \ defined(CLOCK_PROCESS_CPUTIME_ID) if (clock_getres(CLOCK_PROCESS_CPUTIME_ID, &ts)) { int rc = errno; log_warning("clock_getres(CLOCK_PROCESS_CPUTIME_ID), failed errno %d", rc); } #endif /* CLOCK_PROCESS_CPUTIME_ID */ if (threshold_us == 0 && clock_getres(CLOCK_MONOTONIC, &ts)) { int rc = errno; failure_perror("clock_getres(CLOCK_MONOTONIC)", rc); } chrono::time threshold = chrono::from_timespec(ts); assert(threshold.seconds() == 0); threshold_us = chrono::fractional2us(threshold.fractional); if (threshold_us < 1000) threshold_us = 1000; } ts.tv_sec = ts.tv_nsec = 0; if (us > threshold_us) { ts.tv_sec = us / 1000000u; ts.tv_nsec = (us % 1000000u) * 1000u; } do { if (us > threshold_us) { if (nanosleep(&ts, &ts)) { int rc = errno; /* if (rc == EINTR) { ... } ? */ failure_perror("usleep()", rc); } us = ts.tv_sec * 1000000u + ts.tv_nsec / 1000u; } cpu_relax(); now = chrono::now_motonic(); } while (until.fixedpoint > now.fixedpoint); } bool osal_istty(int fd) { return isatty(fd) == 1; } std::string osal_tempdir(void) { const char *tempdir = getenv("TMPDIR"); if (!tempdir) tempdir = getenv("TMP"); if (!tempdir) tempdir = getenv("TEMPDIR"); if (!tempdir) tempdir = getenv("TEMP"); if (tempdir) { std::string dir(tempdir); if (!dir.empty() && dir.at(dir.length() - 1) != '/') dir.append("/"); return dir; } if (access("/dev/shm/", R_OK | W_OK | X_OK) == 0) return "/dev/shm/"; return ""; } int osal_removefile(const std::string &pathname) { return unlink(pathname.c_str()) ? errno : MDBX_SUCCESS; } #endif /* !Windows */