int _pthread_detach(pthread_t pthread) { struct pthread *curthread = _get_curthread(); int rval; if (pthread == NULL) return (EINVAL); if ((rval = _thr_find_thread(curthread, pthread, /*include dead*/1)) != 0) { return (rval); } /* Check if the thread is already detached or has a joiner. */ if ((pthread->flags & THR_FLAGS_DETACHED) != 0 || (pthread->joiner != NULL)) { THR_THREAD_UNLOCK(curthread, pthread); return (EINVAL); } /* Flag the thread as detached. */ pthread->flags |= THR_FLAGS_DETACHED; _thr_try_gc(curthread, pthread); /* thread lock released */ return (0); }
void _pthread_exit_mask(void *status, sigset_t *mask) { struct pthread *curthread = _get_curthread(); /* Check if this thread is already in the process of exiting: */ if (curthread->cancelling) { char msg[128]; snprintf(msg, sizeof(msg), "Thread %p has called " "pthread_exit() from a destructor. POSIX 1003.1 " "1996 s16.2.5.2 does not allow this!", curthread); PANIC(msg); } /* Flag this thread as exiting. */ curthread->cancelling = 1; curthread->no_cancel = 1; curthread->cancel_async = 0; curthread->cancel_point = 0; if (mask != NULL) __sys_sigprocmask(SIG_SETMASK, mask, NULL); if (curthread->unblock_sigcancel) { sigset_t set; curthread->unblock_sigcancel = 0; SIGEMPTYSET(set); SIGADDSET(set, SIGCANCEL); __sys_sigprocmask(SIG_UNBLOCK, mask, NULL); } /* Save the return value: */ curthread->ret = status; #ifdef _PTHREAD_FORCED_UNWIND #ifdef PIC thread_uw_init(); #endif /* PIC */ #ifdef PIC if (uwl_forcedunwind != NULL) { #else if (_Unwind_ForcedUnwind != NULL) { #endif if (curthread->unwind_disabled) { if (message_printed == 0) { message_printed = 1; _thread_printf(2, "Warning: old _pthread_cleanup_push was called, " "stack unwinding is disabled.\n"); } goto cleanup; } thread_unwind(); } else { cleanup: while (curthread->cleanup != NULL) { __pthread_cleanup_pop_imp(1); } exit_thread(); } #else while (curthread->cleanup != NULL) { __pthread_cleanup_pop_imp(1); } exit_thread(); #endif /* _PTHREAD_FORCED_UNWIND */ } static void exit_thread(void) { struct pthread *curthread = _get_curthread(); /* Check if there is thread specific data: */ if (curthread->specific != NULL) { /* Run the thread-specific data destructors: */ _thread_cleanupspecific(); } if (!_thr_isthreaded()) exit(0); if (atomic_fetchadd_int(&_thread_active_threads, -1) == 1) { exit(0); /* Never reach! */ } /* Tell malloc that the thread is exiting. */ _malloc_thread_cleanup(); THR_LOCK(curthread); curthread->state = PS_DEAD; if (curthread->flags & THR_FLAGS_NEED_SUSPEND) { curthread->cycle++; _thr_umtx_wake(&curthread->cycle, INT_MAX, 0); } if (!curthread->force_exit && SHOULD_REPORT_EVENT(curthread, TD_DEATH)) _thr_report_death(curthread); /* * Thread was created with initial refcount 1, we drop the * reference count to allow it to be garbage collected. */ curthread->refcount--; _thr_try_gc(curthread, curthread); /* thread lock released */ #if defined(_PTHREADS_INVARIANTS) if (THR_IN_CRITICAL(curthread)) PANIC("thread exits with resources held!"); #endif /* * Kernel will do wakeup at the address, so joiner thread * will be resumed if it is sleeping at the address. */ thr_exit(&curthread->tid); PANIC("thr_exit() returned"); /* Never reach! */ }
/* * Cancellation behavior: * if the thread is canceled, joinee is not recycled. */ static int join_common(pthread_t pthread, void **thread_return, const struct timespec *abstime) { struct pthread *curthread = _get_curthread(); struct timespec ts, ts2, *tsp; void *tmp; long tid; int ret = 0; if (pthread == NULL) return (EINVAL); if (pthread == curthread) return (EDEADLK); if ((ret = _thr_find_thread(curthread, pthread, 1)) != 0) return (ESRCH); if ((pthread->flags & THR_FLAGS_DETACHED) != 0) { ret = EINVAL; } else if (pthread->joiner != NULL) { /* Multiple joiners are not supported. */ ret = ENOTSUP; } if (ret) { THR_THREAD_UNLOCK(curthread, pthread); return (ret); } /* Set the running thread to be the joiner: */ pthread->joiner = curthread; THR_THREAD_UNLOCK(curthread, pthread); THR_CLEANUP_PUSH(curthread, backout_join, pthread); _thr_cancel_enter(curthread); tid = pthread->tid; while (pthread->tid != TID_TERMINATED) { _thr_testcancel(curthread); if (abstime != NULL) { clock_gettime(CLOCK_REALTIME, &ts); TIMESPEC_SUB(&ts2, abstime, &ts); if (ts2.tv_sec < 0) { ret = ETIMEDOUT; break; } tsp = &ts2; } else tsp = NULL; ret = _thr_umtx_wait(&pthread->tid, tid, tsp); if (ret == ETIMEDOUT) break; } _thr_cancel_leave(curthread, 0); THR_CLEANUP_POP(curthread, 0); if (ret == ETIMEDOUT) { THR_THREAD_LOCK(curthread, pthread); pthread->joiner = NULL; THR_THREAD_UNLOCK(curthread, pthread); } else { ret = 0; tmp = pthread->ret; THR_THREAD_LOCK(curthread, pthread); pthread->flags |= THR_FLAGS_DETACHED; pthread->joiner = NULL; _thr_try_gc(curthread, pthread); /* thread lock released */ if (thread_return != NULL) *thread_return = tmp; } return (ret); }
int _pthread_create(pthread_t * thread, const pthread_attr_t * attr, void *(*start_routine) (void *), void *arg) { struct pthread *curthread, *new_thread; struct thr_param param; struct sched_param sched_param; struct rtprio rtp; sigset_t set, oset; cpuset_t *cpusetp; int i, cpusetsize, create_suspended, locked, old_stack_prot, ret; cpusetp = NULL; ret = cpusetsize = 0; _thr_check_init(); /* * Tell libc and others now they need lock to protect their data. */ if (_thr_isthreaded() == 0) { _malloc_first_thread(); if (_thr_setthreaded(1)) return (EAGAIN); } curthread = _get_curthread(); if ((new_thread = _thr_alloc(curthread)) == NULL) return (EAGAIN); memset(¶m, 0, sizeof(param)); if (attr == NULL || *attr == NULL) /* Use the default thread attributes: */ new_thread->attr = _pthread_attr_default; else { new_thread->attr = *(*attr); cpusetp = new_thread->attr.cpuset; cpusetsize = new_thread->attr.cpusetsize; new_thread->attr.cpuset = NULL; new_thread->attr.cpusetsize = 0; } if (new_thread->attr.sched_inherit == PTHREAD_INHERIT_SCHED) { /* inherit scheduling contention scope */ if (curthread->attr.flags & PTHREAD_SCOPE_SYSTEM) new_thread->attr.flags |= PTHREAD_SCOPE_SYSTEM; else new_thread->attr.flags &= ~PTHREAD_SCOPE_SYSTEM; new_thread->attr.prio = curthread->attr.prio; new_thread->attr.sched_policy = curthread->attr.sched_policy; } new_thread->tid = TID_TERMINATED; old_stack_prot = _rtld_get_stack_prot(); if (create_stack(&new_thread->attr) != 0) { /* Insufficient memory to create a stack: */ _thr_free(curthread, new_thread); return (EAGAIN); } /* * Write a magic value to the thread structure * to help identify valid ones: */ new_thread->magic = THR_MAGIC; new_thread->start_routine = start_routine; new_thread->arg = arg; new_thread->cancel_enable = 1; new_thread->cancel_async = 0; /* Initialize the mutex queue: */ for (i = 0; i < TMQ_NITEMS; i++) TAILQ_INIT(&new_thread->mq[i]); /* Initialise hooks in the thread structure: */ if (new_thread->attr.suspend == THR_CREATE_SUSPENDED) { new_thread->flags = THR_FLAGS_NEED_SUSPEND; create_suspended = 1; } else { create_suspended = 0; } new_thread->state = PS_RUNNING; if (new_thread->attr.flags & PTHREAD_CREATE_DETACHED) new_thread->flags |= THR_FLAGS_DETACHED; /* Add the new thread. */ new_thread->refcount = 1; _thr_link(curthread, new_thread); /* * Handle the race between __pthread_map_stacks_exec and * thread linkage. */ if (old_stack_prot != _rtld_get_stack_prot()) _thr_stack_fix_protection(new_thread); /* Return thread pointer eariler so that new thread can use it. */ (*thread) = new_thread; if (SHOULD_REPORT_EVENT(curthread, TD_CREATE) || cpusetp != NULL) { THR_THREAD_LOCK(curthread, new_thread); locked = 1; } else locked = 0; param.start_func = (void (*)(void *)) thread_start; param.arg = new_thread; param.stack_base = new_thread->attr.stackaddr_attr; param.stack_size = new_thread->attr.stacksize_attr; param.tls_base = (char *)new_thread->tcb; param.tls_size = sizeof(struct tcb); param.child_tid = &new_thread->tid; param.parent_tid = &new_thread->tid; param.flags = 0; if (new_thread->attr.flags & PTHREAD_SCOPE_SYSTEM) param.flags |= THR_SYSTEM_SCOPE; if (new_thread->attr.sched_inherit == PTHREAD_INHERIT_SCHED) param.rtp = NULL; else { sched_param.sched_priority = new_thread->attr.prio; _schedparam_to_rtp(new_thread->attr.sched_policy, &sched_param, &rtp); param.rtp = &rtp; } /* Schedule the new thread. */ if (create_suspended) { SIGFILLSET(set); SIGDELSET(set, SIGTRAP); __sys_sigprocmask(SIG_SETMASK, &set, &oset); new_thread->sigmask = oset; SIGDELSET(new_thread->sigmask, SIGCANCEL); } ret = thr_new(¶m, sizeof(param)); if (ret != 0) { ret = errno; /* * Translate EPROCLIM into well-known POSIX code EAGAIN. */ if (ret == EPROCLIM) ret = EAGAIN; } if (create_suspended) __sys_sigprocmask(SIG_SETMASK, &oset, NULL); if (ret != 0) { if (!locked) THR_THREAD_LOCK(curthread, new_thread); new_thread->state = PS_DEAD; new_thread->tid = TID_TERMINATED; new_thread->flags |= THR_FLAGS_DETACHED; new_thread->refcount--; if (new_thread->flags & THR_FLAGS_NEED_SUSPEND) { new_thread->cycle++; _thr_umtx_wake(&new_thread->cycle, INT_MAX, 0); } _thr_try_gc(curthread, new_thread); /* thread lock released */ atomic_add_int(&_thread_active_threads, -1); } else if (locked) { if (cpusetp != NULL) { if (cpuset_setaffinity(CPU_LEVEL_WHICH, CPU_WHICH_TID, TID(new_thread), cpusetsize, cpusetp)) { ret = errno; /* kill the new thread */ new_thread->force_exit = 1; new_thread->flags |= THR_FLAGS_DETACHED; _thr_try_gc(curthread, new_thread); /* thread lock released */ goto out; } } _thr_report_creation(curthread, new_thread); THR_THREAD_UNLOCK(curthread, new_thread); } out: if (ret) (*thread) = 0; return (ret); }