/* $OpenBSD: rthread.c,v 1.99 2017/11/04 22:53:57 jca Exp $ */ /* * Copyright (c) 2004,2005 Ted Unangst * All Rights Reserved. * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ /* * The heart of rthreads. Basic functions like creating and joining * threads. */ #include #ifndef NO_PIC #include #pragma weak _DYNAMIC #endif #include #include #include #include #include #include #include #include #include #include "cancel.h" /* in libc/include */ #include "rthread.h" #include "rthread_cb.h" /* * Call nonstandard functions via names in the reserved namespace: * dlctl() -> _dlctl() * getthrid -> _thread_sys_getthrid */ typeof(dlctl) dlctl asm("_dlctl") __attribute__((weak)); REDIRECT_SYSCALL(getthrid); /* weak stub to be overriden by ld.so */ int dlctl(void *handle, int cmd, void *data) { return 0; } /* * libc's signal wrappers hide SIGTHR; we need to call the real syscall * stubs _thread_sys_* directly. */ REDIRECT_SYSCALL(sigaction); REDIRECT_SYSCALL(sigprocmask); REDIRECT_SYSCALL(thrkill); static int concurrency_level; /* not used */ int _threads_ready; int _post_threaded; size_t _thread_pagesize; struct listhead _thread_list = LIST_HEAD_INITIALIZER(_thread_list); _atomic_lock_t _thread_lock = _SPINLOCK_UNLOCKED; static struct pthread_queue _thread_gc_list = TAILQ_HEAD_INITIALIZER(_thread_gc_list); static _atomic_lock_t _thread_gc_lock = _SPINLOCK_UNLOCKED; static struct pthread _initial_thread; struct pthread_attr _rthread_attr_default = { .stack_addr = NULL, .stack_size = RTHREAD_STACK_SIZE_DEF, /* .guard_size set in _rthread_init */ .detach_state = PTHREAD_CREATE_JOINABLE, .contention_scope = PTHREAD_SCOPE_SYSTEM, .sched_policy = SCHED_OTHER, .sched_param = { .sched_priority = 0 }, .sched_inherit = PTHREAD_INHERIT_SCHED, }; /* * internal support functions */ static void _rthread_start(void *v) { pthread_t thread = v; void *retval; retval = thread->fn(thread->arg); pthread_exit(retval); } static void sigthr_handler(__unused int sig) { struct tib *tib = TIB_GET(); pthread_t self = tib->tib_thread; /* * Do nothing unless * 1) pthread_cancel() has been called on this thread, * 2) cancelation is enabled for it, and * 3) we're not already in cancelation processing */ if (!tib->tib_canceled || tib->tib_cantcancel) return; /* * If delaying cancels inside complex ops (pthread_cond_wait, * pthread_join, etc), just mark that this has happened to * prevent a race with going to sleep */ if (tib->tib_cancel_point & CANCEL_POINT_DELAYED) { self->delayed_cancel = 1; return; } /* * otherwise, if in a cancel point or async cancels are * enabled, then exit */ if (tib->tib_cancel_point || (tib->tib_thread_flags & TIB_THREAD_ASYNC_CANCEL)) pthread_exit(PTHREAD_CANCELED); } /* * A few basic callbacks for libc. The first couple are only used * on archs where there isn't a fast TCB_GET() */ #ifndef TCB_HAVE_MD_GET static int * multi_threaded_errnoptr(void) { return (&TIB_GET()->tib_errno); } static void * multi_threaded_tcb(void) { return (TCB_GET()); } #endif /* TCB_HAVE_MD_GET */ static void _rthread_free(pthread_t thread) { _spinlock(&_thread_gc_lock); TAILQ_INSERT_TAIL(&_thread_gc_list, thread, waiting); _spinunlock(&_thread_gc_lock); } static void _thread_release(pthread_t thread) { _spinlock(&_thread_lock); LIST_REMOVE(thread, threads); _spinunlock(&_thread_lock); _spinlock(&thread->flags_lock); if (thread->flags & THREAD_DETACHED) { _spinunlock(&thread->flags_lock); _rthread_free(thread); } else { thread->flags |= THREAD_DONE; _spinunlock(&thread->flags_lock); _sem_post(&thread->donesem); } } static void _thread_key_zero(int key) { pthread_t thread; struct rthread_storage *rs; LIST_FOREACH(thread, &_thread_list, threads) { for (rs = thread->local_storage; rs; rs = rs->next) { if (rs->keyid == key) rs->data = NULL; } } } void _rthread_init(void) { pthread_t thread = pthread_self(); struct sigaction sa; if (_threads_ready) return; LIST_INSERT_HEAD(&_thread_list, thread, threads); _thread_pagesize = (size_t)sysconf(_SC_PAGESIZE); _rthread_attr_default.guard_size = _thread_pagesize; thread->attr = _rthread_attr_default; /* get libc to start using our callbacks */ { struct thread_callbacks cb = { 0 }; #ifndef TCB_HAVE_MD_GET cb.tc_errnoptr = multi_threaded_errnoptr; cb.tc_tcb = multi_threaded_tcb; #endif cb.tc_fork = _thread_fork; cb.tc_vfork = _thread_vfork; cb.tc_thread_release = _thread_release; cb.tc_thread_key_zero = _thread_key_zero; _thread_set_callbacks(&cb, sizeof(cb)); } #ifndef NO_PIC if (_DYNAMIC) { dlctl(NULL, DL_SETTHREADLCK, _rthread_dl_lock); } #endif /* * Set the handler on the signal used for cancelation and * suspension, and make sure it's unblocked */ memset(&sa, 0, sizeof(sa)); sigemptyset(&sa.sa_mask); sa.sa_handler = sigthr_handler; sigaction(SIGTHR, &sa, NULL); sigaddset(&sa.sa_mask, SIGTHR); sigprocmask(SIG_UNBLOCK, &sa.sa_mask, NULL); _threads_ready = 1; _malloc_init(1); _rthread_debug(1, "rthread init\n"); } static void _rthread_reaper(void) { pthread_t thread; restart: _spinlock(&_thread_gc_lock); TAILQ_FOREACH(thread, &_thread_gc_list, waiting) { if (thread->tib->tib_tid != 0) continue; TAILQ_REMOVE(&_thread_gc_list, thread, waiting); _spinunlock(&_thread_gc_lock); if (thread != &_initial_thread) { _rthread_debug(3, "rthread reaping %p stack %p\n", (void *)thread, (void *)thread->stack); _rthread_free_stack(thread->stack); _dl_free_tib(thread->tib, sizeof(*thread)); } else { /* initial thread isn't part of TIB allocation */ _rthread_debug(3, "rthread reaping %p (initial)\n", (void *)thread); _dl_free_tib(thread->tib, 0); } goto restart; } _spinunlock(&_thread_gc_lock); } /* * real pthread functions */ int pthread_join(pthread_t thread, void **retval) { int e; struct tib *tib = TIB_GET(); pthread_t self; PREP_CANCEL_POINT(tib); if (_post_threaded) { #define GREATSCOTT "great scott! serious repercussions on future events!\n" write(2, GREATSCOTT, sizeof(GREATSCOTT) - 1); abort(); } if (!_threads_ready) _rthread_init(); self = tib->tib_thread; e = 0; ENTER_DELAYED_CANCEL_POINT(tib, self); if (thread == NULL) e = EINVAL; else if (thread == self) e = EDEADLK; else if (thread->flags & THREAD_DETACHED) e = EINVAL; else if ((e = _sem_wait(&thread->donesem, 0, NULL, &self->delayed_cancel)) == 0) { if (retval) *retval = thread->retval; /* * We should be the last having a ref to this thread, * but someone stupid or evil might haved detached it; * in that case the thread will clean up itself */ if ((thread->flags & THREAD_DETACHED) == 0) _rthread_free(thread); } LEAVE_CANCEL_POINT_INNER(tib, e); _rthread_reaper(); return (e); } int pthread_detach(pthread_t thread) { int rc = 0; _spinlock(&thread->flags_lock); if (thread->flags & THREAD_DETACHED) { rc = EINVAL; _spinunlock(&thread->flags_lock); } else if (thread->flags & THREAD_DONE) { _spinunlock(&thread->flags_lock); _rthread_free(thread); } else { thread->flags |= THREAD_DETACHED; _spinunlock(&thread->flags_lock); } _rthread_reaper(); return (rc); } int pthread_create(pthread_t *threadp, const pthread_attr_t *attr, void *(*start_routine)(void *), void *arg) { extern int __isthreaded; struct tib *tib; pthread_t thread; struct __tfork param; int rc; if (!_threads_ready) _rthread_init(); _rthread_reaper(); tib = _dl_allocate_tib(sizeof(*thread)); if (tib == NULL) return (ENOMEM); thread = tib->tib_thread; memset(thread, 0, sizeof(*thread)); thread->tib = tib; thread->donesem.lock = _SPINLOCK_UNLOCKED; thread->flags_lock = _SPINLOCK_UNLOCKED; thread->fn = start_routine; thread->arg = arg; tib->tib_tid = -1; thread->attr = attr != NULL ? *(*attr) : _rthread_attr_default; if (thread->attr.sched_inherit == PTHREAD_INHERIT_SCHED) { pthread_t self = pthread_self(); thread->attr.sched_policy = self->attr.sched_policy; thread->attr.sched_param = self->attr.sched_param; } if (thread->attr.detach_state == PTHREAD_CREATE_DETACHED) thread->flags |= THREAD_DETACHED; thread->stack = _rthread_alloc_stack(thread); if (!thread->stack) { rc = errno; goto fail1; } param.tf_tcb = TIB_TO_TCB(tib); param.tf_tid = &tib->tib_tid; param.tf_stack = thread->stack->sp; _spinlock(&_thread_lock); LIST_INSERT_HEAD(&_thread_list, thread, threads); _spinunlock(&_thread_lock); /* we're going to be multi-threaded real soon now */ __isthreaded = 1; rc = __tfork_thread(¶m, sizeof(param), _rthread_start, thread); if (rc != -1) { /* success */ *threadp = thread; return (0); } rc = errno; _spinlock(&_thread_lock); LIST_REMOVE(thread, threads); _spinunlock(&_thread_lock); _rthread_free_stack(thread->stack); fail1: _dl_free_tib(tib, sizeof(*thread)); return (rc); } int pthread_kill(pthread_t thread, int sig) { struct tib *tib = thread->tib; if (sig == SIGTHR) return (EINVAL); if (thrkill(tib->tib_tid, sig, TIB_TO_TCB(tib))) return (errno); return (0); } int pthread_cancel(pthread_t thread) { struct tib *tib = thread->tib; pid_t tid = tib->tib_tid; if (tib->tib_canceled == 0 && tid != 0 && (tib->tib_cantcancel & CANCEL_DYING) == 0) { tib->tib_canceled = 1; if ((tib->tib_cantcancel & CANCEL_DISABLED) == 0) { thrkill(tid, SIGTHR, TIB_TO_TCB(tib)); return (0); } } return (0); } void pthread_testcancel(void) { struct tib *tib = TIB_GET(); if (tib->tib_canceled && (tib->tib_cantcancel & CANCEL_DISABLED) == 0) pthread_exit(PTHREAD_CANCELED); } int pthread_setcancelstate(int state, int *oldstatep) { struct tib *tib = TIB_GET(); int oldstate; oldstate = tib->tib_cantcancel & CANCEL_DISABLED ? PTHREAD_CANCEL_DISABLE : PTHREAD_CANCEL_ENABLE; if (state == PTHREAD_CANCEL_ENABLE) { tib->tib_cantcancel &= ~CANCEL_DISABLED; } else if (state == PTHREAD_CANCEL_DISABLE) { tib->tib_cantcancel |= CANCEL_DISABLED; } else { return (EINVAL); } if (oldstatep) *oldstatep = oldstate; return (0); } DEF_STD(pthread_setcancelstate); int pthread_setcanceltype(int type, int *oldtypep) { struct tib *tib = TIB_GET(); int oldtype; oldtype = tib->tib_thread_flags & TIB_THREAD_ASYNC_CANCEL ? PTHREAD_CANCEL_ASYNCHRONOUS : PTHREAD_CANCEL_DEFERRED; if (type == PTHREAD_CANCEL_DEFERRED) { tib->tib_thread_flags &=~ TIB_THREAD_ASYNC_CANCEL; } else if (type == PTHREAD_CANCEL_ASYNCHRONOUS) { tib->tib_thread_flags |= TIB_THREAD_ASYNC_CANCEL; } else { return (EINVAL); } if (oldtypep) *oldtypep = oldtype; return (0); } void pthread_cleanup_push(void (*fn)(void *), void *arg) { struct rthread_cleanup_fn *clfn; pthread_t self = pthread_self(); clfn = calloc(1, sizeof(*clfn)); if (!clfn) return; clfn->fn = fn; clfn->arg = arg; clfn->next = self->cleanup_fns; self->cleanup_fns = clfn; } void pthread_cleanup_pop(int execute) { struct rthread_cleanup_fn *clfn; pthread_t self = pthread_self(); clfn = self->cleanup_fns; if (clfn) { self->cleanup_fns = clfn->next; if (execute) clfn->fn(clfn->arg); free(clfn); } } int pthread_getconcurrency(void) { return (concurrency_level); } int pthread_setconcurrency(int new_level) { if (new_level < 0) return (EINVAL); concurrency_level = new_level; return (0); } /* * compat debug stuff */ void _thread_dump_info(void) { pthread_t thread; _spinlock(&_thread_lock); LIST_FOREACH(thread, &_thread_list, threads) printf("thread %d flags 0x%x name %s\n", thread->tib->tib_tid, thread->tib->tib_thread_flags, thread->name); _spinunlock(&_thread_lock); } #ifndef NO_PIC /* * _rthread_dl_lock() provides the locking for dlopen(), dlclose(), and * the function called via atexit() to invoke all destructors. The latter * two call shared-object destructors, which may need to call dlclose(), * so this lock needs to permit recursive locking. * The specific code here was extracted from _rthread_mutex_lock() and * pthread_mutex_unlock() and simplified to use the static variables. */ void _rthread_dl_lock(int what) { static _atomic_lock_t lock = _SPINLOCK_UNLOCKED; static pthread_t owner = NULL; static struct pthread_queue lockers = TAILQ_HEAD_INITIALIZER(lockers); static int count = 0; if (what == 0) { pthread_t self = pthread_self(); /* lock, possibly recursive */ _spinlock(&lock); if (owner == NULL) { owner = self; } else if (owner != self) { TAILQ_INSERT_TAIL(&lockers, self, waiting); while (owner != self) { __thrsleep(self, 0, NULL, &lock, NULL); _spinlock(&lock); } } count++; _spinunlock(&lock); } else if (what == 1) { /* unlock, possibly recursive */ if (--count == 0) { pthread_t next; _spinlock(&lock); owner = next = TAILQ_FIRST(&lockers); if (next != NULL) TAILQ_REMOVE(&lockers, next, waiting); _spinunlock(&lock); if (next != NULL) __thrwakeup(next, 1); } } else { /* reinit: used in child after fork to clear the queue */ lock = _SPINLOCK_UNLOCKED; if (--count == 0) owner = NULL; TAILQ_INIT(&lockers); } } #endif