/* $OpenBSD: rthread_libc.c,v 1.11 2013/06/01 20:47:40 tedu Exp $ */ /* $snafu: libc_tag.c,v 1.4 2004/11/30 07:00:06 marc Exp $ */ /* PUBLIC DOMAIN: No Rights Reserved. Marco S Hyman */ #include #include #include #include #include "thread_private.h" /* in libc/include */ #include "rthread.h" /* * A thread tag is a pointer to a structure of this type. An opaque * tag is used to decouple libc from the thread library. */ struct _thread_tag { pthread_mutex_t m; /* the tag's mutex */ pthread_key_t k; /* a key for private data */ }; /* * local mutex to protect against tag creation races. */ static pthread_mutex_t _thread_tag_mutex = PTHREAD_MUTEX_INITIALIZER; /* * Initialize a thread tag structure once. This function is called * if the tag is null. Allocation and initialization are controlled * by a mutex. If the tag is not null when the mutex is obtained * the caller lost a race -- some other thread initialized the tag. * This function will never return NULL. */ static void _thread_tag_init(void **tag) { struct _thread_tag *tt; int result; result = pthread_mutex_lock(&_thread_tag_mutex); if (result == 0) { if (*tag == NULL) { tt = malloc(sizeof *tt); if (tt != NULL) { result = pthread_mutex_init(&tt->m, NULL); result |= pthread_key_create(&tt->k, free); *tag = tt; } } result |= pthread_mutex_unlock(&_thread_tag_mutex); } if (result != 0) _rthread_debug(1, "tag init failure"); } /* * lock the mutex associated with the given tag */ void _thread_tag_lock(void **tag) { struct _thread_tag *tt; if (__isthreaded) { if (*tag == NULL) _thread_tag_init(tag); tt = *tag; if (pthread_mutex_lock(&tt->m) != 0) _rthread_debug(1, "tag mutex lock failure"); } } /* * unlock the mutex associated with the given tag */ void _thread_tag_unlock(void **tag) { struct _thread_tag *tt; if (__isthreaded) { if (*tag == NULL) _thread_tag_init(tag); tt = *tag; if (pthread_mutex_unlock(&tt->m) != 0) _rthread_debug(1, "tag mutex unlock failure"); } } /* * return the thread specific data for the given tag. If there * is no data for this thread initialize it from 'storage'. * On any error return 'err'. */ void * _thread_tag_storage(void **tag, void *storage, size_t sz, void *err) { struct _thread_tag *tt; void *ret; if (*tag == NULL) _thread_tag_init(tag); tt = *tag; ret = pthread_getspecific(tt->k); if (ret == NULL) { ret = malloc(sz); if (ret == NULL) ret = err; else { if (pthread_setspecific(tt->k, ret) == 0) memcpy(ret, storage, sz); else { free(ret); ret = err; } } } return ret; } void _thread_mutex_lock(void **mutex) { pthread_mutex_t *pmutex = (pthread_mutex_t *)mutex; if (pthread_mutex_lock(pmutex) != 0) _rthread_debug(1, "mutex lock failure"); } void _thread_mutex_unlock(void **mutex) { pthread_mutex_t *pmutex = (pthread_mutex_t *)mutex; if (pthread_mutex_unlock(pmutex) != 0) _rthread_debug(1, "mutex unlock failure"); } void _thread_mutex_destroy(void **mutex) { pthread_mutex_t *pmutex = (pthread_mutex_t *)mutex; if (pthread_mutex_destroy(pmutex) != 0) _rthread_debug(1, "mutex destroy failure"); } /* * the malloc lock */ static struct _spinlock malloc_lock = _SPINLOCK_UNLOCKED; void _thread_malloc_lock(void) { _spinlock(&malloc_lock); } void _thread_malloc_unlock(void) { _spinunlock(&malloc_lock); } /* * atexit lock */ static struct _spinlock atexit_lock = _SPINLOCK_UNLOCKED; void _thread_atexit_lock(void) { _spinlock(&atexit_lock); } void _thread_atexit_unlock(void) { _spinunlock(&atexit_lock); } /* * arc4random lock */ static struct _spinlock arc4_lock = _SPINLOCK_UNLOCKED; void _thread_arc4_lock(void) { _spinlock(&arc4_lock); } void _thread_arc4_unlock(void) { _spinunlock(&arc4_lock); }