/* libpthread's stronger functions */ #include #include #include "pthread_private.h" void _libc_private_storage_lock(mutex) pthread_mutex_t *mutex; { if (__isthreaded && pthread_mutex_lock(mutex) != 0) PANIC("_libc_private_storage_lock"); } void _libc_private_storage_unlock(mutex) pthread_mutex_t *mutex; { if (__isthreaded && pthread_mutex_unlock(mutex) != 0) PANIC("_libc_private_storage_unlock"); } void * _libc_private_storage(volkey, init, initsz, error) volatile struct _thread_private_key_struct * volkey; void * init; size_t initsz; void * error; { void *result; void (*cleanfn) __P((void *)); struct _thread_private_key_struct * key; /* Use static storage while not threaded: */ if (!__isthreaded) return init; key = (struct _thread_private_key_struct *)volkey; /* for gcc */ /* Create the key once: */ if (volkey->once.state == PTHREAD_NEEDS_INIT) { if (pthread_mutex_lock(&key->once.mutex) != 0) return error; if (volkey->once.state == PTHREAD_NEEDS_INIT) { if (key->cleanfn == NULL) cleanfn = free; else cleanfn = key->cleanfn; if (pthread_key_create(&key->key, cleanfn) != 0) { pthread_mutex_unlock(&key->once.mutex); return error; } key->once.state = PTHREAD_DONE_INIT; } pthread_mutex_unlock(&key->once.mutex); } /* XXX signals may cause re-entrancy here? */ /* Acquire this key's thread-specific storage: */ result = pthread_getspecific(key->key); /* Allocate and initialise storage if unallocated: */ if (result == NULL) { result = malloc(initsz); if (result == NULL) return error; if (pthread_setspecific(key->key, result) != 0) { free(result); return error; } memcpy(result, init, initsz); } return result; }