/* -*- C++ -*- */ // $Id$ // Thread.i // Allocates a that is used to identify data that is specific // to each thread in the process. The key is global to all threads in // the process. ACE_INLINE int ACE_Thread::keycreate (ACE_thread_key_t *keyp, #if defined (ACE_HAS_THR_C_DEST) ACE_THR_C_DEST destructor, #else ACE_THR_DEST destructor, #endif /* ACE_HAS_THR_C_DEST */ void *inst) { // ACE_TRACE ("ACE_Thread::keycreate"); return ACE_OS::thr_keycreate (keyp, destructor, inst); } // Free up the key so that other threads can reuse it. ACE_INLINE int ACE_Thread::keyfree (ACE_thread_key_t key) { ACE_TRACE ("ACE_Thread::keyfree"); return ACE_OS::thr_keyfree (key); } // Bind value to the thread-specific data key, , for the calling // thread. ACE_INLINE int ACE_Thread::setspecific (ACE_thread_key_t key, void *value) { // ACE_TRACE ("ACE_Thread::setspecific"); return ACE_OS::thr_setspecific (key, value); } // Stores the current value bound to for the calling thread // into the location pointed to by . ACE_INLINE int ACE_Thread::getspecific (ACE_thread_key_t key, void **valuep) { // ACE_TRACE ("ACE_Thread::getspecific"); return ACE_OS::thr_getspecific (key, valuep); } ACE_INLINE ACE_thread_t ACE_Thread::self (void) { // ACE_TRACE ("ACE_Thread::self"); return ACE_OS::thr_self (); } ACE_INLINE void ACE_Thread::exit (void *status) { ACE_TRACE ("ACE_Thread::exit"); ACE_OS::thr_exit (status); } ACE_INLINE void ACE_Thread::yield (void) { ACE_TRACE ("ACE_Thread::yield"); ACE_OS::thr_yield (); } ACE_INLINE int ACE_Thread::spawn (ACE_THR_FUNC func, void *arg, long flags, ACE_thread_t *t_id, ACE_hthread_t *t_handle, long priority, void *thr_stack, size_t thr_stack_size, ACE_Thread_Adapter *thread_adapter) { ACE_TRACE ("ACE_Thread::spawn"); return ACE_OS::thr_create (func, arg, flags, t_id, t_handle, priority, thr_stack, thr_stack_size, thread_adapter); } ACE_INLINE int ACE_Thread::resume (ACE_hthread_t t_id) { ACE_TRACE ("ACE_Thread::resume"); return ACE_OS::thr_continue (t_id); } ACE_INLINE int ACE_Thread::suspend (ACE_hthread_t t_id) { ACE_TRACE ("ACE_Thread::suspend"); return ACE_OS::thr_suspend (t_id); } ACE_INLINE int ACE_Thread::kill (ACE_thread_t t_id, int signum) { ACE_TRACE ("ACE_Thread::kill"); return ACE_OS::thr_kill (t_id, signum); } ACE_INLINE int ACE_Thread::join (ACE_thread_t wait_for, ACE_thread_t *departed, void **status) { ACE_TRACE ("ACE_Thread::join"); return ACE_OS::thr_join (wait_for, departed, status); } ACE_INLINE int ACE_Thread::join (ACE_hthread_t wait_for, void **status) { ACE_TRACE ("ACE_Thread::join"); return ACE_OS::thr_join (wait_for, status); } ACE_INLINE int ACE_Thread::getconcurrency (void) { ACE_TRACE ("ACE_Thread::getconcurrency"); return ACE_OS::thr_getconcurrency (); } ACE_INLINE int ACE_Thread::setconcurrency (int new_level) { ACE_TRACE ("ACE_Thread::setconcurrency"); return ACE_OS::thr_setconcurrency (new_level); } ACE_INLINE int ACE_Thread::sigsetmask (int how, const sigset_t *sigset, sigset_t *osigset) { ACE_TRACE ("ACE_Thread::sigsetmask"); return ACE_OS::thr_sigsetmask (how, sigset, osigset); } ACE_INLINE int ACE_Thread::disablecancel (struct cancel_state *old_state) { ACE_TRACE ("ACE_Thread::disablecancel"); int old_cstate = 0; int retval; if ((retval = ACE_OS::thr_setcancelstate (THR_CANCEL_DISABLE, &old_cstate)) == 0) if (old_state != 0) { ACE_OS::memset (old_state, 0, sizeof(old_state)); old_state->cancelstate = old_cstate; } return retval; } ACE_INLINE int ACE_Thread::enablecancel (struct cancel_state *old_state, int flag) { ACE_TRACE ("ACE_Thread::enablecancel"); int old_cstate = 0; int old_ctype = 0; int retval; retval = ACE_OS::thr_setcancelstate (THR_CANCEL_ENABLE, &old_cstate); if (retval != 0) return retval; retval = ACE_OS::thr_setcanceltype (flag, &old_ctype); if (retval != 0) return retval; if (old_state != 0) { old_state->cancelstate = old_cstate; old_state->canceltype = old_ctype; } return 0; } ACE_INLINE int ACE_Thread::setcancelstate (struct cancel_state &new_state, struct cancel_state *old_state) { ACE_TRACE ("ACE_Thread::setcancelstate"); int old_cstate = 0; int old_ctype = 0; if (new_state.cancelstate != 0 && ACE_OS::thr_setcancelstate (new_state.cancelstate, &old_cstate) == 0) return -1; if (new_state.canceltype != 0 && ACE_OS::thr_setcanceltype (new_state.canceltype, &old_ctype) == 0) { int o_cstate; ACE_OS::thr_setcancelstate (old_cstate, &o_cstate); return -1; } if (old_state != 0) { old_state->cancelstate = old_cstate; old_state->canceltype = old_ctype; } return 0; } ACE_INLINE int ACE_Thread::cancel (ACE_thread_t t_id) { ACE_TRACE ("ACE_Thread::cancel"); return ACE_OS::thr_cancel (t_id); } ACE_INLINE void ACE_Thread::testcancel (void) { ACE_TRACE ("ACE_Thread::testcancel"); ACE_OS::thr_testcancel (); } ACE_INLINE void ACE_Thread::self (ACE_hthread_t &t_id) { // ACE_TRACE ("ACE_Thread::self"); ACE_OS::thr_self (t_id); } ACE_INLINE int ACE_Thread::getprio (ACE_hthread_t t_id, int &prio) { ACE_TRACE ("ACE_Thread::getprio"); return ACE_OS::thr_getprio (t_id, prio); } ACE_INLINE int ACE_Thread::setprio (ACE_hthread_t t_id, int prio) { ACE_TRACE ("ACE_Thread::setprio"); return ACE_OS::thr_setprio (t_id, prio); }