#include "silc.h"
SILC_TASK_CALLBACK(silc_fsm_run);
-SILC_TASK_CALLBACK(silc_fsm_finish);
+SILC_TASK_CALLBACK(silc_fsm_finish_fsm);
SILC_TASK_CALLBACK(silc_fsm_sema_timedout);
SILC_TASK_CALLBACK(silc_fsm_start_real_thread);
static void *silc_fsm_thread(void *context);
SilcFSM fsm;
fsm = silc_calloc(1, sizeof(*fsm));
- if (!fsm)
+ if (silc_unlikely(!fsm))
return NULL;
- if (!silc_fsm_init(fsm, fsm_context, destructor,
- destructor_context, schedule)) {
+ if (silc_unlikely(!silc_fsm_init(fsm, fsm_context, destructor,
+ destructor_context, schedule))) {
silc_free(fsm);
return NULL;
}
fsm->schedule = schedule;
fsm->thread = FALSE;
fsm->async_call = FALSE;
+ fsm->started = FALSE;
fsm->u.m.threads = 0;
fsm->u.m.lock = NULL;
SilcFSMThread thread;
thread = silc_calloc(1, sizeof(*thread));
- if (!thread)
+ if (silc_unlikely(!thread))
return NULL;
silc_fsm_thread_init(thread, fsm, thread_context, destructor,
SILC_LOG_DEBUG(("Initializing new thread %p (%s)",
thread, real_thread ? "real" : "FSM"));
-#if defined(SILC_DEBUG)
- assert(!fsm->thread);
-#endif /* SILC_DEBUG */
+ SILC_ASSERT(!fsm->thread);
thread->fsm_context = thread_context;
thread->state_context = NULL;
thread->schedule = fsm->schedule;
thread->thread = TRUE;
thread->async_call = FALSE;
+ thread->started = FALSE;
thread->real_thread = real_thread;
thread->u.t.fsm = fsm;
#if defined(SILC_DEBUG)
/* We must be finished */
- assert(f->finished);
+ SILC_ASSERT(f->finished);
/* Machine must not have active threads */
if (!f->thread && f->u.m.threads)
- assert(f->u.m.threads == 0);
+ SILC_ASSERT(f->u.m.threads == 0);
#endif /* SILC_DEBUG */
if (!f->thread && f->u.m.lock)
void silc_fsm_free(void *fsm)
{
SilcFSM f = fsm;
- silc_schedule_task_add_timeout(f->schedule, silc_fsm_free_final, f, 0, 1);
+ if (!f->thread)
+ if (silc_schedule_task_add_timeout(f->schedule, silc_fsm_free_final,
+ f, 0, 0))
+ return;
+ silc_fsm_free_final(f->schedule, silc_schedule_get_context(f->schedule),
+ 0, 0, f);
}
/* Task to start real thread. We start threads through scheduler, not
f->finished = FALSE;
f->next_state = start_state;
f->synchronous = FALSE;
+ f->started = TRUE;
/* Start real thread through scheduler */
if (f->thread && f->real_thread) {
- silc_schedule_task_add_timeout(f->schedule, silc_fsm_start_real_thread,
- f, 0, 1);
+ if (!silc_schedule_task_add_timeout(f->schedule,
+ silc_fsm_start_real_thread,
+ f, 0, 0))
+ silc_fsm_start_real_thread(f->schedule,
+ silc_schedule_get_context(f->schedule),
+ 0, 0, f);
return;
}
/* Normal FSM operation */
- silc_schedule_task_add_timeout(f->schedule, silc_fsm_run, f, 0, 1);
+ if (!silc_schedule_task_add_timeout(f->schedule, silc_fsm_run, f, 0, 0))
+ silc_fsm_run(f->schedule, silc_schedule_get_context(f->schedule), 0, 0, f);
}
/* Start FSM in the specified state synchronously */
f->finished = FALSE;
f->next_state = start_state;
f->synchronous = TRUE;
+ f->started = TRUE;
/* Start real thread directly */
if (f->thread && f->real_thread) {
return;
silc_schedule_task_add_timeout(f->schedule, silc_fsm_run, f,
seconds, useconds);
+ f->next_later = TRUE;
}
/* Continue after callback or async operation */
void silc_fsm_continue(void *fsm)
{
SilcFSM f = fsm;
- silc_schedule_task_add_timeout(f->schedule, silc_fsm_run, f, 0, 1);
+ if (f->next_later) {
+ silc_schedule_task_del_by_all(f->schedule, 0, silc_fsm_run, f);
+ f->next_later = FALSE;
+ }
+ if (!silc_schedule_task_add_timeout(f->schedule, silc_fsm_run, f, 0, 0))
+ silc_fsm_run(f->schedule, silc_schedule_get_context(f->schedule), 0, 0, f);
}
/* Continue after callback or async operation immediately */
void silc_fsm_continue_sync(void *fsm)
{
SilcFSM f = fsm;
+ if (f->next_later) {
+ silc_schedule_task_del_by_all(f->schedule, 0, silc_fsm_run, f);
+ f->next_later = FALSE;
+ }
silc_fsm_run(f->schedule, silc_schedule_get_context(f->schedule), 0, 0, f);
}
+/* Finish FSM */
+
+void silc_fsm_finish(void *fsm)
+{
+ SilcFSM f = fsm;
+
+ SILC_ASSERT(!f->finished);
+
+ /* Machine must not have active threads */
+ if (!f->thread && f->u.m.threads)
+ assert(f->u.m.threads == 0);
+
+ f->started = FALSE;
+ f->finished = TRUE;
+
+ silc_schedule_task_del_by_all(f->schedule, 0, silc_fsm_run, f);
+ f->next_later = FALSE;
+
+ /* If we are thread and using real threads, the FSM thread will finish
+ after the real thread has finished, in the main thread. */
+ if (f->thread && f->real_thread) {
+ /* Stop the real thread's scheduler to finish the thread */
+ silc_schedule_stop(f->schedule);
+ silc_schedule_wakeup(f->schedule);
+ return;
+ }
+
+ /* Normal FSM operation */
+ if (!f->synchronous)
+ if (silc_schedule_task_add_timeout(f->schedule, silc_fsm_finish_fsm,
+ f, 0, 0))
+ return;
+
+ silc_fsm_finish_fsm(f->schedule, silc_schedule_get_context(f->schedule),
+ 0, 0, fsm);
+}
+
/* Return associated scheduler */
SilcSchedule silc_fsm_get_schedule(void *fsm)
SilcFSM silc_fsm_get_machine(SilcFSMThread thread)
{
- assert(thread->thread);
+ SILC_ASSERT(thread->thread);
return (SilcFSM)thread->u.t.fsm;
}
+/* Returns TRUE if FSM is started */
+
+SilcBool silc_fsm_is_started(void *fsm)
+{
+ SilcFSM f = fsm;
+ return f->started;
+}
+
/* Set context */
void silc_fsm_set_context(void *fsm, void *fsm_context)
{
SilcFSM t = thread;
-#if defined(SILC_DEBUG)
- assert(t->thread);
-#endif /* SILC_DEBUG */
+ SILC_ASSERT(t->thread);
- if (t->finished)
- return FALSE;
t->u.t.sema = silc_fsm_sema_alloc(t->u.t.fsm, 0);
if (!t->u.t.sema)
return FALSE;
case SILC_FSM_FINISH:
/* Finish the state machine */
SILC_LOG_DEBUG(("State finish %p", fsm));
-#if defined(SILC_DEBUG)
- assert(!fsm->finished);
-#endif /* SILC_DEBUG */
- fsm->finished = TRUE;
-
- /* If we are thread and using real threads, the FSM thread will finish
- in the main thread, not in the created thread. */
- if (fsm->thread && fsm->real_thread) {
- silc_schedule_task_add_timeout(app_context, silc_fsm_finish, fsm, 0, 1);
- silc_schedule_wakeup(app_context);
- silc_schedule_stop(fsm->schedule);
- break;
- }
-
- /* Normal FSM operation */
- if (fsm->synchronous)
- silc_fsm_finish(fsm->schedule, app_context, 0, 0, fsm);
- else
- silc_schedule_task_add_timeout(fsm->schedule, silc_fsm_finish,
- fsm, 0, 1);
+ silc_fsm_finish(fsm);
break;
default:
/* Finishes the FSM. This is always executed in the main thread, even
for FSM threads that were run in real threads. */
-SILC_TASK_CALLBACK(silc_fsm_finish)
+SILC_TASK_CALLBACK(silc_fsm_finish_fsm)
{
SilcFSM fsm = context;
SilcFSMSema sema;
sema = silc_calloc(1, sizeof(*sema));
- if (!sema)
+ if (silc_unlikely(!sema))
return NULL;
silc_fsm_sema_init(sema, fsm, value);
void silc_fsm_sema_init(SilcFSMSema sema, SilcFSM fsm, SilcUInt32 value)
{
SILC_LOG_DEBUG(("Initializing semaphore %p", sema));
-#if defined(SILC_DEBUG)
- assert(!fsm->thread);
-#endif /* SILC_DEBUG */
+ SILC_ASSERT(!fsm->thread);
memset(sema, 0, sizeof(*sema));
sema->fsm = fsm;
sema->refcnt = 0;
{
if (sema->refcnt > 0)
return;
-#if defined(SILC_DEBUG)
- assert(silc_list_count(sema->waiters) == 0);
-#endif /* SILC_DEBUG */
+ if (silc_list_count(sema->waiters) > 0)
+ return;
silc_free(sema);
}
SilcFSM entry;
silc_list_start(sema->waiters);
while ((entry = silc_list_get(sema->waiters)) != SILC_LIST_END)
- assert(entry != fsm);
+ SILC_ASSERT(entry != fsm);
#endif /* SILC_DEBUG */
SILC_LOG_DEBUG(("Waiting for semaphore %p", sema));
}
p = silc_calloc(1, sizeof(*p));
- if (!p)
+ if (silc_unlikely(!p))
continue;
p->sema = sema;
p->fsm = fsm;
/* Signal through scheduler. Wake up destination scheduler in case
caller is a real thread. */
- silc_schedule_task_add_timeout(fsm->schedule, silc_fsm_signal, p, 0, 1);
+ silc_schedule_task_add_timeout(fsm->schedule, silc_fsm_signal, p, 0, 0);
silc_schedule_wakeup(fsm->schedule);
}
cannot be used in this thread. Application may still use it if it
wants but we use our own. */
fsm->schedule = silc_schedule_init(0, old);
- if (!fsm->schedule)
+ if (silc_unlikely(!fsm->schedule))
return NULL;
/* Start the FSM thread */
- if (!silc_schedule_task_add_timeout(fsm->schedule, silc_fsm_run, fsm, 0, 1))
+ if (silc_unlikely(!silc_schedule_task_add_timeout(fsm->schedule,
+ silc_fsm_run, fsm, 0, 0)))
return NULL;
/* Run the scheduler */
fsm->schedule = old;
+ /* Finish the FSM thread in the main thread */
+ SILC_ASSERT(fsm->finished);
+ silc_schedule_task_add_timeout(fsm->schedule, silc_fsm_finish_fsm,
+ fsm, 0, 0);
+ silc_schedule_wakeup(fsm->schedule);
+
return NULL;
}