/*
* Creates threads for the threadflows associated with a procflow.
* The routine iterates through the list of threadflows in the
* supplied procflow's pf_threads list. For each threadflow on
* the list, it defines tf_instances number of cloned
* threadflows, and then calls threadflow_createthread() for
* each to create and start the actual operating system thread.
* Note that each of the newly defined threadflows will be linked
* into the procflows threadflow list, but at the head of the
* list, so they will not become part of the supplied set. After
* all the threads have been created, threadflow_init enters
* a join loop for all the threads in the newly defined
* threadflows. Once all the created threads have exited,
* threadflow_init will return 0. If errors are encountered, it
* will return a non zero value.
*/
int
threadflow_init(procflow_t *procflow)
{
threadflow_t *threadflow = procflow->pf_threads;
int ret = 0;
(void) ipc_mutex_lock(&filebench_shm->shm_threadflow_lock);
while (threadflow) {
threadflow_t *newthread;
int instances;
int i;
instances = avd_get_int(threadflow->tf_instances);
filebench_log(LOG_VERBOSE,
"Starting %d %s threads",
instances, threadflow->tf_name);
for (i = 1; i < instances; i++) {
/* Create threads */
newthread =
threadflow_define_common(procflow,
threadflow->tf_name, threadflow, i + 1);
if (newthread == NULL)
return (-1);
ret |= threadflow_createthread(newthread);
}
newthread = threadflow_define_common(procflow,
threadflow->tf_name,
threadflow, 1);
if (newthread == NULL)
return (-1);
/* Create each thread */
ret |= threadflow_createthread(newthread);
threadflow = threadflow->tf_next;
}
threadflow = procflow->pf_threads;
(void) ipc_mutex_unlock(&filebench_shm->shm_threadflow_lock);
while (threadflow) {
/* wait for all threads to finish */
if (threadflow->tf_tid) {
void *status;
if (pthread_join(threadflow->tf_tid, &status) == 0)
ret += *(int *)status;
}
threadflow = threadflow->tf_next;
}
procflow->pf_running = 0;
return (ret);
}
/*
* Creates threads for the threadflows associated with a procflow.
* The routine iterates through the list of threadflows in the
* supplied procflow's pf_threads list. For each threadflow on
* the list, it defines tf_instances number of cloned
* threadflows, and then calls threadflow_createthread() for
* each to create and start the actual operating system thread.
* Note that each of the newly defined threadflows will be linked
* into the procflows threadflow list, but at the head of the
* list, so they will not become part of the supplied set. After
* all the threads have been created, threadflow_init enters
* a join loop for all the threads in the newly defined
* threadflows. Once all the created threads have exited,
* threadflow_init will return 0. If errors are encountered, it
* will return a non zero value.
*/
int
threadflow_init(procflow_t *procflow)
{
threadflow_t *threadflow = procflow->pf_threads;
int ret = 0;
(void) ipc_mutex_lock(&filebench_shm->threadflow_lock);
#ifndef USE_PROCESS_MODEL
my_procflow = procflow;
(void) signal(SIGUSR1, threadflow_cancel);
#endif
while (threadflow) {
threadflow_t *newthread;
int i;
filebench_log(LOG_VERBOSE,
"Starting %lld %s threads",
*(threadflow->tf_instances),
threadflow->tf_name);
for (i = 1; i < *threadflow->tf_instances; i++) {
/* Create threads */
newthread =
threadflow_define_common(procflow,
threadflow->tf_name, threadflow, i + 1);
if (newthread == NULL)
return (-1);
ret += threadflow_createthread(newthread);
}
newthread = threadflow_define_common(procflow,
threadflow->tf_name,
threadflow, 1);
if (newthread == NULL)
return (-1);
/* Create threads */
ret += threadflow_createthread(newthread);
threadflow = threadflow->tf_next;
}
threadflow = procflow->pf_threads;
(void) ipc_mutex_unlock(&filebench_shm->threadflow_lock);
while (threadflow) {
void *status;
if (threadflow->tf_tid)
(void) pthread_join(threadflow->tf_tid, &status);
ret += *(int *)status;
threadflow = threadflow->tf_next;
}
procflow->pf_running = 0;
return (ret);
}