X-Git-Url: https://gerrit.automotivelinux.org/gerrit/gitweb?a=blobdiff_plain;f=src%2Fjobs.c;h=1ed20fcb3a57722cfa1fcab81d1704f4bfbf5dc5;hb=9fe2dfd3c4df334607083f989346090e1051a565;hp=3d912a54c1307f5c8d7d253a3b151a558a730be1;hpb=c9ba2ce49808a19a4ef982280a46256797b830ae;p=src%2Fapp-framework-binder.git diff --git a/src/jobs.c b/src/jobs.c index 3d912a54..1ed20fcb 100644 --- a/src/jobs.c +++ b/src/jobs.c @@ -18,6 +18,7 @@ #define _GNU_SOURCE #include +#include #include #include #include @@ -39,6 +40,9 @@ #define sig_monitor(to,cb,arg) (cb(0,arg)) #endif +#define EVENT_TIMEOUT_TOP ((uint64_t)-1) +#define EVENT_TIMEOUT_CHILD ((uint64_t)10000) + /** Internal shortcut for callback */ typedef void (*job_cb_t)(int, void*, void *, void*); @@ -61,6 +65,7 @@ struct events { struct events *next; struct sd_event *event; + uint64_t timeout; unsigned runs: 1; }; @@ -145,45 +150,31 @@ end: } /** - * Adds 'job1' and 'job2' at the end of the list of jobs, marking it + * Adds 'job' at the end of the list of jobs, marking it * as blocked if an other job with the same group is pending. - * @param job1 the first job to add - * @param job2 the second job to add or NULL + * @param job the job to add */ -static void job_add2(struct job *job1, struct job *job2) +static void job_add(struct job *job) { - void *group1, *group2, *group; + void *group; struct job *ijob, **pjob; /* prepare to add */ - group1 = job1->group; - job1->next = job2; - if (!job2) - group2 = NULL; - else { - job2->next = NULL; - group2 = job2->group; - if (group2 && group2 == group1) - job2->blocked = 1; - } + group = job->group; + job->next = NULL; /* search end and blockers */ pjob = &first_job; ijob = first_job; while (ijob) { - group = ijob->group; - if (group) { - if (group == group1) - job1->blocked = 1; - if (group == group2) - job2->blocked = 1; - } + if (group && ijob->group == group) + job->blocked = 1; pjob = &ijob->next; ijob = ijob->next; } /* queue the jobs */ - *pjob = job1; + *pjob = job; } /** @@ -290,7 +281,7 @@ static void events_call(int signum, void *arg) { struct events *events = arg; if (!signum) - sd_event_run(events->event, (uint64_t) -1); + sd_event_run(events->event, events->timeout); } /** @@ -305,6 +296,7 @@ static void thread_run(volatile struct thread *me) struct thread **prv; struct job *job; struct events *events; + uint64_t evto; /* initialize description of itself and link it in the list */ me->tid = pthread_self(); @@ -312,14 +304,19 @@ static void thread_run(volatile struct thread *me) me->lowered = 0; me->waits = 0; me->upper = current; - if (current) + if (current) { current->lowered = 1; - else + evto = EVENT_TIMEOUT_CHILD; + } else { + started++; sig_monitor_init_timeouts(); - current = (struct thread*)me; + evto = EVENT_TIMEOUT_TOP; + } me->next = threads; threads = (struct thread*)me; - started++; + current = (struct thread*)me; + + NOTICE("job thread starting %d(/%d) %s", started, allowed, me->upper ? "child" : "parent"); /* loop until stopped */ me->events = NULL; @@ -352,6 +349,7 @@ static void thread_run(volatile struct thread *me) if (events) { /* run the events */ events->runs = 1; + events->timeout = evto; me->events = events; pthread_mutex_unlock(&mutex); sig_monitor(0, events_call, events); @@ -368,18 +366,20 @@ static void thread_run(volatile struct thread *me) } } } + NOTICE("job thread stoping %d(/%d) %s", started, allowed, me->upper ? "child" : "parent"); /* unlink the current thread and cleanup */ - started--; prv = &threads; while (*prv != me) prv = &(*prv)->next; *prv = me->next; current = me->upper; - if (current) + if (current) { current->lowered = 0; - else + } else { sig_monitor_clean_timeouts(); + started--; + } } /** @@ -551,7 +551,7 @@ int jobs_queue3( /* queues the job */ remains--; - job_add2(job, NULL); + job_add(job); /* signal an existing job */ pthread_cond_signal(&cond); @@ -568,155 +568,161 @@ error: } /** - * Run a asynchronous job represented by 'callback' - * with the 'timeout' but only returns after job completion. - * @param timeout The maximum execution time in seconds of the job - * or 0 for unlimited time. - * @param callback The function to execute for achieving the job. - * Its first parameter is either 0 on normal flow - * or the signal number that broke the normal flow. - * @return 0 in case of success or -1 in case of error + * Enter a synchronisation point: activates the job given by 'callback' + * @param group the gro */ -int jobs_invoke0( +int jobs_enter( + void *group, int timeout, - void (*callback)(int signum)) + void (*callback)(int signum, void *closure, struct jobloop *jobloop), + void *closure) { - return jobs_invoke3(timeout, (job_cb_t)callback, NULL, NULL, NULL); -} + + struct job *job; + struct thread me; -/** - * Run a asynchronous job represented by 'callback' and 'arg1' - * with the 'timeout' but only returns after job completion. - * @param timeout The maximum execution time in seconds of the job - * or 0 for unlimited time. - * @param callback The function to execute for achieving the job. - * Its first parameter is either 0 on normal flow - * or the signal number that broke the normal flow. - * The remaining parameter is the parameter 'arg1' - * given here. - * @param arg1 The second argument for 'callback' - * @return 0 in case of success or -1 in case of error - */ -int jobs_invoke( - int timeout, - void (*callback)(int, void*), - void *arg) -{ - return jobs_invoke3(timeout, (job_cb_t)callback, arg, NULL, NULL); -} + pthread_mutex_lock(&mutex); -/** - * Run a asynchronous job represented by 'callback' and 'arg[12]' - * with the 'timeout' but only returns after job completion. - * @param timeout The maximum execution time in seconds of the job - * or 0 for unlimited time. - * @param callback The function to execute for achieving the job. - * Its first parameter is either 0 on normal flow - * or the signal number that broke the normal flow. - * The remaining parameters are the parameters 'arg[12]' - * given here. - * @param arg1 The second argument for 'callback' - * @param arg2 The third argument for 'callback' - * @return 0 in case of success or -1 in case of error - */ -int jobs_invoke2( - int timeout, - void (*callback)(int, void*, void*), - void *arg1, - void *arg2) -{ - return jobs_invoke3(timeout, (job_cb_t)callback, arg1, arg2, NULL); + /* allocates the job */ + job = job_create(group, timeout, (job_cb_t)callback, closure, &me, NULL); + if (!job) { + ERROR("out of memory"); + errno = ENOMEM; + pthread_mutex_unlock(&mutex); + return -1; + } + + /* queues the job */ + job_add(job); + + /* run until stopped */ + thread_run(&me); + pthread_mutex_unlock(&mutex); + return 0; } -/** - * Stops the thread pointed by 'arg1'. Used with - * invoke familly to return to the caller after completion. - * @param signum Unused - * @param arg1 The thread to stop - * @param arg2 Unused - * @param arg3 Unused - */ -static void unlock_invoker(int signum, void *arg1, void *arg2, void *arg3) +int jobs_leave(struct jobloop *jobloop) { - struct thread *t = arg1; + struct thread *t; pthread_mutex_lock(&mutex); - t->stop = 1; - if (t->waits) - pthread_cond_broadcast(&cond); + + t = threads; + while (t && t != (struct thread*)jobloop) + t = t->next; + if (!t) { + errno = EINVAL; + } else { + t->stop = 1; + if (t->waits) + pthread_cond_broadcast(&cond); + } pthread_mutex_unlock(&mutex); + return -!t; } /** - * Run a asynchronous job represented by 'callback' and 'arg[123]' - * with the 'timeout' but only returns after job completion. - * @param timeout The maximum execution time in seconds of the job - * or 0 for unlimited time. - * @param callback The function to execute for achieving the job. - * Its first parameter is either 0 on normal flow - * or the signal number that broke the normal flow. - * The remaining parameters are the parameters 'arg[123]' - * given here. - * @param arg1 The second argument for 'callback' - * @param arg2 The third argument for 'callback' - * @param arg3 The forth argument for 'callback' - * @return 0 in case of success or -1 in case of error + * Gets a sd_event item for the current thread. + * @return a sd_event or NULL in case of error */ -int jobs_invoke3( - int timeout, - void (*callback)(int, void*, void *, void*), - void *arg1, - void *arg2, - void *arg3) +struct sd_event *jobs_get_sd_event() { - struct job *job1, *job2; - struct thread me; - + struct events *events; + struct thread *me; + int rc; + pthread_mutex_lock(&mutex); - /* allocates the job */ - job1 = job_create(&me, timeout, callback, arg1, arg2, arg3); - job2 = job_create(&me, 0, unlock_invoker, &me, NULL, NULL); - if (!job1 || !job2) { - ERROR("out of memory"); - errno = ENOMEM; - if (job1) { - job1->next = free_jobs; - free_jobs = job1; + /* search events on stack */ + me = current; + while (me && !me->events) + me = me->upper; + if (me) + /* return the stacked events */ + events = me->events; + else { + /* search an available events */ + events = events_get(); + if (!events) { + /* not found, check if creation possible */ + if (nevents >= allowed) { + ERROR("not possible to add a new event"); + events = NULL; + } else { + events = malloc(sizeof *events); + if (events && (rc = sd_event_new(&events->event)) >= 0) { + if (nevents < started || start_one_thread() >= 0) { + events->runs = 0; + events->next = first_events; + first_events = events; + } else { + ERROR("can't start thread for events"); + sd_event_unref(events->event); + free(events); + events = NULL; + } + } else { + if (!events) { + ERROR("out of memory"); + errno = ENOMEM; + } else { + free(events); + ERROR("creation of sd_event failed: %m"); + events = NULL; + errno = -rc; + } + } + } } - if (job2) { - job2->next = free_jobs; - free_jobs = job2; + if (events) { + /* */ + me = current; + if (me) { + events->runs = 1; + me->events = events; + } else { + WARNING("event returned for unknown thread!"); + } } - pthread_mutex_unlock(&mutex); - return -1; } - - /* queues the job */ - job_add2(job1, job2); - - /* run until stopped */ - thread_run(&me); pthread_mutex_unlock(&mutex); - return 0; + return events ? events->event : NULL; } /** - * Initialise the job stuff. - * @param allowed_count Maximum count of thread for jobs (can be 0, - * see 'jobs_add_me' for merging new threads) + * Enter the jobs processing loop. + * @param allowed_count Maximum count of thread for jobs including this one * @param start_count Count of thread to start now, must be lower. * @param waiter_count Maximum count of jobs that can be waiting. + * @param start The start routine to activate (can't be NULL) * @return 0 in case of success or -1 in case of error. */ -int jobs_init(int allowed_count, int start_count, int waiter_count) +int jobs_start(int allowed_count, int start_count, int waiter_count, void (*start)()) { int rc, launched; + struct thread me; + struct job *job; - assert(allowed_count >= 0); + assert(allowed_count >= 1); assert(start_count >= 0); assert(waiter_count > 0); assert(start_count <= allowed_count); + rc = -1; + pthread_mutex_lock(&mutex); + + /* check whether already running */ + if (current || allowed) { + ERROR("thread already started"); + errno = EINVAL; + goto error; + } + + /* start */ + if (sig_monitor_init() < 0) { + ERROR("failed to initialise signal handlers"); + goto error; + } + /* records the allowed count */ allowed = allowed_count; started = 0; @@ -724,16 +730,30 @@ int jobs_init(int allowed_count, int start_count, int waiter_count) remains = waiter_count; /* start at least one thread */ - pthread_mutex_lock(&mutex); launched = 0; - while (launched < start_count && start_one_thread() == 0) + while ((launched + 1) < start_count) { + if (start_one_thread() != 0) { + ERROR("Not all threads can be started"); + goto error; + } launched++; - rc = -(launched != start_count); - pthread_mutex_unlock(&mutex); + } + + /* queue the start job */ + job = job_create(NULL, 0, (job_cb_t)start, NULL, NULL, NULL); + if (!job) { + ERROR("out of memory"); + errno = ENOMEM; + goto error; + } + job_add(job); + remains--; - /* end */ - if (rc) - ERROR("Not all threads can be started"); + /* run until end */ + thread_run(&me); + rc = 0; +error: + pthread_mutex_unlock(&mutex); return rc; } @@ -820,130 +840,3 @@ void jobs_terminate() pthread_mutex_unlock(&mutex); } -/** - * Adds the current thread to the pool of threads - * processing the jobs. Returns normally when the threads are - * terminated or immediately with an error if the thread is - * already in the pool. - * @return 0 in case of success or -1 in case of error - */ -int jobs_add_me() -{ - struct thread me; - - /* check whether already running */ - if (current) { - ERROR("thread already running"); - errno = EINVAL; - return -1; - } - - /* allowed... */ - pthread_mutex_lock(&mutex); - allowed++; - thread_run(&me); - allowed--; - pthread_mutex_unlock(&mutex); - return 0; -} - -/** - * Gets a sd_event item for the current thread. - * @return a sd_event or NULL in case of error - */ -struct sd_event *jobs_get_sd_event() -{ - struct events *events; - struct thread *me; - int rc; - - pthread_mutex_lock(&mutex); - - /* search events on stack */ - me = current; - while (me && !me->events) - me = me->upper; - if (me) - /* return the stacked events */ - events = me->events; - else { - /* search an available events */ - events = events_get(); - if (!events) { - /* not found, check if creation possible */ - if (nevents >= allowed) { - ERROR("not possible to add a new event"); - events = NULL; - } else { - events = malloc(sizeof *events); - if (events && (rc = sd_event_new(&events->event)) >= 0) { - if (nevents < started || start_one_thread() >= 0) { - events->runs = 0; - events->next = first_events; - first_events = events; - } else { - ERROR("can't start thread for events"); - sd_event_unref(events->event); - free(events); - events = NULL; - } - } else { - if (!events) { - ERROR("out of memory"); - errno = ENOMEM; - } else { - free(events); - ERROR("creation of sd_event failed: %m"); - events = NULL; - errno = -rc; - } - } - } - } - if (events) { - /* */ - me = current; - if (me) { - events->runs = 1; - me->events = events; - } else { - WARNING("event returned for unknown thread!"); - } - } - } - pthread_mutex_unlock(&mutex); - return events ? events->event : NULL; -} - -/** - * Enter the jobs processing loop. - * @param allowed_count Maximum count of thread for jobs including this one - * @param start_count Count of thread to start now, must be lower. - * @param waiter_count Maximum count of jobs that can be waiting. - * @param start The start routine to activate (can't be NULL) - * @return 0 in case of success or -1 in case of error. - */ -int jobs_enter(int allowed_count, int start_count, int waiter_count, void (*start)()) -{ - /* start */ - if (sig_monitor_init() < 0) { - ERROR("failed to initialise signal handlers"); - return -1; - } - - /* init job processing */ - if (jobs_init(allowed_count, start_count, waiter_count) < 0) { - ERROR("failed to initialise threading"); - return -1; - } - - /* queue the start job */ - if (jobs_queue0(NULL, 0, (void(*)(int))start) < 0) { - ERROR("failed to start runnning jobs"); - return -1; - } - - /* turn as processing thread */ - return jobs_add_me(); -} -