#include <errno.h>
#include <assert.h>
+#include <systemd/sd-event.h>
+
#include "jobs.h"
#include "sig-monitor.h"
#include "verbose.h"
unsigned dropped: 1; /**< is removed ? */
};
+/** Description of handled event loops */
+struct events
+{
+ struct events *next;
+ struct sd_event *event;
+ unsigned runs: 1;
+};
+
/** Description of threads */
struct thread
{
- struct thread *next; /**< next thread of the list */
- struct thread *upper; /**< upper same thread */
- struct job *job; /**< currently processed job */
- pthread_t tid; /**< the thread id */
- unsigned stop: 1; /**< stop requested */
- unsigned lowered: 1; /**< has a lower same thread */
- unsigned waits: 1; /**< is waiting? */
+ struct thread *next; /**< next thread of the list */
+ struct thread *upper; /**< upper same thread */
+ struct job *job; /**< currently processed job */
+ struct events *events; /**< currently processed job */
+ pthread_t tid; /**< the thread id */
+ unsigned stop: 1; /**< stop requested */
+ unsigned lowered: 1; /**< has a lower same thread */
+ unsigned waits: 1; /**< is waiting? */
};
/* synchronisation of threads */
static int started = 0; /** started count of threads */
static int waiting = 0; /** waiting count of threads */
static int remains = 0; /** allowed count of waiting jobs */
+static int nevents = 0; /** count of events */
/* list of threads */
static struct thread *threads;
/* queue of pending jobs */
static struct job *first_job;
-static struct job *first_events;
+static struct events *first_events;
static struct job *free_jobs;
/**
/**
* Get the next job to process or NULL if none.
- * @param job the head of the list to search.
* @return the first job that isn't blocked or NULL
*/
-static inline struct job *job_get(struct job *job)
+static inline struct job *job_get()
{
+ struct job *job = first_job;
while (job && job->blocked)
job = job->next;
return job;
}
+/**
+ * Get the next events to process or NULL if none.
+ * @return the first events that isn't running or NULL
+ */
+static inline struct events *events_get()
+{
+ struct events *events = first_events;
+ while (events && events->runs)
+ events = events->next;
+ return events;
+}
+
/**
* Releases the processed 'job': removes it
* from the list of jobs and unblock the first
free_jobs = job;
}
-/**
- * Releases the events 'job': removes it
- * from the list of events.
- * @param job the event to release
- */
-static inline void events_release(struct job *job)
-{
- struct job *ijob, **pjob;
-
- /* first unqueue the job */
- pjob = &first_events;
- ijob = first_events;
- while (ijob != job) {
- pjob = &ijob->next;
- ijob = ijob->next;
- }
- *pjob = job->next;
-
- /* recycle the job */
- job->next = free_jobs;
- free_jobs = job;
-}
-
-/**
- * Get the events of 'key' if existing.
- * @param key the key to search
- * @return the found events or NULL if none existing has key
- */
-static inline struct job *events_of_key(void *key)
-{
- struct job *job;
-
- if (!key)
- job = NULL;
- else {
- job = first_events;
- while (job && (job->dropped || job->group != key))
- job = job->next;
- }
- return job;
-}
-
/**
* Monitored normal callback for a job.
* This function is called by the monitor
job_call(SIGABRT, arg);
}
+/**
+ * Monitored normal callback for events.
+ * This function is called by the monitor
+ * to run the event loop when the safe environment
+ * is set.
+ * @param signum 0 on normal flow or the number
+ * of the signal that interrupted the normal
+ * flow
+ * @param arg the events to run
+ */
+static void events_call(int signum, void *arg)
+{
+ struct events *events = arg;
+ if (!signum)
+ sd_event_run(events->event, (uint64_t) -1);
+}
+
/**
* Main processing loop of threads processing jobs.
* The loop must be called with the mutex locked
* @param me the description of the thread to use
* TODO: how are timeout handled when reentering?
*/
-static void thread_run(struct thread *me)
+static void thread_run(volatile struct thread *me)
{
struct thread **prv;
struct job *job;
+ struct events *events;
/* initialize description of itself and link it in the list */
me->tid = pthread_self();
current->lowered = 1;
else
sig_monitor_init_timeouts();
- current = me;
+ current = (struct thread*)me;
me->next = threads;
- threads = me;
+ threads = (struct thread*)me;
started++;
/* loop until stopped */
+ me->events = NULL;
while (!me->stop) {
/* get a job */
job = job_get(first_job);
/* release the run job */
job_release(job);
+
+ /* release event if any */
+ events = me->events;
+ if (events) {
+ events->runs = 0;
+ me->events = NULL;
+ }
} else {
/* no job, check events */
- job = job_get(first_events);
- if (job) {
+ events = events_get();
+ if (events) {
/* run the events */
- job->blocked = 1;
+ events->runs = 1;
+ me->events = events;
pthread_mutex_unlock(&mutex);
- sig_monitor(job->timeout, job_call, job);
+ sig_monitor(0, events_call, events);
pthread_mutex_lock(&mutex);
- job->blocked = 0;
- if (job->dropped)
- events_release(job);
+ events->runs = 0;
+ me->events = NULL;
} else {
/* no job and not events */
waiting++;
}
/**
- * Adds the events waiter/dispatcher to the list of events waiters/dispatchers
- * to monitor.
- * @param key A key to register the events waiter/dispatcher (see
- * 'jobs_del_events')
- * @param timeout Timeout in second of the function or 0 if none
- * @param events The callback, the first argument is 0 for normal
- * flow or the signal number when normal flow failed
- * @param closure The closure to give to the callback as secondd argument
+ * 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_events(void *key, int timeout, void (*events)(int signum, void*), void *closure)
+int jobs_add_me()
{
- struct job *job;
-
- pthread_mutex_lock(&mutex);
-
- /* look at an already existsing events for same key */
- job = events_of_key(key);
- if (job) {
- pthread_mutex_unlock(&mutex);
- ERROR("events of key %p already exist", key);
- errno = EEXIST;
- return -1;
- }
+ struct thread me;
- /* creates the job */
- job = job_create(key, timeout, (job_cb_t)events, closure, NULL, NULL);
- if (!job) {
- pthread_mutex_unlock(&mutex);
- ERROR("Can't create events, out of memory");
- errno = ENOMEM;
+ /* check whether already running */
+ if (current) {
+ ERROR("thread already running");
+ errno = EINVAL;
return -1;
}
- /* adds the loop */
- job->next = first_events;
- first_events = job;
-
- /* signal the loop */
- if (waiting)
- pthread_cond_signal(&cond);
+ /* allowed... */
+ pthread_mutex_lock(&mutex);
+ allowed++;
+ thread_run(&me);
+ allowed--;
pthread_mutex_unlock(&mutex);
return 0;
}
/**
- * Removes the events of 'key'
- * @param key The key of the events to remove
- * @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_del_events(void *key)
+struct sd_event *jobs_get_sd_event()
{
- struct job *job;
+ struct events *events;
+ struct thread *me;
+ int rc;
pthread_mutex_lock(&mutex);
- job = events_of_key(key);
- if (job)
- if (job->blocked)
- job->dropped = 1;
- else
- events_release(job);
- pthread_mutex_unlock(&mutex);
- if (!job) {
- ERROR("events of key %p not found", key);
- errno = ENOENT;
+
+ /* 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!");
+ }
+ }
}
- return -!job;
+ pthread_mutex_unlock(&mutex);
+ return events ? events->event : NULL;
}
/**
- * 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
+ * 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_add_me()
+int jobs_enter(int allowed_count, int start_count, int waiter_count, void (*start)())
{
- struct thread me;
+ /* start */
+ if (sig_monitor_init() < 0) {
+ ERROR("failed to initialise signal handlers");
+ return -1;
+ }
- /* check whether already running */
- if (current) {
- ERROR("thread already running");
- errno = EINVAL;
+ /* init job processing */
+ if (jobs_init(allowed_count, start_count, waiter_count) < 0) {
+ ERROR("failed to initialise threading");
return -1;
}
- /* allowed... */
- pthread_mutex_lock(&mutex);
- allowed++;
- thread_run(&me);
- allowed--;
- pthread_mutex_unlock(&mutex);
- return 0;
-}
+ /* 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();
+}