static void
on_name_vanished (GDBusConnection *connection,
const char *name,
gpointer user_data)
{
queue_finish (GDM_DISPLAY (user_data));
}
static void
slave_died (GdmSlaveProxy *proxy,
int signum,
GdmDisplay *display)
{
g_debug ("GdmDisplay: Slave died: %d", signum);
queue_finish (display);
}
static void
slave_exited (GdmSlaveProxy *proxy,
int code,
GdmDisplay *display)
{
g_debug ("GdmDisplay: Slave exited: %d", code);
queue_finish (display);
}
void queue_destroy(t_iemnet_queue* q) {
t_iemnet_chunk*c=NULL;
if(NULL==q)
return;
DEBUG("queue destroy %x", q);
queue_finish(q);
/* remove all the chunks from the queue */
while(NULL!=(c=queue_pop_noblock(q))) {
iemnet__chunk_destroy(c);
}
q->head=NULL;
q->tail=NULL;
pthread_mutex_destroy(&q->mtx);
pthread_cond_destroy(&q->cond);
free(q);
q=NULL;
DEBUG("queue destroyed %x", q);
}
void
playlist_finish(struct playlist *playlist)
{
queue_finish(&playlist->queue);
}
struct line * queue_get(int fid) {
struct line *cur;
char *s, *synch;
if (log_mutex) fprintf(stderr, "Getting for data for fid %d\n", fid);
if (log_mutex) fprintf(stderr, "Locking queue mutex (%d)\n", fid);
pthread_mutex_lock(&queue_mutex);
/* First, check for aborted sentences. */
if (log_mutex) fprintf(stderr, " Checking queue for aborted jobs (fid %d)\n", fid);
for (cur = head; cur != NULL; cur = cur->next) {
if (cur->status == STATUS_ABORTED) {
cur->status = STATUS_RUNNING;
if (log_mutex) fprintf(stderr, "Unlocking queue mutex (%d)\n", fid);
pthread_mutex_unlock(&queue_mutex);
return cur;
}
}
if (log_mutex) fprintf(stderr, "Unlocking queue mutex (%d)\n", fid);
pthread_mutex_unlock(&queue_mutex);
/* Otherwise, read a new one. */
if (log_mutex) fprintf(stderr, "Locking input mutex (%d)\n", fid);
if (log_mutex) fprintf(stderr, " Reading input for new data (fid %d)\n", fid);
pthread_mutex_lock(&input_mutex);
s = read_line(0,0);
while (s) {
if (log_mutex) fprintf(stderr, "Locking queue mutex (%d)\n", fid);
pthread_mutex_lock(&queue_mutex);
if (log_mutex) fprintf(stderr, "Unlocking input mutex (%d)\n", fid);
pthread_mutex_unlock(&input_mutex);
cur = malloc(sizeof (struct line));
cur->id = n_sent;
cur->s = s;
cur->next = NULL;
*ptail = cur;
ptail = &cur->next;
n_sent++;
if (strcmp(s,"===SYNCH===\n")==0){
fprintf(stderr, "Received ===SYNCH=== signal (fid %d)\n", fid);
// Note: queue_finish calls free(cur->s).
// Therefore we need to create a new string here.
synch = malloc((strlen("===SYNCH===\n")+2) * sizeof (char));
synch = strcpy(synch, s);
if (log_mutex) fprintf(stderr, "Unlocking queue mutex (%d)\n", fid);
pthread_mutex_unlock(&queue_mutex);
queue_finish(cur, synch, fid); /* handles its own lock */
if (log_mutex) fprintf(stderr, "Locking input mutex (%d)\n", fid);
if (log_mutex) fprintf(stderr, " Reading input for new data (fid %d)\n", fid);
pthread_mutex_lock(&input_mutex);
s = read_line(0,0);
} else {
if (log_mutex) fprintf(stderr, " Received new data %d (fid %d)\n", cur->id, fid);
cur->status = STATUS_RUNNING;
if (log_mutex) fprintf(stderr, "Unlocking queue mutex (%d)\n", fid);
pthread_mutex_unlock(&queue_mutex);
return cur;
}
}
if (log_mutex) fprintf(stderr, "Unlocking input mutex (%d)\n", fid);
pthread_mutex_unlock(&input_mutex);
/* Only way to reach this point: no more output */
if (log_mutex) fprintf(stderr, "Locking queue mutex (%d)\n", fid);
pthread_mutex_lock(&queue_mutex);
if (head == NULL) {
fprintf(stderr, "Reached end of file. Exiting.\n");
done(0);
} else
ptail = NULL; /* This serves as a signal that there is no more input */
if (log_mutex) fprintf(stderr, "Unlocking queue mutex (%d)\n", fid);
pthread_mutex_unlock(&queue_mutex);
return NULL;
}
void * new_client(void *arg) {
struct clientinfo *client = (struct clientinfo *)arg;
struct line *cur;
int result;
char *s;
char errorbuf[100];
pthread_mutex_lock(&clients_mutex);
n_clients++;
pthread_mutex_unlock(&clients_mutex);
fprintf(stderr, "Client connected (%d connected)\n", n_clients);
for (;;) {
cur = queue_get(client->s);
if (cur) {
/* fprintf(stderr, "Sending to client: %s", cur->s); */
if (!quiet)
fprintf(stderr, "Sending data %d to client (fid %d)\n", cur->id, client->s);
result = write(client->s, cur->s, strlen(cur->s));
if (result < strlen(cur->s)){
perror("write()");
sprintf(errorbuf, "Error code: %d\n", errno);
fprintf(stderr, "%s", errorbuf);
pthread_mutex_lock(&clients_mutex);
n_clients--;
pthread_mutex_unlock(&clients_mutex);
fprintf(stderr, "Client died (%d connected)\n", n_clients);
queue_abort(cur, client->s);
close(client->s);
free(client);
pthread_exit(NULL);
}
} else {
close(client->s);
pthread_mutex_lock(&clients_mutex);
n_clients--;
pthread_mutex_unlock(&clients_mutex);
fprintf(stderr, "Client dismissed (%d connected)\n", n_clients);
pthread_exit(NULL);
}
s = read_line(client->s,expect_multiline_output);
if (s) {
/* fprintf(stderr, "Client (fid %d) returned: %s", client->s, s); */
if (!quiet)
fprintf(stderr, "Client (fid %d) returned data %d\n", client->s, cur->id);
// queue_print();
queue_finish(cur, s, client->s);
} else {
pthread_mutex_lock(&clients_mutex);
n_clients--;
pthread_mutex_unlock(&clients_mutex);
fprintf(stderr, "Client died (%d connected)\n", n_clients);
queue_abort(cur, client->s);
close(client->s);
free(client);
pthread_exit(NULL);
}
}
return 0;
}
