-/*
- * Bacula job queue routines.
- *
- * This code consists of three queues, the waiting_jobs
- * queue, where jobs are initially queued, the ready_jobs
- * queue, where jobs are placed when all the resources are
- * allocated and they can immediately be run, and the
- * running queue where jobs are placed when they are
- * running.
- *
- * Kern Sibbald, July MMIII
- *
- * Version $Id$
- *
- * This code was adapted from the Bacula workq, which was
- * adapted from "Programming with POSIX Threads", by
- * David R. Butenhof
- *
- */
/*
Bacula® - The Network Backup Solution
many others, a complete list can be found in the file AUTHORS.
This program is Free Software; you can redistribute it and/or
modify it under the terms of version two of the GNU General Public
- License as published by the Free Software Foundation plus additions
- that are listed in the file LICENSE.
+ License as published by the Free Software Foundation and included
+ in the file LICENSE.
This program is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
(FSFE), Fiduciary Program, Sumatrastrasse 25, 8006 Zürich,
Switzerland, email:ftf@fsfeurope.org.
*/
+/*
+ * Bacula job queue routines.
+ *
+ * This code consists of three queues, the waiting_jobs
+ * queue, where jobs are initially queued, the ready_jobs
+ * queue, where jobs are placed when all the resources are
+ * allocated and they can immediately be run, and the
+ * running queue where jobs are placed when they are
+ * running.
+ *
+ * Kern Sibbald, July MMIII
+ *
+ * Version $Id$
+ *
+ * This code was adapted from the Bacula workq, which was
+ * adapted from "Programming with POSIX Threads", by
+ * David R. Butenhof
+ *
+ */
#include "bacula.h"
#include "dird.h"
if ((stat = pthread_attr_init(&jq->attr)) != 0) {
berrno be;
- Jmsg1(NULL, M_ERROR, 0, _("pthread_attr_init: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(NULL, M_ERROR, 0, _("pthread_attr_init: ERR=%s\n"), be.bstrerror(stat));
return stat;
}
if ((stat = pthread_attr_setdetachstate(&jq->attr, PTHREAD_CREATE_DETACHED)) != 0) {
}
if ((stat = pthread_mutex_init(&jq->mutex, NULL)) != 0) {
berrno be;
- Jmsg1(NULL, M_ERROR, 0, _("pthread_mutex_init: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(NULL, M_ERROR, 0, _("pthread_mutex_init: ERR=%s\n"), be.bstrerror(stat));
pthread_attr_destroy(&jq->attr);
return stat;
}
if ((stat = pthread_cond_init(&jq->work, NULL)) != 0) {
berrno be;
- Jmsg1(NULL, M_ERROR, 0, _("pthread_cond_init: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(NULL, M_ERROR, 0, _("pthread_cond_init: ERR=%s\n"), be.bstrerror(stat));
pthread_mutex_destroy(&jq->mutex);
pthread_attr_destroy(&jq->attr);
return stat;
}
if ((stat = pthread_mutex_lock(&jq->mutex)) != 0) {
berrno be;
- Jmsg1(NULL, M_ERROR, 0, _("pthread_mutex_lock: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(NULL, M_ERROR, 0, _("pthread_mutex_lock: ERR=%s\n"), be.bstrerror(stat));
return stat;
}
jq->valid = 0; /* prevent any more operations */
if (jq->idle_workers) {
if ((stat = pthread_cond_broadcast(&jq->work)) != 0) {
berrno be;
- Jmsg1(NULL, M_ERROR, 0, _("pthread_cond_broadcast: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(NULL, M_ERROR, 0, _("pthread_cond_broadcast: ERR=%s\n"), be.bstrerror(stat));
pthread_mutex_unlock(&jq->mutex);
return stat;
}
while (jq->num_workers > 0) {
if ((stat = pthread_cond_wait(&jq->work, &jq->mutex)) != 0) {
berrno be;
- Jmsg1(NULL, M_ERROR, 0, _("pthread_cond_wait: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(NULL, M_ERROR, 0, _("pthread_cond_wait: ERR=%s\n"), be.bstrerror(stat));
pthread_mutex_unlock(&jq->mutex);
return stat;
}
}
if ((stat = pthread_mutex_unlock(&jq->mutex)) != 0) {
berrno be;
- Jmsg1(NULL, M_ERROR, 0, _("pthread_mutex_unlock: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(NULL, M_ERROR, 0, _("pthread_mutex_unlock: ERR=%s\n"), be.bstrerror(stat));
return stat;
}
stat = pthread_mutex_destroy(&jq->mutex);
/* Initialize termination condition variable */
if ((stat = pthread_cond_init(&jcr->term_wait, NULL)) != 0) {
berrno be;
- Jmsg1(jcr, M_FATAL, 0, _("Unable to init job cond variable: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(jcr, M_FATAL, 0, _("Unable to init job cond variable: ERR=%s\n"), be.bstrerror(stat));
return stat;
}
jcr->term_wait_inited = true;
stat = pthread_create(&id, &jq->attr, sched_wait, (void *)sched_pkt);
if (stat != 0) { /* thread not created */
berrno be;
- Jmsg1(jcr, M_ERROR, 0, _("pthread_thread_create: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(jcr, M_ERROR, 0, _("pthread_thread_create: ERR=%s\n"), be.bstrerror(stat));
}
return stat;
}
if ((stat = pthread_mutex_lock(&jq->mutex)) != 0) {
berrno be;
- Jmsg1(jcr, M_ERROR, 0, _("pthread_mutex_lock: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(jcr, M_ERROR, 0, _("pthread_mutex_lock: ERR=%s\n"), be.bstrerror(stat));
free_jcr(jcr); /* release jcr */
return stat;
}
if ((stat = pthread_mutex_lock(&jq->mutex)) != 0) {
berrno be;
- Jmsg1(NULL, M_ERROR, 0, _("pthread_mutex_lock: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(NULL, M_ERROR, 0, _("pthread_mutex_lock: ERR=%s\n"), be.bstrerror(stat));
return stat;
}
Dmsg0(2300, "Signal worker to wake up\n");
if ((stat = pthread_cond_broadcast(&jq->work)) != 0) {
berrno be;
- Jmsg1(NULL, M_ERROR, 0, _("pthread_cond_signal: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(NULL, M_ERROR, 0, _("pthread_cond_signal: ERR=%s\n"), be.bstrerror(stat));
return stat;
}
} else if (jq->num_workers < jq->max_workers) {
set_thread_concurrency(jq->max_workers + 1);
if ((stat = pthread_create(&id, &jq->attr, jobq_server, (void *)jq)) != 0) {
berrno be;
- Jmsg1(NULL, M_ERROR, 0, _("pthread_create: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(NULL, M_ERROR, 0, _("pthread_create: ERR=%s\n"), be.bstrerror(stat));
return stat;
}
}
Dmsg0(2300, "Start jobq_server\n");
if ((stat = pthread_mutex_lock(&jq->mutex)) != 0) {
berrno be;
- Jmsg1(NULL, M_ERROR, 0, _("pthread_mutex_lock: ERR=%s\n"), be.strerror(stat));
+ Jmsg1(NULL, M_ERROR, 0, _("pthread_mutex_lock: ERR=%s\n"), be.bstrerror(stat));
return NULL;
}
jq->num_workers++;
}
}
jq->running_jobs->append(je);
+ set_jcr_in_tsd(jcr);
Dmsg1(2300, "Took jobid=%d from ready and appended to run\n", jcr->JobId);
/* Release job queue lock */
jcr->acquired_resource_locks = false;
if (jcr->rstore) {
Dmsg1(200, "Rstore=%s\n", jcr->rstore->name());
- /*
- * Let only one Restore/verify job run at a time regardless
- * of MaxConcurrentJobs.
- */
+ /*
+ * Let only one Restore/Verify job run at a time regardless
+ * of MaxConcurrentjobs.
+ */
if (jcr->rstore->NumConcurrentJobs == 0) {
jcr->rstore->NumConcurrentJobs = 1;
Dmsg0(200, "Set rncj=1\n");