+/*
+ Bacula(R) - The Network Backup Solution
+
+ Copyright (C) 2000-2015 Kern Sibbald
+
+ The original author of Bacula is Kern Sibbald, with contributions
+ from many others, a complete list can be found in the file AUTHORS.
+
+ You may use this file and others of this release according to the
+ license defined in the LICENSE file, which includes the Affero General
+ Public License, v3.0 ("AGPLv3") and some additional permissions and
+ terms pursuant to its AGPLv3 Section 7.
+
+ This notice must be preserved when any source code is
+ conveyed and/or propagated.
+
+ Bacula(R) is a registered trademark of Kern Sibbald.
+*/
/*
*
* Bacula scheduler
* It looks at what jobs are to be run and when
- * and waits around until it is time to
+ * and waits around until it is time to
* fire them up.
*
* Kern Sibbald, May MM, major revision December MMIII
*
- * Version $Id$
- */
-/*
- Copyright (C) 2000-2004 Kern Sibbald and John Walker
-
- This program is free software; you can redistribute it and/or
- modify it under the terms of the GNU General Public License as
- published by the Free Software Foundation; either version 2 of
- the License, or (at your option) any later version.
-
- This program is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
- General Public License for more details.
-
- You should have received a copy of the GNU General Public
- License along with this program; if not, write to the Free
- Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
- MA 02111-1307, USA.
-
*/
#include "bacula.h"
#include "dird.h"
-/* #define PHIL */
+#if 0
+#define SCHED_DEBUG
+#define DBGLVL 0
+#else
+#undef SCHED_DEBUG
+#define DBGLVL DT_SCHEDULER|200
+#endif
+const int dbglvl = DBGLVL;
/* Local variables */
-struct job_item {
+struct job_item {
RUN *run;
JOB *job;
time_t runtime;
int Priority;
- dlink link; /* link for list */
-};
+ dlink link; /* link for list */
+};
/* List of jobs to be run. They were scheduled in this hour or the next */
-static dlist *jobs_to_run; /* list of jobs to be run */
+static dlist *jobs_to_run; /* list of jobs to be run */
/* Time interval in secs to sleep if nothing to be run */
-static int const NEXT_CHECK_SECS = 60;
+static int const next_check_secs = 60;
/* Forward referenced subroutines */
static void find_runs();
static void add_job(JOB *job, RUN *run, time_t now, time_t runtime);
-static void dump_job(job_item *ji, char *msg);
+static void dump_job(job_item *ji, const char *msg);
/* Imported subroutines */
/* Imported variables */
+/*
+ * called by reload_config to tell us that the schedules
+ * we may have based our next jobs to run queues have been
+ * invalidated. In fact the schedules may not have changed
+ * but the run object that we have recorded the last_run time
+ * on are new and no longer have a valid last_run time which
+ * causes us to double run schedules that get put into the list
+ * because run_nh = 1.
+ */
+static bool schedules_invalidated = false;
+void invalidate_schedules(void) {
+ schedules_invalidated = true;
+}
/*********************************************************************
*
- * Main Bacula Scheduler
+ * Main Bacula Scheduler
*
*/
JCR *wait_for_next_job(char *one_shot_job_to_run)
JCR *jcr;
JOB *job;
RUN *run;
- time_t now;
+ time_t now, prev;
static bool first = true;
job_item *next_job = NULL;
- Dmsg0(200, "Enter wait_for_next_job\n");
+ Dmsg0(dbglvl, "Enter wait_for_next_job\n");
if (first) {
first = false;
/* Create scheduled jobs list */
- jobs_to_run = new dlist(next_job, &next_job->link);
- if (one_shot_job_to_run) { /* one shot */
- job = (JOB *)GetResWithName(R_JOB, one_shot_job_to_run);
- if (!job) {
+ jobs_to_run = New(dlist(next_job, &next_job->link));
+ if (one_shot_job_to_run) { /* one shot */
+ job = (JOB *)GetResWithName(R_JOB, one_shot_job_to_run);
+ if (!job) {
Emsg1(M_ABORT, 0, _("Job %s not found\n"), one_shot_job_to_run);
- }
+ }
Dmsg1(5, "Found one_shot_job_to_run %s\n", one_shot_job_to_run);
- jcr = new_jcr(sizeof(JCR), dird_free_jcr);
- set_jcr_defaults(jcr, job);
- return jcr;
+ jcr = new_jcr(sizeof(JCR), dird_free_jcr);
+ set_jcr_defaults(jcr, job);
+ return jcr;
}
}
+
/* Wait until we have something in the
* next hour or so.
*/
+again:
while (jobs_to_run->empty()) {
find_runs();
if (!jobs_to_run->empty()) {
- break;
+ break;
}
- bmicrosleep(NEXT_CHECK_SECS, 0); /* recheck once per minute */
+ bmicrosleep(next_check_secs, 0); /* recheck once per minute */
}
-#ifdef list_chain
+#ifdef list_chain
job_item *je;
foreach_dlist(je, jobs_to_run) {
- dump_job(je, "Walk queue");
+ dump_job(je, _("Walk queue"));
}
#endif
- /*
+ /*
* Pull the first job to run (already sorted by runtime and
* Priority, then wait around until it is time to run it.
*/
next_job = (job_item *)jobs_to_run->first();
jobs_to_run->remove(next_job);
- dump_job(next_job, "Dequeued job");
+ dump_job(next_job, _("Dequeued job"));
- if (!next_job) { /* we really should have something now */
+ if (!next_job) { /* we really should have something now */
Emsg0(M_ABORT, 0, _("Scheduler logic error\n"));
}
/* Now wait for the time to run the job */
for (;;) {
time_t twait;
- now = time(NULL);
+ /** discard scheduled queue and rebuild with new schedule objects. **/
+ lock_jobs();
+ if (schedules_invalidated) {
+ dump_job(next_job, "Invalidated job");
+ free(next_job);
+ while (!jobs_to_run->empty()) {
+ next_job = (job_item *)jobs_to_run->first();
+ jobs_to_run->remove(next_job);
+ dump_job(next_job, "Invalidated job");
+ free(next_job);
+ }
+ schedules_invalidated = false;
+ unlock_jobs();
+ goto again;
+ }
+ unlock_jobs();
+ prev = now = time(NULL);
twait = next_job->runtime - now;
- if (twait <= 0) { /* time to run it */
- break;
+ if (twait <= 0) { /* time to run it */
+ break;
+ }
+ /* Recheck at least once per minute */
+ bmicrosleep((next_check_secs < twait)?next_check_secs:twait, 0);
+ /* Attempt to handle clock shift (but not daylight savings time changes)
+ * we allow a skew of 10 seconds before invalidating everything.
+ */
+ now = time(NULL);
+ if (now < prev-10 || now > (prev+next_check_secs+10)) {
+ schedules_invalidated = true;
}
- bmicrosleep(twait, 0);
}
- run = next_job->run; /* pick up needed values */
+ jcr = new_jcr(sizeof(JCR), dird_free_jcr);
+ run = next_job->run; /* pick up needed values */
job = next_job->job;
- run->last_run = now; /* mark as run now */
-
- dump_job(next_job, "Run job");
-
+ if (job->enabled && (!job->client || job->client->enabled)) {
+ dump_job(next_job, _("Run job")); /* no client and job enabled */
+ }
free(next_job);
+ if (!job->enabled || (job->client && !job->client->enabled)) {
+ free_jcr(jcr);
+ goto again; /* ignore this job */
+ }
+ run->last_run = now; /* mark as run now */
- jcr = new_jcr(sizeof(JCR), dird_free_jcr);
ASSERT(job);
set_jcr_defaults(jcr, job);
if (run->level) {
- jcr->JobLevel = run->level; /* override run level */
+ jcr->setJobLevel(run->level); /* override run level */
}
if (run->pool) {
- jcr->pool = run->pool; /* override pool */
+ jcr->pool = run->pool; /* override pool */
+ jcr->run_pool_override = true;
+ }
+ if (run->next_pool) {
+ jcr->next_pool = run->next_pool; /* override next pool */
+ jcr->run_next_pool_override = true;
}
if (run->full_pool) {
- jcr->pool = run->full_pool; /* override full pool */
+ jcr->full_pool = run->full_pool; /* override full pool */
+ jcr->run_full_pool_override = true;
+ }
+ if (run->vfull_pool) {
+ jcr->vfull_pool = run->vfull_pool; /* override virtual full pool */
+ jcr->run_vfull_pool_override = true;
}
if (run->inc_pool) {
- jcr->pool = run->inc_pool; /* override inc pool */
+ jcr->inc_pool = run->inc_pool; /* override inc pool */
+ jcr->run_inc_pool_override = true;
}
- if (run->dif_pool) {
- jcr->pool = run->dif_pool; /* override dif pool */
+ if (run->diff_pool) {
+ jcr->diff_pool = run->diff_pool; /* override dif pool */
+ jcr->run_diff_pool_override = true;
}
if (run->storage) {
- jcr->store = run->storage; /* override storage */
+ USTORE store;
+ store.store = run->storage;
+ pm_strcpy(store.store_source, _("run override"));
+ set_rwstorage(jcr, &store); /* override storage */
}
if (run->msgs) {
jcr->messages = run->msgs; /* override messages */
if (run->Priority) {
jcr->JobPriority = run->Priority;
}
- Dmsg0(200, "Leave wait_for_next_job()\n");
+ if (run->spool_data_set) {
+ jcr->spool_data = run->spool_data;
+ }
+ if (run->accurate_set) { /* overwrite accurate mode */
+ jcr->accurate = run->accurate;
+ }
+ if (run->write_part_after_job_set) {
+ jcr->write_part_after_job = run->write_part_after_job;
+ }
+ if (run->MaxRunSchedTime_set) {
+ jcr->MaxRunSchedTime = run->MaxRunSchedTime;
+ }
+ Dmsg0(dbglvl, "Leave wait_for_next_job()\n");
return jcr;
}
/*
- * Shutdown the scheduler
+ * Shutdown the scheduler
*/
void term_scheduler()
{
if (jobs_to_run) {
- job_item *je;
- /* Release all queued job entries to be run */
- foreach_dlist(je, jobs_to_run) {
- free(je);
- }
delete jobs_to_run;
}
}
-/*
+/*
* Find all jobs to be run this hour and the next hour.
*/
static void find_runs()
JOB *job;
SCHED *sched;
struct tm tm;
- int minute;
- int hour, mday, wday, month, wom, woy;
+ int hour, mday, wday, month, wom, woy, ldom;
/* Items corresponding to above at the next hour */
- int nh_hour, nh_mday, nh_wday, nh_month, nh_wom, nh_woy, nh_year;
+ int nh_hour, nh_mday, nh_wday, nh_month, nh_wom, nh_woy, nh_ldom;
- Dmsg0(200, "enter find_runs()\n");
+ Dmsg0(dbglvl, "enter find_runs()\n");
-
/* compute values for time now */
now = time(NULL);
- localtime_r(&now, &tm);
+ (void)localtime_r(&now, &tm);
hour = tm.tm_hour;
- minute = tm.tm_min;
mday = tm.tm_mday - 1;
wday = tm.tm_wday;
month = tm.tm_mon;
wom = mday / 7;
- woy = tm_woy(now); /* get week of year */
+ woy = tm_woy(now); /* get week of year */
+ ldom = tm_ldom(month, tm.tm_year + 1900);
- /*
+ Dmsg7(dbglvl, "now = %x: h=%d m=%d md=%d wd=%d wom=%d woy=%d\n",
+ now, hour, month, mday, wday, wom, woy);
+
+ /*
* Compute values for next hour from now.
* We do this to be sure we don't miss a job while
* sleeping.
*/
- next_hour = now + 3600;
- localtime_r(&next_hour, &tm);
+ next_hour = now + 3600;
+ (void)localtime_r(&next_hour, &tm);
nh_hour = tm.tm_hour;
nh_mday = tm.tm_mday - 1;
nh_wday = tm.tm_wday;
nh_month = tm.tm_mon;
- nh_year = tm.tm_year;
nh_wom = nh_mday / 7;
- nh_woy = tm_woy(now); /* get week of year */
+ nh_woy = tm_woy(next_hour); /* get week of year */
+ nh_ldom = tm_ldom(nh_month, tm.tm_year + 1900);
+
+ Dmsg7(dbglvl, "nh = %x: h=%d m=%d md=%d wd=%d wom=%d woy=%d\n",
+ next_hour, nh_hour, nh_month, nh_mday, nh_wday, nh_wom, nh_woy);
/* Loop through all jobs */
LockRes();
foreach_res(job, R_JOB) {
sched = job->schedule;
- if (sched == NULL) { /* scheduled? */
- continue; /* no, skip this job */
+ if (!sched || !job->enabled || (sched && !sched->enabled) ||
+ (job->client && !job->client->enabled)) {
+ continue; /* no, skip this job */
}
- Dmsg1(200, "Got job: %s\n", job->hdr.name);
+ Dmsg1(dbglvl, "Got job: %s\n", job->hdr.name);
for (run=sched->run; run; run=run->next) {
- bool run_now, run_nh;
- /*
- * Find runs scheduled between now and the next hour.
- */
+ bool run_now, run_nh;
+ /*
+ * Find runs scheduled between now and the next hour.
+ */
#ifdef xxxx
Dmsg0(000, "\n");
- Dmsg6(000, "run h=%d m=%d md=%d wd=%d wom=%d woy=%d\n",
- hour, month, mday, wday, wom, woy);
- Dmsg6(000, "bitset bsh=%d bsm=%d bsmd=%d bswd=%d bswom=%d bswoy=%d\n",
- bit_is_set(hour, run->hour),
- bit_is_set(month, run->month),
- bit_is_set(mday, run->mday),
- bit_is_set(wday, run->wday),
- bit_is_set(wom, run->wom),
- bit_is_set(woy, run->woy));
-
- Dmsg6(000, "nh_run h=%d m=%d md=%d wd=%d wom=%d woy=%d\n",
- nh_hour, nh_month, nh_mday, nh_wday, nh_wom, nh_woy);
- Dmsg6(000, "nh_bitset bsh=%d bsm=%d bsmd=%d bswd=%d bswom=%d bswoy=%d\n",
- bit_is_set(nh_hour, run->hour),
- bit_is_set(nh_month, run->month),
- bit_is_set(nh_mday, run->mday),
- bit_is_set(nh_wday, run->wday),
- bit_is_set(nh_wom, run->wom),
- bit_is_set(nh_woy, run->woy));
+ Dmsg7(000, "run h=%d m=%d md=%d wd=%d wom=%d woy=%d ldom=%d\n",
+ hour, month, mday, wday, wom, woy, ldom);
+ Dmsg7(000, "bitset bsh=%d bsm=%d bsmd=%d bswd=%d bswom=%d bswoy=%d bsldom=%d\n",
+ bit_is_set(hour, run->hour),
+ bit_is_set(month, run->month),
+ bit_is_set(mday, run->mday),
+ bit_is_set(wday, run->wday),
+ bit_is_set(wom, run->wom),
+ bit_is_set(woy, run->woy),
+ bit_is_set(31, run->mday));
+
+
+ Dmsg7(000, "nh_run h=%d m=%d md=%d wd=%d wom=%d woy=%d ldom=%d\n",
+ nh_hour, nh_month, nh_mday, nh_wday, nh_wom, nh_woy, nh_ldom);
+ Dmsg7(000, "nh_bitset bsh=%d bsm=%d bsmd=%d bswd=%d bswom=%d bswoy=%d bsldom=%d\n",
+ bit_is_set(nh_hour, run->hour),
+ bit_is_set(nh_month, run->month),
+ bit_is_set(nh_mday, run->mday),
+ bit_is_set(nh_wday, run->wday),
+ bit_is_set(nh_wom, run->wom),
+ bit_is_set(nh_woy, run->woy),
+ bit_is_set(31, run->mday));
#endif
- run_now = bit_is_set(hour, run->hour) &&
- (bit_is_set(mday, run->mday) || bit_is_set(wday, run->wday)) &&
- bit_is_set(month, run->month) &&
- bit_is_set(wom, run->wom) &&
- bit_is_set(woy, run->woy);
-
- run_nh = bit_is_set(nh_hour, run->hour) &&
- (bit_is_set(nh_mday, run->mday) || bit_is_set(nh_wday, run->wday)) &&
- bit_is_set(nh_month, run->month) &&
- bit_is_set(nh_wom, run->wom) &&
- bit_is_set(nh_woy, run->woy);
-
- Dmsg2(200, "run_now=%d run_nh=%d\n", run_now, run_nh);
-
- /* find time (time_t) job is to be run */
- localtime_r(&now, &tm); /* reset tm structure */
- tm.tm_min = run->minute; /* set run minute */
- tm.tm_sec = 0; /* zero secs */
- if (run_now) {
- runtime = mktime(&tm);
- add_job(job, run, now, runtime);
- }
- /* If job is to be run in the next hour schedule it */
- if (run_nh) {
- /* Set correct values */
- tm.tm_hour = nh_hour;
- tm.tm_mday = nh_mday + 1; /* fixup because we biased for tests above */
- tm.tm_mon = nh_month;
- tm.tm_year = nh_year;
- runtime = mktime(&tm);
- add_job(job, run, now, runtime);
- }
- }
+ run_now = bit_is_set(hour, run->hour) &&
+ ((bit_is_set(mday, run->mday) &&
+ bit_is_set(wday, run->wday) &&
+ bit_is_set(month, run->month) &&
+ bit_is_set(wom, run->wom) &&
+ bit_is_set(woy, run->woy)) ||
+ (bit_is_set(month, run->month) &&
+ bit_is_set(31, run->mday) && mday == ldom));
+
+ run_nh = bit_is_set(nh_hour, run->hour) &&
+ ((bit_is_set(nh_mday, run->mday) &&
+ bit_is_set(nh_wday, run->wday) &&
+ bit_is_set(nh_month, run->month) &&
+ bit_is_set(nh_wom, run->wom) &&
+ bit_is_set(nh_woy, run->woy)) ||
+ (bit_is_set(nh_month, run->month) &&
+ bit_is_set(31, run->mday) && nh_mday == nh_ldom));
+
+ Dmsg3(dbglvl, "run@%p: run_now=%d run_nh=%d\n", run, run_now, run_nh);
+
+ if (run_now || run_nh) {
+ /* find time (time_t) job is to be run */
+ (void)localtime_r(&now, &tm); /* reset tm structure */
+ tm.tm_min = run->minute; /* set run minute */
+ tm.tm_sec = 0; /* zero secs */
+ runtime = mktime(&tm);
+ if (run_now) {
+ add_job(job, run, now, runtime);
+ }
+ /* If job is to be run in the next hour schedule it */
+ if (run_nh) {
+ add_job(job, run, now, runtime + 3600);
+ }
+ }
+ }
}
UnlockRes();
- Dmsg0(200, "Leave find_runs()\n");
+ Dmsg0(dbglvl, "Leave find_runs()\n");
}
static void add_job(JOB *job, RUN *run, time_t now, time_t runtime)
* do run any job scheduled less than a minute ago.
*/
if (((runtime - run->last_run) < 61) || ((runtime+59) < now)) {
-#ifdef PHIL
- char dt[50], dt1[50], dt2[50];
- bstrftime_nc(dt, sizeof(dt), runtime);
- bstrftime_nc(dt1, sizeof(dt1), run->last_run);
- bstrftime_nc(dt2, sizeof(dt2), now);
- Dmsg4(000, "Drop: Job=\"%s\" run=%s. last_run=%s. now=%s\n", job->hdr.name,
- dt, dt1, dt2);
+#ifdef SCHED_DEBUG
+ Dmsg4(000, "Drop: Job=\"%s\" run=%lld. last_run=%lld. now=%lld\n", job->hdr.name,
+ (utime_t)runtime, (utime_t)run->last_run, (utime_t)now);
fflush(stdout);
#endif
return;
}
+#ifdef SCHED_DEBUG
+ Dmsg4(000, "Add: Job=\"%s\" run=%lld last_run=%lld now=%lld\n", job->hdr.name,
+ (utime_t)runtime, (utime_t)run->last_run, (utime_t)now);
+#endif
/* accept to run this job */
job_item *je = (job_item *)malloc(sizeof(job_item));
je->run = run;
/* Add this job to the wait queue in runtime, priority sorted order */
foreach_dlist(ji, jobs_to_run) {
- if (ji->runtime > je->runtime ||
- (ji->runtime == je->runtime && ji->Priority > je->Priority)) {
- jobs_to_run->insert_before(je, ji);
- dump_job(je, "Inserted job");
- inserted = true;
- break;
+ if (ji->runtime > je->runtime ||
+ (ji->runtime == je->runtime && ji->Priority > je->Priority)) {
+ jobs_to_run->insert_before(je, ji);
+ dump_job(je, _("Inserted job"));
+ inserted = true;
+ break;
}
}
/* If place not found in queue, append it */
if (!inserted) {
jobs_to_run->append(je);
- dump_job(je, "Appended job");
+ dump_job(je, _("Appended job"));
}
+#ifdef SCHED_DEBUG
foreach_dlist(ji, jobs_to_run) {
- dump_job(ji, "Run queue");
+ dump_job(ji, _("Run queue"));
}
Dmsg0(000, "End run queue\n");
+#endif
}
-static void dump_job(job_item *ji, char *msg)
+static void dump_job(job_item *ji, const char *msg)
{
-#ifdef PHIL
+#ifdef SCHED_DEBUG
char dt[MAX_TIME_LENGTH];
- int save_debug = debug_level;
- debug_level = 200;
- if (debug_level < 200) {
+ int64_t save_debug = debug_level;
+
+ if (!chk_dbglvl(dbglvl)) {
return;
}
- bstrftime_nc(dt, sizeof(dt), ji->runtime);
- Dmsg4(200, "%s: Job=%s priority=%d run %s\n", msg, ji->job->hdr.name,
+ bstrftime_nc(dt, sizeof(dt), ji->runtime);
+ Dmsg4(dbglvl, "%s: Job=%s priority=%d run %s\n", msg, ji->job->hdr.name,
ji->Priority, dt);
fflush(stdout);
debug_level = save_debug;