Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
02110-1301, USA.
- Bacula® is a registered trademark of John Walker.
+ Bacula® is a registered trademark of Kern Sibbald.
The licensor of Bacula is the Free Software Foundation Europe
(FSFE), Fiduciary Program, Sumatrastrasse 25, 8006 Zürich,
Switzerland, email:ftf@fsfeurope.org.
const int dbglvl = 3400;
-/*
- * Setting a NULL in tsd doesn't clear the tsd but instead tells
- * pthreads not to call the tsd destructor. Consequently, we
- * define this *invalid* jcr address and stuff it in the tsd
- * when the jcr is no longer valid.
- */
-#define INVALID_JCR ((JCR *)(-1))
-
/* External variables we reference */
extern time_t watchdog_time;
void term_last_jobs_list()
{
if (last_jobs) {
+ lock_last_jobs_list();
while (!last_jobs->empty()) {
void *je = last_jobs->first();
last_jobs->remove(je);
}
delete last_jobs;
last_jobs = NULL;
+ unlock_last_jobs_list();
}
if (jcrs) {
delete jcrs;
{
struct s_last_job *je, job;
uint32_t num;
+ bool ok = true;
Dmsg1(100, "read_last_jobs seek to %d\n", (int)addr);
- if (addr == 0 || lseek(fd, (off_t)addr, SEEK_SET) < 0) {
+ if (addr == 0 || lseek(fd, (boffset_t)addr, SEEK_SET) < 0) {
return false;
}
if (read(fd, &num, sizeof(num)) != sizeof(num)) {
if (num > 4 * max_last_jobs) { /* sanity check */
return false;
}
+ lock_last_jobs_list();
for ( ; num; num--) {
if (read(fd, &job, sizeof(job)) != sizeof(job)) {
berrno be;
Pmsg1(000, "Read job entry. ERR=%s\n", be.bstrerror());
- return false;
+ ok = false;
+ break;
}
if (job.JobId > 0) {
je = (struct s_last_job *)malloc(sizeof(struct s_last_job));
}
}
}
- return true;
+ unlock_last_jobs_list();
+ return ok;
}
uint64_t write_last_jobs_list(int fd, uint64_t addr)
{
struct s_last_job *je;
uint32_t num;
+ ssize_t stat;
Dmsg1(100, "write_last_jobs seek to %d\n", (int)addr);
- if (lseek(fd, (off_t)addr, SEEK_SET) < 0) {
+ if (lseek(fd, (boffset_t)addr, SEEK_SET) < 0) {
return 0;
}
if (last_jobs) {
+ lock_last_jobs_list();
/* First record is number of entires */
num = last_jobs->size();
if (write(fd, &num, sizeof(num)) != sizeof(num)) {
berrno be;
Pmsg1(000, "Error writing num_items: ERR=%s\n", be.bstrerror());
- return 0;
+ goto bail_out;
}
foreach_dlist(je, last_jobs) {
if (write(fd, je, sizeof(struct s_last_job)) != sizeof(struct s_last_job)) {
berrno be;
Pmsg1(000, "Error writing job: ERR=%s\n", be.bstrerror());
- return 0;
+ goto bail_out;
}
}
+ unlock_last_jobs_list();
}
/* Return current address */
- ssize_t stat = lseek(fd, 0, SEEK_CUR);
+ stat = lseek(fd, 0, SEEK_CUR);
if (stat < 0) {
stat = 0;
}
return stat;
+bail_out:
+ unlock_last_jobs_list();
+ return 0;
}
void lock_last_jobs_list()
V(last_jobs_mutex);
}
+/* Get an ASCII representation of the Operation being performed as an english Noun */
+const char *JCR::get_OperationName()
+{
+ switch(m_JobType) {
+ case JT_BACKUP:
+ return _("Backup");
+ case JT_VERIFY:
+ return _("Verifying");
+ case JT_RESTORE:
+ return _("Restoring");
+ case JT_ARCHIVE:
+ return _("Archiving");
+ case JT_COPY:
+ return _("Copying");
+ case JT_MIGRATE:
+ return _("Migration");
+ case JT_SCAN:
+ return _("Scanning");
+ default:
+ return _("Unknown operation");
+ }
+}
+
+/* Get an ASCII representation of the Action being performed either an english Verb or Adjective */
+const char *JCR::get_ActionName(bool past)
+{
+ switch(m_JobType) {
+ case JT_BACKUP:
+ return _("backup");
+ case JT_VERIFY:
+ return (past == true) ? _("verified") : _("verify");
+ case JT_RESTORE:
+ return (past == true) ? _("restored") : _("restore");
+ case JT_ARCHIVE:
+ return (past == true) ? _("archived") : _("archive");
+ case JT_COPY:
+ return (past == true) ? _("copied") : _("copy");
+ case JT_MIGRATE:
+ return (past == true) ? _("migrated") : _("migrate");
+ case JT_SCAN:
+ return (past == true) ? _("scanned") : _("scan");
+ default:
+ return _("unknown action");
+ }
+}
+
+/* Set Job type in JCR and also set appropriate read flag */
+void JCR::set_JobType(int32_t JobType)
+{
+ m_JobType = JobType;
+}
+
+/* Set Job level in JCR and also set appropriate read flag */
+void JCR::set_JobLevel(int32_t JobLevel)
+{
+ m_JobLevel = JobLevel;
+}
+
+bool JCR::JobReads()
+{
+ switch (m_JobType) {
+ case JT_VERIFY:
+ case JT_RESTORE:
+ case JT_COPY:
+ case JT_MIGRATE:
+ return true;
+ case JT_BACKUP:
+ if (m_JobLevel == L_VIRTUAL_FULL) {
+ return true;
+ }
+ break;
+ default:
+ break;
+ }
+ return false;
+}
+
/*
* Push a subroutine address into the job end callback stack
*/
/* Setup some dummy values */
bstrncpy(jcr->Job, "*System*", sizeof(jcr->Job));
jcr->JobId = 0;
- jcr->JobType = JT_SYSTEM; /* internal job until defined */
- jcr->JobLevel = L_NONE;
+ jcr->set_JobType(JT_SYSTEM); /* internal job until defined */
+ jcr->set_JobLevel(L_NONE);
set_jcr_job_status(jcr, JS_Created); /* ready to run */
set_jcr_in_tsd(jcr);
sigtimer.sa_flags = 0;
#ifdef DEBUG
void b_free_jcr(const char *file, int line, JCR *jcr)
{
- struct s_last_job *je, last_job;
+ struct s_last_job *je;
Dmsg3(dbglvl, "Enter free_jcr jid=%u from %s:%d\n", jcr->JobId, file, line);
void free_jcr(JCR *jcr)
{
- struct s_last_job *je, last_job;
+ struct s_last_job *je;
Dmsg3(dbglvl, "Enter free_jcr jid=%u use_count=%d Job=%s\n",
jcr->JobId, jcr->use_count(), jcr->Job);
lock_jcr_chain();
jcr->dec_use_count(); /* decrement use count */
if (jcr->use_count() < 0) {
- Emsg2(M_ERROR, 0, _("JCR use_count=%d JobId=%d\n"),
+ Jmsg2(jcr, M_ERROR, 0, _("JCR use_count=%d JobId=%d\n"),
jcr->use_count(), jcr->JobId);
}
if (jcr->JobId > 0) {
Dmsg1(dbglvl, "End job=%d\n", jcr->JobId);
/* Keep some statistics */
- switch (jcr->JobType) {
+ switch (jcr->get_JobType()) {
case JT_BACKUP:
case JT_VERIFY:
case JT_RESTORE:
case JT_MIGRATE:
case JT_COPY:
case JT_ADMIN:
- num_jobs_run++;
- last_job.Errors = jcr->Errors;
- last_job.JobType = jcr->JobType;
- last_job.JobId = jcr->JobId;
- last_job.VolSessionId = jcr->VolSessionId;
- last_job.VolSessionTime = jcr->VolSessionTime;
- bstrncpy(last_job.Job, jcr->Job, sizeof(last_job.Job));
- last_job.JobFiles = jcr->JobFiles;
- last_job.JobBytes = jcr->JobBytes;
- last_job.JobStatus = jcr->JobStatus;
- last_job.JobLevel = jcr->JobLevel;
- last_job.start_time = jcr->start_time;
- last_job.end_time = time(NULL);
/* Keep list of last jobs, but not Console where JobId==0 */
- if (last_job.JobId > 0) {
+ if (jcr->JobId > 0) {
+ lock_last_jobs_list();
+ num_jobs_run++;
je = (struct s_last_job *)malloc(sizeof(struct s_last_job));
- memcpy((char *)je, (char *)&last_job, sizeof(last_job));
+ memset(je, 0, sizeof(struct s_last_job)); /* zero in case unset fields */
+ je->Errors = jcr->Errors;
+ je->JobType = jcr->get_JobType();
+ je->JobId = jcr->JobId;
+ je->VolSessionId = jcr->VolSessionId;
+ je->VolSessionTime = jcr->VolSessionTime;
+ bstrncpy(je->Job, jcr->Job, sizeof(je->Job));
+ je->JobFiles = jcr->JobFiles;
+ je->JobBytes = jcr->JobBytes;
+ je->JobStatus = jcr->JobStatus;
+ je->JobLevel = jcr->get_JobLevel();
+ je->start_time = jcr->start_time;
+ je->end_time = time(NULL);
+
if (!last_jobs) {
init_last_jobs_list();
}
last_jobs->remove(je);
free(je);
}
+ unlock_last_jobs_list();
}
break;
default:
break;
-
}
+
if (jcr->daemon_free_jcr) {
jcr->daemon_free_jcr(jcr); /* call daemon free routine */
}
return jcr;
}
-void set_jcr_job_status(JCR *jcr, int JobStatus)
+/*
+ * Priority runs from 0 (lowest) to 10 (highest)
+ */
+static int get_status_priority(int JobStatus)
{
- bool set_waittime=false;
- Dmsg2(800, "set_jcr_job_status(%s, %c)\n", jcr->Job, JobStatus);
- /* if wait state is new, we keep current time for watchdog MaxWaitTime */
- switch (JobStatus) {
- case JS_WaitFD:
- case JS_WaitSD:
- case JS_WaitMedia:
- case JS_WaitMount:
- case JS_WaitStoreRes:
- case JS_WaitJobRes:
- case JS_WaitClientRes:
- case JS_WaitMaxJobs:
- case JS_WaitPriority:
- set_waittime = true;
- default:
- break;
- }
-
- /*
- * For a set of errors, ... keep the current status
- * so it isn't lost. For all others, set it.
- */
- Dmsg3(300, "jid=%u OnEntry JobStatus=%c set=%c\n", (uint32_t)jcr->JobId,
- jcr->JobStatus, JobStatus);
- switch (jcr->JobStatus) {
+ int priority = 0;
+ switch (JobStatus) {
case JS_ErrorTerminated:
case JS_FatalError:
+ priority = 10;
+ break;
case JS_Canceled:
+ priority = 9;
break;
case JS_Error:
+ priority = 8;
+ break;
case JS_Differences:
- switch (JobStatus) {
- case JS_ErrorTerminated:
- case JS_FatalError:
- case JS_Canceled:
- /* Override more minor status */
- jcr->JobStatus = JobStatus;
- break;
- default:
- break;
- }
+ priority = 7;
+ break;
+ }
+ return priority;
+}
+
+
+static void update_wait_time(JCR *jcr, int newJobStatus)
+{
+ bool enter_in_waittime;
+ int oldJobStatus = jcr->JobStatus;
+
+ switch (newJobStatus) {
+ case JS_WaitFD:
+ case JS_WaitSD:
+ case JS_WaitMedia:
+ case JS_WaitMount:
+ case JS_WaitStoreRes:
+ case JS_WaitJobRes:
+ case JS_WaitClientRes:
+ case JS_WaitMaxJobs:
+ case JS_WaitPriority:
+ enter_in_waittime = true;
+ break;
+ default:
+ enter_in_waittime = false; /* not a Wait situation */
+ break;
+ }
+
/*
- * For a set of Wait situation, keep old time.
+ * If we were previously waiting and are not any more
+ * we want to update the wait_time variable, which is
+ * the start of waiting.
*/
+ switch (oldJobStatus) {
case JS_WaitFD:
case JS_WaitSD:
case JS_WaitMedia:
case JS_WaitClientRes:
case JS_WaitMaxJobs:
case JS_WaitPriority:
- set_waittime = false; /* keep old time */
+ if (!enter_in_waittime) { /* we get out the wait time */
+ jcr->wait_time_sum += (time(NULL) - jcr->wait_time);
+ jcr->wait_time = 0;
+ }
+ break;
+
+ /* if wait state is new, we keep current time for watchdog MaxWaitTime */
default:
- jcr->JobStatus = JobStatus;
- if (set_waittime) {
- /* set it before JobStatus */
- Dmsg0(800, "Setting wait_time\n");
+ if (enter_in_waittime) {
jcr->wait_time = time(NULL);
}
+ break;
}
- Dmsg3(100, "jid=%u leave set_jcr_job_status=%c set=%c\n", (uint32_t)jcr->JobId,
+}
+
+void set_jcr_job_status(JCR *jcr, int JobStatus)
+{
+ int priority, old_priority;
+ int oldJobStatus = jcr->JobStatus;
+ priority = get_status_priority(JobStatus);
+ old_priority = get_status_priority(oldJobStatus);
+
+ Dmsg2(800, "set_jcr_job_status(%s, %c)\n", jcr->Job, JobStatus);
+
+ /* Update wait_time depending on newJobStatus and oldJobStatus */
+ update_wait_time(jcr, JobStatus);
+
+ /*
+ * For a set of errors, ... keep the current status
+ * so it isn't lost. For all others, set it.
+ */
+ Dmsg3(300, "jid=%u OnEntry JobStatus=%c set=%c\n", (uint32_t)jcr->JobId,
jcr->JobStatus, JobStatus);
+ if (priority >= old_priority) {
+ jcr->JobStatus = JobStatus; /* replace with new priority */
+ }
+
+ if (oldJobStatus != jcr->JobStatus) {
+ Dmsg3(200, "jid=%u leave set_old_job_status=%c new_set=%c\n", (uint32_t)jcr->JobId,
+ oldJobStatus, JobStatus);
+// generate_plugin_event(jcr, bEventStatusChange, NULL);
+ }
}
#ifdef TRACE_JCR_CHAIN
V(jcr_lock);
}
-
/*
* Start walk of jcr chain
* The proper way to walk the jcr chain is:
static void jcr_timeout_check(watchdog_t *self)
{
JCR *jcr;
- BSOCK *fd;
+ BSOCK *bs;
time_t timer_start;
Dmsg0(dbglvl, "Start JCR timeout checks\n");
if (jcr->JobId == 0) {
continue;
}
- fd = jcr->store_bsock;
- if (fd) {
- timer_start = fd->timer_start;
- if (timer_start && (watchdog_time - timer_start) > fd->timeout) {
- fd->timer_start = 0; /* turn off timer */
- fd->set_timed_out();
- Jmsg(jcr, M_ERROR, 0, _(
+ bs = jcr->store_bsock;
+ if (bs) {
+ timer_start = bs->timer_start;
+ if (timer_start && (watchdog_time - timer_start) > bs->timeout) {
+ bs->timer_start = 0; /* turn off timer */
+ bs->set_timed_out();
+ Qmsg(jcr, M_ERROR, 0, _(
"Watchdog sending kill after %d secs to thread stalled reading Storage daemon.\n"),
watchdog_time - timer_start);
pthread_kill(jcr->my_thread_id, TIMEOUT_SIGNAL);
}
}
- fd = jcr->file_bsock;
- if (fd) {
- timer_start = fd->timer_start;
- if (timer_start && (watchdog_time - timer_start) > fd->timeout) {
- fd->timer_start = 0; /* turn off timer */
- fd->set_timed_out();
- Jmsg(jcr, M_ERROR, 0, _(
+ bs = jcr->file_bsock;
+ if (bs) {
+ timer_start = bs->timer_start;
+ if (timer_start && (watchdog_time - timer_start) > bs->timeout) {
+ bs->timer_start = 0; /* turn off timer */
+ bs->set_timed_out();
+ Qmsg(jcr, M_ERROR, 0, _(
"Watchdog sending kill after %d secs to thread stalled reading File daemon.\n"),
watchdog_time - timer_start);
pthread_kill(jcr->my_thread_id, TIMEOUT_SIGNAL);
}
}
- fd = jcr->dir_bsock;
- if (fd) {
- timer_start = fd->timer_start;
- if (timer_start && (watchdog_time - timer_start) > fd->timeout) {
- fd->timer_start = 0; /* turn off timer */
- fd->set_timed_out();
- Jmsg(jcr, M_ERROR, 0, _(
+ bs = jcr->dir_bsock;
+ if (bs) {
+ timer_start = bs->timer_start;
+ if (timer_start && (watchdog_time - timer_start) > bs->timeout) {
+ bs->timer_start = 0; /* turn off timer */
+ bs->set_timed_out();
+ Qmsg(jcr, M_ERROR, 0, _(
"Watchdog sending kill after %d secs to thread stalled reading Director.\n"),
watchdog_time - timer_start);
pthread_kill(jcr->my_thread_id, TIMEOUT_SIGNAL);
{
return; /* thus interrupting the function */
}
+
+/* Used to display specific daemon information after a fatal signal
+ * (like B_DB in the director)
+ */
+#define MAX_DBG_HOOK 10
+static dbg_jcr_hook_t *dbg_jcr_hooks[MAX_DBG_HOOK];
+static int dbg_jcr_handler_count;
+
+void dbg_jcr_add_hook(dbg_jcr_hook_t *fct)
+{
+ ASSERT(dbg_jcr_handler_count < MAX_DBG_HOOK);
+ dbg_jcr_hooks[dbg_jcr_handler_count++] = fct;
+}
+
+/*
+ * !!! WARNING !!!
+ *
+ * This function should be used ONLY after a fatal signal. We walk through the
+ * JCR chain without doing any lock, bacula should not be running.
+ */
+void _dbg_print_jcr(FILE *fp)
+{
+ char buf1[128], buf2[128], buf3[128], buf4[128];
+ if (!jcrs) {
+ return;
+ }
+
+ fprintf(fp, "Attempt to dump current JCRs\n");
+
+ for (JCR *jcr = (JCR *)jcrs->first(); jcr ; jcr = (JCR *)jcrs->next(jcr)) {
+ if (!jcr) { /* protect us against something ? */
+ continue;
+ }
+
+ fprintf(fp, "JCR=%p JobId=%i name=%s JobStatus=%c\n",
+ jcr, jcr->JobId, jcr->Job, jcr->JobStatus);
+#ifdef HAVE_WIN32
+ fprintf(fp, "\tuse_count=%i\n",
+ jcr->use_count());
+#else
+ fprintf(fp, "\tuse_count=%i threadid=0x%x\n",
+ jcr->use_count(), (int)jcr->my_thread_id);
+#endif
+ fprintf(fp, "\tJobType=%c JobLevel=%c\n",
+ jcr->get_JobType(), jcr->get_JobLevel());
+ bstrftime(buf1, sizeof(buf1), jcr->sched_time);
+ bstrftime(buf2, sizeof(buf2), jcr->start_time);
+ bstrftime(buf3, sizeof(buf3), jcr->end_time);
+ bstrftime(buf4, sizeof(buf4), jcr->wait_time);
+ fprintf(fp, "\tsched_time=%s start_time=%s\n\tend_time=%s wait_time=%s\n",
+ buf1, buf2, buf3, buf4);
+ fprintf(fp, "\tdequeing=%i\n", jcr->dequeuing);
+ fprintf(fp, "\tdb=%p db_batch=%p batch_started=%i\n",
+ jcr->db, jcr->db_batch, jcr->batch_started);
+
+ for(int i=0; i < dbg_jcr_handler_count; i++) {
+ dbg_jcr_hook_t *fct = dbg_jcr_hooks[i];
+ fct(jcr, fp);
+ }
+ }
+}
+