* in the list while traversing it rather than a single lock
* at the beginning of a traversal and one at the end. This
* incurs slightly more overhead, but effectively eliminates
- * the possibilty of race conditions. In addition, with the
+ * the possibilty of race conditions. In addition, with the
* exception of the global locking of the list during the
* re-reading of the config file, no recursion is needed.
*
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
- version 2 as ammended with additional clauses defined in the
+ version 2 as amended with additional clauses defined in the
file LICENSE in the main source directory.
This program is distributed in the hope that it will be useful,
dlist *last_jobs = NULL;
const int max_last_jobs = 10;
-static dlist *jcrs = NULL; /* JCR chain */
+static dlist *jcrs = NULL; /* JCR chain */
static pthread_mutex_t jcr_lock = PTHREAD_MUTEX_INITIALIZER;
static pthread_mutex_t job_start_mutex = PTHREAD_MUTEX_INITIALIZER;
{
if (last_jobs) {
while (!last_jobs->empty()) {
- void *je = last_jobs->first();
- last_jobs->remove(je);
- free(je);
+ void *je = last_jobs->first();
+ last_jobs->remove(je);
+ free(je);
}
delete last_jobs;
last_jobs = NULL;
}
}
-void read_last_jobs_list(int fd, uint64_t addr)
+bool read_last_jobs_list(int fd, uint64_t addr)
{
struct s_last_job *je, job;
uint32_t num;
Dmsg1(100, "read_last_jobs seek to %d\n", (int)addr);
if (addr == 0 || lseek(fd, (off_t)addr, SEEK_SET) < 0) {
- return;
+ return false;
}
if (read(fd, &num, sizeof(num)) != sizeof(num)) {
- return;
+ return false;
}
Dmsg1(100, "Read num_items=%d\n", num);
if (num > 4 * max_last_jobs) { /* sanity check */
- return;
+ return false;
}
for ( ; num; num--) {
if (read(fd, &job, sizeof(job)) != sizeof(job)) {
Dmsg1(000, "Read job entry. ERR=%s\n", strerror(errno));
- return;
+ return false;
}
if (job.JobId > 0) {
- je = (struct s_last_job *)malloc(sizeof(struct s_last_job));
- memcpy((char *)je, (char *)&job, sizeof(job));
- if (!last_jobs) {
- init_last_jobs_list();
- }
- last_jobs->append(je);
- if (last_jobs->size() > max_last_jobs) {
- je = (struct s_last_job *)last_jobs->first();
- last_jobs->remove(je);
- free(je);
- }
+ je = (struct s_last_job *)malloc(sizeof(struct s_last_job));
+ memcpy((char *)je, (char *)&job, sizeof(job));
+ if (!last_jobs) {
+ init_last_jobs_list();
+ }
+ last_jobs->append(je);
+ if (last_jobs->size() > max_last_jobs) {
+ je = (struct s_last_job *)last_jobs->first();
+ last_jobs->remove(je);
+ free(je);
+ }
}
}
+ return true;
}
uint64_t write_last_jobs_list(int fd, uint64_t addr)
num = last_jobs->size();
if (write(fd, &num, sizeof(num)) != sizeof(num)) {
Dmsg1(000, "Error writing num_items: ERR=%s\n", strerror(errno));
- return 0;
+ return 0;
}
foreach_dlist(je, last_jobs) {
- if (write(fd, je, sizeof(struct s_last_job)) != sizeof(struct s_last_job)) {
+ if (write(fd, je, sizeof(struct s_last_job)) != sizeof(struct s_last_job)) {
Dmsg1(000, "Error writing job: ERR=%s\n", strerror(errno));
- return 0;
- }
+ return 0;
+ }
}
}
/* Return current address */
/* Setup some dummy values */
bstrncpy(jcr->Job, "*System*", sizeof(jcr->Job));
jcr->JobId = 0;
- jcr->JobType = JT_SYSTEM; /* internal job until defined */
+ jcr->JobType = JT_SYSTEM; /* internal job until defined */
jcr->JobLevel = L_NONE;
jcr->JobStatus = JS_Created;
/*
* Remove a JCR from the chain
* NOTE! The chain must be locked prior to calling
- * this routine.
+ * this routine.
*/
static void remove_jcr(JCR *jcr)
{
Dmsg0(3400, "Enter remove_jcr\n");
if (!jcr) {
- Emsg0(M_ABORT, 0, "NULL jcr.\n");
+ Emsg0(M_ABORT, 0, _("NULL jcr.\n"));
}
jcrs->remove(jcr);
Dmsg0(3400, "Leave remove_jcr\n");
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.end_time = time(NULL);
/* Keep list of last jobs, but not Console where JobId==0 */
if (last_job.JobId > 0) {
- je = (struct s_last_job *)malloc(sizeof(struct s_last_job));
- memcpy((char *)je, (char *)&last_job, sizeof(last_job));
- if (!last_jobs) {
- init_last_jobs_list();
- }
- last_jobs->append(je);
- if (last_jobs->size() > max_last_jobs) {
- je = (struct s_last_job *)last_jobs->first();
- last_jobs->remove(je);
- free(je);
- }
+ je = (struct s_last_job *)malloc(sizeof(struct s_last_job));
+ memcpy((char *)je, (char *)&last_job, sizeof(last_job));
+ if (!last_jobs) {
+ init_last_jobs_list();
+ }
+ last_jobs->append(je);
+ if (last_jobs->size() > max_last_jobs) {
+ je = (struct s_last_job *)last_jobs->first();
+ last_jobs->remove(je);
+ free(je);
+ }
}
break;
default:
pthread_mutex_destroy(&jcr->mutex);
delete jcr->msg_queue;
- close_msg(jcr); /* close messages for this job */
+ close_msg(jcr); /* close messages for this job */
/* do this after closing messages */
if (jcr->client_name) {
dequeue_messages(jcr);
lock_jcr_chain();
- jcr->dec_use_count(); /* decrement use count */
+ jcr->dec_use_count(); /* decrement use count */
if (jcr->use_count < 0) {
Emsg2(M_ERROR, 0, _("JCR use_count=%d JobId=%d\n"),
- jcr->use_count, jcr->JobId);
+ jcr->use_count, jcr->JobId);
}
Dmsg3(3400, "Dec free_jcr 0x%x use_count=%d jobid=%d\n", jcr, jcr->use_count, jcr->JobId);
- if (jcr->use_count > 0) { /* if in use */
+ if (jcr->use_count > 0) { /* if in use */
unlock_jcr_chain();
Dmsg2(3400, "free_jcr 0x%x use_count=%d\n", jcr, jcr->use_count);
return;
}
- remove_jcr(jcr); /* remove Jcr from chain */
+ remove_jcr(jcr); /* remove Jcr from chain */
unlock_jcr_chain();
- job_end_pop(jcr); /* pop and call hooked routines */
+ job_end_pop(jcr); /* pop and call hooked routines */
Dmsg1(3400, "End job=%d\n", jcr->JobId);
if (jcr->daemon_free_jcr) {
jcr->daemon_free_jcr(jcr); /* call daemon free routine */
}
free_common_jcr(jcr);
- close_msg(NULL); /* flush any daemon messages */
+ close_msg(NULL); /* flush any daemon messages */
Dmsg0(3400, "Exit free_jcr\n");
}
/*
* Given a JobId, find the JCR
* Returns: jcr on success
- * NULL on failure
+ * NULL on failure
*/
JCR *get_jcr_by_id(uint32_t JobId)
{
JCR *jcr;
- lock_jcr_chain(); /* lock chain */
+ lock_jcr_chain(); /* lock chain */
foreach_dlist(jcr, jcrs) {
if (jcr->JobId == JobId) {
- jcr->inc_use_count();
+ jcr->inc_use_count();
Dmsg2(3400, "Inc get_jcr 0x%x use_count=%d\n", jcr, jcr->use_count);
- break;
+ break;
}
}
unlock_jcr_chain();
/*
* Given a SessionId and SessionTime, find the JCR
* Returns: jcr on success
- * NULL on failure
+ * NULL on failure
*/
JCR *get_jcr_by_session(uint32_t SessionId, uint32_t SessionTime)
{
lock_jcr_chain();
foreach_dlist(jcr, jcrs) {
if (jcr->VolSessionId == SessionId &&
- jcr->VolSessionTime == SessionTime) {
- jcr->inc_use_count();
+ jcr->VolSessionTime == SessionTime) {
+ jcr->inc_use_count();
Dmsg2(3400, "Inc get_jcr 0x%x use_count=%d\n", jcr, jcr->use_count);
- break;
+ break;
}
}
unlock_jcr_chain();
* compares on the number of characters in Job
* thus allowing partial matches.
* Returns: jcr on success
- * NULL on failure
+ * NULL on failure
*/
JCR *get_jcr_by_partial_name(char *Job)
{
len = strlen(Job);
foreach_dlist(jcr, jcrs) {
if (strncmp(Job, jcr->Job, len) == 0) {
- jcr->inc_use_count();
+ jcr->inc_use_count();
Dmsg2(3400, "Inc get_jcr 0x%x use_count=%d\n", jcr, jcr->use_count);
- break;
+ break;
}
}
unlock_jcr_chain();
* Given a Job, find the JCR
* requires an exact match of names.
* Returns: jcr on success
- * NULL on failure
+ * NULL on failure
*/
JCR *get_jcr_by_full_name(char *Job)
{
lock_jcr_chain();
foreach_dlist(jcr, jcrs) {
if (strcmp(jcr->Job, Job) == 0) {
- jcr->inc_use_count();
+ jcr->inc_use_count();
Dmsg2(3400, "Inc get_jcr 0x%x use_count=%d\n", jcr, jcr->use_count);
- break;
+ break;
}
}
unlock_jcr_chain();
watchdog_t *wd = new_watchdog();
wd->one_shot = false;
- wd->interval = 30; /* FIXME: should be configurable somewhere, even
- if only with a #define */
+ wd->interval = 30; /* FIXME: should be configurable somewhere, even
+ if only with a #define */
wd->callback = jcr_timeout_check;
register_watchdog(wd);
*/
foreach_jcr(jcr) {
if (jcr->JobId == 0) {
- free_jcr(jcr);
- continue;
+ free_jcr(jcr);
+ 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->timed_out = TRUE;
- Jmsg(jcr, M_ERROR, 0, _(
+ timer_start = fd->timer_start;
+ if (timer_start && (watchdog_time - timer_start) > fd->timeout) {
+ fd->timer_start = 0; /* turn off timer */
+ fd->timed_out = TRUE;
+ Jmsg(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);
- }
+ 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->timed_out = TRUE;
- Jmsg(jcr, M_ERROR, 0, _(
+ timer_start = fd->timer_start;
+ if (timer_start && (watchdog_time - timer_start) > fd->timeout) {
+ fd->timer_start = 0; /* turn off timer */
+ fd->timed_out = TRUE;
+ Jmsg(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);
- }
+ 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->timed_out = TRUE;
- Jmsg(jcr, M_ERROR, 0, _(
+ timer_start = fd->timer_start;
+ if (timer_start && (watchdog_time - timer_start) > fd->timeout) {
+ fd->timer_start = 0; /* turn off timer */
+ fd->timed_out = TRUE;
+ Jmsg(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);
- }
+ watchdog_time - timer_start);
+ pthread_kill(jcr->my_thread_id, TIMEOUT_SIGNAL);
+ }
}
free_jcr(jcr);
}
*/
extern "C" void timeout_handler(int sig)
{
- return; /* thus interrupting the function */
+ return; /* thus interrupting the function */
}