/* Reserve context */
class RCTX {
public:
- alist *errors;
JCR *jcr;
char *device_name;
DIRSTORE *store;
DEVRES *device;
- bool PreferMountedVols;
- bool exact_match;
- bool have_volume;
- bool do_not_wait;
- bool available_autochanger;
- char VolumeName[MAX_NAME_LENGTH];
+ DEVICE *low_use_drive; /* Low use drive candidate */
+ int num_writers; /* for selecting low use drive */
+ bool try_low_use_drive; /* see if low use drive available */
+ bool any_drive; /* Accept any drive if set */
+ bool PreferMountedVols; /* Prefer volumes already mounted */
+ bool exact_match; /* Want exact volume */
+ bool have_volume; /* Have DIR suggested vol name */
+ bool suitable_device; /* at least one device is suitable */
+ bool autochanger_only; /* look at autochangers only */
+ char VolumeName[MAX_NAME_LENGTH]; /* Vol name suggested by DIR */
};
static dlist *vol_list = NULL;
Dmsg1(400, "new_volume %s\n", VolumeName);
P(vol_list_lock);
if (dcr->dev) {
+again:
foreach_dlist(vol, vol_list) {
if (vol && vol->dev == dcr->dev) {
vol_list->remove(vol);
free(vol->vol_name);
}
free(vol);
- break;
+ goto again;
}
}
}
}
+/*
+ * We get the following type of information:
+ *
+ * use storage=xxx media_type=yyy pool_name=xxx pool_type=yyy append=1 copy=0 strip=0
+ * use device=zzz
+ * use device=aaa
+ * use device=bbb
+ * use storage=xxx media_type=yyy pool_name=xxx pool_type=yyy append=0 copy=0 strip=0
+ * use device=bbb
+ *
+ */
static bool use_storage_cmd(JCR *jcr)
{
POOL_MEM store_name, dev_name, media_type, pool_name, pool_type;
int Copy, Stripe;
DIRSTORE *store;
RCTX rctx;
-#ifdef implemented
- char *error;
-#endif
memset(&rctx, 0, sizeof(RCTX));
rctx.jcr = jcr;
* If there are multiple devices, the director sends us
* use_device for each device that it wants to use.
*/
- Dmsg1(100, "<dird: %s", dir->msg);
jcr->dirstore = New(alist(10, not_owned_by_alist));
do {
+ Dmsg1(100, "<dird: %s", dir->msg);
ok = sscanf(dir->msg, use_storage, store_name.c_str(),
media_type.c_str(), pool_name.c_str(),
pool_type.c_str(), &append, &Copy, &Stripe) == 7;
/* Now get all devices */
while (bnet_recv(dir) >= 0) {
+ Dmsg1(100, "<dird device: %s", dir->msg);
ok = sscanf(dir->msg, use_device, dev_name.c_str()) == 1;
if (!ok) {
break;
* Wiffle through them and find one that can do the backup.
*/
if (ok) {
- /*
- * First look for an exact match of Volume name as the
- * tape may already be mounted.
- */
- rctx.do_not_wait = true;
- rctx.exact_match = true;
- if ((ok = find_suitable_device_for_job(jcr, rctx))) {
- goto done;
- }
- rctx.exact_match = false;
-
- /* Now search if an unused autochanger slot is available */
- rctx.available_autochanger = true;
- if ((ok = find_suitable_device_for_job(jcr, rctx))) {
- goto done;
- }
- rctx.available_autochanger = false;
-
-
- /*
- * Make up to two passes. The first with PreferMountedVols possibly
- * set to true. In that case, we look only for an available
- * drive with something mounted. If that fails, then we
- * do a second pass with PerferMountedVols set false.
- */
- rctx.PreferMountedVols = jcr->PreferMountedVols;
- if (!rctx.PreferMountedVols) {
- rctx.do_not_wait = false;
- }
- if ((ok = find_suitable_device_for_job(jcr, rctx))) {
- goto done;
- }
- if (rctx.PreferMountedVols) {
- rctx.PreferMountedVols = false;
- rctx.do_not_wait = false;
+ bool first = true; /* print wait message once */
+ for ( ; !job_canceled(jcr); ) {
+ rctx.suitable_device = false;
+ rctx.have_volume = false;
+ rctx.any_drive = false;
+ if (!jcr->PreferMountedVols) {
+ /* Look for unused drives in autochangers */
+ rctx.num_writers = 20000000; /* start with impossible number */
+ rctx.low_use_drive = NULL;
+ rctx.PreferMountedVols = false;
+ rctx.exact_match = false;
+ rctx.autochanger_only = true;
+ Dmsg5(100, "PrefMnt=%d exact=%d suitable=%d chgronly=%d any=%d\n",
+ rctx.PreferMountedVols, rctx.exact_match, rctx.suitable_device,
+ rctx.autochanger_only, rctx.any_drive);
+ if ((ok = find_suitable_device_for_job(jcr, rctx))) {
+ goto done;
+ }
+ /* Look through all drives possibly for low_use drive */
+ if (rctx.low_use_drive) {
+ rctx.try_low_use_drive = true;
+ if ((ok = find_suitable_device_for_job(jcr, rctx))) {
+ goto done;
+ }
+ rctx.try_low_use_drive = false;
+ }
+ rctx.autochanger_only = false;
+ Dmsg5(100, "PrefMnt=%d exact=%d suitable=%d chgronly=%d any=%d\n",
+ rctx.PreferMountedVols, rctx.exact_match, rctx.suitable_device,
+ rctx.autochanger_only, rctx.any_drive);
+ if ((ok = find_suitable_device_for_job(jcr, rctx))) {
+ goto done;
+ }
+ }
+ /* Look for an exact match all drives */
+ rctx.PreferMountedVols = true;
+ rctx.exact_match = true;
+ rctx.autochanger_only = false;
+ Dmsg5(100, "PrefMnt=%d exact=%d suitable=%d chgronly=%d any=%d\n",
+ rctx.PreferMountedVols, rctx.exact_match, rctx.suitable_device,
+ rctx.autochanger_only, rctx.any_drive);
+ if ((ok = find_suitable_device_for_job(jcr, rctx))) {
+ goto done;
+ }
+ /* Look for any mounted drive */
+ rctx.exact_match = false;
+ Dmsg5(100, "PrefMnt=%d exact=%d suitable=%d chgronly=%d any=%d\n",
+ rctx.PreferMountedVols, rctx.exact_match, rctx.suitable_device,
+ rctx.autochanger_only, rctx.any_drive);
if ((ok = find_suitable_device_for_job(jcr, rctx))) {
goto done;
}
+ /* Try any drive */
+ rctx.any_drive = true;
+ Dmsg5(100, "PrefMnt=%d exact=%d suitable=%d chgronly=%d any=%d\n",
+ rctx.PreferMountedVols, rctx.exact_match, rctx.suitable_device,
+ rctx.autochanger_only, rctx.any_drive);
+ if ((ok = find_suitable_device_for_job(jcr, rctx))) {
+ goto done;
+ }
+ if (!rctx.suitable_device || !wait_for_device(jcr, first)) {
+ break; /* Get out, failure ... */
+ }
+ first = false;
+ bnet_sig(dir, BNET_HEARTBEAT); /* Inform Dir that we are alive */
}
+
+ /*
+ * If we get here, there are no suitable devices available, which
+ * means nothing configured. If a device is suitable but busy
+ * with another Volume, we will not come here.
+ */
if (verbose) {
unbash_spaces(dir->msg);
pm_strcpy(jcr->errmsg, dir->msg);
" Device \"%s\" with MediaType \"%s\" requested by DIR not found in SD Device resources.\n"),
dev_name.c_str(), media_type.c_str());
bnet_fsend(dir, NO_device, dev_name.c_str());
-#ifdef implemented
- for (error=(char*)rctx->errors.first(); error;
- error=(char*)rctx->errors.next()) {
- Jmsg(jcr, M_INFO, 0, "%s", error);
- }
-#endif
+
Dmsg1(100, ">dird: %s", dir->msg);
} else {
unbash_spaces(dir->msg);
}
delete jcr->dirstore;
#ifdef implemented
- for (error=(char*)rctx->errors.first(); error;
- error=(char*)rctx->errors.next()) {
+ while (error=(char*)rctx->errors.first()) {
free(error);
}
#endif
*/
bool find_suitable_device_for_job(JCR *jcr, RCTX &rctx)
{
- bool first = true;
bool ok;
- DCR *dcr = NULL;
DIRSTORE *store;
char *device_name;
+ /*
+ * For each storage device that the user specified, we
+ * search and see if there is a resource for that device.
+ */
+ Dmsg4(100, "PrefMnt=%d exact=%d suitable=%d chgronly=%d\n",
+ rctx.PreferMountedVols, rctx.exact_match, rctx.suitable_device,
+ rctx.autochanger_only);
init_jcr_device_wait_timers(jcr);
- for ( ;; ) {
- int can_wait = false;
- ok = false;
- P(search_lock);
- foreach_alist(store, jcr->dirstore) {
- rctx.store = store;
- foreach_alist(device_name, store->device) {
- int stat;
- rctx.device_name = device_name;
- stat = search_res_for_device(rctx);
- if (stat == 1) { /* found available device */
- ok = true;
- break;
- } else if (stat == 0) { /* device busy */
- can_wait = true;
- }
- /* otherwise error */
-// rctx->errors.push(bstrdup(jcr->errmsg));
- }
- if (ok) {
+ ok = false;
+ P(search_lock);
+ foreach_alist(store, jcr->dirstore) {
+ rctx.store = store;
+ foreach_alist(device_name, store->device) {
+ int stat;
+ rctx.device_name = device_name;
+ stat = search_res_for_device(rctx);
+ if (stat == 1) { /* found available device */
+ rctx.suitable_device = true;
+ Dmsg1(100, "Suitable device found=%s\n", device_name);
+ ok = true;
break;
+ } else if (stat == 0) { /* device busy */
+ Dmsg1(100, "Suitable busy device found=%s\n", device_name);
+ rctx.suitable_device = true; /* but it is busy, so continue looking */
}
+ /* otherwise error */
}
- V(search_lock);
- /*
- * We did not find a suitable device, so
- * if there is some device for which we can wait, then
- * wait and try again until the wait time expires
- */
- if (rctx.do_not_wait || !can_wait || !wait_for_device(jcr, first)) {
+ if (ok) {
break;
}
- first = false; /* first wait complete */
-
-#ifdef implemented
- for (error=(char*)rctx->errors.first(); error;
- error=(char*)rctx->errors.next()) {
- free(error);
- }
-#endif
- }
- if (dcr) {
- free_dcr(dcr);
}
+ V(search_lock);
+
return ok;
}
int stat;
Dmsg1(100, "Search res for %s\n", rctx.device_name);
- if (!rctx.available_autochanger) {
- foreach_res(rctx.device, R_DEVICE) {
- Dmsg1(100, "Try res=%s\n", rctx.device->hdr.name);
- /* Find resource, and make sure we were able to open it */
- if (fnmatch(rctx.device_name, rctx.device->hdr.name, 0) == 0) {
- stat = reserve_device(rctx);
- if (stat != 1) {
- return stat;
- }
- Dmsg1(220, "Got: %s", dir->msg);
- bash_spaces(rctx.device_name);
- ok = bnet_fsend(dir, OK_device, rctx.device_name);
- Dmsg1(100, ">dird dev: %s", dir->msg);
- return ok ? 1 : -1;
- }
- }
- }
+ /* Look through Autochangers first */
foreach_res(changer, R_AUTOCHANGER) {
- Dmsg1(100, "Try changer res=%s\n", changer->hdr.name);
+ Dmsg1(150, "Try match changer res=%s\n", changer->hdr.name);
/* Find resource, and make sure we were able to open it */
if (fnmatch(rctx.device_name, changer->hdr.name, 0) == 0) {
/* Try each device in this AutoChanger */
foreach_alist(rctx.device, changer->device) {
Dmsg1(100, "Try changer device %s\n", rctx.device->hdr.name);
stat = reserve_device(rctx);
- if (stat == -1) { /* hard error */
- return -1;
- }
- if (stat == 0) { /* must wait, try next one */
+ if (stat != 1) { /* try another device */
continue;
}
POOL_MEM dev_name;
- Dmsg1(100, "Device %s opened.\n", rctx.device_name);
+ if (rctx.store->append == SD_APPEND) {
+ Dmsg2(100, "Device %s reserved=%d.\n", rctx.device_name,
+ rctx.jcr->dcr->dev->reserved_device);
+ } else {
+ Dmsg2(100, "Device %s reserved=%d.\n", rctx.device_name,
+ rctx.jcr->read_dcr->dev->reserved_device);
+ }
pm_strcpy(dev_name, rctx.device->hdr.name);
bash_spaces(dev_name);
ok = bnet_fsend(dir, OK_device, dev_name.c_str()); /* Return real device name */
}
}
}
- return 0; /* nothing found */
+
+ /* Now if requested look through regular devices */
+ if (!rctx.autochanger_only) {
+ foreach_res(rctx.device, R_DEVICE) {
+ Dmsg1(150, "Try match res=%s\n", rctx.device->hdr.name);
+ /* Find resource, and make sure we were able to open it */
+ if (fnmatch(rctx.device_name, rctx.device->hdr.name, 0) == 0) {
+ stat = reserve_device(rctx);
+ if (stat != 1) {
+ return stat;
+ }
+ Dmsg1(220, "Got: %s", dir->msg);
+ bash_spaces(rctx.device_name);
+ ok = bnet_fsend(dir, OK_device, rctx.device_name);
+ Dmsg1(100, ">dird dev: %s", dir->msg);
+ return ok ? 1 : -1;
+ }
+ }
+ }
+ return -1; /* nothing found */
}
/*
return -1;
}
+ /* Make sure device exists -- i.e. we can stat() it */
if (!rctx.device->dev) {
rctx.device->dev = init_dev(rctx.jcr, rctx.device);
}
}
return -1; /* no use waiting */
}
- Dmsg1(100, "Found device %s\n", rctx.device->hdr.name);
+
+ Dmsg2(100, "Try reserve %s jobid=%d\n", rctx.device->hdr.name,
+ rctx.jcr->JobId);
dcr = new_dcr(rctx.jcr, rctx.device->dev);
if (!dcr) {
BSOCK *dir = rctx.jcr->dir_bsock;
Dmsg1(100, ">dird: %s", dir->msg);
return -1;
}
- rctx.jcr->dcr = dcr;
bstrncpy(dcr->pool_name, rctx.store->pool_name, name_len);
bstrncpy(dcr->pool_type, rctx.store->pool_type, name_len);
bstrncpy(dcr->media_type, rctx.store->media_type, name_len);
if (rctx.exact_match && !rctx.have_volume) {
dcr->any_volume = true;
if (dir_find_next_appendable_volume(dcr)) {
- Dmsg1(200, "Looking for Volume=%s\n", dcr->VolumeName);
+ Dmsg1(100, "Looking for Volume=%s\n", dcr->VolumeName);
bstrncpy(rctx.VolumeName, dcr->VolumeName, sizeof(rctx.VolumeName));
rctx.have_volume = true;
} else {
- Dmsg0(200, "No next volume found\n");
+ Dmsg0(100, "No next volume found\n");
rctx.VolumeName[0] = 0;
}
}
ok = reserve_device_for_append(dcr, rctx);
- Dmsg3(200, "dev_name=%s mediatype=%s ok=%d\n", dcr->dev_name, dcr->media_type, ok);
+ if (ok) {
+ rctx.jcr->dcr = dcr;
+ Dmsg5(100, "Reserved=%d dev_name=%s mediatype=%s pool=%s ok=%d\n",
+ dcr->dev->reserved_device,
+ dcr->dev_name, dcr->media_type, dcr->pool_name, ok);
+ }
} else {
ok = reserve_device_for_read(dcr);
+ if (ok) {
+ rctx.jcr->read_dcr = dcr;
+ Dmsg5(100, "Read reserved=%d dev_name=%s mediatype=%s pool=%s ok=%d\n",
+ dcr->dev->reserved_device,
+ dcr->dev_name, dcr->media_type, dcr->pool_name, ok);
+ }
}
if (!ok) {
- free_dcr(rctx.jcr->dcr);
+ free_dcr(dcr);
+ Dmsg0(100, "Not OK.\n");
return 0;
}
return 1;
ASSERT(dcr);
- dev->block(BST_DOING_ACQUIRE);
+ P(dev->mutex);
if (is_device_unmounted(dev)) {
Dmsg1(200, "Device %s is BLOCKED due to user unmount.\n", dev->print_name());
ok = true;
bail_out:
- dev->unblock();
+ V(dev->mutex);
return ok;
}
ASSERT(dcr);
- dev->block(BST_DOING_ACQUIRE);
+ P(dev->mutex);
+ /* If device is being read, we cannot write it */
if (dev->can_read()) {
Mmsg1(jcr->errmsg, _("Device %s is busy reading.\n"), dev->print_name());
Dmsg1(100, "%s", jcr->errmsg);
goto bail_out;
}
+ /* If device is unmounted, we are out of luck */
if (is_device_unmounted(dev)) {
Mmsg(jcr->errmsg, _("Device %s is BLOCKED due to user unmount.\n"), dev->print_name());
Dmsg1(100, "%s", jcr->errmsg);
goto bail_out;
}
- Dmsg1(190, "reserve_append device is %s\n", dev->is_tape()?"tape":"disk");
+ Dmsg1(100, "reserve_append device is %s\n", dev->is_tape()?"tape":"disk");
+ /* Now do detailed tests ... */
if (can_reserve_drive(dcr, rctx) != 1) {
- Dmsg1(100, "%s", jcr->errmsg);
+ Dmsg0(100, "can_reserve_drive!=1\n");
goto bail_out;
}
dev->reserved_device++;
- Dmsg1(200, "Inc reserve=%d\n", dev->reserved_device);
+ Dmsg3(100, "Inc reserve=%d dev=%s %p\n", dev->reserved_device,
+ dev->print_name(), dev);
dcr->reserved_device = true;
ok = true;
bail_out:
- dev->unblock();
+ V(dev->mutex);
return ok;
}
/*
* Returns: 1 if drive can be reserved
* 0 if we should wait
- * -1 on error
+ * -1 on error or impossibility
*/
static int can_reserve_drive(DCR *dcr, RCTX &rctx)
{
DEVICE *dev = dcr->dev;
JCR *jcr = dcr->jcr;
- /* Check for prefer mounted volumes */
- if (rctx.PreferMountedVols && !dev->VolHdr.VolumeName[0] && dev->is_tape()) {
- Mmsg0(jcr->errmsg, _("Want mounted Volume, drive is empty\n"));
- Dmsg0(200, "want mounted -- no vol\n");
- return 0; /* No volume mounted */
- }
+ Dmsg5(100, "PrefMnt=%d exact=%d suitable=%d chgronly=%d any=%d\n",
+ rctx.PreferMountedVols, rctx.exact_match, rctx.suitable_device,
+ rctx.autochanger_only, rctx.any_drive);
- /* Check for exact Volume name match */
- if (rctx.exact_match && rctx.have_volume &&
- strcmp(dev->VolHdr.VolumeName, rctx.VolumeName) != 0) {
- Mmsg2(jcr->errmsg, _("Not exact match have=%s want=%s\n"),
- dev->VolHdr.VolumeName, rctx.VolumeName);
- Dmsg2(200, "Not exact match have=%s want=%s\n",
- dev->VolHdr.VolumeName, rctx.VolumeName);
- return 0;
+ /* setting any_drive overrides PreferMountedVols flag */
+ if (!rctx.any_drive) {
+ /*
+ * When PreferMountedVols is set, we keep track of the
+ * drive in use that has the least number of writers, then if
+ * no unmounted drive is found, we try that drive. This
+ * helps spread the load to the least used drives.
+ */
+ if (rctx.try_low_use_drive && dev == rctx.low_use_drive) {
+ Dmsg3(100, "OK dev=%s == low_drive=%s. JobId=%d\n",
+ dev->print_name(), rctx.low_use_drive->print_name(), jcr->JobId);
+ return 1;
+ }
+ /* If he wants a free drive, but this one is busy, no go */
+ if (!rctx.PreferMountedVols && dev->is_busy()) {
+ /* Save least used drive */
+ if ((dev->num_writers + dev->reserved_device) < rctx.num_writers) {
+ rctx.num_writers = dev->num_writers + dev->reserved_device;
+ rctx.low_use_drive = dev;
+ Dmsg2(100, "set low use drive=%s num_writers=%d\n", dev->print_name(),
+ rctx.num_writers);
+ } else {
+ Dmsg1(100, "not low use num_writers=%d\n", dev->num_writers+
+ dev->reserved_device);
+ }
+ Dmsg1(100, "failed: !prefMnt && busy. JobId=%d\n", jcr->JobId);
+ return 0;
+ }
+
+ /* Check for prefer mounted volumes */
+ if (rctx.PreferMountedVols && !dev->VolHdr.VolumeName[0] && dev->is_tape()) {
+ Dmsg1(100, "failed: want mounted -- no vol JobId=%d\n", jcr->JobId);
+ return 0; /* No volume mounted */
+ }
+
+ /* Check for exact Volume name match */
+ if (rctx.exact_match && rctx.have_volume &&
+ strcmp(dev->VolHdr.VolumeName, rctx.VolumeName) != 0) {
+ Dmsg2(100, "failed: Not exact match have=%s want=%s\n",
+ dev->VolHdr.VolumeName, rctx.VolumeName);
+ return 0;
+ }
}
/* Check for unused autochanger drive */
- if (rctx.available_autochanger && dev->num_writers == 0 &&
+ if (rctx.autochanger_only && dev->num_writers == 0 &&
dev->VolHdr.VolumeName[0] == 0) {
/* Device is available but not yet reserved, reserve it for us */
+ Dmsg2(100, "OK Res Unused autochanger %s JobId=%d.\n",
+ dev->print_name(), jcr->JobId);
bstrncpy(dev->pool_name, dcr->pool_name, sizeof(dev->pool_name));
bstrncpy(dev->pool_type, dcr->pool_type, sizeof(dev->pool_type));
return 1; /* reserve drive */
if (strcmp(dev->pool_name, dcr->pool_name) == 0 &&
strcmp(dev->pool_type, dcr->pool_type) == 0) {
/* OK, compatible device */
- Dmsg0(200, "got dev: num_writers=0, reserved, pool matches\n");
+ Dmsg2(100, "OK dev: %s num_writers=0, reserved, pool matches JobId=%d\n",
+ dev->print_name(), jcr->JobId);
return 1;
} else {
/* Drive not suitable for us */
- Mmsg2(jcr->errmsg, _("Drive busy wrong pool: num_writers=0, reserved, pool=%s wanted=%s\n"),
- dev->pool_name, dcr->pool_name);
- Dmsg2(200, "busy: num_writers=0, reserved, pool=%s wanted=%s\n",
+ Dmsg2(100, "failed: busy num_writers=0, reserved, pool=%s wanted=%s\n",
dev->pool_name, dcr->pool_name);
return 0; /* wait */
}
/* Device in append mode, check if changing pool */
if (strcmp(dev->pool_name, dcr->pool_name) == 0 &&
strcmp(dev->pool_type, dcr->pool_type) == 0) {
- Dmsg0(200, "got dev: num_writers=0, can_append, pool matches\n");
+ Dmsg2(100, "OK dev: %s num_writers=0, can_append, pool matches. JobId=%d\n",
+ dev->print_name(), jcr->JobId);
/* OK, compatible device */
return 1;
} else {
/* Changing pool, unload old tape if any in drive */
- Dmsg0(200, "got dev: num_writers=0, reserved, pool change\n");
+ Dmsg0(100, "OK dev: num_writers=0, not reserved, pool change, unload changer\n");
unload_autochanger(dcr, 0);
}
}
/* Device is available but not yet reserved, reserve it for us */
+ Dmsg2(100, "OK Dev avail reserved %s JobId=%d\n", dev->print_name(),
+ jcr->JobId);
bstrncpy(dev->pool_name, dcr->pool_name, sizeof(dev->pool_name));
bstrncpy(dev->pool_type, dcr->pool_type, sizeof(dev->pool_type));
return 1; /* reserve drive */
* available if pool is the same).
*/
if (dev->can_append() || dev->num_writers > 0) {
- Dmsg0(190, "device already in append.\n");
/* Yes, now check if we want the same Pool and pool type */
if (strcmp(dev->pool_name, dcr->pool_name) == 0 &&
strcmp(dev->pool_type, dcr->pool_type) == 0) {
- Dmsg0(200, "got dev: num_writers>=0, can_append, pool matches\n");
+ Dmsg2(100, "OK dev: %s num_writers>=0, can_append, pool matches. JobId=%d\n",
+ dev->print_name(), jcr->JobId);
/* OK, compatible device */
return 1;
} else {
/* Drive not suitable for us */
- Mmsg(jcr->errmsg, _("Wanted Pool \"%s\", but device %s is using Pool \"%s\" .\n"),
- dcr->pool_name, dev->print_name(), dev->pool_name);
- Dmsg2(200, "busy: num_writers>0, can_append, pool=%s wanted=%s\n",
+ Dmsg2(100, "failed: busy num_writers>0, can_append, pool=%s wanted=%s\n",
dev->pool_name, dcr->pool_name);
return 0; /* wait */
}
Jmsg0(jcr, M_FATAL, 0, _("Logic error!!!! Should not get here.\n"));
return -1; /* error, should not get here */
}
-
+ Dmsg2(100, "failed: No reserve %s JobId=%d\n", dev->print_name(), jcr->JobId);
return 0;
}