/*
- Bacula® - The Network Backup Solution
-
- Copyright (C) 2002-2008 Free Software Foundation Europe e.V.
-
- The main author of Bacula is Kern Sibbald, with contributions from
- 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 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
- 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., 51 Franklin Street, Fifth Floor, Boston, MA
- 02110-1301, USA.
-
- 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.
+ Bacula(R) - The Network Backup Solution
+
+ Copyright (C) 2000-2018 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.
*/
/*
*
*
* Kern Sibbald, July MMII
*
- * Version $Id$
*/
#include "bacula.h"
return fi;
}
-/* Free all BSR FileIndex entries */
-static void free_findex(RBSR_FINDEX *fi)
-{
- RBSR_FINDEX *next;
- for ( ; fi; fi=next) {
- next = fi->next;
- free(fi);
- }
-}
-
-/*
+/*
* Get storage device name from Storage resource
*/
static bool get_storage_device(char *device, char *storage)
if (storage[0] == 0) {
return false;
}
- store = (STORE *)GetResWithName(R_STORAGE, storage);
+ store = (STORE *)GetResWithName(R_STORAGE, storage);
if (!store) {
return false;
}
* We are called here once for each JobMedia record
* for each Volume.
*/
-static uint32_t write_findex(RBSR_FINDEX *fi,
+static uint32_t write_findex(rblist *fi_list,
int32_t FirstIndex, int32_t LastIndex, FILE *fd)
{
+ RBSR_FINDEX *fi;
uint32_t count = 0;
- for ( ; fi; fi=fi->next) {
+
+ fi = (RBSR_FINDEX *) fi_list->first();
+ while (fi) {
int32_t findex, findex2;
- if ((fi->findex >= FirstIndex && fi->findex <= LastIndex) ||
- (fi->findex2 >= FirstIndex && fi->findex2 <= LastIndex) ||
- (fi->findex < FirstIndex && fi->findex2 > LastIndex)) {
- findex = fi->findex < FirstIndex ? FirstIndex : fi->findex;
- findex2 = fi->findex2 > LastIndex ? LastIndex : fi->findex2;
+
+ /* fi points to the first item of the list, or the next item that is not
+ * contigous to the previous group
+ */
+ findex = fi->findex;
+ findex2 = fi->findex2;
+
+ /* Sometime (with the restore command for example), the fi_list can
+ * contain false gaps (1-10, 11-11, 12-20 instead of 1-20). The for loop
+ * is here to merge blocks and reduce the bsr output. The next while(fi)
+ * iteration will use the next_fi that points to the last merged element.
+ */
+ RBSR_FINDEX *next_fi;
+ for (next_fi = (RBSR_FINDEX*) fi_list->next(fi);
+ next_fi && next_fi->findex == (findex2+1);
+ next_fi = (RBSR_FINDEX *) fi_list->next(next_fi))
+ {
+ findex2 = next_fi->findex2;
+ }
+
+ /* next_fi points after the current block (or to the end of the list), so
+ * the next while() iteration will use the next value
+ */
+ fi = next_fi;
+
+ /* We look if the current FI block match the volume information */
+ if ((findex >= FirstIndex && findex <= LastIndex) ||
+ (findex2 >= FirstIndex && findex2 <= LastIndex) ||
+ (findex < FirstIndex && findex2 > LastIndex)) {
+
+ findex = findex < FirstIndex ? FirstIndex : findex;
+ findex2 = findex2 > LastIndex ? LastIndex : findex2;
+
if (findex == findex2) {
fprintf(fd, "FileIndex=%d\n", findex);
count++;
}
}
}
+
return count;
}
* Find out if Volume defined with FirstIndex and LastIndex
* falls within the range of selected files in the bsr.
*/
-static bool is_volume_selected(RBSR_FINDEX *fi,
+static bool is_volume_selected(rblist *fi_list,
int32_t FirstIndex, int32_t LastIndex)
{
- for ( ; fi; fi=fi->next) {
+ RBSR_FINDEX *fi;
+ foreach_rblist(fi, fi_list) {
if ((fi->findex >= FirstIndex && fi->findex <= LastIndex) ||
(fi->findex2 >= FirstIndex && fi->findex2 <= LastIndex) ||
(fi->findex < FirstIndex && fi->findex2 > LastIndex)) {
/* Create a new bootstrap record */
RBSR *new_bsr()
{
+ RBSR_FINDEX *fi=NULL;
RBSR *bsr = (RBSR *)bmalloc(sizeof(RBSR));
memset(bsr, 0, sizeof(RBSR));
+ bsr->fi_list = New(rblist(fi, &fi->link));
return bsr;
}
/* Free the entire BSR */
-void free_bsr(RBSR *bsr)
+void free_bsr(rblist *bsr_list)
{
- RBSR *next;
- for ( ; bsr; bsr=next) {
- free_findex(bsr->fi);
+ RBSR *bsr;
+ foreach_rblist(bsr, bsr_list) {
+ delete bsr->fi_list;
if (bsr->VolParams) {
free(bsr->VolParams);
}
if (bsr->fileregex) {
free(bsr->fileregex);
}
- next = bsr->next;
- free(bsr);
+ if (bsr->m_fi) {
+ free(bsr->m_fi);
+ }
}
+ delete bsr_list;
}
/*
* Complete the BSR by filling in the VolumeName and
* VolSessionId and VolSessionTime using the JobId
*/
-bool complete_bsr(UAContext *ua, RBSR *bsr)
+bool complete_bsr(UAContext *ua, rblist *bsr_list)
{
- for ( ; bsr; bsr=bsr->next) {
+ RBSR *bsr;
+ foreach_rblist(bsr, bsr_list) {
JOB_DBR jr;
memset(&jr, 0, sizeof(jr));
jr.JobId = bsr->JobId;
}
bsr->VolSessionId = jr.VolSessionId;
bsr->VolSessionTime = jr.VolSessionTime;
+ if (jr.JobFiles == 0) { /* zero files is OK, not an error, but */
+ bsr->VolCount = 0; /* there are no volumes */
+ continue;
+ }
if ((bsr->VolCount=db_get_job_volume_parameters(ua->jcr, ua->db, bsr->JobId,
&(bsr->VolParams))) == 0) {
ua->error_msg(_("Unable to get Job Volume Parameters. ERR=%s\n"), db_strerror(ua->db));
JCR *jcr = ua->jcr;
int i = find_arg_with_value(ua, "bootstrap");
if (i >= 0) {
- Mmsg(fname, "%s", ua->argv[i]);
+ Mmsg(fname, "%s", ua->argv[i]);
jcr->unlink_bsr = false;
} else {
P(mutex);
bool err;
make_unique_restore_filename(ua, fname);
- fd = fopen(fname.c_str(), "w+b");
+ fd = bfopen(fname.c_str(), "w+b");
if (!fd) {
berrno be;
ua->error_msg(_("Unable to create bootstrap file %s. ERR=%s\n"),
goto bail_out;
}
- ua->send_msg(_("Bootstrap records written to %s\n"), fname.c_str());
-
- if (debug_level >= 10) {
+ if (chk_dbglvl(10)) {
print_bsr(ua, rx);
}
char online;
RBSR *bsr;
- for (bsr=rx.bsr; bsr; bsr=bsr->next) {
+ foreach_rblist(bsr, rx.bsr_list) {
if (JobId && JobId != bsr->JobId) {
continue;
}
} else {
online = ' ';
}
- Mmsg(volmsg, "%c%-25.25s %-25.25s %-25.25s",
+ Mmsg(volmsg, "%c%-25s %-25s %-25s",
online, bsr->VolParams[i].VolumeName,
- bsr->VolParams[i].Storage,
- Device);
+ bsr->VolParams[i].Storage, Device);
add_prompt(ua, volmsg.c_str());
}
}
/* Tell the user what he will need to mount */
ua->send_msg("\n");
- ua->send_msg(_("The job will require the following\n"
+ ua->send_msg(_("The Job will require the following (*=>InChanger):\n"
" Volume(s) Storage(s) SD Device(s)\n"
"===========================================================================\n"));
/* Create Unique list of Volumes using prompt list */
for (int i=0; i < ua->num_prompts; i++) {
ua->send_msg(" %s\n", ua->prompt[i]);
free(ua->prompt[i]);
+ if (ua->unique[i]) free(ua->unique[i]);
}
if (ua->num_prompts == 0) {
ua->send_msg(_("No Volumes found to restore.\n"));
} else {
- ua->send_msg(_("\nVolumes marked with \"*\" are online.\n"));
+ ua->send_msg(_("\nVolumes marked with \"*\" are in the Autochanger.\n"));
}
ua->num_prompts = 0;
ua->send_msg("\n");
/*
* Write bsr data for a single bsr record
*/
-static uint32_t write_bsr_item(RBSR *bsr, UAContext *ua,
+static uint32_t write_bsr_item(RBSR *bsr, UAContext *ua,
RESTORE_CTX &rx, FILE *fd, bool &first, uint32_t &LastIndex)
{
char ed1[50], ed2[50];
* VolCount is the number of JobMedia records.
*/
for (int i=0; i < bsr->VolCount; i++) {
- if (!is_volume_selected(bsr->fi, bsr->VolParams[i].FirstIndex,
+ if (!is_volume_selected(bsr->fi_list, bsr->VolParams[i].FirstIndex,
bsr->VolParams[i].LastIndex)) {
bsr->VolParams[i].VolumeName[0] = 0; /* zap VolumeName */
continue;
fprintf(fd, "VolSessionTime=%u\n", bsr->VolSessionTime);
fprintf(fd, "VolAddr=%s-%s\n", edit_uint64(bsr->VolParams[i].StartAddr, ed1),
edit_uint64(bsr->VolParams[i].EndAddr, ed2));
-// Dmsg2(100, "bsr VolParam FI=%u LI=%u\n",
-// bsr->VolParams[i].FirstIndex, bsr->VolParams[i].LastIndex);
+ Dmsg2(100, "bsr VolParam FI=%u LI=%u\n",
+ bsr->VolParams[i].FirstIndex, bsr->VolParams[i].LastIndex);
- count = write_findex(bsr->fi, bsr->VolParams[i].FirstIndex,
+ count = write_findex(bsr->fi_list, bsr->VolParams[i].FirstIndex,
bsr->VolParams[i].LastIndex, fd);
if (count) {
fprintf(fd, "Count=%u\n", count);
* Here we actually write out the details of the bsr file.
* Note, there is one bsr for each JobId, but the bsr may
* have multiple volumes, which have been entered in the
- * order they were written.
+ * order they were written.
* The bsrs must be written out in the order the JobIds
* are found in the jobid list.
*/
JobId_t JobId;
RBSR *bsr;
if (*rx.JobIds == 0) {
- for (bsr=rx.bsr; bsr; bsr=bsr->next) {
+ foreach_rblist(bsr, rx.bsr_list) {
total_count += write_bsr_item(bsr, ua, rx, fd, first, LastIndex);
}
return total_count;
}
for (p=rx.JobIds; get_next_jobid_from_list(&p, &JobId) > 0; ) {
- for (bsr=rx.bsr; bsr; bsr=bsr->next) {
+ foreach_rblist(bsr, rx.bsr_list) {
if (JobId == bsr->JobId) {
total_count += write_bsr_item(bsr, ua, rx, fd, first, LastIndex);
}
write_bsr(ua, rx, stdout);
}
+static int search_rbsr(void *elt1, void *elt2)
+{
+ RBSR *bsr1 = (RBSR *)elt1;
+ RBSR *bsr = (RBSR *)elt2;
+
+ /* We might replace by a simple JobId - JobId */
+ if (bsr->JobId == bsr1->JobId) {
+ return 0;
+
+ } else if (bsr->JobId < bsr1->JobId) {
+ return 1;
+ }
+
+ return -1;
+}
+
+static int search_fi(void *elt1, void *elt2)
+{
+ RBSR_FINDEX *f1 = (RBSR_FINDEX *) elt1;
+ RBSR_FINDEX *f2 = (RBSR_FINDEX *) elt2;
+
+ if (f1->findex == (f2->findex - 1)) {
+ return 0;
+
+ } else if (f1->findex2 == (f2->findex2 + 1)) {
+ return 0;
+
+ } else if (f1->findex >= f2->findex && f1->findex2 <= f2->findex2) {
+ return 0;
+ }
+
+ return (f1->findex > f2->findex) ? 1 : -1;
+}
+
+rblist *create_bsr_list(uint32_t JobId, int findex, int findex2)
+{
+ RBSR *bsr = NULL;
+ RBSR_FINDEX *fi = NULL;
+ rblist *bsr_list = New(rblist(bsr, &bsr->link));
+
+ bsr = new_bsr();
+ bsr->JobId = JobId;
+
+ bsr_list->insert(bsr, search_rbsr);
+
+ fi = new_findex();
+ fi->findex = findex;
+ fi->findex2 = findex2;
+ bsr->fi_list->insert(fi, search_fi);
+ return bsr_list;
+}
/*
* Add a FileIndex to the list of BootStrap records.
* Here we are only dealing with JobId's and the FileIndexes
* associated with those JobIds.
* We expect that JobId, FileIndex are sorted ascending.
+ *
+ * When doing restore from tree, FileIndex are not sorted, so it can
+ * create gaps.
*/
-void add_findex(RBSR *bsr, uint32_t JobId, int32_t findex)
+void add_findex(rblist *bsr_list, uint32_t JobId, int32_t findex)
{
- RBSR *nbsr;
- RBSR_FINDEX *fi, *lfi;
+ RBSR *bsr, bsr2;
+ RBSR_FINDEX *fi, *nfi;
if (findex == 0) {
return; /* probably a dummy directory */
}
- if (bsr->fi == NULL) { /* if no FI add one */
- /* This is the first FileIndex item in the chain */
- bsr->fi = new_findex();
- bsr->JobId = JobId;
- bsr->fi->findex = findex;
- bsr->fi->findex2 = findex;
- return;
- }
+ bsr2.JobId = JobId;
/* Walk down list of bsrs until we find the JobId */
- if (bsr->JobId != JobId) {
- for (nbsr=bsr->next; nbsr; nbsr=nbsr->next) {
- if (nbsr->JobId == JobId) {
- bsr = nbsr;
- break;
- }
- }
+ bsr = (RBSR *)bsr_list->search(&bsr2, search_rbsr);
- if (!nbsr) { /* Must add new JobId */
- /* Add new JobId at end of chain */
- for (nbsr=bsr; nbsr->next; nbsr=nbsr->next)
- { }
- nbsr->next = new_bsr();
- nbsr->next->JobId = JobId;
- nbsr->next->fi = new_findex();
- nbsr->next->fi->findex = findex;
- nbsr->next->fi->findex2 = findex;
- return;
- }
+ /* The list is empty, or the JobId is not already in,
+ * Must add new JobId
+ */
+ if (!bsr) {
+ bsr = new_bsr();
+ bsr->JobId = JobId;
+ bsr_list->insert(bsr, search_rbsr);
}
- /*
- * At this point, bsr points to bsr containing this JobId,
- * and we are sure that there is at least one fi record.
- */
- lfi = fi = bsr->fi;
- /* Check if this findex is smaller than first item */
- if (findex < fi->findex) {
- if ((findex+1) == fi->findex) {
- fi->findex = findex; /* extend down */
- return;
- }
- fi = new_findex(); /* yes, insert before first item */
- fi->findex = findex;
- fi->findex2 = findex;
- fi->next = lfi;
- bsr->fi = fi;
- return;
+ if (bsr->m_fi) {
+ fi = bsr->m_fi;
+
+ } else {
+ fi = bsr->m_fi = new_findex();
}
- /* Walk down fi chain and find where to insert insert new FileIndex */
- for ( ; fi; fi=fi->next) {
- if (findex == (fi->findex2 + 1)) { /* extend up */
- RBSR_FINDEX *nfi;
- fi->findex2 = findex;
- /*
- * If the following record contains one higher, merge its
- * file index by extending it up.
- */
- if (fi->next && ((findex+1) == fi->next->findex)) {
- nfi = fi->next;
- fi->findex2 = nfi->findex2;
- fi->next = nfi->next;
- free(nfi);
- }
- return;
- }
- if (findex < fi->findex) { /* add before */
- if ((findex+1) == fi->findex) {
- fi->findex = findex;
- return;
- }
- break;
+
+ fi->findex = findex;
+ fi->findex2 = findex;
+
+ Dmsg1(1000, "Trying to insert %ld\n", findex);
+ /* try to insert our fi */
+ nfi = (RBSR_FINDEX*) bsr->fi_list->insert((void *)fi, search_fi);
+
+ /* We found an existing one, extend it */
+ if (nfi != fi) {
+ if (findex == (nfi->findex2 + 1)) {
+ Dmsg2(1000, "Extend %ld-%ld\n", nfi->findex, findex);
+ nfi->findex2 = findex;
+
+ } else if (findex == (nfi->findex - 1)) {
+ Dmsg2(1000, "Extend %ld-%ld\n", findex, nfi->findex2);
+ nfi->findex = findex;
+
+ } else {
+ Dmsg2(1000, "Found the same values? %ld-%ld\n", nfi->findex, nfi->findex2);
}
- lfi = fi;
+
+ } else {
+ Dmsg2(1000, "Inserted %ld-%ld\n", fi->findex, fi->findex2);
+ bsr->m_fi = NULL; /* comsumed */
}
- /* Add to last place found */
- fi = new_findex();
- fi->findex = findex;
- fi->findex2 = findex;
- fi->next = lfi->next;
- lfi->next = fi;
- return;
}
/*
* Here we are only dealing with JobId's and the FileIndexes
* associated with those JobIds.
*/
-void add_findex_all(RBSR *bsr, uint32_t JobId)
+void add_findex_all(rblist *bsr_list, uint32_t JobId, const char *fileregex)
{
- RBSR *nbsr;
+ RBSR *bsr, bsr2;
RBSR_FINDEX *fi;
- if (bsr->fi == NULL) { /* if no FI add one */
- /* This is the first FileIndex item in the chain */
- bsr->fi = new_findex();
- bsr->JobId = JobId;
- bsr->fi->findex = 1;
- bsr->fi->findex2 = INT32_MAX;
- return;
- }
+ bsr2.JobId = JobId;
/* Walk down list of bsrs until we find the JobId */
- if (bsr->JobId != JobId) {
- for (nbsr=bsr->next; nbsr; nbsr=nbsr->next) {
- if (nbsr->JobId == JobId) {
- bsr = nbsr;
- break;
- }
- }
+ bsr = (RBSR *)bsr_list->search(&bsr2, search_rbsr);
+
+ if (!bsr) { /* Must add new JobId */
+ fi = new_findex();
+ fi->findex = 1;
+ fi->findex2 = INT32_MAX;
+
+ bsr = new_bsr();
+ bsr->JobId = JobId;
+ bsr->fi_list->insert(fi, search_fi);
+ bsr_list->insert(bsr, search_rbsr);
- if (!nbsr) { /* Must add new JobId */
- /* Add new JobId at end of chain */
- for (nbsr=bsr; nbsr->next; nbsr=nbsr->next)
- { }
- nbsr->next = new_bsr();
- nbsr->next->JobId = JobId;
- nbsr->next->fi = new_findex();
- nbsr->next->fi->findex = 1;
- nbsr->next->fi->findex2 = INT32_MAX;
- return;
+ if (fileregex) {
+ /* If we use regexp to restore, set it for each jobid */
+ bsr->fileregex = bstrdup(fileregex);
}
+ return;
}
/*
* At this point, bsr points to bsr containing this JobId,
- * and we are sure that there is at least one fi record.
*/
- fi = bsr->fi;
+ fi = new_findex();
fi->findex = 1;
fi->findex2 = INT32_MAX;
+ bsr->fi_list->insert(fi, search_fi);
+ return;
+}
+
+#ifdef needed
+/* Foreach files in currrent list, send "/path/fname\0LStat\0MD5\0Delta" to FD
+ * row[0]=Path, row[1]=Filename, row[2]=FileIndex
+ * row[3]=JobId row[4]=LStat row[5]=DeltaSeq row[6]=MD5
+ */
+static int sendit(void *arg, int num_fields, char **row)
+{
+ JCR *jcr = (JCR *)arg;
+
+ if (job_canceled(jcr)) {
+ return 1;
+ }
+
+ if (row[2][0] == '0') { /* discard when file_index == 0 */
+ return 0;
+ }
+
+ /* sending with checksum */
+ if (num_fields == 7
+ && row[6][0] /* skip checksum = '0' */
+ && row[6][1])
+ {
+ jcr->file_bsock->fsend("%s%s%c%s%c%s%c%s",
+ row[0], row[1], 0, row[4], 0, row[6], 0, row[5]);
+ } else {
+ jcr->file_bsock->fsend("%s%s%c%s%c%c%s",
+ row[0], row[1], 0, row[4], 0, 0, row[5]);
+ }
+ return 0;
+}
+#endif
+
+/* We list all files for a given FI structure */
+static void scan_findex(JCR *jcr, RBSR *bsr,
+ int32_t FirstIndex, int32_t LastIndex,
+ int32_t &lastFileIndex, uint32_t &lastJobId)
+{
+ RBSR_FINDEX *fi;
+ FILE_DBR fdbr;
+ memset(&fdbr, 0, sizeof(fdbr));
+
+ fi = (RBSR_FINDEX *) bsr->fi_list->first();
+ while (fi) {
+ int32_t findex, findex2;
+
+ /* fi points to the first item of the list, or the next item that is not
+ * contigous to the previous group
+ */
+ findex = fi->findex;
+ findex2 = fi->findex2;
+
+ /* Sometime (with the restore command for example), the fi_list can
+ * contain false gaps (1-10, 11-11, 12-20 instead of 1-20). The for loop
+ * is here to merge blocks and reduce the bsr output. The next while(fi)
+ * iteration will use the next_fi that points to the last merged element.
+ */
+ RBSR_FINDEX *next_fi;
+ for (next_fi = (RBSR_FINDEX*) bsr->fi_list->next(fi);
+ next_fi && next_fi->findex == (findex2+1);
+ next_fi = (RBSR_FINDEX *) bsr->fi_list->next(next_fi))
+ {
+ findex2 = next_fi->findex2;
+ }
+
+ /* next_fi points after the current block (or to the end of the list), so
+ * the next while() iteration will use the next value
+ */
+ fi = next_fi;
+
+ /* We look if the current FI block match the volume information */
+ if ((findex >= FirstIndex && findex <= LastIndex) ||
+ (findex2 >= FirstIndex && findex2 <= LastIndex) ||
+ (findex < FirstIndex && findex2 > LastIndex)) {
+
+ findex = findex < FirstIndex ? FirstIndex : findex;
+ findex2 = findex2 > LastIndex ? LastIndex : findex2;
+
+ bool dolist=false;
+ /* Display only new files */
+ if (findex != lastFileIndex || bsr->JobId != lastJobId) {
+ /* Not the same file, or not the same job */
+ fdbr.FileIndex = findex;
+ //dolist = true;
+
+ } else if (findex2 != lastFileIndex) {
+ /* We are in the same job, and the first index was already generated */
+ fdbr.FileIndex = findex + 1;
+ //dolist = true;
+ }
+
+ /* Keep the current values for the next loop */
+ lastJobId = bsr->JobId;
+ lastFileIndex = findex2;
+
+ /* Generate if needed the list of files */
+ if (dolist) {
+ fdbr.FileIndex2 = findex2;
+ fdbr.JobId = bsr->JobId;
+ /* New code not working */
+ //db_list_files(jcr, jcr->db, &fdbr, sendit, jcr);
+ }
+ }
+ }
+}
+
+/*
+ * Scan bsr data for a single bsr record
+ */
+static void scan_bsr_item(JCR *jcr, RBSR *bsr)
+{
+ int32_t lastFileIndex=0;
+ uint32_t lastJobId=0;
+ /*
+ * For a given volume, loop over all the JobMedia records.
+ * VolCount is the number of JobMedia records.
+ */
+ for (int i=0; i < bsr->VolCount; i++) {
+ if (!is_volume_selected(bsr->fi_list,
+ bsr->VolParams[i].FirstIndex,
+ bsr->VolParams[i].LastIndex))
+ {
+ continue;
+ }
+
+ scan_findex(jcr, bsr,
+ bsr->VolParams[i].FirstIndex,
+ bsr->VolParams[i].LastIndex,
+ lastFileIndex, lastJobId);
+ }
+}
+
+/*
+ * We need to find all files from the BSR. All files are listed, this is used
+ * to send the list of the files to be restored to a plugin for example.
+ */
+void scan_bsr(JCR *jcr)
+{
+ char *p;
+ JobId_t JobId;
+ RBSR *bsr;
+ if (!jcr->JobIds || *jcr->JobIds == 0) {
+ foreach_rblist(bsr, jcr->bsr_list) {
+ scan_bsr_item(jcr, bsr);
+ }
+ return;
+ }
+ for (p=jcr->JobIds; get_next_jobid_from_list(&p, &JobId) > 0; ) {
+ foreach_rblist(bsr, jcr->bsr_list) {
+ if (JobId == bsr->JobId) {
+ scan_bsr_item(jcr, bsr);
+ }
+ }
+ }
return;
}