*
* Version $Id$
*/
-
/*
- Copyright (C) 2002-2005 Kern Sibbald
+ Bacula® - The Network Backup Solution
+
+ Copyright (C) 2002-2006 Free Software Foundation Europe e.V.
- 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.
+ 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
+ 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
- MA 02111-1307, USA.
+ 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 John Walker.
+ The licensor of Bacula is the Free Software Foundation Europe
+ (FSFE), Fiduciary Program, Sumatrastrasse 25, 8006 Zürich,
+ Switzerland, email:ftf@fsfeurope.org.
+*/
#include "bacula.h"
static BSR *store_vol(LEX *lc, BSR *bsr);
static BSR *store_mediatype(LEX *lc, BSR *bsr);
+static BSR *store_device(LEX *lc, BSR *bsr);
static BSR *store_client(LEX *lc, BSR *bsr);
static BSR *store_job(LEX *lc, BSR *bsr);
static BSR *store_jobid(LEX *lc, BSR *bsr);
{"exclude", store_exclude},
{"volfile", store_volfile},
{"volblock", store_volblock},
- {"stream", store_stream},
- {"slot", store_slot},
+ {"stream", store_stream},
+ {"slot", store_slot},
+ {"device", store_device},
{NULL, NULL}
};
BSR *root_bsr = new_bsr();
BSR *bsr = root_bsr;
- Dmsg1(200, "Enter parse_bsf %s\n", fname);
+ Dmsg1(300, "Enter parse_bsf %s\n", fname);
if ((lc = lex_open_file(lc, fname, s_err)) == NULL) {
berrno be;
Emsg2(M_ERROR_TERM, 0, _("Cannot open bootstrap file %s: %s\n"),
- fname, be.strerror());
+ fname, be.bstrerror());
}
lc->caller_ctx = (void *)jcr;
while ((token=lex_get_token(lc, T_ALL)) != T_EOF) {
- Dmsg1(200, "parse got token=%s\n", lex_tok_to_str(token));
+ Dmsg1(300, "parse got token=%s\n", lex_tok_to_str(token));
if (token == T_EOL) {
continue;
}
for (i=0; items[i].name; i++) {
if (strcasecmp(items[i].name, lc->str) == 0) {
token = lex_get_token(lc, T_ALL);
- Dmsg1 (200, "in T_IDENT got token=%s\n", lex_tok_to_str(token));
+ Dmsg1 (300, "in T_IDENT got token=%s\n", lex_tok_to_str(token));
if (token != T_EQUALS) {
scan_err1(lc, "expected an equals, got: %s", lc->str);
bsr = NULL;
break;
}
- Dmsg1(200, "calling handler for %s\n", items[i].name);
+ Dmsg1(300, "calling handler for %s\n", items[i].name);
/* Call item handler */
bsr = items[i].handler(lc, bsr);
i = -1;
}
}
if (i >= 0) {
- Dmsg1(200, "Keyword = %s\n", lc->str);
+ Dmsg1(300, "Keyword = %s\n", lc->str);
scan_err1(lc, "Keyword %s not found", lc->str);
bsr = NULL;
break;
}
}
lc = lex_close_file(lc);
- Dmsg0(200, "Leave parse_bsf()\n");
+ Dmsg0(300, "Leave parse_bsf()\n");
if (!bsr) {
free_bsr(root_bsr);
root_bsr = NULL;
return bsr;
}
+/* Shove the Device name in each Volume in the current bsr */
+static BSR *store_device(LEX *lc, BSR *bsr)
+{
+ int token;
+
+ token = lex_get_token(lc, T_STRING);
+ if (token == T_ERROR) {
+ return NULL;
+ }
+ if (!bsr->volume) {
+ Emsg1(M_ERROR,0, _("Device \"%s\" in bsr at inappropriate place.\n"),
+ lc->str);
+ return bsr;
+ }
+ BSR_VOLUME *bv;
+ for (bv=bsr->volume; bv; bv=bv->next) {
+ bstrncpy(bv->device, lc->str, sizeof(bv->device));
+ }
+ return bsr;
+}
+
+
static BSR *store_client(LEX *lc, BSR *bsr)
{
static BSR *store_jobtype(LEX *lc, BSR *bsr)
{
/* *****FIXME****** */
- Dmsg0(-1, "JobType not yet implemented\n");
+ Pmsg0(-1, _("JobType not yet implemented\n"));
return bsr;
}
static BSR *store_joblevel(LEX *lc, BSR *bsr)
{
/* *****FIXME****** */
- Dmsg0(-1, "JobLevel not yet implemented\n");
+ Pmsg0(-1, _("JobLevel not yet implemented\n"));
return bsr;
}
if (token == T_ERROR) {
return NULL;
}
- bsr->Slot = lc->pint32_val;
+ if (!bsr->volume) {
+ Emsg1(M_ERROR,0, _("Slot %d in bsr at inappropriate place.\n"),
+ lc->pint32_val);
+ return bsr;
+ }
+ bsr->volume->Slot = lc->pint32_val;
scan_to_eol(lc);
return bsr;
}
void dump_volfile(BSR_VOLFILE *volfile)
{
if (volfile) {
- Dmsg2(-1, "VolFile : %u-%u\n", volfile->sfile, volfile->efile);
+ Pmsg2(-1, _("VolFile : %u-%u\n"), volfile->sfile, volfile->efile);
dump_volfile(volfile->next);
}
}
void dump_volblock(BSR_VOLBLOCK *volblock)
{
if (volblock) {
- Dmsg2(-1, "VolBlock : %u-%u\n", volblock->sblock, volblock->eblock);
+ Pmsg2(-1, _("VolBlock : %u-%u\n"), volblock->sblock, volblock->eblock);
dump_volblock(volblock->next);
}
}
{
if (FileIndex) {
if (FileIndex->findex == FileIndex->findex2) {
- Dmsg1(-1, "FileIndex : %u\n", FileIndex->findex);
+ Pmsg1(-1, _("FileIndex : %u\n"), FileIndex->findex);
} else {
- Dmsg2(-1, "FileIndex : %u-%u\n", FileIndex->findex, FileIndex->findex2);
+ Pmsg2(-1, _("FileIndex : %u-%u\n"), FileIndex->findex, FileIndex->findex2);
}
dump_findex(FileIndex->next);
}
{
if (jobid) {
if (jobid->JobId == jobid->JobId2) {
- Dmsg1(-1, "JobId : %u\n", jobid->JobId);
+ Pmsg1(-1, _("JobId : %u\n"), jobid->JobId);
} else {
- Dmsg2(-1, "JobId : %u-%u\n", jobid->JobId, jobid->JobId2);
+ Pmsg2(-1, _("JobId : %u-%u\n"), jobid->JobId, jobid->JobId2);
}
dump_jobid(jobid->next);
}
{
if (sessid) {
if (sessid->sessid == sessid->sessid2) {
- Dmsg1(-1, "SessId : %u\n", sessid->sessid);
+ Pmsg1(-1, _("SessId : %u\n"), sessid->sessid);
} else {
- Dmsg2(-1, "SessId : %u-%u\n", sessid->sessid, sessid->sessid2);
+ Pmsg2(-1, _("SessId : %u-%u\n"), sessid->sessid, sessid->sessid2);
}
dump_sessid(sessid->next);
}
void dump_volume(BSR_VOLUME *volume)
{
if (volume) {
- Dmsg1(-1, "VolumeName : %s\n", volume->VolumeName);
+ Pmsg1(-1, _("VolumeName : %s\n"), volume->VolumeName);
+ Pmsg1(-1, _(" MediaType : %s\n"), volume->MediaType);
+ Pmsg1(-1, _(" Device : %s\n"), volume->device);
+ Pmsg1(-1, _(" Slot : %d\n"), volume->Slot);
dump_volume(volume->next);
}
}
void dump_client(BSR_CLIENT *client)
{
if (client) {
- Dmsg1(-1, "Client : %s\n", client->ClientName);
+ Pmsg1(-1, _("Client : %s\n"), client->ClientName);
dump_client(client->next);
}
}
void dump_job(BSR_JOB *job)
{
if (job) {
- Dmsg1(-1, "Job : %s\n", job->Job);
+ Pmsg1(-1, _("Job : %s\n"), job->Job);
dump_job(job->next);
}
}
void dump_sesstime(BSR_SESSTIME *sesstime)
{
if (sesstime) {
- Dmsg1(-1, "SessTime : %u\n", sesstime->sesstime);
+ Pmsg1(-1, _("SessTime : %u\n"), sesstime->sesstime);
dump_sesstime(sesstime->next);
}
}
-
-
-
void dump_bsr(BSR *bsr, bool recurse)
{
int save_debug = debug_level;
debug_level = 1;
if (!bsr) {
- Dmsg0(-1, "BSR is NULL\n");
+ Pmsg0(-1, _("BSR is NULL\n"));
debug_level = save_debug;
return;
}
- Dmsg1(-1, "Next : 0x%x\n", bsr->next);
- Dmsg1(-1, "Root bsr : 0x%x\n", bsr->root);
+ Pmsg1(-1, _("Next : 0x%x\n"), bsr->next);
+ Pmsg1(-1, _("Root bsr : 0x%x\n"), bsr->root);
dump_volume(bsr->volume);
dump_sessid(bsr->sessid);
dump_sesstime(bsr->sesstime);
dump_jobid(bsr->JobId);
dump_job(bsr->job);
dump_findex(bsr->FileIndex);
- if (bsr->Slot) {
- Dmsg1(-1, "Slot : %u\n", bsr->Slot);
- }
if (bsr->count) {
- Dmsg1(-1, "count : %u\n", bsr->count);
- Dmsg1(-1, "found : %u\n", bsr->found);
+ Pmsg1(-1, _("count : %u\n"), bsr->count);
+ Pmsg1(-1, _("found : %u\n"), bsr->found);
}
- Dmsg1(-1, "done : %s\n", bsr->done?"yes":"no");
- Dmsg1(-1, "positioning : %d\n", bsr->use_positioning);
- Dmsg1(-1, "fast_reject : %d\n", bsr->use_fast_rejection);
+ Pmsg1(-1, _("done : %s\n"), bsr->done?_("yes"):_("no"));
+ Pmsg1(-1, _("positioning : %d\n"), bsr->use_positioning);
+ Pmsg1(-1, _("fast_reject : %d\n"), bsr->use_fast_rejection);
if (recurse && bsr->next) {
- Dmsg0(-1, "\n");
+ Pmsg0(-1, "\n");
dump_bsr(bsr->next, true);
}
debug_level = save_debug;
/*****************************************************************
* Routines for handling volumes
*/
-VOL_LIST *new_vol()
+VOL_LIST *new_restore_volume()
{
VOL_LIST *vol;
vol = (VOL_LIST *)malloc(sizeof(VOL_LIST));
* returns: 1 if volume added
* 0 if volume already in list
*/
-int add_vol(JCR *jcr, VOL_LIST *vol)
+int add_restore_volume(JCR *jcr, VOL_LIST *vol)
{
VOL_LIST *next = jcr->VolList;
return 1;
}
-void free_vol_list(JCR *jcr)
+void free_restore_volume_list(JCR *jcr)
{
VOL_LIST *next = jcr->VolList;
VOL_LIST *tmp;
* Create a list of Volumes (and Slots and Start positions) to be
* used in the current restore job.
*/
-void create_vol_list(JCR *jcr)
+void create_restore_volume_list(JCR *jcr)
{
char *p, *n;
VOL_LIST *vol;
/*
* Build a list of volumes to be processed
*/
- jcr->NumVolumes = 0;
- jcr->CurVolume = 0;
+ jcr->NumReadVolumes = 0;
+ jcr->CurReadVolume = 0;
if (jcr->bsr) {
BSR *bsr = jcr->bsr;
if (!bsr->volume || !bsr->volume->VolumeName) {
}
/* Now add volumes for this bsr */
for (bsrvol = bsr->volume; bsrvol; bsrvol=bsrvol->next) {
- vol = new_vol();
+ vol = new_restore_volume();
bstrncpy(vol->VolumeName, bsrvol->VolumeName, sizeof(vol->VolumeName));
bstrncpy(vol->MediaType, bsrvol->MediaType, sizeof(vol->MediaType));
+ bstrncpy(vol->device, bsrvol->device, sizeof(vol->device));
+ vol->Slot = bsrvol->Slot;
vol->start_file = sfile;
- if (add_vol(jcr, vol)) {
- jcr->NumVolumes++;
+ if (add_restore_volume(jcr, vol)) {
+ jcr->NumReadVolumes++;
Dmsg2(400, "Added volume=%s mediatype=%s\n", vol->VolumeName,
vol->MediaType);
} else {
if (n) {
*n++ = 0; /* Terminate name */
}
- vol = new_vol();
+ vol = new_restore_volume();
bstrncpy(vol->VolumeName, p, sizeof(vol->VolumeName));
bstrncpy(vol->MediaType, jcr->dcr->media_type, sizeof(vol->MediaType));
- if (add_vol(jcr, vol)) {
- jcr->NumVolumes++;
+ if (add_restore_volume(jcr, vol)) {
+ jcr->NumReadVolumes++;
} else {
free((char *)vol);
}