static BSR *store_client(LEX *lc, BSR *bsr);
static BSR *store_job(LEX *lc, BSR *bsr);
static BSR *store_jobid(LEX *lc, BSR *bsr);
+static BSR *store_count(LEX *lc, BSR *bsr);
static BSR *store_jobtype(LEX *lc, BSR *bsr);
static BSR *store_joblevel(LEX *lc, BSR *bsr);
static BSR *store_findex(LEX *lc, BSR *bsr);
static BSR *store_sessid(LEX *lc, BSR *bsr);
static BSR *store_volfile(LEX *lc, BSR *bsr);
+static BSR *store_volblock(LEX *lc, BSR *bsr);
static BSR *store_sesstime(LEX *lc, BSR *bsr);
static BSR *store_include(LEX *lc, BSR *bsr);
static BSR *store_exclude(LEX *lc, BSR *bsr);
static BSR *store_stream(LEX *lc, BSR *bsr);
static BSR *store_slot(LEX *lc, BSR *bsr);
+static bool is_fast_rejection_ok(BSR *bsr);
+static bool is_positioning_ok(BSR *bsr);
struct kw_items {
- char *name;
+ const char *name;
ITEM_HANDLER *handler;
};
{"client", store_client},
{"job", store_job},
{"jobid", store_jobid},
+ {"count", store_count},
{"fileindex", store_findex},
{"jobtype", store_jobtype},
{"joblevel", store_joblevel},
{"include", store_include},
{"exclude", store_exclude},
{"volfile", store_volfile},
+ {"volblock", store_volblock},
{"stream", store_stream},
{"slot", store_slot},
{NULL, NULL}
/*
* Create a BSR record
*/
-static BSR *new_bsr()
+static BSR *new_bsr()
{
BSR *bsr = (BSR *)malloc(sizeof(BSR));
memset(bsr, 0, sizeof(BSR));
/*
* Format a scanner error message
*/
-static void s_err(char *file, int line, LEX *lc, char *msg, ...)
+static void s_err(const char *file, int line, LEX *lc, const char *msg, ...)
{
JCR *jcr = (JCR *)(lc->caller_ctx);
va_list arg_ptr;
* Parse Bootstrap file
*
*/
-BSR *parse_bsr(JCR *jcr, char *cf)
+BSR *parse_bsr(JCR *jcr, char *fname)
{
LEX *lc = NULL;
int token, i;
BSR *root_bsr = new_bsr();
BSR *bsr = root_bsr;
-
- Dmsg1(200, "Enter parse_bsf %s\n", cf);
- lc = lex_open_file(lc, cf, s_err);
+
+ Dmsg1(200, "Enter parse_bsf %s\n", fname);
+ lc = lex_open_file(lc, fname, s_err);
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));
free_bsr(root_bsr);
root_bsr = NULL;
}
+ if (root_bsr) {
+ root_bsr->use_fast_rejection = is_fast_rejection_ok(root_bsr);
+ root_bsr->use_positioning = is_positioning_ok(root_bsr);
+ }
+ for (bsr=root_bsr; bsr; bsr=bsr->next) {
+ bsr->root = root_bsr;
+ }
return root_bsr;
}
+static bool is_fast_rejection_ok(BSR *bsr)
+{
+ /*
+ * Although, this can be optimized, for the moment, require
+ * all bsrs to have both sesstime and sessid set before
+ * we do fast rejection.
+ */
+ if (!(bsr->sesstime && bsr->sessid)) {
+ return false;
+ }
+ if (bsr->next) {
+ return is_fast_rejection_ok(bsr->next);
+ }
+ return true;
+}
+
+static bool is_positioning_ok(BSR *bsr)
+{
+ /*
+ * Every bsr should have a volfile entry and a volblock entry
+ * if we are going to use positioning
+ */
+ if (!bsr->volfile || !bsr->volblock) {
+ return false;
+ }
+ if (bsr->next) {
+ return is_positioning_ok(bsr->next);
+ }
+ return true;
+}
+
+
static BSR *store_vol(LEX *lc, BSR *bsr)
{
int token;
if (token == T_ERROR) {
return NULL;
}
+ if (bsr->volume) {
+ bsr->next = new_bsr();
+ bsr = bsr->next;
+ }
/* This may actually be more than one volume separated by a |
* If so, separate them.
*/
}
volume = (BSR_VOLUME *)malloc(sizeof(BSR_VOLUME));
memset(volume, 0, sizeof(BSR_VOLUME));
- strcpy(volume->VolumeName, p);
+ bstrncpy(volume->VolumeName, p, sizeof(volume->VolumeName));
/* Add it to the end of the volume chain */
if (!bsr->volume) {
bsr->volume = volume;
}
client = (BSR_CLIENT *)malloc(sizeof(BSR_CLIENT));
memset(client, 0, sizeof(BSR_CLIENT));
- strcpy(client->ClientName, lc->str);
+ bstrncpy(client->ClientName, lc->str, sizeof(client->ClientName));
/* Add it to the end of the client chain */
if (!bsr->client) {
bsr->client = client;
}
job = (BSR_JOB *)malloc(sizeof(BSR_JOB));
memset(job, 0, sizeof(BSR_JOB));
- strcpy(job->Job, lc->str);
+ bstrncpy(job->Job, lc->str, sizeof(job->Job));
/* Add it to the end of the client chain */
if (!bsr->job) {
bsr->job = job;
return bsr;
}
+
+static BSR *store_count(LEX *lc, BSR *bsr)
+{
+ int token;
+
+ token = lex_get_token(lc, T_PINT32);
+ if (token == T_ERROR) {
+ return NULL;
+ }
+ bsr->count = lc->pint32_val;
+ scan_to_eol(lc);
+ return bsr;
+}
+
+
static BSR *store_jobtype(LEX *lc, BSR *bsr)
{
/* *****FIXME****** */
}
+/*
+ * Routine to handle Volume start/end Block
+ */
+static BSR *store_volblock(LEX *lc, BSR *bsr)
+{
+ int token;
+ BSR_VOLBLOCK *volblock;
+
+ for (;;) {
+ token = lex_get_token(lc, T_PINT32_RANGE);
+ if (token == T_ERROR) {
+ return NULL;
+ }
+ volblock = (BSR_VOLBLOCK *)malloc(sizeof(BSR_VOLBLOCK));
+ memset(volblock, 0, sizeof(BSR_VOLBLOCK));
+ volblock->sblock = lc->pint32_val;
+ volblock->eblock = lc->pint32_val2;
+ /* Add it to the end of the chain */
+ if (!bsr->volblock) {
+ bsr->volblock = volblock;
+ } else {
+ /* Add to end of chain */
+ BSR_VOLBLOCK *bs = bsr->volblock;
+ for ( ;bs->next; bs=bs->next)
+ { }
+ bs->next = volblock;
+ }
+ token = lex_get_token(lc, T_ALL);
+ if (token != T_COMMA) {
+ break;
+ }
+ }
+ return bsr;
+}
+
static BSR *store_sessid(LEX *lc, BSR *bsr)
{
}
}
+void dump_volblock(BSR_VOLBLOCK *volblock)
+{
+ if (volblock) {
+ Dmsg2(-1, "VolBlock : %u-%u\n", volblock->sblock, volblock->eblock);
+ dump_volblock(volblock->next);
+ }
+}
+
+
void dump_findex(BSR_FINDEX *FileIndex)
{
if (FileIndex) {
-void dump_bsr(BSR *bsr)
+void dump_bsr(BSR *bsr, bool recurse)
{
+ int save_debug = debug_level;
+ debug_level = 1;
if (!bsr) {
Dmsg0(-1, "BSR is NULL\n");
+ debug_level = save_debug;
return;
}
- Dmsg1(-1,
-"Next : 0x%x\n", bsr->next);
+ Dmsg1(-1, "Next : 0x%x\n", bsr->next);
+ Dmsg1(-1, "Root bsr : 0x%x\n", bsr->root);
dump_volume(bsr->volume);
dump_sessid(bsr->sessid);
dump_sesstime(bsr->sesstime);
dump_volfile(bsr->volfile);
+ dump_volblock(bsr->volblock);
dump_client(bsr->client);
dump_jobid(bsr->JobId);
dump_job(bsr->job);
dump_findex(bsr->FileIndex);
- if (bsr->next) {
+ 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);
+ }
+
+ 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);
+ if (recurse && bsr->next) {
Dmsg0(-1, "\n");
- dump_bsr(bsr->next);
+ dump_bsr(bsr->next, true);
}
+ debug_level = save_debug;
}
free_bsr_item((BSR *)bsr->sessid);
free_bsr_item((BSR *)bsr->sesstime);
free_bsr_item((BSR *)bsr->volfile);
+ free_bsr_item((BSR *)bsr->volblock);
free_bsr_item((BSR *)bsr->JobId);
free_bsr_item((BSR *)bsr->job);
free_bsr_item((BSR *)bsr->FileIndex);
} else {
for ( ; next->next; next=next->next) {
if (strcmp(vol->VolumeName, next->VolumeName) == 0) {
+ if (vol->start_file < next->start_file) {
+ next->start_file = vol->start_file;
+ }
return 0; /* already in list */
}
}
if (strcmp(vol->VolumeName, next->VolumeName) == 0) {
+ if (vol->start_file < next->start_file) {
+ next->start_file = vol->start_file;
+ }
return 0; /* already in list */
}
next->next = vol; /* add volume */
free(next);
next = tmp;
}
+ jcr->VolList = NULL;
}
+/*
+ * Create a list of Volumes (and Slots and Start positions) to be
+ * used in the current restore job.
+ */
void create_vol_list(JCR *jcr)
{
char *p, *n;
VOL_LIST *vol;
/*
- * Build a list of volume to be processed
+ * Build a list of volumes to be processed
*/
jcr->NumVolumes = 0;
- jcr->CurVolume = 1;
+ jcr->CurVolume = 0;
if (jcr->bsr) {
BSR *bsr = jcr->bsr;
- strcpy(jcr->VolumeName, bsr->volume->VolumeName); /* setup first volume */
+ if (!bsr->volume || !bsr->volume->VolumeName) {
+ return;
+ }
for ( ; bsr; bsr=bsr->next) {
- BSR_VOLUME *bsrvol = bsr->volume;
- for ( ; bsrvol; bsrvol=bsrvol->next) {
+ BSR_VOLUME *bsrvol;
+ BSR_VOLFILE *volfile;
+ uint32_t sfile = UINT32_MAX;
+
+ /* Find minimum start file so that we can forward space to it */
+ for (volfile = bsr->volfile; volfile; volfile=volfile->next) {
+ if (volfile->sfile < sfile) {
+ sfile = volfile->sfile;
+ }
+ }
+ /* Now add volumes for this bsr */
+ for (bsrvol = bsr->volume; bsrvol; bsrvol=bsrvol->next) {
vol = new_vol();
- strcpy(vol->VolumeName, bsrvol->VolumeName);
+ bstrncpy(vol->VolumeName, bsrvol->VolumeName, sizeof(vol->VolumeName));
+ vol->start_file = sfile;
if (add_vol(jcr, vol)) {
jcr->NumVolumes++;
Dmsg1(400, "Added volume %s\n", vol->VolumeName);
Dmsg1(400, "Duplicate volume %s\n", vol->VolumeName);
free((char *)vol);
}
+ sfile = 0; /* start at beginning of second volume */
}
}
} else {
/* This is the old way -- deprecated */
- for (p = jcr->VolumeName; p && *p; ) {
+ for (p = jcr->dcr->VolumeName; p && *p; ) {
n = strchr(p, '|'); /* volume name separator */
if (n) {
*n++ = 0; /* Terminate name */
}
vol = new_vol();
- strcpy(vol->VolumeName, p);
+ bstrncpy(vol->VolumeName, p, sizeof(vol->VolumeName));
if (add_vol(jcr, vol)) {
jcr->NumVolumes++;
} else {