2 * Main configuration file parser for Bacula Directors,
3 * some parts may be split into separate files such as
4 * the schedule configuration (sch_config.c).
6 * Note, the configuration file parser consists of three parts
8 * 1. The generic lexical scanner in lib/lex.c and lib/lex.h
10 * 2. The generic config scanner in lib/parse_config.c and
12 * These files contain the parser code, some utility
13 * routines, and the common store routines (name, int,
16 * 3. The daemon specific file, which contains the Resource
17 * definitions as well as any specific store routines
18 * for the resource records.
20 * Kern Sibbald, January MM
25 Copyright (C) 2000-2003 Kern Sibbald and John Walker
27 This program is free software; you can redistribute it and/or
28 modify it under the terms of the GNU General Public License as
29 published by the Free Software Foundation; either version 2 of
30 the License, or (at your option) any later version.
32 This program is distributed in the hope that it will be useful,
33 but WITHOUT ANY WARRANTY; without even the implied warranty of
34 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
35 General Public License for more details.
37 You should have received a copy of the GNU General Public
38 License along with this program; if not, write to the Free
39 Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
47 /* Define the first and last resource ID record
48 * types. Note, these should be unique for each
49 * daemon though not a requirement.
51 int r_first = R_FIRST;
53 pthread_mutex_t res_mutex = PTHREAD_MUTEX_INITIALIZER;
55 /* Imported subroutines */
56 extern void store_run(LEX *lc, struct res_items *item, int index, int pass);
59 /* Forward referenced subroutines */
61 static void store_inc(LEX *lc, struct res_items *item, int index, int pass);
62 static void store_backup(LEX *lc, struct res_items *item, int index, int pass);
63 static void store_restore(LEX *lc, struct res_items *item, int index, int pass);
64 static void store_jobtype(LEX *lc, struct res_items *item, int index, int pass);
65 static void store_level(LEX *lc, struct res_items *item, int index, int pass);
66 static void store_replace(LEX *lc, struct res_items *item, int index, int pass);
69 /* We build the current resource here as we are
70 * scanning the resource configuration definition,
71 * then move it to allocated memory when the resource
75 int res_all_size = sizeof(res_all);
78 /* Definition of records permitted within each
79 * resource with the routine to process the record
80 * information. NOTE! quoted names must be in lower case.
85 * name handler value code flags default_value
87 static struct res_items dir_items[] = {
88 {"name", store_name, ITEM(res_dir.hdr.name), 0, ITEM_REQUIRED, 0},
89 {"description", store_str, ITEM(res_dir.hdr.desc), 0, 0, 0},
90 {"messages", store_res, ITEM(res_dir.messages), R_MSGS, 0, 0},
91 {"dirport", store_pint, ITEM(res_dir.DIRport), 0, ITEM_DEFAULT, 9101},
92 {"diraddress", store_str, ITEM(res_dir.DIRaddr), 0, 0, 0},
93 {"queryfile", store_dir, ITEM(res_dir.query_file), 0, ITEM_REQUIRED, 0},
94 {"workingdirectory", store_dir, ITEM(res_dir.working_directory), 0, ITEM_REQUIRED, 0},
95 {"piddirectory", store_dir, ITEM(res_dir.pid_directory), 0, ITEM_REQUIRED, 0},
96 {"subsysdirectory", store_dir, ITEM(res_dir.subsys_directory), 0, ITEM_REQUIRED, 0},
97 {"maximumconcurrentjobs", store_pint, ITEM(res_dir.MaxConcurrentJobs), 0, ITEM_DEFAULT, 1},
98 {"password", store_password, ITEM(res_dir.password), 0, ITEM_REQUIRED, 0},
99 {"fdconnecttimeout", store_time,ITEM(res_dir.FDConnectTimeout), 0, ITEM_DEFAULT, 60 * 30},
100 {"sdconnecttimeout", store_time,ITEM(res_dir.SDConnectTimeout), 0, ITEM_DEFAULT, 60 * 30},
101 {NULL, NULL, NULL, 0, 0, 0}
105 * Client or File daemon resource
107 * name handler value code flags default_value
110 static struct res_items cli_items[] = {
111 {"name", store_name, ITEM(res_client.hdr.name), 0, ITEM_REQUIRED, 0},
112 {"description", store_str, ITEM(res_client.hdr.desc), 0, 0, 0},
113 {"address", store_str, ITEM(res_client.address), 0, ITEM_REQUIRED, 0},
114 {"fdport", store_pint, ITEM(res_client.FDport), 0, ITEM_DEFAULT, 9102},
115 {"password", store_password, ITEM(res_client.password), 0, ITEM_REQUIRED, 0},
116 {"catalog", store_res, ITEM(res_client.catalog), R_CATALOG, 0, 0},
117 {"fileretention", store_time, ITEM(res_client.FileRetention), 0, ITEM_DEFAULT, 60*60*24*60},
118 {"jobretention", store_time, ITEM(res_client.JobRetention), 0, ITEM_DEFAULT, 60*60*24*180},
119 {"autoprune", store_yesno, ITEM(res_client.AutoPrune), 1, ITEM_DEFAULT, 1},
120 {NULL, NULL, NULL, 0, 0, 0}
123 /* Storage daemon resource
125 * name handler value code flags default_value
127 static struct res_items store_items[] = {
128 {"name", store_name, ITEM(res_store.hdr.name), 0, ITEM_REQUIRED, 0},
129 {"description", store_str, ITEM(res_store.hdr.desc), 0, 0, 0},
130 {"sdport", store_pint, ITEM(res_store.SDport), 0, ITEM_DEFAULT, 9103},
131 {"sddport", store_pint, ITEM(res_store.SDDport), 0, 0, 0}, /* deprecated */
132 {"address", store_str, ITEM(res_store.address), 0, ITEM_REQUIRED, 0},
133 {"password", store_password, ITEM(res_store.password), 0, ITEM_REQUIRED, 0},
134 {"device", store_strname, ITEM(res_store.dev_name), 0, ITEM_REQUIRED, 0},
135 {"mediatype", store_strname, ITEM(res_store.media_type), 0, ITEM_REQUIRED, 0},
136 {"autochanger", store_yesno, ITEM(res_store.autochanger), 1, ITEM_DEFAULT, 0},
137 {NULL, NULL, NULL, 0, 0, 0}
141 * Catalog Resource Directives
143 * name handler value code flags default_value
145 static struct res_items cat_items[] = {
146 {"name", store_name, ITEM(res_cat.hdr.name), 0, ITEM_REQUIRED, 0},
147 {"description", store_str, ITEM(res_cat.hdr.desc), 0, 0, 0},
148 {"address", store_str, ITEM(res_cat.address), 0, 0, 0},
149 {"dbport", store_pint, ITEM(res_cat.DBport), 0, 0, 0},
150 /* keep this password as store_str for the moment */
151 {"password", store_str, ITEM(res_cat.db_password), 0, 0, 0},
152 {"user", store_str, ITEM(res_cat.db_user), 0, 0, 0},
153 {"dbname", store_str, ITEM(res_cat.db_name), 0, ITEM_REQUIRED, 0},
154 {NULL, NULL, NULL, 0, 0, 0}
158 * Job Resource Directives
160 * name handler value code flags default_value
162 static struct res_items job_items[] = {
163 {"name", store_name, ITEM(res_job.hdr.name), 0, ITEM_REQUIRED, 0},
164 {"description", store_str, ITEM(res_job.hdr.desc), 0, 0, 0},
165 {"backup", store_backup, ITEM(res_job), JT_BACKUP, 0, 0},
166 {"verify", store_backup, ITEM(res_job), JT_VERIFY, 0, 0},
167 {"restore", store_restore, ITEM(res_job), JT_RESTORE, 0, 0},
168 {"schedule", store_res, ITEM(res_job.schedule), R_SCHEDULE, 0, 0},
169 {"type", store_jobtype, ITEM(res_job), 0, 0, 0},
170 {"level", store_level, ITEM(res_job), 0, 0, 0},
171 {"messages", store_res, ITEM(res_job.messages), R_MSGS, 0, 0},
172 {"storage", store_res, ITEM(res_job.storage), R_STORAGE, 0, 0},
173 {"pool", store_res, ITEM(res_job.pool), R_POOL, 0, 0},
174 {"client", store_res, ITEM(res_job.client), R_CLIENT, 0, 0},
175 {"fileset", store_res, ITEM(res_job.fileset), R_FILESET, 0, 0},
176 {"where", store_dir, ITEM(res_job.RestoreWhere), 0, 0, 0},
177 {"replace", store_replace, ITEM(res_job.replace), REPLACE_ALWAYS, ITEM_DEFAULT, 0},
178 {"bootstrap",store_dir, ITEM(res_job.RestoreBootstrap), 0, 0, 0},
179 {"maxruntime", store_time, ITEM(res_job.MaxRunTime), 0, 0, 0},
180 {"maxstartdelay", store_time,ITEM(res_job.MaxStartDelay), 0, 0, 0},
181 {"prunejobs", store_yesno, ITEM(res_job.PruneJobs), 1, ITEM_DEFAULT, 0},
182 {"prunefiles", store_yesno, ITEM(res_job.PruneFiles), 1, ITEM_DEFAULT, 0},
183 {"prunevolumes", store_yesno, ITEM(res_job.PruneVolumes), 1, ITEM_DEFAULT, 0},
184 {"runbeforejob", store_str, ITEM(res_job.RunBeforeJob), 0, 0, 0},
185 {"runafterjob", store_str, ITEM(res_job.RunAfterJob), 0, 0, 0},
186 {"spoolattributes", store_yesno, ITEM(res_job.SpoolAttributes), 1, ITEM_DEFAULT, 0},
187 {"writebootstrap", store_dir, ITEM(res_job.WriteBootstrap), 0, 0, 0},
188 {NULL, NULL, NULL, 0, 0, 0}
193 * name handler value code flags default_value
195 static struct res_items fs_items[] = {
196 {"name", store_name, ITEM(res_fs.hdr.name), 0, ITEM_REQUIRED, 0},
197 {"description", store_str, ITEM(res_fs.hdr.desc), 0, 0, 0},
198 {"include", store_inc, NULL, 0, 0, 0},
199 {"exclude", store_inc, NULL, 1, 0, 0},
200 {NULL, NULL, NULL, 0, 0, 0}
203 /* Schedule -- see run_conf.c */
206 * name handler value code flags default_value
208 static struct res_items sch_items[] = {
209 {"name", store_name, ITEM(res_sch.hdr.name), 0, ITEM_REQUIRED, 0},
210 {"description", store_str, ITEM(res_sch.hdr.desc), 0, 0, 0},
211 {"run", store_run, ITEM(res_sch.run), 0, 0, 0},
212 {NULL, NULL, NULL, 0, 0, 0}
215 /* Group resource -- not implemented
217 * name handler value code flags default_value
219 static struct res_items group_items[] = {
220 {"name", store_name, ITEM(res_group.hdr.name), 0, ITEM_REQUIRED, 0},
221 {"description", store_str, ITEM(res_group.hdr.desc), 0, 0, 0},
222 {NULL, NULL, NULL, 0, 0, 0}
227 * name handler value code flags default_value
229 static struct res_items pool_items[] = {
230 {"name", store_name, ITEM(res_pool.hdr.name), 0, ITEM_REQUIRED, 0},
231 {"description", store_str, ITEM(res_pool.hdr.desc), 0, 0, 0},
232 {"pooltype", store_strname, ITEM(res_pool.pool_type), 0, ITEM_REQUIRED, 0},
233 {"labelformat", store_strname, ITEM(res_pool.label_format), 0, 0, 0},
234 {"usecatalog", store_yesno, ITEM(res_pool.use_catalog), 1, ITEM_DEFAULT, 1},
235 {"usevolumeonce", store_yesno, ITEM(res_pool.use_volume_once), 1, 0, 0},
236 {"maximumvolumes", store_pint, ITEM(res_pool.max_volumes), 0, 0, 0},
237 {"maximumvolumejobs", store_pint, ITEM(res_pool.MaxVolJobs), 0, 0, 0},
238 {"maximumvolumefiles", store_pint, ITEM(res_pool.MaxVolFiles), 0, 0, 0},
239 {"maximumvolumebytes", store_size, ITEM(res_pool.MaxVolBytes), 0, 0, 0},
240 {"acceptanyvolume", store_yesno, ITEM(res_pool.accept_any_volume), 1, ITEM_DEFAULT, 1},
241 {"catalogfiles", store_yesno, ITEM(res_pool.catalog_files), 1, ITEM_DEFAULT, 1},
242 {"volumeretention", store_time, ITEM(res_pool.VolRetention), 0, ITEM_DEFAULT, 60*60*24*365},
243 {"volumeuseduration", store_time, ITEM(res_pool.VolUseDuration),0, 0, 0},
244 {"autoprune", store_yesno, ITEM(res_pool.AutoPrune), 1, ITEM_DEFAULT, 1},
245 {"recycle", store_yesno, ITEM(res_pool.Recycle), 1, ITEM_DEFAULT, 1},
246 {NULL, NULL, NULL, 0, 0, 0}
251 * name handler value code flags default_value
253 static struct res_items counter_items[] = {
254 {"name", store_name, ITEM(res_counter.hdr.name), 0, ITEM_REQUIRED, 0},
255 {"description", store_str, ITEM(res_counter.hdr.desc), 0, 0, 0},
256 {"minimum", store_int, ITEM(res_counter.MinValue), 0, ITEM_DEFAULT, 0},
257 {"maximum", store_pint, ITEM(res_counter.MaxValue), 0, ITEM_DEFAULT, INT32_MAX},
258 {"global", store_yesno, ITEM(res_counter.Global), 0, ITEM_DEFAULT, 0},
259 {"wrapcounter", store_strname, ITEM(res_counter.WrapCounter), 0, 0, 0},
260 {NULL, NULL, NULL, 0, 0, 0}
264 /* Message resource */
265 extern struct res_items msgs_items[];
268 * This is the master resource definition.
269 * It must have one item for each of the resources.
271 * name items rcode res_head
273 struct s_res resources[] = {
274 {"director", dir_items, R_DIRECTOR, NULL},
275 {"client", cli_items, R_CLIENT, NULL},
276 {"job", job_items, R_JOB, NULL},
277 {"storage", store_items, R_STORAGE, NULL},
278 {"catalog", cat_items, R_CATALOG, NULL},
279 {"schedule", sch_items, R_SCHEDULE, NULL},
280 {"fileset", fs_items, R_FILESET, NULL},
281 {"group", group_items, R_GROUP, NULL},
282 {"pool", pool_items, R_POOL, NULL},
283 {"messages", msgs_items, R_MSGS, NULL},
284 {"counter", counter_items, R_COUNTER, NULL},
285 {NULL, NULL, 0, NULL}
289 /* Keywords (RHS) permitted in Job Level records
291 * level_name level job_type
293 struct s_jl joblevels[] = {
294 {"Full", L_FULL, JT_BACKUP},
295 {"Incremental", L_INCREMENTAL, JT_BACKUP},
296 {"Differential", L_DIFFERENTIAL, JT_BACKUP},
297 {"Since", L_SINCE, JT_BACKUP},
298 {"Catalog", L_VERIFY_CATALOG, JT_VERIFY},
299 {"Initcatalog", L_VERIFY_INIT, JT_VERIFY},
300 {"VolumeToCatalog", L_VERIFY_VOLUME_TO_CATALOG, JT_VERIFY},
301 {"Data", L_VERIFY_DATA, JT_VERIFY},
305 /* Keywords (RHS) permitted in Job type records
309 struct s_jt jobtypes[] = {
310 {"backup", JT_BACKUP},
312 {"verify", JT_VERIFY},
313 {"restore", JT_RESTORE},
318 /* Keywords (RHS) permitted in Backup and Verify records */
319 static struct s_kw BakVerFields[] = {
326 /* Keywords (RHS) permitted in Restore records */
327 static struct s_kw RestoreFields[] = {
330 {"jobid", 'J'}, /* JobId to restore */
331 {"where", 'W'}, /* root of restore */
332 {"replace", 'R'}, /* replacement options */
333 {"bootstrap", 'B'}, /* bootstrap file */
337 /* Options permitted in Restore replace= */
338 struct s_kw ReplaceOptions[] = {
339 {"always", REPLACE_ALWAYS},
340 {"ifnewer", REPLACE_IFNEWER},
341 {"ifolder", REPLACE_IFOLDER},
342 {"never", REPLACE_NEVER},
348 /* Define FileSet KeyWord values */
350 #define INC_KW_NONE 0
351 #define INC_KW_COMPRESSION 1
352 #define INC_KW_SIGNATURE 2
353 #define INC_KW_ENCRYPTION 3
354 #define INC_KW_VERIFY 4
355 #define INC_KW_ONEFS 5
356 #define INC_KW_RECURSE 6
357 #define INC_KW_SPARSE 7
358 #define INC_KW_REPLACE 8 /* restore options */
359 #define INC_KW_READFIFO 9 /* Causes fifo data to be read */
361 /* Include keywords */
362 static struct s_kw FS_option_kw[] = {
363 {"compression", INC_KW_COMPRESSION},
364 {"signature", INC_KW_SIGNATURE},
365 {"encryption", INC_KW_ENCRYPTION},
366 {"verify", INC_KW_VERIFY},
367 {"onefs", INC_KW_ONEFS},
368 {"recurse", INC_KW_RECURSE},
369 {"sparse", INC_KW_SPARSE},
370 {"replace", INC_KW_REPLACE},
371 {"readfifo", INC_KW_READFIFO},
375 /* Options for FileSet keywords */
383 /* Options permitted for each keyword and resulting value */
384 static struct s_fs_opt FS_options[] = {
385 {"md5", INC_KW_SIGNATURE, "M"},
386 {"gzip", INC_KW_COMPRESSION, "Z6"},
387 {"gzip1", INC_KW_COMPRESSION, "Z1"},
388 {"gzip2", INC_KW_COMPRESSION, "Z2"},
389 {"gzip3", INC_KW_COMPRESSION, "Z3"},
390 {"gzip4", INC_KW_COMPRESSION, "Z4"},
391 {"gzip5", INC_KW_COMPRESSION, "Z5"},
392 {"gzip6", INC_KW_COMPRESSION, "Z6"},
393 {"gzip7", INC_KW_COMPRESSION, "Z7"},
394 {"gzip8", INC_KW_COMPRESSION, "Z8"},
395 {"gzip9", INC_KW_COMPRESSION, "Z9"},
396 {"blowfish", INC_KW_ENCRYPTION, "B"}, /* ***FIXME*** not implemented */
397 {"3des", INC_KW_ENCRYPTION, "3"}, /* ***FIXME*** not implemented */
398 {"yes", INC_KW_ONEFS, "0"},
399 {"no", INC_KW_ONEFS, "f"},
400 {"yes", INC_KW_RECURSE, "0"},
401 {"no", INC_KW_RECURSE, "h"},
402 {"yes", INC_KW_SPARSE, "s"},
403 {"no", INC_KW_SPARSE, "0"},
404 {"always", INC_KW_REPLACE, "a"},
405 {"ifnewer", INC_KW_REPLACE, "w"},
406 {"never", INC_KW_REPLACE, "n"},
407 {"yes", INC_KW_READFIFO, "r"},
408 {"no", INC_KW_READFIFO, "0"},
412 char *level_to_str(int level)
415 static char level_no[30];
416 char *str = level_no;
418 sprintf(level_no, "%d", level); /* default if not found */
419 for (i=0; joblevels[i].level_name; i++) {
420 if (level == joblevels[i].level) {
421 str = joblevels[i].level_name;
430 /* Dump contents of resource */
431 void dump_resource(int type, RES *reshdr, void sendit(void *sock, char *fmt, ...), void *sock)
434 URES *res = (URES *)reshdr;
438 sendit(sock, "No %s resource defined\n", res_to_str(type));
441 if (type < 0) { /* no recursion */
447 char ed1[30], ed2[30];
448 sendit(sock, "Director: name=%s maxjobs=%d FDtimeout=%s SDtimeout=%s\n",
449 reshdr->name, res->res_dir.MaxConcurrentJobs,
450 edit_uint64(res->res_dir.FDConnectTimeout, ed1),
451 edit_uint64(res->res_dir.SDConnectTimeout, ed2));
452 if (res->res_dir.query_file) {
453 sendit(sock, " query_file=%s\n", res->res_dir.query_file);
455 if (res->res_dir.messages) {
456 sendit(sock, " --> ");
457 dump_resource(-R_MSGS, (RES *)res->res_dir.messages, sendit, sock);
461 sendit(sock, "Client: name=%s address=%s FDport=%d\n",
462 res->res_client.hdr.name, res->res_client.address, res->res_client.FDport);
463 sendit(sock, "JobRetention=%" lld " FileRetention=%" lld " AutoPrune=%d\n",
464 res->res_client.JobRetention, res->res_client.FileRetention,
465 res->res_client.AutoPrune);
466 if (res->res_client.catalog) {
467 sendit(sock, " --> ");
468 dump_resource(-R_CATALOG, (RES *)res->res_client.catalog, sendit, sock);
472 sendit(sock, "Storage: name=%s address=%s SDport=%d\n\
473 DeviceName=%s MediaType=%s\n",
474 res->res_store.hdr.name, res->res_store.address, res->res_store.SDport,
475 res->res_store.dev_name, res->res_store.media_type);
478 sendit(sock, "Catalog: name=%s address=%s DBport=%d db_name=%s\n\
480 res->res_cat.hdr.name, NPRT(res->res_cat.address),
481 res->res_cat.DBport, res->res_cat.db_name, NPRT(res->res_cat.db_user));
484 sendit(sock, "Job: name=%s JobType=%d level=%s\n", res->res_job.hdr.name,
485 res->res_job.JobType, level_to_str(res->res_job.level));
486 if (res->res_job.client) {
487 sendit(sock, " --> ");
488 dump_resource(-R_CLIENT, (RES *)res->res_job.client, sendit, sock);
490 if (res->res_job.fileset) {
491 sendit(sock, " --> ");
492 dump_resource(-R_FILESET, (RES *)res->res_job.fileset, sendit, sock);
494 if (res->res_job.schedule) {
495 sendit(sock, " --> ");
496 dump_resource(-R_SCHEDULE, (RES *)res->res_job.schedule, sendit, sock);
498 if (res->res_job.RestoreWhere) {
499 sendit(sock, " --> Where=%s\n", NPRT(res->res_job.RestoreWhere));
501 if (res->res_job.RestoreBootstrap) {
502 sendit(sock, " --> Bootstrap=%s\n", NPRT(res->res_job.RestoreBootstrap));
504 if (res->res_job.RunBeforeJob) {
505 sendit(sock, " --> RunBefore=%s\n", NPRT(res->res_job.RunBeforeJob));
507 if (res->res_job.RunAfterJob) {
508 sendit(sock, " --> RunAfter=%s\n", NPRT(res->res_job.RunAfterJob));
510 if (res->res_job.WriteBootstrap) {
511 sendit(sock, " --> WriteBootstrap=%s\n", NPRT(res->res_job.WriteBootstrap));
513 if (res->res_job.storage) {
514 sendit(sock, " --> ");
515 dump_resource(-R_STORAGE, (RES *)res->res_job.storage, sendit, sock);
517 if (res->res_job.pool) {
518 sendit(sock, " --> ");
519 dump_resource(-R_POOL, (RES *)res->res_job.pool, sendit, sock);
521 sendit(sock, "!!! No Pool resource\n");
523 if (res->res_job.messages) {
524 sendit(sock, " --> ");
525 dump_resource(-R_MSGS, (RES *)res->res_job.messages, sendit, sock);
529 sendit(sock, "FileSet: name=%s\n", res->res_fs.hdr.name);
530 for (i=0; i<res->res_fs.num_includes; i++)
531 sendit(sock, " Inc: %s\n", res->res_fs.include_array[i]);
532 for (i=0; i<res->res_fs.num_excludes; i++)
533 sendit(sock, " Exc: %s\n", res->res_fs.exclude_array[i]);
536 if (res->res_sch.run) {
538 RUN *run = res->res_sch.run;
539 char buf[1000], num[10];
540 sendit(sock, "Schedule: name=%s\n", res->res_sch.hdr.name);
545 sendit(sock, " --> Run Level=%s\n", level_to_str(run->level));
546 strcpy(buf, " hour=");
547 for (i=0; i<24; i++) {
548 if (bit_is_set(i, run->hour)) {
549 sprintf(num, "%d ", i);
555 strcpy(buf, " mday=");
556 for (i=0; i<31; i++) {
557 if (bit_is_set(i, run->mday)) {
558 sprintf(num, "%d ", i+1);
564 strcpy(buf, " month=");
565 for (i=0; i<12; i++) {
566 if (bit_is_set(i, run->month)) {
567 sprintf(num, "%d ", i+1);
573 strcpy(buf, " wday=");
574 for (i=0; i<7; i++) {
575 if (bit_is_set(i, run->wday)) {
576 sprintf(num, "%d ", i+1);
582 strcpy(buf, " wpos=");
583 for (i=0; i<5; i++) {
584 if (bit_is_set(i, run->wpos)) {
585 sprintf(num, "%d ", i+1);
591 sendit(sock, " mins=%d\n", run->minute);
593 sendit(sock, " --> ");
594 dump_resource(-R_POOL, (RES *)run->pool, sendit, sock);
597 sendit(sock, " --> ");
598 dump_resource(-R_STORAGE, (RES *)run->storage, sendit, sock);
601 sendit(sock, " --> ");
602 dump_resource(-R_MSGS, (RES *)run->msgs, sendit, sock);
604 /* If another Run record is chained in, go print it */
610 sendit(sock, "Schedule: name=%s\n", res->res_sch.hdr.name);
614 sendit(sock, "Group: name=%s\n", res->res_group.hdr.name);
617 sendit(sock, "Pool: name=%s PoolType=%s\n", res->res_pool.hdr.name,
618 res->res_pool.pool_type);
619 sendit(sock, " use_cat=%d use_once=%d acpt_any=%d cat_files=%d\n",
620 res->res_pool.use_catalog, res->res_pool.use_volume_once,
621 res->res_pool.accept_any_volume, res->res_pool.catalog_files);
622 sendit(sock, " max_vols=%d auto_prune=%d VolRetention=%" lld "\n",
623 res->res_pool.max_volumes, res->res_pool.AutoPrune,
624 res->res_pool.VolRetention);
625 sendit(sock, " recycle=%d LabelFormat=%s\n", res->res_pool.Recycle,
626 NPRT(res->res_pool.label_format));
629 sendit(sock, "Messages: name=%s\n", res->res_msgs.hdr.name);
630 if (res->res_msgs.mail_cmd)
631 sendit(sock, " mailcmd=%s\n", res->res_msgs.mail_cmd);
632 if (res->res_msgs.operator_cmd)
633 sendit(sock, " opcmd=%s\n", res->res_msgs.operator_cmd);
636 sendit(sock, "Unknown resource type %d\n", type);
639 if (recurse && res->res_dir.hdr.next) {
640 dump_resource(type, res->res_dir.hdr.next, sendit, sock);
645 * Free memory of resource.
646 * NB, we don't need to worry about freeing any references
647 * to other resources as they will be freed when that
648 * resource chain is traversed. Mainly we worry about freeing
649 * allocated strings (names).
651 void free_resource(int type)
656 int rindex = type - r_first;
658 res = (URES *)resources[rindex].res_head;
663 /* common stuff -- free the resource name and description */
664 nres = (RES *)res->res_dir.hdr.next;
665 if (res->res_dir.hdr.name) {
666 free(res->res_dir.hdr.name);
668 if (res->res_dir.hdr.desc) {
669 free(res->res_dir.hdr.desc);
674 if (res->res_dir.working_directory) {
675 free(res->res_dir.working_directory);
677 if (res->res_dir.pid_directory) {
678 free(res->res_dir.pid_directory);
680 if (res->res_dir.subsys_directory) {
681 free(res->res_dir.subsys_directory);
683 if (res->res_dir.password) {
684 free(res->res_dir.password);
686 if (res->res_dir.query_file) {
687 free(res->res_dir.query_file);
689 if (res->res_dir.DIRaddr) {
690 free(res->res_dir.DIRaddr);
694 if (res->res_client.address) {
695 free(res->res_client.address);
697 if (res->res_client.password) {
698 free(res->res_client.password);
702 if (res->res_store.address)
703 free(res->res_store.address);
704 if (res->res_store.password)
705 free(res->res_store.password);
706 if (res->res_store.media_type)
707 free(res->res_store.media_type);
708 if (res->res_store.dev_name)
709 free(res->res_store.dev_name);
712 if (res->res_cat.address)
713 free(res->res_cat.address);
714 if (res->res_cat.db_user)
715 free(res->res_cat.db_user);
716 if (res->res_cat.db_name)
717 free(res->res_cat.db_name);
718 if (res->res_cat.db_password)
719 free(res->res_cat.db_password);
722 if ((num=res->res_fs.num_includes)) {
724 free(res->res_fs.include_array[num]);
725 free(res->res_fs.include_array);
727 if ((num=res->res_fs.num_excludes)) {
729 free(res->res_fs.exclude_array[num]);
730 free(res->res_fs.exclude_array);
734 if (res->res_pool.pool_type) {
735 free(res->res_pool.pool_type);
737 if (res->res_pool.label_format) {
738 free(res->res_pool.label_format);
742 if (res->res_sch.run) {
744 nrun = res->res_sch.run;
753 if (res->res_job.RestoreWhere) {
754 free(res->res_job.RestoreWhere);
756 if (res->res_job.RestoreBootstrap) {
757 free(res->res_job.RestoreBootstrap);
759 if (res->res_job.WriteBootstrap) {
760 free(res->res_job.WriteBootstrap);
762 if (res->res_job.RunBeforeJob) {
763 free(res->res_job.RunBeforeJob);
765 if (res->res_job.RunAfterJob) {
766 free(res->res_job.RunAfterJob);
770 if (res->res_msgs.mail_cmd)
771 free(res->res_msgs.mail_cmd);
772 if (res->res_msgs.operator_cmd)
773 free(res->res_msgs.operator_cmd);
774 free_msgs_res((MSGS *)res); /* free message resource */
780 printf("Unknown resource type %d\n", type);
782 /* Common stuff again -- free the resource, recurse to next one */
786 resources[rindex].res_head = nres;
793 * Save the new resource by chaining it into the head list for
794 * the resource. If this is pass 2, we update any resource
795 * pointers because they may not have been defined until
798 void save_resource(int type, struct res_items *items, int pass)
801 int rindex = type - r_first;
806 * Ensure that all required items are present
808 for (i=0; items[i].name; i++) {
809 if (items[i].flags & ITEM_REQUIRED) {
810 if (!bit_is_set(i, res_all.res_dir.hdr.item_present)) {
811 Emsg2(M_ERROR_TERM, 0, "%s item is required in %s resource, but not found.\n",
812 items[i].name, resources[rindex]);
815 /* If this triggers, take a look at lib/parse_conf.h */
816 if (i >= MAX_RES_ITEMS) {
817 Emsg1(M_ERROR_TERM, 0, "Too many items in %s resource\n", resources[rindex]);
821 /* During pass 2 in each "store" routine, we looked up pointers
822 * to all the resources referrenced in the current resource, now we
823 * must copy their addresses from the static record to the allocated
828 /* Resources not containing a resource */
837 /* Resources containing another resource */
839 if ((res = (URES *)GetResWithName(R_DIRECTOR, res_all.res_dir.hdr.name)) == NULL) {
840 Emsg1(M_ERROR_TERM, 0, "Cannot find Director resource %s\n", res_all.res_dir.hdr.name);
842 res->res_dir.messages = res_all.res_dir.messages;
845 if ((res = (URES *)GetResWithName(R_JOB, res_all.res_dir.hdr.name)) == NULL) {
846 Emsg1(M_ERROR_TERM, 0, "Cannot find Job resource %s\n", res_all.res_dir.hdr.name);
848 res->res_job.messages = res_all.res_job.messages;
849 res->res_job.schedule = res_all.res_job.schedule;
850 res->res_job.client = res_all.res_job.client;
851 res->res_job.fileset = res_all.res_job.fileset;
852 res->res_job.storage = res_all.res_job.storage;
853 res->res_job.pool = res_all.res_job.pool;
854 if (res->res_job.JobType == 0) {
855 Emsg1(M_ERROR_TERM, 0, "Job Type not defined for Job resource %s\n", res_all.res_dir.hdr.name);
857 if (res->res_job.level != 0) {
859 for (i=0; joblevels[i].level_name; i++) {
860 if (joblevels[i].level == res->res_job.level &&
861 joblevels[i].job_type == res->res_job.JobType) {
867 Emsg1(M_ERROR_TERM, 0, "Inappropriate level specified in Job resource %s\n",
868 res_all.res_dir.hdr.name);
873 if ((res = (URES *)GetResWithName(R_CLIENT, res_all.res_client.hdr.name)) == NULL) {
874 Emsg1(M_ERROR_TERM, 0, "Cannot find Client resource %s\n", res_all.res_client.hdr.name);
876 res->res_client.catalog = res_all.res_client.catalog;
879 /* Schedule is a bit different in that it contains a RUN record
880 * chain which isn't a "named" resource. This chain was linked
881 * in by run_conf.c during pass 2, so here we jam the pointer
882 * into the Schedule resource.
884 if ((res = (URES *)GetResWithName(R_SCHEDULE, res_all.res_client.hdr.name)) == NULL) {
885 Emsg1(M_ERROR_TERM, 0, "Cannot find Schedule resource %s\n", res_all.res_client.hdr.name);
887 res->res_sch.run = res_all.res_sch.run;
890 Emsg1(M_ERROR, 0, "Unknown resource type %d\n", type);
894 /* Note, the resource name was already saved during pass 1,
895 * so here, we can just release it.
897 if (res_all.res_dir.hdr.name) {
898 free(res_all.res_dir.hdr.name);
899 res_all.res_dir.hdr.name = NULL;
901 if (res_all.res_dir.hdr.desc) {
902 free(res_all.res_dir.hdr.desc);
903 res_all.res_dir.hdr.desc = NULL;
908 /* The following code is only executed for pass 1 */
911 size = sizeof(DIRRES);
914 size =sizeof(CLIENT);
917 size = sizeof(STORE);
926 size = sizeof(FILESET);
929 size = sizeof(SCHED);
932 size = sizeof(GROUP);
941 printf("Unknown resource type %d\n", type);
948 res = (URES *)malloc(size);
949 memcpy(res, &res_all, size);
950 if (!resources[rindex].res_head) {
951 resources[rindex].res_head = (RES *)res; /* store first entry */
954 /* Add new res to end of chain */
955 for (next=resources[rindex].res_head; next->next; next=next->next)
957 next->next = (RES *)res;
958 Dmsg2(90, "Inserting %s res: %s\n", res_to_str(type),
959 res->res_dir.hdr.name);
965 * Store JobType (backup, verify, restore)
968 static void store_jobtype(LEX *lc, struct res_items *item, int index, int pass)
972 token = lex_get_token(lc, T_NAME);
973 /* Store the type both pass 1 and pass 2 */
974 for (i=0; jobtypes[i].type_name; i++) {
975 if (strcasecmp(lc->str, jobtypes[i].type_name) == 0) {
976 ((JOB *)(item->value))->JobType = jobtypes[i].job_type;
982 scan_err1(lc, "Expected a Job Type keyword, got: %s", lc->str);
985 set_bit(index, res_all.hdr.item_present);
989 * Store Job Level (Full, Incremental, ...)
992 static void store_level(LEX *lc, struct res_items *item, int index, int pass)
996 token = lex_get_token(lc, T_NAME);
997 /* Store the level pass 2 so that type is defined */
998 for (i=0; joblevels[i].level_name; i++) {
999 if (strcasecmp(lc->str, joblevels[i].level_name) == 0) {
1000 ((JOB *)(item->value))->level = joblevels[i].level;
1006 scan_err1(lc, "Expected a Job Level keyword, got: %s", lc->str);
1009 set_bit(index, res_all.hdr.item_present);
1012 static void store_replace(LEX *lc, struct res_items *item, int index, int pass)
1015 token = lex_get_token(lc, T_NAME);
1016 /* Scan Replacement options */
1017 for (i=0; ReplaceOptions[i].name; i++) {
1018 if (strcasecmp(lc->str, ReplaceOptions[i].name) == 0) {
1019 ((JOB *)(item->value))->replace = ReplaceOptions[i].token;
1025 scan_err1(lc, "Expected a Restore replacement option, got: %s", lc->str);
1028 set_bit(index, res_all.hdr.item_present);
1032 * Store backup/verify info for Job record
1034 * Note, this code is used for both BACKUP and VERIFY jobs
1036 * Backup = Client=<client-name> FileSet=<FileSet-name> Level=<level>
1038 static void store_backup(LEX *lc, struct res_items *item, int index, int pass)
1042 int options = lc->options;
1044 lc->options |= LOPT_NO_IDENT; /* make spaces significant */
1047 ((JOB *)(item->value))->JobType = item->code;
1048 while ((token = lex_get_token(lc, T_ALL)) != T_EOL) {
1051 Dmsg1(150, "store_backup got token=%s\n", lex_tok_to_str(token));
1053 if (token != T_IDENTIFIER && token != T_UNQUOTED_STRING && token != T_QUOTED_STRING) {
1054 scan_err1(lc, "Expected a backup/verify keyword, got: %s", lc->str);
1056 Dmsg1(190, "Got keyword: %s\n", lc->str);
1058 for (i=0; BakVerFields[i].name; i++) {
1059 if (strcasecmp(lc->str, BakVerFields[i].name) == 0) {
1061 if (lex_get_token(lc, T_ALL) != T_EQUALS) {
1062 scan_err1(lc, "Expected an equals, got: %s", lc->str);
1064 token = lex_get_token(lc, T_NAME);
1065 Dmsg1(190, "Got value: %s\n", lc->str);
1066 switch (BakVerFields[i].token) {
1068 /* Find Client Resource */
1070 res = GetResWithName(R_CLIENT, lc->str);
1072 scan_err1(lc, "Could not find specified Client Resource: %s",
1075 res_all.res_job.client = (CLIENT *)res;
1079 /* Find FileSet Resource */
1081 res = GetResWithName(R_FILESET, lc->str);
1083 scan_err1(lc, "Could not find specified FileSet Resource: %s\n",
1086 res_all.res_job.fileset = (FILESET *)res;
1091 for (i=0; joblevels[i].level_name; i++) {
1092 if (joblevels[i].job_type == item->code &&
1093 strcasecmp(lc->str, joblevels[i].level_name) == 0) {
1094 ((JOB *)(item->value))->level = joblevels[i].level;
1100 scan_err1(lc, "Expected a Job Level keyword, got: %s", lc->str);
1105 } /* end if strcmp() */
1108 scan_err1(lc, "%s not a valid Backup/verify keyword", lc->str);
1111 lc->options = options; /* reset original options */
1112 set_bit(index, res_all.hdr.item_present);
1116 * Store restore info for Job record
1118 * Restore = JobId=<job-id> Where=<root-directory> Replace=<options> Bootstrap=<file>
1121 static void store_restore(LEX *lc, struct res_items *item, int index, int pass)
1125 int options = lc->options;
1127 lc->options |= LOPT_NO_IDENT; /* make spaces significant */
1129 Dmsg0(190, "Enter store_restore()\n");
1131 ((JOB *)(item->value))->JobType = item->code;
1132 while ((token = lex_get_token(lc, T_ALL)) != T_EOL) {
1135 if (token != T_IDENTIFIER && token != T_UNQUOTED_STRING && token != T_QUOTED_STRING) {
1136 scan_err1(lc, "expected a name, got: %s", lc->str);
1139 for (i=0; RestoreFields[i].name; i++) {
1140 Dmsg1(190, "Restore kw=%s\n", lc->str);
1141 if (strcasecmp(lc->str, RestoreFields[i].name) == 0) {
1143 if (lex_get_token(lc, T_ALL) != T_EQUALS) {
1144 scan_err1(lc, "Expected an equals, got: %s", lc->str);
1146 token = lex_get_token(lc, T_ALL);
1147 Dmsg1(190, "Restore value=%s\n", lc->str);
1148 switch (RestoreFields[i].token) {
1151 if (token != T_IDENTIFIER && token != T_UNQUOTED_STRING && token != T_QUOTED_STRING) {
1152 scan_err1(lc, "Expected a Restore bootstrap file, got: %s", lc->str);
1155 res_all.res_job.RestoreBootstrap = bstrdup(lc->str);
1159 /* Find Client Resource */
1161 res = GetResWithName(R_CLIENT, lc->str);
1163 scan_err1(lc, "Could not find specified Client Resource: %s",
1166 res_all.res_job.client = (CLIENT *)res;
1170 /* Find FileSet Resource */
1172 res = GetResWithName(R_FILESET, lc->str);
1174 scan_err1(lc, "Could not find specified FileSet Resource: %s\n",
1177 res_all.res_job.fileset = (FILESET *)res;
1182 if (token != T_NUMBER) {
1183 scan_err1(lc, "expected an integer number, got: %s", lc->str);
1186 res_all.res_job.RestoreJobId = strtol(lc->str, NULL, 0);
1187 Dmsg1(190, "RestorJobId=%d\n", res_all.res_job.RestoreJobId);
1189 scan_err1(lc, "expected an integer number, got: %s", lc->str);
1194 if (token != T_IDENTIFIER && token != T_UNQUOTED_STRING && token != T_QUOTED_STRING) {
1195 scan_err1(lc, "Expected a Restore root directory, got: %s", lc->str);
1198 res_all.res_job.RestoreWhere = bstrdup(lc->str);
1202 /* Replacement options */
1203 if (token != T_IDENTIFIER && token != T_UNQUOTED_STRING && token != T_QUOTED_STRING) {
1204 scan_err1(lc, "Expected a keyword name, got: %s", lc->str);
1206 /* Fix to scan Replacement options */
1207 for (i=0; ReplaceOptions[i].name; i++) {
1208 if (strcasecmp(lc->str, ReplaceOptions[i].name) == 0) {
1209 ((JOB *)(item->value))->replace = ReplaceOptions[i].token;
1215 scan_err1(lc, "Expected a Restore replacement option, got: %s", lc->str);
1220 } /* end if strcmp() */
1223 scan_err1(lc, "%s not a valid Restore keyword", lc->str);
1226 lc->options = options; /* reset original options */
1227 set_bit(index, res_all.hdr.item_present);
1233 * Scan for Include options (keyword=option) is converted into one or
1234 * two characters. Verifyopts=xxxx is Vxxxx:
1236 static void scan_include_options(LEX *lc, int keyword, char *opts, int optlen)
1241 option[0] = 0; /* default option = none */
1242 option[2] = 0; /* terminate options */
1243 token = lex_get_token(lc, T_NAME); /* expect at least one option */
1244 if (keyword == INC_KW_VERIFY) { /* special case */
1245 /* ***FIXME**** ensure these are in permitted set */
1246 bstrncat(opts, "V", optlen); /* indicate Verify */
1247 bstrncat(opts, lc->str, optlen);
1248 bstrncat(opts, ":", optlen); /* terminate it */
1250 for (i=0; FS_options[i].name; i++) {
1251 if (strcasecmp(lc->str, FS_options[i].name) == 0 && FS_options[i].keyword == keyword) {
1252 /* NOTE! maximum 2 letters here or increase option[3] */
1253 option[0] = FS_options[i].option[0];
1254 option[1] = FS_options[i].option[1];
1260 scan_err1(lc, "Expected a FileSet option keyword, got:%s:", lc->str);
1261 } else { /* add option */
1262 bstrncat(opts, option, optlen);
1263 Dmsg3(200, "Catopts=%s option=%s optlen=%d\n", opts, option,optlen);
1267 /* If option terminated by comma, eat it */
1268 if (lc->ch == ',') {
1269 token = lex_get_token(lc, T_ALL); /* yes, eat comma */
1274 /* Store FileSet Include/Exclude info */
1275 static void store_inc(LEX *lc, struct res_items *item, int index, int pass)
1278 int options = lc->options;
1284 lc->options |= LOPT_NO_IDENT; /* make spaces significant */
1286 /* Get include options */
1288 while ((token=lex_get_token(lc, T_ALL)) != T_BOB) {
1289 keyword = INC_KW_NONE;
1290 for (i=0; FS_option_kw[i].name; i++) {
1291 if (strcasecmp(lc->str, FS_option_kw[i].name) == 0) {
1292 keyword = FS_option_kw[i].token;
1296 if (keyword == INC_KW_NONE) {
1297 scan_err1(lc, "Expected a FileSet keyword, got: %s", lc->str);
1299 /* Option keyword should be following by = <option> */
1300 if ((token=lex_get_token(lc, T_ALL)) != T_EQUALS) {
1301 scan_err1(lc, "expected an = following keyword, got: %s", lc->str);
1303 scan_include_options(lc, keyword, inc_opts, sizeof(inc_opts));
1304 if (token == T_BOB) {
1309 strcat(inc_opts, "0 "); /* set no options */
1311 strcat(inc_opts, " "); /* add field separator */
1313 inc_opts_len = strlen(inc_opts);
1316 if (!res_all.res_fs.have_MD5) {
1317 MD5Init(&res_all.res_fs.md5c);
1318 res_all.res_fs.have_MD5 = TRUE;
1320 /* Pickup include/exclude names. Note, they are stored as
1322 * where XYZ are the include/exclude options for the FileSet
1323 * a "0 " (zero) indicates no options,
1324 * and fname is the file/directory name given
1326 while ((token = lex_get_token(lc, T_ALL)) != T_EOB) {
1333 case T_UNQUOTED_STRING:
1334 case T_QUOTED_STRING:
1335 fname = (char *) malloc(lc->str_len + inc_opts_len + 1);
1336 strcpy(fname, inc_opts);
1337 strcat(fname, lc->str);
1338 if (res_all.res_fs.have_MD5) {
1339 MD5Update(&res_all.res_fs.md5c, (unsigned char *) fname, inc_opts_len + lc->str_len);
1341 if (item->code == 0) { /* include */
1342 if (res_all.res_fs.num_includes == res_all.res_fs.include_size) {
1343 res_all.res_fs.include_size += 10;
1344 if (res_all.res_fs.include_array == NULL) {
1345 res_all.res_fs.include_array = (char **) malloc(sizeof(char *) * res_all.res_fs.include_size);
1347 res_all.res_fs.include_array = (char **) realloc(res_all.res_fs.include_array,
1348 sizeof(char *) * res_all.res_fs.include_size);
1351 res_all.res_fs.include_array[res_all.res_fs.num_includes++] =
1353 } else { /* exclude */
1354 if (res_all.res_fs.num_excludes == res_all.res_fs.exclude_size) {
1355 res_all.res_fs.exclude_size += 10;
1356 if (res_all.res_fs.exclude_array == NULL) {
1357 res_all.res_fs.exclude_array = (char **) malloc(sizeof(char *) * res_all.res_fs.exclude_size);
1359 res_all.res_fs.exclude_array = (char **) realloc(res_all.res_fs.exclude_array,
1360 sizeof(char *) * res_all.res_fs.exclude_size);
1363 res_all.res_fs.exclude_array[res_all.res_fs.num_excludes++] =
1368 scan_err1(lc, "Expected a filename, got: %s", lc->str);
1371 } else { /* pass 2 */
1372 while (lex_get_token(lc, T_ALL) != T_EOB)
1376 lc->options = options;
1377 set_bit(index, res_all.hdr.item_present);