2 * Amanda, The Advanced Maryland Automatic Network Disk Archiver
3 * Copyright (c) 1991-2000 University of Maryland at College Park
6 * Permission to use, copy, modify, distribute, and sell this software and its
7 * documentation for any purpose is hereby granted without fee, provided that
8 * the above copyright notice appear in all copies and that both that
9 * copyright notice and this permission notice appear in supporting
10 * documentation, and that the name of U.M. not be used in advertising or
11 * publicity pertaining to distribution of the software without specific,
12 * written prior permission. U.M. makes no representations about the
13 * suitability of this software for any purpose. It is provided "as is"
14 * without express or implied warranty.
16 * U.M. DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL
17 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL U.M.
18 * BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
19 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
20 * OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
21 * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
23 * Author: James da Silva, Systems Design and Analysis Group
24 * Computer Science Department
25 * University of Maryland at College Park
28 * $Id: conffile.h,v 1.72 2006/07/26 15:17:37 martinea Exp $
30 * interface for config file reading code
38 /* Getting Configuration Values
39 * ============================
41 * Amanda configurations consist of a number of "global" parameters, as well as
42 * named subsections of several types. The global parameters are fetched with
43 * the getconf_CONFTYPE functions, keyed by a confparam_t constant (with prefix
44 * CNF_). The subsection parameters are fetched with SUBSEC_get_PARAM()
45 * macros, e.g., tapetype_get_blocksize(ttyp), where the argument comes from
46 * lookup_SUBSEC(), in this case lookup_tapetype(name).
51 * This module juggles two kinds of types: C types and conftypes. Conftypes include
52 * everything from integers through property lists, and are specific to the needs of
53 * the configuration system. Each conftype has a corresponding C type, which is of course
54 * necessary to actually use the data.
56 * The val_t__CONFTYPE macros represent the canonical correspondance of conftypes to C
57 * types, but in general the relationship is obvious: ints, strings, reals, and so forth
58 * are represented directly. Enumerated conftypes are represented by the corresponding
59 * C enum type. The 'rate' conftype is represented as a 2-element array of doubles, and
60 * the 'intrange' conftype is represented as a 2-element array of ints. exincludes are
61 * a exinclude_t *, and a proplist is represented as a GHashTable *.
65 * Note that, unless specified, all memory in this module is managed by the module
66 * itself; return strings should not be freed by the caller.
70 * All errors and warnings generated by this module are available from get_config_errors().
71 * It is up to the caller to route these messages to the user. The function
72 * config_print_errors() will print the errors to stderr, as a convenience.
78 * This module uses a generic val_t type to hold values of various types -- it's basically
79 * a union with type information and a 'seen' flag. In a way, it's a very simple equivalent
80 * to Glib's GValue. It's worth considering rewriting this with GValue, but for the moment,
81 * this works and it's here.
84 /* A "seen" struct. Rather than allocate strings all over the place, this
85 * string is in the "parsed_filenames" GSList and will be freed when that
86 * GSList is freed. This struct should be opaque to other modules. */
87 typedef struct seen_s {
93 /* holdingdisk types */
95 HOLD_NEVER, /* Always direct to tape */
96 HOLD_AUTO, /* If possible */
97 HOLD_REQUIRED /* Always to holding disk */
100 /* Compression types */
102 COMP_NONE, /* No compression */
103 COMP_FAST, /* Fast compression on client */
104 COMP_BEST, /* Best compression on client */
105 COMP_CUST, /* Custom compression on client */
106 COMP_SERVER_FAST, /* Fast compression on server */
107 COMP_SERVER_BEST, /* Best compression on server */
108 COMP_SERVER_CUST /* Custom compression on server */
111 /* Encryption types */
113 ENCRYPT_NONE, /* No encryption */
114 ENCRYPT_CUST, /* Custom encryption on client */
115 ENCRYPT_SERV_CUST /* Custom encryption on server */
118 /* Estimate strategies */
120 ES_CLIENT, /* client estimate */
121 ES_SERVER, /* server estimate */
122 ES_CALCSIZE, /* calcsize estimate */
125 /* A GSlist where each element is a element_t */
126 typedef GSList *estimatelist_t;
129 AL_OTHER_CONFIG = 1<<0,
130 AL_NON_AMANDA = 1<<1,
131 AL_VOLUME_ERROR = 1<<2,
134 typedef int autolabel_set_t;
136 typedef struct autolabel_s {
138 autolabel_set_t autolabel;
141 /* Dump strategies */
143 DS_SKIP, /* Don't do any dumps at all */
144 DS_STANDARD, /* Standard (0 1 1 1 1 2 2 2 ...) */
145 DS_NOFULL, /* No full's (1 1 1 ...) */
146 DS_NOINC, /* No inc's (0 0 0 ...) */
147 DS_4, /* ? (0 1 2 3 4 5 6 7 8 9 10 11 ...) */
148 DS_5, /* ? (0 1 1 1 1 1 1 1 1 1 1 1 ...) */
149 DS_HANOI, /* Tower of Hanoi (? ? ? ? ? ...) */
150 DS_INCRONLY, /* Forced fulls (0 1 1 2 2 FORCE0 1 1 ...) */
160 ALGO_SMALLESTFIT, /* for internal use */
162 ALGO_LASTFIT, /* for internal use */
163 ALGO_ALGO /* sentinel */
166 /* execute_on types */
167 #define EXECUTE_ON_PRE_AMCHECK 1<<0
168 #define EXECUTE_ON_PRE_DLE_AMCHECK 1<<1
169 #define EXECUTE_ON_PRE_HOST_AMCHECK 1<<2
170 #define EXECUTE_ON_POST_AMCHECK 1<<3
171 #define EXECUTE_ON_POST_DLE_AMCHECK 1<<4
172 #define EXECUTE_ON_POST_HOST_AMCHECK 1<<5
173 #define EXECUTE_ON_PRE_ESTIMATE 1<<6
174 #define EXECUTE_ON_PRE_DLE_ESTIMATE 1<<7
175 #define EXECUTE_ON_PRE_HOST_ESTIMATE 1<<8
176 #define EXECUTE_ON_POST_ESTIMATE 1<<9
177 #define EXECUTE_ON_POST_DLE_ESTIMATE 1<<10
178 #define EXECUTE_ON_POST_HOST_ESTIMATE 1<<11
179 #define EXECUTE_ON_PRE_BACKUP 1<<12
180 #define EXECUTE_ON_PRE_DLE_BACKUP 1<<13
181 #define EXECUTE_ON_PRE_HOST_BACKUP 1<<14
182 #define EXECUTE_ON_POST_BACKUP 1<<15
183 #define EXECUTE_ON_POST_DLE_BACKUP 1<<16
184 #define EXECUTE_ON_POST_HOST_BACKUP 1<<17
185 #define EXECUTE_ON_PRE_RECOVER 1<<18
186 #define EXECUTE_ON_POST_RECOVER 1<<19
187 #define EXECUTE_ON_PRE_LEVEL_RECOVER 1<<20
188 #define EXECUTE_ON_POST_LEVEL_RECOVER 1<<21
189 #define EXECUTE_ON_INTER_LEVEL_RECOVER 1<<22
190 typedef int execute_on_t;
192 typedef int execute_where_t;
196 SEND_AMREPORT_STRANGE,
202 DATA_PATH_AMANDA = 1<<0,
203 DATA_PATH_DIRECTTCP = 1<<1,
206 typedef struct exinclude_s {
219 typedef GHashTable* proplist_t;
220 /* A GSlist where each element is a 'char*' */
221 typedef GSList* identlist_t;
223 /* part_cache_types */
225 PART_CACHE_TYPE_NONE,
226 PART_CACHE_TYPE_MEMORY,
227 PART_CACHE_TYPE_DISK,
237 /* Names for the type of value in a val_t. Mostly for internal use, but useful
238 * for wrapping val_t's, too. */
251 CONFTYPE_ESTIMATELIST,
259 CONFTYPE_APPLICATION,
261 CONFTYPE_EXECUTE_WHERE,
262 CONFTYPE_SEND_AMREPORT_ON,
266 CONFTYPE_PART_CACHE_TYPE,
276 /* This should be considered an opaque type for any other modules. The complete
277 * struct is included here to allow quick access via macros. Access it *only* through
279 typedef struct val_s {
288 exinclude_t exinclude;
291 estimatelist_t estimatelist;
292 identlist_t identlist;
293 autolabel_t autolabel;
294 host_limit_t host_limit;
301 /* Functions to typecheck and extract a particular type of
302 * value from a val_t. All call error() if the type is incorrect,
303 * as this is a programming error. */
304 int val_t_to_int (val_t *);
305 gint64 val_t_to_int64 (val_t *);
306 float val_t_to_real (val_t *);
307 char *val_t_to_str (val_t *); /* (also converts CONFTYPE_IDENT) */
308 char *val_t_to_ident (val_t *); /* (also converts CONFTYPE_STR) */
309 identlist_t val_t_to_identlist(val_t *);
310 time_t val_t_to_time (val_t *);
311 ssize_t val_t_to_size (val_t *);
312 int val_t_to_boolean (val_t *);
313 int val_t_to_no_yes_all(val_t *);
314 comp_t val_t_to_compress (val_t *);
315 encrypt_t val_t_to_encrypt (val_t *);
316 dump_holdingdisk_t val_t_to_holding (val_t *);
317 estimatelist_t val_t_to_estimatelist (val_t *);
318 strategy_t val_t_to_strategy (val_t *);
319 taperalgo_t val_t_to_taperalgo(val_t *);
320 int val_t_to_priority (val_t *);
321 float *val_t_to_rate (val_t *); /* array of two floats */
322 exinclude_t val_t_to_exinclude(val_t *);
323 int *val_t_to_intrange (val_t *); /* array of two ints */
324 proplist_t val_t_to_proplist (val_t *);
325 char *val_t_to_application(val_t *);
326 execute_on_t val_t_to_execute_on(val_t *);
327 execute_where_t val_t_to_execute_where(val_t *);
328 send_amreport_t val_t_to_send_amreport(val_t *);
329 data_path_t val_t_to_data_path(val_t *);
330 autolabel_t val_t_to_autolabel(val_t *);
331 part_cache_type_t val_t_to_part_cache_type(val_t *);
332 host_limit_t *val_t_to_host_limit(val_t *);
334 /* Has the given val_t been seen in a configuration file or config overwrite?
336 * @param val: val_t* to examine
339 #define val_t_seen(val) ((val)->seen.linenum)
341 /* What is the underlying type of this val_t?
343 * @param val: val_t* to examine
344 * @returns: conftype_t
346 #define val_t_type(val) ((val)->type)
348 /* Macros to convert val_t's to a particular type without the benefit of
349 * a typecheck. Use these only if you really know what you're doing!
351 * Implementation note: these macros encode the relationship of conftypes
352 * (in the macro name) to the corresponding union field. The macros work
355 #define val_t__seen(val) ((val)->seen)
356 #define val_t__int(val) ((val)->v.i)
357 #define val_t__int64(val) ((val)->v.int64)
358 #define val_t__real(val) ((val)->v.r)
359 #define val_t__str(val) ((val)->v.s)
360 #define val_t__ident(val) ((val)->v.s)
361 #define val_t__identlist(val) ((val)->v.identlist)
362 #define val_t__time(val) ((val)->v.t)
363 #define val_t__size(val) ((val)->v.size)
364 #define val_t__boolean(val) ((val)->v.i)
365 #define val_t__no_yes_all(val) ((val)->v.i)
366 #define val_t__compress(val) ((val)->v.i)
367 #define val_t__encrypt(val) ((val)->v.i)
368 #define val_t__holding(val) ((val)->v.i)
369 #define val_t__estimatelist(val) ((val)->v.estimatelist)
370 #define val_t__strategy(val) ((val)->v.i)
371 #define val_t__taperalgo(val) ((val)->v.i)
372 #define val_t__send_amreport(val) ((val)->v.i)
373 #define val_t__priority(val) ((val)->v.i)
374 #define val_t__rate(val) ((val)->v.rate)
375 #define val_t__exinclude(val) ((val)->v.exinclude)
376 #define val_t__intrange(val) ((val)->v.intrange)
377 #define val_t__proplist(val) ((val)->v.proplist)
378 #define val_t__application(val) ((val)->v.application)
379 #define val_t__execute_on(val) ((val)->v.i)
380 #define val_t__execute_where(val) ((val)->v.i)
381 #define val_t__data_path(val) ((val)->v.i)
382 #define val_t__autolabel(val) ((val)->v.autolabel)
383 #define val_t__part_cache_type(val) ((val)->v.i)
384 #define val_t__host_limit(val) ((val)->v.host_limit)
389 * Programs get val_t's by giving the index of the parameters they're interested in.
390 * For global parameters, these start with CNF; for subsections, they start with the
391 * name of the subsection.
395 * Global parameter access
417 CNF_APPLICATION_TOOL,
447 CNF_DEVICE_OUTPUT_BUFFER_SIZE,
454 CNF_AMRECOVER_DO_FSF,
455 CNF_AMRECOVER_CHECK_LABEL,
456 CNF_AMRECOVER_CHANGER,
458 CNF_SEND_AMREPORT_ON,
459 CNF_FLUSH_THRESHOLD_DUMPED,
460 CNF_FLUSH_THRESHOLD_SCHEDULED,
472 CNF_DEBUG_AMIDXTAPED,
486 CNF_DEBUG_SENDBACKUP,
487 CNF_RESERVED_UDP_PORT,
488 CNF_RESERVED_TCP_PORT,
489 CNF_UNRESERVED_TCP_PORT,
494 CNF_TAPER_PARALLEL_WRITE,
497 CNF_MAX_DLE_BY_VOLUME,
500 CNF_CNF /* sentinel */
503 /* Given a confparm_key, return a pointer to the corresponding val_t.
505 * @param key: confparm_key
506 * @returns: pointer to value
508 val_t *getconf(confparm_key key);
510 /* (convenience macro) has this global parameter been seen?
512 * @param key: confparm_key
515 #define getconf_seen(key) (val_t_seen(getconf((key))))
516 #define getconf_linenum(key) (val_t_seen(getconf((key))))
518 /* (convenience macros)
519 * Fetch a global parameter of a specific type. Note that these
520 * convenience macros have a different form from those for the
521 * subsections: here you specify a type and a key, while for the
522 * subsections you specify only a key. The difference is historical.
524 * @param key: confparm_key
527 #define getconf_int(key) (val_t_to_int(getconf((key))))
528 #define getconf_int64(key) (val_t_to_int64(getconf((key))))
529 #define getconf_real(key) (val_t_to_real(getconf((key))))
530 #define getconf_str(key) (val_t_to_str(getconf((key))))
531 #define getconf_ident(key) (val_t_to_ident(getconf((key))))
532 #define getconf_identlist(key) (val_t_to_identlist(getconf((key))))
533 #define getconf_time(key) (val_t_to_time(getconf((key))))
534 #define getconf_size(key) (val_t_to_size(getconf((key))))
535 #define getconf_boolean(key) (val_t_to_boolean(getconf((key))))
536 #define getconf_no_yes_all(key) (val_t_to_no_yes_all(getconf((key))))
537 #define getconf_compress(key) (val_t_to_compress(getconf((key))))
538 #define getconf_encrypt(key) (val_t_to_encrypt(getconf((key))))
539 #define getconf_holding(key) (val_t_to_holding(getconf((key))))
540 #define getconf_estimatelist(key) (val_t_to_estimatelist(getconf((key))))
541 #define getconf_strategy(key) (val_t_to_strategy(getconf((key))))
542 #define getconf_taperalgo(key) (val_t_to_taperalgo(getconf((key))))
543 #define getconf_priority(key) (val_t_to_priority(getconf((key))))
544 #define getconf_rate(key) (val_t_to_rate(getconf((key))))
545 #define getconf_exinclude(key) (val_t_to_exinclude(getconf((key))))
546 #define getconf_intrange(key) (val_t_to_intrange(getconf((key))))
547 #define getconf_proplist(key) (val_t_to_proplist(getconf((key))))
548 #define getconf_send_amreport(key) (val_t_to_send_amreport(getconf((key))))
549 #define getconf_autolabel(key) (val_t_to_autolabel(getconf((key))))
550 #define getconf_part_cache_type(key) (val_t_to_part_cache_type(getconf((key))))
551 #define getconf_recovery_limit(key) (val_t_to_host_limit(getconf((key))))
553 /* Get a list of names for subsections of the given type
555 * @param listname: the desired type of subsection
556 * @returns: list of subsection names; caller is responsible for freeing
557 * this list, but not the strings it points to, using g_slist_free().
559 GSList *getconf_list(char *listname);
561 /* Get a configuration value by name, supporting the TYPE:SUBSEC:KEYWORD.
562 * Returns NULL if the configuration value doesnt exist.
564 val_t *getconf_byname(char *key);
569 * Values which aren't directly specified by the configuration, but which
570 * are derived from it.
573 /* Return a divisor which will convert a value in units of kilo-whatevers
574 * to the user's selected display unit.
576 * @returns: long integer divisor
578 long int getconf_unit_divisor(void);
580 /* If any of these globals are true, the corresponding component will
581 * send verbose debugging output to the debug file. The options are
582 * set during config_init, but can be modified at will after that if
585 extern int debug_amandad;
586 extern int debug_recovery;
587 extern int debug_amidxtaped;
588 extern int debug_amindexd;
589 extern int debug_amrecover;
590 extern int debug_auth;
591 extern int debug_event;
592 extern int debug_holding;
593 extern int debug_protocol;
594 extern int debug_planner;
595 extern int debug_driver;
596 extern int debug_dumper;
597 extern int debug_chunker;
598 extern int debug_taper;
599 extern int debug_selfcheck;
600 extern int debug_sendsize;
601 extern int debug_sendbackup;
604 * Tapetype parameter access
611 TAPETYPE_READBLOCKSIZE,
616 TAPETYPE_PART_CACHE_TYPE,
617 TAPETYPE_PART_CACHE_DIR,
618 TAPETYPE_PART_CACHE_MAX_SIZE,
619 TAPETYPE_TAPETYPE /* sentinel */
623 typedef struct tapetype_s tapetype_t;
625 /* Given the name of the tapetype, return a tapetype object. Returns NULL
626 * if no matching tapetype exists. Note that the match is case-insensitive.
628 * @param identifier: name of the desired tapetype
629 * @returns: object or NULL
631 tapetype_t *lookup_tapetype(char *identifier);
633 /* Given a tapetype and a key, return a pointer to the corresponding val_t.
635 * @param ttyp: the tapetype to examine
636 * @param key: tapetype_key (one of the TAPETYPE_* constants)
637 * @returns: pointer to value
639 val_t *tapetype_getconf(tapetype_t *ttyp, tapetype_key key);
641 /* Get the name of this tapetype.
643 * @param ttyp: the tapetype to examine
644 * @returns: name of the tapetype
646 char *tapetype_name(tapetype_t *ttyp);
648 /* (convenience macro) has this parameter been seen in this tapetype? This
649 * applies to the specific parameter *within* the tapetype.
651 * @param key: tapetype_key
654 #define tapetype_seen(ttyp, key) (val_t_seen(tapetype_getconf((ttyp), (key))))
656 /* (convenience macros)
657 * fetch a particular parameter; caller must know the correct type.
659 * @param ttyp: the tapetype to examine
662 #define tapetype_get_comment(ttyp) (val_t_to_str(tapetype_getconf((ttyp), TAPETYPE_COMMENT)))
663 #define tapetype_get_lbl_templ(ttyp) (val_t_to_str(tapetype_getconf((ttyp), TAPETYPE_LBL_TEMPL)))
664 #define tapetype_get_blocksize(ttyp) (val_t_to_size(tapetype_getconf((ttyp), TAPETYPE_BLOCKSIZE)))
665 #define tapetype_get_readblocksize(ttyp) (val_t_to_size(tapetype_getconf((ttyp), TAPETYPE_READBLOCKSIZE)))
666 #define tapetype_get_length(ttyp) (val_t_to_int64(tapetype_getconf((ttyp), TAPETYPE_LENGTH)))
667 #define tapetype_get_filemark(ttyp) (val_t_to_int64(tapetype_getconf((ttyp), TAPETYPE_FILEMARK)))
668 #define tapetype_get_speed(ttyp) (val_t_to_int(tapetype_getconf((ttyp), TAPETYPE_SPEED)))
669 #define tapetype_get_part_size(ttyp) (val_t_to_int64(tapetype_getconf((ttyp), TAPETYPE_PART_SIZE)))
670 #define tapetype_get_part_cache_type(ttyp) (val_t_to_part_cache_type(tapetype_getconf((ttyp), TAPETYPE_PART_CACHE_TYPE)))
671 #define tapetype_get_part_cache_dir(ttyp) (val_t_to_str(tapetype_getconf((ttyp), TAPETYPE_PART_CACHE_DIR)))
672 #define tapetype_get_part_cache_max_size(ttyp) (val_t_to_int64(tapetype_getconf((ttyp), TAPETYPE_PART_CACHE_MAX_SIZE)))
675 * Dumptype parameter access
677 * Note that some parameters are generic to the host
683 DUMPTYPE_SRVCOMPPROG,
684 DUMPTYPE_CLNTCOMPPROG,
685 DUMPTYPE_SRV_ENCRYPT,
686 DUMPTYPE_CLNT_ENCRYPT,
687 DUMPTYPE_AMANDAD_PATH, /* host parameter */
688 DUMPTYPE_CLIENT_USERNAME, /* host parameter */
689 DUMPTYPE_SSH_KEYS, /* host parameter */
690 DUMPTYPE_AUTH, /* host parameter */
695 DUMPTYPE_MAXDUMPS, /* host parameter */
696 DUMPTYPE_MAXPROMOTEDAY,
697 DUMPTYPE_BUMPPERCENT,
703 DUMPTYPE_ESTIMATELIST,
706 DUMPTYPE_SRV_DECRYPT_OPT,
707 DUMPTYPE_CLNT_DECRYPT_OPT,
709 DUMPTYPE_TAPE_SPLITSIZE,
710 DUMPTYPE_FALLBACK_SPLITSIZE,
711 DUMPTYPE_SPLIT_DISKBUFFER,
715 DUMPTYPE_HOLDINGDISK,
719 DUMPTYPE_APPLICATION,
722 DUMPTYPE_CLIENT_PORT,
724 DUMPTYPE_ALLOW_SPLIT,
725 DUMPTYPE_RECOVERY_LIMIT,
727 DUMPTYPE_MAX_WARNINGS,
728 DUMPTYPE_DUMPTYPE /* sentinel */
732 typedef struct dumptype_s dumptype_t;
734 /* Given the name of the dumptype, return a dumptype object. Returns NULL
735 * if no matching dumptype exists. Note that the match is case-insensitive.
737 * @param identifier: name of the desired dumptype
738 * @returns: object or NULL
740 dumptype_t *lookup_dumptype(char *identifier);
742 /* Given a dumptype and a key, return a pointer to the corresponding val_t.
744 * @param dtyp: the dumptype to examine
745 * @param key: dumptype_key (one of the TAPETYPE_* constants)
746 * @returns: pointer to value
748 val_t *dumptype_getconf(dumptype_t *dtyp, dumptype_key key);
750 /* Get the name of this dumptype.
752 * @param dtyp: the dumptype to examine
753 * @returns: name of the dumptype
755 char *dumptype_name(dumptype_t *dtyp);
757 /* (convenience macro) has this parameter been seen in this dumptype? This
758 * applies to the specific parameter *within* the dumptype.
760 * @param key: dumptype_key
763 #define dumptype_seen(dtyp, key) (val_t_seen(dumptype_getconf((dtyp), (key))))
765 /* (convenience macros)
766 * fetch a particular parameter; caller must know the correct type.
768 * @param dtyp: the dumptype to examine
771 #define dumptype_get_comment(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_COMMENT)))
772 #define dumptype_get_program(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_PROGRAM)))
773 #define dumptype_get_srvcompprog(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_SRVCOMPPROG)))
774 #define dumptype_get_clntcompprog(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_CLNTCOMPPROG)))
775 #define dumptype_get_srv_encrypt(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_SRV_ENCRYPT)))
776 #define dumptype_get_clnt_encrypt(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_CLNT_ENCRYPT)))
777 #define dumptype_get_amandad_path(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_AMANDAD_PATH)))
778 #define dumptype_get_client_username(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_CLIENT_USERNAME)))
779 #define dumptype_get_ssh_keys(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_SSH_KEYS)))
780 #define dumptype_get_auth(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_AUTH)))
781 #define dumptype_get_exclude(dtyp) (val_t_to_exinclude(dumptype_getconf((dtyp), DUMPTYPE_EXCLUDE)))
782 #define dumptype_get_include(dtyp) (val_t_to_exinclude(dumptype_getconf((dtyp), DUMPTYPE_INCLUDE)))
783 #define dumptype_get_priority(dtyp) (val_t_to_priority(dumptype_getconf((dtyp), DUMPTYPE_PRIORITY)))
784 #define dumptype_get_dumpcycle(dtyp) (val_t_to_int(dumptype_getconf((dtyp), DUMPTYPE_DUMPCYCLE)))
785 #define dumptype_get_maxcycle(dtyp) (val_t_to_int(dumptype_getconf((dtyp), DUMPTYPE_MAXCYCLE)))
786 #define dumptype_get_frequency(dtyp) (val_t_to_int(dumptype_getconf((dtyp), DUMPTYPE_FREQUENCY)))
787 #define dumptype_get_maxdumps(dtyp) (val_t_to_int(dumptype_getconf((dtyp), DUMPTYPE_MAXDUMPS)))
788 #define dumptype_get_maxpromoteday(dtyp) (val_t_to_int(dumptype_getconf((dtyp), DUMPTYPE_MAXPROMOTEDAY)))
789 #define dumptype_get_bumppercent(dtyp) (val_t_to_int(dumptype_getconf((dtyp), DUMPTYPE_BUMPPERCENT)))
790 #define dumptype_get_bumpsize(dtyp) (val_t_to_int64(dumptype_getconf((dtyp), DUMPTYPE_BUMPSIZE)))
791 #define dumptype_get_bumpdays(dtyp) (val_t_to_int(dumptype_getconf((dtyp), DUMPTYPE_BUMPDAYS)))
792 #define dumptype_get_bumpmult(dtyp) (val_t_to_real(dumptype_getconf((dtyp), DUMPTYPE_BUMPMULT)))
793 #define dumptype_get_starttime(dtyp) (val_t_to_time(dumptype_getconf((dtyp), DUMPTYPE_STARTTIME)))
794 #define dumptype_get_strategy(dtyp) (val_t_to_strategy(dumptype_getconf((dtyp), DUMPTYPE_STRATEGY)))
795 #define dumptype_get_estimatelist(dtyp) (val_t_to_estimatelist(dumptype_getconf((dtyp), DUMPTYPE_ESTIMATELIST)))
796 #define dumptype_get_compress(dtyp) (val_t_to_compress(dumptype_getconf((dtyp), DUMPTYPE_COMPRESS)))
797 #define dumptype_get_encrypt(dtyp) (val_t_to_encrypt(dumptype_getconf((dtyp), DUMPTYPE_ENCRYPT)))
798 #define dumptype_get_srv_decrypt_opt(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_SRV_DECRYPT_OPT)))
799 #define dumptype_get_clnt_decrypt_opt(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_CLNT_DECRYPT_OPT)))
800 #define dumptype_get_comprate(dtyp) (val_t_to_rate(dumptype_getconf((dtyp), DUMPTYPE_COMPRATE)))
801 #define dumptype_get_tape_splitsize(dtyp) (val_t_to_int64(dumptype_getconf((dtyp), DUMPTYPE_TAPE_SPLITSIZE)))
802 #define dumptype_get_fallback_splitsize(dtyp) (val_t_to_int64(dumptype_getconf((dtyp), DUMPTYPE_FALLBACK_SPLITSIZE)))
803 #define dumptype_get_split_diskbuffer(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_SPLIT_DISKBUFFER)))
804 #define dumptype_get_record(dtyp) (val_t_to_boolean(dumptype_getconf((dtyp), DUMPTYPE_RECORD)))
805 #define dumptype_get_skip_incr(dtyp) (val_t_to_boolean(dumptype_getconf((dtyp), DUMPTYPE_SKIP_INCR)))
806 #define dumptype_get_skip_full(dtyp) (val_t_to_boolean(dumptype_getconf((dtyp), DUMPTYPE_SKIP_FULL)))
807 #define dumptype_get_to_holdingdisk(dtyp) (val_t_to_holding(dumptype_getconf((dtyp), DUMPTYPE_HOLDINGDISK)))
808 #define dumptype_get_kencrypt(dtyp) (val_t_to_boolean(dumptype_getconf((dtyp), DUMPTYPE_KENCRYPT)))
809 #define dumptype_get_ignore(dtyp) (val_t_to_boolean(dumptype_getconf((dtyp), DUMPTYPE_IGNORE)))
810 #define dumptype_get_index(dtyp) (val_t_to_boolean(dumptype_getconf((dtyp), DUMPTYPE_INDEX)))
811 #define dumptype_get_application(dtyp) (val_t_to_application(dumptype_getconf((dtyp), DUMPTYPE_APPLICATION)))
812 #define dumptype_get_scriptlist(dtyp) (val_t_to_identlist(dumptype_getconf((dtyp), DUMPTYPE_SCRIPTLIST)))
813 #define dumptype_get_property(dtyp) (val_t_to_proplist(dumptype_getconf((dtyp), DUMPTYPE_PROPERTY)))
814 #define dumptype_get_client_port(dtyp) (val_t_to_str(dumptype_getconf((dtyp), DUMPTYPE_CLIENT_PORT)))
815 #define dumptype_get_data_path(dtyp) (val_t_to_data_path(dumptype_getconf((dtyp), DUMPTYPE_DATA_PATH)))
816 #define dumptype_get_allow_split(dtyp) (val_t_to_boolean(dumptype_getconf((dtyp), DUMPTYPE_ALLOW_SPLIT)))
817 #define dumptype_get_recovery_limit(dtyp) (val_t_to_host_limit(dumptype_getconf((dtyp), DUMPTYPE_RECOVERY_LIMIT)))
818 #define dumptype_get_dump_limit(dtyp) (val_t_to_host_limit(dumptype_getconf((dtyp), DUMPTYPE_DUMP_LIMIT)))
819 #define dumptype_get_max_warnings(dtyp) (val_t_to_int(dumptype_getconf((dtyp), DUMPTYPE_MAX_WARNINGS)))
822 * Interface parameter access
828 INTER_INTER /* sentinel */
832 typedef struct interface_s interface_t;
834 /* Given the name of the interface, return a interface object. Returns NULL
835 * if no matching interface exists. Note that the match is case-insensitive.
837 * @param identifier: name of the desired interface
838 * @returns: object or NULL
840 interface_t *lookup_interface(char *identifier);
842 /* Given a interface and a key, return a pointer to the corresponding val_t.
844 * @param iface: the interface to examine
845 * @param key: interface_key (one of the TAPETYPE_* constants)
846 * @returns: pointer to value
848 val_t *interface_getconf(interface_t *iface, interface_key key);
850 /* Get the name of this interface.
852 * @param iface: the interface to examine
853 * @returns: name of the interface
855 char *interface_name(interface_t *iface);
857 /* (convenience macro) has this parameter been seen in this interface? This
858 * applies to the specific parameter *within* the interface.
860 * @param key: interface_key
863 #define interface_seen(iface, key) (val_t_seen(interface_getconf((iface), (key))))
865 /* (convenience macros)
866 * fetch a particular parameter; caller must know the correct type.
868 * @param iface: the interface to examine
871 #define interface_get_comment(iface) (val_t_to_str(interface_getconf((iface), INTER_COMMENT)))
872 #define interface_get_maxusage(iface) (val_t_to_int(interface_getconf((iface), INTER_MAXUSAGE)))
875 * Holdingdisk parameter access
883 HOLDING_HOLDING /* sentinel */
887 typedef struct holdingdisk_s holdingdisk_t;
889 /* Given the name of the holdingdisk, return a holdingdisk object. Returns NULL
890 * if no matching holdingdisk exists. Note that the match is case-insensitive.
892 * @param identifier: name of the desired holdingdisk
893 * @returns: object or NULL
895 holdingdisk_t *lookup_holdingdisk(char *identifier);
897 /* Return the whole linked list of holdingdisks.
899 * @returns: first holding disk
901 GSList *getconf_holdingdisks(void);
903 /* Given a holdingdisk and a key, return a pointer to the corresponding val_t.
905 * @param hdisk: the holdingdisk to examine
906 * @param key: holdingdisk_key (one of the TAPETYPE_* constants)
907 * @returns: pointer to value
909 val_t *holdingdisk_getconf(holdingdisk_t *hdisk, holdingdisk_key key);
911 /* Get the name of this holdingdisk.
913 * @param hdisk: the holdingdisk to examine
914 * @returns: name of the holdingdisk
916 char *holdingdisk_name(holdingdisk_t *hdisk);
918 /* (convenience macro) has this parameter been seen in this holdingdisk? This
919 * applies to the specific parameter *within* the holdingdisk.
921 * @param key: holdingdisk_key
924 #define holdingdisk_seen(hdisk, key) (val_t_seen(holdingdisk_getconf((hdisk), (key))))
926 /* (convenience macros)
927 * fetch a particular parameter; caller must know the correct type.
929 * @param hdisk: the holdingdisk to examine
932 #define holdingdisk_get_comment(hdisk) (val_t_to_str(holdingdisk_getconf((hdisk), HOLDING_COMMENT)))
933 #define holdingdisk_get_diskdir(hdisk) (val_t_to_str(holdingdisk_getconf((hdisk), HOLDING_DISKDIR)))
934 #define holdingdisk_get_disksize(hdisk) (val_t_to_int64(holdingdisk_getconf((hdisk), HOLDING_DISKSIZE)))
935 #define holdingdisk_get_chunksize(hdisk) (val_t_to_int64(holdingdisk_getconf((hdisk), HOLDING_CHUNKSIZE)))
937 /* A application-tool interface */
938 typedef enum application_e {
941 APPLICATION_PROPERTY,
942 APPLICATION_CLIENT_NAME,
943 APPLICATION_APPLICATION
947 typedef struct application_s application_t;
949 /* Given the name of the application, return a application object. Returns NULL
950 * if no matching application exists. Note that the match is case-insensitive.
952 * @param identifier: name of the desired application
953 * @returns: object or NULL
956 application_t *lookup_application(char *identifier);
958 /* Given a application and a key, return a pointer to the corresponding val_t.
960 * @param ttyp: the application to examine
961 * @param key: application (one of the APPLICATION_* constants)
962 * @returns: pointer to value
964 val_t *application_getconf(application_t *app, application_key key);
966 /* Get the name of this application.
968 * @param ttyp: the application to examine
969 * @returns: name of the application
971 char *application_name(application_t *app);
973 /* (convenience macro) has this parameter been seen in this application? This
974 * applies to the specific parameter *within* the application.
976 * @param key: application_key
979 #define application_seen(app, key) (val_t_seen(application_getconf((app), (key))))
981 /* (convenience macros)
982 * fetch a particular parameter; caller must know the correct type.
984 * @param ttyp: the application to examine
987 #define application_get_comment(application) (val_t_to_str(application_getconf((application), APPLICATION_COMMENT))
988 #define application_get_plugin(application) (val_t_to_str(application_getconf((application), APPLICATION_PLUGIN)))
989 #define application_get_property(application) (val_t_to_proplist(application_getconf((application), APPLICATION_PROPERTY)))
990 #define application_get_client_name(application) (val_t_to_str(application_getconf((application), APPLICATION_CLIENT_NAME)))
992 /* A pp-script-tool interface */
993 typedef enum pp_script_e {
997 PP_SCRIPT_EXECUTE_ON,
998 PP_SCRIPT_EXECUTE_WHERE,
1000 PP_SCRIPT_SINGLE_EXECUTION,
1001 PP_SCRIPT_CLIENT_NAME,
1006 typedef struct pp_script_s pp_script_t;
1008 /* Given the name of the pp_script, return a pp_script object. Returns NULL
1009 * if no matching pp_script exists. Note that the match is case-insensitive.
1011 * @param identifier: name of the desired pp_script
1012 * @returns: object or NULL
1015 pp_script_t *lookup_pp_script(char *identifier);
1017 /* Given a pp_script and a key, return a pointer to the corresponding val_t.
1019 * @param ttyp: the pp_script to examine
1020 * @param key: pp_script (one of the PP_SCRIPT_* constants)
1021 * @returns: pointer to value
1023 val_t *pp_script_getconf(pp_script_t *pps, pp_script_key key);
1025 /* Get the name of this pp_script.
1027 * @param ttyp: the pp_script to examine
1028 * @returns: name of the pp_script
1030 char *pp_script_name(pp_script_t *pps);
1032 /* (convenience macro) has this parameter been seen in this pp_script? This
1033 * applies to the specific parameter *within* the pp_script.
1035 * @param key: pp_script_key
1038 #define pp_script_seen(pps, key) (val_t_seen(pp_script_getconf((pps), (key))))
1040 /* (convenience macros)
1041 * fetch a particular parameter; caller must know the correct type.
1043 * @param ttyp: the pp_script to examine
1047 #define pp_script_get_comment(pp_script) (val_t_to_str(pp_script_getconf((pp_script), PP_SCRIPT_COMMENT)))
1048 #define pp_script_get_plugin(pp_script) (val_t_to_str(pp_script_getconf((pp_script), PP_SCRIPT_PLUGIN)))
1049 #define pp_script_get_property(pp_script) (val_t_to_proplist(pp_script_getconf((pp_script), PP_SCRIPT_PROPERTY)))
1050 #define pp_script_get_execute_on(pp_script) (val_t_to_execute_on(pp_script_getconf((pp_script), PP_SCRIPT_EXECUTE_ON)))
1051 #define pp_script_get_execute_where(pp_script) (val_t_to_execute_where(pp_script_getconf((pp_script), PP_SCRIPT_EXECUTE_WHERE)))
1052 #define pp_script_get_order(pp_script) (val_t_to_int(pp_script_getconf((pp_script), PP_SCRIPT_ORDER)))
1053 #define pp_script_get_single_execution(pp_script) (val_t_to_boolean(pp_script_getconf((pp_script), PP_SCRIPT_SINGLE_EXECUTION)))
1054 #define pp_script_get_client_name(pp_script) (val_t_to_str(pp_script_getconf((pp_script), PP_SCRIPT_CLIENT_NAME)))
1056 pp_script_t *lookup_pp_script(char *identifier);
1058 /* A device definition */
1060 DEVICE_CONFIG_COMMENT,
1061 DEVICE_CONFIG_TAPEDEV,
1062 DEVICE_CONFIG_DEVICE_PROPERTY,
1063 DEVICE_CONFIG_DEVICE_CONFIG
1064 } device_config_key;
1067 typedef struct device_config_s device_config_t;
1069 /* Given the name of the device, return a device_config_t object. Returns NULL
1070 * if no matching device exists. Note that the match is case-insensitive.
1072 * @param identifier: name of the desired device
1073 * @returns: object or NULL
1076 device_config_t *lookup_device_config(char *identifier);
1078 /* Given a device_config and a key, return a pointer to the corresponding val_t.
1080 * @param ttyp: the device_config to examine
1081 * @param key: device_config (one of the DEVICE_CONFIG_* constants)
1082 * @returns: pointer to value
1084 val_t *device_config_getconf(device_config_t *devconf, device_config_key key);
1086 /* Get the name of this device_config.
1088 * @param ttyp: the device_config to examine
1089 * @returns: name of the device_config
1091 char *device_config_name(device_config_t *devconf);
1093 /* (convenience macro) has this parameter been seen in this device_config? This
1094 * applies to the specific parameter *within* the device_config.
1096 * @param key: device_config_key
1099 #define device_config_seen(devconf, key) (val_t_seen(device_config_getconf((devconf), (key))))
1101 /* (convenience macros)
1102 * fetch a particular parameter; caller must know the correct type.
1104 * @param devconf: the device_config to examine
1108 #define device_config_get_comment(devconf) (val_t_to_str(device_config_getconf((devconf), DEVICE_CONFIG_COMMENT)))
1109 #define device_config_get_tapedev(devconf) (val_t_to_str(device_config_getconf((devconf), DEVICE_CONFIG_TAPEDEV)))
1110 #define device_config_get_property(devconf) (val_t_to_proplist(device_config_getconf((devconf), DEVICE_CONFIG_DEVICE_PROPERTY)))
1112 device_config_t *lookup_device_config(char *identifier);
1114 /* A changer definition */
1116 CHANGER_CONFIG_COMMENT,
1117 CHANGER_CONFIG_TAPEDEV,
1118 CHANGER_CONFIG_TPCHANGER,
1119 CHANGER_CONFIG_CHANGERDEV,
1120 CHANGER_CONFIG_CHANGERFILE,
1121 CHANGER_CONFIG_PROPERTY,
1122 CHANGER_CONFIG_DEVICE_PROPERTY,
1123 CHANGER_CONFIG_CHANGER_CONFIG
1124 } changer_config_key;
1127 typedef struct changer_config_s changer_config_t;
1129 /* Given the name of the changer, return a changer_config_t object. Returns NULL
1130 * if no matching changer exists. Note that the match is case-insensitive.
1132 * @param identifier: name of the desired changer
1133 * @returns: object or NULL
1136 changer_config_t *lookup_changer_config(char *identifier);
1138 /* Given a changer_config and a key, return a pointer to the corresponding val_t.
1140 * @param ttyp: the changer_config to examine
1141 * @param key: changer_config (one of the DEVICE_CONFIG_* constants)
1142 * @returns: pointer to value
1144 val_t *changer_config_getconf(changer_config_t *devconf, changer_config_key key);
1146 /* Get the name of this changer_config.
1148 * @param ttyp: the changer_config to examine
1149 * @returns: name of the changer_config
1151 char *changer_config_name(changer_config_t *devconf);
1153 /* (convenience macro) has this parameter been seen in this changer_config? This
1154 * applies to the specific parameter *within* the changer_config.
1156 * @param key: changer_config_key
1159 #define changer_config_seen(devconf, key) (val_t_seen(changer_config_getconf((devconf), (key))))
1161 /* (convenience macros)
1162 * fetch a particular parameter; caller must know the correct type.
1164 * @param devconf: the changer_config to examine
1168 #define changer_config_get_comment(devconf) (val_t_to_str(changer_config_getconf((devconf), CHANGER_CONFIG_COMMENT)))
1169 #define changer_config_get_tapedev(devconf) (val_t_to_str(changer_config_getconf((devconf), CHANGER_CONFIG_TAPEDEV)))
1170 #define changer_config_get_tpchanger(devconf) (val_t_to_str(changer_config_getconf((devconf), CHANGER_CONFIG_TPCHANGER)))
1171 #define changer_config_get_changerdev(devconf) (val_t_to_str(changer_config_getconf((devconf), CHANGER_CONFIG_CHANGERDEV)))
1172 #define changer_config_get_changerfile(devconf) (val_t_to_str(changer_config_getconf((devconf), CHANGER_CONFIG_CHANGERFILE)))
1174 changer_config_t *lookup_changer_config(char *identifier);
1176 /* A interacrtivity interface */
1177 typedef enum interactivity_e {
1178 INTERACTIVITY_COMMENT,
1179 INTERACTIVITY_PLUGIN,
1180 INTERACTIVITY_PROPERTY,
1181 INTERACTIVITY_INTERACTIVITY
1182 } interactivity_key;
1185 typedef struct interactivity_s interactivity_t;
1187 /* Given the name of the interactivity, return a interactivity object.
1188 * Returns NULL if no matching interactivity exists.
1189 * Note that the match is case-insensitive.
1191 * @param identifier: name of the desired interactivity
1192 * @returns: object or NULL
1195 interactivity_t *lookup_interactivity(char *identifier);
1197 /* Given a interactivity and a key, return a pointer to the corresponding val_t.
1199 * @param ttyp: the interactivity to examine
1200 * @param key: interactivity (one of the INTERACTIVITY_* constants)
1201 * @returns: pointer to value
1203 val_t *interactivity_getconf(interactivity_t *app, interactivity_key key);
1205 /* Get the name of this interactivity.
1207 * @param ttyp: the interactivity to examine
1208 * @returns: name of the interactivity
1210 char *interactivity_name(interactivity_t *app);
1212 /* (convenience macro) has this parameter been seen in this interactivity?
1213 * This applies to the specific parameter *within* the interactivity.
1215 * @param key: interactivity_key
1218 #define interactivity_seen(app, key) (val_t_seen(interactivity_getconf((app), (key))))
1220 /* (convenience macros)
1221 * fetch a particular parameter; caller must know the correct type.
1223 * @param ttyp: the interactivity to examine
1226 #define interactivity_get_comment(interactivity) (val_t_to_str(interactivity_getconf((interactivity), INTERACTIVITY_COMMENT))
1227 #define interactivity_get_plugin(interactivity) (val_t_to_str(interactivity_getconf((interactivity), INTERACTIVITY_PLUGIN)))
1228 #define interactivity_get_property(interactivity) (val_t_to_proplist(interactivity_getconf((interactivity), INTERACTIVITY_PROPERTY)))
1230 /* A taperscan interface */
1231 typedef enum taperscan_e {
1239 typedef struct taperscan_s taperscan_t;
1241 /* Given the name of the taperscan, return a taperscan object.
1242 * Returns NULL if no matching taperscan exists.
1243 * Note that the match is case-insensitive.
1245 * @param identifier: name of the desired taperscan
1246 * @returns: object or NULL
1249 taperscan_t *lookup_taperscan(char *identifier);
1251 /* Given a taperscan and a key, return a pointer to the corresponding val_t.
1253 * @param ttyp: the taperscan to examine
1254 * @param key: taperscan (one of the TAPERSCAN_* constants)
1255 * @returns: pointer to value
1257 val_t *taperscan_getconf(taperscan_t *app, taperscan_key key);
1259 /* Get the name of this taperscan.
1261 * @param ttyp: the taperscan to examine
1262 * @returns: name of the taperscan
1264 char *taperscan_name(taperscan_t *app);
1266 /* (convenience macro) has this parameter been seen in this taperscan?
1267 * This applies to the specific parameter *within* the taperscan.
1269 * @param key: taperscan_key
1272 #define taperscan_seen(app, key) (val_t_seen(taperscan_getconf((app), (key))))
1274 /* (convenience macros)
1275 * fetch a particular parameter; caller must know the correct type.
1277 * @param ttyp: the taperscan to examine
1280 #define taperscan_get_comment(taperscan) (val_t_to_str(taperscan_getconf((taperscan), TAPERSCAN_COMMENT))
1281 #define taperscan_get_plugin(taperscan) (val_t_to_str(taperscan_getconf((taperscan), TAPERSCAN_PLUGIN)))
1282 #define taperscan_get_property(taperscan) (val_t_to_proplist(taperscan_getconf((taperscan), TAPERSCAN_PROPERTY)))
1290 /* No errors or warnings */
1293 /* warnings were encountered */
1294 CFGERR_WARNINGS = 1,
1296 /* errors (and maybe some warnings too, who knows) were encountered */
1304 /* Get a GSList of all error and warning messages accumulated so far.
1306 * @param (output) errlist: pointer to the list of error strings; allocated
1307 * memory remains the responsibility of the config module. If errlist is
1308 * NULL, the list is not returned.
1309 * @returns: current error level
1311 cfgerr_level_t config_errors(GSList **errlist);
1313 /* Clear any error conditions.
1315 void config_clear_errors(void);
1317 /* Print the list of current error and warning messages, one per line,
1318 * to stderr. This is a convenience function for command-line
1321 void config_print_errors(void);
1323 /* Add an error message to the list of errors, and make sure tha the
1324 * error level is at least LEVEL. This is used by the diskfile module
1325 * to insert its errors into this module's error list.
1327 * @param level: level for this error
1328 * @param errmsg: error message; conffile takes responsibility for freeing
1331 void config_add_error(cfgerr_level_t level, char *errmsg);
1334 * Command-line handling
1338 typedef struct config_overrides_s config_overrides_t;
1340 /* Create a new, empty config_overrides object.
1342 * @param size_estimate: a guess at the number of overwrites; argc/2 is a
1344 * @returns: new object
1346 config_overrides_t *new_config_overrides(int size_estimate);
1348 /* Free a config_overrides object. This usually won't be needed, as
1349 * apply_config_overrides takes ownership of the overwrites for you.
1351 * @param co: config_overrides object
1353 void free_config_overrides(config_overrides_t *co);
1355 /* Add an overwrite to a config_overrides object.
1357 * @param co: the config_overrides object
1358 * @param key: the configuration parameter's key, possibly with the format
1359 * SUBTYPE:NAME:KEYWORD
1360 * @param value: the value for the parameter, as would be seen in amanda.conf
1362 void add_config_override(config_overrides_t *co,
1366 /* Add an overwrite option from the command line to a config_overrides
1367 * object. Calls error() with any errors
1369 * @param co: the config_overrides object
1370 * @param optarg: the value of the command-line option
1372 void add_config_override_opt(config_overrides_t *co,
1375 /* Given a command line, represented as argc/argv, extract any -o options
1376 * as config overwrites. This function modifies argc and argv in place.
1378 * This is the deprecated way to extract config overwrites, for applications
1379 * which do not use getopt. The preferred method is to use getopt and
1380 * call add_config_override_opt for any -o options.
1382 * @param argc: (in/out) command-line length
1383 * @param argv: (in/out) command-line strings
1384 * @returns: newly allocated config_overrides object
1386 config_overrides_t *
1387 extract_commandline_config_overrides(int *argc,
1390 /* Set configuration overwrites to the current configuration and take
1391 * ownership of the config_overrides object.
1393 * @param co: the config_overrides object
1395 void set_config_overrides(config_overrides_t *co);
1401 /* Constants for config_init */
1403 /* Use arg_config_name, if not NULL */
1404 CONFIG_INIT_EXPLICIT_NAME = 1 << 0,
1406 /* Use the current working directory if an explicit name is not available */
1407 CONFIG_INIT_USE_CWD = 1 << 1,
1409 /* This is a client application (server is default) */
1410 CONFIG_INIT_CLIENT = 1 << 2,
1412 /* New configuration should "overlay" existing configuration; this
1413 * is used by clients to load multiple amanda-client.conf files. */
1414 CONFIG_INIT_OVERLAY = 1 << 3,
1415 } config_init_flags;
1417 /* Initialize this application's configuration, with the specific actions
1419 * - if CONFIG_INIT_OVERLAY is not set, configuration values are reset
1421 * - if CONFIG_INIT_EXPLICIT_NAME and arg_config_name is not NULL,
1422 * use CONFIG_DIR/arg_config_name as config_dir arg_config_name as
1424 * - otherwise, if CONFIG_USE_CWD is set, use the directory in which
1425 * the application was started as config_dir, and its filename as
1427 * - otherwise, for the client only, se config_dir to CONFIG_DIR and
1428 * config_name to NULL.
1429 * - depending on CONFIG_INIT_CLIENT, read amanda.conf or amanda-client.conf
1431 * @param flags: flags indicating desired behavior, as above
1432 * @param arg_config_name: config name to use (from e.g., argv[1])
1433 * @returns: current error level
1435 cfgerr_level_t config_init(
1436 config_init_flags flags,
1437 char *arg_config_name);
1439 /* Free all memory allocated for the configuration. This effectively
1440 * reverses the effects of config_init().
1442 void config_uninit(void);
1444 /* Encode any applied config_overrides into a strv format suitale for
1445 * executing another Amanda tool.
1447 * The * result is dynamically allocated and NULL terminated. There is no
1448 * provision to free the result, as this function is always called just
1449 * before execve(..).
1451 * First gives the number of array elements to leave for the caller to
1452 * fill in. The usual calling pattern is this:
1453 * command_line = get_config_options(3);
1454 * command_line[0] = "appname";
1455 * command_line[1] = config_name;
1456 * command_line[2] = "--foo";
1457 * execve(command_line[0], command_line, safe_env());
1459 * @param first: number of unused elements to leave at the beginning of
1461 * @returns: NULL-terminated string array suitable for execve
1463 char **get_config_options(int first);
1465 /* Get the config name */
1466 char *get_config_name(void);
1468 /* Get the config directory */
1469 char *get_config_dir(void);
1471 /* Get the config filename */
1472 char *get_config_filename(void);
1478 /* Security plugins get their configuration information through a callback
1479 * with the signature:
1480 * char *callback(char *key, void *userpointer);
1481 * where key is the name of the desired parameter, which may not match the
1482 * name used in this module. See the implementations of these functions
1483 * to learn which keys they support, or to add new keys.
1485 char *generic_client_get_security_conf(char *, void *);
1486 char *generic_get_security_conf(char *, void *);
1488 /* Dump the current configuration information to stdout, in a format
1489 * that can be re-read by this module. The results will include any
1490 * command-line overwrites.
1492 * This function only dumps the server configuration, and will fail on
1495 void dump_configuration(gboolean print_default, gboolean print_source);
1497 void dump_dumptype(dumptype_t *dp, char *prefix, gboolean print_default,
1498 gboolean print_source);
1500 /* Return a sequence of strings giving the printable representation
1501 * of the given val_t. If str_needs_quotes is true and each string is
1502 * prefixed by the relevant configuration keyword, these strings will
1503 * be parseable by this module, and will reproduce exactly the same
1504 * configuration value. See the implementation of dump_configuration
1507 * If str_needs_quotes is provided, a CONFTYPE_STR value will be returned with
1510 * The result is a NULL-terminated strv, which can be freed with g_strfreev or
1511 * joined with g_strjoinv. Caller is responsible for freeing the memory.
1513 * @param val: the value to analyze
1514 * @param str_needs_quotes: add quotes to CONFTYPE_STR values?
1515 * @returns: NULL-terminated string vector
1517 char **val_t_display_strs(val_t *val, int str_needs_quotes, gboolean print_source,
1518 gboolean print_unit);
1520 /* Read a dumptype; this is used by this module as well as by diskfile.c to
1521 * read the disklist. The two are carefully balanced in their parsing process.
1523 * Nobody else should use this function. Seriously.
1525 dumptype_t *read_dumptype(char *name, FILE *from, char *fname, int *linenum);
1527 /* Every call return a pointer to a string with an increasing number; this is
1528 * used by this module as well as by diskfile.c to read the disklist.
1530 * Nobody else should use this function. Seriously.
1532 * @returns: a pointer to a static string.
1534 char *anonymous_value(void);
1536 /* Extend a relative filename with the current config_dir; if filename is already
1537 * absolute, this is equivalent to stralloc.
1539 * @param filename: filename to extend
1540 * @returns: newly allocated filename
1542 char *config_dir_relative(char *filename);
1544 /* Convert from a symbol back to a name for logging and for dumping
1547 * @param taperalgo: the constant value
1548 * @returns: statically allocated string
1550 char *taperalgo2str(taperalgo_t taperalgo);
1552 /* Looks for a unit value like b, byte, bytes, bps, etc. Technically
1553 * the return value should never be < 1, but we return a signed value
1554 * to help mitigate bad C promotion semantics. Returns 0 on error.
1556 * This is here in this module because it uses the numb_keytable.
1558 * @param casestr: the unit string
1559 * @returns: the corresponding multiplier (e.g., 'M' => 1024*1024)
1561 gint64 find_multiplier(char * casestr);
1563 /* Converts a string matching any of Amanda's names for "true" or
1564 * "false" to a boolean value.
1566 * @param str: string to match
1567 * @returns: 0 or 1 (boolean) or -1 (no match)
1569 int string_to_boolean(const char *str);
1571 /* Return a pointer to a static string for the data_path */
1572 char *data_path_to_string(data_path_t data_path);
1574 /* Return the data_path for the string */
1575 data_path_t data_path_from_string(char *data);
1577 void free_property_t(gpointer p);
1579 /* Converts a string into Amanda property name style.
1581 * @param name: The name to convert.
1582 * @returns: A newly allocated string, with name in lowercase and
1583 * any instances of '_' replaced with '-'.
1585 gchar *amandaify_property_name(const gchar *name);
1587 #endif /* ! CONFFILE_H */