2 * Unix SMB/CIFS implementation.
3 * Virtual Windows Registry Layer
4 * Copyright (C) Gerald Carter 2002-2005
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 3 of the License, or
9 * (at your option) any later version.
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, see <http://www.gnu.org/licenses/>.
20 /* Implementation of internal registry database functions. */
25 #define DBGC_CLASS DBGC_REGISTRY
27 static struct db_context *regdb = NULL;
28 static int regdb_refcount;
30 static bool regdb_key_exists(struct db_context *db, const char *key);
31 static bool regdb_key_is_base_key(const char *key);
32 static int regdb_fetch_keys_internal(struct db_context *db, const char *key,
33 struct regsubkey_ctr *ctr);
34 static bool regdb_store_keys_internal(struct db_context *db, const char *key,
35 struct regsubkey_ctr *ctr);
36 static int regdb_fetch_values_internal(struct db_context *db, const char* key,
37 struct regval_ctr *values);
38 static bool regdb_store_values_internal(struct db_context *db, const char *key,
39 struct regval_ctr *values);
41 /* List the deepest path into the registry. All part components will be created.*/
43 /* If you want to have a part of the path controlled by the tdb and part by
44 a virtual registry db (e.g. printing), then you have to list the deepest path.
45 For example,"HKLM/SOFTWARE/Microsoft/Windows NT/CurrentVersion/Print"
46 allows the reg_db backend to handle everything up to
47 "HKLM/SOFTWARE/Microsoft/Windows NT/CurrentVersion" and then we'll hook
48 the reg_printing backend onto the last component of the path (see
49 KEY_PRINTING_2K in include/rpc_reg.h) --jerry */
51 static const char *builtin_registry_paths[] = {
61 KEY_SAMBA_GROUP_POLICY,
62 KEY_GP_MACHINE_POLICY,
63 KEY_GP_MACHINE_WIN_POLICY,
66 KEY_GP_USER_WIN_POLICY,
67 KEY_WINLOGON_GPEXT_PATH,
68 "HKLM\\SYSTEM\\CurrentControlSet\\Control\\Print\\Monitors",
70 "HKLM\\SYSTEM\\CurrentControlSet\\Control\\Terminal Server\\DefaultUserConfiguration",
79 struct builtin_regkey_value {
81 const char *valuename;
89 static struct builtin_regkey_value builtin_registry_values[] = {
91 SAMBA_PRINTER_PORT_NAME, REG_SZ, { "" } },
93 "DefaultSpoolDirectory", REG_SZ, { "C:\\Windows\\System32\\Spool\\Printers" } },
95 "DisplayName", REG_SZ, { "Event Log" } },
97 "ErrorControl", REG_DWORD, { (char*)0x00000001 } },
98 { NULL, NULL, 0, { NULL } }
102 * Initialize a key in the registry:
103 * create each component key of the specified path.
105 static WERROR init_registry_key_internal(struct db_context *db,
106 const char *add_path)
109 TALLOC_CTX *frame = talloc_stackframe();
112 char *remaining = NULL;
115 struct regsubkey_ctr *subkeys;
118 DEBUG(6, ("init_registry_key: Adding [%s]\n", add_path));
120 path = talloc_strdup(frame, add_path);
121 base = talloc_strdup(frame, "");
122 if (!path || !base) {
128 while (next_token_talloc(frame, &p, &keyname, "\\")) {
130 /* build up the registry path from the components */
133 base = talloc_asprintf(frame, "%s\\", base);
139 base = talloc_asprintf_append(base, "%s", keyname);
145 /* get the immediate subkeyname (if we have one ) */
147 subkeyname = talloc_strdup(frame, "");
153 remaining = talloc_strdup(frame, p);
160 if (!next_token_talloc(frame, &p2,
163 subkeyname = talloc_strdup(frame,p2);
171 DEBUG(10,("init_registry_key: Storing key [%s] with "
172 "subkey [%s]\n", base,
173 *subkeyname ? subkeyname : "NULL"));
175 /* we don't really care if the lookup succeeds or not
176 * since we are about to update the record.
177 * We just want any subkeys already present */
179 werr = regsubkey_ctr_init(frame, &subkeys);
180 if (!W_ERROR_IS_OK(werr)) {
181 DEBUG(0,("talloc() failure!\n"));
185 regdb_fetch_keys_internal(db, base, subkeys);
187 werr = regsubkey_ctr_addkey(subkeys, subkeyname);
188 if (!W_ERROR_IS_OK(werr)) {
192 if (!regdb_store_keys_internal(db, base, subkeys)) {
193 werr = WERR_CAN_NOT_COMPLETE;
205 struct init_registry_key_context {
206 const char *add_path;
209 static NTSTATUS init_registry_key_action(struct db_context *db,
212 struct init_registry_key_context *init_ctx =
213 (struct init_registry_key_context *)private_data;
215 return werror_to_ntstatus(init_registry_key_internal(
216 db, init_ctx->add_path));
220 * Initialize a key in the registry:
221 * create each component key of the specified path,
222 * wrapped in one db transaction.
224 WERROR init_registry_key(const char *add_path)
226 struct init_registry_key_context init_ctx;
228 if (regdb_key_exists(regdb, add_path)) {
232 init_ctx.add_path = add_path;
234 return ntstatus_to_werror(dbwrap_trans_do(regdb,
235 init_registry_key_action,
239 /***********************************************************************
240 Open the registry data in the tdb
241 ***********************************************************************/
243 static void regdb_ctr_add_value(struct regval_ctr *ctr,
244 struct builtin_regkey_value *value)
248 switch(value->type) {
250 regval_ctr_addvalue(ctr, value->valuename, REG_DWORD,
251 (char*)&value->data.dw_value,
256 init_unistr2(&data, value->data.string, UNI_STR_TERMINATE);
257 regval_ctr_addvalue(ctr, value->valuename, REG_SZ,
259 data.uni_str_len*sizeof(uint16));
263 DEBUG(0, ("regdb_ctr_add_value: invalid value type in "
264 "registry values [%d]\n", value->type));
268 static NTSTATUS init_registry_data_action(struct db_context *db,
272 TALLOC_CTX *frame = talloc_stackframe();
273 struct regval_ctr *values;
276 /* loop over all of the predefined paths and add each component */
278 for (i=0; builtin_registry_paths[i] != NULL; i++) {
279 if (regdb_key_exists(db, builtin_registry_paths[i])) {
282 status = werror_to_ntstatus(init_registry_key_internal(db,
283 builtin_registry_paths[i]));
284 if (!NT_STATUS_IS_OK(status)) {
289 /* loop over all of the predefined values and add each component */
291 for (i=0; builtin_registry_values[i].path != NULL; i++) {
293 values = TALLOC_ZERO_P(frame, struct regval_ctr);
294 if (values == NULL) {
295 status = NT_STATUS_NO_MEMORY;
299 regdb_fetch_values_internal(db,
300 builtin_registry_values[i].path,
303 /* preserve existing values across restarts. Only add new ones */
305 if (!regval_ctr_key_exists(values,
306 builtin_registry_values[i].valuename))
308 regdb_ctr_add_value(values,
309 &builtin_registry_values[i]);
310 regdb_store_values_internal(db,
311 builtin_registry_values[i].path,
317 status = NT_STATUS_OK;
325 WERROR init_registry_data(void)
328 TALLOC_CTX *frame = talloc_stackframe();
329 struct regval_ctr *values;
333 * First, check for the existence of the needed keys and values.
334 * If all do already exist, we can save the writes.
336 for (i=0; builtin_registry_paths[i] != NULL; i++) {
337 if (!regdb_key_exists(regdb, builtin_registry_paths[i])) {
342 for (i=0; builtin_registry_values[i].path != NULL; i++) {
343 values = TALLOC_ZERO_P(frame, struct regval_ctr);
344 if (values == NULL) {
349 regdb_fetch_values_internal(regdb,
350 builtin_registry_values[i].path,
352 if (!regval_ctr_key_exists(values,
353 builtin_registry_values[i].valuename))
368 * There are potentially quite a few store operations which are all
369 * indiviually wrapped in tdb transactions. Wrapping them in a single
370 * transaction gives just a single transaction_commit() to actually do
371 * its fsync()s. See tdb/common/transaction.c for info about nested
372 * transaction behaviour.
375 werr = ntstatus_to_werror(dbwrap_trans_do(regdb,
376 init_registry_data_action,
384 /***********************************************************************
385 Open the registry database
386 ***********************************************************************/
388 WERROR regdb_init(void)
390 const char *vstring = "INFO/version";
395 DEBUG(10, ("regdb_init: incrementing refcount (%d)\n",
401 regdb = db_open(NULL, state_path("registry.tdb"), 0,
402 REG_TDB_FLAGS, O_RDWR, 0600);
404 regdb = db_open(NULL, state_path("registry.tdb"), 0,
405 REG_TDB_FLAGS, O_RDWR|O_CREAT, 0600);
407 werr = ntstatus_to_werror(map_nt_error_from_unix(errno));
408 DEBUG(1,("regdb_init: Failed to open registry %s (%s)\n",
409 state_path("registry.tdb"), strerror(errno) ));
413 DEBUG(10,("regdb_init: Successfully created registry tdb\n"));
418 vers_id = dbwrap_fetch_int32(regdb, vstring);
420 if ( vers_id != REGVER_V1 ) {
422 /* any upgrade code here if needed */
423 DEBUG(10, ("regdb_init: got %s = %d != %d\n", vstring,
424 vers_id, REGVER_V1));
425 status = dbwrap_trans_store_int32(regdb, vstring, REGVER_V1);
426 if (!NT_STATUS_IS_OK(status)) {
427 DEBUG(1, ("regdb_init: error storing %s = %d: %s\n",
428 vstring, REGVER_V1, nt_errstr(status)));
429 return ntstatus_to_werror(status);
431 DEBUG(10, ("regdb_init: stored %s = %d\n",
432 vstring, REGVER_V1));
439 /***********************************************************************
440 Open the registry. Must already have been initialized by regdb_init()
441 ***********************************************************************/
443 WERROR regdb_open( void )
445 WERROR result = WERR_OK;
448 DEBUG(10,("regdb_open: incrementing refcount (%d)\n", regdb_refcount));
455 regdb = db_open(NULL, state_path("registry.tdb"), 0,
456 REG_TDB_FLAGS, O_RDWR, 0600);
458 result = ntstatus_to_werror( map_nt_error_from_unix( errno ) );
459 DEBUG(0,("regdb_open: Failed to open %s! (%s)\n",
460 state_path("registry.tdb"), strerror(errno) ));
466 DEBUG(10,("regdb_open: refcount reset (%d)\n", regdb_refcount));
471 /***********************************************************************
472 ***********************************************************************/
474 int regdb_close( void )
476 if (regdb_refcount == 0) {
482 DEBUG(10,("regdb_close: decrementing refcount (%d)\n", regdb_refcount));
484 if ( regdb_refcount > 0 )
487 SMB_ASSERT( regdb_refcount >= 0 );
493 WERROR regdb_transaction_start(void)
495 return (regdb->transaction_start(regdb) == 0) ?
496 WERR_OK : WERR_REG_IO_FAILURE;
499 WERROR regdb_transaction_commit(void)
501 return (regdb->transaction_commit(regdb) == 0) ?
502 WERR_OK : WERR_REG_IO_FAILURE;
505 WERROR regdb_transaction_cancel(void)
507 return (regdb->transaction_cancel(regdb) == 0) ?
508 WERR_OK : WERR_REG_IO_FAILURE;
511 /***********************************************************************
512 return the tdb sequence number of the registry tdb.
513 this is an indicator for the content of the registry
514 having changed. it will change upon regdb_init, too, though.
515 ***********************************************************************/
516 int regdb_get_seqnum(void)
518 return regdb->get_seqnum(regdb);
522 static WERROR regdb_delete_key_with_prefix(struct db_context *db,
527 WERROR werr = WERR_NOMEM;
528 TALLOC_CTX *mem_ctx = talloc_stackframe();
530 if (keyname == NULL) {
531 werr = WERR_INVALID_PARAM;
535 if (prefix == NULL) {
536 path = discard_const_p(char, keyname);
538 path = talloc_asprintf(mem_ctx, "%s/%s", prefix, keyname);
544 path = normalize_reg_path(mem_ctx, path);
549 werr = ntstatus_to_werror(dbwrap_delete_bystring(db, path));
551 /* treat "not" found" as ok */
552 if (W_ERROR_EQUAL(werr, WERR_NOT_FOUND)) {
557 talloc_free(mem_ctx);
562 static WERROR regdb_delete_values(struct db_context *db, const char *keyname)
564 return regdb_delete_key_with_prefix(db, keyname, REG_VALUE_PREFIX);
567 static WERROR regdb_delete_secdesc(struct db_context *db, const char *keyname)
569 return regdb_delete_key_with_prefix(db, keyname, REG_SECDESC_PREFIX);
572 static WERROR regdb_delete_subkeylist(struct db_context *db, const char *keyname)
574 return regdb_delete_key_with_prefix(db, keyname, NULL);
577 static WERROR regdb_delete_key_lists(struct db_context *db, const char *keyname)
581 werr = regdb_delete_values(db, keyname);
582 if (!W_ERROR_IS_OK(werr)) {
583 DEBUG(1, (__location__ " Deleting %s/%s failed: %s\n",
584 REG_VALUE_PREFIX, keyname, win_errstr(werr)));
588 werr = regdb_delete_secdesc(db, keyname);
589 if (!W_ERROR_IS_OK(werr)) {
590 DEBUG(1, (__location__ " Deleting %s/%s failed: %s\n",
591 REG_SECDESC_PREFIX, keyname, win_errstr(werr)));
595 werr = regdb_delete_subkeylist(db, keyname);
596 if (!W_ERROR_IS_OK(werr)) {
597 DEBUG(1, (__location__ " Deleting %s failed: %s\n",
598 keyname, win_errstr(werr)));
606 /***********************************************************************
607 Add subkey strings to the registry tdb under a defined key
608 fmt is the same format as tdb_pack except this function only supports
610 ***********************************************************************/
612 static WERROR regdb_store_keys_internal2(struct db_context *db,
614 struct regsubkey_ctr *ctr)
617 uint8 *buffer = NULL;
620 uint32 num_subkeys = regsubkey_ctr_numkeys(ctr);
621 char *keyname = NULL;
622 TALLOC_CTX *ctx = talloc_stackframe();
626 werr = WERR_INVALID_PARAM;
630 keyname = talloc_strdup(ctx, key);
636 keyname = normalize_reg_path(ctx, keyname);
642 /* allocate some initial memory */
644 buffer = (uint8 *)SMB_MALLOC(1024);
645 if (buffer == NULL) {
652 /* store the number of subkeys */
654 len += tdb_pack(buffer+len, buflen-len, "d", num_subkeys);
656 /* pack all the strings */
658 for (i=0; i<num_subkeys; i++) {
661 thistime = tdb_pack(buffer+len, buflen-len, "f",
662 regsubkey_ctr_specific_key(ctr, i));
663 if (len+thistime > buflen) {
666 * tdb_pack hasn't done anything because of the short
667 * buffer, allocate extra space.
669 buffer = SMB_REALLOC_ARRAY(buffer, uint8_t,
672 DEBUG(0, ("regdb_store_keys: Failed to realloc "
673 "memory of size [%u]\n",
674 (unsigned int)(len+thistime)*2));
678 buflen = (len+thistime)*2;
679 thistime2 = tdb_pack(
680 buffer+len, buflen-len, "f",
681 regsubkey_ctr_specific_key(ctr, i));
682 if (thistime2 != thistime) {
683 DEBUG(0, ("tdb_pack failed\n"));
684 werr = WERR_CAN_NOT_COMPLETE;
691 /* finally write out the data */
695 werr = ntstatus_to_werror(dbwrap_store_bystring(db, keyname, dbuf,
697 W_ERROR_NOT_OK_GOTO_DONE(werr);
700 * Delete a sorted subkey cache for regdb_key_exists, will be
701 * recreated automatically
703 keyname = talloc_asprintf(ctx, "%s/%s", REG_SORTED_SUBKEYS_PREFIX,
705 if (keyname == NULL) {
710 werr = ntstatus_to_werror(dbwrap_delete_bystring(db, keyname));
712 /* don't treat WERR_NOT_FOUND as an error here */
713 if (W_ERROR_EQUAL(werr, WERR_NOT_FOUND)) {
723 /***********************************************************************
724 Store the new subkey record and create any child key records that
725 do not currently exist
726 ***********************************************************************/
728 struct regdb_store_keys_context {
730 struct regsubkey_ctr *ctr;
733 static NTSTATUS regdb_store_keys_action(struct db_context *db,
736 struct regdb_store_keys_context *store_ctx;
740 struct regsubkey_ctr *subkeys = NULL, *old_subkeys = NULL;
741 char *oldkeyname = NULL;
742 TALLOC_CTX *mem_ctx = talloc_stackframe();
744 store_ctx = (struct regdb_store_keys_context *)private_data;
747 * Re-fetch the old keys inside the transaction
750 werr = regsubkey_ctr_init(mem_ctx, &old_subkeys);
751 W_ERROR_NOT_OK_GOTO_DONE(werr);
753 regdb_fetch_keys_internal(db, store_ctx->key, old_subkeys);
756 * Make the store operation as safe as possible without transactions:
758 * (1) For each subkey removed from ctr compared with old_subkeys:
760 * (a) First delete the value db entry.
762 * (b) Next delete the secdesc db record.
764 * (c) Then delete the subkey list entry.
766 * (2) Now write the list of subkeys of the parent key,
767 * deleting removed entries and adding new ones.
769 * (3) Finally create the subkey list entries for the added keys.
771 * This way if we crash half-way in between deleting the subkeys
772 * and storing the parent's list of subkeys, no old data can pop up
773 * out of the blue when re-adding keys later on.
776 /* (1) delete removed keys' lists (values/secdesc/subkeys) */
778 num_subkeys = regsubkey_ctr_numkeys(old_subkeys);
779 for (i=0; i<num_subkeys; i++) {
780 oldkeyname = regsubkey_ctr_specific_key(old_subkeys, i);
782 if (regsubkey_ctr_key_exists(store_ctx->ctr, oldkeyname)) {
784 * It's still around, don't delete
789 path = talloc_asprintf(mem_ctx, "%s/%s", store_ctx->key,
796 werr = regdb_delete_key_lists(db, path);
797 W_ERROR_NOT_OK_GOTO_DONE(werr);
802 TALLOC_FREE(old_subkeys);
804 /* (2) store the subkey list for the parent */
806 werr = regdb_store_keys_internal2(db, store_ctx->key, store_ctx->ctr);
807 if (!W_ERROR_IS_OK(werr)) {
808 DEBUG(0,("regdb_store_keys: Failed to store new subkey list "
809 "for parent [%s]: %s\n", store_ctx->key,
814 /* (3) now create records for any subkeys that don't already exist */
816 num_subkeys = regsubkey_ctr_numkeys(store_ctx->ctr);
818 if (num_subkeys == 0) {
819 werr = regsubkey_ctr_init(mem_ctx, &subkeys);
820 W_ERROR_NOT_OK_GOTO_DONE(werr);
822 werr = regdb_store_keys_internal2(db, store_ctx->key, subkeys);
823 if (!W_ERROR_IS_OK(werr)) {
824 DEBUG(0,("regdb_store_keys: Failed to store "
825 "new record for key [%s]: %s\n",
826 store_ctx->key, win_errstr(werr)));
829 TALLOC_FREE(subkeys);
832 for (i=0; i<num_subkeys; i++) {
833 path = talloc_asprintf(mem_ctx, "%s/%s", store_ctx->key,
834 regsubkey_ctr_specific_key(store_ctx->ctr, i));
839 werr = regsubkey_ctr_init(mem_ctx, &subkeys);
840 W_ERROR_NOT_OK_GOTO_DONE(werr);
842 if (regdb_fetch_keys_internal(db, path, subkeys) == -1) {
843 /* create a record with 0 subkeys */
844 werr = regdb_store_keys_internal2(db, path, subkeys);
845 if (!W_ERROR_IS_OK(werr)) {
846 DEBUG(0,("regdb_store_keys: Failed to store "
847 "new record for key [%s]: %s\n", path,
853 TALLOC_FREE(subkeys);
860 talloc_free(mem_ctx);
861 return werror_to_ntstatus(werr);
864 static bool regdb_store_keys_internal(struct db_context *db, const char *key,
865 struct regsubkey_ctr *ctr)
867 int num_subkeys, old_num_subkeys, i;
868 struct regsubkey_ctr *old_subkeys = NULL;
869 TALLOC_CTX *ctx = talloc_stackframe();
872 struct regdb_store_keys_context store_ctx;
874 if (!regdb_key_is_base_key(key) && !regdb_key_exists(db, key)) {
879 * fetch a list of the old subkeys so we can determine if anything has
883 werr = regsubkey_ctr_init(ctx, &old_subkeys);
884 if (!W_ERROR_IS_OK(werr)) {
885 DEBUG(0,("regdb_store_keys: talloc() failure!\n"));
889 regdb_fetch_keys_internal(db, key, old_subkeys);
891 num_subkeys = regsubkey_ctr_numkeys(ctr);
892 old_num_subkeys = regsubkey_ctr_numkeys(old_subkeys);
893 if ((num_subkeys && old_num_subkeys) &&
894 (num_subkeys == old_num_subkeys)) {
896 for (i = 0; i < num_subkeys; i++) {
897 if (strcmp(regsubkey_ctr_specific_key(ctr, i),
898 regsubkey_ctr_specific_key(old_subkeys, i))
904 if (i == num_subkeys) {
906 * Nothing changed, no point to even start a tdb
915 TALLOC_FREE(old_subkeys);
920 werr = ntstatus_to_werror(dbwrap_trans_do(db,
921 regdb_store_keys_action,
924 ret = W_ERROR_IS_OK(werr);
932 bool regdb_store_keys(const char *key, struct regsubkey_ctr *ctr)
934 return regdb_store_keys_internal(regdb, key, ctr);
938 * create a subkey of a given key
941 struct regdb_create_subkey_context {
946 static NTSTATUS regdb_create_subkey_action(struct db_context *db,
950 struct regdb_create_subkey_context *create_ctx;
951 struct regsubkey_ctr *subkeys;
952 TALLOC_CTX *mem_ctx = talloc_stackframe();
954 create_ctx = (struct regdb_create_subkey_context *)private_data;
956 werr = regsubkey_ctr_init(mem_ctx, &subkeys);
957 W_ERROR_NOT_OK_GOTO_DONE(werr);
959 if (regdb_fetch_keys_internal(db, create_ctx->key, subkeys) < 0) {
960 werr = WERR_REG_IO_FAILURE;
964 werr = regsubkey_ctr_addkey(subkeys, create_ctx->subkey);
965 W_ERROR_NOT_OK_GOTO_DONE(werr);
967 werr = regdb_store_keys_internal2(db, create_ctx->key, subkeys);
968 if (!W_ERROR_IS_OK(werr)) {
969 DEBUG(0, (__location__ " failed to store new subkey list for "
970 "parent key %s: %s\n", create_ctx->key,
975 talloc_free(mem_ctx);
976 return werror_to_ntstatus(werr);
979 static WERROR regdb_create_subkey(const char *key, const char *subkey)
982 struct regsubkey_ctr *subkeys;
983 TALLOC_CTX *mem_ctx = talloc_stackframe();
984 struct regdb_create_subkey_context create_ctx;
986 if (!regdb_key_is_base_key(key) && !regdb_key_exists(regdb, key)) {
987 werr = WERR_NOT_FOUND;
991 werr = regsubkey_ctr_init(mem_ctx, &subkeys);
992 W_ERROR_NOT_OK_GOTO_DONE(werr);
994 if (regdb_fetch_keys_internal(regdb, key, subkeys) < 0) {
995 werr = WERR_REG_IO_FAILURE;
999 if (regsubkey_ctr_key_exists(subkeys, subkey)) {
1004 talloc_free(subkeys);
1006 create_ctx.key = key;
1007 create_ctx.subkey = subkey;
1009 werr = ntstatus_to_werror(dbwrap_trans_do(regdb,
1010 regdb_create_subkey_action,
1014 talloc_free(mem_ctx);
1019 * create a subkey of a given key
1022 struct regdb_delete_subkey_context {
1028 static NTSTATUS regdb_delete_subkey_action(struct db_context *db,
1032 struct regdb_delete_subkey_context *delete_ctx;
1033 struct regsubkey_ctr *subkeys;
1034 TALLOC_CTX *mem_ctx = talloc_stackframe();
1036 delete_ctx = (struct regdb_delete_subkey_context *)private_data;
1038 werr = regdb_delete_key_lists(db, delete_ctx->path);
1039 W_ERROR_NOT_OK_GOTO_DONE(werr);
1041 werr = regsubkey_ctr_init(mem_ctx, &subkeys);
1042 W_ERROR_NOT_OK_GOTO_DONE(werr);
1044 if (regdb_fetch_keys_internal(db, delete_ctx->key, subkeys) < 0) {
1045 werr = WERR_REG_IO_FAILURE;
1049 werr = regsubkey_ctr_delkey(subkeys, delete_ctx->subkey);
1050 W_ERROR_NOT_OK_GOTO_DONE(werr);
1052 werr = regdb_store_keys_internal2(db, delete_ctx->key, subkeys);
1053 if (!W_ERROR_IS_OK(werr)) {
1054 DEBUG(0, (__location__ " failed to store new subkey_list for "
1055 "parent key %s: %s\n", delete_ctx->key,
1060 talloc_free(mem_ctx);
1061 return werror_to_ntstatus(werr);
1064 static WERROR regdb_delete_subkey(const char *key, const char *subkey)
1068 struct regdb_delete_subkey_context delete_ctx;
1069 TALLOC_CTX *mem_ctx = talloc_stackframe();
1071 if (!regdb_key_is_base_key(key) && !regdb_key_exists(regdb, key)) {
1072 werr = WERR_NOT_FOUND;
1076 path = talloc_asprintf(mem_ctx, "%s/%s", key, subkey);
1082 if (!regdb_key_exists(regdb, path)) {
1087 delete_ctx.key = key;
1088 delete_ctx.subkey = subkey;
1089 delete_ctx.path = path;
1091 werr = ntstatus_to_werror(dbwrap_trans_do(regdb,
1092 regdb_delete_subkey_action,
1096 talloc_free(mem_ctx);
1100 static TDB_DATA regdb_fetch_key_internal(struct db_context *db,
1101 TALLOC_CTX *mem_ctx, const char *key)
1106 path = normalize_reg_path(mem_ctx, key);
1108 return make_tdb_data(NULL, 0);
1111 data = dbwrap_fetch_bystring(db, mem_ctx, path);
1119 * check whether a given key name represents a base key,
1120 * i.e one without a subkey separator ('/' or '\').
1122 static bool regdb_key_is_base_key(const char *key)
1124 TALLOC_CTX *mem_ctx = talloc_stackframe();
1132 path = normalize_reg_path(mem_ctx, key);
1134 DEBUG(0, ("out of memory! (talloc failed)\n"));
1138 if (*path == '\0') {
1142 ret = (strrchr(path, '/') == NULL);
1145 TALLOC_FREE(mem_ctx);
1150 * regdb_key_exists() is a very frequent operation. It can be quite
1151 * time-consuming to fully fetch the parent's subkey list, talloc_strdup all
1152 * subkeys and then compare the keyname linearly to all the parent's subkeys.
1154 * The following code tries to make this operation as efficient as possible:
1155 * Per registry key we create a list of subkeys that is very efficient to
1156 * search for existence of a subkey. Its format is:
1158 * 4 bytes num_subkeys
1159 * 4*num_subkey bytes offset into the string array
1160 * then follows a sorted list of subkeys in uppercase
1162 * This record is created by create_sorted_subkeys() on demand if it does not
1163 * exist. scan_parent_subkeys() uses regdb->parse_record to search the sorted
1164 * list, the parsing code and the binary search can be found in
1165 * parent_subkey_scanner. The code uses parse_record() to avoid a memcpy of
1166 * the potentially large subkey record.
1168 * The sorted subkey record is deleted in regdb_store_keys_internal2 and
1169 * recreated on demand.
1172 static int cmp_keynames(const void *p1, const void *p2)
1174 return StrCaseCmp(*((char **)p1), *((char **)p2));
1177 static bool create_sorted_subkeys(const char *key, const char *sorted_keyname)
1179 char **sorted_subkeys;
1180 struct regsubkey_ctr *ctr;
1181 bool result = false;
1190 if (regdb->transaction_start(regdb) != 0) {
1191 DEBUG(0, ("create_sorted_subkeys: transaction_start "
1196 werr = regsubkey_ctr_init(talloc_tos(), &ctr);
1197 if (!W_ERROR_IS_OK(werr)) {
1201 res = regdb_fetch_keys_internal(regdb, key, ctr);
1206 num_subkeys = regsubkey_ctr_numkeys(ctr);
1207 sorted_subkeys = talloc_array(ctr, char *, num_subkeys);
1208 if (sorted_subkeys == NULL) {
1212 len = 4 + 4*num_subkeys;
1214 for (i = 0; i < num_subkeys; i++) {
1215 sorted_subkeys[i] = talloc_strdup_upper(sorted_subkeys,
1216 regsubkey_ctr_specific_key(ctr, i));
1217 if (sorted_subkeys[i] == NULL) {
1220 len += strlen(sorted_subkeys[i])+1;
1223 qsort(sorted_subkeys, num_subkeys, sizeof(char *), cmp_keynames);
1225 buf = talloc_array(ctr, char, len);
1229 p = buf + 4 + 4*num_subkeys;
1231 SIVAL(buf, 0, num_subkeys);
1233 for (i=0; i < num_subkeys; i++) {
1234 ptrdiff_t offset = p - buf;
1235 SIVAL(buf, 4 + 4*i, offset);
1236 strlcpy(p, sorted_subkeys[i], len-offset);
1237 p += strlen(sorted_subkeys[i]) + 1;
1240 status = dbwrap_store_bystring(
1241 regdb, sorted_keyname, make_tdb_data((uint8_t *)buf, len),
1243 if (!NT_STATUS_IS_OK(status)) {
1245 * Don't use a "goto fail;" here, this would commit the broken
1246 * transaction. See below for an explanation.
1248 if (regdb->transaction_cancel(regdb) == -1) {
1249 smb_panic("create_sorted_subkeys: transaction_cancel "
1259 * We only get here via the "goto fail" when we did not write anything
1260 * yet. Using transaction_commit even in a failure case is necessary
1261 * because this (disposable) call might be nested in other
1262 * transactions. Doing a cancel here would destroy the possibility of
1263 * a transaction_commit for transactions that we might be wrapped in.
1265 if (regdb->transaction_commit(regdb) == -1) {
1266 DEBUG(0, ("create_sorted_subkeys: transaction_commit "
1275 struct scan_subkey_state {
1281 static int parent_subkey_scanner(TDB_DATA key, TDB_DATA data,
1284 struct scan_subkey_state *state =
1285 (struct scan_subkey_state *)private_data;
1286 uint32_t num_subkeys;
1289 if (data.dsize < sizeof(uint32_t)) {
1293 state->scanned = true;
1294 state->found = false;
1296 tdb_unpack(data.dptr, data.dsize, "d", &num_subkeys);
1302 uint32_t idx = (l+u)/2;
1303 char *s = (char *)data.dptr + IVAL(data.dptr, 4 + 4*idx);
1304 int comparison = strcmp(state->name, s);
1306 if (comparison < 0) {
1308 } else if (comparison > 0) {
1311 state->found = true;
1318 static bool scan_parent_subkeys(struct db_context *db, const char *parent,
1323 struct scan_subkey_state state = { 0, };
1324 bool result = false;
1329 path = normalize_reg_path(talloc_tos(), parent);
1334 key = talloc_asprintf(talloc_tos(), "%s/%s",
1335 REG_SORTED_SUBKEYS_PREFIX, path);
1340 state.name = talloc_strdup_upper(talloc_tos(), name);
1341 if (state.name == NULL) {
1344 state.scanned = false;
1346 res = db->parse_record(db, string_term_tdb_data(key),
1347 parent_subkey_scanner, &state);
1349 if (state.scanned) {
1350 result = state.found;
1352 if (!create_sorted_subkeys(path, key)) {
1355 res = db->parse_record(db, string_term_tdb_data(key),
1356 parent_subkey_scanner, &state);
1357 if ((res == 0) && (state.scanned)) {
1358 result = state.found;
1364 TALLOC_FREE(state.name);
1369 * Check for the existence of a key.
1371 * Existence of a key is authoritatively defined by its
1372 * existence in the list of subkeys of its parent key.
1373 * The exeption of this are keys without a parent key,
1374 * i.e. the "base" keys (HKLM, HKCU, ...).
1376 static bool regdb_key_exists(struct db_context *db, const char *key)
1378 TALLOC_CTX *mem_ctx = talloc_stackframe();
1387 path = normalize_reg_path(mem_ctx, key);
1389 DEBUG(0, ("out of memory! (talloc failed)\n"));
1393 if (*path == '\0') {
1397 p = strrchr(path, '/');
1399 /* this is a base key */
1400 value = regdb_fetch_key_internal(db, mem_ctx, path);
1401 ret = (value.dptr != NULL);
1404 ret = scan_parent_subkeys(db, path, p+1);
1408 TALLOC_FREE(mem_ctx);
1413 /***********************************************************************
1414 Retrieve an array of strings containing subkeys. Memory should be
1415 released by the caller.
1416 ***********************************************************************/
1418 static int regdb_fetch_keys_internal(struct db_context *db, const char *key,
1419 struct regsubkey_ctr *ctr)
1428 TALLOC_CTX *frame = talloc_stackframe();
1431 DEBUG(11,("regdb_fetch_keys: Enter key => [%s]\n", key ? key : "NULL"));
1433 if (!regdb_key_exists(db, key)) {
1437 werr = regsubkey_ctr_set_seqnum(ctr, db->get_seqnum(db));
1438 if (!W_ERROR_IS_OK(werr)) {
1442 value = regdb_fetch_key_internal(db, frame, key);
1444 if (value.dptr == NULL) {
1445 DEBUG(10, ("regdb_fetch_keys: no subkeys found for key [%s]\n",
1452 buflen = value.dsize;
1453 len = tdb_unpack( buf, buflen, "d", &num_items);
1455 for (i=0; i<num_items; i++) {
1456 len += tdb_unpack(buf+len, buflen-len, "f", subkeyname);
1457 werr = regsubkey_ctr_addkey(ctr, subkeyname);
1458 if (!W_ERROR_IS_OK(werr)) {
1459 DEBUG(5, ("regdb_fetch_keys: regsubkey_ctr_addkey "
1460 "failed: %s\n", win_errstr(werr)));
1465 DEBUG(11,("regdb_fetch_keys: Exit [%d] items\n", num_items));
1473 int regdb_fetch_keys(const char *key, struct regsubkey_ctr *ctr)
1475 return regdb_fetch_keys_internal(regdb, key, ctr);
1478 /****************************************************************************
1479 Unpack a list of registry values frem the TDB
1480 ***************************************************************************/
1482 static int regdb_unpack_values(struct regval_ctr *values, uint8 *buf, int buflen)
1489 uint32 num_values = 0;
1492 /* loop and unpack the rest of the registry values */
1494 len += tdb_unpack(buf+len, buflen-len, "d", &num_values);
1496 for ( i=0; i<num_values; i++ ) {
1497 /* unpack the next regval */
1502 valuename[0] = '\0';
1503 len += tdb_unpack(buf+len, buflen-len, "fdB",
1509 /* add the new value. Paranoid protective code -- make sure data_p is valid */
1511 if (*valuename && size && data_p) {
1512 regval_ctr_addvalue(values, valuename, type,
1513 (const char *)data_p, size);
1515 SAFE_FREE(data_p); /* 'B' option to tdb_unpack does a malloc() */
1517 DEBUG(8,("specific: [%s], len: %d\n", valuename, size));
1523 /****************************************************************************
1524 Pack all values in all printer keys
1525 ***************************************************************************/
1527 static int regdb_pack_values(struct regval_ctr *values, uint8 *buf, int buflen)
1531 struct regval_blob *val;
1537 num_values = regval_ctr_numvals( values );
1539 /* pack the number of values first */
1541 len += tdb_pack( buf+len, buflen-len, "d", num_values );
1543 /* loop over all values */
1545 for ( i=0; i<num_values; i++ ) {
1546 val = regval_ctr_specific_value( values, i );
1547 len += tdb_pack(buf+len, buflen-len, "fdB",
1551 regval_data_p(val) );
1557 /***********************************************************************
1558 Retrieve an array of strings containing subkeys. Memory should be
1559 released by the caller.
1560 ***********************************************************************/
1562 static int regdb_fetch_values_internal(struct db_context *db, const char* key,
1563 struct regval_ctr *values)
1565 char *keystr = NULL;
1566 TALLOC_CTX *ctx = talloc_stackframe();
1570 DEBUG(10,("regdb_fetch_values: Looking for value of key [%s] \n", key));
1572 if (!regdb_key_exists(db, key)) {
1576 keystr = talloc_asprintf(ctx, "%s/%s", REG_VALUE_PREFIX, key);
1581 values->seqnum = db->get_seqnum(db);
1583 value = regdb_fetch_key_internal(db, ctx, keystr);
1586 /* all keys have zero values by default */
1590 regdb_unpack_values(values, value.dptr, value.dsize);
1591 ret = regval_ctr_numvals(values);
1598 int regdb_fetch_values(const char* key, struct regval_ctr *values)
1600 return regdb_fetch_values_internal(regdb, key, values);
1603 static bool regdb_store_values_internal(struct db_context *db, const char *key,
1604 struct regval_ctr *values)
1606 TDB_DATA old_data, data;
1607 char *keystr = NULL;
1608 TALLOC_CTX *ctx = talloc_stackframe();
1611 bool result = false;
1613 DEBUG(10,("regdb_store_values: Looking for value of key [%s] \n", key));
1615 if (!regdb_key_exists(db, key)) {
1621 len = regdb_pack_values(values, data.dptr, data.dsize);
1623 DEBUG(0,("regdb_store_values: unable to pack values. len <= 0\n"));
1627 data.dptr = TALLOC_ARRAY(ctx, uint8, len);
1630 len = regdb_pack_values(values, data.dptr, data.dsize);
1632 SMB_ASSERT( len == data.dsize );
1634 keystr = talloc_asprintf(ctx, "%s/%s", REG_VALUE_PREFIX, key );
1638 keystr = normalize_reg_path(ctx, keystr);
1643 old_data = dbwrap_fetch_bystring(db, ctx, keystr);
1645 if ((old_data.dptr != NULL)
1646 && (old_data.dsize == data.dsize)
1647 && (memcmp(old_data.dptr, data.dptr, data.dsize) == 0))
1653 status = dbwrap_trans_store_bystring(db, keystr, data, TDB_REPLACE);
1655 result = NT_STATUS_IS_OK(status);
1662 bool regdb_store_values(const char *key, struct regval_ctr *values)
1664 return regdb_store_values_internal(regdb, key, values);
1667 static WERROR regdb_get_secdesc(TALLOC_CTX *mem_ctx, const char *key,
1668 struct security_descriptor **psecdesc)
1673 TALLOC_CTX *tmp_ctx = talloc_stackframe();
1674 WERROR err = WERR_OK;
1676 DEBUG(10, ("regdb_get_secdesc: Getting secdesc of key [%s]\n", key));
1678 if (!regdb_key_exists(regdb, key)) {
1683 tdbkey = talloc_asprintf(tmp_ctx, "%s/%s", REG_SECDESC_PREFIX, key);
1684 if (tdbkey == NULL) {
1688 normalize_dbkey(tdbkey);
1690 data = dbwrap_fetch_bystring(regdb, tmp_ctx, tdbkey);
1691 if (data.dptr == NULL) {
1696 status = unmarshall_sec_desc(mem_ctx, (uint8 *)data.dptr, data.dsize,
1699 if (NT_STATUS_EQUAL(status, NT_STATUS_NO_MEMORY)) {
1701 } else if (!NT_STATUS_IS_OK(status)) {
1702 err = WERR_REG_CORRUPT;
1706 TALLOC_FREE(tmp_ctx);
1710 static WERROR regdb_set_secdesc(const char *key,
1711 struct security_descriptor *secdesc)
1713 TALLOC_CTX *mem_ctx = talloc_stackframe();
1715 WERROR err = WERR_NOMEM;
1718 if (!regdb_key_exists(regdb, key)) {
1723 tdbkey = talloc_asprintf(mem_ctx, "%s/%s", REG_SECDESC_PREFIX, key);
1724 if (tdbkey == NULL) {
1727 normalize_dbkey(tdbkey);
1729 if (secdesc == NULL) {
1730 /* assuming a delete */
1731 err = ntstatus_to_werror(dbwrap_trans_delete_bystring(regdb,
1736 err = ntstatus_to_werror(marshall_sec_desc(mem_ctx, secdesc,
1739 W_ERROR_NOT_OK_GOTO_DONE(err);
1741 err = ntstatus_to_werror(dbwrap_trans_store_bystring(regdb, tdbkey,
1745 TALLOC_FREE(mem_ctx);
1749 bool regdb_subkeys_need_update(struct regsubkey_ctr *subkeys)
1751 return (regdb_get_seqnum() != regsubkey_ctr_get_seqnum(subkeys));
1754 bool regdb_values_need_update(struct regval_ctr *values)
1756 return (regdb_get_seqnum() != values->seqnum);
1760 * Table of function pointers for default access
1763 struct registry_ops regdb_ops = {
1764 .fetch_subkeys = regdb_fetch_keys,
1765 .fetch_values = regdb_fetch_values,
1766 .store_subkeys = regdb_store_keys,
1767 .store_values = regdb_store_values,
1768 .create_subkey = regdb_create_subkey,
1769 .delete_subkey = regdb_delete_subkey,
1770 .get_secdesc = regdb_get_secdesc,
1771 .set_secdesc = regdb_set_secdesc,
1772 .subkeys_need_update = regdb_subkeys_need_update,
1773 .values_need_update = regdb_values_need_update