/* * Unix SMB/CIFS implementation. * Virtual Windows Registry Layer * Copyright (C) Volker Lendecke 2006 * Copyright (C) Michael Adam 2007-2008 * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . */ /* Attempt to wrap the existing API in a more winreg.idl-like way */ /* * Here is a list of winreg.idl functions and corresponding implementations * provided here: * * 0x00 winreg_OpenHKCR * 0x01 winreg_OpenHKCU * 0x02 winreg_OpenHKLM * 0x03 winreg_OpenHKPD * 0x04 winreg_OpenHKU * 0x05 winreg_CloseKey * 0x06 winreg_CreateKey reg_createkey * 0x07 winreg_DeleteKey reg_deletekey * 0x08 winreg_DeleteValue reg_deletevalue * 0x09 winreg_EnumKey reg_enumkey * 0x0a winreg_EnumValue reg_enumvalue * 0x0b winreg_FlushKey * 0x0c winreg_GetKeySecurity reg_getkeysecurity * 0x0d winreg_LoadKey * 0x0e winreg_NotifyChangeKeyValue * 0x0f winreg_OpenKey reg_openkey * 0x10 winreg_QueryInfoKey reg_queryinfokey * 0x11 winreg_QueryValue reg_queryvalue * 0x12 winreg_ReplaceKey * 0x13 winreg_RestoreKey reg_restorekey * 0x14 winreg_SaveKey reg_savekey * 0x15 winreg_SetKeySecurity reg_setkeysecurity * 0x16 winreg_SetValue reg_setvalue * 0x17 winreg_UnLoadKey * 0x18 winreg_InitiateSystemShutdown * 0x19 winreg_AbortSystemShutdown * 0x1a winreg_GetVersion reg_getversion * 0x1b winreg_OpenHKCC * 0x1c winreg_OpenHKDD * 0x1d winreg_QueryMultipleValues * 0x1e winreg_InitiateSystemShutdownEx * 0x1f winreg_SaveKeyEx * 0x20 winreg_OpenHKPT * 0x21 winreg_OpenHKPN * 0x22 winreg_QueryMultipleValues2 * */ #include "includes.h" #include "regfio.h" #undef DBGC_CLASS #define DBGC_CLASS DBGC_REGISTRY /********************************************************************** * Helper functions **********************************************************************/ static WERROR fill_value_cache(struct registry_key *key) { if (key->values != NULL) { if (!reg_values_need_update(key->key, key->values)) { return WERR_OK; } } if (!(key->values = TALLOC_ZERO_P(key, REGVAL_CTR))) { return WERR_NOMEM; } if (fetch_reg_values(key->key, key->values) == -1) { TALLOC_FREE(key->values); return WERR_BADFILE; } return WERR_OK; } static WERROR fill_subkey_cache(struct registry_key *key) { WERROR werr; if (key->subkeys != NULL) { if (!reg_subkeys_need_update(key->key, key->subkeys)) { return WERR_OK; } } werr = regsubkey_ctr_init(key, &(key->subkeys)); W_ERROR_NOT_OK_RETURN(werr); if (fetch_reg_keys(key->key, key->subkeys) == -1) { TALLOC_FREE(key->subkeys); return WERR_NO_MORE_ITEMS; } return WERR_OK; } static int regkey_destructor(REGISTRY_KEY *key) { return regdb_close(); } static WERROR regkey_open_onelevel(TALLOC_CTX *mem_ctx, struct registry_key *parent, const char *name, const struct nt_user_token *token, uint32 access_desired, struct registry_key **pregkey) { WERROR result = WERR_OK; struct registry_key *regkey; REGISTRY_KEY *key; struct regsubkey_ctr *subkeys = NULL; DEBUG(7,("regkey_open_onelevel: name = [%s]\n", name)); SMB_ASSERT(strchr(name, '\\') == NULL); if (!(regkey = TALLOC_ZERO_P(mem_ctx, struct registry_key)) || !(regkey->token = dup_nt_token(regkey, token)) || !(regkey->key = TALLOC_ZERO_P(regkey, REGISTRY_KEY))) { result = WERR_NOMEM; goto done; } if ( !(W_ERROR_IS_OK(result = regdb_open())) ) { goto done; } key = regkey->key; talloc_set_destructor(key, regkey_destructor); /* initialization */ key->type = REG_KEY_GENERIC; if (name[0] == '\0') { /* * Open a copy of the parent key */ if (!parent) { result = WERR_BADFILE; goto done; } key->name = talloc_strdup(key, parent->key->name); } else { /* * Normal subkey open */ key->name = talloc_asprintf(key, "%s%s%s", parent ? parent->key->name : "", parent ? "\\": "", name); } if (key->name == NULL) { result = WERR_NOMEM; goto done; } /* Tag this as a Performance Counter Key */ if( StrnCaseCmp(key->name, KEY_HKPD, strlen(KEY_HKPD)) == 0 ) key->type = REG_KEY_HKPD; /* Look up the table of registry I/O operations */ if ( !(key->ops = reghook_cache_find( key->name )) ) { DEBUG(0,("reg_open_onelevel: Failed to assign " "REGISTRY_OPS to [%s]\n", key->name )); result = WERR_BADFILE; goto done; } /* check if the path really exists; failed is indicated by -1 */ /* if the subkey count failed, bail out */ result = regsubkey_ctr_init(key, &subkeys); if (!W_ERROR_IS_OK(result)) { goto done; } if ( fetch_reg_keys( key, subkeys ) == -1 ) { result = WERR_BADFILE; goto done; } TALLOC_FREE( subkeys ); if ( !regkey_access_check( key, access_desired, &key->access_granted, token ) ) { result = WERR_ACCESS_DENIED; goto done; } *pregkey = regkey; result = WERR_OK; done: if ( !W_ERROR_IS_OK(result) ) { TALLOC_FREE(regkey); } return result; } WERROR reg_openhive(TALLOC_CTX *mem_ctx, const char *hive, uint32 desired_access, const struct nt_user_token *token, struct registry_key **pkey) { SMB_ASSERT(hive != NULL); SMB_ASSERT(hive[0] != '\0'); SMB_ASSERT(strchr(hive, '\\') == NULL); return regkey_open_onelevel(mem_ctx, NULL, hive, token, desired_access, pkey); } /********************************************************************** * The API functions **********************************************************************/ WERROR reg_openkey(TALLOC_CTX *mem_ctx, struct registry_key *parent, const char *name, uint32 desired_access, struct registry_key **pkey) { struct registry_key *direct_parent = parent; WERROR err; char *p, *path, *to_free; size_t len; if (!(path = SMB_STRDUP(name))) { return WERR_NOMEM; } to_free = path; len = strlen(path); if ((len > 0) && (path[len-1] == '\\')) { path[len-1] = '\0'; } while ((p = strchr(path, '\\')) != NULL) { char *name_component; struct registry_key *tmp; if (!(name_component = SMB_STRNDUP(path, (p - path)))) { err = WERR_NOMEM; goto error; } err = regkey_open_onelevel(mem_ctx, direct_parent, name_component, parent->token, SEC_RIGHTS_ENUM_SUBKEYS, &tmp); SAFE_FREE(name_component); if (!W_ERROR_IS_OK(err)) { goto error; } if (direct_parent != parent) { TALLOC_FREE(direct_parent); } direct_parent = tmp; path = p+1; } err = regkey_open_onelevel(mem_ctx, direct_parent, path, parent->token, desired_access, pkey); error: if (direct_parent != parent) { TALLOC_FREE(direct_parent); } SAFE_FREE(to_free); return err; } WERROR reg_enumkey(TALLOC_CTX *mem_ctx, struct registry_key *key, uint32 idx, char **name, NTTIME *last_write_time) { WERROR err; if (!(key->key->access_granted & SEC_RIGHTS_ENUM_SUBKEYS)) { return WERR_ACCESS_DENIED; } if (!W_ERROR_IS_OK(err = fill_subkey_cache(key))) { return err; } if (idx >= regsubkey_ctr_numkeys(key->subkeys)) { return WERR_NO_MORE_ITEMS; } if (!(*name = talloc_strdup(mem_ctx, regsubkey_ctr_specific_key(key->subkeys, idx)))) { return WERR_NOMEM; } if (last_write_time) { *last_write_time = 0; } return WERR_OK; } WERROR reg_enumvalue(TALLOC_CTX *mem_ctx, struct registry_key *key, uint32 idx, char **pname, struct registry_value **pval) { struct registry_value *val; WERROR err; if (!(key->key->access_granted & SEC_RIGHTS_QUERY_VALUE)) { return WERR_ACCESS_DENIED; } if (!(W_ERROR_IS_OK(err = fill_value_cache(key)))) { return err; } if (idx >= key->values->num_values) { return WERR_NO_MORE_ITEMS; } err = registry_pull_value(mem_ctx, &val, key->values->values[idx]->type, key->values->values[idx]->data_p, key->values->values[idx]->size, key->values->values[idx]->size); if (!W_ERROR_IS_OK(err)) { return err; } if (pname && !(*pname = talloc_strdup( mem_ctx, key->values->values[idx]->valuename))) { SAFE_FREE(val); return WERR_NOMEM; } *pval = val; return WERR_OK; } WERROR reg_queryvalue(TALLOC_CTX *mem_ctx, struct registry_key *key, const char *name, struct registry_value **pval) { WERROR err; uint32 i; if (!(key->key->access_granted & SEC_RIGHTS_QUERY_VALUE)) { return WERR_ACCESS_DENIED; } if (!(W_ERROR_IS_OK(err = fill_value_cache(key)))) { return err; } for (i=0; ivalues->num_values; i++) { if (strequal(key->values->values[i]->valuename, name)) { return reg_enumvalue(mem_ctx, key, i, NULL, pval); } } return WERR_BADFILE; } WERROR reg_queryinfokey(struct registry_key *key, uint32_t *num_subkeys, uint32_t *max_subkeylen, uint32_t *max_subkeysize, uint32_t *num_values, uint32_t *max_valnamelen, uint32_t *max_valbufsize, uint32_t *secdescsize, NTTIME *last_changed_time) { uint32 i, max_size; size_t max_len; TALLOC_CTX *mem_ctx; WERROR err; struct security_descriptor *secdesc; if (!(key->key->access_granted & SEC_RIGHTS_QUERY_VALUE)) { return WERR_ACCESS_DENIED; } if (!W_ERROR_IS_OK(fill_subkey_cache(key)) || !W_ERROR_IS_OK(fill_value_cache(key))) { return WERR_BADFILE; } max_len = 0; for (i=0; i< regsubkey_ctr_numkeys(key->subkeys); i++) { max_len = MAX(max_len, strlen(regsubkey_ctr_specific_key(key->subkeys, i))); } *num_subkeys = regsubkey_ctr_numkeys(key->subkeys); *max_subkeylen = max_len; *max_subkeysize = 0; /* Class length? */ max_len = 0; max_size = 0; for (i=0; ivalues->num_values; i++) { max_len = MAX(max_len, strlen(key->values->values[i]->valuename)); max_size = MAX(max_size, key->values->values[i]->size); } *num_values = key->values->num_values; *max_valnamelen = max_len; *max_valbufsize = max_size; if (!(mem_ctx = talloc_new(key))) { return WERR_NOMEM; } err = regkey_get_secdesc(mem_ctx, key->key, &secdesc); if (!W_ERROR_IS_OK(err)) { TALLOC_FREE(mem_ctx); return err; } *secdescsize = ndr_size_security_descriptor(secdesc, NULL, 0); TALLOC_FREE(mem_ctx); *last_changed_time = 0; return WERR_OK; } WERROR reg_createkey(TALLOC_CTX *ctx, struct registry_key *parent, const char *subkeypath, uint32 desired_access, struct registry_key **pkey, enum winreg_CreateAction *paction) { struct registry_key *key = parent; struct registry_key *create_parent; TALLOC_CTX *mem_ctx; char *path, *end; WERROR err; if (!(mem_ctx = talloc_new(ctx))) return WERR_NOMEM; if (!(path = talloc_strdup(mem_ctx, subkeypath))) { err = WERR_NOMEM; goto done; } while ((end = strchr(path, '\\')) != NULL) { struct registry_key *tmp; enum winreg_CreateAction action; *end = '\0'; err = reg_createkey(mem_ctx, key, path, SEC_RIGHTS_ENUM_SUBKEYS, &tmp, &action); if (!W_ERROR_IS_OK(err)) { goto done; } if (key != parent) { TALLOC_FREE(key); } key = tmp; path = end+1; } /* * At this point, "path" contains the one-element subkey of "key". We * can try to open it. */ err = reg_openkey(ctx, key, path, desired_access, pkey); if (W_ERROR_IS_OK(err)) { if (paction != NULL) { *paction = REG_OPENED_EXISTING_KEY; } goto done; } if (!W_ERROR_EQUAL(err, WERR_BADFILE)) { /* * Something but "notfound" has happened, so bail out */ goto done; } /* * We have to make a copy of the current key, as we opened it only * with ENUM_SUBKEY access. */ err = reg_openkey(mem_ctx, key, "", SEC_RIGHTS_CREATE_SUBKEY, &create_parent); if (!W_ERROR_IS_OK(err)) { goto done; } /* * Actually create the subkey */ err = fill_subkey_cache(create_parent); if (!W_ERROR_IS_OK(err)) goto done; err = regsubkey_ctr_addkey(create_parent->subkeys, path); if (!W_ERROR_IS_OK(err)) goto done; if (!store_reg_keys(create_parent->key, create_parent->subkeys)) { TALLOC_FREE(create_parent->subkeys); err = WERR_REG_IO_FAILURE; goto done; } /* * Now open the newly created key */ err = reg_openkey(ctx, create_parent, path, desired_access, pkey); if (W_ERROR_IS_OK(err) && (paction != NULL)) { *paction = REG_CREATED_NEW_KEY; } done: TALLOC_FREE(mem_ctx); return err; } WERROR reg_deletekey(struct registry_key *parent, const char *path) { WERROR err; TALLOC_CTX *mem_ctx; char *name, *end; int num_subkeys; struct registry_key *tmp_key, *key; if (!(mem_ctx = talloc_init("reg_createkey"))) return WERR_NOMEM; if (!(name = talloc_strdup(mem_ctx, path))) { err = WERR_NOMEM; goto error; } /* check if the key has subkeys */ err = reg_openkey(mem_ctx, parent, name, REG_KEY_READ, &key); if (!W_ERROR_IS_OK(err)) { goto error; } if (!W_ERROR_IS_OK(err = fill_subkey_cache(key))) { goto error; } if (regsubkey_ctr_numkeys(key->subkeys) > 0) { err = WERR_ACCESS_DENIED; goto error; } /* no subkeys - proceed with delete */ if ((end = strrchr(name, '\\')) != NULL) { *end = '\0'; err = reg_openkey(mem_ctx, parent, name, SEC_RIGHTS_CREATE_SUBKEY, &tmp_key); if (!W_ERROR_IS_OK(err)) { goto error; } parent = tmp_key; name = end+1; } if (name[0] == '\0') { err = WERR_INVALID_PARAM; goto error; } if (!W_ERROR_IS_OK(err = fill_subkey_cache(parent))) { goto error; } num_subkeys = regsubkey_ctr_numkeys(parent->subkeys); if (regsubkey_ctr_delkey(parent->subkeys, name) == num_subkeys) { err = WERR_BADFILE; goto error; } if (!store_reg_keys(parent->key, parent->subkeys)) { TALLOC_FREE(parent->subkeys); err = WERR_REG_IO_FAILURE; goto error; } regkey_set_secdesc(key->key, NULL); err = WERR_OK; error: TALLOC_FREE(mem_ctx); return err; } WERROR reg_setvalue(struct registry_key *key, const char *name, const struct registry_value *val) { WERROR err; DATA_BLOB value_data; int res; if (!(key->key->access_granted & SEC_RIGHTS_SET_VALUE)) { return WERR_ACCESS_DENIED; } if (!W_ERROR_IS_OK(err = fill_value_cache(key))) { return err; } err = registry_push_value(key, val, &value_data); if (!W_ERROR_IS_OK(err)) { return err; } res = regval_ctr_addvalue(key->values, name, val->type, (char *)value_data.data, value_data.length); TALLOC_FREE(value_data.data); if (res == 0) { TALLOC_FREE(key->values); return WERR_NOMEM; } if (!store_reg_values(key->key, key->values)) { TALLOC_FREE(key->values); return WERR_REG_IO_FAILURE; } return WERR_OK; } static WERROR reg_value_exists(struct registry_key *key, const char *name) { int i; for (i=0; ivalues->num_values; i++) { if (strequal(key->values->values[i]->valuename, name)) { return WERR_OK; } } return WERR_BADFILE; } WERROR reg_deletevalue(struct registry_key *key, const char *name) { WERROR err; if (!(key->key->access_granted & SEC_RIGHTS_SET_VALUE)) { return WERR_ACCESS_DENIED; } if (!W_ERROR_IS_OK(err = fill_value_cache(key))) { return err; } err = reg_value_exists(key, name); if (!W_ERROR_IS_OK(err)) { return err; } regval_ctr_delvalue(key->values, name); if (!store_reg_values(key->key, key->values)) { TALLOC_FREE(key->values); return WERR_REG_IO_FAILURE; } return WERR_OK; } WERROR reg_getkeysecurity(TALLOC_CTX *mem_ctx, struct registry_key *key, struct security_descriptor **psecdesc) { return regkey_get_secdesc(mem_ctx, key->key, psecdesc); } WERROR reg_setkeysecurity(struct registry_key *key, struct security_descriptor *psecdesc) { return regkey_set_secdesc(key->key, psecdesc); } WERROR reg_getversion(uint32_t *version) { if (version == NULL) { return WERR_INVALID_PARAM; } *version = 0x00000005; /* Windows 2000 registry API version */ return WERR_OK; } /******************************************************************* Note: topkeypat is the *full* path that this *key will be loaded into (including the name of the key) ********************************************************************/ static WERROR reg_load_tree(REGF_FILE *regfile, const char *topkeypath, REGF_NK_REC *key) { REGF_NK_REC *subkey; REGISTRY_KEY registry_key; REGVAL_CTR *values; struct regsubkey_ctr *subkeys; int i; char *path = NULL; WERROR result = WERR_OK; /* initialize the REGISTRY_KEY structure */ registry_key.ops = reghook_cache_find(topkeypath); if (!registry_key.ops) { DEBUG(0, ("reg_load_tree: Failed to assign REGISTRY_OPS " "to [%s]\n", topkeypath)); return WERR_BADFILE; } registry_key.name = talloc_strdup(regfile->mem_ctx, topkeypath); if (!registry_key.name) { DEBUG(0, ("reg_load_tree: Talloc failed for reg_key.name!\n")); return WERR_NOMEM; } /* now start parsing the values and subkeys */ result = regsubkey_ctr_init(regfile->mem_ctx, &subkeys); W_ERROR_NOT_OK_RETURN(result); values = TALLOC_ZERO_P(subkeys, REGVAL_CTR); if (values == NULL) { return WERR_NOMEM; } /* copy values into the REGVAL_CTR */ for (i=0; inum_values; i++) { regval_ctr_addvalue(values, key->values[i].valuename, key->values[i].type, (char*)key->values[i].data, (key->values[i].data_size & ~VK_DATA_IN_OFFSET)); } /* copy subkeys into the struct regsubkey_ctr */ key->subkey_index = 0; while ((subkey = regfio_fetch_subkey( regfile, key ))) { result = regsubkey_ctr_addkey(subkeys, subkey->keyname); if (!W_ERROR_IS_OK(result)) { TALLOC_FREE(subkeys); return result; } } /* write this key and values out */ if (!store_reg_values(®istry_key, values) || !store_reg_keys(®istry_key, subkeys)) { DEBUG(0,("reg_load_tree: Failed to load %s!\n", topkeypath)); result = WERR_REG_IO_FAILURE; } TALLOC_FREE(subkeys); if (!W_ERROR_IS_OK(result)) { return result; } /* now continue to load each subkey registry tree */ key->subkey_index = 0; while ((subkey = regfio_fetch_subkey(regfile, key))) { path = talloc_asprintf(regfile->mem_ctx, "%s\\%s", topkeypath, subkey->keyname); if (path == NULL) { return WERR_NOMEM; } result = reg_load_tree(regfile, path, subkey); if (!W_ERROR_IS_OK(result)) { break; } } return result; } /******************************************************************* ********************************************************************/ static WERROR restore_registry_key(REGISTRY_KEY *krecord, const char *fname) { REGF_FILE *regfile; REGF_NK_REC *rootkey; WERROR result; /* open the registry file....fail if the file already exists */ regfile = regfio_open(fname, (O_RDONLY), 0); if (regfile == NULL) { DEBUG(0, ("restore_registry_key: failed to open \"%s\" (%s)\n", fname, strerror(errno))); return ntstatus_to_werror(map_nt_error_from_unix(errno)); } /* get the rootkey from the regf file and then load the tree via recursive calls */ if (!(rootkey = regfio_rootkey(regfile))) { regfio_close(regfile); return WERR_REG_FILE_INVALID; } result = reg_load_tree(regfile, krecord->name, rootkey); /* cleanup */ regfio_close(regfile); return result; } WERROR reg_restorekey(struct registry_key *key, const char *fname) { return restore_registry_key(key->key, fname); } /******************************************************************** ********************************************************************/ static WERROR reg_write_tree(REGF_FILE *regfile, const char *keypath, REGF_NK_REC *parent) { REGF_NK_REC *key; REGVAL_CTR *values; struct regsubkey_ctr *subkeys; int i, num_subkeys; char *key_tmp = NULL; char *keyname, *parentpath; char *subkeypath = NULL; char *subkeyname; REGISTRY_KEY registry_key; WERROR result = WERR_OK; SEC_DESC *sec_desc = NULL; if (!regfile) { return WERR_GENERAL_FAILURE; } if (!keypath) { return WERR_OBJECT_PATH_INVALID; } /* split up the registry key path */ key_tmp = talloc_strdup(regfile->mem_ctx, keypath); if (!key_tmp) { return WERR_NOMEM; } if (!reg_split_key(key_tmp, &parentpath, &keyname)) { return WERR_OBJECT_PATH_INVALID; } if (!keyname) { keyname = parentpath; } /* we need a REGISTRY_KEY object here to enumerate subkeys and values */ ZERO_STRUCT(registry_key); registry_key.name = talloc_strdup(regfile->mem_ctx, keypath); if (registry_key.name == NULL) { return WERR_NOMEM; } registry_key.ops = reghook_cache_find(registry_key.name); if (registry_key.ops == NULL) { return WERR_BADFILE; } /* lookup the values and subkeys */ result = regsubkey_ctr_init(regfile->mem_ctx, &subkeys); W_ERROR_NOT_OK_RETURN(result); values = TALLOC_ZERO_P(subkeys, REGVAL_CTR); if (values == NULL) { return WERR_NOMEM; } fetch_reg_keys(®istry_key, subkeys); fetch_reg_values(®istry_key, values); result = regkey_get_secdesc(regfile->mem_ctx, ®istry_key, &sec_desc); if (!W_ERROR_IS_OK(result)) { goto done; } /* write out this key */ key = regfio_write_key(regfile, keyname, values, subkeys, sec_desc, parent); if (key == NULL) { result = WERR_CAN_NOT_COMPLETE; goto done; } /* write each one of the subkeys out */ num_subkeys = regsubkey_ctr_numkeys(subkeys); for (i=0; imem_ctx, "%s\\%s", keypath, subkeyname); if (subkeypath == NULL) { result = WERR_NOMEM; goto done; } result = reg_write_tree(regfile, subkeypath, key); if (!W_ERROR_IS_OK(result)) goto done; } DEBUG(6, ("reg_write_tree: wrote key [%s]\n", keypath)); done: TALLOC_FREE(subkeys); TALLOC_FREE(registry_key.name); return result; } static WERROR backup_registry_key(REGISTRY_KEY *krecord, const char *fname) { REGF_FILE *regfile; WERROR result; /* open the registry file....fail if the file already exists */ regfile = regfio_open(fname, (O_RDWR|O_CREAT|O_EXCL), (S_IREAD|S_IWRITE)); if (regfile == NULL) { DEBUG(0,("backup_registry_key: failed to open \"%s\" (%s)\n", fname, strerror(errno) )); return ntstatus_to_werror(map_nt_error_from_unix(errno)); } /* write the registry tree to the file */ result = reg_write_tree(regfile, krecord->name, NULL); /* cleanup */ regfio_close(regfile); return result; } WERROR reg_savekey(struct registry_key *key, const char *fname) { return backup_registry_key(key->key, fname); } /********************************************************************** * Higher level utility functions **********************************************************************/ WERROR reg_deleteallvalues(struct registry_key *key) { WERROR err; int i; if (!(key->key->access_granted & SEC_RIGHTS_SET_VALUE)) { return WERR_ACCESS_DENIED; } if (!W_ERROR_IS_OK(err = fill_value_cache(key))) { return err; } for (i=0; ivalues->num_values; i++) { regval_ctr_delvalue(key->values, key->values->values[i]->valuename); } if (!store_reg_values(key->key, key->values)) { TALLOC_FREE(key->values); return WERR_REG_IO_FAILURE; } return WERR_OK; } /* * Utility function to open a complete registry path including the hive prefix. */ WERROR reg_open_path(TALLOC_CTX *mem_ctx, const char *orig_path, uint32 desired_access, const struct nt_user_token *token, struct registry_key **pkey) { struct registry_key *hive, *key; char *path, *p; WERROR err; if (!(path = SMB_STRDUP(orig_path))) { return WERR_NOMEM; } p = strchr(path, '\\'); if ((p == NULL) || (p[1] == '\0')) { /* * No key behind the hive, just return the hive */ err = reg_openhive(mem_ctx, path, desired_access, token, &hive); if (!W_ERROR_IS_OK(err)) { SAFE_FREE(path); return err; } SAFE_FREE(path); *pkey = hive; return WERR_OK; } *p = '\0'; err = reg_openhive(mem_ctx, path, SEC_RIGHTS_ENUM_SUBKEYS, token, &hive); if (!W_ERROR_IS_OK(err)) { SAFE_FREE(path); return err; } err = reg_openkey(mem_ctx, hive, p+1, desired_access, &key); TALLOC_FREE(hive); SAFE_FREE(path); if (!W_ERROR_IS_OK(err)) { return err; } *pkey = key; return WERR_OK; } /* * Utility function to delete a registry key with all its subkeys. * Note that reg_deletekey returns ACCESS_DENIED when called on a * key that has subkeys. */ static WERROR reg_deletekey_recursive_internal(TALLOC_CTX *ctx, struct registry_key *parent, const char *path, bool del_key) { TALLOC_CTX *mem_ctx = NULL; WERROR werr = WERR_OK; struct registry_key *key; char *subkey_name = NULL; mem_ctx = talloc_new(ctx); if (mem_ctx == NULL) { werr = WERR_NOMEM; goto done; } /* recurse through subkeys first */ werr = reg_openkey(mem_ctx, parent, path, REG_KEY_ALL, &key); if (!W_ERROR_IS_OK(werr)) { goto done; } while (W_ERROR_IS_OK(werr = reg_enumkey(mem_ctx, key, 0, &subkey_name, NULL))) { werr = reg_deletekey_recursive_internal(mem_ctx, key, subkey_name, true); if (!W_ERROR_IS_OK(werr)) { goto done; } } if (!W_ERROR_EQUAL(WERR_NO_MORE_ITEMS, werr)) { DEBUG(1, ("reg_deletekey_recursive_internal: " "Error enumerating subkeys: %s\n", win_errstr(werr))); goto done; } werr = WERR_OK; if (del_key) { /* now delete the actual key */ werr = reg_deletekey(parent, path); } done: TALLOC_FREE(mem_ctx); return werr; } static WERROR reg_deletekey_recursive_trans(TALLOC_CTX *ctx, struct registry_key *parent, const char *path, bool del_key) { WERROR werr; werr = regdb_transaction_start(); if (!W_ERROR_IS_OK(werr)) { DEBUG(0, ("reg_deletekey_recursive_trans: " "error starting transaction: %s\n", win_errstr(werr))); return werr; } werr = reg_deletekey_recursive_internal(ctx, parent, path, del_key); if (!W_ERROR_IS_OK(werr)) { werr = regdb_transaction_cancel(); if (!W_ERROR_IS_OK(werr)) { DEBUG(0, ("reg_deletekey_recursive_trans: " "error cancelling transaction: %s\n", win_errstr(werr))); } } else { werr = regdb_transaction_commit(); if (!W_ERROR_IS_OK(werr)) { DEBUG(0, ("reg_deletekey_recursive_trans: " "error committing transaction: %s\n", win_errstr(werr))); } } return werr; } WERROR reg_deletekey_recursive(TALLOC_CTX *ctx, struct registry_key *parent, const char *path) { return reg_deletekey_recursive_trans(ctx, parent, path, true); } WERROR reg_deletesubkeys_recursive(TALLOC_CTX *ctx, struct registry_key *parent, const char *path) { return reg_deletekey_recursive_trans(ctx, parent, path, false); } #if 0 /* these two functions are unused. */ /** * Utility function to create a registry key without opening the hive * before. Assumes the hive already exists. */ WERROR reg_create_path(TALLOC_CTX *mem_ctx, const char *orig_path, uint32 desired_access, const struct nt_user_token *token, enum winreg_CreateAction *paction, struct registry_key **pkey) { struct registry_key *hive; char *path, *p; WERROR err; if (!(path = SMB_STRDUP(orig_path))) { return WERR_NOMEM; } p = strchr(path, '\\'); if ((p == NULL) || (p[1] == '\0')) { /* * No key behind the hive, just return the hive */ err = reg_openhive(mem_ctx, path, desired_access, token, &hive); if (!W_ERROR_IS_OK(err)) { SAFE_FREE(path); return err; } SAFE_FREE(path); *pkey = hive; *paction = REG_OPENED_EXISTING_KEY; return WERR_OK; } *p = '\0'; err = reg_openhive(mem_ctx, path, (strchr(p+1, '\\') != NULL) ? SEC_RIGHTS_ENUM_SUBKEYS : SEC_RIGHTS_CREATE_SUBKEY, token, &hive); if (!W_ERROR_IS_OK(err)) { SAFE_FREE(path); return err; } err = reg_createkey(mem_ctx, hive, p+1, desired_access, pkey, paction); SAFE_FREE(path); TALLOC_FREE(hive); return err; } /* * Utility function to create a registry key without opening the hive * before. Will not delete a hive. */ WERROR reg_delete_path(const struct nt_user_token *token, const char *orig_path) { struct registry_key *hive; char *path, *p; WERROR err; if (!(path = SMB_STRDUP(orig_path))) { return WERR_NOMEM; } p = strchr(path, '\\'); if ((p == NULL) || (p[1] == '\0')) { SAFE_FREE(path); return WERR_INVALID_PARAM; } *p = '\0'; err = reg_openhive(NULL, path, (strchr(p+1, '\\') != NULL) ? SEC_RIGHTS_ENUM_SUBKEYS : SEC_RIGHTS_CREATE_SUBKEY, token, &hive); if (!W_ERROR_IS_OK(err)) { SAFE_FREE(path); return err; } err = reg_deletekey(hive, p+1); SAFE_FREE(path); TALLOC_FREE(hive); return err; } #endif /* #if 0 */