/* * Unix SMB/CIFS implementation. * Virtual Windows Registry Layer * Copyright (C) Gerald Carter 2002-2005 * * 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 . */ /* Implementation of registry frontend view functions. */ #include "includes.h" #undef DBGC_CLASS #define DBGC_CLASS DBGC_REGISTRY struct regsubkey_ctr { uint32_t num_subkeys; char **subkeys; struct db_context *subkeys_hash; int seqnum; }; /********************************************************************** Note that the struct regsubkey_ctr and REGVAL_CTR objects *must* be talloc()'d since the methods use the object pointer as the talloc context for internal private data. There is no longer a regval_ctr_intit() and regval_ctr_destroy() pair of functions. Simply TALLOC_ZERO_P() and TALLOC_FREE() the object. **********************************************************************/ WERROR regsubkey_ctr_init(TALLOC_CTX *mem_ctx, struct regsubkey_ctr **ctr) { if (ctr == NULL) { return WERR_INVALID_PARAM; } *ctr = talloc_zero(mem_ctx, struct regsubkey_ctr); if (*ctr == NULL) { return WERR_NOMEM; } (*ctr)->subkeys_hash = db_open_rbt(*ctr); if ((*ctr)->subkeys_hash == NULL) { talloc_free(*ctr); return WERR_NOMEM; } return WERR_OK; } WERROR regsubkey_ctr_set_seqnum(struct regsubkey_ctr *ctr, int seqnum) { if (ctr == NULL) { return WERR_INVALID_PARAM; } ctr->seqnum = seqnum; return WERR_OK; } int regsubkey_ctr_get_seqnum(struct regsubkey_ctr *ctr) { if (ctr == NULL) { return -1; } return ctr->seqnum; } static WERROR regsubkey_ctr_hash_keyname(struct regsubkey_ctr *ctr, const char *keyname, uint32 idx) { WERROR werr; werr = ntstatus_to_werror(dbwrap_store_bystring(ctr->subkeys_hash, keyname, make_tdb_data((uint8 *)&idx, sizeof(idx)), TDB_REPLACE)); if (!W_ERROR_IS_OK(werr)) { DEBUG(1, ("error hashing new key '%s' in container: %s\n", keyname, dos_errstr(werr))); } return werr; } static WERROR regsubkey_ctr_unhash_keyname(struct regsubkey_ctr *ctr, const char *keyname) { WERROR werr; werr = ntstatus_to_werror(dbwrap_delete_bystring(ctr->subkeys_hash, keyname)); if (!W_ERROR_IS_OK(werr)) { DEBUG(1, ("error unhashing key '%s' in container: %s\n", keyname, dos_errstr(werr))); } return werr; } static WERROR regsubkey_ctr_index_for_keyname(struct regsubkey_ctr *ctr, const char *keyname, uint32 *idx) { TDB_DATA data; if ((ctr == NULL) || (keyname == NULL)) { return WERR_INVALID_PARAM; } data = dbwrap_fetch_bystring(ctr->subkeys_hash, ctr, keyname); if (data.dptr == NULL) { return WERR_NOT_FOUND; } if (data.dsize != sizeof(*idx)) { talloc_free(data.dptr); return WERR_INVALID_DATATYPE; } if (idx != NULL) { *idx = *(uint32 *)data.dptr; } talloc_free(data.dptr); return WERR_OK; } /*********************************************************************** Add a new key to the array **********************************************************************/ WERROR regsubkey_ctr_addkey( struct regsubkey_ctr *ctr, const char *keyname ) { char **newkeys; WERROR werr; if ( !keyname ) { return WERR_OK; } /* make sure the keyname is not already there */ if ( regsubkey_ctr_key_exists( ctr, keyname ) ) { return WERR_OK; } if (!(newkeys = TALLOC_REALLOC_ARRAY(ctr, ctr->subkeys, char *, ctr->num_subkeys+1))) { return WERR_NOMEM; } ctr->subkeys = newkeys; if (!(ctr->subkeys[ctr->num_subkeys] = talloc_strdup(ctr->subkeys, keyname ))) { /* * Don't shrink the new array again, this wastes a pointer */ return WERR_NOMEM; } werr = regsubkey_ctr_hash_keyname(ctr, keyname, ctr->num_subkeys); W_ERROR_NOT_OK_RETURN(werr); ctr->num_subkeys++; return WERR_OK; } /*********************************************************************** Delete a key from the array **********************************************************************/ WERROR regsubkey_ctr_delkey( struct regsubkey_ctr *ctr, const char *keyname ) { WERROR werr; uint32 idx, j; if (keyname == NULL) { return WERR_INVALID_PARAM; } /* make sure the keyname is actually already there */ werr = regsubkey_ctr_index_for_keyname(ctr, keyname, &idx); W_ERROR_NOT_OK_RETURN(werr); werr = regsubkey_ctr_unhash_keyname(ctr, keyname); W_ERROR_NOT_OK_RETURN(werr); /* update if we have any keys left */ ctr->num_subkeys--; if (idx < ctr->num_subkeys) { memmove(&ctr->subkeys[idx], &ctr->subkeys[idx+1], sizeof(char *) * (ctr->num_subkeys - idx)); /* we have to re-hash rest of the array... :-( */ for (j = idx; j < ctr->num_subkeys; j++) { werr = regsubkey_ctr_hash_keyname(ctr, ctr->subkeys[j], j); W_ERROR_NOT_OK_RETURN(werr); } } return WERR_OK; } /*********************************************************************** Check for the existance of a key **********************************************************************/ bool regsubkey_ctr_key_exists( struct regsubkey_ctr *ctr, const char *keyname ) { WERROR werr; if (!ctr->subkeys) { return False; } werr = regsubkey_ctr_index_for_keyname(ctr, keyname, NULL); if (!W_ERROR_IS_OK(werr)) { return false; } return true; } /*********************************************************************** How many keys does the container hold ? **********************************************************************/ int regsubkey_ctr_numkeys( struct regsubkey_ctr *ctr ) { return ctr->num_subkeys; } /*********************************************************************** Retreive a specific key string **********************************************************************/ char* regsubkey_ctr_specific_key( struct regsubkey_ctr *ctr, uint32_t key_index ) { if ( ! (key_index < ctr->num_subkeys) ) return NULL; return ctr->subkeys[key_index]; } /* * Utility functions for REGVAL_CTR */ /*********************************************************************** How many keys does the container hold ? **********************************************************************/ int regval_ctr_numvals( REGVAL_CTR *ctr ) { return ctr->num_values; } /*********************************************************************** allocate memory for and duplicate a REGISTRY_VALUE. This is malloc'd memory so the caller should free it when done **********************************************************************/ REGISTRY_VALUE* dup_registry_value( REGISTRY_VALUE *val ) { REGISTRY_VALUE *copy = NULL; if ( !val ) return NULL; if ( !(copy = SMB_MALLOC_P( REGISTRY_VALUE)) ) { DEBUG(0,("dup_registry_value: malloc() failed!\n")); return NULL; } /* copy all the non-pointer initial data */ memcpy( copy, val, sizeof(REGISTRY_VALUE) ); copy->size = 0; copy->data_p = NULL; if ( val->data_p && val->size ) { if ( !(copy->data_p = (uint8 *)memdup( val->data_p, val->size )) ) { DEBUG(0,("dup_registry_value: memdup() failed for [%d] " "bytes!\n", val->size)); SAFE_FREE( copy ); return NULL; } copy->size = val->size; } return copy; } /********************************************************************** free the memory allocated to a REGISTRY_VALUE *********************************************************************/ void free_registry_value( REGISTRY_VALUE *val ) { if ( !val ) return; SAFE_FREE( val->data_p ); SAFE_FREE( val ); return; } /********************************************************************** *********************************************************************/ uint8* regval_data_p( REGISTRY_VALUE *val ) { return val->data_p; } /********************************************************************** *********************************************************************/ uint32 regval_size( REGISTRY_VALUE *val ) { return val->size; } /********************************************************************** *********************************************************************/ char* regval_name( REGISTRY_VALUE *val ) { return val->valuename; } /********************************************************************** *********************************************************************/ uint32 regval_type( REGISTRY_VALUE *val ) { return val->type; } /*********************************************************************** Retreive a pointer to a specific value. Caller shoud dup the structure since this memory will go away when the ctr is free()'d **********************************************************************/ REGISTRY_VALUE* regval_ctr_specific_value( REGVAL_CTR *ctr, uint32 idx ) { if ( !(idx < ctr->num_values) ) return NULL; return ctr->values[idx]; } /*********************************************************************** Check for the existance of a value **********************************************************************/ bool regval_ctr_key_exists( REGVAL_CTR *ctr, const char *value ) { int i; for ( i=0; inum_values; i++ ) { if ( strequal( ctr->values[i]->valuename, value) ) return True; } return False; } /*********************************************************************** * compose a REGISTRY_VALUE from input data **********************************************************************/ REGISTRY_VALUE *regval_compose(TALLOC_CTX *ctx, const char *name, uint16 type, const char *data_p, size_t size) { REGISTRY_VALUE *regval = TALLOC_P(ctx, REGISTRY_VALUE); if (regval == NULL) { return NULL; } fstrcpy(regval->valuename, name); regval->type = type; if (size) { regval->data_p = (uint8 *)TALLOC_MEMDUP(regval, data_p, size); if (!regval->data_p) { TALLOC_FREE(regval); return NULL; } } else { regval->data_p = NULL; } regval->size = size; return regval; } /*********************************************************************** Add a new registry value to the array **********************************************************************/ int regval_ctr_addvalue( REGVAL_CTR *ctr, const char *name, uint16 type, const char *data_p, size_t size ) { if ( !name ) return ctr->num_values; /* Delete the current value (if it exists) and add the new one */ regval_ctr_delvalue( ctr, name ); /* allocate a slot in the array of pointers */ if ( ctr->num_values == 0 ) { ctr->values = TALLOC_P( ctr, REGISTRY_VALUE *); } else { ctr->values = TALLOC_REALLOC_ARRAY(ctr, ctr->values, REGISTRY_VALUE *, ctr->num_values+1); } if (!ctr->values) { ctr->num_values = 0; return 0; } /* allocate a new value and store the pointer in the arrya */ ctr->values[ctr->num_values] = regval_compose(ctr, name, type, data_p, size); if (ctr->values[ctr->num_values] == NULL) { ctr->num_values = 0; return 0; } ctr->num_values++; return ctr->num_values; } /*********************************************************************** Add a new registry value to the array **********************************************************************/ int regval_ctr_copyvalue( REGVAL_CTR *ctr, REGISTRY_VALUE *val ) { if ( val ) { regval_ctr_addvalue(ctr, val->valuename, val->type, (char *)val->data_p, val->size); } return ctr->num_values; } /*********************************************************************** Delete a single value from the registry container. No need to free memory since it is talloc'd. **********************************************************************/ int regval_ctr_delvalue( REGVAL_CTR *ctr, const char *name ) { int i; for ( i=0; inum_values; i++ ) { if ( strequal( ctr->values[i]->valuename, name ) ) break; } /* just return if we don't find it */ if ( i == ctr->num_values ) return ctr->num_values; /* If 'i' was not the last element, just shift everything down one */ ctr->num_values--; if ( i < ctr->num_values ) memmove(&ctr->values[i], &ctr->values[i+1], sizeof(REGISTRY_VALUE*)*(ctr->num_values-i)); return ctr->num_values; } /*********************************************************************** Retrieve single value from the registry container. No need to free memory since it is talloc'd. **********************************************************************/ REGISTRY_VALUE* regval_ctr_getvalue( REGVAL_CTR *ctr, const char *name ) { int i; /* search for the value */ for ( i=0; inum_values; i++ ) { if ( strequal( ctr->values[i]->valuename, name ) ) return ctr->values[i]; } return NULL; } /*********************************************************************** return the data_p as a uint32 **********************************************************************/ uint32 regval_dword( REGISTRY_VALUE *val ) { uint32 data; data = IVAL( regval_data_p(val), 0 ); return data; } /*********************************************************************** return the data_p as a character string **********************************************************************/ char *regval_sz(REGISTRY_VALUE *val) { char *data = NULL; rpcstr_pull_talloc(talloc_tos(), &data, regval_data_p(val), regval_size(val),0); return data; }