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|
/*
* Unix SMB/CIFS implementation.
* Virtual Windows Registry Layer
* Copyright (C) Volker Lendecke 2006
* Copyright (C) Michael Adam 2007-2010
*
* 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 <http://www.gnu.org/licenses/>.
*/
/* 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 reg_querymultiplevalues
* 0x1e winreg_InitiateSystemShutdownEx
* 0x1f winreg_SaveKeyEx
* 0x20 winreg_OpenHKPT
* 0x21 winreg_OpenHKPN
* 0x22 winreg_QueryMultipleValues2 reg_querymultiplevalues
*
*/
#include "includes.h"
#include "registry.h"
#include "reg_api.h"
#include "reg_cachehook.h"
#include "reg_backend_db.h"
#include "reg_dispatcher.h"
#include "reg_objects.h"
#include "../librpc/gen_ndr/ndr_security.h"
#undef DBGC_CLASS
#define DBGC_CLASS DBGC_REGISTRY
/**********************************************************************
* Helper functions
**********************************************************************/
static WERROR fill_value_cache(struct registry_key *key)
{
WERROR werr;
if (key->values != NULL) {
if (!reg_values_need_update(key->key, key->values)) {
return WERR_OK;
}
}
TALLOC_FREE(key->values);
werr = regval_ctr_init(key, &(key->values));
W_ERROR_NOT_OK_RETURN(werr);
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;
}
}
TALLOC_FREE(key->subkeys);
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_BADFILE;
}
return WERR_OK;
}
static int regkey_destructor(struct registry_key_handle *key)
{
return regdb_close();
}
static WERROR regkey_open_onelevel(TALLOC_CTX *mem_ctx,
struct registry_key *parent,
const char *name,
const struct security_token *token,
uint32 access_desired,
struct registry_key **pregkey)
{
WERROR result = WERR_OK;
struct registry_key *regkey;
struct registry_key_handle *key;
DEBUG(7,("regkey_open_onelevel: name = [%s]\n", name));
SMB_ASSERT(strchr(name, '\\') == NULL);
if (!(regkey = talloc_zero(mem_ctx, struct registry_key)) ||
!(regkey->token = dup_nt_token(regkey, token)) ||
!(regkey->key = talloc_zero(regkey, struct registry_key_handle)))
{
result = WERR_NOMEM;
goto done;
}
result = regdb_open();
if (!(W_ERROR_IS_OK(result))) {
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_m(key->name, KEY_HKPD, strlen(KEY_HKPD)) == 0 )
key->type = REG_KEY_HKPD;
/* Look up the table of registry I/O operations */
key->ops = reghook_cache_find( key->name );
if (key->ops == NULL) {
DEBUG(0,("reg_open_onelevel: Failed to assign "
"registry_ops to [%s]\n", key->name ));
result = WERR_BADFILE;
goto done;
}
/* FIXME: Existence is currently checked by fetching the subkeys */
result = fill_subkey_cache(regkey);
if (!W_ERROR_IS_OK(result)) {
goto done;
}
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 security_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;
size_t len;
TALLOC_CTX *frame = talloc_stackframe();
path = talloc_strdup(frame, name);
if (path == NULL) {
err = WERR_NOMEM;
goto error;
}
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;
name_component = talloc_strndup(frame, path, (p - path));
if (name_component == NULL) {
err = WERR_NOMEM;
goto error;
}
err = regkey_open_onelevel(frame, direct_parent,
name_component, parent->token,
KEY_ENUMERATE_SUB_KEYS, &tmp);
if (!W_ERROR_IS_OK(err)) {
goto error;
}
direct_parent = tmp;
path = p+1;
}
err = regkey_open_onelevel(mem_ctx, direct_parent, path, parent->token,
desired_access, pkey);
error:
talloc_free(frame);
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 & KEY_ENUMERATE_SUB_KEYS)) {
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;
struct regval_blob *blob;
WERROR err;
if (!(key->key->access_granted & KEY_QUERY_VALUE)) {
return WERR_ACCESS_DENIED;
}
if (!(W_ERROR_IS_OK(err = fill_value_cache(key)))) {
return err;
}
if (idx >= regval_ctr_numvals(key->values)) {
return WERR_NO_MORE_ITEMS;
}
blob = regval_ctr_specific_value(key->values, idx);
val = talloc_zero(mem_ctx, struct registry_value);
if (val == NULL) {
return WERR_NOMEM;
}
val->type = regval_type(blob);
val->data = data_blob_talloc(mem_ctx, regval_data_p(blob), regval_size(blob));
if (pname
&& !(*pname = talloc_strdup(
mem_ctx, regval_name(blob)))) {
TALLOC_FREE(val);
return WERR_NOMEM;
}
*pval = val;
return WERR_OK;
}
static WERROR reg_enumvalue_nocachefill(TALLOC_CTX *mem_ctx,
struct registry_key *key,
uint32 idx, char **pname,
struct registry_value **pval)
{
struct registry_value *val;
struct regval_blob *blob;
if (!(key->key->access_granted & KEY_QUERY_VALUE)) {
return WERR_ACCESS_DENIED;
}
if (idx >= regval_ctr_numvals(key->values)) {
return WERR_NO_MORE_ITEMS;
}
blob = regval_ctr_specific_value(key->values, idx);
val = talloc_zero(mem_ctx, struct registry_value);
if (val == NULL) {
return WERR_NOMEM;
}
val->type = regval_type(blob);
val->data = data_blob_talloc(mem_ctx, regval_data_p(blob), regval_size(blob));
if (pname
&& !(*pname = talloc_strdup(
mem_ctx, regval_name(blob)))) {
TALLOC_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 & KEY_QUERY_VALUE)) {
return WERR_ACCESS_DENIED;
}
if (!(W_ERROR_IS_OK(err = fill_value_cache(key)))) {
return err;
}
for (i=0; i < regval_ctr_numvals(key->values); i++) {
struct regval_blob *blob;
blob = regval_ctr_specific_value(key->values, i);
if (strequal(regval_name(blob), name)) {
/*
* don't use reg_enumvalue here:
* re-reading the values from the disk
* would change the indexing and break
* this function.
*/
return reg_enumvalue_nocachefill(mem_ctx, key, i,
NULL, pval);
}
}
return WERR_BADFILE;
}
WERROR reg_querymultiplevalues(TALLOC_CTX *mem_ctx,
struct registry_key *key,
uint32_t num_names,
const char **names,
uint32_t *pnum_vals,
struct registry_value **pvals)
{
WERROR err;
uint32_t i, n, found = 0;
struct registry_value *vals;
if (num_names == 0) {
return WERR_OK;
}
if (!(key->key->access_granted & KEY_QUERY_VALUE)) {
return WERR_ACCESS_DENIED;
}
if (!(W_ERROR_IS_OK(err = fill_value_cache(key)))) {
return err;
}
vals = talloc_zero_array(mem_ctx, struct registry_value, num_names);
if (vals == NULL) {
return WERR_NOMEM;
}
for (n=0; n < num_names; n++) {
for (i=0; i < regval_ctr_numvals(key->values); i++) {
struct regval_blob *blob;
blob = regval_ctr_specific_value(key->values, i);
if (strequal(regval_name(blob), names[n])) {
struct registry_value *v;
err = reg_enumvalue(mem_ctx, key, i, NULL, &v);
if (!W_ERROR_IS_OK(err)) {
return err;
}
vals[n] = *v;
found++;
}
}
}
*pvals = vals;
*pnum_vals = found;
return WERR_OK;
}
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 & KEY_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; i < regval_ctr_numvals(key->values); i++) {
struct regval_blob *blob;
blob = regval_ctr_specific_value(key->values, i);
max_len = MAX(max_len, strlen(regval_name(blob)));
max_size = MAX(max_size, regval_size(blob));
}
*num_values = regval_ctr_numvals(key->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, 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;
TALLOC_CTX *mem_ctx;
char *path, *end;
WERROR err;
uint32_t access_granted;
mem_ctx = talloc_new(ctx);
if (mem_ctx == NULL) {
return WERR_NOMEM;
}
path = talloc_strdup(mem_ctx, subkeypath);
if (path == NULL) {
err = WERR_NOMEM;
goto done;
}
err = regdb_transaction_start();
if (!W_ERROR_IS_OK(err)) {
DEBUG(0, ("reg_createkey: failed to start transaction: %s\n",
win_errstr(err)));
goto done;
}
while ((end = strchr(path, '\\')) != NULL) {
struct registry_key *tmp;
enum winreg_CreateAction action;
*end = '\0';
err = reg_createkey(mem_ctx, key, path,
KEY_ENUMERATE_SUB_KEYS, &tmp, &action);
if (!W_ERROR_IS_OK(err)) {
goto trans_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 trans_done;
}
if (!W_ERROR_EQUAL(err, WERR_BADFILE)) {
/*
* Something but "notfound" has happened, so bail out
*/
goto trans_done;
}
/*
* We may (e.g. in the iteration) have opened the key with ENUM_SUBKEY.
* Instead of re-opening the key with CREATE_SUB_KEY, we simply
* duplicate the access check here and skip the expensive full open.
*/
if (!regkey_access_check(key->key, KEY_CREATE_SUB_KEY, &access_granted,
key->token))
{
err = WERR_ACCESS_DENIED;
goto done;
}
/*
* Actually create the subkey
*/
err = create_reg_subkey(key->key, path);
if (!W_ERROR_IS_OK(err)) {
goto trans_done;
}
/*
* Now open the newly created key
*/
err = reg_openkey(ctx, key, path, desired_access, pkey);
if (W_ERROR_IS_OK(err) && (paction != NULL)) {
*paction = REG_CREATED_NEW_KEY;
}
trans_done:
if (W_ERROR_IS_OK(err)) {
err = regdb_transaction_commit();
if (!W_ERROR_IS_OK(err)) {
DEBUG(0, ("reg_createkey: Error committing transaction: %s\n", win_errstr(err)));
}
} else {
WERROR err1 = regdb_transaction_cancel();
if (!W_ERROR_IS_OK(err1)) {
DEBUG(0, ("reg_createkey: Error cancelling transaction: %s\n", win_errstr(err1)));
}
}
done:
TALLOC_FREE(mem_ctx);
return err;
}
static WERROR reg_deletekey_internal(TALLOC_CTX *mem_ctx,
struct registry_key *parent,
const char *path, bool lazy)
{
WERROR err;
char *name, *end;
struct registry_key *key;
name = talloc_strdup(mem_ctx, path);
if (name == NULL) {
err = WERR_NOMEM;
goto done;
}
/* no subkeys - proceed with delete */
end = strrchr(name, '\\');
if (end != NULL) {
*end = '\0';
err = reg_openkey(mem_ctx, parent, name,
KEY_CREATE_SUB_KEY, &key);
W_ERROR_NOT_OK_GOTO_DONE(err);
parent = key;
name = end+1;
}
if (name[0] == '\0') {
err = WERR_INVALID_PARAM;
goto done;
}
err = delete_reg_subkey(parent->key, name, lazy);
done:
return err;
}
WERROR reg_deletekey(struct registry_key *parent, const char *path)
{
WERROR err;
struct registry_key *key;
TALLOC_CTX *mem_ctx = talloc_stackframe();
/* check if the key has subkeys */
err = reg_openkey(mem_ctx, parent, path, REG_KEY_READ, &key);
W_ERROR_NOT_OK_GOTO_DONE(err);
err = regdb_transaction_start();
if (!W_ERROR_IS_OK(err)) {
DEBUG(0, ("reg_deletekey: Error starting transaction: %s\n",
win_errstr(err)));
goto done;
}
err = fill_subkey_cache(key);
if (!W_ERROR_IS_OK(err)) {
goto trans_done;
}
if (regsubkey_ctr_numkeys(key->subkeys) > 0) {
err = WERR_ACCESS_DENIED;
goto trans_done;
}
err = reg_deletekey_internal(mem_ctx, parent, path, false);
trans_done:
if (W_ERROR_IS_OK(err)) {
err = regdb_transaction_commit();
if (!W_ERROR_IS_OK(err)) {
DEBUG(0, ("reg_deletekey: Error committing transaction: %s\n", win_errstr(err)));
}
} else {
WERROR err1 = regdb_transaction_cancel();
if (!W_ERROR_IS_OK(err1)) {
DEBUG(0, ("reg_deletekey: Error cancelling transaction: %s\n", win_errstr(err1)));
}
}
done:
TALLOC_FREE(mem_ctx);
return err;
}
WERROR reg_setvalue(struct registry_key *key, const char *name,
const struct registry_value *val)
{
struct regval_blob *existing;
WERROR err;
int res;
if (!(key->key->access_granted & KEY_SET_VALUE)) {
return WERR_ACCESS_DENIED;
}
err = regdb_transaction_start();
if (!W_ERROR_IS_OK(err)) {
DEBUG(0, ("reg_setvalue: Failed to start transaction: %s\n",
win_errstr(err)));
return err;
}
err = fill_value_cache(key);
if (!W_ERROR_IS_OK(err)) {
DEBUG(0, ("reg_setvalue: Error filling value cache: %s\n", win_errstr(err)));
goto done;
}
existing = regval_ctr_getvalue(key->values, name);
if ((existing != NULL) &&
(regval_size(existing) == val->data.length) &&
(memcmp(regval_data_p(existing), val->data.data,
val->data.length) == 0))
{
err = WERR_OK;
goto done;
}
res = regval_ctr_addvalue(key->values, name, val->type,
val->data.data, val->data.length);
if (res == 0) {
TALLOC_FREE(key->values);
err = WERR_NOMEM;
goto done;
}
if (!store_reg_values(key->key, key->values)) {
TALLOC_FREE(key->values);
DEBUG(0, ("reg_setvalue: store_reg_values failed\n"));
err = WERR_REG_IO_FAILURE;
goto done;
}
err = WERR_OK;
done:
if (W_ERROR_IS_OK(err)) {
err = regdb_transaction_commit();
if (!W_ERROR_IS_OK(err)) {
DEBUG(0, ("reg_setvalue: Error committing transaction: %s\n", win_errstr(err)));
}
} else {
WERROR err1 = regdb_transaction_cancel();
if (!W_ERROR_IS_OK(err1)) {
DEBUG(0, ("reg_setvalue: Error cancelling transaction: %s\n", win_errstr(err1)));
}
}
return err;
}
static WERROR reg_value_exists(struct registry_key *key, const char *name)
{
struct regval_blob *blob;
blob = regval_ctr_getvalue(key->values, name);
if (blob == NULL) {
return WERR_BADFILE;
} else {
return WERR_OK;
}
}
WERROR reg_deletevalue(struct registry_key *key, const char *name)
{
WERROR err;
if (!(key->key->access_granted & KEY_SET_VALUE)) {
return WERR_ACCESS_DENIED;
}
err = regdb_transaction_start();
if (!W_ERROR_IS_OK(err)) {
DEBUG(0, ("reg_deletevalue: Failed to start transaction: %s\n",
win_errstr(err)));
return err;
}
err = fill_value_cache(key);
if (!W_ERROR_IS_OK(err)) {
DEBUG(0, ("reg_deletevalue; Error filling value cache: %s\n",
win_errstr(err)));
goto done;
}
err = reg_value_exists(key, name);
if (!W_ERROR_IS_OK(err)) {
goto done;
}
regval_ctr_delvalue(key->values, name);
if (!store_reg_values(key->key, key->values)) {
TALLOC_FREE(key->values);
err = WERR_REG_IO_FAILURE;
DEBUG(0, ("reg_deletevalue: store_reg_values failed\n"));
goto done;
}
err = WERR_OK;
done:
if (W_ERROR_IS_OK(err)) {
err = regdb_transaction_commit();
if (!W_ERROR_IS_OK(err)) {
DEBUG(0, ("reg_deletevalue: Error committing transaction: %s\n", win_errstr(err)));
}
} else {
WERROR err1 = regdb_transaction_cancel();
if (!W_ERROR_IS_OK(err1)) {
DEBUG(0, ("reg_deletevalue: Error cancelling transaction: %s\n", win_errstr(err1)));
}
}
return err;
}
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;
}
/**********************************************************************
* Higher level utility functions
**********************************************************************/
WERROR reg_deleteallvalues(struct registry_key *key)
{
WERROR err;
int i;
if (!(key->key->access_granted & KEY_SET_VALUE)) {
return WERR_ACCESS_DENIED;
}
if (!W_ERROR_IS_OK(err = fill_value_cache(key))) {
return err;
}
for (i=0; i < regval_ctr_numvals(key->values); i++) {
struct regval_blob *blob;
blob = regval_ctr_specific_value(key->values, i);
regval_ctr_delvalue(key->values, regval_name(blob));
}
if (!store_reg_values(key->key, key->values)) {
TALLOC_FREE(key->values);
return WERR_REG_IO_FAILURE;
}
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(struct registry_key *parent,
const char *path,
bool del_key, bool lazy)
{
WERROR werr = WERR_OK;
struct registry_key *key;
char *subkey_name = NULL;
uint32 i;
TALLOC_CTX *mem_ctx = talloc_stackframe();
DEBUG(5, ("reg_deletekey_recursive_internal: deleting '%s' from '%s'\n",
path, parent->key->name));
/* recurse through subkeys first */
werr = reg_openkey(mem_ctx, parent, path, REG_KEY_ALL, &key);
if (!W_ERROR_IS_OK(werr)) {
DEBUG(3, ("reg_deletekey_recursive_internal: error opening "
"subkey '%s' of '%s': '%s'\n",
path, parent->key->name, win_errstr(werr)));
goto done;
}
werr = fill_subkey_cache(key);
W_ERROR_NOT_OK_GOTO_DONE(werr);
/*
* loop from top to bottom for perfomance:
* this way, we need to rehash the regsubkey containers less
*/
for (i = regsubkey_ctr_numkeys(key->subkeys) ; i > 0; i--) {
subkey_name = regsubkey_ctr_specific_key(key->subkeys, i-1);
werr = reg_deletekey_recursive_internal(key, subkey_name, true, del_key);
W_ERROR_NOT_OK_GOTO_DONE(werr);
}
if (del_key) {
/* now delete the actual key */
werr = reg_deletekey_internal(mem_ctx, parent, path, lazy);
}
done:
DEBUG(5, ("reg_deletekey_recursive_internal: done deleting '%s' from "
"'%s': %s\n",
path, parent->key->name, win_errstr(werr)));
TALLOC_FREE(mem_ctx);
return werr;
}
static WERROR reg_deletekey_recursive_trans(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(parent, path, del_key, false);
if (!W_ERROR_IS_OK(werr)) {
WERROR werr2;
DEBUG(W_ERROR_EQUAL(werr, WERR_BADFILE) ? 5 : 1,
(__location__ ": failed to delete key '%s' from key "
"'%s': %s\n", path, parent->key->name,
win_errstr(werr)));
werr2 = regdb_transaction_cancel();
if (!W_ERROR_IS_OK(werr2)) {
DEBUG(0, ("reg_deletekey_recursive_trans: "
"error cancelling transaction: %s\n",
win_errstr(werr2)));
/*
* return the original werr or the
* error from cancelling the transaction?
*/
}
} 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)));
} else {
DEBUG(5, ("reg_reletekey_recursive_trans: deleted key '%s' from '%s'\n",
path, parent->key->name));
}
}
return werr;
}
WERROR reg_deletekey_recursive(struct registry_key *parent,
const char *path)
{
return reg_deletekey_recursive_trans(parent, path, true);
}
WERROR reg_deletesubkeys_recursive(struct registry_key *parent,
const char *path)
{
return reg_deletekey_recursive_trans(parent, path, false);
}
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