/* * Registry management * * Copyright 1996 Marcus Meissner * Copyright 1998 Matthew Becker * Copyright 1999 Sylvain St-Germain * Copyright 1999 Alexandre Julliard * Copyright 2017 Dmitry Timoshkov * Copyright 2019 Nikolay Sivov for CodeWeavers * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include "ntstatus.h" #define WIN32_NO_STATUS #include "windef.h" #include "winbase.h" #include "winreg.h" #include "winerror.h" #include "winternl.h" #include "winperf.h" #include "winuser.h" #include "shlwapi.h" #include "sddl.h" #include "kernelbase.h" #include "wine/debug.h" #include "wine/heap.h" #include "wine/list.h" WINE_DEFAULT_DEBUG_CHANNEL(reg); #define HKEY_SPECIAL_ROOT_FIRST HKEY_CLASSES_ROOT #define HKEY_SPECIAL_ROOT_LAST HKEY_DYN_DATA static const WCHAR name_CLASSES_ROOT[] = {'\\','R','e','g','i','s','t','r','y','\\', 'M','a','c','h','i','n','e','\\', 'S','o','f','t','w','a','r','e','\\', 'C','l','a','s','s','e','s',0}; static const WCHAR name_LOCAL_MACHINE[] = {'\\','R','e','g','i','s','t','r','y','\\', 'M','a','c','h','i','n','e',0}; static const WCHAR name_USERS[] = {'\\','R','e','g','i','s','t','r','y','\\', 'U','s','e','r',0}; static const WCHAR name_PERFORMANCE_DATA[] = {'\\','R','e','g','i','s','t','r','y','\\', 'P','e','r','f','D','a','t','a',0}; static const WCHAR name_CURRENT_CONFIG[] = {'\\','R','e','g','i','s','t','r','y','\\', 'M','a','c','h','i','n','e','\\', 'S','y','s','t','e','m','\\', 'C','u','r','r','e','n','t','C','o','n','t','r','o','l','S','e','t','\\', 'H','a','r','d','w','a','r','e',' ','P','r','o','f','i','l','e','s','\\', 'C','u','r','r','e','n','t',0}; static const WCHAR name_DYN_DATA[] = {'\\','R','e','g','i','s','t','r','y','\\', 'D','y','n','D','a','t','a',0}; static const WCHAR * const root_key_names[] = { name_CLASSES_ROOT, NULL, /* HKEY_CURRENT_USER is determined dynamically */ name_LOCAL_MACHINE, name_USERS, name_PERFORMANCE_DATA, name_CURRENT_CONFIG, name_DYN_DATA }; static HKEY special_root_keys[ARRAY_SIZE(root_key_names)]; static BOOL cache_disabled[ARRAY_SIZE(root_key_names)]; static CRITICAL_SECTION reg_mui_cs; static CRITICAL_SECTION_DEBUG reg_mui_cs_debug = { 0, 0, ®_mui_cs, { ®_mui_cs_debug.ProcessLocksList, ®_mui_cs_debug.ProcessLocksList }, 0, 0, { (DWORD_PTR)(__FILE__ ": reg_mui_cs") } }; static CRITICAL_SECTION reg_mui_cs = { ®_mui_cs_debug, -1, 0, 0, 0, 0 }; struct mui_cache_entry { struct list entry; WCHAR *file_name; /* full path name */ DWORD index; LCID locale; WCHAR *text; }; static struct list reg_mui_cache = LIST_INIT(reg_mui_cache); /* MRU */ static unsigned int reg_mui_cache_count; #define REG_MUI_CACHE_SIZE 8 /* check if value type needs string conversion (Ansi<->Unicode) */ static inline BOOL is_string( DWORD type ) { return (type == REG_SZ) || (type == REG_EXPAND_SZ) || (type == REG_MULTI_SZ); } /* check if current version is NT or Win95 */ static inline BOOL is_version_nt(void) { return !(GetVersion() & 0x80000000); } static BOOL is_wow6432node( const UNICODE_STRING *name ) { static const WCHAR wow6432nodeW[] = {'W','o','w','6','4','3','2','N','o','d','e'}; return (name->Length == sizeof(wow6432nodeW) && !wcsnicmp( name->Buffer, wow6432nodeW, ARRAY_SIZE( wow6432nodeW ))); } /* open the Wow6432Node subkey of the specified key */ static HANDLE open_wow6432node( HANDLE key ) { static const WCHAR wow6432nodeW[] = {'W','o','w','6','4','3','2','N','o','d','e',0}; OBJECT_ATTRIBUTES attr; UNICODE_STRING nameW; HANDLE ret; attr.Length = sizeof(attr); attr.RootDirectory = key; attr.ObjectName = &nameW; attr.Attributes = 0; attr.SecurityDescriptor = NULL; attr.SecurityQualityOfService = NULL; RtlInitUnicodeString( &nameW, wow6432nodeW ); if (NtOpenKeyEx( &ret, MAXIMUM_ALLOWED, &attr, 0 )) ret = 0; return ret; } /* wrapper for NtCreateKey that creates the key recursively if necessary */ static NTSTATUS create_key( HKEY *retkey, ACCESS_MASK access, OBJECT_ATTRIBUTES *attr, const UNICODE_STRING *class, ULONG options, PULONG dispos ) { BOOL force_wow32 = is_win64 && (access & KEY_WOW64_32KEY); NTSTATUS status = STATUS_OBJECT_NAME_NOT_FOUND; HANDLE subkey, root = attr->RootDirectory; if (!force_wow32) status = NtCreateKey( &subkey, access, attr, 0, class, options, dispos ); if (status == STATUS_OBJECT_NAME_NOT_FOUND) { static const WCHAR registry_root[] = {'\\','R','e','g','i','s','t','r','y','\\'}; WCHAR *buffer = attr->ObjectName->Buffer; DWORD attrs, pos = 0, i = 0, len = attr->ObjectName->Length / sizeof(WCHAR); UNICODE_STRING str; /* don't try to create registry root */ if (!attr->RootDirectory && len > ARRAY_SIZE( registry_root ) && !wcsnicmp( buffer, registry_root, ARRAY_SIZE( registry_root ))) i += ARRAY_SIZE( registry_root ); while (i < len && buffer[i] != '\\') i++; if (i == len && !force_wow32) return status; attrs = attr->Attributes; attr->ObjectName = &str; for (;;) { str.Buffer = buffer + pos; str.Length = (i - pos) * sizeof(WCHAR); if (force_wow32 && pos) { if (is_wow6432node( &str )) force_wow32 = FALSE; else if ((subkey = open_wow6432node( attr->RootDirectory ))) { if (attr->RootDirectory != root) NtClose( attr->RootDirectory ); attr->RootDirectory = subkey; force_wow32 = FALSE; } } if (i == len) { attr->Attributes = attrs; status = NtCreateKey( &subkey, access, attr, 0, class, options, dispos ); } else { attr->Attributes = attrs & ~OBJ_OPENLINK; status = NtCreateKey( &subkey, access, attr, 0, class, options & ~REG_OPTION_CREATE_LINK, dispos ); } if (attr->RootDirectory != root) NtClose( attr->RootDirectory ); if (status) return status; if (i == len) break; attr->RootDirectory = subkey; while (i < len && buffer[i] == '\\') i++; pos = i; while (i < len && buffer[i] != '\\') i++; } } attr->RootDirectory = subkey; if (force_wow32 && (subkey = open_wow6432node( attr->RootDirectory ))) { if (attr->RootDirectory != root) NtClose( attr->RootDirectory ); attr->RootDirectory = subkey; } *retkey = attr->RootDirectory; return status; } /* wrapper for NtOpenKeyEx to handle Wow6432 nodes */ static NTSTATUS open_key( HKEY *retkey, DWORD options, ACCESS_MASK access, OBJECT_ATTRIBUTES *attr ) { NTSTATUS status; BOOL force_wow32 = is_win64 && (access & KEY_WOW64_32KEY); HANDLE subkey, root = attr->RootDirectory; WCHAR *buffer = attr->ObjectName->Buffer; DWORD pos = 0, i = 0, len = attr->ObjectName->Length / sizeof(WCHAR); UNICODE_STRING str; *retkey = NULL; if (!force_wow32) { if (options & REG_OPTION_OPEN_LINK) attr->Attributes |= OBJ_OPENLINK; return NtOpenKeyEx( (HANDLE *)retkey, access, attr, options ); } if (len && buffer[0] == '\\') return STATUS_OBJECT_PATH_INVALID; while (i < len && buffer[i] != '\\') i++; attr->ObjectName = &str; for (;;) { str.Buffer = buffer + pos; str.Length = (i - pos) * sizeof(WCHAR); if (force_wow32 && pos) { if (is_wow6432node( &str )) force_wow32 = FALSE; else if ((subkey = open_wow6432node( attr->RootDirectory ))) { if (attr->RootDirectory != root) NtClose( attr->RootDirectory ); attr->RootDirectory = subkey; force_wow32 = FALSE; } } if (i == len) { if (options & REG_OPTION_OPEN_LINK) attr->Attributes |= OBJ_OPENLINK; status = NtOpenKeyEx( &subkey, access, attr, options ); } else { if (!(options & REG_OPTION_OPEN_LINK)) attr->Attributes &= ~OBJ_OPENLINK; status = NtOpenKeyEx( &subkey, access, attr, options & ~REG_OPTION_OPEN_LINK ); } if (attr->RootDirectory != root) NtClose( attr->RootDirectory ); if (status) return status; attr->RootDirectory = subkey; if (i == len) break; while (i < len && buffer[i] == '\\') i++; pos = i; while (i < len && buffer[i] != '\\') i++; } if (force_wow32 && (subkey = open_wow6432node( attr->RootDirectory ))) { if (attr->RootDirectory != root) NtClose( attr->RootDirectory ); attr->RootDirectory = subkey; } *retkey = attr->RootDirectory; return status; } /* create one of the HKEY_* special root keys */ static HKEY create_special_root_hkey( HKEY hkey, DWORD access ) { HKEY ret = 0; int idx = HandleToUlong(hkey) - HandleToUlong(HKEY_SPECIAL_ROOT_FIRST); if (HandleToUlong(hkey) == HandleToUlong(HKEY_CURRENT_USER)) { if (RtlOpenCurrentUser( access, (HANDLE *)&hkey )) return 0; TRACE( "HKEY_CURRENT_USER -> %p\n", hkey ); } else { OBJECT_ATTRIBUTES attr; UNICODE_STRING name; attr.Length = sizeof(attr); attr.RootDirectory = 0; attr.ObjectName = &name; attr.Attributes = 0; attr.SecurityDescriptor = NULL; attr.SecurityQualityOfService = NULL; RtlInitUnicodeString( &name, root_key_names[idx] ); if (create_key( &hkey, access, &attr, NULL, 0, NULL )) return 0; TRACE( "%s -> %p\n", debugstr_w(attr.ObjectName->Buffer), hkey ); } if (!cache_disabled[idx] && !(access & (KEY_WOW64_64KEY | KEY_WOW64_32KEY))) { if (!(ret = InterlockedCompareExchangePointer( (void **)&special_root_keys[idx], hkey, 0 ))) ret = hkey; else NtClose( hkey ); /* somebody beat us to it */ } else ret = hkey; return ret; } /* map the hkey from special root to normal key if necessary */ static inline HKEY get_special_root_hkey( HKEY hkey, REGSAM access ) { HKEY ret = hkey; if ((HandleToUlong(hkey) >= HandleToUlong(HKEY_SPECIAL_ROOT_FIRST)) && (HandleToUlong(hkey) <= HandleToUlong(HKEY_SPECIAL_ROOT_LAST))) { REGSAM mask = 0; if (HandleToUlong(hkey) == HandleToUlong(HKEY_CLASSES_ROOT)) mask = KEY_WOW64_32KEY | KEY_WOW64_64KEY; if ((access & mask) || !(ret = special_root_keys[HandleToUlong(hkey) - HandleToUlong(HKEY_SPECIAL_ROOT_FIRST)])) ret = create_special_root_hkey( hkey, MAXIMUM_ALLOWED | (access & mask) ); } return ret; } /****************************************************************************** * RemapPredefinedHandleInternal (kernelbase.@) */ NTSTATUS WINAPI RemapPredefinedHandleInternal( HKEY hkey, HKEY override ) { HKEY old_key; int idx; TRACE("(%p %p)\n", hkey, override); if ((HandleToUlong(hkey) < HandleToUlong(HKEY_SPECIAL_ROOT_FIRST)) || (HandleToUlong(hkey) > HandleToUlong(HKEY_SPECIAL_ROOT_LAST))) return STATUS_INVALID_HANDLE; idx = HandleToUlong(hkey) - HandleToUlong(HKEY_SPECIAL_ROOT_FIRST); if (override) { NTSTATUS status = NtDuplicateObject( GetCurrentProcess(), override, GetCurrentProcess(), (HANDLE *)&override, 0, 0, DUPLICATE_SAME_ACCESS ); if (status) return status; } old_key = InterlockedExchangePointer( (void **)&special_root_keys[idx], override ); if (old_key) NtClose( old_key ); return STATUS_SUCCESS; } /****************************************************************************** * DisablePredefinedHandleTableInternal (kernelbase.@) */ NTSTATUS WINAPI DisablePredefinedHandleTableInternal( HKEY hkey ) { HKEY old_key; int idx; TRACE("(%p)\n", hkey); if ((HandleToUlong(hkey) < HandleToUlong(HKEY_SPECIAL_ROOT_FIRST)) || (HandleToUlong(hkey) > HandleToUlong(HKEY_SPECIAL_ROOT_LAST))) return STATUS_INVALID_HANDLE; idx = HandleToUlong(hkey) - HandleToUlong(HKEY_SPECIAL_ROOT_FIRST); cache_disabled[idx] = TRUE; old_key = InterlockedExchangePointer( (void **)&special_root_keys[idx], NULL ); if (old_key) NtClose( old_key ); return STATUS_SUCCESS; } /****************************************************************************** * RegCreateKeyExW (kernelbase.@) * * See RegCreateKeyExA. */ LSTATUS WINAPI DECLSPEC_HOTPATCH RegCreateKeyExW( HKEY hkey, LPCWSTR name, DWORD reserved, LPWSTR class, DWORD options, REGSAM access, SECURITY_ATTRIBUTES *sa, PHKEY retkey, LPDWORD dispos ) { OBJECT_ATTRIBUTES attr; UNICODE_STRING nameW, classW; if (reserved) return ERROR_INVALID_PARAMETER; if (!(hkey = get_special_root_hkey( hkey, access ))) return ERROR_INVALID_HANDLE; attr.Length = sizeof(attr); attr.RootDirectory = hkey; attr.ObjectName = &nameW; attr.Attributes = 0; attr.SecurityDescriptor = NULL; attr.SecurityQualityOfService = NULL; if (options & REG_OPTION_OPEN_LINK) attr.Attributes |= OBJ_OPENLINK; RtlInitUnicodeString( &nameW, name ); RtlInitUnicodeString( &classW, class ); return RtlNtStatusToDosError( create_key( retkey, access, &attr, &classW, options, dispos ) ); } /****************************************************************************** * RegCreateKeyExA (kernelbase.@) * * Open a registry key, creating it if it doesn't exist. * * PARAMS * hkey [I] Handle of the parent registry key * name [I] Name of the new key to open or create * reserved [I] Reserved, pass 0 * class [I] The object type of the new key * options [I] Flags controlling the key creation (REG_OPTION_* flags from "winnt.h") * access [I] Access level desired * sa [I] Security attributes for the key * retkey [O] Destination for the resulting handle * dispos [O] Receives REG_CREATED_NEW_KEY or REG_OPENED_EXISTING_KEY * * RETURNS * Success: ERROR_SUCCESS. * Failure: A standard Win32 error code. retkey remains untouched. * * FIXME * MAXIMUM_ALLOWED in access mask not supported by server */ LSTATUS WINAPI DECLSPEC_HOTPATCH RegCreateKeyExA( HKEY hkey, LPCSTR name, DWORD reserved, LPSTR class, DWORD options, REGSAM access, SECURITY_ATTRIBUTES *sa, PHKEY retkey, LPDWORD dispos ) { OBJECT_ATTRIBUTES attr; UNICODE_STRING classW; ANSI_STRING nameA, classA; NTSTATUS status; if (reserved) return ERROR_INVALID_PARAMETER; if (!is_version_nt()) { access = MAXIMUM_ALLOWED; /* Win95 ignores the access mask */ if (name && *name == '\\') name++; /* win9x,ME ignores one (and only one) beginning backslash */ } if (!(hkey = get_special_root_hkey( hkey, access ))) return ERROR_INVALID_HANDLE; attr.Length = sizeof(attr); attr.RootDirectory = hkey; attr.ObjectName = &NtCurrentTeb()->StaticUnicodeString; attr.Attributes = 0; attr.SecurityDescriptor = NULL; attr.SecurityQualityOfService = NULL; if (options & REG_OPTION_OPEN_LINK) attr.Attributes |= OBJ_OPENLINK; RtlInitAnsiString( &nameA, name ); RtlInitAnsiString( &classA, class ); if (!(status = RtlAnsiStringToUnicodeString( &NtCurrentTeb()->StaticUnicodeString, &nameA, FALSE ))) { if (!(status = RtlAnsiStringToUnicodeString( &classW, &classA, TRUE ))) { status = create_key( retkey, access, &attr, &classW, options, dispos ); RtlFreeUnicodeString( &classW ); } } return RtlNtStatusToDosError( status ); } /****************************************************************************** * RegOpenKeyExW (kernelbase.@) * * See RegOpenKeyExA. */ LSTATUS WINAPI DECLSPEC_HOTPATCH RegOpenKeyExW( HKEY hkey, LPCWSTR name, DWORD options, REGSAM access, PHKEY retkey ) { OBJECT_ATTRIBUTES attr; UNICODE_STRING nameW; if (retkey && (!name || !name[0]) && (HandleToUlong(hkey) >= HandleToUlong(HKEY_SPECIAL_ROOT_FIRST)) && (HandleToUlong(hkey) <= HandleToUlong(HKEY_SPECIAL_ROOT_LAST))) { *retkey = hkey; return ERROR_SUCCESS; } /* NT+ allows beginning backslash for HKEY_CLASSES_ROOT */ if (HandleToUlong(hkey) == HandleToUlong(HKEY_CLASSES_ROOT) && name && *name == '\\') name++; if (!retkey) return ERROR_INVALID_PARAMETER; if (!(hkey = get_special_root_hkey( hkey, access ))) return ERROR_INVALID_HANDLE; attr.Length = sizeof(attr); attr.RootDirectory = hkey; attr.ObjectName = &nameW; attr.Attributes = 0; attr.SecurityDescriptor = NULL; attr.SecurityQualityOfService = NULL; RtlInitUnicodeString( &nameW, name ); return RtlNtStatusToDosError( open_key( retkey, options, access, &attr ) ); } /****************************************************************************** * RegOpenKeyExA (kernelbase.@) * * Open a registry key. * * PARAMS * hkey [I] Handle of open key * name [I] Name of subkey to open * options [I] Open options (can be set to REG_OPTION_OPEN_LINK) * access [I] Security access mask * retkey [O] Handle to open key * * RETURNS * Success: ERROR_SUCCESS * Failure: A standard Win32 error code. retkey is set to 0. * * NOTES * Unlike RegCreateKeyExA(), this function will not create the key if it * does not exist. */ LSTATUS WINAPI DECLSPEC_HOTPATCH RegOpenKeyExA( HKEY hkey, LPCSTR name, DWORD options, REGSAM access, PHKEY retkey ) { OBJECT_ATTRIBUTES attr; STRING nameA; NTSTATUS status; if (retkey && (!name || !name[0]) && (HandleToUlong(hkey) >= HandleToUlong(HKEY_SPECIAL_ROOT_FIRST)) && (HandleToUlong(hkey) <= HandleToUlong(HKEY_SPECIAL_ROOT_LAST))) { *retkey = hkey; return ERROR_SUCCESS; } if (!is_version_nt()) access = MAXIMUM_ALLOWED; /* Win95 ignores the access mask */ else { /* NT+ allows beginning backslash for HKEY_CLASSES_ROOT */ if (HandleToUlong(hkey) == HandleToUlong(HKEY_CLASSES_ROOT) && name && *name == '\\') name++; } if (!(hkey = get_special_root_hkey( hkey, access ))) return ERROR_INVALID_HANDLE; attr.Length = sizeof(attr); attr.RootDirectory = hkey; attr.ObjectName = &NtCurrentTeb()->StaticUnicodeString; attr.Attributes = 0; attr.SecurityDescriptor = NULL; attr.SecurityQualityOfService = NULL; RtlInitAnsiString( &nameA, name ); if (!(status = RtlAnsiStringToUnicodeString( &NtCurrentTeb()->StaticUnicodeString, &nameA, FALSE ))) { status = open_key( retkey, options, access, &attr ); } return RtlNtStatusToDosError( status ); } /****************************************************************************** * RegOpenCurrentUser (kernelbase.@) * * Get a handle to the HKEY_CURRENT_USER key for the user * the current thread is impersonating. * * PARAMS * access [I] Desired access rights to the key * retkey [O] Handle to the opened key * * RETURNS * Success: ERROR_SUCCESS * Failure: nonzero error code from Winerror.h * * FIXME * This function is supposed to retrieve a handle to the * HKEY_CURRENT_USER for the user the current thread is impersonating. * Since Wine does not currently allow threads to impersonate other users, * this stub should work fine. */ LSTATUS WINAPI RegOpenCurrentUser( REGSAM access, PHKEY retkey ) { void *data[20]; TOKEN_USER *info = (TOKEN_USER *)data; HANDLE token; DWORD len = 0; /* get current user SID */ if (OpenThreadToken( GetCurrentThread(), TOKEN_QUERY, FALSE, &token )) { len = sizeof(data); if (!GetTokenInformation( token, TokenUser, info, len, &len )) len = 0; CloseHandle( token ); } if (!len) { ImpersonateSelf(SecurityIdentification); if (OpenThreadToken(GetCurrentThread(), TOKEN_QUERY, FALSE, &token)) { len = sizeof(data); if (!GetTokenInformation( token, TokenUser, info, len, &len )) len = 0; CloseHandle( token ); } RevertToSelf(); } if (len) { WCHAR buffer[200]; UNICODE_STRING string = { 0, sizeof(buffer), buffer }; RtlConvertSidToUnicodeString( &string, info->User.Sid, FALSE ); return RegOpenKeyExW( HKEY_USERS, string.Buffer, 0, access, retkey ); } return RegOpenKeyExA( HKEY_CURRENT_USER, "", 0, access, retkey ); } /****************************************************************************** * RegEnumKeyExW (kernelbase.@) * * Enumerate subkeys of the specified open registry key. * * PARAMS * hkey [I] Handle to key to enumerate * index [I] Index of subkey to enumerate * name [O] Buffer for subkey name * name_len [O] Size of subkey buffer * reserved [I] Reserved * class [O] Buffer for class string * class_len [O] Size of class buffer * ft [O] Time key last written to * * RETURNS * Success: ERROR_SUCCESS * Failure: System error code. If there are no more subkeys available, the * function returns ERROR_NO_MORE_ITEMS. */ LSTATUS WINAPI RegEnumKeyExW( HKEY hkey, DWORD index, LPWSTR name, LPDWORD name_len, LPDWORD reserved, LPWSTR class, LPDWORD class_len, FILETIME *ft ) { NTSTATUS status; char buffer[256], *buf_ptr = buffer; KEY_NODE_INFORMATION *info = (KEY_NODE_INFORMATION *)buffer; DWORD total_size; TRACE( "(%p,%d,%p,%p(%u),%p,%p,%p,%p)\n", hkey, index, name, name_len, name_len ? *name_len : 0, reserved, class, class_len, ft ); if (reserved) return ERROR_INVALID_PARAMETER; if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; status = NtEnumerateKey( hkey, index, KeyNodeInformation, buffer, sizeof(buffer), &total_size ); while (status == STATUS_BUFFER_OVERFLOW) { /* retry with a dynamically allocated buffer */ if (buf_ptr != buffer) heap_free( buf_ptr ); if (!(buf_ptr = heap_alloc( total_size ))) return ERROR_NOT_ENOUGH_MEMORY; info = (KEY_NODE_INFORMATION *)buf_ptr; status = NtEnumerateKey( hkey, index, KeyNodeInformation, buf_ptr, total_size, &total_size ); } if (!status) { DWORD len = info->NameLength / sizeof(WCHAR); DWORD cls_len = info->ClassLength / sizeof(WCHAR); if (ft) *ft = *(FILETIME *)&info->LastWriteTime; if (len >= *name_len || (class && class_len && (cls_len >= *class_len))) status = STATUS_BUFFER_OVERFLOW; else { *name_len = len; memcpy( name, info->Name, info->NameLength ); name[len] = 0; if (class_len) { *class_len = cls_len; if (class) { memcpy( class, buf_ptr + info->ClassOffset, info->ClassLength ); class[cls_len] = 0; } } } } if (buf_ptr != buffer) heap_free( buf_ptr ); return RtlNtStatusToDosError( status ); } /****************************************************************************** * RegEnumKeyExA (kernelbase.@) * * See RegEnumKeyExW. */ LSTATUS WINAPI RegEnumKeyExA( HKEY hkey, DWORD index, LPSTR name, LPDWORD name_len, LPDWORD reserved, LPSTR class, LPDWORD class_len, FILETIME *ft ) { NTSTATUS status; char buffer[256], *buf_ptr = buffer; KEY_NODE_INFORMATION *info = (KEY_NODE_INFORMATION *)buffer; DWORD total_size; TRACE( "(%p,%d,%p,%p(%u),%p,%p,%p,%p)\n", hkey, index, name, name_len, name_len ? *name_len : 0, reserved, class, class_len, ft ); if (reserved) return ERROR_INVALID_PARAMETER; if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; status = NtEnumerateKey( hkey, index, KeyNodeInformation, buffer, sizeof(buffer), &total_size ); while (status == STATUS_BUFFER_OVERFLOW) { /* retry with a dynamically allocated buffer */ if (buf_ptr != buffer) heap_free( buf_ptr ); if (!(buf_ptr = heap_alloc( total_size ))) return ERROR_NOT_ENOUGH_MEMORY; info = (KEY_NODE_INFORMATION *)buf_ptr; status = NtEnumerateKey( hkey, index, KeyNodeInformation, buf_ptr, total_size, &total_size ); } if (!status) { DWORD len, cls_len; RtlUnicodeToMultiByteSize( &len, info->Name, info->NameLength ); RtlUnicodeToMultiByteSize( &cls_len, (WCHAR *)(buf_ptr + info->ClassOffset), info->ClassLength ); if (ft) *ft = *(FILETIME *)&info->LastWriteTime; if (len >= *name_len || (class && class_len && (cls_len >= *class_len))) status = STATUS_BUFFER_OVERFLOW; else { *name_len = len; RtlUnicodeToMultiByteN( name, len, NULL, info->Name, info->NameLength ); name[len] = 0; if (class_len) { *class_len = cls_len; if (class) { RtlUnicodeToMultiByteN( class, cls_len, NULL, (WCHAR *)(buf_ptr + info->ClassOffset), info->ClassLength ); class[cls_len] = 0; } } } } if (buf_ptr != buffer) heap_free( buf_ptr ); return RtlNtStatusToDosError( status ); } /****************************************************************************** * RegQueryInfoKeyW (kernelbase.@) * * Retrieves information about the specified registry key. * * PARAMS * hkey [I] Handle to key to query * class [O] Buffer for class string * class_len [O] Size of class string buffer * reserved [I] Reserved * subkeys [O] Buffer for number of subkeys * max_subkey [O] Buffer for longest subkey name length * max_class [O] Buffer for longest class string length * values [O] Buffer for number of value entries * max_value [O] Buffer for longest value name length * max_data [O] Buffer for longest value data length * security [O] Buffer for security descriptor length * modif [O] Modification time * * RETURNS * Success: ERROR_SUCCESS * Failure: system error code. * * NOTES * - win95 allows class to be valid and class_len to be NULL * - winnt returns ERROR_INVALID_PARAMETER if class is valid and class_len is NULL * - both allow class to be NULL and class_len to be NULL * (it's hard to test validity, so test !NULL instead) */ LSTATUS WINAPI RegQueryInfoKeyW( HKEY hkey, LPWSTR class, LPDWORD class_len, LPDWORD reserved, LPDWORD subkeys, LPDWORD max_subkey, LPDWORD max_class, LPDWORD values, LPDWORD max_value, LPDWORD max_data, LPDWORD security, FILETIME *modif ) { NTSTATUS status; char buffer[256], *buf_ptr = buffer; KEY_FULL_INFORMATION *info = (KEY_FULL_INFORMATION *)buffer; DWORD total_size; TRACE( "(%p,%p,%d,%p,%p,%p,%p,%p,%p,%p,%p)\n", hkey, class, class_len ? *class_len : 0, reserved, subkeys, max_subkey, values, max_value, max_data, security, modif ); if (class && !class_len && is_version_nt()) return ERROR_INVALID_PARAMETER; if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; status = NtQueryKey( hkey, KeyFullInformation, buffer, sizeof(buffer), &total_size ); if (status && status != STATUS_BUFFER_OVERFLOW) goto done; if (class && class_len && *class_len) { /* retry with a dynamically allocated buffer */ while (status == STATUS_BUFFER_OVERFLOW) { if (buf_ptr != buffer) heap_free( buf_ptr ); if (!(buf_ptr = heap_alloc( total_size ))) return ERROR_NOT_ENOUGH_MEMORY; info = (KEY_FULL_INFORMATION *)buf_ptr; status = NtQueryKey( hkey, KeyFullInformation, buf_ptr, total_size, &total_size ); } if (status) goto done; if (class_len && (info->ClassLength/sizeof(WCHAR) + 1 > *class_len)) { status = STATUS_BUFFER_TOO_SMALL; } else { memcpy( class, buf_ptr + info->ClassOffset, info->ClassLength ); class[info->ClassLength/sizeof(WCHAR)] = 0; } } else status = STATUS_SUCCESS; if (class_len) *class_len = info->ClassLength / sizeof(WCHAR); if (subkeys) *subkeys = info->SubKeys; if (max_subkey) *max_subkey = info->MaxNameLen / sizeof(WCHAR); if (max_class) *max_class = info->MaxClassLen / sizeof(WCHAR); if (values) *values = info->Values; if (max_value) *max_value = info->MaxValueNameLen / sizeof(WCHAR); if (max_data) *max_data = info->MaxValueDataLen; if (modif) *modif = *(FILETIME *)&info->LastWriteTime; if (security) { FIXME( "security argument not supported.\n"); *security = 0; } done: if (buf_ptr != buffer) heap_free( buf_ptr ); return RtlNtStatusToDosError( status ); } /****************************************************************************** * RegQueryInfoKeyA (kernelbase.@) * * Retrieves information about a registry key. * * PARAMS * hKey [I] Handle to an open key. * lpClass [O] Class string of the key. * lpcClass [I/O] size of lpClass. * lpReserved [I] Reserved; must be NULL. * lpcSubKeys [O] Number of subkeys contained by the key. * lpcMaxSubKeyLen [O] Size of the key's subkey with the longest name. * lpcMaxClassLen [O] Size of the longest string specifying a subkey * class in TCHARS. * lpcValues [O] Number of values associated with the key. * lpcMaxValueNameLen [O] Size of the key's longest value name in TCHARS. * lpcMaxValueLen [O] Longest data component among the key's values * lpcbSecurityDescriptor [O] Size of the key's security descriptor. * lpftLastWriteTime [O] FILETIME structure that is the last write time. * * RETURNS * Success: ERROR_SUCCESS * Failure: nonzero error code from Winerror.h */ LSTATUS WINAPI RegQueryInfoKeyA( HKEY hkey, LPSTR class, LPDWORD class_len, LPDWORD reserved, LPDWORD subkeys, LPDWORD max_subkey, LPDWORD max_class, LPDWORD values, LPDWORD max_value, LPDWORD max_data, LPDWORD security, FILETIME *modif ) { NTSTATUS status; char buffer[256], *buf_ptr = buffer; KEY_FULL_INFORMATION *info = (KEY_FULL_INFORMATION *)buffer; DWORD total_size, len; TRACE( "(%p,%p,%d,%p,%p,%p,%p,%p,%p,%p,%p)\n", hkey, class, class_len ? *class_len : 0, reserved, subkeys, max_subkey, values, max_value, max_data, security, modif ); if (class && !class_len && is_version_nt()) return ERROR_INVALID_PARAMETER; if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; status = NtQueryKey( hkey, KeyFullInformation, buffer, sizeof(buffer), &total_size ); if (status && status != STATUS_BUFFER_OVERFLOW) goto done; if (class || class_len) { /* retry with a dynamically allocated buffer */ while (status == STATUS_BUFFER_OVERFLOW) { if (buf_ptr != buffer) heap_free( buf_ptr ); if (!(buf_ptr = heap_alloc( total_size ))) return ERROR_NOT_ENOUGH_MEMORY; info = (KEY_FULL_INFORMATION *)buf_ptr; status = NtQueryKey( hkey, KeyFullInformation, buf_ptr, total_size, &total_size ); } if (status) goto done; len = 0; if (class && class_len) len = *class_len; RtlUnicodeToMultiByteN( class, len, class_len, (WCHAR *)(buf_ptr + info->ClassOffset), info->ClassLength ); if (len) { if (*class_len + 1 > len) { status = STATUS_BUFFER_OVERFLOW; *class_len -= 1; } class[*class_len] = 0; } } else status = STATUS_SUCCESS; if (subkeys) *subkeys = info->SubKeys; if (max_subkey) *max_subkey = info->MaxNameLen / sizeof(WCHAR); if (max_class) *max_class = info->MaxClassLen / sizeof(WCHAR); if (values) *values = info->Values; if (max_value) *max_value = info->MaxValueNameLen / sizeof(WCHAR); if (max_data) *max_data = info->MaxValueDataLen; if (modif) *modif = *(FILETIME *)&info->LastWriteTime; if (security) { FIXME( "security argument not supported.\n"); *security = 0; } done: if (buf_ptr != buffer) heap_free( buf_ptr ); return RtlNtStatusToDosError( status ); } /****************************************************************************** * RegCloseKey (kernelbase.@) * * Close an open registry key. * * PARAMS * hkey [I] Handle of key to close * * RETURNS * Success: ERROR_SUCCESS * Failure: Error code */ LSTATUS WINAPI DECLSPEC_HOTPATCH RegCloseKey( HKEY hkey ) { if (!hkey) return ERROR_INVALID_HANDLE; if (hkey >= (HKEY)0x80000000) return ERROR_SUCCESS; return RtlNtStatusToDosError( NtClose( hkey ) ); } /****************************************************************************** * RegDeleteKeyExW (kernelbase.@) */ LSTATUS WINAPI RegDeleteKeyExW( HKEY hkey, LPCWSTR name, REGSAM access, DWORD reserved ) { DWORD ret; HKEY tmp; if (!name) return ERROR_INVALID_PARAMETER; if (!(hkey = get_special_root_hkey( hkey, access ))) return ERROR_INVALID_HANDLE; access &= KEY_WOW64_64KEY | KEY_WOW64_32KEY; if (!(ret = RegOpenKeyExW( hkey, name, 0, access | DELETE, &tmp ))) { ret = RtlNtStatusToDosError( NtDeleteKey( tmp ) ); RegCloseKey( tmp ); } TRACE("%s ret=%08x\n", debugstr_w(name), ret); return ret; } /****************************************************************************** * RegDeleteKeyExA (kernelbase.@) */ LSTATUS WINAPI RegDeleteKeyExA( HKEY hkey, LPCSTR name, REGSAM access, DWORD reserved ) { DWORD ret; HKEY tmp; if (!name) return ERROR_INVALID_PARAMETER; if (!(hkey = get_special_root_hkey( hkey, access ))) return ERROR_INVALID_HANDLE; access &= KEY_WOW64_64KEY | KEY_WOW64_32KEY; if (!(ret = RegOpenKeyExA( hkey, name, 0, access | DELETE, &tmp ))) { if (!is_version_nt()) /* win95 does recursive key deletes */ { CHAR sub[MAX_PATH]; DWORD len = sizeof(sub); while(!RegEnumKeyExA(tmp, 0, sub, &len, NULL, NULL, NULL, NULL)) { if(RegDeleteKeyExA(tmp, sub, access, reserved)) /* recurse */ break; } } ret = RtlNtStatusToDosError( NtDeleteKey( tmp ) ); RegCloseKey( tmp ); } TRACE("%s ret=%08x\n", debugstr_a(name), ret); return ret; } /****************************************************************************** * RegSetValueExW (kernelbase.@) * * Set the data and contents of a registry value. * * PARAMS * hkey [I] Handle of key to set value for * name [I] Name of value to set * reserved [I] Reserved, must be zero * type [I] Type of the value being set * data [I] The new contents of the value to set * count [I] Size of data * * RETURNS * Success: ERROR_SUCCESS * Failure: Error code */ LSTATUS WINAPI DECLSPEC_HOTPATCH RegSetValueExW( HKEY hkey, LPCWSTR name, DWORD reserved, DWORD type, const BYTE *data, DWORD count ) { UNICODE_STRING nameW; /* no need for version check, not implemented on win9x anyway */ if ((data && ((ULONG_PTR)data >> 16) == 0) || (!data && count)) return ERROR_NOACCESS; if (count && is_string(type)) { LPCWSTR str = (LPCWSTR)data; /* if user forgot to count terminating null, add it (yes NT does this) */ if (str[count / sizeof(WCHAR) - 1] && !str[count / sizeof(WCHAR)]) count += sizeof(WCHAR); } if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; RtlInitUnicodeString( &nameW, name ); return RtlNtStatusToDosError( NtSetValueKey( hkey, &nameW, 0, type, data, count ) ); } /****************************************************************************** * RegSetValueExA (kernelbase.@) * * See RegSetValueExW. * * NOTES * win95 does not care about count for REG_SZ and finds out the len by itself (js) * NT does definitely care (aj) */ LSTATUS WINAPI DECLSPEC_HOTPATCH RegSetValueExA( HKEY hkey, LPCSTR name, DWORD reserved, DWORD type, const BYTE *data, DWORD count ) { ANSI_STRING nameA; UNICODE_STRING nameW; WCHAR *dataW = NULL; NTSTATUS status; if (!is_version_nt()) /* win95 */ { if (type == REG_SZ) { if (!data) return ERROR_INVALID_PARAMETER; count = strlen((const char *)data) + 1; } } else if (count && is_string(type)) { /* if user forgot to count terminating null, add it (yes NT does this) */ if (data[count-1] && !data[count]) count++; } if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; if (is_string( type )) /* need to convert to Unicode */ { DWORD lenW; RtlMultiByteToUnicodeSize( &lenW, (const char *)data, count ); if (!(dataW = heap_alloc( lenW ))) return ERROR_OUTOFMEMORY; RtlMultiByteToUnicodeN( dataW, lenW, NULL, (const char *)data, count ); count = lenW; data = (BYTE *)dataW; } RtlInitAnsiString( &nameA, name ); if (!(status = RtlAnsiStringToUnicodeString( &nameW, &nameA, TRUE ))) { status = NtSetValueKey( hkey, &nameW, 0, type, data, count ); RtlFreeUnicodeString( &nameW ); } heap_free( dataW ); return RtlNtStatusToDosError( status ); } /****************************************************************************** * RegSetKeyValueW (kernelbase.@) */ LONG WINAPI RegSetKeyValueW( HKEY hkey, LPCWSTR subkey, LPCWSTR name, DWORD type, const void *data, DWORD len ) { HKEY hsubkey = NULL; DWORD ret; TRACE("(%p,%s,%s,%d,%p,%d)\n", hkey, debugstr_w(subkey), debugstr_w(name), type, data, len ); if (subkey && subkey[0]) /* need to create the subkey */ { if ((ret = RegCreateKeyExW( hkey, subkey, 0, NULL, REG_OPTION_NON_VOLATILE, KEY_SET_VALUE, NULL, &hsubkey, NULL )) != ERROR_SUCCESS) return ret; hkey = hsubkey; } ret = RegSetValueExW( hkey, name, 0, type, (const BYTE*)data, len ); if (hsubkey) RegCloseKey( hsubkey ); return ret; } /****************************************************************************** * RegSetKeyValueA (kernelbase.@) */ LONG WINAPI RegSetKeyValueA( HKEY hkey, LPCSTR subkey, LPCSTR name, DWORD type, const void *data, DWORD len ) { HKEY hsubkey = NULL; DWORD ret; TRACE("(%p,%s,%s,%d,%p,%d)\n", hkey, debugstr_a(subkey), debugstr_a(name), type, data, len ); if (subkey && subkey[0]) /* need to create the subkey */ { if ((ret = RegCreateKeyExA( hkey, subkey, 0, NULL, REG_OPTION_NON_VOLATILE, KEY_SET_VALUE, NULL, &hsubkey, NULL )) != ERROR_SUCCESS) return ret; hkey = hsubkey; } ret = RegSetValueExA( hkey, name, 0, type, (const BYTE*)data, len ); if (hsubkey) RegCloseKey( hsubkey ); return ret; } struct perf_provider { HMODULE perflib; WCHAR linkage[MAX_PATH]; WCHAR objects[MAX_PATH]; PM_OPEN_PROC *pOpen; PM_CLOSE_PROC *pClose; PM_COLLECT_PROC *pCollect; }; static void *get_provider_entry(HKEY perf, HMODULE perflib, const char *name) { char buf[MAX_PATH]; DWORD err, type, len; len = sizeof(buf) - 1; err = RegQueryValueExA(perf, name, NULL, &type, (BYTE *)buf, &len); if (err != ERROR_SUCCESS || type != REG_SZ) return NULL; buf[len] = 0; TRACE("Loading function pointer for %s: %s\n", name, debugstr_a(buf)); return GetProcAddress(perflib, buf); } static BOOL load_provider(HKEY root, const WCHAR *name, struct perf_provider *provider) { static const WCHAR object_listW[] = { 'O','b','j','e','c','t',' ','L','i','s','t',0 }; static const WCHAR performanceW[] = { 'P','e','r','f','o','r','m','a','n','c','e',0 }; static const WCHAR libraryW[] = { 'L','i','b','r','a','r','y',0 }; static const WCHAR linkageW[] = { 'L','i','n','k','a','g','e',0 }; static const WCHAR exportW[] = { 'E','x','p','o','r','t',0 }; WCHAR buf[MAX_PATH], buf2[MAX_PATH]; DWORD err, type, len; HKEY service, perf; err = RegOpenKeyExW(root, name, 0, KEY_READ, &service); if (err != ERROR_SUCCESS) return FALSE; provider->linkage[0] = 0; err = RegOpenKeyExW(service, linkageW, 0, KEY_READ, &perf); if (err == ERROR_SUCCESS) { len = sizeof(buf) - sizeof(WCHAR); err = RegQueryValueExW(perf, exportW, NULL, &type, (BYTE *)buf, &len); if (err == ERROR_SUCCESS && (type == REG_SZ || type == REG_MULTI_SZ)) { memcpy(provider->linkage, buf, len); provider->linkage[len / sizeof(WCHAR)] = 0; TRACE("Export: %s\n", debugstr_w(provider->linkage)); } RegCloseKey(perf); } err = RegOpenKeyExW(service, performanceW, 0, KEY_READ, &perf); RegCloseKey(service); if (err != ERROR_SUCCESS) return FALSE; provider->objects[0] = 0; len = sizeof(buf) - sizeof(WCHAR); err = RegQueryValueExW(perf, object_listW, NULL, &type, (BYTE *)buf, &len); if (err == ERROR_SUCCESS && (type == REG_SZ || type == REG_MULTI_SZ)) { memcpy(provider->objects, buf, len); provider->objects[len / sizeof(WCHAR)] = 0; TRACE("Object List: %s\n", debugstr_w(provider->objects)); } len = sizeof(buf) - sizeof(WCHAR); err = RegQueryValueExW(perf, libraryW, NULL, &type, (BYTE *)buf, &len); if (err != ERROR_SUCCESS || !(type == REG_SZ || type == REG_EXPAND_SZ)) goto error; buf[len / sizeof(WCHAR)] = 0; if (type == REG_EXPAND_SZ) { len = ExpandEnvironmentStringsW(buf, buf2, MAX_PATH); if (!len || len > MAX_PATH) goto error; lstrcpyW(buf, buf2); } if (!(provider->perflib = LoadLibraryW(buf))) { WARN("Failed to load %s\n", debugstr_w(buf)); goto error; } GetModuleFileNameW(provider->perflib, buf, MAX_PATH); TRACE("Loaded provider %s\n", wine_dbgstr_w(buf)); provider->pOpen = get_provider_entry(perf, provider->perflib, "Open"); provider->pClose = get_provider_entry(perf, provider->perflib, "Close"); provider->pCollect = get_provider_entry(perf, provider->perflib, "Collect"); if (provider->pOpen && provider->pClose && provider->pCollect) { RegCloseKey(perf); return TRUE; } TRACE("Provider is missing required exports\n"); FreeLibrary(provider->perflib); error: RegCloseKey(perf); return FALSE; } static DWORD collect_data(struct perf_provider *provider, const WCHAR *query, void **data, DWORD *size, DWORD *obj_count) { static const WCHAR globalW[] = { 'G','l','o','b','a','l',0 }; WCHAR *linkage = provider->linkage[0] ? provider->linkage : NULL; DWORD err; if (!query || !query[0]) query = globalW; err = provider->pOpen(linkage); if (err != ERROR_SUCCESS) { TRACE("Open(%s) error %u (%#x)\n", debugstr_w(linkage), err, err); return err; } *obj_count = 0; err = provider->pCollect((WCHAR *)query, data, size, obj_count); if (err != ERROR_SUCCESS) { TRACE("Collect error %u (%#x)\n", err, err); *obj_count = 0; } provider->pClose(); return err; } #define MAX_SERVICE_NAME 260 static DWORD query_perf_data(const WCHAR *query, DWORD *type, void *data, DWORD *ret_size) { static const WCHAR SZ_SERVICES_KEY[] = { 'S','y','s','t','e','m','\\', 'C','u','r','r','e','n','t','C','o','n','t','r','o','l','S','e','t','\\', 'S','e','r','v','i','c','e','s',0 }; DWORD err, i, data_size; HKEY root; PERF_DATA_BLOCK *pdb; if (!ret_size) return ERROR_INVALID_PARAMETER; data_size = *ret_size; *ret_size = 0; if (type) *type = REG_BINARY; if (!data || data_size < sizeof(*pdb)) return ERROR_MORE_DATA; pdb = data; pdb->Signature[0] = 'P'; pdb->Signature[1] = 'E'; pdb->Signature[2] = 'R'; pdb->Signature[3] = 'F'; #ifdef WORDS_BIGENDIAN pdb->LittleEndian = FALSE; #else pdb->LittleEndian = TRUE; #endif pdb->Version = PERF_DATA_VERSION; pdb->Revision = PERF_DATA_REVISION; pdb->TotalByteLength = 0; pdb->HeaderLength = sizeof(*pdb); pdb->NumObjectTypes = 0; pdb->DefaultObject = 0; NtQueryPerformanceCounter( &pdb->PerfTime, &pdb->PerfFreq ); data = pdb + 1; pdb->SystemNameOffset = sizeof(*pdb); pdb->SystemNameLength = (data_size - sizeof(*pdb)) / sizeof(WCHAR); if (!GetComputerNameW(data, &pdb->SystemNameLength)) return ERROR_MORE_DATA; pdb->SystemNameLength++; pdb->SystemNameLength *= sizeof(WCHAR); pdb->HeaderLength += pdb->SystemNameLength; /* align to 8 bytes */ if (pdb->SystemNameLength & 7) pdb->HeaderLength += 8 - (pdb->SystemNameLength & 7); if (data_size < pdb->HeaderLength) return ERROR_MORE_DATA; pdb->TotalByteLength = pdb->HeaderLength; data_size -= pdb->HeaderLength; data = (char *)data + pdb->HeaderLength; err = RegOpenKeyExW(HKEY_LOCAL_MACHINE, SZ_SERVICES_KEY, 0, KEY_READ, &root); if (err != ERROR_SUCCESS) return err; i = 0; for (;;) { DWORD collected_size = data_size, obj_count = 0; struct perf_provider provider; WCHAR name[MAX_SERVICE_NAME]; DWORD len = ARRAY_SIZE( name ); void *collected_data = data; err = RegEnumKeyExW(root, i++, name, &len, NULL, NULL, NULL, NULL); if (err == ERROR_NO_MORE_ITEMS) { err = ERROR_SUCCESS; break; } if (err != ERROR_SUCCESS) continue; if (!load_provider(root, name, &provider)) continue; err = collect_data(&provider, query, &collected_data, &collected_size, &obj_count); FreeLibrary(provider.perflib); if (err == ERROR_MORE_DATA) break; if (err == ERROR_SUCCESS) { PERF_OBJECT_TYPE *obj = (PERF_OBJECT_TYPE *)data; TRACE("Collect: obj->TotalByteLength %u, collected_size %u\n", obj->TotalByteLength, collected_size); data_size -= collected_size; data = collected_data; pdb->TotalByteLength += collected_size; pdb->NumObjectTypes += obj_count; } } RegCloseKey(root); if (err == ERROR_SUCCESS) { *ret_size = pdb->TotalByteLength; GetSystemTime(&pdb->SystemTime); GetSystemTimeAsFileTime((FILETIME *)&pdb->PerfTime100nSec); } return err; } /****************************************************************************** * RegQueryValueExW (kernelbase.@) * * See RegQueryValueExA. */ LSTATUS WINAPI DECLSPEC_HOTPATCH RegQueryValueExW( HKEY hkey, LPCWSTR name, LPDWORD reserved, LPDWORD type, LPBYTE data, LPDWORD count ) { NTSTATUS status; UNICODE_STRING name_str; DWORD total_size; char buffer[256], *buf_ptr = buffer; KEY_VALUE_PARTIAL_INFORMATION *info = (KEY_VALUE_PARTIAL_INFORMATION *)buffer; static const int info_size = offsetof( KEY_VALUE_PARTIAL_INFORMATION, Data ); TRACE("(%p,%s,%p,%p,%p,%p=%d)\n", hkey, debugstr_w(name), reserved, type, data, count, (count && data) ? *count : 0 ); if ((data && !count) || reserved) return ERROR_INVALID_PARAMETER; if (hkey == HKEY_PERFORMANCE_DATA) return query_perf_data(name, type, data, count); if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; RtlInitUnicodeString( &name_str, name ); if (data) total_size = min( sizeof(buffer), *count + info_size ); else { total_size = info_size; if (count) *count = 0; } status = NtQueryValueKey( hkey, &name_str, KeyValuePartialInformation, buffer, total_size, &total_size ); if (status && status != STATUS_BUFFER_OVERFLOW) goto done; if (data) { /* retry with a dynamically allocated buffer */ while (status == STATUS_BUFFER_OVERFLOW && total_size - info_size <= *count) { if (buf_ptr != buffer) heap_free( buf_ptr ); if (!(buf_ptr = heap_alloc( total_size ))) return ERROR_NOT_ENOUGH_MEMORY; info = (KEY_VALUE_PARTIAL_INFORMATION *)buf_ptr; status = NtQueryValueKey( hkey, &name_str, KeyValuePartialInformation, buf_ptr, total_size, &total_size ); } if (!status) { memcpy( data, buf_ptr + info_size, total_size - info_size ); /* if the type is REG_SZ and data is not 0-terminated * and there is enough space in the buffer NT appends a \0 */ if (total_size - info_size <= *count-sizeof(WCHAR) && is_string(info->Type)) { WCHAR *ptr = (WCHAR *)(data + total_size - info_size); if (ptr > (WCHAR *)data && ptr[-1]) *ptr = 0; } } else if (status != STATUS_BUFFER_OVERFLOW) goto done; } else status = STATUS_SUCCESS; if (type) *type = info->Type; if (count) *count = total_size - info_size; done: if (buf_ptr != buffer) heap_free( buf_ptr ); return RtlNtStatusToDosError(status); } /****************************************************************************** * RegQueryValueExA (kernelbase.@) * * Get the type and contents of a specified value under with a key. * * PARAMS * hkey [I] Handle of the key to query * name [I] Name of value under hkey to query * reserved [I] Reserved - must be NULL * type [O] Destination for the value type, or NULL if not required * data [O] Destination for the values contents, or NULL if not required * count [I/O] Size of data, updated with the number of bytes returned * * RETURNS * Success: ERROR_SUCCESS. *count is updated with the number of bytes copied to data. * Failure: ERROR_INVALID_HANDLE, if hkey is invalid. * ERROR_INVALID_PARAMETER, if any other parameter is invalid. * ERROR_MORE_DATA, if on input *count is too small to hold the contents. * * NOTES * MSDN states that if data is too small it is partially filled. In reality * it remains untouched. */ LSTATUS WINAPI DECLSPEC_HOTPATCH RegQueryValueExA( HKEY hkey, LPCSTR name, LPDWORD reserved, LPDWORD type, LPBYTE data, LPDWORD count ) { NTSTATUS status; ANSI_STRING nameA; UNICODE_STRING nameW; DWORD total_size, datalen = 0; char buffer[256], *buf_ptr = buffer; KEY_VALUE_PARTIAL_INFORMATION *info = (KEY_VALUE_PARTIAL_INFORMATION *)buffer; static const int info_size = offsetof( KEY_VALUE_PARTIAL_INFORMATION, Data ); TRACE("(%p,%s,%p,%p,%p,%p=%d)\n", hkey, debugstr_a(name), reserved, type, data, count, count ? *count : 0 ); if ((data && !count) || reserved) return ERROR_INVALID_PARAMETER; if (hkey != HKEY_PERFORMANCE_DATA && !(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; if (count) datalen = *count; if (!data && count) *count = 0; /* this matches Win9x behaviour - NT sets *type to a random value */ if (type) *type = REG_NONE; RtlInitAnsiString( &nameA, name ); if ((status = RtlAnsiStringToUnicodeString( &nameW, &nameA, TRUE ))) return RtlNtStatusToDosError(status); if (hkey == HKEY_PERFORMANCE_DATA) { DWORD ret = query_perf_data( nameW.Buffer, type, data, count ); RtlFreeUnicodeString( &nameW ); return ret; } status = NtQueryValueKey( hkey, &nameW, KeyValuePartialInformation, buffer, sizeof(buffer), &total_size ); if (status && status != STATUS_BUFFER_OVERFLOW) goto done; /* we need to fetch the contents for a string type even if not requested, * because we need to compute the length of the ASCII string. */ if (data || is_string(info->Type)) { /* retry with a dynamically allocated buffer */ while (status == STATUS_BUFFER_OVERFLOW) { if (buf_ptr != buffer) heap_free( buf_ptr ); if (!(buf_ptr = heap_alloc( total_size ))) { status = STATUS_NO_MEMORY; goto done; } info = (KEY_VALUE_PARTIAL_INFORMATION *)buf_ptr; status = NtQueryValueKey( hkey, &nameW, KeyValuePartialInformation, buf_ptr, total_size, &total_size ); } if (status) goto done; if (is_string(info->Type)) { DWORD len; RtlUnicodeToMultiByteSize( &len, (WCHAR *)(buf_ptr + info_size), total_size - info_size ); if (data && len) { if (len > datalen) status = STATUS_BUFFER_OVERFLOW; else { RtlUnicodeToMultiByteN( (char*)data, len, NULL, (WCHAR *)(buf_ptr + info_size), total_size - info_size ); /* if the type is REG_SZ and data is not 0-terminated * and there is enough space in the buffer NT appends a \0 */ if (len < datalen && data[len-1]) data[len] = 0; } } total_size = len + info_size; } else if (data) { if (total_size - info_size > datalen) status = STATUS_BUFFER_OVERFLOW; else memcpy( data, buf_ptr + info_size, total_size - info_size ); } } else status = STATUS_SUCCESS; if (type) *type = info->Type; if (count) *count = total_size - info_size; done: if (buf_ptr != buffer) heap_free( buf_ptr ); RtlFreeUnicodeString( &nameW ); return RtlNtStatusToDosError(status); } /****************************************************************************** * apply_restrictions [internal] * * Helper function for RegGetValueA/W. */ static void apply_restrictions( DWORD dwFlags, DWORD dwType, DWORD cbData, PLONG ret ) { /* Check if the type is restricted by the passed flags */ if (*ret == ERROR_SUCCESS || *ret == ERROR_MORE_DATA) { DWORD dwMask = 0; switch (dwType) { case REG_NONE: dwMask = RRF_RT_REG_NONE; break; case REG_SZ: dwMask = RRF_RT_REG_SZ; break; case REG_EXPAND_SZ: dwMask = RRF_RT_REG_EXPAND_SZ; break; case REG_MULTI_SZ: dwMask = RRF_RT_REG_MULTI_SZ; break; case REG_BINARY: dwMask = RRF_RT_REG_BINARY; break; case REG_DWORD: dwMask = RRF_RT_REG_DWORD; break; case REG_QWORD: dwMask = RRF_RT_REG_QWORD; break; } if (dwFlags & dwMask) { /* Type is not restricted, check for size mismatch */ if (dwType == REG_BINARY) { DWORD cbExpect = 0; if ((dwFlags & RRF_RT_ANY) == RRF_RT_DWORD) cbExpect = 4; else if ((dwFlags & RRF_RT_ANY) == RRF_RT_QWORD) cbExpect = 8; if (cbExpect && cbData != cbExpect) *ret = ERROR_DATATYPE_MISMATCH; } } else *ret = ERROR_UNSUPPORTED_TYPE; } } /****************************************************************************** * RegGetValueW (kernelbase.@) * * Retrieves the type and data for a value name associated with a key, * optionally expanding its content and restricting its type. * * PARAMS * hKey [I] Handle to an open key. * pszSubKey [I] Name of the subkey of hKey. * pszValue [I] Name of value under hKey/szSubKey to query. * dwFlags [I] Flags restricting the value type to retrieve. * pdwType [O] Destination for the values type, may be NULL. * pvData [O] Destination for the values content, may be NULL. * pcbData [I/O] Size of pvData, updated with the size in bytes required to * retrieve the whole content, including the trailing '\0' * for strings. * * RETURNS * Success: ERROR_SUCCESS * Failure: nonzero error code from Winerror.h * * NOTES * - Unless RRF_NOEXPAND is specified, REG_EXPAND_SZ values are automatically * expanded and pdwType is set to REG_SZ instead. * - Restrictions are applied after expanding, using RRF_RT_REG_EXPAND_SZ * without RRF_NOEXPAND is thus not allowed. * An exception is the case where RRF_RT_ANY is specified, because then * RRF_NOEXPAND is allowed. */ LSTATUS WINAPI RegGetValueW( HKEY hKey, LPCWSTR pszSubKey, LPCWSTR pszValue, DWORD dwFlags, LPDWORD pdwType, PVOID pvData, LPDWORD pcbData ) { DWORD dwType, cbData = (pvData && pcbData) ? *pcbData : 0; PVOID pvBuf = NULL; LONG ret; TRACE("(%p,%s,%s,%d,%p,%p,%p=%d)\n", hKey, debugstr_w(pszSubKey), debugstr_w(pszValue), dwFlags, pdwType, pvData, pcbData, cbData); if (pvData && !pcbData) return ERROR_INVALID_PARAMETER; if ((dwFlags & RRF_RT_REG_EXPAND_SZ) && !(dwFlags & RRF_NOEXPAND) && ((dwFlags & RRF_RT_ANY) != RRF_RT_ANY)) return ERROR_INVALID_PARAMETER; if (pszSubKey && pszSubKey[0]) { ret = RegOpenKeyExW(hKey, pszSubKey, 0, KEY_QUERY_VALUE, &hKey); if (ret != ERROR_SUCCESS) return ret; } ret = RegQueryValueExW(hKey, pszValue, NULL, &dwType, pvData, &cbData); /* If we are going to expand we need to read in the whole the value even * if the passed buffer was too small as the expanded string might be * smaller than the unexpanded one and could fit into cbData bytes. */ if ((ret == ERROR_SUCCESS || ret == ERROR_MORE_DATA) && dwType == REG_EXPAND_SZ && !(dwFlags & RRF_NOEXPAND)) { do { heap_free(pvBuf); pvBuf = heap_alloc(cbData); if (!pvBuf) { ret = ERROR_NOT_ENOUGH_MEMORY; break; } if (ret == ERROR_MORE_DATA || !pvData) ret = RegQueryValueExW(hKey, pszValue, NULL, &dwType, pvBuf, &cbData); else { /* Even if cbData was large enough we have to copy the * string since ExpandEnvironmentStrings can't handle * overlapping buffers. */ CopyMemory(pvBuf, pvData, cbData); } /* Both the type or the value itself could have been modified in * between so we have to keep retrying until the buffer is large * enough or we no longer have to expand the value. */ } while (dwType == REG_EXPAND_SZ && ret == ERROR_MORE_DATA); if (ret == ERROR_SUCCESS) { /* Recheck dwType in case it changed since the first call */ if (dwType == REG_EXPAND_SZ) { cbData = ExpandEnvironmentStringsW(pvBuf, pvData, pcbData ? *pcbData : 0) * sizeof(WCHAR); dwType = REG_SZ; if(pvData && pcbData && cbData > *pcbData) ret = ERROR_MORE_DATA; } else if (pvData) CopyMemory(pvData, pvBuf, *pcbData); } heap_free(pvBuf); } if (pszSubKey && pszSubKey[0]) RegCloseKey(hKey); apply_restrictions(dwFlags, dwType, cbData, &ret); if (pvData && ret != ERROR_SUCCESS && (dwFlags & RRF_ZEROONFAILURE)) ZeroMemory(pvData, *pcbData); if (pdwType) *pdwType = dwType; if (pcbData) *pcbData = cbData; return ret; } /****************************************************************************** * RegGetValueA (kernelbase.@) * * See RegGetValueW. */ LSTATUS WINAPI RegGetValueA( HKEY hKey, LPCSTR pszSubKey, LPCSTR pszValue, DWORD dwFlags, LPDWORD pdwType, PVOID pvData, LPDWORD pcbData ) { DWORD dwType, cbData = (pvData && pcbData) ? *pcbData : 0; PVOID pvBuf = NULL; LONG ret; TRACE("(%p,%s,%s,%d,%p,%p,%p=%d)\n", hKey, debugstr_a(pszSubKey), debugstr_a(pszValue), dwFlags, pdwType, pvData, pcbData, cbData); if (pvData && !pcbData) return ERROR_INVALID_PARAMETER; if ((dwFlags & RRF_RT_REG_EXPAND_SZ) && !(dwFlags & RRF_NOEXPAND) && ((dwFlags & RRF_RT_ANY) != RRF_RT_ANY)) return ERROR_INVALID_PARAMETER; if (pszSubKey && pszSubKey[0]) { ret = RegOpenKeyExA(hKey, pszSubKey, 0, KEY_QUERY_VALUE, &hKey); if (ret != ERROR_SUCCESS) return ret; } ret = RegQueryValueExA(hKey, pszValue, NULL, &dwType, pvData, &cbData); /* If we are going to expand we need to read in the whole the value even * if the passed buffer was too small as the expanded string might be * smaller than the unexpanded one and could fit into cbData bytes. */ if ((ret == ERROR_SUCCESS || ret == ERROR_MORE_DATA) && dwType == REG_EXPAND_SZ && !(dwFlags & RRF_NOEXPAND)) { do { heap_free(pvBuf); pvBuf = heap_alloc(cbData); if (!pvBuf) { ret = ERROR_NOT_ENOUGH_MEMORY; break; } if (ret == ERROR_MORE_DATA || !pvData) ret = RegQueryValueExA(hKey, pszValue, NULL, &dwType, pvBuf, &cbData); else { /* Even if cbData was large enough we have to copy the * string since ExpandEnvironmentStrings can't handle * overlapping buffers. */ CopyMemory(pvBuf, pvData, cbData); } /* Both the type or the value itself could have been modified in * between so we have to keep retrying until the buffer is large * enough or we no longer have to expand the value. */ } while (dwType == REG_EXPAND_SZ && ret == ERROR_MORE_DATA); if (ret == ERROR_SUCCESS) { /* Recheck dwType in case it changed since the first call */ if (dwType == REG_EXPAND_SZ) { cbData = ExpandEnvironmentStringsA(pvBuf, pvData, pcbData ? *pcbData : 0); dwType = REG_SZ; if(pvData && pcbData && cbData > *pcbData) ret = ERROR_MORE_DATA; } else if (pvData) CopyMemory(pvData, pvBuf, *pcbData); } heap_free(pvBuf); } if (pszSubKey && pszSubKey[0]) RegCloseKey(hKey); apply_restrictions(dwFlags, dwType, cbData, &ret); if (pvData && ret != ERROR_SUCCESS && (dwFlags & RRF_ZEROONFAILURE)) ZeroMemory(pvData, *pcbData); if (pdwType) *pdwType = dwType; if (pcbData) *pcbData = cbData; return ret; } /****************************************************************************** * RegEnumValueW (kernelbase.@) * * Enumerates the values for the specified open registry key. * * PARAMS * hkey [I] Handle to key to query * index [I] Index of value to query * value [O] Value string * val_count [I/O] Size of value buffer (in wchars) * reserved [I] Reserved * type [O] Type code * data [O] Value data * count [I/O] Size of data buffer (in bytes) * * RETURNS * Success: ERROR_SUCCESS * Failure: nonzero error code from Winerror.h */ LSTATUS WINAPI RegEnumValueW( HKEY hkey, DWORD index, LPWSTR value, LPDWORD val_count, LPDWORD reserved, LPDWORD type, LPBYTE data, LPDWORD count ) { NTSTATUS status; DWORD total_size; char buffer[256], *buf_ptr = buffer; KEY_VALUE_FULL_INFORMATION *info = (KEY_VALUE_FULL_INFORMATION *)buffer; static const int info_size = offsetof( KEY_VALUE_FULL_INFORMATION, Name ); TRACE("(%p,%d,%p,%p,%p,%p,%p,%p)\n", hkey, index, value, val_count, reserved, type, data, count ); if ((data && !count) || reserved || !value || !val_count) return ERROR_INVALID_PARAMETER; if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; total_size = info_size + (MAX_PATH + 1) * sizeof(WCHAR); if (data) total_size += *count; total_size = min( sizeof(buffer), total_size ); status = NtEnumerateValueKey( hkey, index, KeyValueFullInformation, buffer, total_size, &total_size ); /* retry with a dynamically allocated buffer */ while (status == STATUS_BUFFER_OVERFLOW) { if (buf_ptr != buffer) heap_free( buf_ptr ); if (!(buf_ptr = heap_alloc( total_size ))) return ERROR_NOT_ENOUGH_MEMORY; info = (KEY_VALUE_FULL_INFORMATION *)buf_ptr; status = NtEnumerateValueKey( hkey, index, KeyValueFullInformation, buf_ptr, total_size, &total_size ); } if (status) goto done; if (info->NameLength/sizeof(WCHAR) >= *val_count) { status = STATUS_BUFFER_OVERFLOW; goto overflow; } memcpy( value, info->Name, info->NameLength ); *val_count = info->NameLength / sizeof(WCHAR); value[*val_count] = 0; if (data) { if (total_size - info->DataOffset > *count) { status = STATUS_BUFFER_OVERFLOW; goto overflow; } memcpy( data, buf_ptr + info->DataOffset, total_size - info->DataOffset ); if (total_size - info->DataOffset <= *count-sizeof(WCHAR) && is_string(info->Type)) { /* if the type is REG_SZ and data is not 0-terminated * and there is enough space in the buffer NT appends a \0 */ WCHAR *ptr = (WCHAR *)(data + total_size - info->DataOffset); if (ptr > (WCHAR *)data && ptr[-1]) *ptr = 0; } } overflow: if (type) *type = info->Type; if (count) *count = info->DataLength; done: if (buf_ptr != buffer) heap_free( buf_ptr ); return RtlNtStatusToDosError(status); } /****************************************************************************** * RegEnumValueA (kernelbase.@) * * See RegEnumValueW. */ LSTATUS WINAPI RegEnumValueA( HKEY hkey, DWORD index, LPSTR value, LPDWORD val_count, LPDWORD reserved, LPDWORD type, LPBYTE data, LPDWORD count ) { NTSTATUS status; DWORD total_size; char buffer[256], *buf_ptr = buffer; KEY_VALUE_FULL_INFORMATION *info = (KEY_VALUE_FULL_INFORMATION *)buffer; static const int info_size = offsetof( KEY_VALUE_FULL_INFORMATION, Name ); TRACE("(%p,%d,%p,%p,%p,%p,%p,%p)\n", hkey, index, value, val_count, reserved, type, data, count ); if ((data && !count) || reserved || !value || !val_count) return ERROR_INVALID_PARAMETER; if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; total_size = info_size + (MAX_PATH + 1) * sizeof(WCHAR); if (data) total_size += *count; total_size = min( sizeof(buffer), total_size ); status = NtEnumerateValueKey( hkey, index, KeyValueFullInformation, buffer, total_size, &total_size ); /* we need to fetch the contents for a string type even if not requested, * because we need to compute the length of the ASCII string. */ /* retry with a dynamically allocated buffer */ while (status == STATUS_BUFFER_OVERFLOW) { if (buf_ptr != buffer) heap_free( buf_ptr ); if (!(buf_ptr = heap_alloc( total_size ))) return ERROR_NOT_ENOUGH_MEMORY; info = (KEY_VALUE_FULL_INFORMATION *)buf_ptr; status = NtEnumerateValueKey( hkey, index, KeyValueFullInformation, buf_ptr, total_size, &total_size ); } if (status) goto done; if (is_string(info->Type)) { DWORD len; RtlUnicodeToMultiByteSize( &len, (WCHAR *)(buf_ptr + info->DataOffset), total_size - info->DataOffset ); if (data && len) { if (len > *count) status = STATUS_BUFFER_OVERFLOW; else { RtlUnicodeToMultiByteN( (char*)data, len, NULL, (WCHAR *)(buf_ptr + info->DataOffset), total_size - info->DataOffset ); /* if the type is REG_SZ and data is not 0-terminated * and there is enough space in the buffer NT appends a \0 */ if (len < *count && data[len-1]) data[len] = 0; } } info->DataLength = len; } else if (data) { if (total_size - info->DataOffset > *count) status = STATUS_BUFFER_OVERFLOW; else memcpy( data, buf_ptr + info->DataOffset, total_size - info->DataOffset ); } if (!status) { DWORD len; RtlUnicodeToMultiByteSize( &len, info->Name, info->NameLength ); if (len >= *val_count) { status = STATUS_BUFFER_OVERFLOW; if (*val_count) { len = *val_count - 1; RtlUnicodeToMultiByteN( value, len, NULL, info->Name, info->NameLength ); value[len] = 0; } } else { RtlUnicodeToMultiByteN( value, len, NULL, info->Name, info->NameLength ); value[len] = 0; *val_count = len; } } if (type) *type = info->Type; if (count) *count = info->DataLength; done: if (buf_ptr != buffer) heap_free( buf_ptr ); return RtlNtStatusToDosError(status); } /****************************************************************************** * RegDeleteValueW (kernelbase.@) * * See RegDeleteValueA. */ LSTATUS WINAPI RegDeleteValueW( HKEY hkey, LPCWSTR name ) { return RegDeleteKeyValueW( hkey, NULL, name ); } /****************************************************************************** * RegDeleteValueA (kernelbase.@) * * Delete a value from the registry. * * PARAMS * hkey [I] Registry handle of the key holding the value * name [I] Name of the value under hkey to delete * * RETURNS * Success: ERROR_SUCCESS * Failure: nonzero error code from Winerror.h */ LSTATUS WINAPI RegDeleteValueA( HKEY hkey, LPCSTR name ) { return RegDeleteKeyValueA( hkey, NULL, name ); } /****************************************************************************** * RegDeleteKeyValueW (kernelbase.@) */ LONG WINAPI RegDeleteKeyValueW( HKEY hkey, LPCWSTR subkey, LPCWSTR name ) { UNICODE_STRING nameW; HKEY hsubkey = 0; LONG ret; if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; if (subkey) { if ((ret = RegOpenKeyExW( hkey, subkey, 0, KEY_SET_VALUE, &hsubkey ))) return ret; hkey = hsubkey; } RtlInitUnicodeString( &nameW, name ); ret = RtlNtStatusToDosError( NtDeleteValueKey( hkey, &nameW ) ); if (hsubkey) RegCloseKey( hsubkey ); return ret; } /****************************************************************************** * RegDeleteKeyValueA (kernelbase.@) */ LONG WINAPI RegDeleteKeyValueA( HKEY hkey, LPCSTR subkey, LPCSTR name ) { UNICODE_STRING nameW; HKEY hsubkey = 0; ANSI_STRING nameA; NTSTATUS status; if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; if (subkey) { LONG ret = RegOpenKeyExA( hkey, subkey, 0, KEY_SET_VALUE, &hsubkey ); if (ret) return ret; hkey = hsubkey; } RtlInitAnsiString( &nameA, name ); if (!(status = RtlAnsiStringToUnicodeString( &nameW, &nameA, TRUE ))) { status = NtDeleteValueKey( hkey, &nameW ); RtlFreeUnicodeString( &nameW ); } if (hsubkey) RegCloseKey( hsubkey ); return RtlNtStatusToDosError( status ); } /****************************************************************************** * RegLoadKeyW (kernelbase.@) * * Create a subkey under HKEY_USERS or HKEY_LOCAL_MACHINE and store * registration information from a specified file into that subkey. * * PARAMS * hkey [I] Handle of open key * subkey [I] Address of name of subkey * filename [I] Address of filename for registry information * * RETURNS * Success: ERROR_SUCCESS * Failure: nonzero error code from Winerror.h */ LSTATUS WINAPI RegLoadKeyW( HKEY hkey, LPCWSTR subkey, LPCWSTR filename ) { OBJECT_ATTRIBUTES destkey, file; UNICODE_STRING subkeyW, filenameW; NTSTATUS status; if (!(hkey = get_special_root_hkey(hkey, 0))) return ERROR_INVALID_HANDLE; destkey.Length = sizeof(destkey); destkey.RootDirectory = hkey; /* root key: HKLM or HKU */ destkey.ObjectName = &subkeyW; /* name of the key */ destkey.Attributes = 0; destkey.SecurityDescriptor = NULL; destkey.SecurityQualityOfService = NULL; RtlInitUnicodeString(&subkeyW, subkey); file.Length = sizeof(file); file.RootDirectory = NULL; file.ObjectName = &filenameW; /* file containing the hive */ file.Attributes = OBJ_CASE_INSENSITIVE; file.SecurityDescriptor = NULL; file.SecurityQualityOfService = NULL; RtlDosPathNameToNtPathName_U(filename, &filenameW, NULL, NULL); status = NtLoadKey(&destkey, &file); RtlFreeUnicodeString(&filenameW); return RtlNtStatusToDosError( status ); } /****************************************************************************** * RegLoadKeyA (kernelbase.@) * * See RegLoadKeyW. */ LSTATUS WINAPI RegLoadKeyA( HKEY hkey, LPCSTR subkey, LPCSTR filename ) { UNICODE_STRING subkeyW, filenameW; STRING subkeyA, filenameA; NTSTATUS status; LONG ret; RtlInitAnsiString(&subkeyA, subkey); RtlInitAnsiString(&filenameA, filename); RtlInitUnicodeString(&subkeyW, NULL); RtlInitUnicodeString(&filenameW, NULL); if (!(status = RtlAnsiStringToUnicodeString(&subkeyW, &subkeyA, TRUE)) && !(status = RtlAnsiStringToUnicodeString(&filenameW, &filenameA, TRUE))) { ret = RegLoadKeyW(hkey, subkeyW.Buffer, filenameW.Buffer); } else ret = RtlNtStatusToDosError(status); RtlFreeUnicodeString(&subkeyW); RtlFreeUnicodeString(&filenameW); return ret; } /****************************************************************************** * RegSaveKeyExW (kernelbase.@) */ LSTATUS WINAPI RegSaveKeyExW( HKEY hkey, LPCWSTR file, SECURITY_ATTRIBUTES *sa, DWORD flags ) { static const WCHAR format[] = {'r','e','g','%','0','4','x','.','t','m','p',0}; WCHAR buffer[MAX_PATH]; int count = 0; LPWSTR nameW; DWORD ret, err; HANDLE handle; TRACE( "(%p,%s,%p)\n", hkey, debugstr_w(file), sa ); if (!file || !*file) return ERROR_INVALID_PARAMETER; if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; err = GetLastError(); GetFullPathNameW( file, ARRAY_SIZE( buffer ), buffer, &nameW ); for (;;) { swprintf( nameW, 16, format, count++ ); handle = CreateFileW( buffer, GENERIC_WRITE, 0, NULL, CREATE_NEW, FILE_ATTRIBUTE_NORMAL, 0 ); if (handle != INVALID_HANDLE_VALUE) break; if ((ret = GetLastError()) != ERROR_FILE_EXISTS) goto done; /* Something gone haywire ? Please report if this happens abnormally */ if (count >= 100) MESSAGE("Wow, we are already fiddling with a temp file %s with an ordinal as high as %d !\nYou might want to delete all corresponding temp files in that directory.\n", debugstr_w(buffer), count); } ret = RtlNtStatusToDosError(NtSaveKey(hkey, handle)); CloseHandle( handle ); if (!ret) { if (!MoveFileExW( buffer, file, MOVEFILE_REPLACE_EXISTING )) { ERR( "Failed to move %s to %s\n", debugstr_w(buffer), debugstr_w(file) ); ret = GetLastError(); } } if (ret) DeleteFileW( buffer ); done: SetLastError( err ); /* restore last error code */ return ret; } /****************************************************************************** * RegSaveKeyExA (kernelbase.@) */ LSTATUS WINAPI RegSaveKeyExA( HKEY hkey, LPCSTR file, SECURITY_ATTRIBUTES *sa, DWORD flags ) { UNICODE_STRING *fileW = &NtCurrentTeb()->StaticUnicodeString; NTSTATUS status; STRING fileA; RtlInitAnsiString(&fileA, file); if ((status = RtlAnsiStringToUnicodeString(fileW, &fileA, FALSE))) return RtlNtStatusToDosError( status ); return RegSaveKeyExW(hkey, fileW->Buffer, sa, flags); } /****************************************************************************** * RegRestoreKeyW (kernelbase.@) * * Read the registry information from a file and copy it over a key. * * PARAMS * hkey [I] Handle of key where restore begins * lpFile [I] Address of filename containing saved tree * dwFlags [I] Optional flags * * RETURNS * Success: ERROR_SUCCESS * Failure: nonzero error code from Winerror.h */ LSTATUS WINAPI RegRestoreKeyW( HKEY hkey, LPCWSTR lpFile, DWORD dwFlags ) { TRACE("(%p,%s,%d)\n",hkey,debugstr_w(lpFile),dwFlags); /* It seems to do this check before the hkey check */ if (!lpFile || !*lpFile) return ERROR_INVALID_PARAMETER; FIXME("(%p,%s,%d): stub\n",hkey,debugstr_w(lpFile),dwFlags); /* Check for file existence */ return ERROR_SUCCESS; } /****************************************************************************** * RegRestoreKeyA (kernelbase.@) * * See RegRestoreKeyW. */ LSTATUS WINAPI RegRestoreKeyA( HKEY hkey, LPCSTR lpFile, DWORD dwFlags ) { UNICODE_STRING lpFileW; LONG ret; RtlCreateUnicodeStringFromAsciiz( &lpFileW, lpFile ); ret = RegRestoreKeyW( hkey, lpFileW.Buffer, dwFlags ); RtlFreeUnicodeString( &lpFileW ); return ret; } /****************************************************************************** * RegUnLoadKeyW (kernelbase.@) * * Unload a registry key and its subkeys from the registry. * * PARAMS * hkey [I] Handle of open key * lpSubKey [I] Address of name of subkey to unload * * RETURNS * Success: ERROR_SUCCESS * Failure: nonzero error code from Winerror.h */ LSTATUS WINAPI RegUnLoadKeyW( HKEY hkey, LPCWSTR lpSubKey ) { DWORD ret; HKEY shkey; OBJECT_ATTRIBUTES attr; UNICODE_STRING subkey; TRACE("(%p,%s)\n",hkey, debugstr_w(lpSubKey)); ret = RegOpenKeyExW( hkey, lpSubKey, 0, MAXIMUM_ALLOWED, &shkey ); if( ret ) return ERROR_INVALID_PARAMETER; RtlInitUnicodeString(&subkey, lpSubKey); InitializeObjectAttributes(&attr, &subkey, OBJ_CASE_INSENSITIVE, shkey, NULL); ret = RtlNtStatusToDosError(NtUnloadKey(&attr)); RegCloseKey(shkey); return ret; } /****************************************************************************** * RegUnLoadKeyA (kernelbase.@) * * See RegUnLoadKeyW. */ LSTATUS WINAPI RegUnLoadKeyA( HKEY hkey, LPCSTR lpSubKey ) { UNICODE_STRING lpSubKeyW; LONG ret; RtlCreateUnicodeStringFromAsciiz( &lpSubKeyW, lpSubKey ); ret = RegUnLoadKeyW( hkey, lpSubKeyW.Buffer ); RtlFreeUnicodeString( &lpSubKeyW ); return ret; } /****************************************************************************** * RegSetKeySecurity (kernelbase.@) * * Set the security of an open registry key. * * PARAMS * hkey [I] Open handle of key to set * SecurityInfo [I] Descriptor contents * pSecurityDesc [I] Address of descriptor for key * * RETURNS * Success: ERROR_SUCCESS * Failure: nonzero error code from Winerror.h */ LSTATUS WINAPI RegSetKeySecurity( HKEY hkey, SECURITY_INFORMATION SecurityInfo, PSECURITY_DESCRIPTOR pSecurityDesc ) { TRACE("(%p,%d,%p)\n",hkey,SecurityInfo,pSecurityDesc); /* It seems to perform this check before the hkey check */ if ((SecurityInfo & OWNER_SECURITY_INFORMATION) || (SecurityInfo & GROUP_SECURITY_INFORMATION) || (SecurityInfo & DACL_SECURITY_INFORMATION) || (SecurityInfo & SACL_SECURITY_INFORMATION)) { /* Param OK */ } else return ERROR_INVALID_PARAMETER; if (!pSecurityDesc) return ERROR_INVALID_PARAMETER; if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; return RtlNtStatusToDosError( NtSetSecurityObject( hkey, SecurityInfo, pSecurityDesc ) ); } /****************************************************************************** * RegGetKeySecurity (kernelbase.@) * * Get a copy of the security descriptor for a given registry key. * * PARAMS * hkey [I] Open handle of key to set * SecurityInformation [I] Descriptor contents * pSecurityDescriptor [O] Address of descriptor for key * lpcbSecurityDescriptor [I/O] Address of size of buffer and description * * RETURNS * Success: ERROR_SUCCESS * Failure: Error code */ LSTATUS WINAPI RegGetKeySecurity( HKEY hkey, SECURITY_INFORMATION SecurityInformation, PSECURITY_DESCRIPTOR pSecurityDescriptor, LPDWORD lpcbSecurityDescriptor ) { TRACE("(%p,%d,%p,%d)\n",hkey,SecurityInformation,pSecurityDescriptor, *lpcbSecurityDescriptor); if (!(hkey = get_special_root_hkey( hkey, 0 ))) return ERROR_INVALID_HANDLE; return RtlNtStatusToDosError( NtQuerySecurityObject( hkey, SecurityInformation, pSecurityDescriptor, *lpcbSecurityDescriptor, lpcbSecurityDescriptor ) ); } /****************************************************************************** * RegFlushKey (kernelbase.@) * * Immediately write a registry key to registry. * * PARAMS * hkey [I] Handle of key to write * * RETURNS * Success: ERROR_SUCCESS * Failure: Error code */ LSTATUS WINAPI RegFlushKey( HKEY hkey ) { hkey = get_special_root_hkey( hkey, 0 ); if (!hkey) return ERROR_INVALID_HANDLE; return RtlNtStatusToDosError( NtFlushKey( hkey ) ); } /****************************************************************************** * RegNotifyChangeKeyValue (kernelbase.@) * * Notify the caller about changes to the attributes or contents of a registry key. * * PARAMS * hkey [I] Handle of key to watch * fWatchSubTree [I] Flag for subkey notification * fdwNotifyFilter [I] Changes to be reported * hEvent [I] Handle of signaled event * fAsync [I] Flag for asynchronous reporting * * RETURNS * Success: ERROR_SUCCESS * Failure: nonzero error code from Winerror.h */ LSTATUS WINAPI RegNotifyChangeKeyValue( HKEY hkey, BOOL fWatchSubTree, DWORD fdwNotifyFilter, HANDLE hEvent, BOOL fAsync ) { NTSTATUS status; IO_STATUS_BLOCK iosb; hkey = get_special_root_hkey( hkey, 0 ); if (!hkey) return ERROR_INVALID_HANDLE; TRACE("(%p,%i,%d,%p,%i)\n", hkey, fWatchSubTree, fdwNotifyFilter, hEvent, fAsync); status = NtNotifyChangeKey( hkey, hEvent, NULL, NULL, &iosb, fdwNotifyFilter, fWatchSubTree, NULL, 0, fAsync); if (status && status != STATUS_PENDING) return RtlNtStatusToDosError( status ); return ERROR_SUCCESS; } /****************************************************************************** * RegOpenUserClassesRoot (kernelbase.@) * * Open the HKEY_CLASSES_ROOT key for a user. * * PARAMS * hToken [I] Handle of token representing the user * dwOptions [I] Reserved, must be 0 * samDesired [I] Desired access rights * phkResult [O] Destination for the resulting key handle * * RETURNS * Success: ERROR_SUCCESS * Failure: nonzero error code from Winerror.h * * NOTES * On Windows 2000 and upwards the HKEY_CLASSES_ROOT key is a view of the * "HKEY_LOCAL_MACHINE\Software\Classes" and the * "HKEY_CURRENT_USER\Software\Classes" keys merged together. */ LSTATUS WINAPI RegOpenUserClassesRoot( HANDLE hToken, DWORD dwOptions, REGSAM samDesired, PHKEY phkResult ) { FIXME("(%p, 0x%x, 0x%x, %p) semi-stub\n", hToken, dwOptions, samDesired, phkResult); *phkResult = HKEY_CLASSES_ROOT; return ERROR_SUCCESS; } static void dump_mui_cache(void) { struct mui_cache_entry *ent; TRACE("---------- MUI Cache ----------\n"); LIST_FOR_EACH_ENTRY( ent, ®_mui_cache, struct mui_cache_entry, entry ) TRACE("entry=%p, %s,-%u [%#x] => %s\n", ent, wine_dbgstr_w(ent->file_name), ent->index, ent->locale, wine_dbgstr_w(ent->text)); } static inline void free_mui_cache_entry(struct mui_cache_entry *ent) { heap_free(ent->file_name); heap_free(ent->text); heap_free(ent); } /* critical section must be held */ static int reg_mui_cache_get(const WCHAR *file_name, UINT index, WCHAR **buffer) { struct mui_cache_entry *ent; TRACE("(%s %u %p)\n", wine_dbgstr_w(file_name), index, buffer); LIST_FOR_EACH_ENTRY(ent, ®_mui_cache, struct mui_cache_entry, entry) { if (ent->index == index && ent->locale == GetThreadLocale() && !wcsicmp(ent->file_name, file_name)) goto found; } return 0; found: /* move to the list head */ if (list_prev(®_mui_cache, &ent->entry)) { list_remove(&ent->entry); list_add_head(®_mui_cache, &ent->entry); } TRACE("=> %s\n", wine_dbgstr_w(ent->text)); *buffer = ent->text; return lstrlenW(ent->text); } /* critical section must be held */ static void reg_mui_cache_put(const WCHAR *file_name, UINT index, const WCHAR *buffer, INT size) { struct mui_cache_entry *ent; TRACE("(%s %u %s %d)\n", wine_dbgstr_w(file_name), index, wine_dbgstr_wn(buffer, size), size); ent = heap_calloc(sizeof(*ent), 1); if (!ent) return; ent->file_name = heap_alloc((lstrlenW(file_name) + 1) * sizeof(WCHAR)); if (!ent->file_name) { free_mui_cache_entry(ent); return; } lstrcpyW(ent->file_name, file_name); ent->index = index; ent->locale = GetThreadLocale(); ent->text = heap_alloc((size + 1) * sizeof(WCHAR)); if (!ent->text) { free_mui_cache_entry(ent); return; } memcpy(ent->text, buffer, size * sizeof(WCHAR)); ent->text[size] = '\0'; TRACE("add %p\n", ent); list_add_head(®_mui_cache, &ent->entry); if (reg_mui_cache_count > REG_MUI_CACHE_SIZE) { ent = LIST_ENTRY( list_tail( ®_mui_cache ), struct mui_cache_entry, entry ); TRACE("freeing %p\n", ent); list_remove(&ent->entry); free_mui_cache_entry(ent); } else reg_mui_cache_count++; if (TRACE_ON(reg)) dump_mui_cache(); return; } static LONG load_mui_string(const WCHAR *file_name, UINT res_id, WCHAR *buffer, INT max_chars, INT *req_chars, DWORD flags) { HMODULE hModule = NULL; WCHAR *string = NULL, *full_name; int size; LONG result; /* Verify the file existence. i.e. We don't rely on PATH variable */ if (GetFileAttributesW(file_name) == INVALID_FILE_ATTRIBUTES) return ERROR_FILE_NOT_FOUND; size = GetFullPathNameW(file_name, 0, NULL, NULL); if (!size) return GetLastError(); full_name = heap_alloc(size * sizeof(WCHAR)); if (!full_name) return ERROR_NOT_ENOUGH_MEMORY; GetFullPathNameW(file_name, size, full_name, NULL); EnterCriticalSection(®_mui_cs); size = reg_mui_cache_get(full_name, res_id, &string); if (!size) { LeaveCriticalSection(®_mui_cs); /* Load the file */ hModule = LoadLibraryExW(full_name, NULL, LOAD_LIBRARY_AS_DATAFILE | LOAD_LIBRARY_AS_IMAGE_RESOURCE); if (!hModule) return GetLastError(); size = LoadStringW(hModule, res_id, (WCHAR *)&string, 0); if (!size) { if (string) result = ERROR_NOT_FOUND; else result = GetLastError(); goto cleanup; } EnterCriticalSection(®_mui_cs); reg_mui_cache_put(full_name, res_id, string, size); LeaveCriticalSection(®_mui_cs); } *req_chars = size + 1; /* If no buffer is given, skip copying. */ if (!buffer) { result = ERROR_MORE_DATA; goto cleanup; } /* Else copy over the string, respecting the buffer size. */ if (size < max_chars) max_chars = size; else { if (flags & REG_MUI_STRING_TRUNCATE) max_chars--; else { result = ERROR_MORE_DATA; goto cleanup; } } if (max_chars >= 0) { memcpy(buffer, string, max_chars * sizeof(WCHAR)); buffer[max_chars] = '\0'; } result = ERROR_SUCCESS; cleanup: if (hModule) FreeLibrary(hModule); else LeaveCriticalSection(®_mui_cs); heap_free(full_name); return result; } /****************************************************************************** * RegLoadMUIStringW (kernelbase.@) * * Load the localized version of a string resource from some PE, respective * id and path of which are given in the registry value in the format * @[path]\dllname,-resourceId * * PARAMS * hKey [I] Key, of which to load the string value from. * pszValue [I] The value to be loaded (Has to be of REG_EXPAND_SZ or REG_SZ type). * pszBuffer [O] Buffer to store the localized string in. * cbBuffer [I] Size of the destination buffer in bytes. * pcbData [O] Number of bytes written to pszBuffer (optional, may be NULL). * dwFlags [I] Truncate output to fit the buffer if REG_MUI_STRING_TRUNCATE. * pszBaseDir [I] Base directory of loading path. If NULL, use the current directory. * * RETURNS * Success: ERROR_SUCCESS, * Failure: nonzero error code from winerror.h */ LSTATUS WINAPI RegLoadMUIStringW(HKEY hKey, LPCWSTR pwszValue, LPWSTR pwszBuffer, DWORD cbBuffer, LPDWORD pcbData, DWORD dwFlags, LPCWSTR pwszBaseDir) { DWORD dwValueType, cbData; LPWSTR pwszTempBuffer = NULL, pwszExpandedBuffer = NULL; LONG result; TRACE("(hKey = %p, pwszValue = %s, pwszBuffer = %p, cbBuffer = %d, pcbData = %p, " "dwFlags = %d, pwszBaseDir = %s)\n", hKey, debugstr_w(pwszValue), pwszBuffer, cbBuffer, pcbData, dwFlags, debugstr_w(pwszBaseDir)); /* Parameter sanity checks. */ if (!hKey || (!pwszBuffer && cbBuffer) || (cbBuffer % sizeof(WCHAR)) || ((dwFlags & REG_MUI_STRING_TRUNCATE) && pcbData) || (dwFlags & ~REG_MUI_STRING_TRUNCATE)) return ERROR_INVALID_PARAMETER; /* Check for value existence and correctness of its type, allocate a buffer and load it. */ result = RegQueryValueExW(hKey, pwszValue, NULL, &dwValueType, NULL, &cbData); if (result != ERROR_SUCCESS) goto cleanup; if (!(dwValueType == REG_SZ || dwValueType == REG_EXPAND_SZ) || !cbData) { result = ERROR_FILE_NOT_FOUND; goto cleanup; } pwszTempBuffer = heap_alloc(cbData); if (!pwszTempBuffer) { result = ERROR_NOT_ENOUGH_MEMORY; goto cleanup; } result = RegQueryValueExW(hKey, pwszValue, NULL, &dwValueType, (LPBYTE)pwszTempBuffer, &cbData); if (result != ERROR_SUCCESS) goto cleanup; /* '@' is the prefix for resource based string entries. */ if (*pwszTempBuffer != '@') { result = ERROR_INVALID_DATA; goto cleanup; } /* Expand environment variables regardless of the type. */ cbData = ExpandEnvironmentStringsW(pwszTempBuffer, NULL, 0) * sizeof(WCHAR); if (!cbData) goto cleanup; pwszExpandedBuffer = heap_alloc(cbData); if (!pwszExpandedBuffer) { result = ERROR_NOT_ENOUGH_MEMORY; goto cleanup; } ExpandEnvironmentStringsW(pwszTempBuffer, pwszExpandedBuffer, cbData / sizeof(WCHAR)); /* Parse the value and load the string. */ { WCHAR *pComma = wcsrchr(pwszExpandedBuffer, ','), *pNewBuffer; const WCHAR backslashW[] = {'\\',0}; UINT uiStringId; DWORD baseDirLen; int reqChars; /* Format of the expanded value is 'path_to_dll,-resId' */ if (!pComma || pComma[1] != '-') { result = ERROR_INVALID_DATA; goto cleanup; } uiStringId = wcstol(pComma+2, NULL, 10); *pComma = '\0'; /* Build a resource dll path. */ baseDirLen = pwszBaseDir ? lstrlenW(pwszBaseDir) : 0; cbData = (baseDirLen + 1 + lstrlenW(pwszExpandedBuffer + 1) + 1) * sizeof(WCHAR); pNewBuffer = heap_realloc(pwszTempBuffer, cbData); if (!pNewBuffer) { result = ERROR_NOT_ENOUGH_MEMORY; goto cleanup; } pwszTempBuffer = pNewBuffer; pwszTempBuffer[0] = '\0'; if (baseDirLen) { lstrcpyW(pwszTempBuffer, pwszBaseDir); if (pwszBaseDir[baseDirLen - 1] != '\\') lstrcatW(pwszTempBuffer, backslashW); } lstrcatW(pwszTempBuffer, pwszExpandedBuffer + 1); /* Load specified string from the file */ reqChars = 0; result = load_mui_string(pwszTempBuffer, uiStringId, pwszBuffer, cbBuffer/sizeof(WCHAR), &reqChars, dwFlags); if (pcbData && (result == ERROR_SUCCESS || result == ERROR_MORE_DATA)) *pcbData = reqChars * sizeof(WCHAR); } cleanup: heap_free(pwszTempBuffer); heap_free(pwszExpandedBuffer); return result; } /****************************************************************************** * RegLoadMUIStringA (kernelbase.@) * * Not implemented on native. */ LSTATUS WINAPI RegLoadMUIStringA(HKEY hKey, LPCSTR pszValue, LPSTR pszBuffer, DWORD cbBuffer, LPDWORD pcbData, DWORD dwFlags, LPCSTR pszBaseDir) { return ERROR_CALL_NOT_IMPLEMENTED; } /****************************************************************************** * RegDeleteTreeW (kernelbase.@) * */ LSTATUS WINAPI RegDeleteTreeW( HKEY hkey, const WCHAR *subkey ) { static const WCHAR emptyW[] = {0}; DWORD name_size, max_name, max_subkey; WCHAR *name_buf = NULL; LONG ret; TRACE( "(%p, %s)\n", hkey, debugstr_w(subkey) ); if (subkey && *subkey) { ret = RegOpenKeyExW( hkey, subkey, 0, KEY_READ, &hkey ); if (ret) return ret; } ret = RegQueryInfoKeyW( hkey, NULL, NULL, NULL, NULL, &max_subkey, NULL, NULL, &max_name, NULL, NULL, NULL ); if (ret) goto cleanup; max_name = max( max_subkey, max_name ) + 1; if (!(name_buf = heap_alloc( max_name * sizeof(WCHAR) ))) { ret = ERROR_NOT_ENOUGH_MEMORY; goto cleanup; } /* Recursively delete subkeys */ for (;;) { name_size = max_name; ret = RegEnumKeyExW( hkey, 0, name_buf, &name_size, NULL, NULL, NULL, NULL ); if (ret == ERROR_NO_MORE_ITEMS) break; if (ret) goto cleanup; ret = RegDeleteTreeW( hkey, name_buf ); if (ret) goto cleanup; } /* Delete the key itself */ if (subkey && *subkey) { ret = RegDeleteKeyExW( hkey, emptyW, 0, 0 ); goto cleanup; } /* Delete values */ for (;;) { name_size = max_name; ret = RegEnumValueW( hkey, 0, name_buf, &name_size, NULL, NULL, NULL, NULL ); if (ret == ERROR_NO_MORE_ITEMS) break; if (ret) goto cleanup; ret = RegDeleteValueW( hkey, name_buf ); if (ret) goto cleanup; } ret = ERROR_SUCCESS; cleanup: heap_free( name_buf ); if (subkey && *subkey) RegCloseKey( hkey ); return ret; } /****************************************************************************** * RegDeleteTreeA (kernelbase.@) * */ LSTATUS WINAPI RegDeleteTreeA( HKEY hkey, const char *subkey ) { UNICODE_STRING subkeyW; LONG ret; if (subkey) RtlCreateUnicodeStringFromAsciiz( &subkeyW, subkey ); else subkeyW.Buffer = NULL; ret = RegDeleteTreeW( hkey, subkeyW.Buffer ); RtlFreeUnicodeString( &subkeyW ); return ret; } /****************************************************************************** * RegCopyTreeW (kernelbase.@) * */ LSTATUS WINAPI RegCopyTreeW( HKEY hsrc, const WCHAR *subkey, HKEY hdst ) { DWORD name_size, max_name; DWORD value_size, max_value; DWORD max_subkey, i, type; WCHAR *name_buf = NULL; BYTE *value_buf = NULL; HKEY hkey; LONG ret; TRACE( "(%p, %s, %p)\n", hsrc, debugstr_w(subkey), hdst ); if (subkey) { ret = RegOpenKeyExW( hsrc, subkey, 0, KEY_READ, &hsrc ); if (ret) return ret; } ret = RegQueryInfoKeyW( hsrc, NULL, NULL, NULL, NULL, &max_subkey, NULL, NULL, &max_name, &max_value, NULL, NULL ); if (ret) goto cleanup; max_name = max( max_subkey, max_name ) + 1; if (!(name_buf = heap_alloc( max_name * sizeof(WCHAR) ))) { ret = ERROR_NOT_ENOUGH_MEMORY; goto cleanup; } if (!(value_buf = heap_alloc( max_value ))) { ret = ERROR_NOT_ENOUGH_MEMORY; goto cleanup; } /* Copy values */ for (i = 0;; i++) { name_size = max_name; value_size = max_value; ret = RegEnumValueW( hsrc, i, name_buf, &name_size, NULL, &type, value_buf, &value_size ); if (ret == ERROR_NO_MORE_ITEMS) break; if (ret) goto cleanup; ret = RegSetValueExW( hdst, name_buf, 0, type, value_buf, value_size ); if (ret) goto cleanup; } /* Recursively copy subkeys */ for (i = 0;; i++) { name_size = max_name; ret = RegEnumKeyExW( hsrc, i, name_buf, &name_size, NULL, NULL, NULL, NULL ); if (ret == ERROR_NO_MORE_ITEMS) break; if (ret) goto cleanup; ret = RegCreateKeyExW( hdst, name_buf, 0, NULL, 0, KEY_WRITE, NULL, &hkey, NULL ); if (ret) goto cleanup; ret = RegCopyTreeW( hsrc, name_buf, hkey ); RegCloseKey( hkey ); if (ret) goto cleanup; } ret = ERROR_SUCCESS; cleanup: heap_free( name_buf ); heap_free( value_buf ); if (subkey) RegCloseKey( hsrc ); return ret; } /****************************************************************************** * RegLoadAppKeyA (kernelbase.@) * */ LSTATUS WINAPI RegLoadAppKeyA(const char *file, HKEY *result, REGSAM sam, DWORD options, DWORD reserved) { FIXME("%s %p %u %u %u: stub\n", wine_dbgstr_a(file), result, sam, options, reserved); if (!file || reserved) return ERROR_INVALID_PARAMETER; *result = (HKEY)0xdeadbeef; return ERROR_SUCCESS; } /****************************************************************************** * RegLoadAppKeyW (kernelbase.@) * */ LSTATUS WINAPI RegLoadAppKeyW(const WCHAR *file, HKEY *result, REGSAM sam, DWORD options, DWORD reserved) { FIXME("%s %p %u %u %u: stub\n", wine_dbgstr_w(file), result, sam, options, reserved); if (!file || reserved) return ERROR_INVALID_PARAMETER; *result = (HKEY)0xdeadbeef; return ERROR_SUCCESS; } /****************************************************************************** * EnumDynamicTimeZoneInformation (kernelbase.@) */ DWORD WINAPI EnumDynamicTimeZoneInformation(const DWORD index, DYNAMIC_TIME_ZONE_INFORMATION *dtzi) { static const WCHAR mui_stdW[] = { 'M','U','I','_','S','t','d',0 }; static const WCHAR mui_dltW[] = { 'M','U','I','_','D','l','t',0 }; WCHAR keyname[ARRAY_SIZE(dtzi->TimeZoneKeyName)]; HKEY time_zones_key, sub_key; LSTATUS ret; DWORD size; struct tz_reg_data { LONG bias; LONG std_bias; LONG dlt_bias; SYSTEMTIME std_date; SYSTEMTIME dlt_date; } tz_data; if (!dtzi) return ERROR_INVALID_PARAMETER; ret = RegOpenKeyExA( HKEY_LOCAL_MACHINE, "Software\\Microsoft\\Windows NT\\CurrentVersion\\Time Zones", 0, KEY_ENUMERATE_SUB_KEYS|KEY_QUERY_VALUE, &time_zones_key ); if (ret) return ret; sub_key = NULL; size = ARRAY_SIZE(keyname); ret = RegEnumKeyExW( time_zones_key, index, keyname, &size, NULL, NULL, NULL, NULL ); if (ret) goto cleanup; ret = RegOpenKeyExW( time_zones_key, keyname, 0, KEY_QUERY_VALUE, &sub_key ); if (ret) goto cleanup; size = sizeof(dtzi->StandardName); ret = RegLoadMUIStringW( sub_key, mui_stdW, dtzi->StandardName, size, NULL, 0, system_dir ); if (ret) goto cleanup; size = sizeof(dtzi->DaylightName); ret = RegLoadMUIStringW( sub_key, mui_dltW, dtzi->DaylightName, size, NULL, 0, system_dir ); if (ret) goto cleanup; size = sizeof(tz_data); ret = RegQueryValueExA( sub_key, "TZI", NULL, NULL, (BYTE*)&tz_data, &size ); if (ret) goto cleanup; dtzi->Bias = tz_data.bias; dtzi->StandardBias = tz_data.std_bias; dtzi->DaylightBias = tz_data.dlt_bias; memcpy( &dtzi->StandardDate, &tz_data.std_date, sizeof(tz_data.std_date) ); memcpy( &dtzi->DaylightDate, &tz_data.dlt_date, sizeof(tz_data.dlt_date) ); lstrcpyW( dtzi->TimeZoneKeyName, keyname ); dtzi->DynamicDaylightTimeDisabled = FALSE; cleanup: if (sub_key) RegCloseKey( sub_key ); RegCloseKey( time_zones_key ); return ret; } struct USKEY { HKEY HKCUstart; /* Start key in CU hive */ HKEY HKCUkey; /* Opened key in CU hive */ HKEY HKLMstart; /* Start key in LM hive */ HKEY HKLMkey; /* Opened key in LM hive */ WCHAR path[MAX_PATH]; }; LONG WINAPI SHRegCreateUSKeyA(LPCSTR path, REGSAM samDesired, HUSKEY relative_key, PHUSKEY new_uskey, DWORD flags) { WCHAR *pathW; LONG ret; TRACE("%s, %#x, %p, %p, %#x\n", debugstr_a(path), samDesired, relative_key, new_uskey, flags); if (path) { INT len = MultiByteToWideChar(CP_ACP, 0, path, -1, NULL, 0); pathW = heap_alloc(len * sizeof(WCHAR)); if (!pathW) return ERROR_NOT_ENOUGH_MEMORY; MultiByteToWideChar(CP_ACP, 0, path, -1, pathW, len); } else pathW = NULL; ret = SHRegCreateUSKeyW(pathW, samDesired, relative_key, new_uskey, flags); HeapFree(GetProcessHeap(), 0, pathW); return ret; } static HKEY reg_duplicate_hkey(HKEY hKey) { HKEY newKey = 0; RegOpenKeyExW(hKey, 0, 0, MAXIMUM_ALLOWED, &newKey); return newKey; } static HKEY reg_get_hkey_from_huskey(HUSKEY hUSKey, BOOL is_hkcu) { struct USKEY *mihk = hUSKey; HKEY test = hUSKey; if (test == HKEY_CLASSES_ROOT || test == HKEY_CURRENT_CONFIG || test == HKEY_CURRENT_USER || test == HKEY_DYN_DATA || test == HKEY_LOCAL_MACHINE || test == HKEY_PERFORMANCE_DATA || test == HKEY_USERS) /* FIXME: need to define for Win2k, ME, XP * (test == HKEY_PERFORMANCE_TEXT) || * (test == HKEY_PERFORMANCE_NLSTEXT) || */ { return test; } return is_hkcu ? mihk->HKCUkey : mihk->HKLMkey; } LONG WINAPI SHRegCreateUSKeyW(const WCHAR *path, REGSAM samDesired, HUSKEY relative_key, PHUSKEY new_uskey, DWORD flags) { LONG ret = ERROR_CALL_NOT_IMPLEMENTED; struct USKEY *ret_key; TRACE("%s, %#x, %p, %p, %#x\n", debugstr_w(path), samDesired, relative_key, new_uskey, flags); if (!new_uskey) return ERROR_INVALID_PARAMETER; *new_uskey = NULL; if (flags & ~SHREGSET_FORCE_HKCU) { FIXME("unsupported flags 0x%08x\n", flags); return ERROR_SUCCESS; } ret_key = heap_alloc_zero(sizeof(*ret_key)); lstrcpynW(ret_key->path, path, ARRAY_SIZE(ret_key->path)); if (relative_key) { ret_key->HKCUstart = reg_duplicate_hkey(reg_get_hkey_from_huskey(relative_key, TRUE)); ret_key->HKLMstart = reg_duplicate_hkey(reg_get_hkey_from_huskey(relative_key, FALSE)); } else { ret_key->HKCUstart = HKEY_CURRENT_USER; ret_key->HKLMstart = HKEY_LOCAL_MACHINE; } if (flags & SHREGSET_FORCE_HKCU) { ret = RegCreateKeyExW(ret_key->HKCUstart, path, 0, NULL, 0, samDesired, NULL, &ret_key->HKCUkey, NULL); if (ret == ERROR_SUCCESS) *new_uskey = ret_key; else heap_free(ret_key); } return ret; } LONG WINAPI SHRegCloseUSKey(HUSKEY hUSKey) { struct USKEY *key = hUSKey; LONG ret = ERROR_SUCCESS; if (!key) return ERROR_INVALID_PARAMETER; if (key->HKCUkey) ret = RegCloseKey(key->HKCUkey); if (key->HKCUstart && key->HKCUstart != HKEY_CURRENT_USER) ret = RegCloseKey(key->HKCUstart); if (key->HKLMkey) ret = RegCloseKey(key->HKLMkey); if (key->HKLMstart && key->HKLMstart != HKEY_LOCAL_MACHINE) ret = RegCloseKey(key->HKLMstart); heap_free(key); return ret; } LONG WINAPI SHRegDeleteEmptyUSKeyA(HUSKEY hUSKey, const char *value, SHREGDEL_FLAGS flags) { FIXME("%p, %s, %#x\n", hUSKey, debugstr_a(value), flags); return ERROR_SUCCESS; } LONG WINAPI SHRegDeleteEmptyUSKeyW(HUSKEY hUSKey, const WCHAR *value, SHREGDEL_FLAGS flags) { FIXME("%p, %s, %#x\n", hUSKey, debugstr_w(value), flags); return ERROR_SUCCESS; } LONG WINAPI SHRegDeleteUSValueA(HUSKEY hUSKey, const char *value, SHREGDEL_FLAGS flags) { FIXME("%p, %s, %#x\n", hUSKey, debugstr_a(value), flags); return ERROR_SUCCESS; } LONG WINAPI SHRegDeleteUSValueW(HUSKEY hUSKey, const WCHAR *value, SHREGDEL_FLAGS flags) { FIXME("%p, %s, %#x\n", hUSKey, debugstr_w(value), flags); return ERROR_SUCCESS; } LONG WINAPI SHRegEnumUSValueA(HUSKEY hUSKey, DWORD index, char *value_name, DWORD *value_name_len, DWORD *type, void *data, DWORD *data_len, SHREGENUM_FLAGS flags) { HKEY dokey; TRACE("%p, %#x, %p, %p, %p, %p, %p, %#x\n", hUSKey, index, value_name, value_name_len, type, data, data_len, flags); if ((flags == SHREGENUM_HKCU || flags == SHREGENUM_DEFAULT) && (dokey = reg_get_hkey_from_huskey(hUSKey, TRUE))) return RegEnumValueA(dokey, index, value_name, value_name_len, NULL, type, data, data_len); if ((flags == SHREGENUM_HKLM || flags == SHREGENUM_DEFAULT) && (dokey = reg_get_hkey_from_huskey(hUSKey, FALSE))) return RegEnumValueA(dokey, index, value_name, value_name_len, NULL, type, data, data_len); FIXME("no support for SHREGENUM_BOTH\n"); return ERROR_INVALID_FUNCTION; } LONG WINAPI SHRegEnumUSValueW(HUSKEY hUSKey, DWORD index, WCHAR *value_name, DWORD *value_name_len, DWORD *type, void *data, DWORD *data_len, SHREGENUM_FLAGS flags) { HKEY dokey; TRACE("%p, %#x, %p, %p, %p, %p, %p, %#x\n", hUSKey, index, value_name, value_name_len, type, data, data_len, flags); if ((flags == SHREGENUM_HKCU || flags == SHREGENUM_DEFAULT) && (dokey = reg_get_hkey_from_huskey(hUSKey, TRUE))) return RegEnumValueW(dokey, index, value_name, value_name_len, NULL, type, data, data_len); if ((flags == SHREGENUM_HKLM || flags == SHREGENUM_DEFAULT) && (dokey = reg_get_hkey_from_huskey(hUSKey, FALSE))) return RegEnumValueW(dokey, index, value_name, value_name_len, NULL, type, data, data_len); FIXME("no support for SHREGENUM_BOTH\n"); return ERROR_INVALID_FUNCTION; } LONG WINAPI SHRegEnumUSKeyA(HUSKEY hUSKey, DWORD index, char *name, DWORD *name_len, SHREGENUM_FLAGS flags) { HKEY dokey; TRACE("%p, %d, %p, %p(%d), %d\n", hUSKey, index, name, name_len, *name_len, flags); if ((flags == SHREGENUM_HKCU || flags == SHREGENUM_DEFAULT) && (dokey = reg_get_hkey_from_huskey(hUSKey, TRUE))) return RegEnumKeyExA(dokey, index, name, name_len, 0, 0, 0, 0); if ((flags == SHREGENUM_HKLM || flags == SHREGENUM_DEFAULT) && (dokey = reg_get_hkey_from_huskey(hUSKey, FALSE))) return RegEnumKeyExA(dokey, index, name, name_len, 0, 0, 0, 0); FIXME("no support for SHREGENUM_BOTH\n"); return ERROR_INVALID_FUNCTION; } LONG WINAPI SHRegEnumUSKeyW(HUSKEY hUSKey, DWORD index, WCHAR *name, DWORD *name_len, SHREGENUM_FLAGS flags) { HKEY dokey; TRACE("%p, %d, %p, %p(%d), %d\n", hUSKey, index, name, name_len, *name_len, flags); if ((flags == SHREGENUM_HKCU || flags == SHREGENUM_DEFAULT) && (dokey = reg_get_hkey_from_huskey(hUSKey, TRUE))) return RegEnumKeyExW(dokey, index, name, name_len, 0, 0, 0, 0); if ((flags == SHREGENUM_HKLM || flags == SHREGENUM_DEFAULT) && (dokey = reg_get_hkey_from_huskey(hUSKey, FALSE))) return RegEnumKeyExW(dokey, index, name, name_len, 0, 0, 0, 0); FIXME("no support for SHREGENUM_BOTH\n"); return ERROR_INVALID_FUNCTION; } LONG WINAPI SHRegOpenUSKeyA(const char *path, REGSAM access_mask, HUSKEY relative_key, HUSKEY *uskey, BOOL ignore_hkcu) { WCHAR pathW[MAX_PATH]; if (path) MultiByteToWideChar(CP_ACP, 0, path, -1, pathW, ARRAY_SIZE(pathW)); return SHRegOpenUSKeyW(path ? pathW : NULL, access_mask, relative_key, uskey, ignore_hkcu); } LONG WINAPI SHRegOpenUSKeyW(const WCHAR *path, REGSAM access_mask, HUSKEY relative_key, HUSKEY *uskey, BOOL ignore_hkcu) { LONG ret2, ret1 = ~ERROR_SUCCESS; struct USKEY *key; TRACE("%s, %#x, %p, %p, %d\n", debugstr_w(path), access_mask, relative_key, uskey, ignore_hkcu); if (uskey) *uskey = NULL; /* Create internal HUSKEY */ key = heap_alloc_zero(sizeof(*key)); lstrcpynW(key->path, path, ARRAY_SIZE(key->path)); if (relative_key) { key->HKCUstart = reg_duplicate_hkey(reg_get_hkey_from_huskey(relative_key, TRUE)); key->HKLMstart = reg_duplicate_hkey(reg_get_hkey_from_huskey(relative_key, FALSE)); /* FIXME: if either of these keys is NULL, create the start key from * the relative keys start+path */ } else { key->HKCUstart = HKEY_CURRENT_USER; key->HKLMstart = HKEY_LOCAL_MACHINE; } if (!ignore_hkcu) { ret1 = RegOpenKeyExW(key->HKCUstart, key->path, 0, access_mask, &key->HKCUkey); if (ret1) key->HKCUkey = 0; } ret2 = RegOpenKeyExW(key->HKLMstart, key->path, 0, access_mask, &key->HKLMkey); if (ret2) key->HKLMkey = 0; if (ret1 || ret2) TRACE("one or more opens failed: HKCU=%d HKLM=%d\n", ret1, ret2); if (ret1 && ret2) { /* Neither open succeeded: fail */ SHRegCloseUSKey(key); return ret2; } TRACE("HUSKEY=%p\n", key); if (uskey) *uskey = key; return ERROR_SUCCESS; } LONG WINAPI SHRegWriteUSValueA(HUSKEY hUSKey, const char *value, DWORD type, void *data, DWORD data_len, DWORD flags) { WCHAR valueW[MAX_PATH]; if (value) MultiByteToWideChar(CP_ACP, 0, value, -1, valueW, ARRAY_SIZE(valueW)); return SHRegWriteUSValueW(hUSKey, value ? valueW : NULL, type, data, data_len, flags); } LONG WINAPI SHRegWriteUSValueW(HUSKEY hUSKey, const WCHAR *value, DWORD type, void *data, DWORD data_len, DWORD flags) { struct USKEY *hKey = hUSKey; LONG ret = ERROR_SUCCESS; DWORD dummy; TRACE("%p, %s, %d, %p, %d, %#x\n", hUSKey, debugstr_w(value), type, data, data_len, flags); if (!hUSKey || IsBadWritePtr(hUSKey, sizeof(struct USKEY)) || !(flags & (SHREGSET_FORCE_HKCU|SHREGSET_FORCE_HKLM))) return ERROR_INVALID_PARAMETER; if (flags & (SHREGSET_FORCE_HKCU | SHREGSET_HKCU)) { if (!hKey->HKCUkey) { /* Create the key */ ret = RegCreateKeyExW(hKey->HKCUstart, hKey->path, 0, NULL, REG_OPTION_NON_VOLATILE, MAXIMUM_ALLOWED, NULL, &hKey->HKCUkey, NULL); TRACE("Creating HKCU key, ret = %d\n", ret); if (ret && (flags & SHREGSET_FORCE_HKCU)) { hKey->HKCUkey = 0; return ret; } } if (!ret) { if ((flags & SHREGSET_FORCE_HKCU) || RegQueryValueExW(hKey->HKCUkey, value, NULL, NULL, NULL, &dummy)) { /* Doesn't exist or we are forcing: Write value */ ret = RegSetValueExW(hKey->HKCUkey, value, 0, type, data, data_len); TRACE("Writing HKCU value, ret = %d\n", ret); } } } if (flags & (SHREGSET_FORCE_HKLM | SHREGSET_HKLM)) { if (!hKey->HKLMkey) { /* Create the key */ ret = RegCreateKeyExW(hKey->HKLMstart, hKey->path, 0, NULL, REG_OPTION_NON_VOLATILE, MAXIMUM_ALLOWED, NULL, &hKey->HKLMkey, NULL); TRACE("Creating HKLM key, ret = %d\n", ret); if (ret && (flags & (SHREGSET_FORCE_HKLM))) { hKey->HKLMkey = 0; return ret; } } if (!ret) { if ((flags & SHREGSET_FORCE_HKLM) || RegQueryValueExW(hKey->HKLMkey, value, NULL, NULL, NULL, &dummy)) { /* Doesn't exist or we are forcing: Write value */ ret = RegSetValueExW(hKey->HKLMkey, value, 0, type, data, data_len); TRACE("Writing HKLM value, ret = %d\n", ret); } } } return ret; } LONG WINAPI SHRegSetUSValueA(const char *subkey, const char *value, DWORD type, void *data, DWORD data_len, DWORD flags) { BOOL ignore_hkcu; HUSKEY hkey; LONG ret; TRACE("%s, %s, %d, %p, %d, %#x\n", debugstr_a(subkey), debugstr_a(value), type, data, data_len, flags); if (!data) return ERROR_INVALID_FUNCTION; ignore_hkcu = !(flags & SHREGSET_HKCU || flags & SHREGSET_FORCE_HKCU); ret = SHRegOpenUSKeyA(subkey, KEY_ALL_ACCESS, 0, &hkey, ignore_hkcu); if (ret == ERROR_SUCCESS) { ret = SHRegWriteUSValueA(hkey, value, type, data, data_len, flags); SHRegCloseUSKey(hkey); } return ret; } LONG WINAPI SHRegSetUSValueW(const WCHAR *subkey, const WCHAR *value, DWORD type, void *data, DWORD data_len, DWORD flags) { BOOL ignore_hkcu; HUSKEY hkey; LONG ret; TRACE("%s, %s, %d, %p, %d, %#x\n", debugstr_w(subkey), debugstr_w(value), type, data, data_len, flags); if (!data) return ERROR_INVALID_FUNCTION; ignore_hkcu = !(flags & SHREGSET_HKCU || flags & SHREGSET_FORCE_HKCU); ret = SHRegOpenUSKeyW(subkey, KEY_ALL_ACCESS, 0, &hkey, ignore_hkcu); if (ret == ERROR_SUCCESS) { ret = SHRegWriteUSValueW(hkey, value, type, data, data_len, flags); SHRegCloseUSKey(hkey); } return ret; } LONG WINAPI SHRegQueryInfoUSKeyA(HUSKEY hUSKey, DWORD *subkeys, DWORD *max_subkey_len, DWORD *values, DWORD *max_value_name_len, SHREGENUM_FLAGS flags) { HKEY dokey; LONG ret; TRACE("%p, %p, %p, %p, %p, %#x\n", hUSKey, subkeys, max_subkey_len, values, max_value_name_len, flags); if ((flags == SHREGENUM_HKCU || flags == SHREGENUM_DEFAULT) && (dokey = reg_get_hkey_from_huskey(hUSKey, TRUE))) { ret = RegQueryInfoKeyA(dokey, 0, 0, 0, subkeys, max_subkey_len, 0, values, max_value_name_len, 0, 0, 0); if (ret == ERROR_SUCCESS || flags == SHREGENUM_HKCU) return ret; } if ((flags == SHREGENUM_HKLM || flags == SHREGENUM_DEFAULT) && (dokey = reg_get_hkey_from_huskey(hUSKey, FALSE))) { return RegQueryInfoKeyA(dokey, 0, 0, 0, subkeys, max_subkey_len, 0, values, max_value_name_len, 0, 0, 0); } return ERROR_INVALID_FUNCTION; } LONG WINAPI SHRegQueryInfoUSKeyW(HUSKEY hUSKey, DWORD *subkeys, DWORD *max_subkey_len, DWORD *values, DWORD *max_value_name_len, SHREGENUM_FLAGS flags) { HKEY dokey; LONG ret; TRACE("%p, %p, %p, %p, %p, %#x\n", hUSKey, subkeys, max_subkey_len, values, max_value_name_len, flags); if ((flags == SHREGENUM_HKCU || flags == SHREGENUM_DEFAULT) && (dokey = reg_get_hkey_from_huskey(hUSKey, TRUE))) { ret = RegQueryInfoKeyW(dokey, 0, 0, 0, subkeys, max_subkey_len, 0, values, max_value_name_len, 0, 0, 0); if (ret == ERROR_SUCCESS || flags == SHREGENUM_HKCU) return ret; } if ((flags == SHREGENUM_HKLM || flags == SHREGENUM_DEFAULT) && (dokey = reg_get_hkey_from_huskey(hUSKey, FALSE))) { return RegQueryInfoKeyW(dokey, 0, 0, 0, subkeys, max_subkey_len, 0, values, max_value_name_len, 0, 0, 0); } return ERROR_INVALID_FUNCTION; } LONG WINAPI SHRegQueryUSValueA(HUSKEY hUSKey, const char *value, DWORD *type, void *data, DWORD *data_len, BOOL ignore_hkcu, void *default_data, DWORD default_data_len) { LONG ret = ~ERROR_SUCCESS; DWORD move_len; HKEY dokey; /* If user wants HKCU, and it exists, then try it */ if (!ignore_hkcu && (dokey = reg_get_hkey_from_huskey(hUSKey, TRUE))) { ret = RegQueryValueExA(dokey, value, 0, type, data, data_len); TRACE("HKCU RegQueryValue returned %d\n", ret); } /* If HKCU did not work and HKLM exists, then try it */ if ((ret != ERROR_SUCCESS) && (dokey = reg_get_hkey_from_huskey(hUSKey, FALSE))) { ret = RegQueryValueExA(dokey, value, 0, type, data, data_len); TRACE("HKLM RegQueryValue returned %d\n", ret); } /* If neither worked, and default data exists, then use it */ if (ret != ERROR_SUCCESS) { if (default_data && default_data_len) { move_len = default_data_len >= *data_len ? *data_len : default_data_len; memmove(data, default_data, move_len); *data_len = move_len; TRACE("setting default data\n"); ret = ERROR_SUCCESS; } } return ret; } LONG WINAPI SHRegQueryUSValueW(HUSKEY hUSKey, const WCHAR *value, DWORD *type, void *data, DWORD *data_len, BOOL ignore_hkcu, void *default_data, DWORD default_data_len) { LONG ret = ~ERROR_SUCCESS; DWORD move_len; HKEY dokey; /* If user wants HKCU, and it exists, then try it */ if (!ignore_hkcu && (dokey = reg_get_hkey_from_huskey(hUSKey, TRUE))) { ret = RegQueryValueExW(dokey, value, 0, type, data, data_len); TRACE("HKCU RegQueryValue returned %d\n", ret); } /* If HKCU did not work and HKLM exists, then try it */ if ((ret != ERROR_SUCCESS) && (dokey = reg_get_hkey_from_huskey(hUSKey, FALSE))) { ret = RegQueryValueExW(dokey, value, 0, type, data, data_len); TRACE("HKLM RegQueryValue returned %d\n", ret); } /* If neither worked, and default data exists, then use it */ if (ret != ERROR_SUCCESS) { if (default_data && default_data_len) { move_len = default_data_len >= *data_len ? *data_len : default_data_len; memmove(data, default_data, move_len); *data_len = move_len; TRACE("setting default data\n"); ret = ERROR_SUCCESS; } } return ret; } LONG WINAPI SHRegGetUSValueA(const char *subkey, const char *value, DWORD *type, void *data, DWORD *data_len, BOOL ignore_hkcu, void *default_data, DWORD default_data_len) { HUSKEY myhuskey; LONG ret; if (!data || !data_len) return ERROR_INVALID_FUNCTION; /* FIXME:wrong*/ TRACE("%s, %s, %d\n", debugstr_a(subkey), debugstr_a(value), *data_len); ret = SHRegOpenUSKeyA(subkey, KEY_QUERY_VALUE, 0, &myhuskey, ignore_hkcu); if (!ret) { ret = SHRegQueryUSValueA(myhuskey, value, type, data, data_len, ignore_hkcu, default_data, default_data_len); SHRegCloseUSKey(myhuskey); } return ret; } LONG WINAPI SHRegGetUSValueW(const WCHAR *subkey, const WCHAR *value, DWORD *type, void *data, DWORD *data_len, BOOL ignore_hkcu, void *default_data, DWORD default_data_len) { HUSKEY myhuskey; LONG ret; if (!data || !data_len) return ERROR_INVALID_FUNCTION; /* FIXME:wrong*/ TRACE("%s, %s, %d\n", debugstr_w(subkey), debugstr_w(value), *data_len); ret = SHRegOpenUSKeyW(subkey, KEY_QUERY_VALUE, 0, &myhuskey, ignore_hkcu); if (!ret) { ret = SHRegQueryUSValueW(myhuskey, value, type, data, data_len, ignore_hkcu, default_data, default_data_len); SHRegCloseUSKey(myhuskey); } return ret; } BOOL WINAPI SHRegGetBoolUSValueA(const char *subkey, const char *value, BOOL ignore_hkcu, BOOL default_value) { BOOL ret = default_value; DWORD type, datalen; char data[10]; TRACE("%s, %s, %d\n", debugstr_a(subkey), debugstr_a(value), ignore_hkcu); datalen = ARRAY_SIZE(data) - 1; if (!SHRegGetUSValueA(subkey, value, &type, data, &datalen, ignore_hkcu, 0, 0)) { switch (type) { case REG_SZ: data[9] = '\0'; if (!lstrcmpiA(data, "YES") || !lstrcmpiA(data, "TRUE")) ret = TRUE; else if (!lstrcmpiA(data, "NO") || !lstrcmpiA(data, "FALSE")) ret = FALSE; break; case REG_DWORD: ret = *(DWORD *)data != 0; break; case REG_BINARY: if (datalen == 1) { ret = !!data[0]; break; } default: FIXME("Unsupported registry data type %d\n", type); ret = FALSE; } TRACE("got value (type=%d), returning %d\n", type, ret); } else TRACE("returning default value %d\n", ret); return ret; } BOOL WINAPI SHRegGetBoolUSValueW(const WCHAR *subkey, const WCHAR *value, BOOL ignore_hkcu, BOOL default_value) { static const WCHAR yesW[]= {'Y','E','S',0}; static const WCHAR trueW[] = {'T','R','U','E',0}; static const WCHAR noW[] = {'N','O',0}; static const WCHAR falseW[] = {'F','A','L','S','E',0}; BOOL ret = default_value; DWORD type, datalen; WCHAR data[10]; TRACE("%s, %s, %d\n", debugstr_w(subkey), debugstr_w(value), ignore_hkcu); datalen = (ARRAY_SIZE(data) - 1) * sizeof(WCHAR); if (!SHRegGetUSValueW(subkey, value, &type, data, &datalen, ignore_hkcu, 0, 0)) { switch (type) { case REG_SZ: data[9] = '\0'; if (!lstrcmpiW(data, yesW) || !lstrcmpiW(data, trueW)) ret = TRUE; else if (!lstrcmpiW(data, noW) || !lstrcmpiW(data, falseW)) ret = FALSE; break; case REG_DWORD: ret = *(DWORD *)data != 0; break; case REG_BINARY: if (datalen == 1) { ret = !!data[0]; break; } default: FIXME("Unsupported registry data type %d\n", type); ret = FALSE; } TRACE("got value (type=%d), returning %d\n", type, ret); } else TRACE("returning default value %d\n", ret); return ret; }