lzma/CPP/Windows/Registry.cpp - nest-cam/4320010/lzma - Git at Google

 // Windows/Registry.cpp

 #include "StdAfx.h"

 #ifndef _UNICODE
 #include "../Common/StringConvert.h"
 #endif
 #include "Registry.h"

 #ifndef _UNICODE
 extern bool g_IsNT;
 #endif

 namespace NWindows {
 namespace NRegistry {

 #define MYASSERT(expr) // _ASSERTE(expr)

 LONG CKey::Create(HKEY parentKey, LPCTSTR keyName,
     LPTSTR keyClass, DWORD options, REGSAM accessMask,
     LPSECURITY_ATTRIBUTES securityAttributes, LPDWORD disposition) throw()
 {
   MYASSERT(parentKey != NULL);
   DWORD dispositionReal;
   HKEY key = NULL;
   LONG res = RegCreateKeyEx(parentKey, keyName, 0, keyClass,
       options, accessMask, securityAttributes, &key, &dispositionReal);
   if (disposition != NULL)
     *disposition = dispositionReal;
   if (res == ERROR_SUCCESS)
   {
     res = Close();
     _object = key;
   }
   return res;
 }

 LONG CKey::Open(HKEY parentKey, LPCTSTR keyName, REGSAM accessMask) throw()
 {
   MYASSERT(parentKey != NULL);
   HKEY key = NULL;
   LONG res = RegOpenKeyEx(parentKey, keyName, 0, accessMask, &key);
   if (res == ERROR_SUCCESS)
   {
     res = Close();
     MYASSERT(res == ERROR_SUCCESS);
     _object = key;
   }
   return res;
 }

 LONG CKey::Close() throw()
 {
   LONG res = ERROR_SUCCESS;
   if (_object != NULL)
   {
     res = RegCloseKey(_object);
     _object = NULL;
   }
   return res;
 }

 // win95, win98: deletes sunkey and all its subkeys
 // winNT to be deleted must not have subkeys
 LONG CKey::DeleteSubKey(LPCTSTR subKeyName) throw()
 {
   MYASSERT(_object != NULL);
   return RegDeleteKey(_object, subKeyName);
 }

 LONG CKey::RecurseDeleteKey(LPCTSTR subKeyName) throw()
 {
   CKey key;
   LONG res = key.Open(_object, subKeyName, KEY_READ | KEY_WRITE);
   if (res != ERROR_SUCCESS)
     return res;
   FILETIME fileTime;
   const UInt32 kBufferSize = MAX_PATH + 1; // 256 in ATL
   DWORD size = kBufferSize;
   TCHAR buffer[kBufferSize];
   while (RegEnumKeyEx(key._object, 0, buffer, &size, NULL, NULL, NULL, &fileTime) == ERROR_SUCCESS)
   {
     res = key.RecurseDeleteKey(buffer);
     if (res != ERROR_SUCCESS)
       return res;
     size = kBufferSize;
   }
   key.Close();
   return DeleteSubKey(subKeyName);
 }


 /////////////////////////
 // Value Functions

 static inline UInt32 BoolToUINT32(bool value) {  return (value ? 1: 0); }
 static inline bool UINT32ToBool(UInt32 value) {  return (value != 0); }


 LONG CKey::DeleteValue(LPCTSTR name) throw()
 {
   MYASSERT(_object != NULL);
   return ::RegDeleteValue(_object, name);
 }

 #ifndef _UNICODE
 LONG CKey::DeleteValue(LPCWSTR name)
 {
   MYASSERT(_object != NULL);
   if (g_IsNT)
     return ::RegDeleteValueW(_object, name);
   return DeleteValue(name == 0 ? 0 : (LPCSTR)GetSystemString(name));
 }
 #endif

 LONG CKey::SetValue(LPCTSTR name, UInt32 value) throw()
 {
   MYASSERT(_object != NULL);
   return RegSetValueEx(_object, name, 0, REG_DWORD,
       (BYTE * const)&value, sizeof(UInt32));
 }

 LONG CKey::SetValue(LPCTSTR name, bool value) throw()
 {
   return SetValue(name, BoolToUINT32(value));
 }

 LONG CKey::SetValue(LPCTSTR name, LPCTSTR value) throw()
 {
   MYASSERT(value != NULL);
   MYASSERT(_object != NULL);
   return RegSetValueEx(_object, name, 0, REG_SZ,
       (const BYTE * )value, (lstrlen(value) + 1) * sizeof(TCHAR));
 }

 /*
 LONG CKey::SetValue(LPCTSTR name, const CSysString &value)
 {
   MYASSERT(value != NULL);
   MYASSERT(_object != NULL);
   return RegSetValueEx(_object, name, NULL, REG_SZ,
       (const BYTE *)(const TCHAR *)value, (value.Len() + 1) * sizeof(TCHAR));
 }
 */

 #ifndef _UNICODE

 LONG CKey::SetValue(LPCWSTR name, LPCWSTR value)
 {
   MYASSERT(value != NULL);
   MYASSERT(_object != NULL);
   if (g_IsNT)
     return RegSetValueExW(_object, name, NULL, REG_SZ,
       (const BYTE * )value, (DWORD)((wcslen(value) + 1) * sizeof(wchar_t)));
   return SetValue(name == 0 ? 0 : (LPCSTR)GetSystemString(name),
     value == 0 ? 0 : (LPCSTR)GetSystemString(value));
 }

 #endif


 LONG CKey::SetValue(LPCTSTR name, const void *value, UInt32 size) throw()
 {
   MYASSERT(value != NULL);
   MYASSERT(_object != NULL);
   return RegSetValueEx(_object, name, 0, REG_BINARY,
       (const BYTE *)value, size);
 }

 LONG SetValue(HKEY parentKey, LPCTSTR keyName, LPCTSTR valueName, LPCTSTR value)
 {
   MYASSERT(value != NULL);
   CKey key;
   LONG res = key.Create(parentKey, keyName);
   if (res == ERROR_SUCCESS)
     res = key.SetValue(valueName, value);
   return res;
 }

 LONG CKey::SetKeyValue(LPCTSTR keyName, LPCTSTR valueName, LPCTSTR value) throw()
 {
   MYASSERT(value != NULL);
   CKey key;
   LONG res = key.Create(_object, keyName);
   if (res == ERROR_SUCCESS)
     res = key.SetValue(valueName, value);
   return res;
 }

 LONG CKey::QueryValue(LPCTSTR name, UInt32 &value) throw()
 {
   DWORD type = 0;
   DWORD count = sizeof(DWORD);
   LONG res = RegQueryValueEx(_object, (LPTSTR)name, NULL, &type,
     (LPBYTE)&value, &count);
   MYASSERT((res != ERROR_SUCCESS) || (type == REG_DWORD));
   MYASSERT((res != ERROR_SUCCESS) || (count == sizeof(UInt32)));
   return res;
 }

 LONG CKey::QueryValue(LPCTSTR name, bool &value) throw()
 {
   UInt32 uintValue = BoolToUINT32(value);
   LONG res = QueryValue(name, uintValue);
   value = UINT32ToBool(uintValue);
   return res;
 }

 LONG CKey::GetValue_IfOk(LPCTSTR name, UInt32 &value) throw()
 {
   UInt32 newVal;
   LONG res = QueryValue(name, newVal);
   if (res == ERROR_SUCCESS)
     value = newVal;
   return res;
 }

 LONG CKey::GetValue_IfOk(LPCTSTR name, bool &value) throw()
 {
   bool newVal;
   LONG res = QueryValue(name, newVal);
   if (res == ERROR_SUCCESS)
     value = newVal;
   return res;
 }

 LONG CKey::QueryValue(LPCTSTR name, LPTSTR value, UInt32 &count) throw()
 {
   MYASSERT(count != NULL);
   DWORD type = 0;
   LONG res = RegQueryValueEx(_object, (LPTSTR)name, NULL, &type, (LPBYTE)value, (DWORD *)&count);
   MYASSERT((res != ERROR_SUCCESS) || (type == REG_SZ) || (type == REG_MULTI_SZ) || (type == REG_EXPAND_SZ));
   return res;
 }

 LONG CKey::QueryValue(LPCTSTR name, CSysString &value)
 {
   value.Empty();
   DWORD type = 0;
   UInt32 currentSize = 0;
   LONG res = RegQueryValueEx(_object, (LPTSTR)name, NULL, &type, NULL, (DWORD *)&currentSize);
   if (res != ERROR_SUCCESS && res != ERROR_MORE_DATA)
     return res;
   res = QueryValue(name, value.GetBuffer(currentSize), currentSize);
   value.ReleaseBuffer();
   return res;
 }

 #ifndef _UNICODE
 LONG CKey::QueryValue(LPCWSTR name, LPWSTR value, UInt32 &count)
 {
   MYASSERT(count != NULL);
   DWORD type = 0;
   LONG res = RegQueryValueExW(_object, name, NULL, &type, (LPBYTE)value, (DWORD *)&count);
   MYASSERT((res != ERROR_SUCCESS) || (type == REG_SZ) || (type == REG_MULTI_SZ) || (type == REG_EXPAND_SZ));
   return res;
 }
 LONG CKey::QueryValue(LPCWSTR name, UString &value)
 {
   value.Empty();
   DWORD type = 0;
   UInt32 currentSize = 0;

   LONG res;
   if (g_IsNT)
   {
     res = RegQueryValueExW(_object, name, NULL, &type, NULL, (DWORD *)&currentSize);
     if (res != ERROR_SUCCESS && res != ERROR_MORE_DATA)
       return res;
     res = QueryValue(name, value.GetBuffer(currentSize), currentSize);
     value.ReleaseBuffer();
   }
   else
   {
     AString vTemp;
     res = QueryValue(name == 0 ? 0 : (LPCSTR)GetSystemString(name), vTemp);
     value = GetUnicodeString(vTemp);
   }
   return res;
 }
 #endif

 LONG CKey::QueryValue(LPCTSTR name, void *value, UInt32 &count) throw()
 {
   DWORD type = 0;
   LONG res = RegQueryValueEx(_object, (LPTSTR)name, NULL, &type, (LPBYTE)value, (DWORD *)&count);
   MYASSERT((res != ERROR_SUCCESS) || (type == REG_BINARY));
   return res;
 }


 LONG CKey::QueryValue(LPCTSTR name, CByteBuffer &value, UInt32 &dataSize)
 {
   DWORD type = 0;
   dataSize = 0;
   LONG res = RegQueryValueEx(_object, (LPTSTR)name, NULL, &type, NULL, (DWORD *)&dataSize);
   if (res != ERROR_SUCCESS && res != ERROR_MORE_DATA)
     return res;
   value.Alloc(dataSize);
   return QueryValue(name, (BYTE *)value, dataSize);
 }

 LONG CKey::EnumKeys(CSysStringVector &keyNames)
 {
   keyNames.Clear();
   CSysString keyName;
   for (UInt32 index = 0; ; index++)
   {
     const UInt32 kBufferSize = MAX_PATH + 1; // 256 in ATL
     FILETIME lastWriteTime;
     UInt32 nameSize = kBufferSize;
     LONG result = ::RegEnumKeyEx(_object, index, keyName.GetBuffer(kBufferSize),
         (DWORD *)&nameSize, NULL, NULL, NULL, &lastWriteTime);
     keyName.ReleaseBuffer();
     if (result == ERROR_NO_MORE_ITEMS)
       break;
     if (result != ERROR_SUCCESS)
       return result;
     keyNames.Add(keyName);
   }
   return ERROR_SUCCESS;
 }

 LONG CKey::SetValue_Strings(LPCTSTR valueName, const UStringVector &strings) throw()
 {
   UInt32 numChars = 0;
   unsigned i;
   for (i = 0; i < strings.Size(); i++)
     numChars += strings[i].Len() + 1;
   CBuffer<wchar_t> buffer(numChars);
   unsigned pos = 0;
   for (i = 0; i < strings.Size(); i++)
   {
     const UString &s = strings[i];
     MyStringCopy((wchar_t *)buffer + pos, (const wchar_t *)s);
     pos += s.Len() + 1;
   }
   return SetValue(valueName, buffer, numChars * sizeof(wchar_t));
 }

 LONG CKey::GetValue_Strings(LPCTSTR valueName, UStringVector &strings)
 {
   strings.Clear();
   CByteBuffer buffer;
   UInt32 dataSize;
   LONG res = QueryValue(valueName, buffer, dataSize);
   if (res != ERROR_SUCCESS)
     return res;
   if (dataSize % sizeof(wchar_t) != 0)
     return E_FAIL;
   const wchar_t *data = (const wchar_t *)(const Byte  *)buffer;
   unsigned numChars = dataSize / sizeof(wchar_t);
   UString s;
   for (unsigned i = 0; i < numChars; i++)
   {
     wchar_t c = data[i];
     if (c == 0)
     {
       strings.Add(s);
       s.Empty();
     }
     else
       s += c;
   }
   return res;
 }

 }}
	// Windows/Registry.cpp

	#include "StdAfx.h"

	#ifndef _UNICODE
	#include "../Common/StringConvert.h"
	#endif
	#include "Registry.h"

	#ifndef _UNICODE
	extern bool g_IsNT;
	#endif

	namespace NWindows {
	namespace NRegistry {

	#define MYASSERT(expr) // _ASSERTE(expr)

	LONG CKey::Create(HKEY parentKey, LPCTSTR keyName,
	LPTSTR keyClass, DWORD options, REGSAM accessMask,
	LPSECURITY_ATTRIBUTES securityAttributes, LPDWORD disposition) throw()
	{
	MYASSERT(parentKey != NULL);
	DWORD dispositionReal;
	HKEY key = NULL;
	LONG res = RegCreateKeyEx(parentKey, keyName, 0, keyClass,
	options, accessMask, securityAttributes, &key, &dispositionReal);
	if (disposition != NULL)
	*disposition = dispositionReal;
	if (res == ERROR_SUCCESS)
	{
	res = Close();
	_object = key;
	}
	return res;
	}

	LONG CKey::Open(HKEY parentKey, LPCTSTR keyName, REGSAM accessMask) throw()
	{
	MYASSERT(parentKey != NULL);
	HKEY key = NULL;
	LONG res = RegOpenKeyEx(parentKey, keyName, 0, accessMask, &key);
	if (res == ERROR_SUCCESS)
	{
	res = Close();
	MYASSERT(res == ERROR_SUCCESS);
	_object = key;
	}
	return res;
	}

	LONG CKey::Close() throw()
	{
	LONG res = ERROR_SUCCESS;
	if (_object != NULL)
	{
	res = RegCloseKey(_object);
	_object = NULL;
	}
	return res;
	}

	// win95, win98: deletes sunkey and all its subkeys
	// winNT to be deleted must not have subkeys
	LONG CKey::DeleteSubKey(LPCTSTR subKeyName) throw()
	{
	MYASSERT(_object != NULL);
	return RegDeleteKey(_object, subKeyName);
	}

	LONG CKey::RecurseDeleteKey(LPCTSTR subKeyName) throw()
	{
	CKey key;
	LONG res = key.Open(_object, subKeyName, KEY_READ \| KEY_WRITE);
	if (res != ERROR_SUCCESS)
	return res;
	FILETIME fileTime;
	const UInt32 kBufferSize = MAX_PATH + 1; // 256 in ATL
	DWORD size = kBufferSize;
	TCHAR buffer[kBufferSize];
	while (RegEnumKeyEx(key._object, 0, buffer, &size, NULL, NULL, NULL, &fileTime) == ERROR_SUCCESS)
	{
	res = key.RecurseDeleteKey(buffer);
	if (res != ERROR_SUCCESS)
	return res;
	size = kBufferSize;
	}
	key.Close();
	return DeleteSubKey(subKeyName);
	}


	/////////////////////////
	// Value Functions

	static inline UInt32 BoolToUINT32(bool value) { return (value ? 1: 0); }
	static inline bool UINT32ToBool(UInt32 value) { return (value != 0); }


	LONG CKey::DeleteValue(LPCTSTR name) throw()
	{
	MYASSERT(_object != NULL);
	return ::RegDeleteValue(_object, name);
	}

	#ifndef _UNICODE
	LONG CKey::DeleteValue(LPCWSTR name)
	{
	MYASSERT(_object != NULL);
	if (g_IsNT)
	return ::RegDeleteValueW(_object, name);
	return DeleteValue(name == 0 ? 0 : (LPCSTR)GetSystemString(name));
	}
	#endif

	LONG CKey::SetValue(LPCTSTR name, UInt32 value) throw()
	{
	MYASSERT(_object != NULL);
	return RegSetValueEx(_object, name, 0, REG_DWORD,
	(BYTE * const)&value, sizeof(UInt32));
	}

	LONG CKey::SetValue(LPCTSTR name, bool value) throw()
	{
	return SetValue(name, BoolToUINT32(value));
	}

	LONG CKey::SetValue(LPCTSTR name, LPCTSTR value) throw()
	{
	MYASSERT(value != NULL);
	MYASSERT(_object != NULL);
	return RegSetValueEx(_object, name, 0, REG_SZ,
	(const BYTE * )value, (lstrlen(value) + 1) * sizeof(TCHAR));
	}

	/*
	LONG CKey::SetValue(LPCTSTR name, const CSysString &value)
	{
	MYASSERT(value != NULL);
	MYASSERT(_object != NULL);
	return RegSetValueEx(_object, name, NULL, REG_SZ,
	(const BYTE )(const TCHAR )value, (value.Len() + 1) * sizeof(TCHAR));
	}
	*/

	#ifndef _UNICODE

	LONG CKey::SetValue(LPCWSTR name, LPCWSTR value)
	{
	MYASSERT(value != NULL);
	MYASSERT(_object != NULL);
	if (g_IsNT)
	return RegSetValueExW(_object, name, NULL, REG_SZ,
	(const BYTE * )value, (DWORD)((wcslen(value) + 1) * sizeof(wchar_t)));
	return SetValue(name == 0 ? 0 : (LPCSTR)GetSystemString(name),
	value == 0 ? 0 : (LPCSTR)GetSystemString(value));
	}

	#endif


	LONG CKey::SetValue(LPCTSTR name, const void *value, UInt32 size) throw()
	{
	MYASSERT(value != NULL);
	MYASSERT(_object != NULL);
	return RegSetValueEx(_object, name, 0, REG_BINARY,
	(const BYTE *)value, size);
	}

	LONG SetValue(HKEY parentKey, LPCTSTR keyName, LPCTSTR valueName, LPCTSTR value)
	{
	MYASSERT(value != NULL);
	CKey key;
	LONG res = key.Create(parentKey, keyName);
	if (res == ERROR_SUCCESS)
	res = key.SetValue(valueName, value);
	return res;
	}

	LONG CKey::SetKeyValue(LPCTSTR keyName, LPCTSTR valueName, LPCTSTR value) throw()
	{
	MYASSERT(value != NULL);
	CKey key;
	LONG res = key.Create(_object, keyName);
	if (res == ERROR_SUCCESS)
	res = key.SetValue(valueName, value);
	return res;
	}

	LONG CKey::QueryValue(LPCTSTR name, UInt32 &value) throw()
	{
	DWORD type = 0;
	DWORD count = sizeof(DWORD);
	LONG res = RegQueryValueEx(_object, (LPTSTR)name, NULL, &type,
	(LPBYTE)&value, &count);
	MYASSERT((res != ERROR_SUCCESS) \|\| (type == REG_DWORD));
	MYASSERT((res != ERROR_SUCCESS) \|\| (count == sizeof(UInt32)));
	return res;
	}

	LONG CKey::QueryValue(LPCTSTR name, bool &value) throw()
	{
	UInt32 uintValue = BoolToUINT32(value);
	LONG res = QueryValue(name, uintValue);
	value = UINT32ToBool(uintValue);
	return res;
	}

	LONG CKey::GetValue_IfOk(LPCTSTR name, UInt32 &value) throw()
	{
	UInt32 newVal;
	LONG res = QueryValue(name, newVal);
	if (res == ERROR_SUCCESS)
	value = newVal;
	return res;
	}

	LONG CKey::GetValue_IfOk(LPCTSTR name, bool &value) throw()
	{
	bool newVal;
	LONG res = QueryValue(name, newVal);
	if (res == ERROR_SUCCESS)
	value = newVal;
	return res;
	}

	LONG CKey::QueryValue(LPCTSTR name, LPTSTR value, UInt32 &count) throw()
	{
	MYASSERT(count != NULL);
	DWORD type = 0;
	LONG res = RegQueryValueEx(_object, (LPTSTR)name, NULL, &type, (LPBYTE)value, (DWORD *)&count);
	MYASSERT((res != ERROR_SUCCESS) \|\| (type == REG_SZ) \|\| (type == REG_MULTI_SZ) \|\| (type == REG_EXPAND_SZ));
	return res;
	}

	LONG CKey::QueryValue(LPCTSTR name, CSysString &value)
	{
	value.Empty();
	DWORD type = 0;
	UInt32 currentSize = 0;
	LONG res = RegQueryValueEx(_object, (LPTSTR)name, NULL, &type, NULL, (DWORD *)&currentSize);
	if (res != ERROR_SUCCESS && res != ERROR_MORE_DATA)
	return res;
	res = QueryValue(name, value.GetBuffer(currentSize), currentSize);
	value.ReleaseBuffer();
	return res;
	}

	#ifndef _UNICODE
	LONG CKey::QueryValue(LPCWSTR name, LPWSTR value, UInt32 &count)
	{
	MYASSERT(count != NULL);
	DWORD type = 0;
	LONG res = RegQueryValueExW(_object, name, NULL, &type, (LPBYTE)value, (DWORD *)&count);
	MYASSERT((res != ERROR_SUCCESS) \|\| (type == REG_SZ) \|\| (type == REG_MULTI_SZ) \|\| (type == REG_EXPAND_SZ));
	return res;
	}
	LONG CKey::QueryValue(LPCWSTR name, UString &value)
	{
	value.Empty();
	DWORD type = 0;
	UInt32 currentSize = 0;

	LONG res;
	if (g_IsNT)
	{
	res = RegQueryValueExW(_object, name, NULL, &type, NULL, (DWORD *)&currentSize);
	if (res != ERROR_SUCCESS && res != ERROR_MORE_DATA)
	return res;
	res = QueryValue(name, value.GetBuffer(currentSize), currentSize);
	value.ReleaseBuffer();
	}
	else
	{
	AString vTemp;
	res = QueryValue(name == 0 ? 0 : (LPCSTR)GetSystemString(name), vTemp);
	value = GetUnicodeString(vTemp);
	}
	return res;
	}
	#endif

	LONG CKey::QueryValue(LPCTSTR name, void *value, UInt32 &count) throw()
	{
	DWORD type = 0;
	LONG res = RegQueryValueEx(_object, (LPTSTR)name, NULL, &type, (LPBYTE)value, (DWORD *)&count);
	MYASSERT((res != ERROR_SUCCESS) \|\| (type == REG_BINARY));
	return res;
	}


	LONG CKey::QueryValue(LPCTSTR name, CByteBuffer &value, UInt32 &dataSize)
	{
	DWORD type = 0;
	dataSize = 0;
	LONG res = RegQueryValueEx(_object, (LPTSTR)name, NULL, &type, NULL, (DWORD *)&dataSize);
	if (res != ERROR_SUCCESS && res != ERROR_MORE_DATA)
	return res;
	value.Alloc(dataSize);
	return QueryValue(name, (BYTE *)value, dataSize);
	}

	LONG CKey::EnumKeys(CSysStringVector &keyNames)
	{
	keyNames.Clear();
	CSysString keyName;
	for (UInt32 index = 0; ; index++)
	{
	const UInt32 kBufferSize = MAX_PATH + 1; // 256 in ATL
	FILETIME lastWriteTime;
	UInt32 nameSize = kBufferSize;
	LONG result = ::RegEnumKeyEx(_object, index, keyName.GetBuffer(kBufferSize),
	(DWORD *)&nameSize, NULL, NULL, NULL, &lastWriteTime);
	keyName.ReleaseBuffer();
	if (result == ERROR_NO_MORE_ITEMS)
	break;
	if (result != ERROR_SUCCESS)
	return result;
	keyNames.Add(keyName);
	}
	return ERROR_SUCCESS;
	}

	LONG CKey::SetValue_Strings(LPCTSTR valueName, const UStringVector &strings) throw()
	{
	UInt32 numChars = 0;
	unsigned i;
	for (i = 0; i < strings.Size(); i++)
	numChars += strings[i].Len() + 1;
	CBuffer<wchar_t> buffer(numChars);
	unsigned pos = 0;
	for (i = 0; i < strings.Size(); i++)
	{
	const UString &s = strings[i];
	MyStringCopy((wchar_t )buffer + pos, (const wchar_t )s);
	pos += s.Len() + 1;
	}
	return SetValue(valueName, buffer, numChars * sizeof(wchar_t));
	}

	LONG CKey::GetValue_Strings(LPCTSTR valueName, UStringVector &strings)
	{
	strings.Clear();
	CByteBuffer buffer;
	UInt32 dataSize;
	LONG res = QueryValue(valueName, buffer, dataSize);
	if (res != ERROR_SUCCESS)
	return res;
	if (dataSize % sizeof(wchar_t) != 0)
	return E_FAIL;
	const wchar_t data = (const wchar_t )(const Byte *)buffer;
	unsigned numChars = dataSize / sizeof(wchar_t);
	UString s;
	for (unsigned i = 0; i < numChars; i++)
	{
	wchar_t c = data[i];
	if (c == 0)
	{
	strings.Add(s);
	s.Empty();
	}
	else
	s += c;
	}
	return res;
	}

	}}