Source code of Windows XP (NT5)
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//
// MODULE: "RegUtil.cpp"
//
// PURPOSE: class CRegUtil
// Encapsulates access to system registry.
// This is intended as generic access to the registry, independent of any particular
// application.
//
// PROJECT: first developed as part of Belief Network Editing Tools ("Argon")
// Later modified to provide more extensive features as part of version 3.0 of the
// Online Troubleshooter (APGTS)
//
// AUTHOR: Lonnie Gerrald (LDG), Oleg Kalosha, Joe Mabel
//
// ORIGINAL DATE: 3/25/98
//
// NOTES:
// 1. The Create, Open, and Close functions support a model where m_hKey represents a
// "position" in the registry. Successive calls to Create() or Open() migrate deeper
// into the registry hierarchy. Close closes all keys encountered on the way down to
// the current m_hKey.
//
//
// Version Date By Comments
//--------------------------------------------------------------------
// V0.1(Argon) 3/25/98 LDG
// V3.0 8/??/98 OK
// V3.0 9/9/98 JM
//
#include "stdafx.h"
#include "regutil.h"
#include "event.h"
#include "baseexception.h"
#include "CharConv.h"
//////////////////////////////////////////////////////////////////////
// CRegUtil
//////////////////////////////////////////////////////////////////////
CRegUtil::CRegUtil()
: m_hKey(NULL),
m_WinError(ERROR_SUCCESS)
{
}
CRegUtil::CRegUtil(HKEY key)
: m_hKey(key),
m_WinError(ERROR_SUCCESS)
{
}
CRegUtil::~CRegUtil()
{
Close();
}
// creates the specified key. If the key already exists in the registry, the function opens it.
// returns true on success, false otherwise.
bool CRegUtil::Create(HKEY hKeyParent, const CString& strKeyName, bool* bCreatedNew, REGSAM access /*=KEY_ALL_ACCESS*/)
{
HKEY hRetKey = NULL;
DWORD dwDisposition = 0;
m_WinError = ::RegCreateKeyEx(
hKeyParent,
strKeyName,
0,
NULL,
REG_OPTION_NON_VOLATILE,
access,
NULL,
&hRetKey,
&dwDisposition
);
if(m_WinError == ERROR_SUCCESS)
{
m_hKey = hRetKey;
*bCreatedNew = dwDisposition == REG_CREATED_NEW_KEY ? true : false;
try
{
m_arrKeysToClose.push_back(hRetKey);
}
catch (exception& x)
{
CString str;
// Note STL exception in event log.
CBuildSrcFileLinenoStr SrcLoc( __FILE__, __LINE__ );
CEvent::ReportWFEvent( SrcLoc.GetSrcFileLineStr(),
SrcLoc.GetSrcFileLineStr(),
CCharConversion::ConvertACharToString(x.what(), str),
_T(""),
EV_GTS_STL_EXCEPTION );
}
return true;
}
return false;
}
// Unlike CRegUtil::Create, CRegUtil::Open does not create the specified key if the key does not
// exist in the registry. Thus it can be used to test whether the key exists.
// returns true on success, false otherwise.
bool CRegUtil::Open(HKEY hKeyParent, const CString& strKeyName, REGSAM access /*=KEY_ALL_ACCESS*/)
{
HKEY hRetKey = NULL;
m_WinError = ::RegOpenKeyEx(
hKeyParent,
strKeyName,
0,
access,
&hRetKey
);
if(m_WinError == ERROR_SUCCESS)
{
m_hKey = hRetKey;
try
{
m_arrKeysToClose.push_back(hRetKey);
}
catch (exception& x)
{
CString str;
// Note STL exception in event log.
CBuildSrcFileLinenoStr SrcLoc( __FILE__, __LINE__ );
CEvent::ReportWFEvent( SrcLoc.GetSrcFileLineStr(),
SrcLoc.GetSrcFileLineStr(),
CCharConversion::ConvertACharToString(x.what(), str),
_T(""),
EV_GTS_STL_EXCEPTION );
}
return true;
}
return false;
}
// creates the specified subkey of m_hKey. If the key already exists in the registry, the function opens it.
// returns true on success, false otherwise.
bool CRegUtil::Create(const CString& strKeyName, bool* bCreatedNew, REGSAM access /*=KEY_ALL_ACCESS*/)
{
return Create(m_hKey, strKeyName, bCreatedNew, access);
}
// opens the specified subkey of m_hKey.
// Unlike CRegUtil::Create, CRegUtil::Open does not create the specified key if the key does not
// exist in the registry. Thus it can be used to test whether the key exists.
// returns true on success, false otherwise.
bool CRegUtil::Open(const CString& strKeyName, REGSAM access /*=KEY_ALL_ACCESS*/)
{
return Open(m_hKey, strKeyName, access);
}
// Close all keys encountered on the way down to the current m_hKey.
void CRegUtil::Close()
{
for (vector<HKEY>::reverse_iterator i = m_arrKeysToClose.rbegin(); i != m_arrKeysToClose.rend(); i++)
::RegCloseKey( *i );
m_arrKeysToClose.clear();
}
bool CRegUtil::DeleteSubKey(const CString& strSubKey)
{
// What does m_hKey point to after a successful deletion? RAB-981116.
m_WinError = ::RegDeleteKey(m_hKey, strSubKey);
if (m_WinError == ERROR_SUCCESS)
return true;
return false;
}
bool CRegUtil::DeleteValue(const CString& strValue)
{
m_WinError = ::RegDeleteValue(m_hKey, strValue);
if (m_WinError == ERROR_SUCCESS)
return true;
return false;
}
bool CRegUtil::SetNumericValue(const CString& strValueName, DWORD dwValue)
{
BYTE* pData = (BYTE*)&dwValue;
m_WinError = ::RegSetValueEx(
m_hKey,
strValueName,
0,
REG_DWORD,
pData,
sizeof(DWORD)
);
if (m_WinError == ERROR_SUCCESS)
return true;
return false;
}
bool CRegUtil::SetStringValue(const CString& strValueName, const CString& strValue)
{
BYTE* pData = (BYTE*)(LPCTSTR)strValue;
m_WinError = ::RegSetValueEx(
m_hKey,
strValueName,
0,
REG_SZ,
pData,
strValue.GetLength()+sizeof(TCHAR)
);
if (m_WinError == ERROR_SUCCESS)
return true;
return false;
}
bool CRegUtil::SetBinaryValue(const CString& strValueName, char* buf, long buf_len)
{
BYTE* pData = (BYTE*)buf;
m_WinError = ::RegSetValueEx(
m_hKey,
strValueName,
0,
REG_BINARY,
pData,
buf_len
);
if (m_WinError == ERROR_SUCCESS)
return true;
return false;
}
bool CRegUtil::GetNumericValue(const CString& strValueName, DWORD& dwValue)
{
DWORD tmp = 0;
BYTE* pData = (BYTE*)&tmp;
DWORD type = 0;
DWORD size = sizeof(DWORD);
m_WinError = ::RegQueryValueEx(
m_hKey,
strValueName,
NULL,
&type,
pData,
&size
);
if (type != REG_DWORD)
return false;
if (m_WinError == ERROR_SUCCESS)
{
dwValue = tmp;
return true;
}
return false;
}
bool CRegUtil::GetStringValue(const CString& strValueName, CString& strValue)
{
BYTE* pData = NULL;
DWORD type = 0;
DWORD size = 0;
// determine data size
m_WinError = ::RegQueryValueEx(
m_hKey,
strValueName,
NULL,
&type,
NULL,
&size
);
if (m_WinError != ERROR_SUCCESS)
return false;
if (type != REG_SZ && type != REG_EXPAND_SZ)
return false;
bool bRet = false; // should be only one return from here down: we're about to
// alloc pData and must make sure it's correctly cleaned up.
try
{
pData = new BYTE[size];
}
catch (bad_alloc&)
{
return false;
}
memset(pData, 0, size);
m_WinError = ::RegQueryValueEx(
m_hKey,
strValueName,
NULL,
&type,
pData,
&size
);
if (m_WinError == ERROR_SUCCESS)
{
if (type == REG_EXPAND_SZ )
{
BYTE* pDataExpanded = NULL;
DWORD dwExpandedSize;
// first we call ExpandEnvironmentStrings just to get the length
// casting away unsignedness
dwExpandedSize = ::ExpandEnvironmentStrings(
reinterpret_cast<const TCHAR *>(pData),
reinterpret_cast<TCHAR *>(pDataExpanded),
0);
if (dwExpandedSize > 0)
{
try
{
pDataExpanded = new BYTE[dwExpandedSize];
// then we call ExpandEnvironmentStrings again to get the expanded value
// casting away unsignedness
if (::ExpandEnvironmentStrings(
reinterpret_cast<const TCHAR *>(pData),
reinterpret_cast<TCHAR *>(pDataExpanded),
dwExpandedSize))
{
strValue = (LPTSTR)pDataExpanded;
delete [] pDataExpanded;
bRet = true;
}
}
catch (bad_alloc&)
{
// Note memory failure in event log.
CBuildSrcFileLinenoStr SrcLoc( __FILE__, __LINE__ );
CEvent::ReportWFEvent( SrcLoc.GetSrcFileLineStr(),
SrcLoc.GetSrcFileLineStr(),
_T(""), _T(""), EV_GTS_CANT_ALLOC );
}
}
}
else
{
strValue = (LPTSTR)pData;
bRet = true;
}
}
delete [] pData;
return bRet;
}
// The second parameter should be passed in as the address of a char *.
// Note that if this returns true, *ppBuf will point to a new buffer on the heap.
// The caller of this function is responsible for deleting that.
bool CRegUtil::GetBinaryValue(const CString& strValueName, char** ppBuf, long* pBufLen)
{
BYTE* pData = NULL;
DWORD type = 0;
DWORD size = 0;
// determine data size
m_WinError = ::RegQueryValueEx(
m_hKey,
strValueName,
NULL,
&type,
NULL,
&size
);
if (m_WinError != ERROR_SUCCESS || type != REG_BINARY)
return false;
try
{
// Increase the buffer size by one over what we need. Small price to
// pay for processing convenience elsewhere.
pData = new BYTE[size+1];
}
catch (bad_alloc&)
{
return false;
}
memset(pData, 0, size);
m_WinError = ::RegQueryValueEx(
m_hKey,
strValueName,
NULL,
&type,
pData,
&size
);
if (m_WinError == ERROR_SUCCESS)
{
// Null terminate the binary string for processing convenience elsewhere.
pData[size]= 0;
*ppBuf = (char*)pData;
*pBufLen = size;
return true;
}
delete [] pData;
return false;
}