Source code of Windows XP (NT5)
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//+-------------------------------------------------------------------------
//
// Microsoft Windows
//
// Copyright (C) Microsoft Corporation, 1996 - 1999
//
// File: reg.cpp
//
//--------------------------------------------------------------------------
#include "windows.h"
#include <stdio.h>
#include <string.h>
//#include <assert.h>
#include "crtem.h"
#include "unicode.h"
//
// FIsWinNT: check OS type on x86. On non-x86, assume WinNT
//
#ifdef _M_IX86
BOOL WINAPI FIsWinNTCheck(void) {
OSVERSIONINFO osVer;
memset(&osVer, 0, sizeof(OSVERSIONINFO));
osVer.dwOSVersionInfoSize = sizeof(OSVERSIONINFO);
if( GetVersionEx(&osVer) )
return (osVer.dwPlatformId == VER_PLATFORM_WIN32_NT);
else
return (FALSE);
}
BOOL WINAPI FIsWinNT(void) {
static BOOL fIKnow = FALSE;
static BOOL fIsWinNT = FALSE;
if(fIKnow)
return(fIsWinNT);
fIsWinNT = FIsWinNTCheck();
// even on an error, this is as good as it gets
fIKnow = TRUE;
return(fIsWinNT);
}
#else
BOOL WINAPI FIsWinNT(void) {
return(TRUE);
}
#endif
BOOL
WINAPI
FIsWinNT5Check(
VOID
)
{
OSVERSIONINFO osVer;
memset(&osVer, 0, sizeof(OSVERSIONINFO));
osVer.dwOSVersionInfoSize = sizeof(OSVERSIONINFO);
if( GetVersionEx(&osVer) )
return ( osVer.dwMajorVersion >= 5 );
else
return (FALSE);
}
BOOL
WINAPI
FIsWinNT5(
VOID
)
{
static BOOL fIKnow = FALSE;
static BOOL fIsWinNT5 = FALSE;
if(!FIsWinNT())
return FALSE;
if(fIKnow)
return(fIsWinNT5);
fIsWinNT5 = FIsWinNT5Check();
// even on an error, this is as good as it gets
fIKnow = TRUE;
return(fIsWinNT5);
}
// make MBCS from Unicode string
//
// Include parameters specifying the length of the input wide character
// string and return number of bytes converted. An input length of -1 indicates
// null terminated.
//
// This extended version was added to handle REG_MULTI_SZ which contains
// multiple null terminated strings.
BOOL WINAPI MkMBStrEx(PBYTE pbBuff, DWORD cbBuff, LPCWSTR wsz, int cchW,
char ** pszMB, int *pcbConverted) {
int cbConverted;
// sfield: don't bring in crt for assert. you get free assert via
// an exception if these are null
// assert(pszMB != NULL);
*pszMB = NULL;
// assert(pcbConverted != NULL);
*pcbConverted = 0;
if(wsz == NULL)
return(TRUE);
// how long is the mb string
cbConverted = WideCharToMultiByte( 0,
0,
wsz,
cchW,
NULL,
0,
NULL,
NULL);
if (cbConverted <= 0)
return(FALSE);
// get a buffer long enough
if(pbBuff != NULL && (DWORD) cbConverted <= cbBuff)
*pszMB = (char *) pbBuff;
else
*pszMB = (char *) malloc(cbConverted);
if(*pszMB == NULL) {
SetLastError(ERROR_OUTOFMEMORY);
return(FALSE);
}
// now convert to MB
*pcbConverted = WideCharToMultiByte(0,
0,
wsz,
cchW,
*pszMB,
cbConverted,
NULL,
NULL);
return(TRUE);
}
// make MBCS from Unicode string
BOOL WINAPI MkMBStr(PBYTE pbBuff, DWORD cbBuff, LPCWSTR wsz, char ** pszMB) {
int cbConverted;
return MkMBStrEx(pbBuff, cbBuff, wsz, -1, pszMB, &cbConverted);
}
void WINAPI FreeMBStr(PBYTE pbBuff, char * szMB) {
if((szMB != NULL) && (pbBuff != (PBYTE)szMB))
free(szMB);
}
// #endif // _M_IX86
// make Unicode string from MBCS
LPWSTR WINAPI MkWStr(char * szMB) {
LPWSTR wsz = NULL;
int cbConverted;
if(szMB == NULL)
goto Ret;
// how long is the unicode string
if (0 >= (cbConverted = MultiByteToWideChar( 0,
0,
szMB,
-1,
NULL,
0)))
goto Ret;
// get a buffer long enough
wsz = (LPWSTR) malloc(cbConverted * sizeof(WCHAR));
if(wsz == NULL) {
SetLastError(ERROR_OUTOFMEMORY);
goto Ret;
}
// now convert to MB
MultiByteToWideChar(0,
0,
szMB,
-1,
wsz,
cbConverted);
Ret:
return(wsz);
}
void WINAPI FreeWStr(LPWSTR wsz) {
if(wsz != NULL)
free(wsz);
}
#ifdef _M_IX86
LONG WINAPI RegCreateKeyEx9x (
HKEY hKey,
LPCWSTR lpSubKey,
DWORD Reserved,
LPWSTR lpClass,
DWORD dwOptions,
REGSAM samDesired,
LPSECURITY_ATTRIBUTES lpSecurityAttributes,
PHKEY phkResult,
LPDWORD lpdwDisposition
) {
BYTE rgb1[_MAX_PATH];
BYTE rgb2[_MAX_PATH];
char * szSubKey = NULL;
char * szClass = NULL;
LONG err;
err = FALSE;
if(
MkMBStr(rgb1, _MAX_PATH, lpSubKey, &szSubKey) &&
MkMBStr(rgb2, _MAX_PATH, lpClass, &szClass) )
err = RegCreateKeyExA (
hKey,
szSubKey,
Reserved,
szClass,
dwOptions,
samDesired,
lpSecurityAttributes,
phkResult,
lpdwDisposition
);
FreeMBStr(rgb1, szSubKey);
FreeMBStr(rgb2, szClass);
return(err);
}
LONG WINAPI RegCreateKeyExU (
HKEY hKey,
LPCWSTR lpSubKey,
DWORD Reserved,
LPWSTR lpClass,
DWORD dwOptions,
REGSAM samDesired,
LPSECURITY_ATTRIBUTES lpSecurityAttributes,
PHKEY phkResult,
LPDWORD lpdwDisposition
) {
if(FIsWinNT())
return( RegCreateKeyExW (
hKey,
lpSubKey,
Reserved,
lpClass,
dwOptions,
samDesired,
lpSecurityAttributes,
phkResult,
lpdwDisposition
));
else
return( RegCreateKeyEx9x (
hKey,
lpSubKey,
Reserved,
lpClass,
dwOptions,
samDesired,
lpSecurityAttributes,
phkResult,
lpdwDisposition
));
}
LONG WINAPI RegDeleteKey9x (
HKEY hKey,
LPCWSTR lpSubKey
) {
BYTE rgb1[_MAX_PATH];
char * szSubKey = NULL;
LONG err;
err = FALSE;
if(MkMBStr(rgb1, _MAX_PATH, lpSubKey, &szSubKey))
err = RegDeleteKeyA (
hKey,
szSubKey
);
FreeMBStr(rgb1, szSubKey);
return(err);
}
LONG WINAPI RegDeleteKeyU (
HKEY hKey,
LPCWSTR lpSubKey
) {
if(FIsWinNT())
return( RegDeleteKeyW (
hKey,
lpSubKey
));
else
return( RegDeleteKey9x (
hKey,
lpSubKey
));
}
LONG WINAPI RegEnumKeyEx9x (
HKEY hKey,
DWORD dwIndex,
LPWSTR lpName,
LPDWORD lpcbName,
LPDWORD lpReserved,
LPWSTR lpClass,
LPDWORD lpcbClass,
PFILETIME lpftLastWriteTime
) {
char rgch[_MAX_PATH];
char * szKeyName;
DWORD cbKeyName;
char rgch1[_MAX_PATH];
char * szClassName;
DWORD cbClassName;
int cchW;
LONG err;
szKeyName = rgch;
cbKeyName = sizeof(rgch);
szClassName = rgch1;
cbClassName = sizeof(rgch1);
err = RegEnumKeyExA (
hKey,
dwIndex,
szKeyName,
&cbKeyName,
lpReserved,
szClassName,
&cbClassName,
lpftLastWriteTime
);
if((err != ERROR_SUCCESS) && (err != ERROR_INSUFFICIENT_BUFFER))
return err;
err = ERROR_SUCCESS;
cbKeyName++; // count the NULL terminator
cbClassName++; // count the NULL terminator
if ((sizeof(rgch) < cbKeyName) || (sizeof(rgch1) < cbClassName)) {
szKeyName = (char *) malloc(cbKeyName);
if(!szKeyName)
return ERROR_OUTOFMEMORY;
szClassName = (char *) malloc(cbClassName);
if(!szClassName) {
free(szKeyName);
return ERROR_OUTOFMEMORY;
}
err = RegEnumKeyExA (
hKey,
dwIndex,
szKeyName,
&cbKeyName,
lpReserved,
szClassName,
&cbClassName,
lpftLastWriteTime
);
cbKeyName++; // count the NULL terminator
cbClassName++; // count the NULL terminator
}
if(err == ERROR_SUCCESS) {
cchW = MultiByteToWideChar(
0, // codepage
0, // dwFlags
szKeyName,
cbKeyName,
lpName,
*lpcbName);
if(cchW == 0)
err = GetLastError();
else
*lpcbName = cchW - 1; // does not include NULL
}
if(szKeyName != rgch)
free(szKeyName);
if(err == ERROR_SUCCESS) {
//
// it's legal for lpClass/lpcbClass to be NULL, so only copy if they are not NOT
//
if(lpClass != NULL) {
// note: RegEnumKeyEx specifies that lpcbClass can only be NULL
// if lpClass is NULL, so the correct behavior is to fault if
// lpClass is non-null and lpcbClass is NULL; this behavior is
// does happen here.
//
cchW = MultiByteToWideChar(
0, // codepage
0, // dwFlags
szClassName,
cbClassName,
lpClass,
*lpcbClass);
if(cchW == 0)
err = GetLastError();
}
if(lpcbClass != NULL)
*lpcbClass = cbClassName - 1; // does not include NULL
}
if(szClassName != rgch1)
free(szClassName);
return err;
}
LONG WINAPI RegEnumKeyExU (
HKEY hKey,
DWORD dwIndex,
LPWSTR lpName,
LPDWORD lpcbName,
LPDWORD lpReserved,
LPWSTR lpClass,
LPDWORD lpcbClass,
PFILETIME lpftLastWriteTime
) {
if(FIsWinNT())
return( RegEnumKeyExW (
hKey,
dwIndex,
lpName,
lpcbName,
lpReserved,
lpClass,
lpcbClass,
lpftLastWriteTime
));
else
return( RegEnumKeyEx9x (
hKey,
dwIndex,
lpName,
lpcbName,
lpReserved,
lpClass,
lpcbClass,
lpftLastWriteTime
));
}
static LONG WINAPI ConvertRegValue (
DWORD dwType,
LPBYTE pbInData,
DWORD cbInData,
LPBYTE pbOutData,
LPDWORD pcbOutData
) {
LONG err = ERROR_SUCCESS;
DWORD cbOrigOutData;
if (NULL == pcbOutData)
return ERROR_SUCCESS;
cbOrigOutData = *pcbOutData;
if (0 == cbInData)
*pcbOutData = 0;
else if (REG_SZ == dwType || REG_EXPAND_SZ == dwType ||
REG_MULTI_SZ == dwType) {
int cchW;
// First get length needed for wide characters
cchW = MultiByteToWideChar(
0, // codepage
0, // dwFlags
(LPCSTR) pbInData,
cbInData,
NULL, // lpWideCharStr
0); // cchWideChar
*pcbOutData = cchW * sizeof(WCHAR);
if(cchW == 0)
err = GetLastError();
else if (pbOutData) {
if (cbOrigOutData < *pcbOutData)
err = ERROR_MORE_DATA;
else
// Convert to Unicode data
MultiByteToWideChar(
0, // codepage
0, // dwFlags
(LPCSTR) pbInData,
cbInData,
(LPWSTR) pbOutData,
cchW);
}
} else {
// Copy to output
*pcbOutData = cbInData;
if (pbOutData) {
if (cbOrigOutData < cbInData)
err = ERROR_MORE_DATA;
else
memcpy(pbOutData, pbInData, cbInData);
}
}
return err;
}
#define MAX_REG_VALUE_DATA 256
LONG WINAPI RegEnumValue9x (
HKEY hKey,
DWORD dwIndex,
LPWSTR lpValueName,
LPDWORD lpcchValueName,
LPDWORD lpReserved,
LPDWORD lpType,
LPBYTE lpData,
LPDWORD lpcbData
) {
char rgch[_MAX_PATH];
char * szValueName;
DWORD cbValueName;
DWORD dwType;
LONG err;
BYTE rgbData[MAX_REG_VALUE_DATA];
BYTE *pbData;
DWORD cbData;
szValueName = rgch;
cbValueName = sizeof(rgch);
pbData = rgbData;
cbData = sizeof(rgbData);
err = RegEnumValueA (
hKey,
dwIndex,
szValueName,
&cbValueName,
lpReserved,
&dwType,
pbData,
&cbData
);
if (lpType)
*lpType = dwType;
if((err != ERROR_SUCCESS) && (err != ERROR_INSUFFICIENT_BUFFER) &&
(err != ERROR_MORE_DATA))
goto ErrorReturn;
err = ERROR_SUCCESS;
cbValueName++; // count the NULL terminator
if (sizeof(rgch) < cbValueName || sizeof(rgbData) < cbData) {
if (sizeof(rgch) < cbValueName) {
szValueName = (char *) malloc( cbValueName);
if(!szValueName) {
err = ERROR_OUTOFMEMORY;
goto ErrorReturn;
}
}
if (sizeof(rgbData) < cbData) {
pbData = (BYTE *) malloc(cbData);
if(!pbData) {
err = ERROR_OUTOFMEMORY;
goto ErrorReturn;
}
}
err = RegEnumValueA (
hKey,
dwIndex,
szValueName,
&cbValueName,
lpReserved,
lpType,
pbData,
&cbData
);
cbValueName++; // count the NULL terminator
}
if (err == ERROR_SUCCESS) {
int cchW;
cchW = MultiByteToWideChar(
0, // codepage
0, // dwFlags
szValueName,
cbValueName,
lpValueName,
lpValueName ? *lpcchValueName : 0);
if(cchW == 0)
err = GetLastError();
else
*lpcchValueName = cchW - 1; // does not include NULL
} else
*lpcchValueName = 0;
if (err == ERROR_SUCCESS)
err = ConvertRegValue (
dwType,
pbData,
cbData,
lpData,
lpcbData);
else if (lpcbData)
*lpcbData = 0;
CommonReturn:
if(szValueName != rgch && szValueName)
free(szValueName);
if(pbData != rgbData && pbData)
free(pbData);
return err;
ErrorReturn:
*lpcchValueName = 0;
if (lpcbData)
*lpcbData = 0;
goto CommonReturn;
}
LONG WINAPI RegEnumValueU (
HKEY hKey,
DWORD dwIndex,
LPWSTR lpValueName,
LPDWORD lpcchValueName,
LPDWORD lpReserved,
LPDWORD lpType,
LPBYTE lpData,
LPDWORD lpcbData
) {
if(FIsWinNT())
return( RegEnumValueW (
hKey,
dwIndex,
lpValueName,
lpcchValueName,
lpReserved,
lpType,
lpData,
lpcbData
));
else
return( RegEnumValue9x (
hKey,
dwIndex,
lpValueName,
lpcchValueName,
lpReserved,
lpType,
lpData,
lpcbData
));
}
LONG RegDeleteValue9x (
HKEY hKey,
LPCWSTR lpValueName
) {
BYTE rgb[_MAX_PATH];
char * szValueName;
LONG err;
err = FALSE;
if(MkMBStr(rgb, _MAX_PATH, lpValueName, &szValueName))
err = RegDeleteValueA (
hKey,
szValueName
);
FreeMBStr(rgb, szValueName);
return(err);
}
LONG RegDeleteValueU (
HKEY hKey,
LPCWSTR lpValueName
) {
if(FIsWinNT())
return(RegDeleteValueW (
hKey,
lpValueName
));
else
return(RegDeleteValue9x (
hKey,
lpValueName
));
}
LONG RegQueryValueEx9x(
HKEY hKey,
LPCWSTR lpValueName,
LPDWORD lpReserved,
LPDWORD lpType,
LPBYTE lpData,
LPDWORD lpcbData
) {
BYTE rgb[_MAX_PATH];
char * szValueName = NULL;
LONG err;
DWORD dwType;
BYTE rgbData[MAX_REG_VALUE_DATA];
BYTE *pbData;
DWORD cbData;
pbData = rgbData;
cbData = sizeof(rgbData);
if(MkMBStr(rgb, _MAX_PATH, lpValueName, &szValueName))
err = RegQueryValueExA (
hKey,
szValueName,
lpReserved,
&dwType,
pbData,
&cbData
);
else {
err = ERROR_OUTOFMEMORY;
goto ErrorReturn;
}
if (lpType)
*lpType = dwType;
if((err != ERROR_SUCCESS) && (err != ERROR_INSUFFICIENT_BUFFER) &&
(err != ERROR_MORE_DATA))
goto ErrorReturn;
err = ERROR_SUCCESS;
if (sizeof(rgbData) < cbData) {
pbData = (BYTE *) malloc(cbData);
if(!pbData) {
err = ERROR_OUTOFMEMORY;
goto ErrorReturn;
}
err = RegQueryValueExA (
hKey,
szValueName,
lpReserved,
&dwType,
pbData,
&cbData
);
}
if (err == ERROR_SUCCESS)
err = ConvertRegValue (
dwType,
pbData,
cbData,
lpData,
lpcbData);
else if (lpcbData)
*lpcbData = 0;
CommonReturn:
FreeMBStr(rgb, szValueName);
if(pbData != rgbData && pbData)
free(pbData);
return err;
ErrorReturn:
if (lpcbData)
*lpcbData = 0;
goto CommonReturn;
}
LONG RegQueryValueExU(
HKEY hKey,
LPCWSTR lpValueName,
LPDWORD lpReserved,
LPDWORD lpType,
LPBYTE lpData,
LPDWORD lpcbData
) {
if (lpReserved != NULL) {
return (ERROR_INVALID_PARAMETER);
}
if(FIsWinNT())
return(RegQueryValueExW (
hKey,
lpValueName,
lpReserved,
lpType,
lpData,
lpcbData
));
else
return(RegQueryValueEx9x (
hKey,
lpValueName,
lpReserved,
lpType,
lpData,
lpcbData
));
}
LONG WINAPI RegSetValueEx9x (
HKEY hKey,
LPCWSTR lpValueName,
DWORD Reserved,
DWORD dwType,
CONST BYTE* lpData,
DWORD cbData
) {
BYTE rgb1[_MAX_PATH];
char * szValueName;
LONG err;
err = ERROR_OUTOFMEMORY;
if(MkMBStr(rgb1, _MAX_PATH, lpValueName, &szValueName))
{
// convert the data to ascii if necessary
if (0 != cbData / sizeof(WCHAR) &&
(REG_SZ == dwType || REG_EXPAND_SZ == dwType ||
REG_MULTI_SZ == dwType))
{
char * szData;
int cbConverted;
if(MkMBStrEx(NULL, 0, (LPWSTR)lpData, cbData/sizeof(WCHAR),
&szData, &cbConverted))
{
err = RegSetValueExA (
hKey,
szValueName,
Reserved,
dwType,
(BYTE*)szData,
cbConverted
);
FreeMBStr(NULL, szData);
}
}
else
{
err = RegSetValueExA (
hKey,
szValueName,
Reserved,
dwType,
lpData,
cbData
);
}
FreeMBStr(rgb1, szValueName);
}
return(err);
}
LONG WINAPI RegSetValueExU (
HKEY hKey,
LPCWSTR lpValueName,
DWORD Reserved,
DWORD dwType,
CONST BYTE* lpData,
DWORD cbData
) {
if(FIsWinNT())
return(RegSetValueExW (
hKey,
lpValueName,
Reserved,
dwType,
lpData,
cbData
));
else
return(RegSetValueEx9x (
hKey,
lpValueName,
Reserved,
dwType,
lpData,
cbData
));
}
LONG WINAPI RegQueryInfoKey9x (
HKEY hKey,
LPWSTR lpClass,
LPDWORD lpcbClass,
LPDWORD lpReserved,
LPDWORD lpcSubKeys,
LPDWORD lpcbMaxSubKeyLen,
LPDWORD lpcbMaxClassLen,
LPDWORD lpcValues,
LPDWORD lpcbMaxValueNameLen,
LPDWORD lpcbMaxValueLen,
LPDWORD lpcbSecurityDescriptor,
PFILETIME lpftLastWriteTime
) {
BYTE rgb[_MAX_PATH];
char * szClass;
LONG err;
err = FALSE;
if(MkMBStr(rgb, _MAX_PATH, lpClass, &szClass))
err = RegQueryInfoKeyA (
hKey,
szClass,
lpcbClass,
lpReserved,
lpcSubKeys,
lpcbMaxSubKeyLen,
lpcbMaxClassLen,
lpcValues,
lpcbMaxValueNameLen,
lpcbMaxValueLen,
lpcbSecurityDescriptor,
lpftLastWriteTime
);
if (lpcbMaxValueLen)
// Need to double for converting to unicode characters.
*lpcbMaxValueLen = *lpcbMaxValueLen * 2;
FreeMBStr(rgb, szClass);
return(err);
}
LONG WINAPI RegQueryInfoKeyU (
HKEY hKey,
LPWSTR lpClass,
LPDWORD lpcbClass,
LPDWORD lpReserved,
LPDWORD lpcSubKeys,
LPDWORD lpcbMaxSubKeyLen,
LPDWORD lpcbMaxClassLen,
LPDWORD lpcValues,
LPDWORD lpcbMaxValueNameLen,
LPDWORD lpcbMaxValueLen,
LPDWORD lpcbSecurityDescriptor,
PFILETIME lpftLastWriteTime
) {
if(FIsWinNT())
return( RegQueryInfoKeyW (
hKey,
lpClass,
lpcbClass,
lpReserved,
lpcSubKeys,
lpcbMaxSubKeyLen,
lpcbMaxClassLen,
lpcValues,
lpcbMaxValueNameLen,
lpcbMaxValueLen,
lpcbSecurityDescriptor,
lpftLastWriteTime
));
else
return( RegQueryInfoKey9x (
hKey,
lpClass,
lpcbClass,
lpReserved,
lpcSubKeys,
lpcbMaxSubKeyLen,
lpcbMaxClassLen,
lpcValues,
lpcbMaxValueNameLen,
lpcbMaxValueLen,
lpcbSecurityDescriptor,
lpftLastWriteTime
));
}
LONG WINAPI RegOpenKeyEx9x(
HKEY hKey, // handle of open key
LPCWSTR lpSubKey, // address of name of subkey to open
DWORD ulOptions, // reserved
REGSAM samDesired, // security access mask
PHKEY phkResult // address of handle of open key
) {
BYTE rgb1[_MAX_PATH];
char * szSubKey = NULL;
LONG err;
err = FALSE;
if(MkMBStr(rgb1, _MAX_PATH, lpSubKey, &szSubKey) )
err = RegOpenKeyExA(
hKey,
szSubKey,
ulOptions,
samDesired,
phkResult);
FreeMBStr(rgb1, szSubKey);
return(err);
}
LONG WINAPI RegOpenKeyExU(
HKEY hKey, // handle of open key
LPCWSTR lpSubKey, // address of name of subkey to open
DWORD ulOptions, // reserved
REGSAM samDesired, // security access mask
PHKEY phkResult // address of handle of open key
) {
if(FIsWinNT())
return( RegOpenKeyExW(
hKey,
lpSubKey,
ulOptions,
samDesired,
phkResult
));
else
return( RegOpenKeyEx9x(
hKey,
lpSubKey,
ulOptions,
samDesired,
phkResult
));
}
LONG WINAPI RegConnectRegistry9x (
LPWSTR lpMachineName,
HKEY hKey,
PHKEY phkResult
) {
BYTE rgb1[_MAX_PATH];
char * szMachineName = NULL;
LONG err;
err = FALSE;
if(MkMBStr(rgb1, _MAX_PATH, lpMachineName, &szMachineName) )
err = RegConnectRegistryA(
szMachineName,
hKey,
phkResult);
FreeMBStr(rgb1, szMachineName);
return(err);
}
LONG WINAPI RegConnectRegistryU (
LPWSTR lpMachineName,
HKEY hKey,
PHKEY phkResult
) {
if(FIsWinNT())
return( RegConnectRegistryW(
lpMachineName,
hKey,
phkResult
));
else
return( RegConnectRegistry9x(
lpMachineName,
hKey,
phkResult
));
}
#endif // _M_IX86
LONG WINAPI RegCreateHKCUKeyExU (
HKEY hKey,
LPCWSTR lpSubKey,
DWORD Reserved,
LPWSTR lpClass,
DWORD dwOptions,
REGSAM samDesired,
LPSECURITY_ATTRIBUTES lpSecurityAttributes,
PHKEY phkResult,
LPDWORD lpdwDisposition
) {
if ((hKey != HKEY_CURRENT_USER) || !(FIsWinNT()))
{
return(RegCreateKeyExU(hKey, lpSubKey, Reserved, lpClass, dwOptions,
samDesired, lpSecurityAttributes, phkResult,
lpdwDisposition));
}
HKEY hCurUser;
LONG err;
if ((err = RegOpenHKCU(&hCurUser)) != ERROR_SUCCESS)
{
return(err);
}
err = RegCreateKeyExW(hCurUser, lpSubKey, Reserved, lpClass, dwOptions,
samDesired, lpSecurityAttributes, phkResult,
lpdwDisposition);
RegCloseHKCU(hCurUser);
return(err);
}
LONG WINAPI RegCreateHKCUKeyExA (
HKEY hKey,
LPCSTR lpSubKey,
DWORD Reserved,
LPSTR lpClass,
DWORD dwOptions,
REGSAM samDesired,
LPSECURITY_ATTRIBUTES lpSecurityAttributes,
PHKEY phkResult,
LPDWORD lpdwDisposition
)
{
if ((hKey != HKEY_CURRENT_USER) || !(FIsWinNT()))
{
return(RegCreateKeyExA(hKey, lpSubKey, Reserved, lpClass, dwOptions,
samDesired, lpSecurityAttributes, phkResult,
lpdwDisposition));
}
HKEY hCurUser;
LONG err;
if ((err = RegOpenHKCU(&hCurUser)) != ERROR_SUCCESS)
{
return(err);
}
err = RegCreateKeyExA(hCurUser, lpSubKey, Reserved, lpClass, dwOptions,
samDesired, lpSecurityAttributes, phkResult,
lpdwDisposition);
RegCloseHKCU(hCurUser);
return(err);
}
LONG WINAPI RegOpenHKCUKeyExU(
HKEY hKey, // handle of open key
LPCWSTR lpSubKey, // address of name of subkey to open
DWORD ulOptions, // reserved
REGSAM samDesired, // security access mask
PHKEY phkResult // address of handle of open key
) {
if ((hKey != HKEY_CURRENT_USER) || !(FIsWinNT()))
{
return(RegOpenKeyExU(hKey, lpSubKey, ulOptions,
samDesired, phkResult));
}
HKEY hCurUser;
LONG err;
if ((err = RegOpenHKCU(&hCurUser)) != ERROR_SUCCESS)
{
return(err);
}
err = RegOpenKeyExW(hCurUser, lpSubKey, ulOptions, samDesired, phkResult);
RegCloseHKCU(hCurUser);
return(err);
}
LONG WINAPI RegOpenHKCUKeyExA(
HKEY hKey, // handle of open key
LPCSTR lpSubKey, // address of name of subkey to open
DWORD ulOptions, // reserved
REGSAM samDesired, // security access mask
PHKEY phkResult // address of handle of open key
) {
if ((hKey != HKEY_CURRENT_USER) || !(FIsWinNT()))
{
return(RegOpenKeyExA(hKey, lpSubKey, ulOptions,
samDesired, phkResult));
}
HKEY hCurUser;
LONG err;
if ((err = RegOpenHKCU(&hCurUser)) != ERROR_SUCCESS)
{
return(err);
}
err = RegOpenKeyExA(hCurUser, lpSubKey, ulOptions, samDesired, phkResult);
RegCloseHKCU(hCurUser);
return(err);
}