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Source code of Windows XP (NT5)
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windows-xp/Source/XPSP1/NT/windows/winstate/cobra/app/loader/utils.c

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#include "pch.h"
#include "loader.h"
#define MAX_RESOURCE_LENGTH 2048
#define MIGWIZSUBDIR TEXT("usmt\\")
#define MINIMUM_DISK_SPACE 3000000
// Globals
static PTSTR g_lpszDestPath = NULL;
static PTSTR g_lpszModulePath = NULL;
PTSTR
GetModulePath( VOID )
{
if (g_lpszModulePath == NULL)
{
TCHAR lpszPath[MAX_PATH + 1];
DWORD dwResult;
// Build the path where this exe resides
dwResult = GetModuleFileName( NULL, lpszPath, MAX_PATH );
if (dwResult > 0 &&
dwResult < MAX_PATH)
{
LPTSTR ptr;
TCHAR *lastWack = NULL;
ptr = lpszPath;
while (*ptr)
{
if (*ptr == TEXT('\\'))
{
lastWack = ptr;
}
ptr = CharNext( ptr );
}
if (lastWack)
{
*(lastWack + 1) = 0;
g_lpszModulePath = (PTSTR)ALLOC( (lstrlen(lpszPath) + 1) * sizeof(TCHAR) );
if (g_lpszModulePath)
{
lstrcpy( g_lpszModulePath, lpszPath );
}
}
}
}
return g_lpszModulePath;
}
DWORD
pConvertDriveToBit (
PCTSTR driveString
)
{
DWORD bit = 0;
TCHAR driveLetter;
if (driveString && *driveString) {
driveLetter = (TCHAR)_totlower (*driveString);
if (driveLetter >= TEXT('a') && driveLetter <= TEXT('z')) {
bit = 0x1 << (driveLetter - TEXT('a'));
}
}
return bit;
}
BOOL
pCreateMigwizDir( PCTSTR lpszPath )
{
BOOL fResult = FALSE;
if (g_lpszDestPath != NULL)
{
FREE( g_lpszDestPath );
}
g_lpszDestPath = (PTSTR)ALLOC( (lstrlen(lpszPath) + lstrlen(MIGWIZSUBDIR) + 1) * sizeof(TCHAR) );
if (g_lpszDestPath)
{
lstrcpy( g_lpszDestPath, lpszPath );
lstrcat( g_lpszDestPath, MIGWIZSUBDIR );
if (!CreateDirectory( g_lpszDestPath, NULL ))
{
if (GetLastError() != ERROR_ALREADY_EXISTS)
{
FREE( g_lpszDestPath );
g_lpszDestPath = NULL;
return FALSE;
}
}
fResult = TRUE;
}
return fResult;
}
PTSTR
GetDestPath( VOID )
{
DWORD sectPerClust;
DWORD bytesPerSect;
DWORD freeClusters;
DWORD totalClusters;
ULONGLONG maxFreeDiskSpace = 0;
ULONGLONG freeDiskSpace = 0;
TCHAR szPath[MAX_PATH + 1];
PTSTR lpDriveList = NULL;
PCTSTR lpDrive;
DWORD dwListLen;
if (g_lpszDestPath == NULL)
{
// If %TEMP% has enough space, use it
if (GetTempPath( MAX_PATH, szPath ))
{
TCHAR szTmpPath[4] = TEXT("?:\\");
szTmpPath[0] = szPath[0];
if (GetDiskFreeSpace( szTmpPath, &sectPerClust, &bytesPerSect, &freeClusters, &totalClusters ))
{
freeDiskSpace = Int32x32To64( (sectPerClust * bytesPerSect), freeClusters );
if (freeDiskSpace > MINIMUM_DISK_SPACE)
{
if (pCreateMigwizDir(szPath))
{
return g_lpszDestPath;
}
}
}
}
// Otherwise use the first drive with the enough space
dwListLen = GetLogicalDriveStrings( 0, NULL ) + 1;
lpDriveList = (PTSTR)ALLOC( dwListLen );
GetLogicalDriveStrings( dwListLen, lpDriveList );
lpDrive = lpDriveList;
while (*lpDrive) {
if (GetDriveType( lpDrive ) == DRIVE_FIXED)
{
if (GetDiskFreeSpace( lpDrive, &sectPerClust, &bytesPerSect, &freeClusters, &totalClusters ))
{
freeDiskSpace = Int32x32To64( (sectPerClust * bytesPerSect), freeClusters );
if (freeDiskSpace > MINIMUM_DISK_SPACE)
{
if (pCreateMigwizDir( lpDrive ))
{
// We have a winner! Let's bail.
break;
}
}
}
}
// Advance to the next drive in the drive list
lpDrive = _tcschr( lpDrive, 0 ) + 1;
}
FREE(lpDriveList);
}
return g_lpszDestPath;
}
PTSTR
JoinText( PTSTR lpStr1, PTSTR lpStr2, TCHAR chSeparator )
{
PTSTR lpResult;
DWORD dwSize1;
DWORD dwSize2;
DWORD dwSize;
BOOL fAddSep = TRUE;
dwSize1 = lstrlen(lpStr1);
if (lpStr1[dwSize1 - 1] == chSeparator)
{
fAddSep = FALSE;
}
dwSize2 = lstrlen(lpStr2);
if (lpStr2[0] == chSeparator)
{
fAddSep = FALSE;
}
dwSize = dwSize1 + dwSize2 + (fAddSep ? 1 : 0);
lpResult = (PTSTR)ALLOC((dwSize+1) * sizeof(TCHAR));
if (lpResult)
{
lstrcpy( lpResult, lpStr1 );
if (fAddSep)
{
lpResult[dwSize1] = chSeparator;
dwSize1 += 1;
}
lstrcpy( lpResult+dwSize1, lpStr2 );
}
return lpResult;
}
PTSTR
GetResourceString( HINSTANCE hInstance, DWORD dwResID )
{
TCHAR szTmpString[MAX_RESOURCE_LENGTH];
DWORD dwStringLength;
PTSTR lpszResultString = NULL;
dwStringLength = LoadString( hInstance,
dwResID,
szTmpString,
MAX_RESOURCE_LENGTH );
if (dwStringLength > 0)
{
lpszResultString = (PTSTR)ALLOC( (dwStringLength+1) * sizeof(TCHAR) );
if (lpszResultString)
{
lstrcpy( lpszResultString, szTmpString );
}
}
return lpszResultString;
}
PSTR
GetResourceStringA( HINSTANCE hInstance, DWORD dwResID )
{
CHAR szTmpString[MAX_RESOURCE_LENGTH];
DWORD dwStringLength;
PSTR lpszResultString = NULL;
dwStringLength = LoadStringA( hInstance,
dwResID,
szTmpString,
MAX_RESOURCE_LENGTH );
if (dwStringLength > 0)
{
lpszResultString = (PSTR)ALLOC( (dwStringLength+1) * sizeof(CHAR) );
if (lpszResultString)
{
lstrcpyA( lpszResultString, szTmpString );
}
}
return lpszResultString;
}
PWSTR
GetResourceStringW( HINSTANCE hInstance, DWORD dwResID )
{
WCHAR szTmpString[MAX_RESOURCE_LENGTH];
DWORD dwStringLength;
PWSTR lpszResultString = NULL;
dwStringLength = LoadStringW( hInstance,
dwResID,
szTmpString,
MAX_RESOURCE_LENGTH );
if (dwStringLength > 0)
{
lpszResultString = (PWSTR)ALLOC( (dwStringLength+1) * sizeof(WCHAR) );
if (lpszResultString)
{
lstrcpyW( lpszResultString, szTmpString );
}
}
return lpszResultString;
}
VOID
UtilFree( VOID )
{
if (g_lpszDestPath)
{
FREE( g_lpszDestPath );
g_lpszDestPath = NULL;
}
}