windows-nt/Source/XPSP1/NT/base/ntsetup/winnt32/dll/amd64/drvlettr.c

#include "precomp.h"

#define NUMDRIVELETTERS      26

// drvletter struct.
typedef struct _DRIVELETTERS {

    BOOL    ExistsOnSystem[NUMDRIVELETTERS];
    DWORD   Type[NUMDRIVELETTERS];              // Returned from GetDriveType
    TCHAR   IdentifierString[NUMDRIVELETTERS][MAX_PATH];  // Varies by Drive type.

} DRIVELETTERS, *PDRIVELETTERS;

DRIVELETTERS g_DriveLetters;

PCTSTR DriveTypeAsString(
    IN UINT Type
    )
{
    static PCTSTR driveTypeStrings[] = {
        TEXT("DRIVE_UNKNOWN"),        //The drive type cannot be determined.
        TEXT("DRIVE_NO_ROOT_DIR"),    //The root directory does not exist.
        TEXT("DRIVE_REMOVABLE"),      //The disk can be removed from the drive.
        TEXT("DRIVE_FIXED"),          //The disk cannot be removed from the drive.
        TEXT("DRIVE_REMOTE"),         //The drive is a remote (network) drive.
        TEXT("DRIVE_CDROM"),          //The drive is a CD-ROM drive.
        TEXT("DRIVE_RAMDISK"),        //The drive is a RAM disk.
    };

    return driveTypeStrings[Type];
}

BOOL
InitializeDriveLetterStructure (
    VOID
    )
{
    DWORD DriveLettersOnSystem = GetLogicalDrives();
    BYTE  bitPosition;
    DWORD maxBitPosition = NUMDRIVELETTERS;
    TCHAR rootPath[4];
    BOOL  driveExists;
    UINT  type;
    BOOL  rf = TRUE;


    //
    //rootPath[0] will be set to the drive letter of interest.
    //
    rootPath[1] = TEXT(':');
    rootPath[2] = TEXT('\\');
    rootPath[3] = TEXT('\0');

    //
    // GetLogicalDrives returns a bitmask of all of the drive letters
    // in use on the system. (i.e. bit position 0 is turned on if there is
    // an 'A' drive, 1 is turned on if there is a 'B' drive, etc.
    // This loop will use this bitmask to fill in the global drive
    // letters structure with information about what drive letters
    // are available and what there drive types are.
    //

    for (bitPosition = 0; bitPosition < maxBitPosition; bitPosition++) {

        //
        // Initialize the entry to safe values.
        //
        g_DriveLetters.Type[bitPosition]                   = 0;
        g_DriveLetters.ExistsOnSystem[bitPosition]         = FALSE;
        *g_DriveLetters.IdentifierString[bitPosition]      = 0;

        //
        // Now, determine if there is a drive in this spot.
        //
        driveExists = DriveLettersOnSystem & (1 << bitPosition);

        if (driveExists) {

            //
            // There is. Now, see if it is one that we care about.
            //
            *rootPath = bitPosition + TEXT('A');
            type = GetDriveType(rootPath);

            if (type == DRIVE_FIXED     ||
                type == DRIVE_REMOVABLE ||
                type == DRIVE_CDROM) {

                //
                // This is a drive that we are interested in.
                //
                g_DriveLetters.ExistsOnSystem[bitPosition]  = driveExists;
                g_DriveLetters.Type[bitPosition]            = type;

                //
                // Identifier String is not filled in this function.
                //
            }
        }
    }


    return rf;
}

VOID
CleanUpHardDriveTags (
    VOID
    )
{
    //
    // User cancelled. We need to clean up the tag files
    // that were created for drive migration.
    //
    UINT i;
    TCHAR  path[MAX_PATH];

    lstrcpy(path,TEXT("*:\\"));
    lstrcat(path,TEXT(WINNT_WIN95UPG_DRVLTR_A));


    for (i = 0; i < NUMDRIVELETTERS; i++) {

        if (g_DriveLetters.ExistsOnSystem[i] &&
            g_DriveLetters.Type[i] == DRIVE_FIXED) {

            *path = (TCHAR) i + TEXT('A');
            DeleteFile (path);
        }
    }
}


BOOL
GatherHardDriveInformation (
    VOID
    )
{
    BOOL        rf = TRUE;
    DWORD       index;
    HANDLE      signatureFile;
    TCHAR       signatureFilePath[MAX_PATH * 2];
    DWORD       signatureFilePathLength;
    DWORD       bytesWritten;

    //
    // Hard drive information is actually written to a special signature file
    // on the root directory of each fixed hard drive. The information is nothing special --
    // just the drive number (0 = A, etc.)
    //

    lstrcpy(signatureFilePath,TEXT("*:\\"));
    lstrcat(signatureFilePath,TEXT(WINNT_WIN95UPG_DRVLTR_A));
    signatureFilePathLength = lstrlen(signatureFilePath);


    for (index = 0; index < NUMDRIVELETTERS; index++) {

        if (g_DriveLetters.ExistsOnSystem[index] &&
            g_DriveLetters.Type[index] == DRIVE_FIXED) {

            *signatureFilePath = (TCHAR) index + TEXT('A');

            signatureFile = CreateFile(
                signatureFilePath,
                GENERIC_WRITE | GENERIC_READ,
                0,
                NULL,
                CREATE_ALWAYS,
                FILE_ATTRIBUTE_NORMAL,
                NULL
                );

            if (signatureFile != INVALID_HANDLE_VALUE) {

                WriteFile (signatureFile, &index, sizeof(DWORD), &bytesWritten, NULL);


                CloseHandle (signatureFile);
                SetFileAttributes (signatureFilePath, FILE_ATTRIBUTE_HIDDEN);


            }
        }
    }


    return rf;
}


BOOL
GatherCdRomDriveInformation (
    VOID
    )

{
    BOOL   rf = TRUE;
    HKEY   scsiKey = NULL;
    HKEY   deviceKey = NULL;

    TCHAR  classData[25];
    DWORD  classDataSize = 25;

    TCHAR  targetData[5];
    DWORD  targetDataSize = 5;

    TCHAR  lunData[5];
    DWORD  lunDataSize = 5;

    TCHAR  driveLetterData[5];
    DWORD  driveLetterSize = 5;

    TCHAR  buffer [4096];
    DWORD  subKeyLength;
    DWORD  tempLength;

    HKEY   locationKey = NULL;
    PTSTR  locationName;

    DWORD  outerIndex;
    DWORD  enumReturn;

    DWORD  port;
    DWORD  unusedType;
    DWORD  error;


    //
    // Walk the SCSI tree looking for CD rom devices.
    //
    error = RegOpenKeyEx (HKEY_LOCAL_MACHINE, TEXT("ENUM\\SCSI"), 0, KEY_READ, &scsiKey);

    if (error) {

        return TRUE;
    }

    //
    // Gather information about the key in preparation for enumerating
    // it.
    //
    error = RegQueryInfoKey (
        scsiKey,
        NULL,                   // Don't care about the class.
        NULL,                   // class size.
        NULL,                   // reserved.
        NULL,                   // Don't care about the number of subkeys.
        &subKeyLength,
        NULL,                   // Don't care about subclasses.
        NULL,                   // Don't care about values.
        NULL,                   // Don't care about max value name length.
        NULL,                   // Don't care about max component.
        NULL,                   // Don't care about the security descriptor.
        NULL                    // Don't care about the last write time.
        );

    if (error) {
        //
        // This should really not happen.
        //
        return FALSE;
    }


    //
    // Succssesfully opened a key to HKLM\Enum\SCSI. Enumerate it.
    //
    outerIndex = 0;
    do {

        if (locationKey) {

            RegCloseKey (locationKey);
            locationKey = NULL;
        }
        if (deviceKey) {

            RegCloseKey (deviceKey);
            deviceKey = NULL;
        }


        tempLength = sizeof(buffer) / sizeof(TCHAR);

        enumReturn = RegEnumKeyEx (
            scsiKey,
            outerIndex,
            buffer,
            &tempLength,
            0,                // Reserved
            NULL,             // Class name - not necessary.
            NULL,             // size of class name buffer.
            NULL
            );

        outerIndex++;

        //
        // For each returned key, look up the "Class" value.
        //
        error = RegOpenKeyEx (scsiKey,buffer,0,KEY_READ,&deviceKey);
        if (error) {

            //
            // Something is hosed. Give up on collecting SCSI data.
            //
            rf = FALSE;
            break;
        }


        //
        // The port has to be decoded from the key one level
        // below.
        //
        tempLength = sizeof (buffer);

        error = RegEnumKeyEx (
            deviceKey,
            0,
            buffer,
            &tempLength,
            0,                // Reserved
            NULL,             // Class name - not necessary.
            NULL,             // size of class name buffer.
            NULL
            );


        error = RegOpenKeyEx (deviceKey, buffer, 0, KEY_READ, &locationKey);

        if (error) {

            //
            // This should really never happen. However, guard against it.
            // Its not serious enough to abort the search. Just skip this
            // particular key and continue.
            //
            continue;
        }


        tempLength = classDataSize;
        error = RegQueryValueEx(
            locationKey,
            TEXT("CLASS"),
            0,
            &unusedType,
            (PBYTE) classData,
            &tempLength
            );

        if (error) {

            //
            // This isn't a serious enough error to bring down the whole
            // enumeration. Just note it in the logs and continue to the
            // next key.
            //
            continue;
        }

        if (!lstrcmpi(classData, TEXT("CDROM"))) {


            lstrcpy (targetData, TEXT("-1"));
            lstrcpy (lunData, TEXT("-1"));
            lstrcpy (driveLetterData, TEXT("%"));

            //
            // Found a CdRom. Get the information that will be used in
            // textmode setup to identify the drive.
            //
            tempLength = targetDataSize;
            RegQueryValueEx(
                locationKey,
                TEXT("ScsiTargetId"),
                0,
                &unusedType,
                (PBYTE) targetData,
                &tempLength
                );

            tempLength = lunDataSize;
            RegQueryValueEx(
                locationKey,
                TEXT("ScsiLun"),
                0,
                &unusedType,
                (PBYTE) lunData,
                &tempLength
                );

            tempLength = driveLetterSize;
            RegQueryValueEx(
                locationKey,
                TEXT("CurrentDriveLetterAssignment"),
                0,
                &unusedType,
                (PBYTE) driveLetterData,
                &tempLength
                );


            if (*driveLetterData != TEXT('%')) {

                //
                // At this point, we have all of the information
                // necessary to write a SCSI CdRom identifier
                // string.
                //

                wsprintf(g_DriveLetters.IdentifierString[*driveLetterData - TEXT('A')], TEXT("%u^%s^%s"), 0, targetData, lunData);


            }

        }

        if (locationKey) {

            RegCloseKey (locationKey);
            locationKey = NULL;
        }
        if (deviceKey) {

            RegCloseKey (deviceKey);
            deviceKey = NULL;
        }


    } while (rf && enumReturn == ERROR_SUCCESS);

    if (locationKey) {
        RegCloseKey(locationKey);
        locationKey = NULL;
    }
    if (deviceKey) {
        RegCloseKey(deviceKey);
        deviceKey = NULL;
    }
    if (scsiKey) {
        RegCloseKey(scsiKey);
        scsiKey = NULL;
    }


    return rf;
}


BOOL
WriteInfoToSifFile (
    IN PCTSTR FileName
    )
{
    BOOL    rSuccess = TRUE;
    DWORD   index;
    TCHAR   dataString[MAX_PATH * 2]; // Well over the size needed.
    TCHAR   driveString[20]; // Well over the size needed.
    PCTSTR  sectionString = WINNT_D_WIN9XDRIVES;


    for (index = 0; index < NUMDRIVELETTERS; index++) {

        if (g_DriveLetters.ExistsOnSystem[index]) {

            wsprintf(
                driveString,
                TEXT("%u"),
                index
                );

            wsprintf(
                dataString,
                TEXT("%u,%s"),
                g_DriveLetters.Type[index],
                g_DriveLetters.IdentifierString[index]
                );

            //
            // Ending string looks like <drive num>,<drive type>,<identifier string>
            //

            WritePrivateProfileString (sectionString, driveString, dataString, FileName);
        }

    }


    return rSuccess;
}


DWORD
SaveDriveLetterInformation (
    IN PCTSTR FileName
    )
{
    BOOL rf = TRUE;

    if (InitializeDriveLetterStructure ()) {

        GatherHardDriveInformation ();
        GatherCdRomDriveInformation ();
        WriteInfoToSifFile (FileName);

    }

    return ERROR_SUCCESS;
}
Add source files 2020-09-26 03:20:57 -05:00			`#include "precomp.h"`

			`#define NUMDRIVELETTERS 26`

			`// drvletter struct.`
			`typedef struct _DRIVELETTERS {`

			`BOOL ExistsOnSystem[NUMDRIVELETTERS];`
			`DWORD Type[NUMDRIVELETTERS]; // Returned from GetDriveType`
			`TCHAR IdentifierString[NUMDRIVELETTERS][MAX_PATH]; // Varies by Drive type.`

			`} DRIVELETTERS, *PDRIVELETTERS;`

			`DRIVELETTERS g_DriveLetters;`

			`PCTSTR DriveTypeAsString(`
			`IN UINT Type`
			`)`
			`{`
			`static PCTSTR driveTypeStrings[] = {`
			`TEXT("DRIVE_UNKNOWN"), //The drive type cannot be determined.`
			`TEXT("DRIVE_NO_ROOT_DIR"), //The root directory does not exist.`
			`TEXT("DRIVE_REMOVABLE"), //The disk can be removed from the drive.`
			`TEXT("DRIVE_FIXED"), //The disk cannot be removed from the drive.`
			`TEXT("DRIVE_REMOTE"), //The drive is a remote (network) drive.`
			`TEXT("DRIVE_CDROM"), //The drive is a CD-ROM drive.`
			`TEXT("DRIVE_RAMDISK"), //The drive is a RAM disk.`
			`};`

			`return driveTypeStrings[Type];`
			`}`

			`BOOL`
			`InitializeDriveLetterStructure (`
			`VOID`
			`)`
			`{`
			`DWORD DriveLettersOnSystem = GetLogicalDrives();`
			`BYTE bitPosition;`
			`DWORD maxBitPosition = NUMDRIVELETTERS;`
			`TCHAR rootPath[4];`
			`BOOL driveExists;`
			`UINT type;`
			`BOOL rf = TRUE;`


			`//`
			`//rootPath[0] will be set to the drive letter of interest.`
			`//`
			`rootPath[1] = TEXT(':');`
			`rootPath[2] = TEXT('\\');`
			`rootPath[3] = TEXT('\0');`

			`//`
			`// GetLogicalDrives returns a bitmask of all of the drive letters`
			`// in use on the system. (i.e. bit position 0 is turned on if there is`
			`// an 'A' drive, 1 is turned on if there is a 'B' drive, etc.`
			`// This loop will use this bitmask to fill in the global drive`
			`// letters structure with information about what drive letters`
			`// are available and what there drive types are.`
			`//`

			`for (bitPosition = 0; bitPosition < maxBitPosition; bitPosition++) {`

			`//`
			`// Initialize the entry to safe values.`
			`//`
			`g_DriveLetters.Type[bitPosition] = 0;`
			`g_DriveLetters.ExistsOnSystem[bitPosition] = FALSE;`
			`*g_DriveLetters.IdentifierString[bitPosition] = 0;`

			`//`
			`// Now, determine if there is a drive in this spot.`
			`//`
			`driveExists = DriveLettersOnSystem & (1 << bitPosition);`

			`if (driveExists) {`

			`//`
			`// There is. Now, see if it is one that we care about.`
			`//`
			`*rootPath = bitPosition + TEXT('A');`
			`type = GetDriveType(rootPath);`

			`if (type == DRIVE_FIXED \|\|`
			`type == DRIVE_REMOVABLE \|\|`
			`type == DRIVE_CDROM) {`

			`//`
			`// This is a drive that we are interested in.`
			`//`
			`g_DriveLetters.ExistsOnSystem[bitPosition] = driveExists;`
			`g_DriveLetters.Type[bitPosition] = type;`

			`//`
			`// Identifier String is not filled in this function.`
			`//`
			`}`
			`}`
			`}`


			`return rf;`
			`}`

			`VOID`
			`CleanUpHardDriveTags (`
			`VOID`
			`)`
			`{`
			`//`
			`// User cancelled. We need to clean up the tag files`
			`// that were created for drive migration.`
			`//`
			`UINT i;`
			`TCHAR path[MAX_PATH];`

			`lstrcpy(path,TEXT("*:\\"));`
			`lstrcat(path,TEXT(WINNT_WIN95UPG_DRVLTR_A));`


			`for (i = 0; i < NUMDRIVELETTERS; i++) {`

			`if (g_DriveLetters.ExistsOnSystem[i] &&`
			`g_DriveLetters.Type[i] == DRIVE_FIXED) {`

			`*path = (TCHAR) i + TEXT('A');`
			`DeleteFile (path);`
			`}`
			`}`
			`}`


			`BOOL`
			`GatherHardDriveInformation (`
			`VOID`
			`)`
			`{`
			`BOOL rf = TRUE;`
			`DWORD index;`
			`HANDLE signatureFile;`
			`TCHAR signatureFilePath[MAX_PATH * 2];`
			`DWORD signatureFilePathLength;`
			`DWORD bytesWritten;`

			`//`
			`// Hard drive information is actually written to a special signature file`
			`// on the root directory of each fixed hard drive. The information is nothing special --`
			`// just the drive number (0 = A, etc.)`
			`//`

			`lstrcpy(signatureFilePath,TEXT("*:\\"));`
			`lstrcat(signatureFilePath,TEXT(WINNT_WIN95UPG_DRVLTR_A));`
			`signatureFilePathLength = lstrlen(signatureFilePath);`



			`for (index = 0; index < NUMDRIVELETTERS; index++) {`

			`if (g_DriveLetters.ExistsOnSystem[index] &&`
			`g_DriveLetters.Type[index] == DRIVE_FIXED) {`

			`*signatureFilePath = (TCHAR) index + TEXT('A');`

			`signatureFile = CreateFile(`
			`signatureFilePath,`
			`GENERIC_WRITE \| GENERIC_READ,`
			`0,`
			`NULL,`
			`CREATE_ALWAYS,`
			`FILE_ATTRIBUTE_NORMAL,`
			`NULL`
			`);`

			`if (signatureFile != INVALID_HANDLE_VALUE) {`

			`WriteFile (signatureFile, &index, sizeof(DWORD), &bytesWritten, NULL);`



			`CloseHandle (signatureFile);`
			`SetFileAttributes (signatureFilePath, FILE_ATTRIBUTE_HIDDEN);`


			`}`
			`}`
			`}`


			`return rf;`
			`}`


			`BOOL`
			`GatherCdRomDriveInformation (`
			`VOID`
			`)`

			`{`
			`BOOL rf = TRUE;`
			`HKEY scsiKey = NULL;`
			`HKEY deviceKey = NULL;`

			`TCHAR classData[25];`
			`DWORD classDataSize = 25;`

			`TCHAR targetData[5];`
			`DWORD targetDataSize = 5;`

			`TCHAR lunData[5];`
			`DWORD lunDataSize = 5;`

			`TCHAR driveLetterData[5];`
			`DWORD driveLetterSize = 5;`

			`TCHAR buffer [4096];`
			`DWORD subKeyLength;`
			`DWORD tempLength;`

			`HKEY locationKey = NULL;`
			`PTSTR locationName;`

			`DWORD outerIndex;`
			`DWORD enumReturn;`

			`DWORD port;`
			`DWORD unusedType;`
			`DWORD error;`




			`//`
			`// Walk the SCSI tree looking for CD rom devices.`
			`//`
			`error = RegOpenKeyEx (HKEY_LOCAL_MACHINE, TEXT("ENUM\\SCSI"), 0, KEY_READ, &scsiKey);`

			`if (error) {`

			`return TRUE;`
			`}`

			`//`
			`// Gather information about the key in preparation for enumerating`
			`// it.`
			`//`
			`error = RegQueryInfoKey (`
			`scsiKey,`
			`NULL, // Don't care about the class.`
			`NULL, // class size.`
			`NULL, // reserved.`
			`NULL, // Don't care about the number of subkeys.`
			`&subKeyLength,`
			`NULL, // Don't care about subclasses.`
			`NULL, // Don't care about values.`
			`NULL, // Don't care about max value name length.`
			`NULL, // Don't care about max component.`
			`NULL, // Don't care about the security descriptor.`
			`NULL // Don't care about the last write time.`
			`);`

			`if (error) {`
			`//`
			`// This should really not happen.`
			`//`
			`return FALSE;`
			`}`



			`//`
			`// Succssesfully opened a key to HKLM\Enum\SCSI. Enumerate it.`
			`//`
			`outerIndex = 0;`
			`do {`

			`if (locationKey) {`

			`RegCloseKey (locationKey);`
			`locationKey = NULL;`
			`}`
			`if (deviceKey) {`

			`RegCloseKey (deviceKey);`
			`deviceKey = NULL;`
			`}`


			`tempLength = sizeof(buffer) / sizeof(TCHAR);`

			`enumReturn = RegEnumKeyEx (`
			`scsiKey,`
			`outerIndex,`
			`buffer,`
			`&tempLength,`
			`0, // Reserved`
			`NULL, // Class name - not necessary.`
			`NULL, // size of class name buffer.`
			`NULL`
			`);`

			`outerIndex++;`

			`//`
			`// For each returned key, look up the "Class" value.`
			`//`
			`error = RegOpenKeyEx (scsiKey,buffer,0,KEY_READ,&deviceKey);`
			`if (error) {`

			`//`
			`// Something is hosed. Give up on collecting SCSI data.`
			`//`
			`rf = FALSE;`
			`break;`
			`}`


			`//`
			`// The port has to be decoded from the key one level`
			`// below.`
			`//`
			`tempLength = sizeof (buffer);`

			`error = RegEnumKeyEx (`
			`deviceKey,`
			`0,`
			`buffer,`
			`&tempLength,`
			`0, // Reserved`
			`NULL, // Class name - not necessary.`
			`NULL, // size of class name buffer.`
			`NULL`
			`);`


			`error = RegOpenKeyEx (deviceKey, buffer, 0, KEY_READ, &locationKey);`

			`if (error) {`

			`//`
			`// This should really never happen. However, guard against it.`
			`// Its not serious enough to abort the search. Just skip this`
			`// particular key and continue.`
			`//`
			`continue;`
			`}`



			`tempLength = classDataSize;`
			`error = RegQueryValueEx(`
			`locationKey,`
			`TEXT("CLASS"),`
			`0,`
			`&unusedType,`
			`(PBYTE) classData,`
			`&tempLength`
			`);`

			`if (error) {`

			`//`
			`// This isn't a serious enough error to bring down the whole`
			`// enumeration. Just note it in the logs and continue to the`
			`// next key.`
			`//`
			`continue;`
			`}`

			`if (!lstrcmpi(classData, TEXT("CDROM"))) {`


			`lstrcpy (targetData, TEXT("-1"));`
			`lstrcpy (lunData, TEXT("-1"));`
			`lstrcpy (driveLetterData, TEXT("%"));`

			`//`
			`// Found a CdRom. Get the information that will be used in`
			`// textmode setup to identify the drive.`
			`//`
			`tempLength = targetDataSize;`
			`RegQueryValueEx(`
			`locationKey,`
			`TEXT("ScsiTargetId"),`
			`0,`
			`&unusedType,`
			`(PBYTE) targetData,`
			`&tempLength`
			`);`

			`tempLength = lunDataSize;`
			`RegQueryValueEx(`
			`locationKey,`
			`TEXT("ScsiLun"),`
			`0,`
			`&unusedType,`
			`(PBYTE) lunData,`
			`&tempLength`
			`);`

			`tempLength = driveLetterSize;`
			`RegQueryValueEx(`
			`locationKey,`
			`TEXT("CurrentDriveLetterAssignment"),`
			`0,`
			`&unusedType,`
			`(PBYTE) driveLetterData,`
			`&tempLength`
			`);`




			`if (*driveLetterData != TEXT('%')) {`

			`//`
			`// At this point, we have all of the information`
			`// necessary to write a SCSI CdRom identifier`
			`// string.`
			`//`

			`wsprintf(g_DriveLetters.IdentifierString[*driveLetterData - TEXT('A')], TEXT("%u^%s^%s"), 0, targetData, lunData);`


			`}`

			`}`

			`if (locationKey) {`

			`RegCloseKey (locationKey);`
			`locationKey = NULL;`
			`}`
			`if (deviceKey) {`

			`RegCloseKey (deviceKey);`
			`deviceKey = NULL;`
			`}`



			`} while (rf && enumReturn == ERROR_SUCCESS);`

			`if (locationKey) {`
			`RegCloseKey(locationKey);`
			`locationKey = NULL;`
			`}`
			`if (deviceKey) {`
			`RegCloseKey(deviceKey);`
			`deviceKey = NULL;`
			`}`
			`if (scsiKey) {`
			`RegCloseKey(scsiKey);`
			`scsiKey = NULL;`
			`}`



			`return rf;`
			`}`




			`BOOL`
			`WriteInfoToSifFile (`
			`IN PCTSTR FileName`
			`)`
			`{`
			`BOOL rSuccess = TRUE;`
			`DWORD index;`
			`TCHAR dataString[MAX_PATH * 2]; // Well over the size needed.`
			`TCHAR driveString[20]; // Well over the size needed.`
			`PCTSTR sectionString = WINNT_D_WIN9XDRIVES;`




			`for (index = 0; index < NUMDRIVELETTERS; index++) {`

			`if (g_DriveLetters.ExistsOnSystem[index]) {`

			`wsprintf(`
			`driveString,`
			`TEXT("%u"),`
			`index`
			`);`

			`wsprintf(`
			`dataString,`
			`TEXT("%u,%s"),`
			`g_DriveLetters.Type[index],`
			`g_DriveLetters.IdentifierString[index]`
			`);`

			`//`
			`// Ending string looks like <drive num>,<drive type>,<identifier string>`
			`//`

			`WritePrivateProfileString (sectionString, driveString, dataString, FileName);`
			`}`

			`}`


			`return rSuccess;`
			`}`



			`DWORD`
			`SaveDriveLetterInformation (`
			`IN PCTSTR FileName`
			`)`
			`{`
			`BOOL rf = TRUE;`

			`if (InitializeDriveLetterStructure ()) {`

			`GatherHardDriveInformation ();`
			`GatherCdRomDriveInformation ();`
			`WriteInfoToSifFile (FileName);`

			`}`

			`return ERROR_SUCCESS;`
			`}`