I tested this code on several computers and it works:
MBR disks:
The Disk Signature/Identifier is a 4-byte (longword) number that is randomly generated when the Master Boot Record/Partition Table is first created and stored at byte offset 1B8 (hex) or 440 (dec) through 1BB (hex) or 443 (dec) in the MBR disk sector (0). So, on any MBR disks you can read it directly from that location:
const
// Max number of drives assuming primary/secondary, master/slave topology
MAX_IDE_DRIVES = 16;
var
i: Integer;
RawMBR: array[0..511] of Byte;
btsIO: DWORD;
hDevice: THandle;
s: string;
begin
s := '';
for i := 0 to MAX_IDE_DRIVES - 1 do
begin
hDevice := CreateFile(PChar('\\.\PHYSICALDRIVE' + IntToStr(i)), GENERIC_READ,
FILE_SHARE_READ or FILE_SHARE_WRITE, nil, OPEN_EXISTING, 0, 0);
if hDevice <> INVALID_HANDLE_VALUE then
begin
SetFilePointer(hDevice, 0, nil, FILE_BEGIN); //MBR starts in sector 0
if not ReadFile(hDevice, RawMBR[0], 512, btsIO, nil) then
begin
CloseHandle(hDevice);
Continue;
end;
CloseHandle(hDevice);
s := s + 'Disk ' + IntToStr(i) + ' = ' + IntToHex(RawMBR[443], 2) + ' ' +
IntToHex(RawMBR[442], 2) + ' ' + IntToHex(RawMBR[441], 2) +
' ' + IntToHex(RawMBR[440], 2) + #13#10;
end;
end;
ShowMessage(s);
end;
GPT Disks:
The Disk Signature/Identifier is a 16-byte (GUID) number that is randomly generated when the GPT is first created and stored at byte offset 038 (hex) or 56 (dec) through 047 (hex) or 71 (dec) in the GPT disk sector (1). So, on any GPT disks you can read it directly from that location:
const
// Max number of drives assuming primary/secondary, master/slave topology
MAX_IDE_DRIVES = 16;
var
i: Integer;
RawMBR: array[0..511] of Byte;
btsIO: DWORD;
hDevice: THandle;
s: string;
begin
s := '';
for i := 0 to MAX_IDE_DRIVES - 1 do
begin
hDevice := CreateFile(PChar('\\.\PHYSICALDRIVE' + IntToStr(i)), GENERIC_READ,
FILE_SHARE_READ or FILE_SHARE_WRITE, nil, OPEN_EXISTING, 0, 0);
if hDevice <> INVALID_HANDLE_VALUE then
begin
SetFilePointer(hDevice, 512, nil, FILE_BEGIN); //GPT starts in sector 1
if not ReadFile(hDevice, RawMBR[0], 512, btsIO, nil) then
begin
CloseHandle(hDevice);
Continue;
end;
CloseHandle(hDevice);
s := s + 'Disk ' + IntToStr(i) + ' = ' + IntToHex(RawMBR[59], 2) +
' ' + IntToHex(RawMBR[58], 2) + ' ' + IntToHex(RawMBR[57], 2) +
' ' + IntToHex(RawMBR[56], 2) + ' - ' + IntToHex(RawMBR[61], 2) +
' ' + IntToHex(RawMBR[60], 2) + ' - ' + IntToHex(RawMBR[63], 2) +
' ' + IntToHex(RawMBR[62], 2) + ' - ' + IntToHex(RawMBR[64], 2) +
' ' + IntToHex(RawMBR[65], 2) + ' - ' + IntToHex(RawMBR[66], 2) +
' ' + IntToHex(RawMBR[67], 2) + ' ' + IntToHex(RawMBR[68], 2) +
' ' + IntToHex(RawMBR[69], 2) + ' ' + IntToHex(RawMBR[70], 2) +
' ' + IntToHex(RawMBR[71], 2) +
#13#10;
end;
end;
ShowMessage(s);
end;
Ok, now let's combine them:
procedure TForm1.Button1Click(Sender: TObject);
const
// Max number of drives assuming primary/secondary, master/slave topology
MAX_IDE_DRIVES = 16;
var
i: Integer;
DiskType: Byte;
RawMBR: array[0..511] of Byte;
btsIO: DWORD;
hDevice: THandle;
s: string;
begin
s := '';
for i := 0 to MAX_IDE_DRIVES - 1 do
begin
hDevice := CreateFile(PChar('\\.\PHYSICALDRIVE' + IntToStr(i)), GENERIC_READ,
FILE_SHARE_READ or FILE_SHARE_WRITE, nil, OPEN_EXISTING, 0, 0);
if hDevice <> INVALID_HANDLE_VALUE then
begin
SetFilePointer(hDevice, 512, nil, FILE_BEGIN); //sector 1 for GPT
if not ReadFile(hDevice, RawMBR[0], 512, btsIO, nil) then
begin
CloseHandle(hDevice);
Continue;
end;
if (IntToHex(RawMBR[0], 2) + IntToHex(RawMBR[1], 2) +
IntToHex(RawMBR[2], 2) + IntToHex(RawMBR[3], 2) +
IntToHex(RawMBR[4], 2) + IntToHex(RawMBR[5], 2) +
IntToHex(RawMBR[6], 2) + IntToHex(RawMBR[7], 2)) =
'4546492050415254' then //EFI PART
DiskType := 1 //GPT
else
begin
DiskType := 0; //MBR
SetFilePointer(hDevice, 0, nil, FILE_BEGIN); //sector 0 for MBR
if not ReadFile(hDevice, RawMBR[0], 512, btsIO, nil) then
begin
CloseHandle(hDevice);
Continue;
end;
end;
CloseHandle(hDevice);
if DiskType = 0 then
s := s + 'Disk ' + IntToStr(i) + ' = ' + IntToHex(RawMBR[443], 2) + ' ' +
IntToHex(RawMBR[442], 2) + ' ' + IntToHex(RawMBR[441], 2) +
' ' + IntToHex(RawMBR[440], 2) + #13#10
else
s := s + 'Disk ' + IntToStr(i) + ' = ' + IntToHex(RawMBR[59], 2) +
' ' + IntToHex(RawMBR[58], 2) + ' ' + IntToHex(RawMBR[57], 2) +
' ' + IntToHex(RawMBR[56], 2) + ' - ' + IntToHex(RawMBR[61], 2) +
' ' + IntToHex(RawMBR[60], 2) + ' - ' + IntToHex(RawMBR[63], 2) +
' ' + IntToHex(RawMBR[62], 2) + ' - ' + IntToHex(RawMBR[64], 2) +
' ' + IntToHex(RawMBR[65], 2) + ' - ' + IntToHex(RawMBR[66], 2) +
' ' + IntToHex(RawMBR[67], 2) + ' ' + IntToHex(RawMBR[68], 2) +
' ' + IntToHex(RawMBR[69], 2) + ' ' + IntToHex(RawMBR[70], 2) +
' ' + IntToHex(RawMBR[71], 2) +
#13#10;
end;
end;
ShowMessage(s);
end;
This code requires elevated privileges to gain access to the disks.