VC6下获取硬盘序列号
//diskid32.h
// for displaying the details of hard drives in a command window
// 06/11/00 Lynn McGuire written with many contributions from others,
// IDE drives only under Windows NT/2K and 9X,
// maybe SCSI drives later
// 11/20/03 Lynn McGuire added ReadPhysicalDriveInNTWithZeroRights
// 10/26/05 Lynn McGuire fix the flipAndCodeBytes function
// 01/22/08 Lynn McGuire incorporate changes from Gonzalo Diethelm,
// remove media serial number code since does
// not work on USB hard drives or thumb drives
// 01/29/08 Lynn McGuire add ReadPhysicalDriveInNTUsingSmart
#define PRINTING_TO_CONSOLE_ALLOWED
#include <stdlib.h>
#include <stdio.h>
#include <stddef.h>
#include <string.h>
#include <windows.h>
#include <winioctl.h>
// special include from the MS DDK
//#include "c:\win2kddk\inc\ddk\ntddk.h"
//#include "c:\win2kddk\inc\ntddstor.h"
#define TITLE "DiskId32"
char HardDriveSerialNumber [1024];
char HardDriveModelNumber [1024];
int PRINT_DEBUG = false;
static void dump_buffer (const char* title,
const unsigned char* buffer,
int len);
void WriteConstantString (char *entry, char *string)
{
}
// Required to ensure correct PhysicalDrive IOCTL structure setup
#pragma pack(1)
#define IDENTIFY_BUFFER_SIZE 512
// IOCTL commands
#define DFP_GET_VERSION 0x00074080
#define DFP_SEND_DRIVE_COMMAND 0x0007c084
#define DFP_RECEIVE_DRIVE_DATA 0x0007c088
#define FILE_DEVICE_SCSI 0x0000001b
#define IOCTL_SCSI_MINIPORT_IDENTIFY ((FILE_DEVICE_SCSI << 16) + 0x0501)
#define IOCTL_SCSI_MINIPORT 0x0004D008 // see NTDDSCSI.H for definition
#define SMART_GET_VERSION CTL_CODE(IOCTL_DISK_BASE, 0x0020, METHOD_BUFFERED, FILE_READ_ACCESS)
#define SMART_SEND_DRIVE_COMMAND CTL_CODE(IOCTL_DISK_BASE, 0x0021, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
#define SMART_RCV_DRIVE_DATA CTL_CODE(IOCTL_DISK_BASE, 0x0022, METHOD_BUFFERED, FILE_READ_ACCESS | FILE_WRITE_ACCESS)
typedef struct _GETVERSIONINPARAMS {
UCHAR bVersion; // Binary driver version.
UCHAR bRevision; // Binary driver revision.
UCHAR bReserved; // Not used.
UCHAR bIDEDeviceMap; // Bit map of IDE devices.
ULONG fCapabilities; // Bit mask of driver capabilities.
ULONG dwReserved[4]; // For future use.
} GETVERSIONINPARAMS, *PGETVERSIONINPARAMS, *LPGETVERSIONINPARAMS;
// GETVERSIONOUTPARAMS contains the data returned from the
// Get Driver Version function.
typedef struct _GETVERSIONOUTPARAMS
{
BYTE bVersion; // Binary driver version.
BYTE bRevision; // Binary driver revision.
BYTE bReserved; // Not used.
BYTE bIDEDeviceMap; // Bit map of IDE devices.
DWORD fCapabilities; // Bit mask of driver capabilities.
DWORD dwReserved[4]; // For future use.
} GETVERSIONOUTPARAMS, *PGETVERSIONOUTPARAMS, *LPGETVERSIONOUTPARAMS;
// Bits returned in the fCapabilities member of GETVERSIONOUTPARAMS
#define CAP_IDE_ID_FUNCTION 1 // ATA ID command supported
#define CAP_IDE_ATAPI_ID 2 // ATAPI ID command supported
#define CAP_IDE_EXECUTE_SMART_FUNCTION 4 // SMART commannds supported
// IDE registers
typedef struct _IDEREGS
{
BYTE bFeaturesReg; // Used for specifying SMART "commands".
BYTE bSectorCountReg; // IDE sector count register
BYTE bSectorNumberReg; // IDE sector number register
BYTE bCylLowReg; // IDE low order cylinder value
BYTE bCylHighReg; // IDE high order cylinder value
BYTE bDriveHeadReg; // IDE drive/head register
BYTE bCommandReg; // Actual IDE command.
BYTE bReserved; // reserved for future use. Must be zero.
} IDEREGS, *PIDEREGS, *LPIDEREGS;
// SENDCMDINPARAMS contains the input parameters for the
// Send Command to Drive function.
typedef struct _SENDCMDINPARAMS
{
DWORD cBufferSize; // Buffer size in bytes
IDEREGS irDriveRegs; // Structure with drive register values.
BYTE bDriveNumber; // Physical drive number to send
// command to (0,1,2,3).
BYTE bReserved[3]; // Reserved for future expansion.
DWORD dwReserved[4]; // For future use.
BYTE bBuffer[1]; // Input buffer.
} SENDCMDINPARAMS, *PSENDCMDINPARAMS, *LPSENDCMDINPARAMS;
// Valid values for the bCommandReg member of IDEREGS.
#define IDE_ATAPI_IDENTIFY 0xA1 // Returns ID sector for ATAPI.
#define IDE_ATA_IDENTIFY 0xEC // Returns ID sector for ATA.
// Status returned from driver
typedef struct _DRIVERSTATUS
{
BYTE bDriverError; // Error code from driver, or 0 if no error.
BYTE bIDEStatus; // Contents of IDE Error register.
// Only valid when bDriverError is SMART_IDE_ERROR.
BYTE bReserved[2]; // Reserved for future expansion.
DWORD dwReserved[2]; // Reserved for future expansion.
} DRIVERSTATUS, *PDRIVERSTATUS, *LPDRIVERSTATUS;
// Structure returned by PhysicalDrive IOCTL for several commands
typedef struct _SENDCMDOUTPARAMS
{
DWORD cBufferSize; // Size of bBuffer in bytes
DRIVERSTATUS DriverStatus; // Driver status structure.
BYTE bBuffer[1]; // Buffer of arbitrary length in which to store the data read from the // drive.
} SENDCMDOUTPARAMS, *PSENDCMDOUTPARAMS, *LPSENDCMDOUTPARAMS;
// The following struct defines the interesting part of the IDENTIFY
// buffer:
typedef struct _IDSECTOR
{
USHORT wGenConfig;
USHORT wNumCyls;
USHORT wReserved;
USHORT wNumHeads;
USHORT wBytesPerTrack;
USHORT wBytesPerSector;
USHORT wSectorsPerTrack;
USHORT wVendorUnique[3];
CHAR sSerialNumber[20];
USHORT wBufferType;
USHORT wBufferSize;
USHORT wECCSize;
CHAR sFirmwareRev[8];
CHAR sModelNumber[40];
USHORT wMoreVendorUnique;
USHORT wDoubleWordIO;
USHORT wCapabilities;
USHORT wReserved1;
USHORT wPIOTiming;
USHORT wDMATiming;
USHORT wBS;
USHORT wNumCurrentCyls;
USHORT wNumCurrentHeads;
USHORT wNumCurrentSectorsPerTrack;
ULONG ulCurrentSectorCapacity;
USHORT wMultSectorStuff;
ULONG ulTotalAddressableSectors;
USHORT wSingleWordDMA;
USHORT wMultiWordDMA;
BYTE bReserved[128];
} IDSECTOR, *PIDSECTOR;
typedef struct _SRB_IO_CONTROL
{
ULONG HeaderLength;
UCHAR Signature[8];
ULONG Timeout;
ULONG ControlCode;
ULONG ReturnCode;
ULONG Length;
} SRB_IO_CONTROL, *PSRB_IO_CONTROL;
// Define global buffers.
BYTE IdOutCmd [sizeof (SENDCMDOUTPARAMS) + IDENTIFY_BUFFER_SIZE - 1];
char *ConvertToString (DWORD diskdata [256],
int firstIndex,
int lastIndex,
char* buf);
void PrintIdeInfo (int drive, DWORD diskdata [256]);
BOOL DoIDENTIFY (HANDLE, PSENDCMDINPARAMS, PSENDCMDOUTPARAMS, BYTE, BYTE,
PDWORD);
// Max number of drives assuming primary/secondary, master/slave topology
#define MAX_IDE_DRIVES 16
int ReadPhysicalDriveInNTWithAdminRights (void)
{
int done = FALSE;
int drive = 0;
for (drive = 0; drive < MAX_IDE_DRIVES; drive++)
{
HANDLE hPhysicalDriveIOCTL = 0;
// Try to get a handle to PhysicalDrive IOCTL, report failure
// and exit if can't.
char driveName [256];
sprintf (driveName, "\\\\.\\PhysicalDrive%d", drive);
// Windows NT, Windows 2000, must have admin rights
hPhysicalDriveIOCTL = CreateFile (driveName,
GENERIC_READ | GENERIC_WRITE,
FILE_SHARE_READ | FILE_SHARE_WRITE , NULL,
OPEN_EXISTING, 0, NULL);
// if (hPhysicalDriveIOCTL == INVALID_HANDLE_VALUE)
// printf ("Unable to open physical drive %d, error code: 0x%lX\n",
// drive, GetLastError ());
if (hPhysicalDriveIOCTL == INVALID_HANDLE_VALUE)
{
#ifdef PRINTING_TO_CONSOLE_ALLOWED
if (PRINT_DEBUG)
printf ("\n%d ReadPhysicalDriveInNTWithAdminRights ERROR"
"\nCreateFile(%s) returned INVALID_HANDLE_VALUE\n",
__LINE__, driveName);
#endif
}
else
{
GETVERSIONOUTPARAMS VersionParams;
DWORD cbBytesReturned = 0;
// Get the version, etc of PhysicalDrive IOCTL
memset ((void*) &VersionParams, 0, sizeof(VersionParams));
if ( ! DeviceIoControl (hPhysicalDriveIOCTL, DFP_GET_VERSION,
NULL,
0,
&VersionParams,
sizeof(VersionParams),
&cbBytesReturned, NULL) )
{
#ifdef PRINTING_TO_CONSOLE_ALLOWED
if (PRINT_DEBUG)
{
DWORD err = GetLastError ();
printf ("\n%d ReadPhysicalDriveInNTWithAdminRights ERROR"
"\nDeviceIoControl(%d, DFP_GET_VERSION) returned 0, error is %d\n",
__LINE__, (int) hPhysicalDriveIOCTL, (int) err);
}
#endif
}
// If there is a IDE device at number "i" issue commands
// to the device
if (VersionParams.bIDEDeviceMap <= 0)
{
#ifdef PRINTING_TO_CONSOLE_ALLOWED
if (PRINT_DEBUG)
printf ("\n%d ReadPhysicalDriveInNTWithAdminRights ERROR"
"\nNo device found at position %d (%d)\n",
__LINE__, (int) drive, (int) VersionParams.bIDEDeviceMap);
#endif
}
else
{
BYTE bIDCmd = 0; // IDE or ATAPI IDENTIFY cmd
SENDCMDINPARAMS scip;
//SENDCMDOUTPARAMS OutCmd;
// Now, get the ID sector for all IDE devices in the system.
// If the device is ATAPI use the IDE_ATAPI_IDENTIFY command,
// otherwise use the IDE_ATA_IDENTIFY command
bIDCmd = (VersionParams.bIDEDeviceMap >> drive & 0x10) ? \
IDE_ATAPI_IDENTIFY : IDE_ATA_IDENTIFY;
memset (&scip, 0, sizeof(scip));
memset (IdOutCmd, 0, sizeof(IdOutCmd));
if ( DoIDENTIFY (hPhysicalDriveIOCTL,
&scip,
(PSENDCMDOUTPARAMS)&IdOutCmd,
(BYTE) bIDCmd,
(BYTE) drive,
&cbBytesReturned))
{
DWORD diskdata [256];
int ijk = 0;
USHORT *pIdSector = (USHORT *)
((PSENDCMDOUTPARAMS) IdOutCmd) -> bBuffer;
for (ijk = 0; ijk < 256; ijk++)
diskdata [ijk] = pIdSector [ijk];
PrintIdeInfo (drive, diskdata);
done = TRUE;
}
}
CloseHandle (hPhysicalDriveIOCTL);
}
}
return done;
}
//
// IDENTIFY data (from ATAPI driver source)
//
#pragma pack(1)
typedef struct _IDENTIFY_DATA {
USHORT GeneralConfiguration; // 00 00
USHORT NumberOfCylinders; // 02 1
USHORT Reserved1; // 04 2
USHORT NumberOfHeads; // 06 3
USHORT UnformattedBytesPerTrack; // 08 4
USHORT UnformattedBytesPerSector; // 0A 5
USHORT SectorsPerTrack; // 0C 6
USHORT VendorUnique1[3]; // 0E 7-9
USHORT SerialNumber[10]; // 14 10-19
USHORT BufferType; // 28 20
USHORT BufferSectorSize; // 2A 21
USHORT NumberOfEccBytes; // 2C 22
USHORT FirmwareRevision[4]; // 2E 23-26
USHORT ModelNumber[20]; // 36 27-46
UCHAR MaximumBlockTransfer; // 5E 47
UCHAR VendorUnique2; // 5F
USHORT DoubleWordIo; // 60 48
USHORT Capabilities; // 62 49
USHORT Reserved2; // 64 50
UCHAR VendorUnique3; // 66 51
UCHAR PioCycleTimingMode; // 67
UCHAR VendorUnique4; // 68 52
UCHAR DmaCycleTimingMode; // 69
USHORT TranslationFieldsValid:1; // 6A 53
USHORT Reserved3:15;
USHORT NumberOfCurrentCylinders; // 6C 54
USHORT NumberOfCurrentHeads; // 6E 55
USHORT CurrentSectorsPerTrack; // 70 56
ULONG CurrentSectorCapacity; // 72 57-58
USHORT CurrentMultiSectorSetting; // 59
ULONG UserAddressableSectors; // 60-61
USHORT SingleWordDMASupport : 8; // 62
USHORT SingleWordDMAActive : 8;
USHORT MultiWordDMASupport : 8; // 63
USHORT MultiWordDMAActive : 8;
USHORT AdvancedPIOModes : 8; // 64
USHORT Reserved4 : 8;
USHORT MinimumMWXferCycleTime; // 65
USHORT RecommendedMWXferCycleTime; // 66
USHORT MinimumPIOCycleTime; // 67
USHORT MinimumPIOCycleTimeIORDY; // 68
USHORT Reserved5[2]; // 69-70
USHORT ReleaseTimeOverlapped; // 71
USHORT ReleaseTimeServiceCommand; // 72
USHORT MajorRevision; // 73
USHORT MinorRevision; // 74
USHORT Reserved6[50]; // 75-126
USHORT SpecialFunctionsEnabled; // 127
USHORT Reserved7[128]; // 128-255
} IDENTIFY_DATA, *PIDENTIFY_DATA;
#pragma pack()
int ReadPhysicalDriveInNTUsingSmart (void)
{
int done = FALSE;
int drive = 0;
for (drive = 0; drive < MAX_IDE_DRIVES; drive++)
{
HANDLE hPhysicalDriveIOCTL = 0;
// Try to get a handle to PhysicalDrive IOCTL, report failure
// and exit if can't.
char driveName [256];
sprintf (driveName, "\\\\.\\PhysicalDrive%d", drive);
// Windows NT, Windows 2000, Windows Server 2003, Vista
hPhysicalDriveIOCTL = CreateFile (driveName,
GENERIC_READ | GENERIC_WRITE,
FILE_SHARE_DELETE | FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL, OPEN_EXISTING, 0, NULL);
// if (hPhysicalDriveIOCTL == INVALID_HANDLE_VALUE)
// printf ("Unable to open physical drive %d, error code: 0x%lX\n",
// drive, GetLastError ());
if (hPhysicalDriveIOCTL == INVALID_HANDLE_VALUE)
{
#ifdef PRINTING_TO_CONSOLE_ALLOWED
if (PRINT_DEBUG)
printf ("\n%d ReadPhysicalDriveInNTUsingSmart ERROR"
"\nCreateFile(%s) returned INVALID_HANDLE_VALUE\n"
"Error Code %d\n",
__LINE__, driveName, GetLastError ());
#endif
}
else
{
GETVERSIONINPARAMS GetVersionParams;
DWORD cbBytesReturned = 0;
// Get the version, etc of PhysicalDrive IOCTL
memset ((void*) & GetVersionParams, 0, sizeof(GetVersionParams));
if ( ! DeviceIoControl (hPhysicalDriveIOCTL, SMART_GET_VERSION,
NULL,
0,
&GetVersionParams, sizeof (GETVERSIONINPARAMS),
&cbBytesReturned, NULL) )
{
#ifdef PRINTING_TO_CONSOLE_ALLOWED
if (PRINT_DEBUG)
{
DWORD err = GetLastError ();
printf ("\n%d ReadPhysicalDriveInNTUsingSmart ERROR"
"\nDeviceIoControl(%d, SMART_GET_VERSION) returned 0, error is %d\n",
__LINE__, (int) hPhysicalDriveIOCTL, (int) err);
}
#endif
}
else
{
// Print the SMART version
// PrintVersion (& GetVersionParams);
// Allocate the command buffer
ULONG CommandSize = sizeof(SENDCMDINPARAMS) + IDENTIFY_BUFFER_SIZE;
PSENDCMDINPARAMS Command = (PSENDCMDINPARAMS) malloc (CommandSize);
// Retrieve the IDENTIFY data
// Prepare the command
#define ID_CMD 0xEC // Returns ID sector for ATA
Command -> irDriveRegs.bCommandReg = ID_CMD;
DWORD BytesReturned = 0;
if ( ! DeviceIoControl (hPhysicalDriveIOCTL,
SMART_RCV_DRIVE_DATA, Command, sizeof(SENDCMDINPARAMS),
Command, CommandSize,
&BytesReturned, NULL) )
{
// Print the error
//PrintError ("SMART_RCV_DRIVE_DATA IOCTL", GetLastError());
}
else
{
// Print the IDENTIFY data
DWORD diskdata [256];
USHORT *pIdSector = (USHORT *)
(PIDENTIFY_DATA) ((PSENDCMDOUTPARAMS) Command) -> bBuffer;
for (int ijk = 0; ijk < 256; ijk++)
diskdata [ijk] = pIdSector [ijk];
PrintIdeInfo (drive, diskdata);
done = TRUE;
}
// Done
CloseHandle (hPhysicalDriveIOCTL);
free (Command);
}
}
}
return done;
}
// Required to ensure correct PhysicalDrive IOCTL structure setup
#pragma pack(4)
//
// IOCTL_STORAGE_QUERY_PROPERTY
//
// Input Buffer:
// a STORAGE_PROPERTY_QUERY structure which describes what type of query
// is being done, what property is being queried for, and any additional
// parameters which a particular property query requires.
//
// Output Buffer:
// Contains a buffer to place the results of the query into. Since all
// property descriptors can be cast into a STORAGE_DESCRIPTOR_HEADER,
// the IOCTL can be called once with a small buffer then again using
// a buffer as large as the header reports is necessary.
//
//
// Types of queries
//
typedef enum _STORAGE_QUERY_TYPE {
PropertyStandardQuery = 0, // Retrieves the descriptor
PropertyExistsQuery, // Used to test whether the descriptor is supported
PropertyMaskQuery, // Used to retrieve a mask of writeable fields in the descriptor
PropertyQueryMaxDefined // use to validate the value
} STORAGE_QUERY_TYPE, *PSTORAGE_QUERY_TYPE;
//
// define some initial property id's
//
typedef enum _STORAGE_PROPERTY_ID {
StorageDeviceProperty = 0,
StorageAdapterProperty
} STORAGE_PROPERTY_ID, *PSTORAGE_PROPERTY_ID;
//
// Query structure - additional parameters for specific queries can follow
// the header
//
typedef struct _STORAGE_PROPERTY_QUERY {
//
// ID of the property being retrieved
//
STORAGE_PROPERTY_ID PropertyId;
//
// Flags indicating the type of query being performed
//
STORAGE_QUERY_TYPE QueryType;
//
// Space for additional parameters if necessary
//
UCHAR AdditionalParameters[1];
} STORAGE_PROPERTY_QUERY, *PSTORAGE_PROPERTY_QUERY;
#define IOCTL_STORAGE_QUERY_PROPERTY CTL_CODE(IOCTL_STORAGE_BASE, 0x0500, METHOD_BUFFERED, FILE_ANY_ACCESS)
//
// Device property descriptor - this is really just a rehash of the inquiry
// data retrieved from a scsi device
//
// This may only be retrieved from a target device. Sending this to the bus
// will result in an error
//
#pragma pack(4)
typedef struct _STORAGE_DEVICE_DESCRIPTOR {
//
// Sizeof(STORAGE_DEVICE_DESCRIPTOR)
//
ULONG Version;
//
// Total size of the descriptor, including the space for additional
// data and id strings
//
ULONG Size;
//
// The SCSI-2 device type
//
UCHAR DeviceType;
//
// The SCSI-2 device type modifier (if any) - this may be zero
//
UCHAR DeviceTypeModifier;
//
// Flag indicating whether the device's media (if any) is removable. This
// field should be ignored for media-less devices
//
BOOLEAN RemovableMedia;
//
// Flag indicating whether the device can support mulitple outstanding
// commands. The actual synchronization in this case is the responsibility
// of the port driver.
//
BOOLEAN CommandQueueing;
//
// Byte offset to the zero-terminated ascii string containing the device's
// vendor id string. For devices with no such ID this will be zero
//
ULONG VendorIdOffset;
//
// Byte offset to the zero-terminated ascii string containing the device's
// product id string. For devices with no such ID this will be zero
//
ULONG ProductIdOffset;
//
// Byte offset to the zero-terminated ascii string containing the device's
// product revision string. For devices with no such string this will be
// zero
//
ULONG ProductRevisionOffset;
//
// Byte offset to the zero-terminated ascii string containing the device's
// serial number. For devices with no serial number this will be zero
//
ULONG SerialNumberOffset;
//
// Contains the bus type (as defined above) of the device. It should be
// used to interpret the raw device properties at the end of this structure
// (if any)
//
//STORAGE_BUS_TYPE BusType;
//
// The number of bytes of bus-specific data which have been appended to
// this descriptor
//
ULONG RawPropertiesLength;
//
// Place holder for the first byte of the bus specific property data
//
UCHAR RawDeviceProperties[1];
} STORAGE_DEVICE_DESCRIPTOR, *PSTORAGE_DEVICE_DESCRIPTOR;
// function to decode the serial numbers of IDE hard drives
// using the IOCTL_STORAGE_QUERY_PROPERTY command
char * flipAndCodeBytes (const char * str,
int pos,
int flip,
char * buf)
{
int i;
int j = 0;
int k = 0;
buf [0] = '\0';
if (pos <= 0)
return buf;
if ( ! j)
{
char p = 0;
// First try to gather all characters representing hex digits only.
j = 1;
k = 0;
buf[k] = 0;
for (i = pos; j && str[i] != '\0'; ++i)
{
char c = tolower(str[i]);
if (isspace(c))
c = '0';
++p;
buf[k] <<= 4;
if (c >= '0' && c <= '9')
buf[k] |= (unsigned char) (c - '0');
else if (c >= 'a' && c <= 'f')
buf[k] |= (unsigned char) (c - 'a' + 10);
else
{
j = 0;
break;
}
if (p == 2)
{
if (buf[k] != '\0' && ! isprint(buf[k]))
{
j = 0;
break;
}
++k;
p = 0;
buf[k] = 0;
}
}
}
if ( ! j)
{
// There are non-digit characters, gather them as is.
j = 1;
k = 0;
for (i = pos; j && str[i] != '\0'; ++i)
{
char c = str[i];
if ( ! isprint(c))
{
j = 0;
break;
}
buf[k++] = c;
}
}
if ( ! j)
{
// The characters are not there or are not printable.
k = 0;
}
buf[k] = '\0';
if (flip)
// Flip adjacent characters
for (j = 0; j < k; j += 2)
{
char t = buf[j];
buf[j] = buf[j + 1];
buf[j + 1] = t;
}
// Trim any beginning and end space
i = j = -1;
for (k = 0; buf[k] != '\0'; ++k)
{
if (! isspace(buf[k]))
{
if (i < 0)
i = k;
j = k;
}
}
if ((i >= 0) && (j >= 0))
{
for (k = i; (k <= j) && (buf[k] != '\0'); ++k)
buf[k - i] = buf[k];
buf[k - i] = '\0';
}
return buf;
}
#define IOCTL_DISK_GET_DRIVE_GEOMETRY_EX CTL_CODE(IOCTL_DISK_BASE, 0x0028, METHOD_BUFFERED, FILE_ANY_ACCESS)
typedef struct _DISK_GEOMETRY_EX {
DISK_GEOMETRY Geometry;
LARGE_INTEGER DiskSize;
UCHAR Data[1];
} DISK_GEOMETRY_EX, *PDISK_GEOMETRY_EX;
int ReadPhysicalDriveInNTWithZeroRights (void)
{
int done = FALSE;
int drive = 0;
for (drive = 0; drive < MAX_IDE_DRIVES; drive++)
{
HANDLE hPhysicalDriveIOCTL = 0;
// Try to get a handle to PhysicalDrive IOCTL, report failure
// and exit if can't.
char driveName [256];
sprintf (driveName, "\\\\.\\PhysicalDrive%d", drive);
// Windows NT, Windows 2000, Windows XP - admin rights not required
hPhysicalDriveIOCTL = CreateFile (driveName, 0,
FILE_SHARE_READ | FILE_SHARE_WRITE, NULL,
OPEN_EXISTING, 0, NULL);
if (hPhysicalDriveIOCTL == INVALID_HANDLE_VALUE)
{
#ifdef PRINTING_TO_CONSOLE_ALLOWED
if (PRINT_DEBUG)
printf ("\n%d ReadPhysicalDriveInNTWithZeroRights ERROR"
"\nCreateFile(%s) returned INVALID_HANDLE_VALUE\n",
__LINE__, driveName);
#endif
}
else
{
STORAGE_PROPERTY_QUERY query;
DWORD cbBytesReturned = 0;
char buffer [10000];
memset ((void *) & query, 0, sizeof (query));
query.PropertyId = StorageDeviceProperty;
query.QueryType = PropertyStandardQuery;
memset (buffer, 0, sizeof (buffer));
if ( DeviceIoControl (hPhysicalDriveIOCTL, IOCTL_STORAGE_QUERY_PROPERTY,
& query,
sizeof (query),
& buffer,
sizeof (buffer),
& cbBytesReturned, NULL) )
{
STORAGE_DEVICE_DESCRIPTOR * descrip = (STORAGE_DEVICE_DESCRIPTOR *) & buffer;
char serialNumber [1000];
char modelNumber [1000];
char vendorId [1000];
char productRevision [1000];
#ifdef PRINTING_TO_CONSOLE_ALLOWED
if (PRINT_DEBUG)
{
printf ("\n%d STORAGE_DEVICE_DESCRIPTOR contents for drive %d\n"
" Version: %ld\n"
" Size: %ld\n"
" DeviceType: %02x\n"
" DeviceTypeModifier: %02x\n"
" RemovableMedia: %d\n"
" CommandQueueing: %d\n"
" VendorIdOffset: %4ld (0x%02lx)\n"
" ProductIdOffset: %4ld (0x%02lx)\n"
" ProductRevisionOffset: %4ld (0x%02lx)\n"
" SerialNumberOffset: %4ld (0x%02lx)\n"
//" BusType: %d\n"
" RawPropertiesLength: %ld\n",
__LINE__, drive,
(unsigned long) descrip->Version,
(unsigned long) descrip->Size,
(int) descrip->DeviceType,
(int) descrip->DeviceTypeModifier,
(int) descrip->RemovableMedia,
(int) descrip->CommandQueueing,
(unsigned long) descrip->VendorIdOffset,
(unsigned long) descrip->VendorIdOffset,
(unsigned long) descrip->ProductIdOffset,
(unsigned long) descrip->ProductIdOffset,
(unsigned long) descrip->ProductRevisionOffset,
(unsigned long) descrip->ProductRevisionOffset,
(unsigned long) descrip->SerialNumberOffset,
(unsigned long) descrip->SerialNumberOffset,
//(int) descrip->BusType,
(unsigned long) descrip->RawPropertiesLength);
dump_buffer ("Contents of RawDeviceProperties",
(unsigned char*) descrip->RawDeviceProperties,
descrip->RawPropertiesLength);
dump_buffer ("Contents of first 256 bytes in buffer",
(unsigned char*) buffer, 256);
}
#endif
flipAndCodeBytes (buffer,
descrip -> VendorIdOffset,
0, vendorId );
flipAndCodeBytes (buffer,
descrip -> ProductIdOffset,
0, modelNumber );
flipAndCodeBytes (buffer,
descrip -> ProductRevisionOffset,
0, productRevision );
flipAndCodeBytes (buffer,
descrip -> SerialNumberOffset,
1, serialNumber );
if (0 == HardDriveSerialNumber [0] &&
// serial number must be alphanumeric
// (but there can be leading spaces on IBM drives)
(isalnum (serialNumber [0]) || isalnum (serialNumber [19])))
{
strcpy (HardDriveSerialNumber, serialNumber);
strcpy (HardDriveModelNumber, modelNumber);
done = TRUE;
}
#ifdef PRINTING_TO_CONSOLE_ALLOWED
printf ("\n**** STORAGE_DEVICE_DESCRIPTOR for drive %d ****\n"
"Vendor Id = [%s]\n"
"Product Id = [%s]\n"
"Product Revision = [%s]\n"
"Serial Number = [%s]\n",
drive,
vendorId,
modelNumber,
productRevision,
serialNumber);
#endif
// Get the disk drive geometry.
memset (buffer, 0, sizeof(buffer));
if ( ! DeviceIoControl (hPhysicalDriveIOCTL,
IOCTL_DISK_GET_DRIVE_GEOMETRY_EX,
NULL,
0,
&buffer,
sizeof(buffer),
&cbBytesReturned,
NULL))
{
#ifdef PRINTING_TO_CONSOLE_ALLOWED
if (PRINT_DEBUG)
printf ("\n%d ReadPhysicalDriveInNTWithZeroRights ERROR"
"|nDeviceIoControl(%s, IOCTL_DISK_GET_DRIVE_GEOMETRY_EX) returned 0",
driveName);
#endif
}
else
{
DISK_GEOMETRY_EX* geom = (DISK_GEOMETRY_EX*) &buffer;
int fixed = (geom->Geometry.MediaType == FixedMedia);
__int64 size = geom->DiskSize.QuadPart;
#ifdef PRINTING_TO_CONSOLE_ALLOWED
printf ("\n**** DISK_GEOMETRY_EX for drive %d ****\n"
"Disk is%s fixed\n"
"DiskSize = %I64d\n",
drive,
fixed ? "" : " NOT",
size);
#endif
}
}
else
{
DWORD err = GetLastError ();
#ifdef PRINTING_TO_CONSOLE_ALLOWED
printf ("\nDeviceIOControl IOCTL_STORAGE_QUERY_PROPERTY error = %d\n", err);
#endif
}
CloseHandle (hPhysicalDriveIOCTL);
}
}
return done;
}
// DoIDENTIFY
// FUNCTION: Send an IDENTIFY command to the drive
// bDriveNum = 0-3
// bIDCmd = IDE_ATA_IDENTIFY or IDE_ATAPI_IDENTIFY
BOOL DoIDENTIFY (HANDLE hPhysicalDriveIOCTL, PSENDCMDINPARAMS pSCIP,
PSENDCMDOUTPARAMS pSCOP, BYTE bIDCmd, BYTE bDriveNum,
PDWORD lpcbBytesReturned)
{
// Set up data structures for IDENTIFY command.
pSCIP -> cBufferSize = IDENTIFY_BUFFER_SIZE;
pSCIP -> irDriveRegs.bFeaturesReg = 0;
pSCIP -> irDriveRegs.bSectorCountReg = 1;
//pSCIP -> irDriveRegs.bSectorNumberReg = 1;
pSCIP -> irDriveRegs.bCylLowReg = 0;
pSCIP -> irDriveRegs.bCylHighReg = 0;
// Compute the drive number.
pSCIP -> irDriveRegs.bDriveHeadReg = 0xA0 | ((bDriveNum & 1) << 4);
// The command can either be IDE identify or ATAPI identify.
pSCIP -> irDriveRegs.bCommandReg = bIDCmd;
pSCIP -> bDriveNumber = bDriveNum;
pSCIP -> cBufferSize = IDENTIFY_BUFFER_SIZE;
return ( DeviceIoControl (hPhysicalDriveIOCTL, DFP_RECEIVE_DRIVE_DATA,
(LPVOID) pSCIP,
sizeof(SENDCMDINPARAMS) - 1,
(LPVOID) pSCOP,
sizeof(SENDCMDOUTPARAMS) + IDENTIFY_BUFFER_SIZE - 1,
lpcbBytesReturned, NULL) );
}
// ---------------------------------------------------
// (* Output Bbuffer for the VxD (rt_IdeDinfo record) *)
typedef struct _rt_IdeDInfo_
{
BYTE IDEExists[4];
BYTE DiskExists[8];
WORD DisksRawInfo[8*256];
} rt_IdeDInfo, *pt_IdeDInfo;
// (* IdeDinfo "data fields" *)
typedef struct _rt_DiskInfo_
{
BOOL DiskExists;
BOOL ATAdevice;
BOOL RemovableDevice;
WORD TotLogCyl;
WORD TotLogHeads;
WORD TotLogSPT;
char SerialNumber[20];
char FirmwareRevision[8];
char ModelNumber[40];
WORD CurLogCyl;
WORD CurLogHeads;
WORD CurLogSPT;
} rt_DiskInfo;
#define m_cVxDFunctionIdesDInfo 1
// ---------------------------------------------------
int ReadDrivePortsInWin9X (void)
{
int done = FALSE;
unsigned long int i = 0;
HANDLE VxDHandle = 0;
pt_IdeDInfo pOutBufVxD = 0;
DWORD lpBytesReturned = 0;
// set the thread priority high so that we get exclusive access to the disk
BOOL status =
// SetThreadPriority (GetCurrentThread(), THREAD_PRIORITY_TIME_CRITICAL);
SetPriorityClass (GetCurrentProcess (), REALTIME_PRIORITY_CLASS);
// SetPriorityClass (GetCurrentProcess (), HIGH_PRIORITY_CLASS);
#ifdef PRINTING_TO_CONSOLE_ALLOWED
if (0 == status)
// printf ("\nERROR: Could not SetThreadPriority, LastError: %d\n", GetLastError ());
printf ("\nERROR: Could not SetPriorityClass, LastError: %d\n", GetLastError ());
#endif
// 1. Make an output buffer for the VxD
rt_IdeDInfo info;
pOutBufVxD = &info;
// *****************
// KLUDGE WARNING!!!
// HAVE to zero out the buffer space for the IDE information!
// If this is NOT done then garbage could be in the memory
// locations indicating if a disk exists or not.
ZeroMemory (&info, sizeof(info));
// 1. Try to load the VxD
// must use the short file name path to open a VXD file
//char StartupDirectory [2048];
//char shortFileNamePath [2048];
//char *p = NULL;
//char vxd [2048];
// get the directory that the exe was started from
//GetModuleFileName (hInst, (LPSTR) StartupDirectory, sizeof (StartupDirectory));
// cut the exe name from string
//p = &(StartupDirectory [strlen (StartupDirectory) - 1]);
//while (p >= StartupDirectory && *p && '\\' != *p) p--;
//*p = '\0';
//GetShortPathName (StartupDirectory, shortFileNamePath, 2048);
//sprintf (vxd, "\\\\.\\%s\\IDE21201.VXD", shortFileNamePath);
//VxDHandle = CreateFile (vxd, 0, 0, 0,
// 0, FILE_FLAG_DELETE_ON_CLOSE, 0);
VxDHandle = CreateFile ("\\\\.\\IDE21201.VXD", 0, 0, 0,
0, FILE_FLAG_DELETE_ON_CLOSE, 0);
if (VxDHandle != INVALID_HANDLE_VALUE)
{
// 2. Run VxD function
DeviceIoControl (VxDHandle, m_cVxDFunctionIdesDInfo,
0, 0, pOutBufVxD, sizeof(pt_IdeDInfo), &lpBytesReturned, 0);
// 3. Unload VxD
CloseHandle (VxDHandle);
}
else
MessageBox (NULL, "ERROR: Could not open IDE21201.VXD file",
TITLE, MB_ICONSTOP);
// 4. Translate and store data
for (i=0; i<8; i++)
{
if((pOutBufVxD->DiskExists[i]) && (pOutBufVxD->IDEExists[i/2]))
{
DWORD diskinfo [256];
for (int j = 0; j < 256; j++)
diskinfo [j] = pOutBufVxD -> DisksRawInfo [i * 256 + j];
// process the information for this buffer
PrintIdeInfo (i, diskinfo);
done = TRUE;
}
}
// reset the thread priority back to normal
// SetThreadPriority (GetCurrentThread(), THREAD_PRIORITY_NORMAL);
SetPriorityClass (GetCurrentProcess (), NORMAL_PRIORITY_CLASS);
return done;
}
#define SENDIDLENGTH sizeof (SENDCMDOUTPARAMS) + IDENTIFY_BUFFER_SIZE
int ReadIdeDriveAsScsiDriveInNT (void)
{
int done = FALSE;
int controller = 0;
for (controller = 0; controller < 16; controller++)
{
HANDLE hScsiDriveIOCTL = 0;
char driveName [256];
// Try to get a handle to PhysicalDrive IOCTL, report failure
// and exit if can't.
sprintf (driveName, "\\\\.\\Scsi%d:", controller);
// Windows NT, Windows 2000, any rights should do
hScsiDriveIOCTL = CreateFile (driveName,
GENERIC_READ | GENERIC_WRITE,
FILE_SHARE_READ | FILE_SHARE_WRITE, NULL,
OPEN_EXISTING, 0, NULL);
// if (hScsiDriveIOCTL == INVALID_HANDLE_VALUE)
// printf ("Unable to open SCSI controller %d, error code: 0x%lX\n",
// controller, GetLastError ());
if (hScsiDriveIOCTL != INVALID_HANDLE_VALUE)
{
int drive = 0;
for (drive = 0; drive < 2; drive++)
{
char buffer [sizeof (SRB_IO_CONTROL) + SENDIDLENGTH];
SRB_IO_CONTROL *p = (SRB_IO_CONTROL *) buffer;
SENDCMDINPARAMS *pin =
(SENDCMDINPARAMS *) (buffer + sizeof (SRB_IO_CONTROL));
DWORD dummy;
memset (buffer, 0, sizeof (buffer));
p -> HeaderLength = sizeof (SRB_IO_CONTROL);
p -> Timeout = 10000;
p -> Length = SENDIDLENGTH;
p -> ControlCode = IOCTL_SCSI_MINIPORT_IDENTIFY;
strncpy ((char *) p -> Signature, "SCSIDISK", 8);
pin -> irDriveRegs.bCommandReg = IDE_ATA_IDENTIFY;
pin -> bDriveNumber = drive;
if (DeviceIoControl (hScsiDriveIOCTL, IOCTL_SCSI_MINIPORT,
buffer,
sizeof (SRB_IO_CONTROL) +
sizeof (SENDCMDINPARAMS) - 1,
buffer,
sizeof (SRB_IO_CONTROL) + SENDIDLENGTH,
&dummy, NULL))
{
SENDCMDOUTPARAMS *pOut =
(SENDCMDOUTPARAMS *) (buffer + sizeof (SRB_IO_CONTROL));
IDSECTOR *pId = (IDSECTOR *) (pOut -> bBuffer);
if (pId -> sModelNumber [0])
{
DWORD diskdata [256];
int ijk = 0;
USHORT *pIdSector = (USHORT *) pId;
for (ijk = 0; ijk < 256; ijk++)
diskdata [ijk] = pIdSector [ijk];
PrintIdeInfo (controller * 2 + drive, diskdata);
done = TRUE;
}
}
}
CloseHandle (hScsiDriveIOCTL);
}
}
return done;
}
void PrintIdeInfo (int drive, DWORD diskdata [256])
{
char serialNumber [1024];
char modelNumber [1024];
char revisionNumber [1024];
char bufferSize [32];
__int64 sectors = 0;
__int64 bytes = 0;
// copy the hard drive serial number to the buffer
ConvertToString (diskdata, 10, 19, serialNumber);
ConvertToString (diskdata, 27, 46, modelNumber);
ConvertToString (diskdata, 23, 26, revisionNumber);
sprintf (bufferSize, "%u", diskdata [21] * 512);
if (0 == HardDriveSerialNumber [0] &&
// serial number must be alphanumeric
// (but there can be leading spaces on IBM drives)
(isalnum (serialNumber [0]) || isalnum (serialNumber [19])))
{
strcpy (HardDriveSerialNumber, serialNumber);
strcpy (HardDriveModelNumber, modelNumber);
}
#ifdef PRINTING_TO_CONSOLE_ALLOWED
printf ("\nDrive %d - ", drive);
switch (drive / 2)
{
case 0: printf ("Primary Controller - ");
break;
case 1: printf ("Secondary Controller - ");
break;
case 2: printf ("Tertiary Controller - ");
break;
case 3: printf ("Quaternary Controller - ");
break;
}
switch (drive % 2)
{
case 0: printf (" - Master drive\n\n");
break;
case 1: printf (" - Slave drive\n\n");
break;
}
printf ("Drive Model Number________________: [%s]\n",
modelNumber);
printf ("Drive Serial Number_______________: [%s]\n",
serialNumber);
printf ("Drive Controller Revision Number__: [%s]\n",
revisionNumber);
printf ("Controller Buffer Size on Drive___: %s bytes\n",
bufferSize);
printf ("Drive Type________________________: ");
if (diskdata [0] & 0x0080)
printf ("Removable\n");
else if (diskdata [0] & 0x0040)
printf ("Fixed\n");
else printf ("Unknown\n");
// calculate size based on 28 bit or 48 bit addressing
// 48 bit addressing is reflected by bit 10 of word 83
if (diskdata [83] & 0x400)
sectors = diskdata [103] * 65536I64 * 65536I64 * 65536I64 +
diskdata [102] * 65536I64 * 65536I64 +
diskdata [101] * 65536I64 +
diskdata [100];
else
sectors = diskdata [61] * 65536 + diskdata [60];
// there are 512 bytes in a sector
bytes = sectors * 512;
printf ("Drive Size________________________: %I64d bytes\n",
bytes);
#endif // PRINTING_TO_CONSOLE_ALLOWED
char string1 [1000];
sprintf (string1, "Drive%dModelNumber", drive);
WriteConstantString (string1, modelNumber);
sprintf (string1, "Drive%dSerialNumber", drive);
WriteConstantString (string1, serialNumber);
sprintf (string1, "Drive%dControllerRevisionNumber", drive);
WriteConstantString (string1, revisionNumber);
sprintf (string1, "Drive%dControllerBufferSize", drive);
WriteConstantString (string1, bufferSize);
sprintf (string1, "Drive%dType", drive);
if (diskdata [0] & 0x0080)
WriteConstantString (string1, "Removable");
else if (diskdata [0] & 0x0040)
WriteConstantString (string1, "Fixed");
else
WriteConstantString (string1, "Unknown");
}
char *ConvertToString (DWORD diskdata [256],
int firstIndex,
int lastIndex,
char* buf)
{
int index = 0;
int position = 0;
// each integer has two characters stored in it backwards
for (index = firstIndex; index <= lastIndex; index++)
{
// get high byte for 1st character
buf [position++] = (char) (diskdata [index] / 256);
// get low byte for 2nd character
buf [position++] = (char) (diskdata [index] % 256);
}
// end the string
buf[position] = '\0';
// cut off the trailing blanks
for (index = position - 1; index > 0 && isspace(buf [index]); index--)
buf [index] = '\0';
return buf;
}
long getHardDriveComputerID ()
{
int done = FALSE;
// char string [1024];
__int64 id = 0;
OSVERSIONINFO version;
strcpy (HardDriveSerialNumber, "");
memset (&version, 0, sizeof (version));
version.dwOSVersionInfoSize = sizeof (OSVERSIONINFO);
GetVersionEx (&version);
if (version.dwPlatformId == VER_PLATFORM_WIN32_NT)
{
// this works under WinNT4 or Win2K if you have admin rights
#ifdef PRINTING_TO_CONSOLE_ALLOWED
printf ("\nTrying to read the drive IDs using physical access with admin rights\n");
#endif
done = ReadPhysicalDriveInNTWithAdminRights ();
// this should work in WinNT or Win2K if previous did not work
// this is kind of a backdoor via the SCSI mini port driver into
// the IDE drives
#ifdef PRINTING_TO_CONSOLE_ALLOWED
printf ("\nTrying to read the drive IDs using the SCSI back door\n");
#endif
// if ( ! done)
done = ReadIdeDriveAsScsiDriveInNT ();
// this works under WinNT4 or Win2K or WinXP if you have any rights
#ifdef PRINTING_TO_CONSOLE_ALLOWED
printf ("\nTrying to read the drive IDs using physical access with zero rights\n");
#endif
//if ( ! done)
done = ReadPhysicalDriveInNTWithZeroRights ();
// this works under WinNT4 or Win2K or WinXP or Windows Server 2003 or Vista if you have any rights
#ifdef PRINTING_TO_CONSOLE_ALLOWED
printf ("\nTrying to read the drive IDs using Smart\n");
#endif
//if ( ! done)
done = ReadPhysicalDriveInNTUsingSmart ();
}
else
{
// this works under Win9X and calls a VXD
int attempt = 0;
// try this up to 10 times to get a hard drive serial number
for (attempt = 0;
attempt < 10 && ! done && 0 == HardDriveSerialNumber [0];
attempt++)
done = ReadDrivePortsInWin9X ();
}
if (HardDriveSerialNumber [0] > 0)
{
char *p = HardDriveSerialNumber;
WriteConstantString ("HardDriveSerialNumber", HardDriveSerialNumber);
// ignore first 5 characters from western digital hard drives if
// the first four characters are WD-W
if ( ! strncmp (HardDriveSerialNumber, "WD-W", 4))
p += 5;
for ( ; p && *p; p++)
{
if ('-' == *p)
continue;
id *= 10;
switch (*p)
{
case '0': id += 0; break;
case '1': id += 1; break;
case '2': id += 2; break;
case '3': id += 3; break;
case '4': id += 4; break;
case '5': id += 5; break;
case '6': id += 6; break;
case '7': id += 7; break;
case '8': id += 8; break;
case '9': id += 9; break;
case 'a': case 'A': id += 10; break;
case 'b': case 'B': id += 11; break;
case 'c': case 'C': id += 12; break;
case 'd': case 'D': id += 13; break;
case 'e': case 'E': id += 14; break;
case 'f': case 'F': id += 15; break;
case 'g': case 'G': id += 16; break;
case 'h': case 'H': id += 17; break;
case 'i': case 'I': id += 18; break;
case 'j': case 'J': id += 19; break;
case 'k': case 'K': id += 20; break;
case 'l': case 'L': id += 21; break;
case 'm': case 'M': id += 22; break;
case 'n': case 'N': id += 23; break;
case 'o': case 'O': id += 24; break;
case 'p': case 'P': id += 25; break;
case 'q': case 'Q': id += 26; break;
case 'r': case 'R': id += 27; break;
case 's': case 'S': id += 28; break;
case 't': case 'T': id += 29; break;
case 'u': case 'U': id += 30; break;
case 'v': case 'V': id += 31; break;
case 'w': case 'W': id += 32; break;
case 'x': case 'X': id += 33; break;
case 'y': case 'Y': id += 34; break;
case 'z': case 'Z': id += 35; break;
}
}
}
id %= 100000000;
if (strstr (HardDriveModelNumber, "IBM-"))
id += 300000000;
else if (strstr (HardDriveModelNumber, "MAXTOR") ||
strstr (HardDriveModelNumber, "Maxtor"))
id += 400000000;
else if (strstr (HardDriveModelNumber, "WDC "))
id += 500000000;
else
id += 600000000;
#ifdef PRINTING_TO_CONSOLE_ALLOWED
printf ("\nHard Drive Serial Number__________: %s\n",
HardDriveSerialNumber);
printf ("\nHard Drive Model Number___________: %s\n",
HardDriveModelNumber);
printf ("\nComputer ID_______________________: %I64d\n", id);
#endif
return (long) id;
}
static void dump_buffer (const char* title,
const unsigned char* buffer,
int len)
{
int i = 0;
int j;
printf ("\n-- %s --\n", title);
if (len > 0)
{
printf ("%8.8s ", " ");
for (j = 0; j < 16; ++j)
{
printf (" %2X", j);
}
printf (" ");
for (j = 0; j < 16; ++j)
{
printf ("%1X", j);
}
printf ("\n");
}
while (i < len)
{
printf("%08x ", i);
for (j = 0; j < 16; ++j)
{
if ((i + j) < len)
printf (" %02x", (int) buffer[i +j]);
else
printf (" ");
}
printf (" ");
for (j = 0; j < 16; ++j)
{
if ((i + j) < len)
printf ("%c", isprint (buffer[i + j]) ? buffer [i + j] : '.');
else
printf (" ");
}
printf ("\n");
i += 16;
}
printf ("-- DONE --\n");
}
//调用
#include <iostream.h>
#include "stdio.h"
#include "diskid32.h"
#pragma comment (lib, "user32.lib ")
void main()
{
printf ("To get all details use \"diskid32 /d\"\n");
long id = getHardDriveComputerID ();
getchar();
}
