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c++ - Windows, opening a raw disk

I'm trying to read bytes from a raw disk. (Windows 7, VS 2010.)

I get a value of -1 for hDisk (which I assume is an error).

How can I get the real data?

#include "stdafx.h"
#include <windows.h>
#include <WinIoCtl.h>
#include <stdio.h>
#include <iostream>


int _tmain(int argc, _TCHAR* argv[])
{
    printf("hello world
");
    DWORD nRead;
    char buf[512];

    HANDLE hDisk = CreateFile(L"\\.\PhysicalDrive0", 
        GENERIC_READ, FILE_SHARE_READ,        
        NULL, OPEN_EXISTING, 0, NULL);

    printf("hDisk %i
", hDisk);

    SetFilePointer(hDisk, 0xA00, 0, FILE_BEGIN);
    ReadFile(hDisk, buf, 512, &nRead, NULL);
    for (int currentpos=0;currentpos < 512;currentpos++) {
        std::cout << buf[currentpos];
    }
    CloseHandle(hDisk);
    std::cin.get();

    return 0;
}
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1 Answer

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Your code should I think work (when run with elevated privileges) except that:

  • buf[] isn't properly aligned.

  • Physical Drive 0 is likely to be the system drive, and hence in use.

Here's some code I use for disk imaging. (Previously posted here.) Public domain, but no warranty, express or implied, etc. (Looking over the code I note that I haven't explicitly checked the sector size in order to make sure that the buffer and read/write operations are properly aligned. This shouldn't be a problem in practice because the largest sector size in common use is 4K and this is also the memory page size on Windows. However, in production code, you should always explicitly determine the sector size of the device in question and ensure proper alignment accordingly.)

#define _WIN32_WINNT 0x0501

#include <windows.h>

#include <stdio.h>

#define dump_buffersize_megs 16
#define dump_buffersize (dump_buffersize_megs * 1024 * 1024)
#define dump_workingsetsize ((dump_buffersize_megs + 1) * 1024 * 1024)

DWORD save(const wchar_t * source_device_name, const wchar_t * filename) {

  DWORD err;

  HANDLE hdevice, houtput;

  DWORD bytes_to_transfer, byte_count;

  GET_LENGTH_INFORMATION source_disklength;

  DISK_GEOMETRY source_diskgeometry;

  LARGE_INTEGER offset;

  OVERLAPPED overlapped;

  BYTE * buffer;

  if (!SetProcessWorkingSetSize(GetCurrentProcess(), dump_workingsetsize, dump_workingsetsize)) 
  {
    err = GetLastError();
    printf("Error %u trying to expand working set.
", err);
    return err;
  }

  buffer = VirtualAlloc(NULL, dump_buffersize, MEM_COMMIT, PAGE_READWRITE);

  if (buffer == NULL)
  {
    err = GetLastError();
    printf("Error %u trying to allocate buffer.
", err);
    return err;
  }

  if (!VirtualLock(buffer, dump_buffersize))
  {
    err = GetLastError();
    printf("Error %u trying to lock buffer.
", err);
    return err;
  }

  hdevice = CreateFile
    (
    source_device_name,
    GENERIC_READ,
    0,
    NULL,
    OPEN_EXISTING,
    FILE_FLAG_NO_BUFFERING,
    NULL
    );

  if (hdevice == INVALID_HANDLE_VALUE) {
    err = GetLastError();
    fprintf(stderr, "Error %u opening input device.
", err);
    return err;
  }

  if (!DeviceIoControl
    (
    hdevice,
    FSCTL_LOCK_VOLUME,
    NULL,
    0,
    NULL,
    0,
    &byte_count,
    NULL
    ))
  {
    err = GetLastError();
    fprintf(stderr, "Error %u locking input volume.
", err);
    return err;
  }

  if (!DeviceIoControl
    (
    hdevice,
    IOCTL_DISK_GET_DRIVE_GEOMETRY,
    NULL,
    0,
    &source_diskgeometry,
    sizeof(source_diskgeometry),
    &byte_count,
    NULL
    ))
  {
    err = GetLastError();
    fprintf(stderr, "Error %u getting device geometry.
", err);
    return err;
  }

  switch (source_diskgeometry.MediaType)
  {
  case Unknown:
  case RemovableMedia:
  case FixedMedia:

    if (!DeviceIoControl
      (
      hdevice,
      IOCTL_DISK_GET_LENGTH_INFO,
      NULL,
      0,
      &source_disklength,
      sizeof(source_disklength),
      &byte_count,
      NULL
      ))
    {
      err = GetLastError();
      fprintf(stderr, "Error %u getting input device length.
", err);
      return err;
    }

    fprintf(stderr, "
Input disk has %I64i bytes.

", source_disklength.Length.QuadPart);
    break;

  default:

    source_disklength.Length.QuadPart = 
      source_diskgeometry.Cylinders.QuadPart *
      source_diskgeometry.TracksPerCylinder *
      source_diskgeometry.SectorsPerTrack *
      source_diskgeometry.BytesPerSector;

    fprintf(stderr, 
      "
"
      "Input device appears to be a floppy disk.  WARNING: if this is not a
"
      "floppy disk the calculated size will probably be incorrect, resulting
"
      "in an incomplete copy.
"
      "
"
      "Input disk has %I64i bytes.
"
      "
", 
      source_disklength.Length.QuadPart);

    break;
  }

  houtput = CreateFile
    (
    filename,
    GENERIC_WRITE,
    0,
    NULL,
    CREATE_ALWAYS,
    FILE_FLAG_NO_BUFFERING | FILE_FLAG_OVERLAPPED,
    NULL
    );

  if (houtput == INVALID_HANDLE_VALUE)
  {
    err = GetLastError();
    fprintf(stderr, "Error %u creating output file.
", err);
    return err;
  }

  offset.QuadPart = 0;
  overlapped.hEvent = 0;

  for (;;) 
  {
    overlapped.Offset = offset.LowPart;
    overlapped.OffsetHigh = offset.HighPart;

    if (source_disklength.Length.QuadPart - offset.QuadPart < dump_buffersize) 
    {
      bytes_to_transfer = (DWORD)(source_disklength.Length.QuadPart - offset.QuadPart);
      if (bytes_to_transfer == 0) break;
    }
    else
    {
      bytes_to_transfer = dump_buffersize;
    }

    if (!ReadFile(hdevice, buffer, bytes_to_transfer, NULL, &overlapped)) 
    {
      err = GetLastError();
      printf("Error %u initiating read from input disk.
", err);
      return err;
    }

    if (!GetOverlappedResult(hdevice, &overlapped, &byte_count, TRUE)) 
    {
      err = GetLastError();
      printf("Error %u reading from input disk.
", err);
      return err;
    }

    if (byte_count != bytes_to_transfer)
    {
      err = GetLastError();
      printf("Internal error - partial read.  Last error code %u.
", err);
      printf("bytes_to_transfer = %u; byte_count = %u.
", bytes_to_transfer, byte_count);
      if (byte_count == 0) return ERROR_INVALID_FUNCTION;
      bytes_to_transfer = byte_count;
    }

    if (!WriteFile(houtput, buffer, bytes_to_transfer, NULL, &overlapped)) 
    {
      err = GetLastError();
      if (err != ERROR_IO_PENDING)
      {
        printf("Error %u initiating write to output file.
", err);
        return err;
      }
    }

    if (!GetOverlappedResult(houtput, &overlapped, &byte_count, TRUE)) 
    {
      err = GetLastError();
      printf("Error %u writing to output file.
", err);
      return err;
    }

    if (byte_count != bytes_to_transfer)
    {
      printf("Internal error - partial write.
");
      printf("bytes_to_transfer = %u; byte_count = %u.
", bytes_to_transfer, byte_count);
      return ERROR_INVALID_FUNCTION;
    }

    offset.QuadPart += bytes_to_transfer;
  }

  overlapped.Offset = offset.LowPart;
  overlapped.OffsetHigh = offset.HighPart;

  if (!ReadFile(hdevice, buffer, source_diskgeometry.BytesPerSector, NULL, &overlapped)) 
  {
    err = GetLastError();
    if (err == ERROR_HANDLE_EOF)
    {
      printf("Save successfully completed.
");      
      return 0;
    }
    printf("Error %u initiating read from input disk past end of file.
", err);
    return err;
  }

  if (!GetOverlappedResult(hdevice, &overlapped, &byte_count, TRUE)) 
  {
    err = GetLastError();
    if (err == ERROR_HANDLE_EOF)
    {
      printf("Save successfully completed.
");      
      return 0;
    }
    printf("Error %u reading from input disk past end of file.
", err);
    return err;
  }

  if (byte_count == 0)
  {
    printf("Save successfully completed.
"); 
    return 0;
  }

  printf("WARNING: the expected amount of data was successfully copied,
"
         "but end of file not detected on input disk.  The copy might
"
         "not be complete.");

  return ERROR_MORE_DATA;

}

DWORD write(const wchar_t * filename, const wchar_t * target_device_name) {

  DWORD err;

  HANDLE hinput, houtput;

  WIN32_FILE_ATTRIBUTE_DATA fad;

  DWORD bytes_to_transfer, byte_count;

  LARGE_INTEGER filelength;

  GET_LENGTH_INFORMATION target_disklength;

  DISK_GEOMETRY target_diskgeometry;

  LARGE_INTEGER transfer_length;

  LARGE_INTEGER offset;

  OVERLAPPED overlapped;

  BYTE * buffer;

  if (!SetProcessWorkingSetSize(GetCurrentProcess(), dump_workingsetsize, dump_workingsetsize)) 
  {
    err = GetLastError();
    printf("Error %u trying to expand working set.
", err);
    return err;
  }

  buffer = VirtualAlloc(NULL, dump_buffersize, MEM_COMMIT, PAGE_READWRITE);

  if (buffer == NULL)
  {
    err = GetLastError();
    printf("Error %u trying to allocate buffer.
", err);
    return err;
  }

  if (!VirtualLock(buffer, dump_buffersize))
  {
    err = GetLastError();
    printf("Error %u trying to lock buffer.
", err);
    return err;
  }

  if (!GetFileAttributesEx(filename, GetFileExInfoStandard, &fad)) 
  {
    err = GetLastError();
    fprintf(stderr, "Error %u reading input file attributes.
", err);
    return err;
  }

  filelength.HighPart = fad.nFileSizeHigh;
  filelength.LowPart = fad.nFileSizeLow;

  fprintf(stderr, "
Input file has %I64i bytes.
", filelength.QuadPart);

  hinput = CreateFile
    (
    filename,
    GENERIC_READ,
    0,
    NULL,
    OPEN_EXISTING,
    FILE_FLAG_NO_BUFFERING | FILE_FLAG_OVERLAPPED,
    NULL
    );

  if (hinput == INVALID_HANDLE_VALUE)
  {
    err = GetLastError();
    fprintf(stderr, "Error %u opening input file.
", err);
    return err;
  }

  houtput = CreateFile
    (
    target_device_name,
    GENERIC_READ | GENERIC_WRITE,
    0,
    NULL,
    OPEN_EXISTING,
    FILE_FLAG_NO_BUFFERING,
    NULL
    );

  if (houtput == INVALID_HANDLE_VALUE) {
    err = GetLastError();
    fprintf(stderr, "Error %u opening output device.
", err);
    return err;
  }

  if (!DeviceIoControl
    (
    houtput,
    FSCTL_LOCK_VOLUME,
    NULL,
    0,
    NULL,
    0,
    &byte_count,
    NULL
    ))
  {
    err = GetLastError();
    fprintf(stderr, "Error %u locking volume.
", err);
    return err;
  }

  if (!DeviceIoControl
    (
    houtput,
    IOCTL_DISK_GET_DRIVE_GEOMETRY,
    NULL,
    0,
    &target_diskgeometry,
    sizeof(target_diskgeometry),
    &byte_count,
    NULL
    ))
  {
    err = GetLastError();
    fprintf(stderr, "Error %u getting output device geometry.
", err);
    return err;
  }

  switch (target_diskgeometry.MediaType)
  {
  case Unknown:
  case RemovableMedia:
  case FixedMedia:

    if (!DeviceIoControl
      (
      houtput,
      IOCTL_DISK_GET_LENGTH_INFO,
      NULL,
      0,
      &target_disklength,
      sizeof(target_disklength),
      &byte_count,
      NULL
      ))
    {
      err = GetLastError();
      fprintf(stderr, "Error %u getting output device length.
", err);
      return err;
    }

    fprintf(stderr, "Output disk has %I64i bytes.

", target_disklength.Length.QuadPart);
    break;

  default:

    target_disklength.Length.QuadPart = 
      target_diskgeometry.Cylinders.QuadPart *
      target_diskgeometry.TracksPerCylinder *
      target_diskgeometry.SectorsPerTrack *
      target_diskgeometry.BytesPerSector;

    fprintf(stderr, 
      "
"
      "Output device appears to be a floppy disk.  WARNING: if this is not a
"
      "floppy disk the calculated output device size is probably incorrect,
"
      "which might result in an incomplete copy.
"
      "
"
      "Output disk has %I64i bytes.
"
      "
", 
      target_disklength.Length.QuadPart);

    break;
  }

  if (filelength.QuadPart == target_disklength.Length.QuadPart)
  {
    transfer_length.QuadPart = filelength.QuadPart;
  }
  else if (filelength.QuadPart < target_disklength.Length.QuadPart)
  {
    fprintf(stderr, "Image is smaller than target.  Part of the target will not be written to.

");
    transfer_length.QuadPart = filelength.QuadPart;
  }
  else
  {
    fprintf(stderr, "Image is larger than target.  Part of the image will not be copied.

");
    transfer_length.QuadPart = target_disklength.Length.QuadPart;
  }

  offset.QuadPart = 0;
  overlapped.hEvent = 0;

  for (;;) 
  {
    o

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