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singrdk/base/Windows/GrabSector/grabsector.cpp

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////////////////////////////////////////////////////////////////////////////
//
// utility to read/write bootsectors
//
// Copyright Microsoft Corporation
//
#define UNICODE
#define _UNICODE
#define _WIN32_WINNT 0x500
#include <winlean.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
// do a raw read from pwzDisk to pbBuffer of dwBytes bytes, starting at dwOffset
int ReadRaw(PCWSTR pwzDisk, PBYTE pbBuffer, DWORD dwOffset, DWORD dwBytes)
{
DWORD cbRead;
LARGE_INTEGER liPos;
HANDLE hDisk = CreateFile(pwzDisk, // drive to open
GENERIC_READ, // no access to the drive
FILE_SHARE_READ | // share mode
FILE_SHARE_WRITE,
NULL, // default security attributes
OPEN_EXISTING, // disposition
FILE_FLAG_NO_BUFFERING, // attributes
NULL); // do not copy file attributes
if (hDisk == INVALID_HANDLE_VALUE) // cannot open the drive
{
printf("CreateFile failed: %d\n", GetLastError());
return 1;
}
liPos.QuadPart = dwOffset;
SetFilePointerEx(hDisk, liPos, NULL, FILE_BEGIN);
if (!ReadFile(hDisk, pbBuffer, dwBytes, &cbRead, NULL)) {
printf("ReadFile failed: %d\n", GetLastError());
return 1;
}
CloseHandle(hDisk);
return 0;
}
// print a buffer
void DisplayBuffer(PBYTE pbBuffer, DWORD dwOffset, DWORD dwBytes)
{
static const int MaxLineWidth = 16;
for (DWORD i = 0; i < dwBytes; i += MaxLineWidth){
printf("%08x: ", dwOffset + i);
DWORD dwLineWidth = dwBytes - i;
if (dwLineWidth > MaxLineWidth) {
dwLineWidth = MaxLineWidth;
}
DWORD j;
for (j = 0; j < dwLineWidth; j++) {
printf("%02x ", pbBuffer[dwOffset + i + j]);
}
for (; j < MaxLineWidth + 1; j++) {
printf(" ");
}
for (j = 0; j < dwLineWidth; j++) {
BYTE c = pbBuffer[dwOffset + i + j];
if (c < 31 || c > 126) {
c = '.';
}
printf("%c", c);
}
printf("\n");
}
}
// Write a file - this forces create, and is thus inappropriate for direct disk access
int WriteRawCreate(PCWSTR pwzFile, PBYTE pbBuffer, DWORD dwOffset, DWORD dwBytes)
{
DWORD cbRead;
HANDLE hFile = CreateFile(pwzFile, // drive to open
GENERIC_WRITE | GENERIC_READ,
NULL,
NULL, // default security attributes
CREATE_ALWAYS, // disposition
FILE_FLAG_NO_BUFFERING, // attributes
NULL); // do not copy file attributes
if (hFile == INVALID_HANDLE_VALUE)
{
printf("CreateFile failed: %d\n", GetLastError());
return 1;
}
if (!WriteFile(hFile, pbBuffer, dwBytes, &cbRead, NULL)) {
printf("WriteFile failed: %d\n", GetLastError());
return 1;
}
return 0;
}
// exact same as above, except with OPEN_EXISTING, so that it is appropriate
// for writing a bootsector direct to a disk
int WriteRaw(PCWSTR pwzFile, PBYTE pbBuffer, DWORD dwOffset, DWORD dwBytes)
{
DWORD cbRead;
HANDLE hFile = CreateFile(pwzFile, // drive to open
GENERIC_WRITE | GENERIC_READ,
NULL,
NULL, // default security attributes
OPEN_EXISTING, // disposition
FILE_FLAG_NO_BUFFERING, // attributes
NULL); // do not copy file attributes
if (hFile == INVALID_HANDLE_VALUE)
{
printf("CreateFile failed: %d\n", GetLastError());
return 1;
}
if (!WriteFile(hFile, pbBuffer, dwBytes, &cbRead, NULL)) {
printf("WriteFile failed: %d\n", GetLastError());
return 1;
}
return 0;
}
static inline bool IsPowerOfTwo(DWORD dwValue)
{
return ((dwValue - 1) & dwValue) == 0;
}
static inline WORD GetLE16(PBYTE pbBuffer, DWORD dwOffset)
{
return (WORD)pbBuffer[dwOffset] + (((WORD)pbBuffer[dwOffset + 1]) << 8);
}
static inline DWORD GetLE32(PBYTE pbBuffer, DWORD dwOffset)
{
return ((DWORD)pbBuffer[dwOffset] +
(((DWORD)pbBuffer[dwOffset + 1]) << 8) +
(((DWORD)pbBuffer[dwOffset + 2]) << 16) +
(((DWORD)pbBuffer[dwOffset + 3]) << 24));
}
static int GetFatVersion(PBYTE pbBuffer, DWORD dwBytes)
{
if (!IsPowerOfTwo(dwBytes) || dwBytes < 512 ||
GetLE16(pbBuffer, 510) != 0xaa55) {
return 0;
}
// These strings mean *nothing* with regard to actual FAT
// type - they are just valid signatures.
if (strncmp((const char*)(pbBuffer + 52), "FAT ", 8) &&
strncmp((const char*)(pbBuffer + 52), "FAT12 ", 8) &&
strncmp((const char*)(pbBuffer + 52), "FAT16 ", 8) &&
strncmp((const char*)(pbBuffer + 82), "FAT32 ", 8)) {
return 0;
}
// Calculate number of clusters to determine FAT type per
// page 14 of FAT spec.
DWORD dwBytesPerSector = GetLE16(pbBuffer, 11);
DWORD dwSectorsPerCluster = (DWORD)pbBuffer[13];
DWORD dwReservedSectorCount = GetLE16(pbBuffer, 14);
DWORD dwNumberOfFats = (DWORD)pbBuffer[16];
DWORD dwRootEntryCount = GetLE16(pbBuffer, 17);
DWORD dwRootDirSectors =
((dwRootEntryCount * 32) + (dwBytesPerSector - 1)) / dwBytesPerSector;
DWORD dwFatSize = 0;
DWORD dwTotalSectors = 0;
DWORD dwFatSize16 = GetLE16(pbBuffer, 22);
if (dwFatSize16 == 0) {
dwFatSize = GetLE32(pbBuffer, 36);
}
else {
dwFatSize = dwFatSize16;
}
DWORD dwTotalSectors16 = GetLE16(pbBuffer, 19);
if (dwTotalSectors16 == 0) {
dwTotalSectors = GetLE32(pbBuffer, 32);
}
else {
dwTotalSectors = dwTotalSectors16;
}
DWORD dwDataSectors = (dwTotalSectors -
(dwReservedSectorCount +
dwNumberOfFats * dwFatSize +
dwRootDirSectors)
);
DWORD dwCountOfClusters = dwDataSectors / dwSectorsPerCluster;
if (dwCountOfClusters < 4085) {
return 12;
}
else if (dwCountOfClusters < 65525) {
return 16;
}
else {
return 32;
}
}
// this copies the BPB from the oldbuffer to the newbuffer
// so we don't trash the BPB when we write the new buffer
BOOL MergeSectors(PBYTE pbOldBuffer,
PBYTE pbBuffer,
DWORD dwBytes,
BOOL fCheckFatSanity)
{
if (fCheckFatSanity) {
DWORD dwOldFat = GetFatVersion(pbOldBuffer, dwBytes);
DWORD dwNewFat = GetFatVersion(pbBuffer, dwBytes);
if (dwOldFat != dwNewFat) {
fprintf(stderr,
"New boot sectors FAT version FAT differs (%d != %d).\n",
dwNewFat, dwOldFat);
// We'll call it a pint then, shall we :-)
return FALSE;
}
}
// copy the BPB and BS from the old sector into the new
int preservebytes = pbBuffer[1] + 2;
for (int i = 3; i < preservebytes; i++) {
pbBuffer[i] = pbOldBuffer[i];
}
return TRUE;
}
int __cdecl wmain(int argc, WCHAR **argv)
{
BOOL fNeedHelp = FALSE;
BOOL fRead = FALSE;
BOOL fWrite = FALSE;
BOOL fDisplay = FALSE;
BOOL fNtldr = FALSE;
BOOL fCheckFat = FALSE;
PBYTE pbBuffer;
PBYTE pbOldBuffer;
WCHAR wzPartition[64] = L"";
WCHAR wzFile[64] = L"";
WCHAR wzFile2[64] = L"";
if (argc==1){
fNeedHelp = TRUE;
}
else{
// first check the first param
if (argv[1][0] == '-' || argv[1][0] == '/'){
switch(argv[1][1]){
case 'd':
case 'D':
fDisplay = TRUE;
break;
case 'n':
case 'N':
fNtldr = TRUE;
break;
case 'r':
case 'R':
fRead = TRUE;
break;
case 'w':
case 'W':
fWrite = TRUE;
fCheckFat = TRUE;
break;
case 'x':
case 'X':
fWrite = TRUE;
fCheckFat = FALSE;
break;
default:
fNeedHelp = TRUE;
break;
}
}
else{
fNeedHelp = TRUE;
}
}
// verify parameter counts
if ((fDisplay && argc !=3) || (fRead && argc !=4) || (fWrite && argc !=4) || (fNtldr && argc !=5)){
fNeedHelp = TRUE;
}
if (fNeedHelp) {
printf(
"Usage:\n"
" grabsector [options] {drive letter:} {file1} {file2}\n"
"Options:\n"
" /d -- Display bootsector from drive.\n"
" /n -- Create NTLDR-compatible bootsector file2 from drive and file1.\n"
" /r -- Read drive's bootsector, write to file1.\n"
" /w -- Write drive's bootsector from file1 to drive.\n"
" /x -- Write drive's bootsector from file1 to drive (no sanity check).\n"
" /? -- Display this help screen.\n"
"Advanced:\n"
" To access the MBR directly, use PHYSICALDRIVE0 as the drive name.\n"
"Examples:\n"
" grabsector /d c:\n"
" grabsector /r c: bootsec.old \n"
" grabsector /w c: bootsec.new \n"
" grabsector /n c: bootsec.new bootsec.NT \n"
" grabsector /d PHYSICALDRIVE0 \n"
);
return 1;
}
else{
pbBuffer = (PBYTE)VirtualAlloc(NULL, 512, MEM_COMMIT, PAGE_READWRITE);
if (pbBuffer == NULL) {
printf("VirtualAlloc failed: %d\n", GetLastError());
return 1;
}
wsprintf(wzPartition, L"\\\\.\\%ls", argv[2]);
if (fRead || fWrite || fNtldr)
wsprintf(wzFile, L"%ls", argv[3]);
}
SetThreadPriority(GetCurrentThread(), THREAD_PRIORITY_HIGHEST);
printf("Disk: %ls\n", wzPartition);
printf("File: %ls\n", wzFile);
if (fDisplay) {
if(ReadRaw(wzPartition, pbBuffer, 0, 512)==0) {
DisplayBuffer(pbBuffer, 0, 512);
}
}
if (fRead){
if (ReadRaw(wzPartition, pbBuffer, 0, 512)==0)
WriteRawCreate(wzFile, pbBuffer, 0, 512);
}
if (fWrite){
// set up a buffer for the old bootsector
pbOldBuffer = (PBYTE)VirtualAlloc(NULL, 512, MEM_COMMIT, PAGE_READWRITE);
if (pbOldBuffer == NULL) {
printf("VirtualAlloc failed: %d\n", GetLastError());
return 1;
}
// get the old bootsector
if(ReadRaw(wzPartition, pbOldBuffer, 0, 512)!=0)
return -1;
// open the file
if (ReadRaw(wzFile, pbBuffer, 0, 512)!=0)
return -1;
// merge the file with the bootsector
if (MergeSectors(pbOldBuffer, pbBuffer, 512, fCheckFat)) {
WriteRaw(wzPartition, pbBuffer, 0, 512);
}
}
if (fNtldr){
// get the second filename
wsprintf(wzFile2, L"%ls", argv[4]);
// set up a buffer for the old bootsector
pbOldBuffer = (PBYTE)VirtualAlloc(NULL, 512, MEM_COMMIT, PAGE_READWRITE);
if (pbOldBuffer == NULL) {
printf("VirtualAlloc failed: %d\n", GetLastError());
return 1;
}
// get the old bootsector
if(ReadRaw(wzPartition, pbOldBuffer, 0, 512)!=0)
return -1;
// open the input file
if (ReadRaw(wzFile, pbBuffer, 0, 512)!=0)
return -1;
// merge the file with the bootsector
if (MergeSectors(pbOldBuffer, pbBuffer, 512, fCheckFat)) {
WriteRawCreate(wzFile2, pbBuffer, 0, 512);
}
}
return 0;
}
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