btparser/cparser/tests/VHDTemplate.bt

//--------------------------------------
//--- 010 Editor v5.0 Binary Template
//
// File: VHD interpretation
// Author: lurker0ster@gmail.com
// Revision: V1.0
// Purpose: Verify what I learn from Microsoft VHD specification.
//--------------------------------------


BigEndian();
typedef uint64 ULONGLONG;

enum <DWORD> OS {
  OS_WI2R = 0x57693272,
  OS_WINDOWS = 0x5769326B,
  OS_W2RU = 0x57327275,
  OS_W2KU = 0x57326B75,
  OS_MACINTOSH = 0x4D616320,
  OS_MACX = 0x4D163258,
};

enum <DWORD> DISK {
  NONE = 0x0,
  DEPRECATE = 0x1,
  FIXED = 0x2,
  DYNAMIC = 0x3,
  DIFFERENCING = 0x4,
  DEPRECATE1= 0x5,
  DEPRECATE2 = 0x6,
};

typedef struct{
  char cookie[8]; /* Identifies original creator of the disk */
  DWORD Features <read=feaRead>;
  DWORD FileformatVersion;
  ULONGLONG DataOffset <comment=OffsetCheck>;
  time_t TimeStamp <read=CorrectTime>;  //This is the number of seconds since January 1, 2000 12:00:00 AM in UTC/GMT
  char CreaterApplication[4];
  DWORD CreaterVersion;
  OS CreaterHostOS;
  ULONGLONG OrginalSize;
  ULONGLONG CurrentSize;
  struct {
    WORD Cylinder;
    BYTE Heads;
    BYTE SectorsPerCylinder;
  }DiskGeometry;
  DISK DiskType;
  DWORD CheckSum <comment="Checksum Of footer">;
  BYTE UUID[16] ;
  BYTE SavedState <read=statecheck>;
  BYTE hidden; //tapdisk-specific field
  BYTE Reserved[426];
}FOOTER <size=512, open=true>;

string statecheck(BYTE SavedState ) 
{
  if (0x1 == SavedState) return "In saved state";
  return "not saved";
}

string feaRead(WORD Features)
{
  string s;
  if (Features & 0x0001)  { s=s+"Temporary, " ;}
  if (Features & 0x0002)  { s=s+"Reserved, " ;}
  return s;
}

string CorrectTime(time_t TimeStamp)
{
  /* VHD uses an epoch of 12:00AM, Jan 1, 2000. */ 
  /* Need to adjust this to the expected epoch of 1970. */ 
  return TimeTToString((DWORD)TimeStamp + 946684800);
}

string OffsetCheck(ULONGLONG DataOffset)
{
  if((DataOffset & 0xFFFFFFFF) == 0xFFFFFFFF) 
  {
    return "Fixed disks";
  }
  return "";
}

typedef struct {
  char Cookie[8];
  ULONGLONG DataOffset; //unused
  ULONGLONG TableOffset; //pointer to BAT
  DWORD HeaderVersion; 
  DWORD MaxTableEntries; //number of blocks in the disk
  DWORD BlockSize <comment=sizecmt>; //does not include the size of block bitmap
  DWORD Checksum;
  BYTE  ParentUUID[16]; //for differencing HD
  time_t ParentTimeStamp<read=CorrectTime>;
  DWORD reserved;
  BYTE parentUnicodeName[512];
  typedef struct {
    DWORD PlatformCode;
    DWORD PlatformDataSpace;
    DWORD PlatformDataLength;
    DWORD reserved;
    ULONGLONG PlatformDataOffset;
  }ENTRY;
  
  ENTRY ParentLocatorEntry[8];
  BYTE reserved1[256];
}DYNAMICDISKHDEAR <size=1024>;

string sizecmt(DWORD blocksize) 
{ 
  string s;
  SPrintf(s, "block siez:%dMB", blocksize/1024/1024);
  return s;
}


FOOTER copyOfFooter;
DYNAMICDISKHDEAR DynamicDiskHeader;
FSeek(DynamicDiskHeader.TableOffset);
struct {
 DWORD entry[DynamicDiskHeader.MaxTableEntries]  <comment=entryCmt>; //1 entry for 4096 sectors (2MB)
}bat <open=true>; //Block Allocation table

string entryCmt(DWORD entry) 
{
  if (0xFFFFFFFF == entry) return "Unused";
  return "";
}


typedef struct {
  char magic[8];  //"tdbatmap"
  ULONGLONG batmap_offset;
  DWORD batmap_size;
  DWORD batmap_version;
  DWORD Checksum;
}TDBATMAP;

char magic[8];

if (Memcmp(magic, "tdbatmap", 8) == 0) 
{
  TDBATMAP batmap;
}else{
  FSkip(-8);
}


local int index = 0;
local int BytesInSector = 512;

local int SectorsPerBlock = DynamicDiskHeader.BlockSize / BytesInSector;
local int BitmapBytes = SectorsPerBlock / 8;
//local int ResetBytes = DynamicDiskHeader.BlockSize - BitmapBytes;

//local int numsOfBlockAllocated = (FileSize()-512 - FTell() ) / (DynamicDiskHeader.BlockSize+BitmapBytes);
typedef struct {
 BYTE bitmap[BitmapBytes];  //each bit represent a sector. 1: used, 0: full0s.
 BYTE data[DynamicDiskHeader.BlockSize];
}DATABLOCK;

//DATABLOCK block[numsOfBlockAllocated];

do{
 
 if (bat.entry[index] != 0xFFFFFFFF) {
   Printf("Block[%d] -> VHD sector:0x%x", index, bat.entry[index]);
   Printf(" VHD offset:0x%x\n", bat.entry[index]*512);
   FSeek(bat.entry[index]*512);
   DATABLOCK data;
 }else{
   //Printf("Block[%d] sparse\n", index);
 }
 index ++;
}while(index < DynamicDiskHeader.MaxTableEntries);


FSeek(FileSize()-512);
FOOTER Footer;

//for demo only 
//offset is sector offset
string readData( uint64 offset) 
{
  local uint64 BlockIndex = offset/SectorsPerBlock;
  local uint64 sectorIndex = offset%SectorsPerBlock;
  
  local uint64 byteoffset = offset/8;
  local uint64 bitfield = offset%8;
  if(bitfield & data[BlockIndex].bitmap[byteoffset]) {
    //spare
    Printf("Zeros sector");
  }

}