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98834231552b94a52989375c548ddeaedae9fe72
Aaru/FileSystemIDandChk/PartPlugins/MBR.cs
Natalia Portillo 9883423155 Use FOBOS guids 
git-svn-id: svn://claunia.com/FileSystemIDandChk@6 17725271-3d32-4980-a8cb-9ff532f270ba
2011-03-28 11:15:54 +00:00

916 lines
24 KiB
C#
Raw Blame History

using System;
using System.IO;
using System.Text;
using System.Collections.Generic;
using FileSystemIDandChk;
namespace FileSystemIDandChk.PartPlugins
{
class MBR : PartPlugin
{
public MBR (PluginBase Core)
{
base.Name = "Master Boot Record";
base.PluginUUID = new Guid("5E8A34E8-4F1A-59E6-4BF7-7EA647063A76");
}
public override bool GetInformation (FileStream stream, out List<Partition> partitions)
{
byte cyl_sect1, cyl_sect2; // For decoding cylinder and sector
UInt16 signature;
UInt32 serial;
ulong counter = 0;
partitions = new List<Partition>();
BinaryReader br = new BinaryReader(stream);
br.BaseStream.Seek(0x01FE, SeekOrigin.Begin);
signature = br.ReadUInt16();
if(signature != 0xAA55)
return false; // Not MBR
br.BaseStream.Seek(0x01B8, SeekOrigin.Begin);
serial = br.ReadUInt32(); // Not useful right now
br.BaseStream.Seek(0x01BE, SeekOrigin.Begin);
for(int i = 0; i < 4; i ++)
{
MBRPartitionEntry entry = new MBRPartitionEntry();
entry.status = br.ReadByte();
entry.start_head = br.ReadByte();
cyl_sect1 = br.ReadByte();
cyl_sect2 = br.ReadByte();
entry.start_sector = (byte)(cyl_sect1 & 0x3F);
entry.start_cylinder = (ushort)(((cyl_sect1 & 0xC0) << 2) | cyl_sect2);
entry.type = br.ReadByte();
entry.end_head = br.ReadByte();
cyl_sect1 = br.ReadByte();
cyl_sect2 = br.ReadByte();
entry.end_sector = (byte)(cyl_sect1 & 0x3F);
entry.end_cylinder = (ushort)(((cyl_sect1 & 0xC0) << 2) | cyl_sect2);
entry.lba_start = br.ReadUInt32();
entry.lba_sectors = br.ReadUInt32();
// Let's start the fun...
bool valid = true;
bool extended = false;
bool disklabel = false;
if(entry.status != 0x00 && entry.status != 0x80)
return false; // Maybe a FAT filesystem
if(entry.type == 0x00)
valid = false;
if(entry.type == 0xEE || entry.type == 0xEF)
return false; // This is a GPT
if(entry.type == 0x05 || entry.type == 0x0F || entry.type == 0x85)
{
valid = false;
extended = true; // Extended partition
}
if(entry.type == 0x82 || entry.type == 0xBF || entry.type == 0xA5 || entry.type == 0xA6 || entry.type == 0xA9 ||
entry.type == 0xB7 || entry.type == 0x81 || entry.type == 0x63)
{
valid = false;
disklabel = true;
}
if(disklabel)
{
long currentPos = br.BaseStream.Position;
long disklabel_start = entry.lba_start * 512;
br.BaseStream.Seek(disklabel_start, SeekOrigin.Begin);
switch(entry.type)
{
case 0xA5:
case 0xA6:
case 0xA9:
case 0xB7: // BSD disklabels
{
UInt32 magic;
magic = br.ReadUInt32();
if(magic == 0x82564557)
{
br.BaseStream.Seek(126, SeekOrigin.Current);
UInt16 no_parts = br.ReadUInt16();
br.BaseStream.Seek(8, SeekOrigin.Current);
for(int j = 0; j < no_parts; j++)
{
Partition part = new Partition();
byte bsd_type;
part.PartitionLength = br.ReadUInt32()*512;
part.PartitionStart = br.ReadUInt32()*512;
br.BaseStream.Seek(4, SeekOrigin.Current);
bsd_type = br.ReadByte();
br.BaseStream.Seek(3, SeekOrigin.Current);
part.PartitionType = String.Format("BSD: {0}", bsd_type);
part.PartitionName = decodeBSDType(bsd_type);
part.PartitionSequence = counter;
part.PartitionDescription = "Partition inside a BSD disklabel.";
if(bsd_type!=0)
{
partitions.Add(part);
counter++;
}
}
}
else
valid=true;
break;
}
case 0x63: // UnixWare disklabel
{
UInt32 magic;
br.BaseStream.Seek(4, SeekOrigin.Current);
magic = br.ReadUInt32();
if(magic == 0xCA5E600D)
{
br.BaseStream.Seek(164, SeekOrigin.Current);
Int16 no_parts = br.ReadInt16();
br.BaseStream.Seek(42, SeekOrigin.Current);
for(int j = 0; j < no_parts; j++)
{
Int16 unx_type = br.ReadInt16();
br.BaseStream.Seek(2, SeekOrigin.Current);
Partition part = new Partition();
part.PartitionStart = br.ReadInt32() * 512;
part.PartitionLength = br.ReadInt32() * 512;
part.PartitionSequence = counter;
part.PartitionType = String.Format("Unixware: {0}", unx_type);
part.PartitionDescription = "UnixWare slice.";
if(unx_type!=0)
{
partitions.Add(part);
counter++;
}
}
}
else
valid = true;
break;
}
case 0x82:
case 0xBF: // Solaris disklabel
{
UInt32 magic;
UInt32 version;
br.BaseStream.Seek(12, SeekOrigin.Current);
magic = br.ReadUInt32();
version = br.ReadUInt32();
if(magic == 0x600DDEEE && version == 1)
{
br.BaseStream.Seek(52, SeekOrigin.Current);
for(int j = 0; j < 16; j++)
{
Partition part = new Partition();
br.BaseStream.Seek(4, SeekOrigin.Current);
part.PartitionStart = (entry.lba_start + br.ReadInt32()) * 512;
part.PartitionLength = br.ReadInt32()*512;
part.PartitionDescription = "Solaris slice.";
part.PartitionSequence = counter;
if(part.PartitionLength > 0)
{
partitions.Add(part);
counter++;
}
}
}
else
valid = true;
break;
}
case 0x81: // Minix subpartitions
{
bool minix_subs = false;
byte type;
br.BaseStream.Seek(0x01BE, SeekOrigin.Current);
for(int j = 0; j < 4; j++)
{
br.BaseStream.Seek(4, SeekOrigin.Current);
type = br.ReadByte();
if(type==0x81)
{
Partition part = new Partition();
minix_subs = true;
br.BaseStream.Seek(3, SeekOrigin.Current);
part.PartitionDescription = "Minix subpartition";
part.PartitionType = "Minix";
part.PartitionStart = br.ReadUInt32()*512;
part.PartitionLength = br.ReadUInt32()*512;
part.PartitionSequence = counter;
partitions.Add(part);
counter++;
}
}
if(!minix_subs)
valid = true;
break;
}
default:
valid = true;
break;
}
br.BaseStream.Seek(currentPos, SeekOrigin.Begin);
}
if(valid)
{
Partition part = new Partition();
if(entry.lba_start > 0 && entry.lba_sectors > 0)
{
part.PartitionStart = (long)entry.lba_start * 512;
part.PartitionLength = (long)entry.lba_sectors * 512;
}
/* else if(entry.start_head < 255 && entry.end_head < 255 &&
entry.start_sector > 0 && entry.start_sector < 64 &&
entry.end_sector > 0 && entry.end_sector < 64 &&
entry.start_cylinder < 1024 && entry.end_cylinder < 1024)
{
} */ // As we don't know the maxium cyl, head or sect of the device we need LBA
else
valid = false;
if(valid)
{
part.PartitionType = String.Format("0x{0:X2}", entry.type);
part.PartitionName = decodeMBRType(entry.type);
part.PartitionSequence = counter;
if(entry.status==0x80)
part.PartitionDescription = "Partition is bootable.";
else
part.PartitionDescription = "";
counter++;
partitions.Add(part);
}
}
if(extended) // Let's extend the fun
{
long pre_ext_Pos = br.BaseStream.Position;
bool ext_valid = true;
bool ext_disklabel = false;
bool processing_extended = true;
br.BaseStream.Seek((long)entry.lba_start*512, SeekOrigin.Begin);
while(processing_extended)
{
br.BaseStream.Seek(0x01BE, SeekOrigin.Current);
for(int l = 0; l < 2; l++)
{
bool ext_extended = false;
MBRPartitionEntry entry2 = new MBRPartitionEntry();
entry2.status = br.ReadByte();
entry2.start_head = br.ReadByte();
cyl_sect1 = br.ReadByte();
cyl_sect2 = br.ReadByte();
entry2.start_sector = (byte)(cyl_sect1 & 0x3F);
entry2.start_cylinder = (ushort)(((cyl_sect1 & 0xC0) << 2) | cyl_sect2);
entry2.type = br.ReadByte();
entry2.end_head = br.ReadByte();
cyl_sect1 = br.ReadByte();
cyl_sect2 = br.ReadByte();
entry2.end_sector = (byte)(cyl_sect1 & 0x3F);
entry2.end_cylinder = (ushort)(((cyl_sect1 & 0xC0) << 2) | cyl_sect2);
entry2.lba_start = br.ReadUInt32() + entry.lba_start;
entry2.lba_sectors = br.ReadUInt32();
// Let's start the fun...
if(entry2.status != 0x00 && entry2.status != 0x80)
ext_valid = false;
if(entry2.type == 0x00)
valid = false;
if(entry2.type == 0x82 || entry2.type == 0xBF || entry2.type == 0xA5 || entry2.type == 0xA6 ||
entry2.type == 0xA9 || entry2.type == 0xB7 || entry2.type == 0x81 || entry2.type == 0x63)
{
ext_valid = false;
ext_disklabel = true;
}
if(entry2.type == 0x05 || entry2.type == 0x0F || entry2.type == 0x85)
{
ext_valid = false;
ext_disklabel = false;
ext_extended = true; // Extended partition
}
else if(l==1)
processing_extended=false;
if(ext_disklabel)
{
long currentPos = br.BaseStream.Position;
long disklabel_start = entry2.lba_start * 512;
br.BaseStream.Seek(disklabel_start, SeekOrigin.Begin);
switch(entry2.type)
{
case 0xA5:
case 0xA6:
case 0xA9:
case 0xB7: // BSD disklabels
{
UInt32 magic;
magic = br.ReadUInt32();
if(magic == 0x82564557)
{
br.BaseStream.Seek(126, SeekOrigin.Current);
UInt16 no_parts = br.ReadUInt16();
br.BaseStream.Seek(8, SeekOrigin.Current);
for(int j = 0; j < no_parts; j++)
{
Partition part = new Partition();
byte bsd_type;
part.PartitionLength = br.ReadUInt32()*512;
part.PartitionStart = br.ReadUInt32()*512;
br.BaseStream.Seek(4, SeekOrigin.Current);
bsd_type = br.ReadByte();
br.BaseStream.Seek(3, SeekOrigin.Current);
part.PartitionType = String.Format("BSD: {0}", bsd_type);
part.PartitionName = decodeBSDType(bsd_type);
part.PartitionSequence = counter;
part.PartitionDescription = "Partition inside a BSD disklabel.";
if(bsd_type!=0)
{
partitions.Add(part);
counter++;
}
}
}
else
ext_valid=true;
break;
}
case 0x63: // UnixWare disklabel
{
UInt32 magic;
br.BaseStream.Seek(4, SeekOrigin.Current);
magic = br.ReadUInt32();
if(magic == 0xCA5E600D)
{
br.BaseStream.Seek(164, SeekOrigin.Current);
Int16 no_parts = br.ReadInt16();
br.BaseStream.Seek(42, SeekOrigin.Current);
for(int j = 0; j < no_parts; j++)
{
Int16 unx_type = br.ReadInt16();
br.BaseStream.Seek(2, SeekOrigin.Current);
Partition part = new Partition();
part.PartitionStart = br.ReadInt32() * 512;
part.PartitionLength = br.ReadInt32() * 512;
part.PartitionSequence = counter;
part.PartitionType = String.Format("Unixware: {0}", unx_type);
part.PartitionDescription = "UnixWare slice.";
if(unx_type!=0)
{
partitions.Add(part);
counter++;
}
}
}
else
valid = true;
break;
}
case 0x82:
case 0xBF: // Solaris disklabel
{
UInt32 magic;
UInt32 version;
br.BaseStream.Seek(12, SeekOrigin.Current);
magic = br.ReadUInt32();
version = br.ReadUInt32();
if(magic == 0x600DDEEE && version == 1)
{
br.BaseStream.Seek(52, SeekOrigin.Current);
for(int j = 0; j < 16; j++)
{
Partition part = new Partition();
br.BaseStream.Seek(4, SeekOrigin.Current);
part.PartitionStart = (entry2.lba_start + br.ReadInt32()) * 512;
part.PartitionLength = br.ReadInt32()*512;
part.PartitionDescription = "Solaris slice.";
part.PartitionSequence = counter;
if(part.PartitionLength > 0)
{
partitions.Add(part);
counter++;
}
}
}
else
ext_valid = true;
break;
}
case 0x81: // Minix subpartitions
{
bool minix_subs = false;
byte type;
br.BaseStream.Seek(0x01BE, SeekOrigin.Current);
for(int j = 0; j < 4; j++)
{
br.BaseStream.Seek(4, SeekOrigin.Current);
type = br.ReadByte();
if(type==0x81)
{
Partition part = new Partition();
minix_subs = true;
br.BaseStream.Seek(3, SeekOrigin.Current);
part.PartitionDescription = "Minix subpartition";
part.PartitionType = "Minix";
part.PartitionStart = br.ReadUInt32()*512;
part.PartitionLength = br.ReadUInt32()*512;
part.PartitionSequence = counter;
partitions.Add(part);
counter++;
}
}
if(!minix_subs)
ext_valid = true;
break;
}
default:
ext_valid = true;
break;
}
br.BaseStream.Seek(currentPos, SeekOrigin.Begin);
}
if(ext_valid)
{
Partition part = new Partition();
if(entry2.lba_start > 0 && entry2.lba_sectors > 0)
{
part.PartitionStart = (long)entry2.lba_start * 512;
part.PartitionLength = (long)entry2.lba_sectors * 512;
Console.WriteLine("{0} start", entry2.lba_start);
}
/* else if(entry2.start_head < 255 && entry2.end_head < 255 &&
entry2.start_sector > 0 && entry2.start_sector < 64 &&
entry2.end_sector > 0 && entry2.end_sector < 64 &&
entry2.start_cylinder < 1024 && entry2.end_cylinder < 1024)
{
} */ // As we don't know the maxium cyl, head or sect of the device we need LBA
else
ext_valid = false;
if(ext_valid)
{
part.PartitionType = String.Format("0x{0:X2}", entry2.type);
part.PartitionName = decodeMBRType(entry2.type);
part.PartitionSequence = counter;
if(entry2.status==0x80)
part.PartitionDescription = "Partition is bootable.";
else
part.PartitionDescription = "";
counter++;
partitions.Add(part);
}
}
if(ext_extended)
{
br.BaseStream.Seek((long)entry2.lba_start*512, SeekOrigin.Begin);
break;
}
}
br.BaseStream.Seek(2, SeekOrigin.Current);
}
br.BaseStream.Seek(pre_ext_Pos, SeekOrigin.Begin);
}
}
// An empty MBR may exist, NeXT creates one and then hardcodes its disklabel
if(partitions.Count==0)
return false;
else
return true;
}
private string decodeBSDType(byte type)
{
switch(type)
{
case 1:
return "Swap";
case 2:
return "UNIX Version 6";
case 3:
return "UNIX Version 7";
case 4:
return "System V";
case 5:
return "4.1BSD";
case 6:
return "UNIX Eigth Edition";
case 7:
return "4.2BSD";
case 8:
return "MS-DOS";
case 9:
return "4.4LFS";
case 11:
return "HPFS";
case 12:
return "ISO9660";
case 13:
return "Boot";
case 14:
return "Amiga FFS";
case 15:
return "Apple HFS";
default:
return "Unknown";
}
}
private string decodeMBRType(byte type)
{
switch(type)
{
case 0x01:
return "FAT12";
case 0x02:
return "XENIX root";
case 0x03:
return "XENIX /usr";
case 0x04:
return "FAT16 < 32 MiB";
case 0x05:
return "Extended";
case 0x06:
return "FAT16";
case 0x07:
return "IFS (HPFS/NTFS)";
case 0x08:
return "AIX boot, OS/2, Commodore DOS";
case 0x09:
return "AIX data, Coherent, QNX";
case 0x0A:
return "Coherent swap, OPUS, OS/2 Boot Manager";
case 0x0B:
return "FAT32";
case 0x0C:
return "FAT32 (LBA)";
case 0x0E:
return "FAT16 (LBA)";
case 0x0F:
return "Extended (LBA)";
case 0x10:
return "OPUS";
case 0x11:
return "Hidden FAT12";
case 0x12:
return "Compaq diagnostics, recovery partition";
case 0x14:
return "Hidden FAT16 < 32 MiB, AST-DOS";
case 0x16:
return "Hidden FAT16";
case 0x17:
return "Hidden IFS (HPFS/NTFS)";
case 0x18:
return "AST-Windows swap";
case 0x19:
return "Willowtech Photon coS";
case 0x1B:
return "Hidden FAT32";
case 0x1C:
return "Hidden FAT32 (LBA)";
case 0x1E:
return "Hidden FAT16 (LBA)";
case 0x20:
return "Willowsoft Overture File System";
case 0x21:
return "Oxygen FSo2";
case 0x22:
return "Oxygen Extended ";
case 0x23:
return "SpeedStor reserved";
case 0x24:
return "NEC-DOS";
case 0x26:
return "SpeedStor reserved";
case 0x27:
return "Hidden NTFS";
case 0x31:
return "SpeedStor reserved";
case 0x33:
return "SpeedStor reserved";
case 0x34:
return "SpeedStor reserved";
case 0x36:
return "SpeedStor reserved";
case 0x38:
return "Theos";
case 0x39:
return "Plan 9";
case 0x3C:
return "Partition Magic";
case 0x3D:
return "Hidden NetWare";
case 0x40:
return "VENIX 80286";
case 0x41:
return "PReP Boot";
case 0x42:
return "Secure File System";
case 0x43:
return "PTS-DOS";
case 0x45:
return "Priam, EUMEL/Elan";
case 0x46:
return "EUMEL/Elan";
case 0x47:
return "EUMEL/Elan";
case 0x48:
return "EUMEL/Elan";
case 0x4A:
return "ALFS/THIN lightweight filesystem for DOS";
case 0x4D:
return "QNX 4";
case 0x4E:
return "QNX 4";
case 0x4F:
return "QNX 4, Oberon";
case 0x50:
return "Ontrack DM, R/O, FAT";
case 0x51:
return "Ontrack DM, R/W, FAT";
case 0x52:
return "CP/M, Microport UNIX";
case 0x53:
return "Ontrack DM 6";
case 0x54:
return "Ontrack DM 6";
case 0x55:
return "EZ-Drive";
case 0x56:
return "Golden Bow VFeature";
case 0x5C:
return "Priam EDISK";
case 0x61:
return "SpeedStor";
case 0x63:
return "GNU Hurd, System V, 386/ix";
case 0x64:
return "NetWare 286";
case 0x65:
return "NetWare";
case 0x66:
return "NetWare 386";
case 0x67:
return "NetWare";
case 0x68:
return "NetWare";
case 0x69:
return "NetWare NSS";
case 0x70:
return "DiskSecure Multi-Boot";
case 0x75:
return "IBM PC/IX";
case 0x80:
return "Old MINIX";
case 0x81:
return "MINIX, Old Linux";
case 0x82:
return "Linux swap, Solaris";
case 0x83:
return "Linux";
case 0x84:
return "Hidden by OS/2, APM hibernation";
case 0x85:
return "Linux extended";
case 0x86:
return "NT Stripe Set";
case 0x87:
return "NT Stripe Set";
case 0x88:
return "Linux Plaintext";
case 0x8E:
return "Linux LVM";
case 0x93:
return "Amoeba, Hidden Linux";
case 0x94:
return "Amoeba bad blocks";
case 0x99:
return "Mylex EISA SCSI";
case 0x9F:
return "BSD/OS";
case 0xA0:
return "Hibernation";
case 0xA1:
return "HP Volume Expansion";
case 0xA3:
return "HP Volume Expansion";
case 0xA4:
return "HP Volume Expansion";
case 0xA5:
return "FreeBSD";
case 0xA6:
return "OpenBSD";
case 0xA7:
return "NeXTStep";
case 0xA8:
return "Apple UFS";
case 0xA9:
return "NetBSD";
case 0xAA:
return "Olivetti DOS FAT12";
case 0xAB:
return "Apple Boot";
case 0xAF:
return "Apple HFS";
case 0xB0:
return "BootStar";
case 0xB1:
return "HP Volume Expansion";
case 0xB3:
return "HP Volume Expansion";
case 0xB4:
return "HP Volume Expansion";
case 0xB6:
return "HP Volume Expansion";
case 0xB7:
return "BSDi";
case 0xB8:
return "BSDi swap";
case 0xBB:
return "PTS BootWizard";
case 0xBE:
return "Solaris boot";
case 0xBF:
return "Solaris";
case 0xC0:
return "Novell DOS, DR-DOS secured";
case 0xC1:
return "DR-DOS secured FAT12";
case 0xC2:
return "DR-DOS reserved";
case 0xC3:
return "DR-DOS reserved";
case 0xC4:
return "DR-DOS secured FAT16 < 32 MiB";
case 0xC6:
return "DR-DOS secured FAT16";
case 0xC7:
return "Syrinx";
case 0xC8:
return "DR-DOS reserved";
case 0xC9:
return "DR-DOS reserved";
case 0xCA:
return "DR-DOS reserved";
case 0xCB:
return "DR-DOS secured FAT32";
case 0xCC:
return "DR-DOS secured FAT32 (LBA)";
case 0xCD:
return "DR-DOS reserved";
case 0xCE:
return "DR-DOS secured FAT16 (LBA)";
case 0xCF:
return "DR-DOS secured extended (LBA)";
case 0xD0:
return "Multiuser DOS secured FAT12";
case 0xD1:
return "Multiuser DOS secured FAT12";
case 0xD4:
return "Multiuser DOS secured FAT16 < 32 MiB";
case 0xD5:
return "Multiuser DOS secured extended";
case 0xD6:
return "Multiuser DOS secured FAT16";
case 0xD8:
return "CP/M";
case 0xDA:
return "Filesystem-less data";
case 0xDB:
return "CP/M, CCP/M, CTOS";
case 0xDE:
return "Dell partition";
case 0xDF:
return "BootIt EMBRM";
case 0xE1:
return "SpeedStor";
case 0xE2:
return "DOS read/only";
case 0xE3:
return "SpeedStor";
case 0xE4:
return "SpeedStor";
case 0xE5:
return "Tandy DOS";
case 0xE6:
return "SpeedStor";
case 0xEB:
return "BeOS";
case 0xED:
return "Spryt*x";
case 0xEE:
return "Guid Partition Table";
case 0xEF:
return "EFI system partition";
case 0xF0:
return "Linux boot";
case 0xF1:
return "SpeedStor";
case 0xF2:
return "DOS 3.3 secondary, Unisys DOS";
case 0xF3:
return "SpeedStor";
case 0xF4:
return "SpeedStor";
case 0xF5:
return "Prologue";
case 0xF6:
return "SpeedStor";
case 0xFB:
return "VMWare VMFS";
case 0xFC:
return "VMWare VMKCORE";
case 0xFD:
return "Linux RAID, FreeDOS";
case 0xFE:
return "SpeedStor, LANStep, PS/2 IML";
case 0xFF:
return "Xenix bad block";
default:
return "Unknown";
}
}
public struct MBRPartitionEntry
{
public byte status; // Partition status, 0x80 or 0x00, else invalid
public byte start_head; // Starting head [0,254]
public byte start_sector; // Starting sector [1,63]
public UInt16 start_cylinder; // Starting cylinder [0,1023]
public byte type; // Partition type
public byte end_head; // Ending head [0,254]
public byte end_sector; // Ending sector [1,63]
public UInt16 end_cylinder; // Ending cylinder [0,1023]
public UInt32 lba_start; // Starting absolute sector
public UInt32 lba_sectors; // Total sectors
}
}
}
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