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Aaru/FileSystemIDandChk/Plugins/MinixFS.cs

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Added Minix V1, V2 and V3 filesystems. git-svn-id: svn://claunia.com/FileSystemIDandChk@18 17725271-3d32-4980-a8cb-9ff532f270ba
2012-08-05 18:13:48 +00:00
using System;
using System.IO;
using System.Text;
using FileSystemIDandChk;
// Information from Inside Macintosh
namespace FileSystemIDandChk.Plugins
{
class MinixFS : Plugin
{
private const UInt16 MINIX_MAGIC = 0x137F; // Minix v1, 14 char filenames
private const UInt16 MINIX_MAGIC2 = 0x138F; // Minix v1, 30 char filenames
private const UInt16 MINIX2_MAGIC = 0x2468; // Minix v2, 14 char filenames
private const UInt16 MINIX2_MAGIC2 = 0x2478; // Minix v2, 30 char filenames
private const UInt16 MINIX3_MAGIC = 0x4D5A; // Minix v3, 60 char filenames
// Byteswapped
private const UInt16 MINIX_CIGAM = 0x7F13; // Minix v1, 14 char filenames
private const UInt16 MINIX_CIGAM2 = 0x8F13; // Minix v1, 30 char filenames
private const UInt16 MINIX2_CIGAM = 0x6824; // Minix v2, 14 char filenames
private const UInt16 MINIX2_CIGAM2 = 0x7824; // Minix v2, 30 char filenames
private const UInt16 MINIX3_CIGAM = 0x5A4D; // Minix v3, 60 char filenames
public MinixFS(PluginBase Core)
{
base.Name = "Minix Filesystem";
base.PluginUUID = new Guid("FE248C3B-B727-4AE5-A39F-79EA9A07D4B3");
}
public override bool Identify(FileStream stream, long offset)
{
UInt16 magic;
BinaryReader br = new BinaryReader(stream);
br.BaseStream.Seek(0x400 + 0x10 + offset, SeekOrigin.Begin); // Here should reside magic number on Minix V1 & V2
magic = br.ReadUInt16();
if(magic == MINIX_MAGIC || magic == MINIX_MAGIC2 || magic == MINIX2_MAGIC || magic == MINIX2_MAGIC2 ||
magic == MINIX_CIGAM || magic == MINIX_CIGAM2 || magic == MINIX2_CIGAM || magic == MINIX2_CIGAM2)
return true;
else
{
br.BaseStream.Seek(0x400 + 0x18 + offset, SeekOrigin.Begin); // Here should reside magic number on Minix V1 & V2
magic = br.ReadUInt16();
if(magic == MINIX3_MAGIC || magic == MINIX3_CIGAM)
return true;
else
return false;
}
}
public override void GetInformation (FileStream stream, long offset, out string information)
{
information = "";
StringBuilder sb = new StringBuilder();
bool littleendian = true;
bool minix3 = false;
int filenamesize = 0;
string minixVersion;
UInt16 magic;
EndianAwareBinaryReader eabr = new EndianAwareBinaryReader(stream, littleendian);
eabr.BaseStream.Seek(0x400 + 0x18 + offset, SeekOrigin.Begin);
magic = eabr.ReadUInt16();
if(magic == MINIX3_MAGIC || magic == MINIX3_CIGAM)
{
filenamesize = 60;
minixVersion = "Minix V3 filesystem";
if(magic == MINIX3_CIGAM)
littleendian = false;
else
littleendian = true;
minix3 = true;
}
else
{
eabr.BaseStream.Seek(0x400 + 0x10 + offset, SeekOrigin.Begin);
magic = eabr.ReadUInt16();
switch(magic)
{
case MINIX_MAGIC:
filenamesize = 14;
minixVersion = "Minix V1 filesystem";
littleendian = true;
break;
case MINIX_MAGIC2:
filenamesize = 30;
minixVersion = "Minix V1 filesystem";
littleendian = true;
break;
case MINIX2_MAGIC:
filenamesize = 14;
minixVersion = "Minix V2 filesystem";
littleendian = true;
break;
case MINIX2_MAGIC2:
filenamesize = 30;
minixVersion = "Minix V2 filesystem";
littleendian = true;
break;
case MINIX_CIGAM:
filenamesize = 14;
minixVersion = "Minix V1 filesystem";
littleendian = false;
break;
case MINIX_CIGAM2:
filenamesize = 30;
minixVersion = "Minix V1 filesystem";
littleendian = false;
break;
case MINIX2_CIGAM:
filenamesize = 14;
minixVersion = "Minix V2 filesystem";
littleendian = false;
break;
case MINIX2_CIGAM2:
filenamesize = 30;
minixVersion = "Minix V2 filesystem";
littleendian = false;
break;
default:
return;
break;
}
}
eabr = new EndianAwareBinaryReader(stream, littleendian);
eabr.BaseStream.Seek(0x400 + offset, SeekOrigin.Begin);
if(minix3)
{
Minix3SuperBlock mnx_sb = new Minix3SuperBlock();
mnx_sb.s_ninodes = eabr.ReadUInt32();
mnx_sb.s_pad0 = eabr.ReadUInt16();
mnx_sb.s_imap_blocks = eabr.ReadUInt16();
mnx_sb.s_zmap_blocks = eabr.ReadUInt16();
mnx_sb.s_firstdatazone = eabr.ReadUInt16();
mnx_sb.s_log_zone_size = eabr.ReadUInt16();
mnx_sb.s_pad1 = eabr.ReadUInt16();
mnx_sb.s_max_size = eabr.ReadUInt32();
mnx_sb.s_zones = eabr.ReadUInt32();
mnx_sb.s_magic = eabr.ReadUInt16();
mnx_sb.s_pad2 = eabr.ReadUInt16();
mnx_sb.s_blocksize = eabr.ReadUInt16();
mnx_sb.s_disk_version = eabr.ReadByte();
sb.AppendLine(minixVersion);
sb.AppendFormat("{0} chars in filename", filenamesize).AppendLine();
sb.AppendFormat("{0} zones on volume ({1} bytes)", mnx_sb.s_zones, mnx_sb.s_zones*mnx_sb.s_blocksize).AppendLine();
sb.AppendFormat("{0} bytes/block", mnx_sb.s_blocksize).AppendLine();
sb.AppendFormat("{0} inodes on volume", mnx_sb.s_ninodes).AppendLine();
sb.AppendFormat("{0} blocks on inode map ({1} bytes)", mnx_sb.s_imap_blocks, mnx_sb.s_imap_blocks*mnx_sb.s_blocksize).AppendLine();
sb.AppendFormat("{0} blocks on zone map ({1} bytes)", mnx_sb.s_zmap_blocks, mnx_sb.s_zmap_blocks*mnx_sb.s_blocksize).AppendLine();
sb.AppendFormat("First data zone: {0}", mnx_sb.s_firstdatazone).AppendLine();
//sb.AppendFormat("log2 of blocks/zone: {0}", mnx_sb.s_log_zone_size).AppendLine(); // Apparently 0
sb.AppendFormat("{0} bytes maximum per file", mnx_sb.s_max_size).AppendLine();
sb.AppendFormat("On-disk filesystem version: {0}", mnx_sb.s_disk_version).AppendLine();
}
else
{
MinixSuperBlock mnx_sb = new MinixSuperBlock();
mnx_sb.s_ninodes = eabr.ReadUInt16();
mnx_sb.s_nzones = eabr.ReadUInt16();
mnx_sb.s_imap_blocks = eabr.ReadUInt16();
mnx_sb.s_zmap_blocks = eabr.ReadUInt16();
mnx_sb.s_firstdatazone = eabr.ReadUInt16();
mnx_sb.s_log_zone_size = eabr.ReadUInt16();
mnx_sb.s_max_size = eabr.ReadUInt32();
mnx_sb.s_magic = eabr.ReadUInt16();
mnx_sb.s_state = eabr.ReadUInt16();
mnx_sb.s_zones = eabr.ReadUInt32();
sb.AppendLine(minixVersion);
sb.AppendFormat("{0} chars in filename", filenamesize).AppendLine();
if(mnx_sb.s_zones > 0) // On V2
sb.AppendFormat("{0} zones on volume ({1} bytes)", mnx_sb.s_zones, mnx_sb.s_zones*1024).AppendLine();
else
sb.AppendFormat("{0} zones on volume ({1} bytes)", mnx_sb.s_nzones, mnx_sb.s_nzones*1024).AppendLine();
sb.AppendFormat("{0} inodes on volume", mnx_sb.s_ninodes).AppendLine();
sb.AppendFormat("{0} blocks on inode map ({1} bytes)", mnx_sb.s_imap_blocks, mnx_sb.s_imap_blocks*1024).AppendLine();
sb.AppendFormat("{0} blocks on zone map ({1} bytes)", mnx_sb.s_zmap_blocks, mnx_sb.s_zmap_blocks*1024).AppendLine();
sb.AppendFormat("First data zone: {0}", mnx_sb.s_firstdatazone).AppendLine();
//sb.AppendFormat("log2 of blocks/zone: {0}", mnx_sb.s_log_zone_size).AppendLine(); // Apparently 0
sb.AppendFormat("{0} bytes maximum per file", mnx_sb.s_max_size).AppendLine();
sb.AppendFormat("Filesystem state: {0:X4}", mnx_sb.s_state).AppendLine();
}
information = sb.ToString();
}
public struct MinixSuperBlock
{
public UInt16 s_ninodes; // 0x00, inodes on volume
public UInt16 s_nzones; // 0x02, zones on volume
public UInt16 s_imap_blocks; // 0x04, blocks on inode map
public UInt16 s_zmap_blocks; // 0x06, blocks on zone map
public UInt16 s_firstdatazone; // 0x08, first data zone
public UInt16 s_log_zone_size; // 0x0A, log2 of blocks/zone
public UInt32 s_max_size; // 0x0C, max file size
public UInt16 s_magic; // 0x10, magic
public UInt16 s_state; // 0x12, filesystem state
public UInt32 s_zones; // 0x14, number of zones
}
public struct Minix3SuperBlock
{
public UInt32 s_ninodes; // 0x00, inodes on volume
public UInt16 s_pad0; // 0x04, padding
public UInt16 s_imap_blocks; // 0x06, blocks on inode map
public UInt16 s_zmap_blocks; // 0x08, blocks on zone map
public UInt16 s_firstdatazone; // 0x0A, first data zone
public UInt16 s_log_zone_size; // 0x0C, log2 of blocks/zone
public UInt16 s_pad1; // 0x0E, padding
public UInt32 s_max_size; // 0x10, max file size
public UInt32 s_zones; // 0x14, number of zones
public UInt16 s_magic; // 0x18, magic
public UInt16 s_pad2; // 0x1A, padding
public UInt16 s_blocksize; // 0x1C, bytes in a block
public byte s_disk_version; // 0x1E, on-disk structures version
}
}
}
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