// /*************************************************************************** // The Disc Image Chef // ---------------------------------------------------------------------------- // // Filename : BFS.cs // Author(s) : Natalia Portillo // // Component : BeOS filesystem plugin. // // --[ Description ] ---------------------------------------------------------- // // Identifies the BeOS filesystem and shows information. // // --[ License ] -------------------------------------------------------------- // // This library is free software; you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as // published by the Free Software Foundation; either version 2.1 of the // License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, see . // // ---------------------------------------------------------------------------- // Copyright © 2011-2017 Natalia Portillo // ****************************************************************************/ using System; using System.Collections.Generic; using System.Runtime.InteropServices; using System.Text; using DiscImageChef.CommonTypes; namespace DiscImageChef.Filesystems { // Information from Practical Filesystem Design, ISBN 1-55860-497-9 public class BeFS : Filesystem { // Little endian constants (that is, as read by .NET :p) const uint BEFS_MAGIC1 = 0x42465331; const uint BEFS_MAGIC2 = 0xDD121031; const uint BEFS_MAGIC3 = 0x15B6830E; const uint BEFS_ENDIAN = 0x42494745; // Big endian constants const uint BEFS_CIGAM1 = 0x31534642; const uint BEFS_NAIDNE = 0x45474942; // Common constants const uint BEFS_CLEAN = 0x434C454E; const uint BEFS_DIRTY = 0x44495254; public BeFS() { Name = "Be Filesystem"; PluginUUID = new Guid("dc8572b3-b6ad-46e4-8de9-cbe123ff6672"); CurrentEncoding = Encoding.GetEncoding("iso-8859-15"); } public BeFS(ImagePlugins.ImagePlugin imagePlugin, Partition partition, Encoding encoding) { Name = "Be Filesystem"; PluginUUID = new Guid("dc8572b3-b6ad-46e4-8de9-cbe123ff6672"); if(encoding == null) CurrentEncoding = Encoding.GetEncoding("iso-8859-15"); else CurrentEncoding = encoding; } public override bool Identify(ImagePlugins.ImagePlugin imagePlugin, Partition partition) { if((2 + partition.Start) >= partition.End) return false; uint magic; uint magic_be; byte[] sb_sector = imagePlugin.ReadSector(0 + partition.Start); magic = BitConverter.ToUInt32(sb_sector, 0x20); magic_be = BigEndianBitConverter.ToUInt32(sb_sector, 0x20); if(magic == BEFS_MAGIC1 || magic_be == BEFS_MAGIC1) return true; if(sb_sector.Length >= 0x400) { magic = BitConverter.ToUInt32(sb_sector, 0x220); magic_be = BigEndianBitConverter.ToUInt32(sb_sector, 0x220); } if(magic == BEFS_MAGIC1 || magic_be == BEFS_MAGIC1) return true; sb_sector = imagePlugin.ReadSector(1 + partition.Start); magic = BitConverter.ToUInt32(sb_sector, 0x20); magic_be = BigEndianBitConverter.ToUInt32(sb_sector, 0x20); if(magic == BEFS_MAGIC1 || magic_be == BEFS_MAGIC1) return true; return false; } public override void GetInformation(ImagePlugins.ImagePlugin imagePlugin, Partition partition, out string information) { information = ""; byte[] name_bytes = new byte[32]; StringBuilder sb = new StringBuilder(); BeSuperBlock besb = new BeSuperBlock(); byte[] sb_sector = imagePlugin.ReadSector(0 + partition.Start); bool littleEndian = true; besb.magic1 = BigEndianBitConverter.ToUInt32(sb_sector, 0x20); if(besb.magic1 == BEFS_MAGIC1 || besb.magic1 == BEFS_CIGAM1) // Magic is at offset { littleEndian = besb.magic1 == BEFS_CIGAM1; } else { sb_sector = imagePlugin.ReadSector(1 + partition.Start); besb.magic1 = BigEndianBitConverter.ToUInt32(sb_sector, 0x20); if(besb.magic1 == BEFS_MAGIC1 || besb.magic1 == BEFS_CIGAM1) // There is a boot sector { littleEndian = besb.magic1 == BEFS_CIGAM1; } else if(sb_sector.Length >= 0x400) { byte[] temp = imagePlugin.ReadSector(0 + partition.Start); besb.magic1 = BigEndianBitConverter.ToUInt32(temp, 0x220); if(besb.magic1 == BEFS_MAGIC1 || besb.magic1 == BEFS_CIGAM1) // There is a boot sector { littleEndian = besb.magic1 == BEFS_CIGAM1; sb_sector = new byte[0x200]; Array.Copy(temp, 0x200, sb_sector, 0, 0x200); } else return; } else return; } if(littleEndian) { GCHandle handle = GCHandle.Alloc(sb_sector, GCHandleType.Pinned); besb = (BeSuperBlock)Marshal.PtrToStructure(handle.AddrOfPinnedObject(), typeof(BeSuperBlock)); handle.Free(); } else besb = BigEndianMarshal.ByteArrayToStructureBigEndian(sb_sector); if(littleEndian) // Big-endian filesystem sb.AppendLine("Little-endian BeFS"); else sb.AppendLine("Big-endian BeFS"); if(besb.magic1 != BEFS_MAGIC1 || besb.fs_byte_order != BEFS_ENDIAN || besb.magic2 != BEFS_MAGIC2 || besb.magic3 != BEFS_MAGIC3 || besb.root_dir_len != 1 || besb.indices_len != 1 || (1 << (int)besb.block_shift) != besb.block_size) { sb.AppendLine("Superblock seems corrupt, following information may be incorrect"); sb.AppendFormat("Magic 1: 0x{0:X8} (Should be 0x42465331)", besb.magic1).AppendLine(); sb.AppendFormat("Magic 2: 0x{0:X8} (Should be 0xDD121031)", besb.magic2).AppendLine(); sb.AppendFormat("Magic 3: 0x{0:X8} (Should be 0x15B6830E)", besb.magic3).AppendLine(); sb.AppendFormat("Filesystem endianness: 0x{0:X8} (Should be 0x42494745)", besb.fs_byte_order).AppendLine(); sb.AppendFormat("Root folder's i-node size: {0} blocks (Should be 1)", besb.root_dir_len).AppendLine(); sb.AppendFormat("Indices' i-node size: {0} blocks (Should be 1)", besb.indices_len).AppendLine(); sb.AppendFormat("1 << block_shift == block_size => 1 << {0} == {1} (Should be {2})", besb.block_shift, 1 << (int)besb.block_shift, besb.block_size).AppendLine(); } if(besb.flags == BEFS_CLEAN) { if(besb.log_start == besb.log_end) sb.AppendLine("Filesystem is clean"); else sb.AppendLine("Filesystem is dirty"); } else if(besb.flags == BEFS_DIRTY) sb.AppendLine("Filesystem is dirty"); else sb.AppendFormat("Unknown flags: {0:X8}", besb.flags).AppendLine(); sb.AppendFormat("Volume name: {0}", StringHandlers.CToString(besb.name, CurrentEncoding)).AppendLine(); sb.AppendFormat("{0} bytes per block", besb.block_size).AppendLine(); sb.AppendFormat("{0} blocks in volume ({1} bytes)", besb.num_blocks, besb.num_blocks * besb.block_size).AppendLine(); sb.AppendFormat("{0} used blocks ({1} bytes)", besb.used_blocks, besb.used_blocks * besb.block_size).AppendLine(); sb.AppendFormat("{0} bytes per i-node", besb.inode_size).AppendLine(); sb.AppendFormat("{0} blocks per allocation group ({1} bytes)", besb.blocks_per_ag, besb.blocks_per_ag * besb.block_size).AppendLine(); sb.AppendFormat("{0} allocation groups in volume", besb.num_ags).AppendLine(); sb.AppendFormat("Journal resides in block {0} of allocation group {1} and runs for {2} blocks ({3} bytes)", besb.log_blocks_start, besb.log_blocks_ag, besb.log_blocks_len, besb.log_blocks_len * besb.block_size).AppendLine(); sb.AppendFormat("Journal starts in byte {0} and ends in byte {1}", besb.log_start, besb.log_end).AppendLine(); sb.AppendFormat("Root folder's i-node resides in block {0} of allocation group {1} and runs for {2} blocks ({3} bytes)", besb.root_dir_start, besb.root_dir_ag, besb.root_dir_len, besb.root_dir_len * besb.block_size).AppendLine(); sb.AppendFormat("Indices' i-node resides in block {0} of allocation group {1} and runs for {2} blocks ({3} bytes)", besb.indices_start, besb.indices_ag, besb.indices_len, besb.indices_len * besb.block_size).AppendLine(); information = sb.ToString(); xmlFSType = new Schemas.FileSystemType(); xmlFSType.Clusters = besb.num_blocks; xmlFSType.ClusterSize = (int)besb.block_size; xmlFSType.Dirty = besb.flags == BEFS_DIRTY; xmlFSType.FreeClusters = besb.num_blocks - besb.used_blocks; xmlFSType.FreeClustersSpecified = true; xmlFSType.Type = "BeFS"; xmlFSType.VolumeName = StringHandlers.CToString(besb.name, CurrentEncoding); } /// /// Be superblock /// [StructLayout(LayoutKind.Sequential, Pack = 1)] struct BeSuperBlock { /// 0x000, Volume name, 32 bytes [MarshalAs(UnmanagedType.ByValArray, SizeConst = 32)] public byte[] name; /// 0x020, "BFS1", 0x42465331 public uint magic1; /// 0x024, "BIGE", 0x42494745 public uint fs_byte_order; /// 0x028, Bytes per block public uint block_size; /// 0x02C, 1 << block_shift == block_size public uint block_shift; /// 0x030, Blocks in volume public long num_blocks; /// 0x038, Used blocks in volume public long used_blocks; /// 0x040, Bytes per inode public int inode_size; /// 0x044, 0xDD121031 public uint magic2; /// 0x048, Blocks per allocation group public int blocks_per_ag; /// 0x04C, 1 << ag_shift == blocks_per_ag public int ag_shift; /// 0x050, Allocation groups in volume public int num_ags; /// 0x054, 0x434c454e if clean, 0x44495254 if dirty public uint flags; /// 0x058, Allocation group of journal public int log_blocks_ag; /// 0x05C, Start block of journal, inside ag public ushort log_blocks_start; /// 0x05E, Length in blocks of journal, inside ag public ushort log_blocks_len; /// 0x060, Start of journal public long log_start; /// 0x068, End of journal public long log_end; /// 0x070, 0x15B6830E public uint magic3; /// 0x074, Allocation group where root folder's i-node resides public int root_dir_ag; /// 0x078, Start in ag of root folder's i-node public ushort root_dir_start; /// 0x07A, As this is part of inode_addr, this is 1 public ushort root_dir_len; /// 0x07C, Allocation group where indices' i-node resides public int indices_ag; /// 0x080, Start in ag of indices' i-node public ushort indices_start; /// 0x082, As this is part of inode_addr, this is 1 public ushort indices_len; } public override Errno Mount() { return Errno.NotImplemented; } public override Errno Mount(bool debug) { return Errno.NotImplemented; } public override Errno Unmount() { return Errno.NotImplemented; } public override Errno MapBlock(string path, long fileBlock, ref long deviceBlock) { return Errno.NotImplemented; } public override Errno GetAttributes(string path, ref FileAttributes attributes) { return Errno.NotImplemented; } public override Errno ListXAttr(string path, ref List xattrs) { return Errno.NotImplemented; } public override Errno GetXattr(string path, string xattr, ref byte[] buf) { return Errno.NotImplemented; } public override Errno Read(string path, long offset, long size, ref byte[] buf) { return Errno.NotImplemented; } public override Errno ReadDir(string path, ref List contents) { return Errno.NotImplemented; } public override Errno StatFs(ref FileSystemInfo stat) { return Errno.NotImplemented; } public override Errno Stat(string path, ref FileEntryInfo stat) { return Errno.NotImplemented; } public override Errno ReadLink(string path, ref string dest) { return Errno.NotImplemented; } } }