// /*************************************************************************** // Aaru Data Preservation Suite // ---------------------------------------------------------------------------- // // Filename : Info.cs // Author(s) : Natalia Portillo // // Component : MINIX filesystem plugin. // // --[ 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 © 2011-2025 Natalia Portillo // ****************************************************************************/ using System; using System.Text; using Aaru.CommonTypes.AaruMetadata; using Aaru.CommonTypes.Enums; using Aaru.CommonTypes.Interfaces; using Aaru.Helpers; using Partition = Aaru.CommonTypes.Partition; namespace Aaru.Filesystems; // Information from the Linux kernel /// /// Implements detection of the MINIX filesystem public sealed partial class MinixFS { #region IFilesystem Members /// public bool Identify(IMediaImage imagePlugin, Partition partition) { uint sector = 2; uint offset = 0; if(imagePlugin.Info.MetadataMediaType == MetadataMediaType.OpticalDisc) { sector = 0; offset = 0x400; } if(sector + partition.Start >= partition.End) return false; ErrorNumber errno = imagePlugin.ReadSector(sector + partition.Start, out byte[] minixSbSector); if(errno != ErrorNumber.NoError) return false; // Optical media if(offset > 0) { var tmp = new byte[0x200]; Array.Copy(minixSbSector, offset, tmp, 0, 0x200); minixSbSector = tmp; } var magic = BitConverter.ToUInt16(minixSbSector, 0x010); if(magic is MINIX_MAGIC or MINIX_MAGIC2 or MINIX2_MAGIC or MINIX2_MAGIC2 or MINIX_CIGAM or MINIX_CIGAM2 or MINIX2_CIGAM or MINIX2_CIGAM2) return true; magic = BitConverter.ToUInt16(minixSbSector, 0x018); // Here should reside magic number on Minix v3 return magic is MINIX_MAGIC or MINIX2_MAGIC or MINIX3_MAGIC or MINIX_CIGAM or MINIX2_CIGAM or MINIX3_CIGAM; } /// public void GetInformation(IMediaImage imagePlugin, Partition partition, Encoding encoding, out string information, out FileSystem metadata) { information = ""; metadata = new FileSystem(); var sb = new StringBuilder(); uint sector = 2; uint offset = 0; if(imagePlugin.Info.MetadataMediaType == MetadataMediaType.OpticalDisc) { sector = 0; offset = 0x400; } var minix3 = false; int filenamesize; string minixVersion; ErrorNumber errno = imagePlugin.ReadSector(sector + partition.Start, out byte[] minixSbSector); if(errno != ErrorNumber.NoError) return; // Optical media if(offset > 0) { var tmp = new byte[0x200]; Array.Copy(minixSbSector, offset, tmp, 0, 0x200); minixSbSector = tmp; } var magic = BitConverter.ToUInt16(minixSbSector, 0x018); metadata = new FileSystem(); bool littleEndian; if(magic is MINIX3_MAGIC or MINIX3_CIGAM or MINIX2_MAGIC or MINIX2_CIGAM or MINIX_MAGIC or MINIX_CIGAM) { filenamesize = 60; littleEndian = magic is not (MINIX3_CIGAM or MINIX2_CIGAM or MINIX_CIGAM); switch(magic) { case MINIX3_MAGIC: case MINIX3_CIGAM: minixVersion = Localization.Minix_v3_filesystem; metadata.Type = FS_TYPE_V3; break; case MINIX2_MAGIC: case MINIX2_CIGAM: minixVersion = Localization.Minix_3_v2_filesystem; metadata.Type = FS_TYPE_V3; break; default: minixVersion = Localization.Minix_3_v1_filesystem; metadata.Type = FS_TYPE_V3; break; } minix3 = true; } else { magic = BitConverter.ToUInt16(minixSbSector, 0x010); switch(magic) { case MINIX_MAGIC: filenamesize = 14; minixVersion = Localization.Minix_v1_filesystem; littleEndian = true; metadata.Type = FS_TYPE_V1; break; case MINIX_MAGIC2: filenamesize = 30; minixVersion = Localization.Minix_v1_filesystem; littleEndian = true; metadata.Type = FS_TYPE_V1; break; case MINIX2_MAGIC: filenamesize = 14; minixVersion = Localization.Minix_v2_filesystem; littleEndian = true; metadata.Type = FS_TYPE_V2; break; case MINIX2_MAGIC2: filenamesize = 30; minixVersion = Localization.Minix_v2_filesystem; littleEndian = true; metadata.Type = FS_TYPE_V2; break; case MINIX_CIGAM: filenamesize = 14; minixVersion = Localization.Minix_v1_filesystem; littleEndian = false; metadata.Type = FS_TYPE_V1; break; case MINIX_CIGAM2: filenamesize = 30; minixVersion = Localization.Minix_v1_filesystem; littleEndian = false; metadata.Type = FS_TYPE_V1; break; case MINIX2_CIGAM: filenamesize = 14; minixVersion = Localization.Minix_v2_filesystem; littleEndian = false; metadata.Type = FS_TYPE_V2; break; case MINIX2_CIGAM2: filenamesize = 30; minixVersion = Localization.Minix_v2_filesystem; littleEndian = false; metadata.Type = FS_TYPE_V2; break; default: return; } } if(minix3) { SuperBlock3 mnxSb = littleEndian ? Marshal.ByteArrayToStructureLittleEndian(minixSbSector) : Marshal.ByteArrayToStructureBigEndian(minixSbSector); if(magic != MINIX3_MAGIC && magic != MINIX3_CIGAM) mnxSb.s_blocksize = 1024; sb.AppendLine(minixVersion); sb.AppendFormat(Localization._0_chars_in_filename, filenamesize).AppendLine(); if(mnxSb.s_zones > 0) // On V2 { sb.AppendFormat(Localization._0_zones_in_volume_1_bytes, mnxSb.s_zones, mnxSb.s_zones * 1024) .AppendLine(); } else { sb.AppendFormat(Localization._0_zones_in_volume_1_bytes, mnxSb.s_nzones, mnxSb.s_nzones * 1024) .AppendLine(); } sb.AppendFormat(Localization._0_bytes_block, mnxSb.s_blocksize).AppendLine(); sb.AppendFormat(Localization._0_inodes_in_volume, mnxSb.s_ninodes).AppendLine(); sb.AppendFormat(Localization._0_blocks_on_inode_map_1_bytes, mnxSb.s_imap_blocks, mnxSb.s_imap_blocks * mnxSb.s_blocksize) .AppendLine(); sb.AppendFormat(Localization._0_blocks_on_zone_map_1_bytes, mnxSb.s_zmap_blocks, mnxSb.s_zmap_blocks * mnxSb.s_blocksize) .AppendLine(); sb.AppendFormat(Localization.First_data_zone_0, mnxSb.s_firstdatazone).AppendLine(); //sb.AppendFormat("log2 of blocks/zone: {0}", mnx_sb.s_log_zone_size).AppendLine(); // Apparently 0 sb.AppendFormat(Localization._0_bytes_maximum_per_file, mnxSb.s_max_size).AppendLine(); sb.AppendFormat(Localization.On_disk_filesystem_version_0, mnxSb.s_disk_version).AppendLine(); metadata.ClusterSize = mnxSb.s_blocksize; metadata.Clusters = mnxSb.s_zones > 0 ? mnxSb.s_zones : mnxSb.s_nzones; } else { SuperBlock mnxSb = littleEndian ? Marshal.ByteArrayToStructureLittleEndian(minixSbSector) : Marshal.ByteArrayToStructureBigEndian(minixSbSector); sb.AppendLine(minixVersion); sb.AppendFormat(Localization._0_chars_in_filename, filenamesize).AppendLine(); if(mnxSb.s_zones > 0) // On V2 { sb.AppendFormat(Localization._0_zones_in_volume_1_bytes, mnxSb.s_zones, mnxSb.s_zones * 1024) .AppendLine(); } else { sb.AppendFormat(Localization._0_zones_in_volume_1_bytes, mnxSb.s_nzones, mnxSb.s_nzones * 1024) .AppendLine(); } sb.AppendFormat(Localization._0_inodes_in_volume, mnxSb.s_ninodes).AppendLine(); sb.AppendFormat(Localization._0_blocks_on_inode_map_1_bytes, mnxSb.s_imap_blocks, mnxSb.s_imap_blocks * 1024) .AppendLine(); sb.AppendFormat(Localization._0_blocks_on_zone_map_1_bytes, mnxSb.s_zmap_blocks, mnxSb.s_zmap_blocks * 1024) .AppendLine(); sb.AppendFormat(Localization.First_data_zone_0, mnxSb.s_firstdatazone).AppendLine(); //sb.AppendFormat("log2 of blocks/zone: {0}", mnx_sb.s_log_zone_size).AppendLine(); // Apparently 0 sb.AppendFormat(Localization._0_bytes_maximum_per_file, mnxSb.s_max_size).AppendLine(); sb.AppendFormat(Localization.Filesystem_state_0, mnxSb.s_state).AppendLine(); metadata.ClusterSize = 1024; metadata.Clusters = mnxSb.s_zones > 0 ? mnxSb.s_zones : mnxSb.s_nzones; } information = sb.ToString(); } #endregion }