Beispiel #1
0
        /// <inheritdoc />
        public Errno Mount(IMediaImage imagePlugin, Partition partition, Encoding encoding,
                           Dictionary <string, string> options, string @namespace)
        {
            XmlFsType = new FileSystemType();

            options ??= GetDefaultOptions();

            if (options.TryGetValue("debug", out string debugString))
            {
                bool.TryParse(debugString, out _debug);
            }

            // Default namespace
            @namespace ??= "ecs";

            switch (@namespace.ToLowerInvariant())
            {
            case "dos":
                _namespace = Namespace.Dos;

                break;

            case "nt":
                _namespace = Namespace.Nt;

                break;

            case "os2":
                _namespace = Namespace.Os2;

                break;

            case "ecs":
                _namespace = Namespace.Ecs;

                break;

            case "lfn":
                _namespace = Namespace.Lfn;

                break;

            case "human":
                _namespace = Namespace.Human;

                break;

            default: return(Errno.InvalidArgument);
            }

            AaruConsole.DebugWriteLine("FAT plugin", "Reading BPB");

            uint sectorsPerBpb = imagePlugin.Info.SectorSize < 512 ? 512 / imagePlugin.Info.SectorSize : 1;

            byte[] bpbSector = imagePlugin.ReadSectors(0 + partition.Start, sectorsPerBpb);

            BpbKind bpbKind = DetectBpbKind(bpbSector, imagePlugin, partition, out BiosParameterBlockEbpb fakeBpb,
                                            out HumanParameterBlock humanBpb, out AtariParameterBlock atariBpb,
                                            out byte minBootNearJump, out bool andosOemCorrect, out bool bootable);

            _fat12             = false;
            _fat16             = false;
            _fat32             = false;
            _useFirstFat       = true;
            XmlFsType.Bootable = bootable;

            _statfs = new FileSystemInfo
            {
                FilenameLength = 11,
                Files          = 0, // Requires traversing all directories
                FreeFiles      = 0,
                PluginId       = Id,
                FreeBlocks     = 0 // Requires traversing the FAT
            };

            // This is needed because for FAT16, GEMDOS increases bytes per sector count instead of using big_sectors field.
            uint sectorsPerRealSector = 1;

            // This is needed because some OSes don't put volume label as first entry in the root directory
            uint sectorsForRootDirectory = 0;
            uint rootDirectoryCluster    = 0;

            Encoding = encoding ?? (bpbKind == BpbKind.Human ? Encoding.GetEncoding("shift_jis")
                                        : Encoding.GetEncoding("IBM437"));

            switch (bpbKind)
            {
            case BpbKind.DecRainbow:
            case BpbKind.Hardcoded:
            case BpbKind.Msx:
            case BpbKind.Apricot:
                _fat12 = true;

                break;

            case BpbKind.ShortFat32:
            case BpbKind.LongFat32:
            {
                _fat32 = true;

                Fat32ParameterBlock fat32Bpb =
                    Marshal.ByteArrayToStructureLittleEndian <Fat32ParameterBlock>(bpbSector);

                Fat32ParameterBlockShort shortFat32Bpb =
                    Marshal.ByteArrayToStructureLittleEndian <Fat32ParameterBlockShort>(bpbSector);

                rootDirectoryCluster = fat32Bpb.root_cluster;

                // This is to support FAT partitions on hybrid ISO/USB images
                if (imagePlugin.Info.XmlMediaType == XmlMediaType.OpticalDisc)
                {
                    fat32Bpb.bps       *= 4;
                    fat32Bpb.spc       /= 4;
                    fat32Bpb.big_spfat /= 4;
                    fat32Bpb.hsectors  /= 4;
                    fat32Bpb.sptrk     /= 4;
                }

                XmlFsType.Type = fat32Bpb.version != 0 ? "FAT+" : "FAT32";

                if (fat32Bpb.oem_name != null &&
                    (fat32Bpb.oem_name[5] != 0x49 || fat32Bpb.oem_name[6] != 0x48 || fat32Bpb.oem_name[7] != 0x43))
                {
                    XmlFsType.SystemIdentifier = StringHandlers.CToString(fat32Bpb.oem_name);
                }

                _sectorsPerCluster    = fat32Bpb.spc;
                XmlFsType.ClusterSize = (uint)(fat32Bpb.bps * fat32Bpb.spc);
                _reservedSectors      = fat32Bpb.rsectors;

                if (fat32Bpb.big_sectors == 0 &&
                    fat32Bpb.signature == 0x28)
                {
                    XmlFsType.Clusters = shortFat32Bpb.huge_sectors / shortFat32Bpb.spc;
                }
                else if (fat32Bpb.sectors == 0)
                {
                    XmlFsType.Clusters = fat32Bpb.big_sectors / fat32Bpb.spc;
                }
                else
                {
                    XmlFsType.Clusters = (ulong)(fat32Bpb.sectors / fat32Bpb.spc);
                }

                _sectorsPerFat         = fat32Bpb.big_spfat;
                XmlFsType.VolumeSerial = $"{fat32Bpb.serial_no:X8}";

                _statfs.Id = new FileSystemId
                {
                    IsInt    = true,
                    Serial32 = fat32Bpb.serial_no
                };

                if ((fat32Bpb.flags & 0xF8) == 0x00)
                {
                    if ((fat32Bpb.flags & 0x01) == 0x01)
                    {
                        XmlFsType.Dirty = true;
                    }
                }

                if ((fat32Bpb.mirror_flags & 0x80) == 0x80)
                {
                    _useFirstFat = (fat32Bpb.mirror_flags & 0xF) != 1;
                }

                if (fat32Bpb.signature == 0x29)
                {
                    XmlFsType.VolumeName = StringHandlers.SpacePaddedToString(fat32Bpb.volume_label, Encoding);
                    XmlFsType.VolumeName = XmlFsType.VolumeName?.Replace("\0", "");
                }

                // Check that jumps to a correct boot code position and has boot signature set.
                // This will mean that the volume will boot, even if just to say "this is not bootable change disk"......
                XmlFsType.Bootable =
                    (fat32Bpb.jump[0] == 0xEB && fat32Bpb.jump[1] >= minBootNearJump && fat32Bpb.jump[1] < 0x80) ||
                    (fat32Bpb.jump[0] == 0xE9 && fat32Bpb.jump.Length >= 3 &&
                     BitConverter.ToUInt16(fat32Bpb.jump, 1) >= minBootNearJump &&
                     BitConverter.ToUInt16(fat32Bpb.jump, 1) <= 0x1FC);

                sectorsPerRealSector = fat32Bpb.bps / imagePlugin.Info.SectorSize;
                _sectorsPerCluster  *= sectorsPerRealSector;

                // First root directory sector
                _firstClusterSector =
                    ((ulong)((fat32Bpb.big_spfat * fat32Bpb.fats_no) + fat32Bpb.rsectors) * sectorsPerRealSector) -
                    (2 * _sectorsPerCluster);

                if (fat32Bpb.fsinfo_sector + partition.Start <= partition.End)
                {
                    byte[] fsinfoSector = imagePlugin.ReadSector(fat32Bpb.fsinfo_sector + partition.Start);

                    FsInfoSector fsInfo = Marshal.ByteArrayToStructureLittleEndian <FsInfoSector>(fsinfoSector);

                    if (fsInfo.signature1 == FSINFO_SIGNATURE1 &&
                        fsInfo.signature2 == FSINFO_SIGNATURE2 &&
                        fsInfo.signature3 == FSINFO_SIGNATURE3)
                    {
                        if (fsInfo.free_clusters < 0xFFFFFFFF)
                        {
                            XmlFsType.FreeClusters          = fsInfo.free_clusters;
                            XmlFsType.FreeClustersSpecified = true;
                        }
                    }
                }

                break;
            }

            // Some fields could overflow fake BPB, those will be handled below
            case BpbKind.Atari:
            {
                ushort sum = 0;

                for (int i = 0; i < bpbSector.Length; i += 2)
                {
                    sum += BigEndianBitConverter.ToUInt16(bpbSector, i);
                }

                // TODO: Check this
                if (sum == 0x1234)
                {
                    XmlFsType.Bootable = true;
                }

                // BGM changes the bytes per sector instead of changing the sectors per cluster. Why?! WHY!?
                uint ratio = fakeBpb.bps / imagePlugin.Info.SectorSize;
                fakeBpb.bps         = (ushort)imagePlugin.Info.SectorSize;
                fakeBpb.spc         = (byte)(fakeBpb.spc * ratio);
                fakeBpb.rsectors    = (ushort)(fakeBpb.rsectors * ratio);
                fakeBpb.big_sectors = fakeBpb.sectors * ratio;
                fakeBpb.sectors     = 0;
                fakeBpb.spfat       = (ushort)(fakeBpb.spfat * ratio);
                fakeBpb.sptrk       = (ushort)(fakeBpb.sptrk * ratio);

                break;
            }

            case BpbKind.Human:
                // If not debug set Human68k namespace and ShiftJIS codepage as defaults
                if (!_debug)
                {
                    _namespace = Namespace.Human;
                }

                XmlFsType.Bootable = true;

                break;
            }

            ulong firstRootSector = 0;

            if (!_fat32)
            {
                // This is to support FAT partitions on hybrid ISO/USB images
                if (imagePlugin.Info.XmlMediaType == XmlMediaType.OpticalDisc)
                {
                    fakeBpb.bps      *= 4;
                    fakeBpb.spc      /= 4;
                    fakeBpb.spfat    /= 4;
                    fakeBpb.hsectors /= 4;
                    fakeBpb.sptrk    /= 4;
                    fakeBpb.rsectors /= 4;

                    if (fakeBpb.spc == 0)
                    {
                        fakeBpb.spc = 1;
                    }
                }

                ulong clusters;

                if (bpbKind != BpbKind.Human)
                {
                    int reservedSectors = fakeBpb.rsectors + (fakeBpb.fats_no * fakeBpb.spfat) +
                                          (fakeBpb.root_ent * 32 / fakeBpb.bps);

                    if (fakeBpb.sectors == 0)
                    {
                        clusters = (ulong)(fakeBpb.spc == 0 ? fakeBpb.big_sectors - reservedSectors
                                               : (fakeBpb.big_sectors - reservedSectors) / fakeBpb.spc);
                    }
                    else
                    {
                        clusters = (ulong)(fakeBpb.spc == 0 ? fakeBpb.sectors - reservedSectors
                                               : (fakeBpb.sectors - reservedSectors) / fakeBpb.spc);
                    }
                }
                else
                {
                    clusters = humanBpb.clusters == 0 ? humanBpb.big_clusters : humanBpb.clusters;
                }

                // This will walk all the FAT entries and check if they're valid FAT12 or FAT16 entries.
                // If the whole table is valid in both senses, it considers the type entry in the BPB.
                // BeOS is known to set the type as FAT16 but treat it as FAT12.
                if (!_fat12 &&
                    !_fat16)
                {
                    if (clusters < 4089)
                    {
                        ushort[] fat12 = new ushort[clusters];

                        _reservedSectors     = fakeBpb.rsectors;
                        sectorsPerRealSector = fakeBpb.bps / imagePlugin.Info.SectorSize;
                        _fatFirstSector      = partition.Start + (_reservedSectors * sectorsPerRealSector);

                        byte[] fatBytes = imagePlugin.ReadSectors(_fatFirstSector, fakeBpb.spfat);

                        int pos = 0;

                        for (int i = 0; i + 3 < fatBytes.Length && pos < fat12.Length; i += 3)
                        {
                            fat12[pos++] = (ushort)(((fatBytes[i + 1] & 0xF) << 8) + fatBytes[i + 0]);

                            if (pos >= fat12.Length)
                            {
                                break;
                            }

                            fat12[pos++] = (ushort)(((fatBytes[i + 1] & 0xF0) >> 4) + (fatBytes[i + 2] << 4));
                        }

                        bool fat12Valid = fat12[0] >= FAT12_RESERVED && fat12[1] >= FAT12_RESERVED;

                        foreach (ushort entry in fat12)
                        {
                            if (entry >= FAT12_RESERVED ||
                                entry <= clusters)
                            {
                                continue;
                            }

                            fat12Valid = false;

                            break;
                        }

                        ushort[] fat16 = MemoryMarshal.Cast <byte, ushort>(fatBytes).ToArray();

                        bool fat16Valid = fat16[0] >= FAT16_RESERVED && fat16[1] >= 0x3FF0;

                        foreach (ushort entry in fat16)
                        {
                            if (entry >= FAT16_RESERVED ||
                                entry <= clusters)
                            {
                                continue;
                            }

                            fat16Valid = false;

                            break;
                        }

                        _fat12 = fat12Valid;
                        _fat16 = fat16Valid;

                        // Check BPB type
                        if (_fat12 == _fat16)
                        {
                            _fat12 = Encoding.ASCII.GetString(fakeBpb.fs_type) == "FAT12   ";
                            _fat16 = Encoding.ASCII.GetString(fakeBpb.fs_type) == "FAT16   ";
                        }
                    }
                    else
                    {
                        _fat16 = true;
                    }
                }

                if (_fat12)
                {
                    XmlFsType.Type = "FAT12";
                }
                else if (_fat16)
                {
                    XmlFsType.Type = "FAT16";
                }

                if (bpbKind == BpbKind.Atari)
                {
                    if (atariBpb.serial_no[0] != 0x49 ||
                        atariBpb.serial_no[1] != 0x48 ||
                        atariBpb.serial_no[2] != 0x43)
                    {
                        XmlFsType.VolumeSerial =
                            $"{atariBpb.serial_no[0]:X2}{atariBpb.serial_no[1]:X2}{atariBpb.serial_no[2]:X2}";

                        _statfs.Id = new FileSystemId
                        {
                            IsInt    = true,
                            Serial32 = (uint)((atariBpb.serial_no[0] << 16) + (atariBpb.serial_no[1] << 8) +
                                              atariBpb.serial_no[2])
                        };
                    }

                    XmlFsType.SystemIdentifier = StringHandlers.CToString(atariBpb.oem_name);

                    if (string.IsNullOrEmpty(XmlFsType.SystemIdentifier))
                    {
                        XmlFsType.SystemIdentifier = null;
                    }
                }
                else if (fakeBpb.oem_name != null)
                {
                    if (fakeBpb.oem_name[5] != 0x49 ||
                        fakeBpb.oem_name[6] != 0x48 ||
                        fakeBpb.oem_name[7] != 0x43)
                    {
                        // Later versions of Windows create a DOS 3 BPB without OEM name on 8 sectors/track floppies
                        // OEM ID should be ASCII, otherwise ignore it
                        if (fakeBpb.oem_name[0] >= 0x20 &&
                            fakeBpb.oem_name[0] <= 0x7F &&
                            fakeBpb.oem_name[1] >= 0x20 &&
                            fakeBpb.oem_name[1] <= 0x7F &&
                            fakeBpb.oem_name[2] >= 0x20 &&
                            fakeBpb.oem_name[2] <= 0x7F &&
                            fakeBpb.oem_name[3] >= 0x20 &&
                            fakeBpb.oem_name[3] <= 0x7F &&
                            fakeBpb.oem_name[4] >= 0x20 &&
                            fakeBpb.oem_name[4] <= 0x7F &&
                            fakeBpb.oem_name[5] >= 0x20 &&
                            fakeBpb.oem_name[5] <= 0x7F &&
                            fakeBpb.oem_name[6] >= 0x20 &&
                            fakeBpb.oem_name[6] <= 0x7F &&
                            fakeBpb.oem_name[7] >= 0x20 &&
                            fakeBpb.oem_name[7] <= 0x7F)
                        {
                            XmlFsType.SystemIdentifier = StringHandlers.CToString(fakeBpb.oem_name);
                        }
                        else if (fakeBpb.oem_name[0] < 0x20 &&
                                 fakeBpb.oem_name[1] >= 0x20 &&
                                 fakeBpb.oem_name[1] <= 0x7F &&
                                 fakeBpb.oem_name[2] >= 0x20 &&
                                 fakeBpb.oem_name[2] <= 0x7F &&
                                 fakeBpb.oem_name[3] >= 0x20 &&
                                 fakeBpb.oem_name[3] <= 0x7F &&
                                 fakeBpb.oem_name[4] >= 0x20 &&
                                 fakeBpb.oem_name[4] <= 0x7F &&
                                 fakeBpb.oem_name[5] >= 0x20 &&
                                 fakeBpb.oem_name[5] <= 0x7F &&
                                 fakeBpb.oem_name[6] >= 0x20 &&
                                 fakeBpb.oem_name[6] <= 0x7F &&
                                 fakeBpb.oem_name[7] >= 0x20 &&
                                 fakeBpb.oem_name[7] <= 0x7F)
                        {
                            XmlFsType.SystemIdentifier = StringHandlers.CToString(fakeBpb.oem_name, Encoding, start: 1);
                        }
                    }

                    if (fakeBpb.signature == 0x28 ||
                        fakeBpb.signature == 0x29)
                    {
                        XmlFsType.VolumeSerial = $"{fakeBpb.serial_no:X8}";

                        _statfs.Id = new FileSystemId
                        {
                            IsInt    = true,
                            Serial32 = fakeBpb.serial_no
                        };
                    }
                }

                XmlFsType.Clusters    = clusters;
                _sectorsPerCluster    = fakeBpb.spc;
                XmlFsType.ClusterSize = (uint)(fakeBpb.bps * fakeBpb.spc);
                _reservedSectors      = fakeBpb.rsectors;
                _sectorsPerFat        = fakeBpb.spfat;

                if (fakeBpb.signature == 0x28 ||
                    fakeBpb.signature == 0x29 ||
                    andosOemCorrect)
                {
                    if ((fakeBpb.flags & 0xF8) == 0x00)
                    {
                        if ((fakeBpb.flags & 0x01) == 0x01)
                        {
                            XmlFsType.Dirty = true;
                        }
                    }

                    if (fakeBpb.signature == 0x29 || andosOemCorrect)
                    {
                        XmlFsType.VolumeName = StringHandlers.SpacePaddedToString(fakeBpb.volume_label, Encoding);
                        XmlFsType.VolumeName = XmlFsType.VolumeName?.Replace("\0", "");
                    }
                }

                // Workaround that PCExchange jumps into "FAT16   "...
                if (XmlFsType.SystemIdentifier == "PCX 2.0 ")
                {
                    fakeBpb.jump[1] += 8;
                }

                // Check that jumps to a correct boot code position and has boot signature set.
                // This will mean that the volume will boot, even if just to say "this is not bootable change disk"......
                if (XmlFsType.Bootable == false &&
                    fakeBpb.jump != null)
                {
                    XmlFsType.Bootable |=
                        (fakeBpb.jump[0] == 0xEB && fakeBpb.jump[1] >= minBootNearJump && fakeBpb.jump[1] < 0x80) ||
                        (fakeBpb.jump[0] == 0xE9 && fakeBpb.jump.Length >= 3 &&
                         BitConverter.ToUInt16(fakeBpb.jump, 1) >= minBootNearJump &&
                         BitConverter.ToUInt16(fakeBpb.jump, 1) <= 0x1FC);
                }

                // First root directory sector
                firstRootSector =
                    ((ulong)((fakeBpb.spfat * fakeBpb.fats_no) + fakeBpb.rsectors) * sectorsPerRealSector) +
                    partition.Start;

                sectorsForRootDirectory = (uint)(fakeBpb.root_ent * 32 / imagePlugin.Info.SectorSize);

                sectorsPerRealSector = fakeBpb.bps / imagePlugin.Info.SectorSize;
                _sectorsPerCluster  *= sectorsPerRealSector;
            }

            _firstClusterSector += partition.Start;

            _image = imagePlugin;

            if (_fat32)
            {
                _fatEntriesPerSector = imagePlugin.Info.SectorSize / 4;
            }
            else if (_fat16)
            {
                _fatEntriesPerSector = imagePlugin.Info.SectorSize / 2;
            }
            else
            {
                _fatEntriesPerSector = imagePlugin.Info.SectorSize * 2 / 3;
            }

            _fatFirstSector = partition.Start + (_reservedSectors * sectorsPerRealSector);

            _rootDirectoryCache = new Dictionary <string, CompleteDirectoryEntry>();
            byte[] rootDirectory;

            if (!_fat32)
            {
                _firstClusterSector = firstRootSector + sectorsForRootDirectory - (_sectorsPerCluster * 2);
                rootDirectory       = imagePlugin.ReadSectors(firstRootSector, sectorsForRootDirectory);

                if (bpbKind == BpbKind.DecRainbow)
                {
                    var rootMs = new MemoryStream();

                    foreach (byte[] tmp in from ulong rootSector in new[]
                    {
                        0x17, 0x19, 0x1B, 0x1D, 0x1E, 0x20
                    } select imagePlugin.ReadSector(rootSector))
                    {
                        rootMs.Write(tmp, 0, tmp.Length);
                    }

                    rootDirectory = rootMs.ToArray();
                }
            }
            else
            {
                if (rootDirectoryCluster == 0)
                {
                    return(Errno.InvalidArgument);
                }

                var    rootMs = new MemoryStream();
                uint[] rootDirectoryClusters = GetClusters(rootDirectoryCluster);

                foreach (byte[] buffer in rootDirectoryClusters.Select(cluster =>
                                                                       imagePlugin.
                                                                       ReadSectors(_firstClusterSector + (cluster * _sectorsPerCluster),
                                                                                   _sectorsPerCluster)))
                {
                    rootMs.Write(buffer, 0, buffer.Length);
                }

                rootDirectory = rootMs.ToArray();

                // OS/2 FAT32.IFS uses LFN instead of .LONGNAME
                if (_namespace == Namespace.Os2)
                {
                    _namespace = Namespace.Lfn;
                }
            }

            if (rootDirectory is null)
            {
                return(Errno.InvalidArgument);
            }

            byte[] lastLfnName     = null;
            byte   lastLfnChecksum = 0;

            for (int i = 0; i < rootDirectory.Length; i += Marshal.SizeOf <DirectoryEntry>())
            {
                DirectoryEntry entry =
                    Marshal.ByteArrayToStructureLittleEndian <DirectoryEntry>(rootDirectory, i,
                                                                              Marshal.SizeOf <DirectoryEntry>());

                if (entry.filename[0] == DIRENT_FINISHED)
                {
                    break;
                }

                if (entry.attributes.HasFlag(FatAttributes.LFN))
                {
                    if (_namespace != Namespace.Lfn &&
                        _namespace != Namespace.Ecs)
                    {
                        continue;
                    }

                    LfnEntry lfnEntry =
                        Marshal.ByteArrayToStructureLittleEndian <LfnEntry>(rootDirectory, i,
                                                                            Marshal.SizeOf <LfnEntry>());

                    int lfnSequence = lfnEntry.sequence & LFN_MASK;

                    if ((lfnEntry.sequence & LFN_ERASED) > 0)
                    {
                        continue;
                    }

                    if ((lfnEntry.sequence & LFN_LAST) > 0)
                    {
                        lastLfnName     = new byte[lfnSequence * 26];
                        lastLfnChecksum = lfnEntry.checksum;
                    }

                    if (lastLfnName is null)
                    {
                        continue;
                    }

                    if (lfnEntry.checksum != lastLfnChecksum)
                    {
                        continue;
                    }

                    lfnSequence--;

                    Array.Copy(lfnEntry.name1, 0, lastLfnName, lfnSequence * 26, 10);
                    Array.Copy(lfnEntry.name2, 0, lastLfnName, (lfnSequence * 26) + 10, 12);
                    Array.Copy(lfnEntry.name3, 0, lastLfnName, (lfnSequence * 26) + 22, 4);

                    continue;
                }

                // Not a correct entry
                if (entry.filename[0] < DIRENT_MIN &&
                    entry.filename[0] != DIRENT_E5)
                {
                    continue;
                }

                // Self
                if (Encoding.GetString(entry.filename).TrimEnd() == ".")
                {
                    continue;
                }

                // Parent
                if (Encoding.GetString(entry.filename).TrimEnd() == "..")
                {
                    continue;
                }

                // Deleted
                if (entry.filename[0] == DIRENT_DELETED)
                {
                    continue;
                }

                string filename;

                if (entry.attributes.HasFlag(FatAttributes.VolumeLabel))
                {
                    byte[] fullname = new byte[11];
                    Array.Copy(entry.filename, 0, fullname, 0, 8);
                    Array.Copy(entry.extension, 0, fullname, 8, 3);
                    string volname = Encoding.GetString(fullname).Trim();

                    if (!string.IsNullOrEmpty(volname))
                    {
                        XmlFsType.VolumeName =
                            entry.caseinfo.HasFlag(CaseInfo.AllLowerCase) && _namespace == Namespace.Nt
                                ? volname.ToLower() : volname;
                    }

                    XmlFsType.VolumeName = XmlFsType.VolumeName?.Replace("\0", "");

                    if (entry.ctime > 0 &&
                        entry.cdate > 0)
                    {
                        XmlFsType.CreationDate = DateHandlers.DosToDateTime(entry.cdate, entry.ctime);

                        if (entry.ctime_ms > 0)
                        {
                            XmlFsType.CreationDate = XmlFsType.CreationDate.AddMilliseconds(entry.ctime_ms * 10);
                        }

                        XmlFsType.CreationDateSpecified = true;
                    }

                    if (entry.mtime > 0 &&
                        entry.mdate > 0)
                    {
                        XmlFsType.ModificationDate          = DateHandlers.DosToDateTime(entry.mdate, entry.mtime);
                        XmlFsType.ModificationDateSpecified = true;
                    }

                    continue;
                }

                var completeEntry = new CompleteDirectoryEntry
                {
                    Dirent = entry
                };

                if ((_namespace == Namespace.Lfn || _namespace == Namespace.Ecs) &&
                    lastLfnName != null)
                {
                    byte calculatedLfnChecksum = LfnChecksum(entry.filename, entry.extension);

                    if (calculatedLfnChecksum == lastLfnChecksum)
                    {
                        filename = StringHandlers.CToString(lastLfnName, Encoding.Unicode, true);

                        completeEntry.Lfn = filename;
                        lastLfnName       = null;
                        lastLfnChecksum   = 0;
                    }
                }

                if (entry.filename[0] == DIRENT_E5)
                {
                    entry.filename[0] = DIRENT_DELETED;
                }

                string name      = Encoding.GetString(entry.filename).TrimEnd();
                string extension = Encoding.GetString(entry.extension).TrimEnd();

                if (_namespace == Namespace.Nt)
                {
                    if (entry.caseinfo.HasFlag(CaseInfo.LowerCaseExtension))
                    {
                        extension = extension.ToLower(CultureInfo.CurrentCulture);
                    }

                    if (entry.caseinfo.HasFlag(CaseInfo.LowerCaseBasename))
                    {
                        name = name.ToLower(CultureInfo.CurrentCulture);
                    }
                }

                if (extension != "")
                {
                    filename = name + "." + extension;
                }
                else
                {
                    filename = name;
                }

                if (name == "" &&
                    extension == "")
                {
                    AaruConsole.DebugWriteLine("FAT filesystem", "Found empty filename in root directory");

                    if (!_debug ||
                        (entry.size > 0 && entry.start_cluster == 0))
                    {
                        continue; // Skip invalid name
                    }
                    // If debug, add it
                    name = ":{EMPTYNAME}:";

                    // Try to create a unique filename with an extension from 000 to 999
                    for (int uniq = 0; uniq < 1000; uniq++)
                    {
                        extension = $"{uniq:D03}";

                        if (!_rootDirectoryCache.ContainsKey($"{name}.{extension}"))
                        {
                            break;
                        }
                    }

                    // If we couldn't find it, just skip over
                    if (_rootDirectoryCache.ContainsKey($"{name}.{extension}"))
                    {
                        continue;
                    }
                }

                // Atari ST allows slash AND colon so cannot simply substitute one for the other like in Mac filesystems
                filename = filename.Replace('/', '\u2215');

                completeEntry.Shortname = filename;

                if (_namespace == Namespace.Human)
                {
                    HumanDirectoryEntry humanEntry =
                        Marshal.ByteArrayToStructureLittleEndian <HumanDirectoryEntry>(rootDirectory, i,
                                                                                       Marshal.SizeOf <HumanDirectoryEntry>());

                    completeEntry.HumanDirent = humanEntry;

                    name      = StringHandlers.CToString(humanEntry.name1, Encoding).TrimEnd();
                    extension = StringHandlers.CToString(humanEntry.extension, Encoding).TrimEnd();
                    string name2 = StringHandlers.CToString(humanEntry.name2, Encoding).TrimEnd();

                    if (extension != "")
                    {
                        filename = name + name2 + "." + extension;
                    }
                    else
                    {
                        filename = name + name2;
                    }

                    completeEntry.HumanName = filename;
                }

                if (!_fat32 &&
                    filename == "EA DATA. SF")
                {
                    _eaDirEntry     = entry;
                    lastLfnName     = null;
                    lastLfnChecksum = 0;

                    if (_debug)
                    {
                        _rootDirectoryCache[completeEntry.ToString()] = completeEntry;
                    }

                    continue;
                }

                _rootDirectoryCache[completeEntry.ToString()] = completeEntry;
                lastLfnName     = null;
                lastLfnChecksum = 0;
            }

            XmlFsType.VolumeName = XmlFsType.VolumeName?.Trim();
            _statfs.Blocks       = XmlFsType.Clusters;

            switch (bpbKind)
            {
            case BpbKind.Hardcoded:
                _statfs.Type = $"Microsoft FAT{(_fat16 ? "16" : "12")}";

                break;

            case BpbKind.Atari:
                _statfs.Type = $"Atari FAT{(_fat16 ? "16" : "12")}";

                break;

            case BpbKind.Msx:
                _statfs.Type = $"MSX FAT{(_fat16 ? "16" : "12")}";

                break;

            case BpbKind.Dos2:
            case BpbKind.Dos3:
            case BpbKind.Dos32:
            case BpbKind.Dos33:
            case BpbKind.ShortExtended:
            case BpbKind.Extended:
                _statfs.Type = $"Microsoft FAT{(_fat16 ? "16" : "12")}";

                break;

            case BpbKind.ShortFat32:
            case BpbKind.LongFat32:
                _statfs.Type = XmlFsType.Type == "FAT+" ? "FAT+" : "Microsoft FAT32";

                break;

            case BpbKind.Andos:
                _statfs.Type = $"ANDOS FAT{(_fat16 ? "16" : "12")}";

                break;

            case BpbKind.Apricot:
                _statfs.Type = $"Apricot FAT{(_fat16 ? "16" : "12")}";

                break;

            case BpbKind.DecRainbow:
                _statfs.Type = $"DEC FAT{(_fat16 ? "16" : "12")}";

                break;

            case BpbKind.Human:
                _statfs.Type = $"Human68k FAT{(_fat16 ? "16" : "12")}";

                break;

            default: throw new ArgumentOutOfRangeException();
            }

            _bytesPerCluster = _sectorsPerCluster * imagePlugin.Info.SectorSize;

            ushort[] _firstFatEntries  = new ushort[_statfs.Blocks];
            ushort[] _secondFatEntries = new ushort[_statfs.Blocks];
            bool     _firstFatValid    = true;
            bool     _secondFatValid   = true;

            if (_fat12)
            {
                AaruConsole.DebugWriteLine("FAT plugin", "Reading FAT12");

                byte[] fatBytes = imagePlugin.ReadSectors(_fatFirstSector, _sectorsPerFat);

                int pos = 0;

                for (int i = 0; i + 3 < fatBytes.Length && pos < _firstFatEntries.Length; i += 3)
                {
                    _firstFatEntries[pos++] = (ushort)(((fatBytes[i + 1] & 0xF) << 8) + fatBytes[i + 0]);

                    if (pos >= _firstFatEntries.Length)
                    {
                        break;
                    }

                    _firstFatEntries[pos++] = (ushort)(((fatBytes[i + 1] & 0xF0) >> 4) + (fatBytes[i + 2] << 4));
                }

                fatBytes = imagePlugin.ReadSectors(_fatFirstSector + _sectorsPerFat, _sectorsPerFat);

                _fatEntries = new ushort[_statfs.Blocks];

                pos = 0;

                for (int i = 0; i + 3 < fatBytes.Length && pos < _secondFatEntries.Length; i += 3)
                {
                    _secondFatEntries[pos++] = (ushort)(((fatBytes[i + 1] & 0xF) << 8) + fatBytes[i + 0]);

                    if (pos >= _secondFatEntries.Length)
                    {
                        break;
                    }

                    _secondFatEntries[pos++] = (ushort)(((fatBytes[i + 1] & 0xF0) >> 4) + (fatBytes[i + 2] << 4));
                }

                foreach (ushort entry in _firstFatEntries)
                {
                    if (entry >= FAT12_RESERVED ||
                        entry <= _statfs.Blocks)
                    {
                        continue;
                    }

                    _firstFatValid = false;

                    break;
                }

                foreach (ushort entry in _secondFatEntries)
                {
                    if (entry >= FAT12_RESERVED ||
                        entry <= _statfs.Blocks)
                    {
                        continue;
                    }

                    _secondFatValid = false;

                    break;
                }

                if (_firstFatValid == _secondFatValid)
                {
                    _fatEntries = _useFirstFat ? _firstFatEntries : _secondFatEntries;
                }
                else if (_firstFatValid)
                {
                    _fatEntries = _firstFatEntries;
                }
                else
                {
                    _fatEntries = _secondFatEntries;
                }
            }
            else if (_fat16)
            {
                AaruConsole.DebugWriteLine("FAT plugin", "Reading FAT16");

                byte[] fatBytes = imagePlugin.ReadSectors(_fatFirstSector, _sectorsPerFat);

                AaruConsole.DebugWriteLine("FAT plugin", "Casting FAT");
                _firstFatEntries = MemoryMarshal.Cast <byte, ushort>(fatBytes).ToArray();

                fatBytes = imagePlugin.ReadSectors(_fatFirstSector + _sectorsPerFat, _sectorsPerFat);

                AaruConsole.DebugWriteLine("FAT plugin", "Casting FAT");
                _secondFatEntries = MemoryMarshal.Cast <byte, ushort>(fatBytes).ToArray();

                foreach (ushort entry in _firstFatEntries)
                {
                    if (entry >= FAT16_RESERVED ||
                        entry <= _statfs.Blocks)
                    {
                        continue;
                    }

                    _firstFatValid = false;

                    break;
                }

                foreach (ushort entry in _secondFatEntries)
                {
                    if (entry >= FAT16_RESERVED ||
                        entry <= _statfs.Blocks)
                    {
                        continue;
                    }

                    _secondFatValid = false;

                    break;
                }

                if (_firstFatValid == _secondFatValid)
                {
                    _fatEntries = _useFirstFat ? _firstFatEntries : _secondFatEntries;
                }
                else if (_firstFatValid)
                {
                    _fatEntries = _firstFatEntries;
                }
                else
                {
                    _fatEntries = _secondFatEntries;
                }
            }

            // TODO: Check how this affects international filenames
            _cultureInfo    = new CultureInfo("en-US", false);
            _directoryCache = new Dictionary <string, Dictionary <string, CompleteDirectoryEntry> >();

            // Check it is really an OS/2 EA file
            if (_eaDirEntry.start_cluster != 0)
            {
                CacheEaData();
                ushort eamagic = BitConverter.ToUInt16(_cachedEaData, 0);

                if (eamagic != EADATA_MAGIC)
                {
                    _eaDirEntry   = new DirectoryEntry();
                    _cachedEaData = null;
                }
                else
                {
                    _eaCache = new Dictionary <string, Dictionary <string, byte[]> >();
                }
            }
            else if (_fat32)
            {
                _eaCache = new Dictionary <string, Dictionary <string, byte[]> >();
            }

            // Check OS/2 .LONGNAME
            if (_eaCache != null &&
                (_namespace == Namespace.Os2 || _namespace == Namespace.Ecs) &&
                !_fat32)
            {
                List <KeyValuePair <string, CompleteDirectoryEntry> > rootFilesWithEas =
                    _rootDirectoryCache.Where(t => t.Value.Dirent.ea_handle != 0).ToList();

                foreach (KeyValuePair <string, CompleteDirectoryEntry> fileWithEa in rootFilesWithEas)
                {
                    Dictionary <string, byte[]> eas = GetEas(fileWithEa.Value.Dirent.ea_handle);

                    if (eas is null)
                    {
                        continue;
                    }

                    if (!eas.TryGetValue("com.microsoft.os2.longname", out byte[] longnameEa))
Beispiel #2
0
        /// <inheritdoc />
        /// <summary>Lists contents from a directory.</summary>
        /// <param name="path">Directory path.</param>
        /// <param name="contents">Directory contents.</param>
        public Errno ReadDir(string path, out List <string> contents)
        {
            contents = null;

            if (!_mounted)
            {
                return(Errno.AccessDenied);
            }

            if (string.IsNullOrWhiteSpace(path) ||
                path == "/")
            {
                contents = _rootDirectoryCache.Keys.ToList();

                return(Errno.NoError);
            }

            string cutPath = path.StartsWith("/", StringComparison.Ordinal) ? path.Substring(1).ToLower(_cultureInfo)
                                 : path.ToLower(_cultureInfo);

            if (_directoryCache.TryGetValue(cutPath, out Dictionary <string, CompleteDirectoryEntry> currentDirectory))
            {
                contents = currentDirectory.Keys.ToList();

                return(Errno.NoError);
            }

            string[] pieces = cutPath.Split(new[]
            {
                '/'
            }, StringSplitOptions.RemoveEmptyEntries);

            KeyValuePair <string, CompleteDirectoryEntry> entry =
                _rootDirectoryCache.FirstOrDefault(t => t.Key.ToLower(_cultureInfo) == pieces[0]);

            if (string.IsNullOrEmpty(entry.Key))
            {
                return(Errno.NoSuchFile);
            }

            if (!entry.Value.Dirent.attributes.HasFlag(FatAttributes.Subdirectory))
            {
                return(Errno.NotDirectory);
            }

            string currentPath = pieces[0];

            currentDirectory = _rootDirectoryCache;

            for (int p = 0; p < pieces.Length; p++)
            {
                entry = currentDirectory.FirstOrDefault(t => t.Key.ToLower(_cultureInfo) == pieces[p]);

                if (string.IsNullOrEmpty(entry.Key))
                {
                    return(Errno.NoSuchFile);
                }

                if (!entry.Value.Dirent.attributes.HasFlag(FatAttributes.Subdirectory))
                {
                    return(Errno.NotDirectory);
                }

                currentPath = p == 0 ? pieces[0] : $"{currentPath}/{pieces[p]}";
                uint currentCluster = entry.Value.Dirent.start_cluster;

                if (_fat32)
                {
                    currentCluster += (uint)(entry.Value.Dirent.ea_handle << 16);
                }

                if (_directoryCache.TryGetValue(currentPath, out currentDirectory))
                {
                    continue;
                }

                uint[] clusters = GetClusters(currentCluster);

                if (clusters is null)
                {
                    return(Errno.InvalidArgument);
                }

                byte[] directoryBuffer = new byte[_bytesPerCluster * clusters.Length];

                for (int i = 0; i < clusters.Length; i++)
                {
                    byte[] buffer = _image.ReadSectors(_firstClusterSector + (clusters[i] * _sectorsPerCluster),
                                                       _sectorsPerCluster);

                    Array.Copy(buffer, 0, directoryBuffer, i * _bytesPerCluster, _bytesPerCluster);
                }

                currentDirectory = new Dictionary <string, CompleteDirectoryEntry>();
                byte[] lastLfnName     = null;
                byte   lastLfnChecksum = 0;

                for (int pos = 0; pos < directoryBuffer.Length; pos += Marshal.SizeOf <DirectoryEntry>())
                {
                    DirectoryEntry dirent =
                        Marshal.ByteArrayToStructureLittleEndian <DirectoryEntry>(directoryBuffer, pos,
                                                                                  Marshal.SizeOf <DirectoryEntry>());

                    if (dirent.filename[0] == DIRENT_FINISHED)
                    {
                        break;
                    }

                    if (dirent.attributes.HasFlag(FatAttributes.LFN))
                    {
                        if (_namespace != Namespace.Lfn &&
                            _namespace != Namespace.Ecs)
                        {
                            continue;
                        }

                        LfnEntry lfnEntry =
                            Marshal.ByteArrayToStructureLittleEndian <LfnEntry>(directoryBuffer, pos,
                                                                                Marshal.SizeOf <LfnEntry>());

                        int lfnSequence = lfnEntry.sequence & LFN_MASK;

                        if ((lfnEntry.sequence & LFN_ERASED) > 0)
                        {
                            continue;
                        }

                        if ((lfnEntry.sequence & LFN_LAST) > 0)
                        {
                            lastLfnName     = new byte[lfnSequence * 26];
                            lastLfnChecksum = lfnEntry.checksum;
                        }

                        if (lastLfnName is null)
                        {
                            continue;
                        }

                        if (lfnEntry.checksum != lastLfnChecksum)
                        {
                            continue;
                        }

                        lfnSequence--;

                        Array.Copy(lfnEntry.name1, 0, lastLfnName, lfnSequence * 26, 10);
                        Array.Copy(lfnEntry.name2, 0, lastLfnName, (lfnSequence * 26) + 10, 12);
                        Array.Copy(lfnEntry.name3, 0, lastLfnName, (lfnSequence * 26) + 22, 4);

                        continue;
                    }

                    // Not a correct entry
                    if (dirent.filename[0] < DIRENT_MIN &&
                        dirent.filename[0] != DIRENT_E5)
                    {
                        continue;
                    }

                    // Self
                    if (Encoding.GetString(dirent.filename).TrimEnd() == ".")
                    {
                        continue;
                    }

                    // Parent
                    if (Encoding.GetString(dirent.filename).TrimEnd() == "..")
                    {
                        continue;
                    }

                    // Deleted
                    if (dirent.filename[0] == DIRENT_DELETED)
                    {
                        continue;
                    }

                    string filename;

                    if (dirent.attributes.HasFlag(FatAttributes.VolumeLabel))
                    {
                        continue;
                    }

                    var completeEntry = new CompleteDirectoryEntry
                    {
                        Dirent = dirent
                    };

                    if ((_namespace == Namespace.Lfn || _namespace == Namespace.Ecs) &&
                        lastLfnName != null)
                    {
                        byte calculatedLfnChecksum = LfnChecksum(dirent.filename, dirent.extension);

                        if (calculatedLfnChecksum == lastLfnChecksum)
                        {
                            filename = StringHandlers.CToString(lastLfnName, Encoding.Unicode, true);

                            completeEntry.Lfn = filename;
                            lastLfnName       = null;
                            lastLfnChecksum   = 0;
                        }
                    }

                    if (dirent.filename[0] == DIRENT_E5)
                    {
                        dirent.filename[0] = DIRENT_DELETED;
                    }

                    string name      = Encoding.GetString(dirent.filename).TrimEnd();
                    string extension = Encoding.GetString(dirent.extension).TrimEnd();

                    if (_namespace == Namespace.Nt)
                    {
                        if (dirent.caseinfo.HasFlag(CaseInfo.LowerCaseExtension))
                        {
                            extension = extension.ToLower(CultureInfo.CurrentCulture);
                        }

                        if (dirent.caseinfo.HasFlag(CaseInfo.LowerCaseBasename))
                        {
                            name = name.ToLower(CultureInfo.CurrentCulture);
                        }
                    }

                    if (extension != "")
                    {
                        filename = name + "." + extension;
                    }
                    else
                    {
                        filename = name;
                    }

                    if (_namespace == Namespace.Human)
                    {
                        HumanDirectoryEntry humanEntry =
                            Marshal.ByteArrayToStructureLittleEndian <HumanDirectoryEntry>(directoryBuffer, pos,
                                                                                           Marshal.
                                                                                           SizeOf <HumanDirectoryEntry
                                                                                                   >());

                        completeEntry.HumanDirent = humanEntry;

                        name      = StringHandlers.CToString(humanEntry.name1, Encoding).TrimEnd();
                        extension = StringHandlers.CToString(humanEntry.extension, Encoding).TrimEnd();
                        string name2 = StringHandlers.CToString(humanEntry.name2, Encoding).TrimEnd();

                        if (extension != "")
                        {
                            filename = name + name2 + "." + extension;
                        }
                        else
                        {
                            filename = name + name2;
                        }

                        completeEntry.HumanName = filename;
                    }

                    // Using array accessor ensures that repeated entries just get substituted.
                    // Repeated entries are not allowed but some bad implementations (e.g. FAT32.IFS)allow to create them
                    // when using spaces
                    completeEntry.Shortname = filename;
                    currentDirectory[completeEntry.ToString()] = completeEntry;
                }

                // Check OS/2 .LONGNAME
                if (_eaCache != null &&
                    (_namespace == Namespace.Os2 || _namespace == Namespace.Ecs) &&
                    !_fat32)
                {
                    List <KeyValuePair <string, CompleteDirectoryEntry> > filesWithEas =
                        currentDirectory.Where(t => t.Value.Dirent.ea_handle != 0).ToList();

                    foreach (KeyValuePair <string, CompleteDirectoryEntry> fileWithEa in filesWithEas)
                    {
                        Dictionary <string, byte[]> eas = GetEas(fileWithEa.Value.Dirent.ea_handle);

                        if (eas is null)
                        {
                            continue;
                        }

                        if (!eas.TryGetValue("com.microsoft.os2.longname", out byte[] longnameEa))
Beispiel #3
0
        /// <summary>
        ///     Mounts an Apple Lisa filesystem
        /// </summary>
        public Errno Mount(IMediaImage imagePlugin, Partition partition, Encoding encoding,
                           Dictionary <string, string> options, string @namespace)
        {
            XmlFsType = new FileSystemType();
            if (options == null)
            {
                options = GetDefaultOptions();
            }
            if (options.TryGetValue("debug", out string debugString))
            {
                bool.TryParse(debugString, out debug);
            }

            // Default namespace
            if (@namespace is null)
            {
                @namespace = "ecs";
            }

            switch (@namespace.ToLowerInvariant())
            {
            case "dos":
                this.@namespace = Namespace.Dos;
                break;

            case "nt":
                this.@namespace = Namespace.Nt;
                break;

            case "os2":
                this.@namespace = Namespace.Os2;
                break;

            case "ecs":
                this.@namespace = Namespace.Ecs;
                break;

            case "lfn":
                this.@namespace = Namespace.Lfn;
                break;

            case "human":
                this.@namespace = Namespace.Human;
                break;

            default: return(Errno.InvalidArgument);
            }

            DicConsole.DebugWriteLine("FAT plugin", "Reading BPB");

            uint sectorsPerBpb = imagePlugin.Info.SectorSize < 512 ? 512 / imagePlugin.Info.SectorSize : 1;

            byte[] bpbSector = imagePlugin.ReadSectors(0 + partition.Start, sectorsPerBpb);

            BpbKind bpbKind = DetectBpbKind(bpbSector, imagePlugin, partition,
                                            out BiosParameterBlockEbpb fakeBpb,
                                            out HumanParameterBlock humanBpb, out AtariParameterBlock atariBpb,
                                            out byte minBootNearJump, out bool andosOemCorrect,
                                            out bool bootable);

            fat12              = false;
            fat16              = false;
            fat32              = false;
            useFirstFat        = true;
            XmlFsType.Bootable = bootable;

            statfs = new FileSystemInfo
            {
                Blocks         = XmlFsType.Clusters,
                FilenameLength = 11,
                Files          = 0, // Requires traversing all directories
                FreeFiles      = 0,
                PluginId       = Id,
                FreeBlocks     = 0 // Requires traversing the FAT
            };

            // This is needed because for FAT16, GEMDOS increases bytes per sector count instead of using big_sectors field.
            uint sectorsPerRealSector = 1;
            // This is needed because some OSes don't put volume label as first entry in the root directory
            uint sectorsForRootDirectory = 0;
            uint rootDirectoryCluster    = 0;

            switch (bpbKind)
            {
            case BpbKind.DecRainbow:
            case BpbKind.Hardcoded:
            case BpbKind.Msx:
            case BpbKind.Apricot:
                fat12 = true;
                break;

            case BpbKind.ShortFat32:
            case BpbKind.LongFat32:
            {
                fat32 = true;
                Fat32ParameterBlock fat32Bpb =
                    Marshal.ByteArrayToStructureLittleEndian <Fat32ParameterBlock>(bpbSector);
                Fat32ParameterBlockShort shortFat32Bpb =
                    Marshal.ByteArrayToStructureLittleEndian <Fat32ParameterBlockShort>(bpbSector);

                rootDirectoryCluster = fat32Bpb.root_cluster;

                // This is to support FAT partitions on hybrid ISO/USB images
                if (imagePlugin.Info.XmlMediaType == XmlMediaType.OpticalDisc)
                {
                    fat32Bpb.bps       *= 4;
                    fat32Bpb.spc       /= 4;
                    fat32Bpb.big_spfat /= 4;
                    fat32Bpb.hsectors  /= 4;
                    fat32Bpb.sptrk     /= 4;
                }

                XmlFsType.Type = fat32Bpb.version != 0 ? "FAT+" : "FAT32";

                if (fat32Bpb.oem_name != null && (fat32Bpb.oem_name[5] != 0x49 || fat32Bpb.oem_name[6] != 0x48 ||
                                                  fat32Bpb.oem_name[7] != 0x43))
                {
                    XmlFsType.SystemIdentifier = StringHandlers.CToString(fat32Bpb.oem_name);
                }

                sectorsPerCluster     = fat32Bpb.spc;
                XmlFsType.ClusterSize = (uint)(fat32Bpb.bps * fat32Bpb.spc);
                reservedSectors       = fat32Bpb.rsectors;
                if (fat32Bpb.big_sectors == 0 && fat32Bpb.signature == 0x28)
                {
                    XmlFsType.Clusters = shortFat32Bpb.huge_sectors / shortFat32Bpb.spc;
                }
                else
                {
                    XmlFsType.Clusters = fat32Bpb.big_sectors / fat32Bpb.spc;
                }

                sectorsPerFat          = fat32Bpb.big_spfat;
                XmlFsType.VolumeSerial = $"{fat32Bpb.serial_no:X8}";
                statfs.Id = new FileSystemId {
                    IsInt = true, Serial32 = fat32Bpb.serial_no
                };

                if ((fat32Bpb.flags & 0xF8) == 0x00)
                {
                    if ((fat32Bpb.flags & 0x01) == 0x01)
                    {
                        XmlFsType.Dirty = true;
                    }
                }

                if ((fat32Bpb.mirror_flags & 0x80) == 0x80)
                {
                    useFirstFat = (fat32Bpb.mirror_flags & 0xF) != 1;
                }

                if (fat32Bpb.signature == 0x29)
                {
                    XmlFsType.VolumeName = Encoding.ASCII.GetString(fat32Bpb.volume_label);
                }

                // Check that jumps to a correct boot code position and has boot signature set.
                // This will mean that the volume will boot, even if just to say "this is not bootable change disk"......
                XmlFsType.Bootable =
                    fat32Bpb.jump[0] == 0xEB && fat32Bpb.jump[1] >= minBootNearJump && fat32Bpb.jump[1] < 0x80 ||
                    fat32Bpb.jump[0] == 0xE9 && fat32Bpb.jump.Length >= 3 &&
                    BitConverter.ToUInt16(fat32Bpb.jump, 1) >= minBootNearJump &&
                    BitConverter.ToUInt16(fat32Bpb.jump, 1) <= 0x1FC;

                sectorsPerRealSector = fat32Bpb.bps / imagePlugin.Info.SectorSize;
                sectorsPerCluster   *= sectorsPerRealSector;

                // First root directory sector
                firstClusterSector =
                    (ulong)(fat32Bpb.big_spfat * fat32Bpb.fats_no + fat32Bpb.rsectors) * sectorsPerRealSector -
                    2 * sectorsPerCluster;

                if (fat32Bpb.fsinfo_sector + partition.Start <= partition.End)
                {
                    byte[]       fsinfoSector = imagePlugin.ReadSector(fat32Bpb.fsinfo_sector + partition.Start);
                    FsInfoSector fsInfo       =
                        Marshal.ByteArrayToStructureLittleEndian <FsInfoSector>(fsinfoSector);

                    if (fsInfo.signature1 == FSINFO_SIGNATURE1 && fsInfo.signature2 == FSINFO_SIGNATURE2 &&
                        fsInfo.signature3 == FSINFO_SIGNATURE3)
                    {
                        if (fsInfo.free_clusters < 0xFFFFFFFF)
                        {
                            XmlFsType.FreeClusters          = fsInfo.free_clusters;
                            XmlFsType.FreeClustersSpecified = true;
                        }
                    }
                }

                break;
            }

            // Some fields could overflow fake BPB, those will be handled below
            case BpbKind.Atari:
            {
                ushort sum = 0;
                for (int i = 0; i < bpbSector.Length; i += 2)
                {
                    sum += BigEndianBitConverter.ToUInt16(bpbSector, i);
                }

                // TODO: Check this
                if (sum == 0x1234)
                {
                    XmlFsType.Bootable = true;
                }

                break;
            }

            case BpbKind.Human:
                // If not debug set Human68k namespace and ShiftJIS codepage as defaults
                if (!debug)
                {
                    this.@namespace = Namespace.Human;
                    encoding        = Encoding.GetEncoding("shift_jis");
                }

                XmlFsType.Bootable = true;
                break;
            }

            Encoding = encoding ?? (bpbKind == BpbKind.Human
                                        ? Encoding.GetEncoding("shift_jis")
                                        : Encoding.GetEncoding("IBM437"));

            ulong firstRootSector = 0;

            if (!fat32)
            {
                // This is to support FAT partitions on hybrid ISO/USB images
                if (imagePlugin.Info.XmlMediaType == XmlMediaType.OpticalDisc)
                {
                    fakeBpb.bps      *= 4;
                    fakeBpb.spc      /= 4;
                    fakeBpb.spfat    /= 4;
                    fakeBpb.hsectors /= 4;
                    fakeBpb.sptrk    /= 4;
                    fakeBpb.rsectors /= 4;

                    if (fakeBpb.spc == 0)
                    {
                        fakeBpb.spc = 1;
                    }
                }

                // This assumes no sane implementation will violate cluster size rules
                // However nothing prevents this to happen
                // If first file on disk uses only one cluster there is absolutely no way to differentiate between FAT12 and FAT16,
                // so let's hope implementations use common sense?
                if (!fat12 && !fat16)
                {
                    ulong clusters;

                    if (fakeBpb.sectors == 0)
                    {
                        clusters = fakeBpb.spc == 0 ? fakeBpb.big_sectors : fakeBpb.big_sectors / fakeBpb.spc;
                    }
                    else
                    {
                        clusters = fakeBpb.spc == 0 ? fakeBpb.sectors : (ulong)fakeBpb.sectors / fakeBpb.spc;
                    }

                    if (clusters < 4089)
                    {
                        fat12 = true;
                    }
                    else
                    {
                        fat16 = true;
                    }
                }

                if (fat12)
                {
                    XmlFsType.Type = "FAT12";
                }
                else if (fat16)
                {
                    XmlFsType.Type = "FAT16";
                }

                if (bpbKind == BpbKind.Atari)
                {
                    if (atariBpb.serial_no[0] != 0x49 || atariBpb.serial_no[1] != 0x48 || atariBpb.serial_no[2] != 0x43)
                    {
                        XmlFsType.VolumeSerial =
                            $"{atariBpb.serial_no[0]:X2}{atariBpb.serial_no[1]:X2}{atariBpb.serial_no[2]:X2}";
                        statfs.Id = new FileSystemId
                        {
                            IsInt    = true,
                            Serial32 = (uint)((atariBpb.serial_no[0] << 16) + (atariBpb.serial_no[1] << 8) +
                                              atariBpb.serial_no[2])
                        };
                    }

                    XmlFsType.SystemIdentifier = StringHandlers.CToString(atariBpb.oem_name);
                    if (string.IsNullOrEmpty(XmlFsType.SystemIdentifier))
                    {
                        XmlFsType.SystemIdentifier = null;
                    }
                }
                else if (fakeBpb.oem_name != null)
                {
                    if (fakeBpb.oem_name[5] != 0x49 || fakeBpb.oem_name[6] != 0x48 || fakeBpb.oem_name[7] != 0x43)
                    {
                        // Later versions of Windows create a DOS 3 BPB without OEM name on 8 sectors/track floppies
                        // OEM ID should be ASCII, otherwise ignore it
                        if (fakeBpb.oem_name[0] >= 0x20 && fakeBpb.oem_name[0] <= 0x7F && fakeBpb.oem_name[1] >= 0x20 &&
                            fakeBpb.oem_name[1] <= 0x7F && fakeBpb.oem_name[2] >= 0x20 && fakeBpb.oem_name[2] <= 0x7F &&
                            fakeBpb.oem_name[3] >= 0x20 && fakeBpb.oem_name[3] <= 0x7F && fakeBpb.oem_name[4] >= 0x20 &&
                            fakeBpb.oem_name[4] <= 0x7F && fakeBpb.oem_name[5] >= 0x20 && fakeBpb.oem_name[5] <= 0x7F &&
                            fakeBpb.oem_name[6] >= 0x20 && fakeBpb.oem_name[6] <= 0x7F && fakeBpb.oem_name[7] >= 0x20 &&
                            fakeBpb.oem_name[7] <= 0x7F)
                        {
                            XmlFsType.SystemIdentifier = StringHandlers.CToString(fakeBpb.oem_name);
                        }
                        else if (fakeBpb.oem_name[0] < 0x20 && fakeBpb.oem_name[1] >= 0x20 &&
                                 fakeBpb.oem_name[1] <= 0x7F && fakeBpb.oem_name[2] >= 0x20 &&
                                 fakeBpb.oem_name[2] <= 0x7F && fakeBpb.oem_name[3] >= 0x20 &&
                                 fakeBpb.oem_name[3] <= 0x7F && fakeBpb.oem_name[4] >= 0x20 &&
                                 fakeBpb.oem_name[4] <= 0x7F && fakeBpb.oem_name[5] >= 0x20 &&
                                 fakeBpb.oem_name[5] <= 0x7F && fakeBpb.oem_name[6] >= 0x20 &&
                                 fakeBpb.oem_name[6] <= 0x7F && fakeBpb.oem_name[7] >= 0x20 &&
                                 fakeBpb.oem_name[7] <= 0x7F)
                        {
                            XmlFsType.SystemIdentifier = StringHandlers.CToString(fakeBpb.oem_name, Encoding, start: 1);
                        }
                    }

                    if (fakeBpb.signature == 0x28 || fakeBpb.signature == 0x29)
                    {
                        XmlFsType.VolumeSerial = $"{fakeBpb.serial_no:X8}";
                        statfs.Id = new FileSystemId {
                            IsInt = true, Serial32 = fakeBpb.serial_no
                        };
                    }
                }

                if (bpbKind != BpbKind.Human)
                {
                    if (fakeBpb.sectors == 0)
                    {
                        XmlFsType.Clusters = fakeBpb.spc == 0 ? fakeBpb.big_sectors : fakeBpb.big_sectors / fakeBpb.spc;
                    }
                    else
                    {
                        XmlFsType.Clusters =
                            (ulong)(fakeBpb.spc == 0 ? fakeBpb.sectors : fakeBpb.sectors / fakeBpb.spc);
                    }
                }
                else
                {
                    XmlFsType.Clusters = humanBpb.clusters == 0 ? humanBpb.big_clusters : humanBpb.clusters;
                }

                sectorsPerCluster     = fakeBpb.spc;
                XmlFsType.ClusterSize = (uint)(fakeBpb.bps * fakeBpb.spc);
                reservedSectors       = fakeBpb.rsectors;
                sectorsPerFat         = fakeBpb.spfat;

                if (fakeBpb.signature == 0x28 || fakeBpb.signature == 0x29 || andosOemCorrect)
                {
                    if ((fakeBpb.flags & 0xF8) == 0x00)
                    {
                        if ((fakeBpb.flags & 0x01) == 0x01)
                        {
                            XmlFsType.Dirty = true;
                        }
                    }

                    if (fakeBpb.signature == 0x29 || andosOemCorrect)
                    {
                        XmlFsType.VolumeName = Encoding.ASCII.GetString(fakeBpb.volume_label);
                    }
                }

                // Workaround that PCExchange jumps into "FAT16   "...
                if (XmlFsType.SystemIdentifier == "PCX 2.0 ")
                {
                    fakeBpb.jump[1] += 8;
                }

                // Check that jumps to a correct boot code position and has boot signature set.
                // This will mean that the volume will boot, even if just to say "this is not bootable change disk"......
                if (XmlFsType.Bootable == false && fakeBpb.jump != null)
                {
                    XmlFsType.Bootable |=
                        fakeBpb.jump[0] == 0xEB && fakeBpb.jump[1] >= minBootNearJump && fakeBpb.jump[1] < 0x80 ||
                        fakeBpb.jump[0] == 0xE9 && fakeBpb.jump.Length >= 3 &&
                        BitConverter.ToUInt16(fakeBpb.jump, 1) >= minBootNearJump &&
                        BitConverter.ToUInt16(fakeBpb.jump, 1) <= 0x1FC;
                }

                // First root directory sector
                firstRootSector = (ulong)(fakeBpb.spfat * fakeBpb.fats_no + fakeBpb.rsectors) * sectorsPerRealSector +
                                  partition.Start;
                sectorsForRootDirectory = (uint)(fakeBpb.root_ent * 32 / imagePlugin.Info.SectorSize);

                sectorsPerRealSector = fakeBpb.bps / imagePlugin.Info.SectorSize;
                sectorsPerCluster   *= sectorsPerRealSector;
            }

            firstClusterSector += partition.Start;

            image = imagePlugin;

            if (fat32)
            {
                fatEntriesPerSector = imagePlugin.Info.SectorSize / 4;
            }
            else if (fat16)
            {
                fatEntriesPerSector = imagePlugin.Info.SectorSize / 2;
            }
            else
            {
                fatEntriesPerSector = imagePlugin.Info.SectorSize * 2 / 3;
            }
            fatFirstSector = partition.Start + reservedSectors * sectorsPerRealSector;

            rootDirectoryCache = new Dictionary <string, CompleteDirectoryEntry>();
            byte[] rootDirectory = null;

            if (!fat32)
            {
                firstClusterSector = firstRootSector + sectorsForRootDirectory - sectorsPerCluster * 2;
                rootDirectory      = imagePlugin.ReadSectors(firstRootSector, sectorsForRootDirectory);

                if (bpbKind == BpbKind.DecRainbow)
                {
                    MemoryStream rootMs = new MemoryStream();
                    foreach (byte[] tmp in from ulong rootSector in new[] { 0x17, 0x19, 0x1B, 0x1D, 0x1E, 0x20 }
                             select imagePlugin.ReadSector(rootSector))
                    {
                        rootMs.Write(tmp, 0, tmp.Length);
                    }

                    rootDirectory = rootMs.ToArray();
                }
            }
            else
            {
                if (rootDirectoryCluster == 0)
                {
                    return(Errno.InvalidArgument);
                }

                MemoryStream rootMs = new MemoryStream();
                uint[]       rootDirectoryClusters = GetClusters(rootDirectoryCluster);

                foreach (uint cluster in rootDirectoryClusters)
                {
                    byte[] buffer =
                        imagePlugin.ReadSectors(firstClusterSector + cluster * sectorsPerCluster, sectorsPerCluster);

                    rootMs.Write(buffer, 0, buffer.Length);
                }

                rootDirectory = rootMs.ToArray();

                // OS/2 FAT32.IFS uses LFN instead of .LONGNAME
                if (this.@namespace == Namespace.Os2)
                {
                    this.@namespace = Namespace.Os2;
                }
            }

            if (rootDirectory is null)
            {
                return(Errno.InvalidArgument);
            }

            byte[] lastLfnName     = null;
            byte   lastLfnChecksum = 0;

            for (int i = 0; i < rootDirectory.Length; i += Marshal.SizeOf <DirectoryEntry>())
            {
                DirectoryEntry entry =
                    Marshal.ByteArrayToStructureLittleEndian <DirectoryEntry>(rootDirectory, i,
                                                                              Marshal.SizeOf <DirectoryEntry>());

                if (entry.filename[0] == DIRENT_FINISHED)
                {
                    break;
                }

                if (entry.attributes.HasFlag(FatAttributes.LFN))
                {
                    if (this.@namespace != Namespace.Lfn && this.@namespace != Namespace.Ecs)
                    {
                        continue;
                    }

                    LfnEntry lfnEntry =
                        Marshal.ByteArrayToStructureLittleEndian <LfnEntry>(rootDirectory, i,
                                                                            Marshal.SizeOf <LfnEntry>());

                    int lfnSequence = lfnEntry.sequence & LFN_MASK;

                    if ((lfnEntry.sequence & LFN_ERASED) > 0)
                    {
                        continue;
                    }

                    if ((lfnEntry.sequence & LFN_LAST) > 0)
                    {
                        lastLfnName     = new byte[lfnSequence * 26];
                        lastLfnChecksum = lfnEntry.checksum;
                    }

                    if (lastLfnName is null)
                    {
                        continue;
                    }
                    if (lfnEntry.checksum != lastLfnChecksum)
                    {
                        continue;
                    }

                    lfnSequence--;

                    Array.Copy(lfnEntry.name1, 0, lastLfnName, lfnSequence * 26, 10);
                    Array.Copy(lfnEntry.name2, 0, lastLfnName, lfnSequence * 26 + 10, 12);
                    Array.Copy(lfnEntry.name3, 0, lastLfnName, lfnSequence * 26 + 22, 4);

                    continue;
                }

                // Not a correct entry
                if (entry.filename[0] < DIRENT_MIN && entry.filename[0] != DIRENT_E5)
                {
                    continue;
                }

                // Self
                if (Encoding.GetString(entry.filename).TrimEnd() == ".")
                {
                    continue;
                }

                // Parent
                if (Encoding.GetString(entry.filename).TrimEnd() == "..")
                {
                    continue;
                }

                // Deleted
                if (entry.filename[0] == DIRENT_DELETED)
                {
                    continue;
                }

                string filename;

                if (entry.attributes.HasFlag(FatAttributes.VolumeLabel))
                {
                    byte[] fullname = new byte[11];
                    Array.Copy(entry.filename, 0, fullname, 0, 8);
                    Array.Copy(entry.extension, 0, fullname, 8, 3);
                    string volname = Encoding.GetString(fullname).Trim();
                    if (!string.IsNullOrEmpty(volname))
                    {
                        XmlFsType.VolumeName =
                            entry.caseinfo.HasFlag(CaseInfo.AllLowerCase) && this.@namespace == Namespace.Nt
                                ? volname.ToLower()
                                : volname;
                    }

                    if (entry.ctime > 0 && entry.cdate > 0)
                    {
                        XmlFsType.CreationDate = DateHandlers.DosToDateTime(entry.cdate, entry.ctime);
                        if (entry.ctime_ms > 0)
                        {
                            XmlFsType.CreationDate = XmlFsType.CreationDate.AddMilliseconds(entry.ctime_ms * 10);
                        }
                        XmlFsType.CreationDateSpecified = true;
                    }

                    if (entry.mtime > 0 && entry.mdate > 0)
                    {
                        XmlFsType.ModificationDate          = DateHandlers.DosToDateTime(entry.mdate, entry.mtime);
                        XmlFsType.ModificationDateSpecified = true;
                    }

                    continue;
                }

                CompleteDirectoryEntry completeEntry = new CompleteDirectoryEntry {
                    Dirent = entry
                };

                if ((this.@namespace == Namespace.Lfn || this.@namespace == Namespace.Ecs) && lastLfnName != null)
                {
                    byte calculatedLfnChecksum = LfnChecksum(entry.filename, entry.extension);

                    if (calculatedLfnChecksum == lastLfnChecksum)
                    {
                        filename = StringHandlers.CToString(lastLfnName, Encoding.Unicode, true);

                        completeEntry.Lfn = filename;
                        lastLfnName       = null;
                        lastLfnChecksum   = 0;
                    }
                }

                if (entry.filename[0] == DIRENT_E5)
                {
                    entry.filename[0] = DIRENT_DELETED;
                }

                string name      = Encoding.GetString(entry.filename).TrimEnd();
                string extension = Encoding.GetString(entry.extension).TrimEnd();

                if (this.@namespace == Namespace.Nt)
                {
                    if (entry.caseinfo.HasFlag(CaseInfo.LowerCaseExtension))
                    {
                        extension = extension.ToLower(CultureInfo.CurrentCulture);
                    }

                    if (entry.caseinfo.HasFlag(CaseInfo.LowerCaseBasename))
                    {
                        name = name.ToLower(CultureInfo.CurrentCulture);
                    }
                }

                if (extension != "")
                {
                    filename = name + "." + extension;
                }
                else
                {
                    filename = name;
                }

                completeEntry.Shortname = filename;

                if (this.@namespace == Namespace.Human)
                {
                    HumanDirectoryEntry humanEntry =
                        Marshal.ByteArrayToStructureLittleEndian <HumanDirectoryEntry>(rootDirectory, i,
                                                                                       Marshal
                                                                                       .SizeOf <HumanDirectoryEntry
                                                                                                >());

                    completeEntry.HumanDirent = humanEntry;

                    name      = StringHandlers.CToString(humanEntry.name1, Encoding).TrimEnd();
                    extension = StringHandlers.CToString(humanEntry.extension, Encoding).TrimEnd();
                    string name2 = StringHandlers.CToString(humanEntry.name2, Encoding).TrimEnd();

                    if (extension != "")
                    {
                        filename = name + name2 + "." + extension;
                    }
                    else
                    {
                        filename = name + name2;
                    }

                    completeEntry.HumanName = filename;
                }

                if (!fat32 && filename == "EA DATA. SF")
                {
                    eaDirEntry      = entry;
                    lastLfnName     = null;
                    lastLfnChecksum = 0;

                    if (debug)
                    {
                        rootDirectoryCache[completeEntry.ToString()] = completeEntry;
                    }

                    continue;
                }

                rootDirectoryCache[completeEntry.ToString()] = completeEntry;
                lastLfnName     = null;
                lastLfnChecksum = 0;
            }

            XmlFsType.VolumeName = XmlFsType.VolumeName?.Trim();
            statfs.Blocks        = XmlFsType.Clusters;

            switch (bpbKind)
            {
            case BpbKind.Hardcoded:
                statfs.Type = $"Microsoft FAT{(fat16 ? "16" : "12")}";
                break;

            case BpbKind.Atari:
                statfs.Type = $"Atari FAT{(fat16 ? "16" : "12")}";
                break;

            case BpbKind.Msx:
                statfs.Type = $"MSX FAT{(fat16 ? "16" : "12")}";
                break;

            case BpbKind.Dos2:
            case BpbKind.Dos3:
            case BpbKind.Dos32:
            case BpbKind.Dos33:
            case BpbKind.ShortExtended:
            case BpbKind.Extended:
                statfs.Type = $"Microsoft FAT{(fat16 ? "16" : "12")}";
                break;

            case BpbKind.ShortFat32:
            case BpbKind.LongFat32:
                statfs.Type = XmlFsType.Type == "FAT+" ? "FAT+" : "Microsoft FAT32";
                break;

            case BpbKind.Andos:
                statfs.Type = $"ANDOS FAT{(fat16 ? "16" : "12")}";
                break;

            case BpbKind.Apricot:
                statfs.Type = $"Apricot FAT{(fat16 ? "16" : "12")}";
                break;

            case BpbKind.DecRainbow:
                statfs.Type = $"DEC FAT{(fat16 ? "16" : "12")}";
                break;

            case BpbKind.Human:
                statfs.Type = $"Human68k FAT{(fat16 ? "16" : "12")}";
                break;

            default: throw new ArgumentOutOfRangeException();
            }

            bytesPerCluster = sectorsPerCluster * imagePlugin.Info.SectorSize;

            if (fat12)
            {
                byte[] fatBytes =
                    imagePlugin.ReadSectors(fatFirstSector + (useFirstFat ? 0 : sectorsPerFat), sectorsPerFat);

                fatEntries = new ushort[statfs.Blocks];

                int pos = 0;
                for (int i = 0; i + 3 < fatBytes.Length && pos < fatEntries.Length; i += 3)
                {
                    fatEntries[pos++] = (ushort)(((fatBytes[i + 1] & 0xF) << 8) + fatBytes[i + 0]);
                    fatEntries[pos++] = (ushort)(((fatBytes[i + 1] & 0xF0) >> 4) + (fatBytes[i + 2] << 4));
                }
            }
            else if (fat16)
            {
                DicConsole.DebugWriteLine("FAT plugin", "Reading FAT16");

                byte[] fatBytes =
                    imagePlugin.ReadSectors(fatFirstSector + (useFirstFat ? 0 : sectorsPerFat), sectorsPerFat);

                DicConsole.DebugWriteLine("FAT plugin", "Casting FAT");
                fatEntries = MemoryMarshal.Cast <byte, ushort>(fatBytes).ToArray();
            }

            // TODO: Check how this affects international filenames
            cultureInfo    = new CultureInfo("en-US", false);
            directoryCache = new Dictionary <string, Dictionary <string, CompleteDirectoryEntry> >();

            // Check it is really an OS/2 EA file
            if (eaDirEntry.start_cluster != 0)
            {
                CacheEaData();
                ushort eamagic = BitConverter.ToUInt16(cachedEaData, 0);

                if (eamagic != EADATA_MAGIC)
                {
                    eaDirEntry   = new DirectoryEntry();
                    cachedEaData = null;
                }
                else
                {
                    eaCache = new Dictionary <string, Dictionary <string, byte[]> >();
                }
            }
            else if (fat32)
            {
                eaCache = new Dictionary <string, Dictionary <string, byte[]> >();
            }

            // Check OS/2 .LONGNAME
            if (eaCache != null && (this.@namespace == Namespace.Os2 || this.@namespace == Namespace.Ecs))
            {
                List <KeyValuePair <string, CompleteDirectoryEntry> > rootFilesWithEas =
                    rootDirectoryCache.Where(t => t.Value.Dirent.ea_handle != 0).ToList();

                foreach (KeyValuePair <string, CompleteDirectoryEntry> fileWithEa in rootFilesWithEas)
                {
                    Dictionary <string, byte[]> eas = GetEas(fileWithEa.Value.Dirent.ea_handle);

                    if (eas is null)
                    {
                        continue;
                    }

                    if (!eas.TryGetValue("com.microsoft.os2.longname", out byte[] longnameEa))