// /*************************************************************************** // Aaru Data Preservation Suite // ---------------------------------------------------------------------------- // // Filename : Read.cs // Author(s) : Michael Drüing // // Component : Disk image plugins. // // --[ Description ] ---------------------------------------------------------- // // Reads d2f disk images. // // --[ 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 © 2018-2025 Michael Drüing // Copyright © 2011-2025 Natalia Portillo // ****************************************************************************/ using System; using System.Diagnostics.CodeAnalysis; using System.IO; using System.Text; using Aaru.Checksums; using Aaru.CommonTypes; using Aaru.CommonTypes.Enums; using Aaru.CommonTypes.Interfaces; using Aaru.Helpers; using Aaru.Logging; namespace Aaru.Images; [SuppressMessage("ReSharper", "UnusedType.Global")] public sealed partial class WCDiskImage { #region IMediaImage Members /// public ErrorNumber Open(IFilter imageFilter) { string comments = string.Empty; Stream stream = imageFilter.GetDataForkStream(); stream.Seek(0, SeekOrigin.Begin); var header = new byte[32]; stream.EnsureRead(header, 0, 32); FileHeader fheader = Marshal.ByteArrayToStructureLittleEndian(header); AaruLogging.Debug(MODULE_NAME, Localization.Detected_WC_DISK_IMAGE_with_0_heads_1_tracks_and_2_sectors_per_track, fheader.heads, fheader.cylinders, fheader.sectorsPerTrack); _imageInfo.Cylinders = fheader.cylinders; _imageInfo.SectorsPerTrack = fheader.sectorsPerTrack; _imageInfo.SectorSize = 512; // only 512 bytes per sector supported _imageInfo.Heads = fheader.heads; _imageInfo.Sectors = _imageInfo.Heads * _imageInfo.Cylinders * _imageInfo.SectorsPerTrack; _imageInfo.ImageSize = _imageInfo.Sectors * _imageInfo.SectorSize; _imageInfo.MetadataMediaType = MetadataMediaType.BlockMedia; _imageInfo.CreationTime = imageFilter.CreationTime; _imageInfo.LastModificationTime = imageFilter.LastWriteTime; _imageInfo.MediaTitle = Path.GetFileNameWithoutExtension(imageFilter.Filename); _imageInfo.MediaType = Geometry.GetMediaType(((ushort)_imageInfo.Cylinders, (byte)_imageInfo.Heads, (ushort)_imageInfo.SectorsPerTrack, 512, MediaEncoding.MFM, false)); /* buffer the entire disk in memory */ for(var cyl = 0; cyl < _imageInfo.Cylinders; cyl++) { for(var head = 0; head < _imageInfo.Heads; head++) { ErrorNumber errno = ReadTrack(stream, cyl, head); if(errno != ErrorNumber.NoError) return errno; } } /* if there are extra tracks, read them as well */ if(fheader.extraTracks[0] == 1) { AaruLogging.Debug(MODULE_NAME, Localization.Extra_track_1_head_0_present_reading); ReadTrack(stream, (int)_imageInfo.Cylinders, 0); } if(fheader.extraTracks[1] == 1) { AaruLogging.Debug(MODULE_NAME, Localization.Extra_track_1_head_1_present_reading); ReadTrack(stream, (int)_imageInfo.Cylinders, 1); } if(fheader.extraTracks[2] == 1) { AaruLogging.Debug(MODULE_NAME, Localization.Extra_track_2_head_0_present_reading); ReadTrack(stream, (int)_imageInfo.Cylinders + 1, 0); } if(fheader.extraTracks[3] == 1) { AaruLogging.Debug(MODULE_NAME, Localization.Extra_track_2_head_1_present_reading); ReadTrack(stream, (int)_imageInfo.Cylinders + 1, 1); } /* adjust number of cylinders */ if(fheader.extraTracks[0] == 1 || fheader.extraTracks[1] == 1) _imageInfo.Cylinders++; if(fheader.extraTracks[2] == 1 || fheader.extraTracks[3] == 1) _imageInfo.Cylinders++; /* read the comment and directory data if present */ if(fheader.extraFlags.HasFlag(ExtraFlag.Comment)) { AaruLogging.Debug(MODULE_NAME, Localization.Comment_present_reading); var sheaderBuffer = new byte[6]; stream.EnsureRead(sheaderBuffer, 0, 6); SectorHeader sheader = Marshal.ByteArrayToStructureLittleEndian(sheaderBuffer); if(sheader.flag != SectorFlag.Comment) { AaruLogging.Error(string.Format(Localization.Invalid_sector_type_0_encountered, sheader.flag.ToString())); return ErrorNumber.InvalidArgument; } var comm = new byte[sheader.crc]; stream.EnsureRead(comm, 0, sheader.crc); comments += Encoding.ASCII.GetString(comm) + Environment.NewLine; } if(fheader.extraFlags.HasFlag(ExtraFlag.Directory)) { AaruLogging.Debug(MODULE_NAME, Localization.Directory_listing_present_reading); var sheaderBuffer = new byte[6]; stream.EnsureRead(sheaderBuffer, 0, 6); SectorHeader sheader = Marshal.ByteArrayToStructureLittleEndian(sheaderBuffer); if(sheader.flag != SectorFlag.Directory) { AaruLogging.Error(string.Format(Localization.Invalid_sector_type_0_encountered, sheader.flag.ToString())); return ErrorNumber.InvalidArgument; } var dir = new byte[sheader.crc]; stream.EnsureRead(dir, 0, sheader.crc); comments += Encoding.ASCII.GetString(dir); } if(comments.Length > 0) _imageInfo.Comments = comments; // save some variables for later use _fileHeader = fheader; _wcImageFilter = imageFilter; return ErrorNumber.InvalidArgument; } /// public ErrorNumber ReadSector(ulong sectorAddress, bool negative, out byte[] buffer, out SectorStatus sectorStatus) { sectorStatus = SectorStatus.NotDumped; buffer = null; if(negative) return ErrorNumber.NotSupported; int sectorNumber = (int)(sectorAddress % _imageInfo.SectorsPerTrack) + 1; var trackNumber = (int)(sectorAddress / _imageInfo.SectorsPerTrack); int headNumber = _imageInfo.Heads > 1 ? trackNumber % 2 : 0; int cylinderNumber = _imageInfo.Heads > 1 ? trackNumber / 2 : trackNumber; if(_badSectors[(cylinderNumber, headNumber, sectorNumber)]) { AaruLogging.Debug(MODULE_NAME, Localization.reading_bad_sector_0_1_2_3, sectorAddress, cylinderNumber, headNumber, sectorNumber); /* if we have sector data, return that */ if(_sectorCache.ContainsKey((cylinderNumber, headNumber, sectorNumber))) { buffer = _sectorCache[(cylinderNumber, headNumber, sectorNumber)]; sectorStatus = SectorStatus.Errored; return ErrorNumber.NoError; } /* otherwise, return an empty sector */ buffer = new byte[512]; sectorStatus = SectorStatus.Errored; return ErrorNumber.NoError; } sectorStatus = SectorStatus.Dumped; buffer = _sectorCache[(cylinderNumber, headNumber, sectorNumber)]; return ErrorNumber.NoError; } /// public ErrorNumber ReadSectors(ulong sectorAddress, bool negative, uint length, out byte[] buffer, out SectorStatus[] sectorStatus) { buffer = null; sectorStatus = null; if(negative) return ErrorNumber.NotSupported; if(sectorAddress > _imageInfo.Sectors - 1) return ErrorNumber.OutOfRange; if(sectorAddress + length > _imageInfo.Sectors) return ErrorNumber.OutOfRange; var ms = new MemoryStream(); sectorStatus = new SectorStatus[length]; for(uint i = 0; i < length; i++) { ErrorNumber errno = ReadSector(sectorAddress + i, false, out byte[] sector, out SectorStatus status); if(errno != ErrorNumber.NoError) return errno; ms.Write(sector, 0, sector.Length); sectorStatus[i] = status; } buffer = ms.ToArray(); return ErrorNumber.NoError; } #endregion ///

Read a whole track and cache it

/// The stream to read from /// The cylinder number of the track being read. /// The head number of the track being read. ErrorNumber ReadTrack(Stream stream, int cyl, int head) { for(var sect = 1; sect < _imageInfo.SectorsPerTrack + 1; sect++) { /* read the sector header */ var sheaderBuffer = new byte[6]; stream.EnsureRead(sheaderBuffer, 0, 6); SectorHeader sheader = Marshal.ByteArrayToStructureLittleEndian(sheaderBuffer); /* validate the sector header */ if(sheader.cylinder != cyl || sheader.head != head || sheader.sector != sect) { AaruLogging.Error(string.Format(Localization .Unexpected_sector_encountered_Found_CHS_0_1_2_but_expected_3_4_5, sheader.cylinder, sheader.head, sheader.sector, cyl, head, sect)); return ErrorNumber.InvalidArgument; } var sectorData = new byte[512]; /* read the sector data */ switch(sheader.flag) { case SectorFlag.Normal: /* read a normal sector and store it in cache */ stream.EnsureRead(sectorData, 0, 512); _sectorCache[(cyl, head, sect)] = sectorData; CRC16IbmContext.Data(sectorData, 512, out byte[] crc); var calculatedCRC = (short)(256 * crc[0] | crc[1]); /* AaruLogging.DebugWriteLine(MODULE_NAME, "CHS {0},{1},{2}: Regular sector, stored CRC=0x{3:x4}, calculated CRC=0x{4:x4}", cyl, head, sect, sheader.crc, 256 * crc[0] + crc[1]); */ _badSectors[(cyl, head, sect)] = sheader.crc != calculatedCRC; if(calculatedCRC != sheader.crc) { AaruLogging.Debug(MODULE_NAME, Localization.CHS_0_1_2_CRC_mismatch_stored_CRC_3_X4_calculated_CRC_4_X4, cyl, head, sect, sheader.crc, calculatedCRC); } break; case SectorFlag.BadSector: /* AaruLogging.DebugWriteLine(MODULE_NAME, "CHS {0},{1},{2}: Bad sector", cyl, head, sect); */ _badSectors[(cyl, head, sect)] = true; break; case SectorFlag.RepeatByte: /* AaruLogging.DebugWriteLine(MODULE_NAME, "CHS {0},{1},{2}: RepeatByte sector, fill byte 0x{0:x2}", cyl, head, sect, sheader.crc & 0xff); */ for(var i = 0; i < 512; i++) sectorData[i] = (byte)(sheader.crc & 0xff); _sectorCache[(cyl, head, sect)] = sectorData; _badSectors[(cyl, head, sect)] = false; break; default: AaruLogging.Error(string.Format(Localization.Invalid_sector_type_0_encountered, sheader.flag.ToString())); return ErrorNumber.InvalidArgument; } } return ErrorNumber.NoError; } }