Aaru/DiscImageChef.DiscImages/CisCopy.cs

// /***************************************************************************
// The Disc Image Chef
// ----------------------------------------------------------------------------
//
// Filename       : CisCopy.cs
// Author(s)      : Natalia Portillo <claunia@claunia.com>
//
// Component      : Disc image plugins.
//
// --[ Description ] ----------------------------------------------------------
//
//     Manages CisCopy 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 <http://www.gnu.org/licenses/>.
//
// ----------------------------------------------------------------------------
// Copyright © 2011-2017 Natalia Portillo
// ****************************************************************************/

using System;
using System.Collections.Generic;
using System.IO;
using DiscImageChef.CommonTypes;
using DiscImageChef.Console;
using DiscImageChef.Filters;

namespace DiscImageChef.ImagePlugins
{
	/* This is a very simple format created by a German application called CisCopy, aka CCOPY.EXE, with extension .DCF.
	 * First byte indicates the floppy type, limited to standard formats.
	 * Indeed if the floppy is not DOS formatted, user must choose from the list of supported formats manually.
	 * Next 80 bytes (for 5.25" DD disks) or 160 bytes (for 5.25" HD and 3.5" disks) indicate if a track has been copied
	 * or not.
	 * It offers three copy methods:
	 * a) All, copies all tracks
	 * b) FAT, copies all tracks which contain sectors marked as sued by FAT
	 * c) "Belelung" similarly to FAT. On some disk tests FAT cuts data, while belelung does not.
	 * Finally, next byte indicates compression:
	 * 0) No compression
	 * 1) Normal compression, algorithm unknown
	 * 2) High compression, algorithm unknown
	 * Then the data for whole tracks follow.
	 */
	public class CisCopy : ImagePlugin
	{
		#region Internal enumerations
		enum DiskType : byte
		{
			MD1DD8 = 1,
			MD1DD = 2,
			MD2DD8 = 3,
			MD2DD = 4,
			MF2DD = 5,
			MD2HD = 6,
			MF2HD = 7
		}

		enum Compression : byte
		{
			None = 0,
			Normal = 1,
			High = 2
		}

		enum TrackType : byte
		{
			Copied = 0x4C,
			Omitted = 0xFA,
			OmittedAlternate = 0xFE
		}
		#endregion Internal enumeration


		#region Internal variables
		byte[] decodedDisk;
		#endregion Internal variables

		public CisCopy()
		{
			Name = "CisCopy Disk Image (DC-File)";
			PluginUUID = new Guid("EDF20CC7-6012-49E2-9E92-663A53E42130");
			ImageInfo = new ImageInfo();
			ImageInfo.readableSectorTags = new List<SectorTagType>();
			ImageInfo.readableMediaTags = new List<MediaTagType>();
			ImageInfo.imageHasPartitions = false;
			ImageInfo.imageHasSessions = false;
			ImageInfo.imageVersion = null;
			ImageInfo.imageApplication = null;
			ImageInfo.imageApplicationVersion = null;
			ImageInfo.imageCreator = null;
			ImageInfo.imageComments = null;
			ImageInfo.mediaManufacturer = null;
			ImageInfo.mediaModel = null;
			ImageInfo.mediaSerialNumber = null;
			ImageInfo.mediaBarcode = null;
			ImageInfo.mediaPartNumber = null;
			ImageInfo.mediaSequence = 0;
			ImageInfo.lastMediaSequence = 0;
			ImageInfo.driveManufacturer = null;
			ImageInfo.driveModel = null;
			ImageInfo.driveSerialNumber = null;
			ImageInfo.driveFirmwareRevision = null;
		}

		#region Public methods
		public override bool IdentifyImage(Filter imageFilter)
		{
			Stream stream = imageFilter.GetDataForkStream();
			stream.Seek(0, SeekOrigin.Begin);

			DiskType type = (DiskType)stream.ReadByte();
			byte tracks = 0;

			switch(type)
			{
				case DiskType.MD1DD8:
				case DiskType.MD1DD:
				case DiskType.MD2DD8:
				case DiskType.MD2DD:
					tracks = 80;
					break;
				case DiskType.MF2DD:
				case DiskType.MD2HD:
				case DiskType.MF2HD:
					tracks = 160;
					break;
				default:
					return false;
			}

			byte[] trackBytes = new byte[tracks];
			stream.Read(trackBytes, 0, tracks);

			for(int i = 0; i < tracks; i++)
			{
				if(trackBytes[i] != (byte)TrackType.Copied && trackBytes[i] != (byte)TrackType.Omitted && trackBytes[i] != (byte)TrackType.OmittedAlternate)
					return false;
			}

			Compression cmpr = (Compression)stream.ReadByte();

			if(cmpr != Compression.None && cmpr != Compression.Normal && cmpr != Compression.High)
				return false;
			
			switch(type)
			{
				case DiskType.MD1DD8:
					if(stream.Length > 40 * 1 * 8 * 512 + 82)
						return false;
					break;
				case DiskType.MD1DD:
					if(stream.Length > 40 * 1 * 9 * 512 + 82)
						return false;
					break;
				case DiskType.MD2DD8:
					if(stream.Length > 40 * 2 * 8 * 512 + 82)
						return false;
					break;
				case DiskType.MD2DD:
					if(stream.Length > 40 * 2 * 9 * 512 + 82)
						return false;
					break;
				case DiskType.MF2DD:
					if(stream.Length > 80 * 2 * 9 * 512 + 162)
						return false;
					break;
				case DiskType.MD2HD:
					if(stream.Length > 80 * 2 * 15 * 512 + 162)
						return false;
					break;
				case DiskType.MF2HD:
					if(stream.Length > 80 * 2 * 18 * 512 + 162)
						return false;
					break;
			}

			return true;
		}

		public override bool OpenImage(Filter imageFilter)
		{
			Stream stream = imageFilter.GetDataForkStream();
			stream.Seek(0, SeekOrigin.Begin);
			MemoryStream decodedImage;

			DiskType type = (DiskType)stream.ReadByte();
			byte tracks = 0;

			switch(type)
			{
				case DiskType.MD1DD8:
				case DiskType.MD1DD:
				case DiskType.MD2DD8:
				case DiskType.MD2DD:
					tracks = 80;
					break;
				case DiskType.MF2DD:
				case DiskType.MD2HD:
				case DiskType.MF2HD:
					tracks = 160;
					break;
				default:
					throw new ImageNotSupportedException(string.Format("Incorrect disk type {0}", (byte)type));
			}

			byte[] trackBytes = new byte[tracks];
			stream.Read(trackBytes, 0, tracks);

			Compression cmpr = (Compression)stream.ReadByte();

			if(cmpr != Compression.None)
				throw new FeatureSupportedButNotImplementedImageException("Compressed images are not supported.");

			int tracksize = 0;

			switch(type)
			{
				case DiskType.MD1DD8:
				case DiskType.MD2DD8:
					tracksize = 8 * 512;
					break;
				case DiskType.MD1DD:
				case DiskType.MD2DD:
				case DiskType.MF2DD:
					tracksize = 9 * 512;
					break;
				case DiskType.MD2HD:
					tracksize = 15 * 512;
					break;
				case DiskType.MF2HD:
					tracksize = 18 * 512;
					break;
			}

			int headstep = 1;
			if(type == DiskType.MD1DD || type == DiskType.MD1DD8)
				headstep = 2;

			decodedImage = new MemoryStream();

			for(int i = 0; i < tracks; i += headstep)
			{
				byte[] track = new byte[tracksize];

				if((TrackType)trackBytes[i] == TrackType.Copied)
					stream.Read(track, 0, tracksize);
				else
					ArrayHelpers.ArrayFill(track, (byte)0xF6);

				decodedImage.Write(track, 0, tracksize);
			}

/*
			FileStream debugStream = new FileStream("debug.img", FileMode.CreateNew, FileAccess.ReadWrite);
			debugStream.Write(decodedImage.ToArray(), 0, (int)decodedImage.Length);
			debugStream.Close();
*/

			ImageInfo.imageApplication = "CisCopy";
			ImageInfo.imageCreationTime = imageFilter.GetCreationTime();
			ImageInfo.imageLastModificationTime = imageFilter.GetLastWriteTime();
			ImageInfo.imageName = imageFilter.GetFilename();
			ImageInfo.imageSize = (ulong)(stream.Length - 2 - trackBytes.Length);
			ImageInfo.sectorSize = 512;

			switch(type)
			{
				case DiskType.MD1DD8:
					ImageInfo.mediaType = MediaType.DOS_525_SS_DD_8;
					ImageInfo.sectors = 40 * 1 * 8;
					ImageInfo.heads = 1;
					ImageInfo.cylinders = 40;
					ImageInfo.sectorsPerTrack = 8;
					break;
				case DiskType.MD2DD8:
					ImageInfo.mediaType = MediaType.DOS_525_DS_DD_8;
					ImageInfo.sectors = 40 * 2 * 8;
					ImageInfo.heads = 2;
					ImageInfo.cylinders = 40;
					ImageInfo.sectorsPerTrack = 8;
					break;
				case DiskType.MD1DD:
					ImageInfo.mediaType = MediaType.DOS_525_SS_DD_9;
					ImageInfo.sectors = 40 * 1 * 9;
					ImageInfo.heads = 1;
					ImageInfo.cylinders = 40;
					ImageInfo.sectorsPerTrack = 9;
					break;
				case DiskType.MD2DD:
					ImageInfo.mediaType = MediaType.DOS_525_DS_DD_9;
					ImageInfo.sectors = 40 * 2 * 9;
					ImageInfo.heads = 2;
					ImageInfo.cylinders = 40;
					ImageInfo.sectorsPerTrack = 9;
					break;
				case DiskType.MF2DD:
					ImageInfo.mediaType = MediaType.DOS_35_DS_DD_9;
					ImageInfo.sectors = 80 * 2 * 9;
					ImageInfo.heads = 2;
					ImageInfo.cylinders = 80;
					ImageInfo.sectorsPerTrack = 9;
					break;
				case DiskType.MD2HD:
					ImageInfo.mediaType = MediaType.DOS_525_HD;
					ImageInfo.sectors = 80 * 2 * 15;
					ImageInfo.heads = 2;
					ImageInfo.cylinders = 80;
					ImageInfo.sectorsPerTrack = 15;
					break;
				case DiskType.MF2HD:
					ImageInfo.mediaType = MediaType.DOS_35_HD;
					ImageInfo.sectors = 80 * 2 * 18;
					ImageInfo.heads = 2;
					ImageInfo.cylinders = 80;
					ImageInfo.sectorsPerTrack = 18;
					break;
			}

			ImageInfo.xmlMediaType = XmlMediaType.BlockMedia;
			decodedDisk = decodedImage.ToArray();

			decodedImage.Close();

			DicConsole.VerboseWriteLine("CisCopy image contains a disk of type {0}", ImageInfo.mediaType);

			return true;
		}

		public override bool? VerifySector(ulong sectorAddress)
		{
			return null;
		}

		public override bool? VerifySector(ulong sectorAddress, uint track)
		{
			return null;
		}

		public override bool? VerifySectors(ulong sectorAddress, uint length, out List<ulong> FailingLBAs, out List<ulong> UnknownLBAs)
		{
			FailingLBAs = new List<ulong>();
			UnknownLBAs = new List<ulong>();

			for(ulong i = sectorAddress; i < sectorAddress + length; i++)
				UnknownLBAs.Add(i);

			return null;
		}

		public override bool? VerifySectors(ulong sectorAddress, uint length, uint track, out List<ulong> FailingLBAs, out List<ulong> UnknownLBAs)
		{
			FailingLBAs = new List<ulong>();
			UnknownLBAs = new List<ulong>();

			for(ulong i = sectorAddress; i < sectorAddress + length; i++)
				UnknownLBAs.Add(i);

			return null;
		}

		public override bool? VerifyMediaImage()
		{
			return null;
		}

		public override bool ImageHasPartitions()
		{
			return ImageInfo.imageHasPartitions;
		}

		public override ulong GetImageSize()
		{
			return ImageInfo.imageSize;
		}

		public override ulong GetSectors()
		{
			return ImageInfo.sectors;
		}

		public override uint GetSectorSize()
		{
			return ImageInfo.sectorSize;
		}

		public override byte[] ReadSector(ulong sectorAddress)
		{
			return ReadSectors(sectorAddress, 1);
		}

		public override byte[] ReadSectors(ulong sectorAddress, uint length)
		{
			if(sectorAddress > ImageInfo.sectors - 1)
				throw new ArgumentOutOfRangeException(nameof(sectorAddress), "Sector address not found");

			if(sectorAddress + length > ImageInfo.sectors)
				throw new ArgumentOutOfRangeException(nameof(length), "Requested more sectors than available");

			byte[] buffer = new byte[length * ImageInfo.sectorSize];

			Array.Copy(decodedDisk, (int)sectorAddress * ImageInfo.sectorSize, buffer, 0, length * ImageInfo.sectorSize);

			return buffer;
		}

		public override string GetImageFormat()
		{
			return "CisCopy";
		}

		public override string GetImageVersion()
		{
			return ImageInfo.imageVersion;
		}

		public override string GetImageApplication()
		{
			return ImageInfo.imageApplication;
		}

		public override string GetImageApplicationVersion()
		{
			return ImageInfo.imageApplicationVersion;
		}

		public override DateTime GetImageCreationTime()
		{
			return ImageInfo.imageCreationTime;
		}

		public override DateTime GetImageLastModificationTime()
		{
			return ImageInfo.imageLastModificationTime;
		}

		public override string GetImageName()
		{
			return ImageInfo.imageName;
		}

		public override MediaType GetMediaType()
		{
			return ImageInfo.mediaType;
		}
		public override string GetImageCreator()
		{
			return ImageInfo.imageCreator;
		}

		public override string GetImageComments()
		{
			return ImageInfo.imageComments;
		}

		public override string GetMediaManufacturer()
		{
			return ImageInfo.mediaManufacturer;
		}

		public override string GetMediaModel()
		{
			return ImageInfo.mediaModel;
		}

		public override string GetMediaSerialNumber()
		{
			return ImageInfo.mediaSerialNumber;
		}

		public override string GetMediaBarcode()
		{
			return ImageInfo.mediaBarcode;
		}

		public override string GetMediaPartNumber()
		{
			return ImageInfo.mediaPartNumber;
		}

		public override int GetMediaSequence()
		{
			return ImageInfo.mediaSequence;
		}

		public override int GetLastDiskSequence()
		{
			return ImageInfo.lastMediaSequence;
		}

		public override string GetDriveManufacturer()
		{
			return ImageInfo.driveManufacturer;
		}

		public override string GetDriveModel()
		{
			return ImageInfo.driveModel;
		}

		public override string GetDriveSerialNumber()
		{
			return ImageInfo.driveSerialNumber;
		}
		#endregion Public methods

		#region Unsupported features

		public override byte[] ReadSectorTag(ulong sectorAddress, SectorTagType tag)
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override byte[] ReadSectorsTag(ulong sectorAddress, uint length, SectorTagType tag)
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override byte[] ReadSectorLong(ulong sectorAddress)
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override byte[] ReadSectorsLong(ulong sectorAddress, uint length)
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override byte[] ReadDiskTag(MediaTagType tag)
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override List<Partition> GetPartitions()
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override List<Track> GetTracks()
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override List<Track> GetSessionTracks(Session session)
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override List<Track> GetSessionTracks(ushort session)
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override List<Session> GetSessions()
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override byte[] ReadSector(ulong sectorAddress, uint track)
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override byte[] ReadSectorTag(ulong sectorAddress, uint track, SectorTagType tag)
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override byte[] ReadSectors(ulong sectorAddress, uint length, uint track)
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override byte[] ReadSectorsTag(ulong sectorAddress, uint length, uint track, SectorTagType tag)
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override byte[] ReadSectorLong(ulong sectorAddress, uint track)
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}

		public override byte[] ReadSectorsLong(ulong sectorAddress, uint length, uint track)
		{
			throw new FeatureUnsupportedImageException("Feature not supported by image format");
		}
		#endregion Unsupported features
	}
}