// /*************************************************************************** // Aaru Data Preservation Suite // ---------------------------------------------------------------------------- // // Filename : Write.cs // Author(s) : Natalia Portillo // // Component : Disk image plugins. // // --[ Description ] ---------------------------------------------------------- // // Writes Anex86 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 © 2011-2020 Natalia Portillo // ****************************************************************************/ using System.Collections.Generic; using System.IO; using System.Linq; using System.Runtime.InteropServices; using Aaru.CommonTypes; using Aaru.CommonTypes.Enums; using Aaru.CommonTypes.Structs; using Schemas; using Marshal = Aaru.Helpers.Marshal; namespace Aaru.DiscImages { public sealed partial class Anex86 { public bool Create(string path, MediaType mediaType, Dictionary options, ulong sectors, uint sectorSize) { if(sectorSize == 0) { ErrorMessage = "Unsupported sector size"; return false; } if(sectors * sectorSize > int.MaxValue || sectors > (long)int.MaxValue * 8 * 33) { ErrorMessage = "Too many sectors"; return false; } if(!SupportedMediaTypes.Contains(mediaType)) { ErrorMessage = $"Unsupported media format {mediaType}"; return false; } _imageInfo = new ImageInfo { MediaType = mediaType, SectorSize = sectorSize, Sectors = sectors }; try { _writingStream = new FileStream(path, FileMode.OpenOrCreate, FileAccess.ReadWrite, FileShare.None); } catch(IOException e) { ErrorMessage = $"Could not create new image file, exception {e.Message}"; return false; } _header = new Header { hdrSize = 4096, dskSize = (int)(sectors * sectorSize), bps = (int)sectorSize }; IsWriting = true; ErrorMessage = null; return true; } public bool WriteMediaTag(byte[] data, MediaTagType tag) { ErrorMessage = "Writing media tags is not supported."; return false; } public bool WriteSector(byte[] data, ulong sectorAddress) { if(!IsWriting) { ErrorMessage = "Tried to write on a non-writable image"; return false; } if(data.Length != _imageInfo.SectorSize) { ErrorMessage = "Incorrect data size"; return false; } if(sectorAddress >= _imageInfo.Sectors) { ErrorMessage = "Tried to write past image size"; return false; } _writingStream.Seek((long)(4096 + (sectorAddress * _imageInfo.SectorSize)), SeekOrigin.Begin); _writingStream.Write(data, 0, data.Length); ErrorMessage = ""; return true; } public bool WriteSectors(byte[] data, ulong sectorAddress, uint length) { if(!IsWriting) { ErrorMessage = "Tried to write on a non-writable image"; return false; } if(data.Length % _imageInfo.SectorSize != 0) { ErrorMessage = "Incorrect data size"; return false; } if(sectorAddress + length > _imageInfo.Sectors) { ErrorMessage = "Tried to write past image size"; return false; } _writingStream.Seek((long)(4096 + (sectorAddress * _imageInfo.SectorSize)), SeekOrigin.Begin); _writingStream.Write(data, 0, data.Length); ErrorMessage = ""; return true; } public bool WriteSectorLong(byte[] data, ulong sectorAddress) { ErrorMessage = "Writing sectors with tags is not supported."; return false; } public bool WriteSectorsLong(byte[] data, ulong sectorAddress, uint length) { ErrorMessage = "Writing sectors with tags is not supported."; return false; } public bool Close() { if(!IsWriting) { ErrorMessage = "Image is not opened for writing"; return false; } if((_imageInfo.MediaType == MediaType.Unknown || _imageInfo.MediaType == MediaType.GENERIC_HDD || _imageInfo.MediaType == MediaType.FlashDrive || _imageInfo.MediaType == MediaType.CompactFlash || _imageInfo.MediaType == MediaType.CompactFlashType2 || _imageInfo.MediaType == MediaType.PCCardTypeI || _imageInfo.MediaType == MediaType.PCCardTypeII || _imageInfo.MediaType == MediaType.PCCardTypeIII || _imageInfo.MediaType == MediaType.PCCardTypeIV) && _header.cylinders == 0) { _header.cylinders = (int)(_imageInfo.Sectors / 8 / 33); _header.heads = 8; _header.spt = 33; while(_header.cylinders == 0) { _header.heads--; if(_header.heads == 0) { _header.spt--; _header.heads = 8; } _header.cylinders = (int)_imageInfo.Sectors / _header.heads / _header.spt; if(_header.cylinders == 0 && _header.heads == 0 && _header.spt == 0) break; } } byte[] hdr = new byte[Marshal.SizeOf
()]; MemoryMarshal.Write(hdr, ref _header); _writingStream.Seek(0, SeekOrigin.Begin); _writingStream.Write(hdr, 0, hdr.Length); _writingStream.Flush(); _writingStream.Close(); IsWriting = false; ErrorMessage = ""; return true; } public bool SetMetadata(ImageInfo metadata) => true; public bool SetGeometry(uint cylinders, uint heads, uint sectorsPerTrack) { if(cylinders > int.MaxValue) { ErrorMessage = "Too many cylinders."; return false; } if(heads > int.MaxValue) { ErrorMessage = "Too many heads."; return false; } if(sectorsPerTrack > int.MaxValue) { ErrorMessage = "Too many sectors per track."; return false; } _header.spt = (int)sectorsPerTrack; _header.heads = (int)heads; _header.cylinders = (int)cylinders; return true; } public bool WriteSectorTag(byte[] data, ulong sectorAddress, SectorTagType tag) { ErrorMessage = "Unsupported feature"; return false; } public bool WriteSectorsTag(byte[] data, ulong sectorAddress, uint length, SectorTagType tag) { ErrorMessage = "Unsupported feature"; return false; } public bool SetDumpHardware(List dumpHardware) => false; public bool SetCicmMetadata(CICMMetadataType metadata) => false; } }