// /*************************************************************************** // The Disc Image Chef // ---------------------------------------------------------------------------- // // Filename : File.cs // Author(s) : Natalia Portillo // // Component : Microsoft FAT filesystem plugin. // // --[ Description ] ---------------------------------------------------------- // // Methods to handle files. // // --[ 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 © 2011-2019 Natalia Portillo // ****************************************************************************/ using System; using System.Collections.Generic; using System.Linq; using DiscImageChef.CommonTypes.Structs; namespace DiscImageChef.Filesystems.FAT { public partial class FAT { public Errno MapBlock(string path, long fileBlock, out long deviceBlock) { deviceBlock = 0; if(!mounted) return Errno.AccessDenied; Errno err = Stat(path, out FileEntryInfo stat); if(err != Errno.NoError) return err; if(stat.Attributes.HasFlag(FileAttributes.Directory) && !debug) return Errno.IsDirectory; uint[] clusters = GetClusters((uint)stat.Inode); if(fileBlock >= clusters.Length) return Errno.InvalidArgument; deviceBlock = (long)(firstClusterSector + (clusters[fileBlock] - 2) * sectorsPerCluster); return Errno.NoError; } public Errno GetAttributes(string path, out FileAttributes attributes) { attributes = new FileAttributes(); if(!mounted) return Errno.AccessDenied; Errno err = Stat(path, out FileEntryInfo stat); if(err != Errno.NoError) return err; attributes = stat.Attributes; return Errno.NoError; } public Errno Read(string path, long offset, long size, ref byte[] buf) { if(!mounted) return Errno.AccessDenied; throw new NotImplementedException(); } public Errno Stat(string path, out FileEntryInfo stat) { stat = null; if(!mounted) return Errno.AccessDenied; Errno err = GetFileEntry(path, out DirectoryEntry entry); if(err != Errno.NoError) return err; stat = new FileEntryInfo { Attributes = new FileAttributes(), Blocks = entry.size / bytesPerCluster, BlockSize = bytesPerCluster, Length = entry.size, Inode = entry.start_cluster, Links = 1, CreationTime = DateHandlers.DosToDateTime(entry.cdate, entry.ctime), LastWriteTime = DateHandlers.DosToDateTime(entry.mdate, entry.mtime) }; stat.CreationTime = stat.CreationTime?.AddMilliseconds(entry.ctime_ms * 10); if(entry.size % bytesPerCluster > 0) stat.Blocks++; if(entry.attributes.HasFlag(FatAttributes.Subdirectory)) { stat.Attributes |= FileAttributes.Directory; stat.Blocks = GetClusters(entry.start_cluster).Length; stat.Length = stat.Blocks * stat.BlockSize; } if(entry.attributes.HasFlag(FatAttributes.ReadOnly)) stat.Attributes |= FileAttributes.ReadOnly; if(entry.attributes.HasFlag(FatAttributes.Hidden)) stat.Attributes |= FileAttributes.Hidden; if(entry.attributes.HasFlag(FatAttributes.System)) stat.Attributes |= FileAttributes.System; if(entry.attributes.HasFlag(FatAttributes.Archive)) stat.Attributes |= FileAttributes.Archive; if(entry.attributes.HasFlag(FatAttributes.Device)) stat.Attributes |= FileAttributes.Device; return Errno.NoError; } uint[] GetClusters(uint startCluster) { if(startCluster == 0) return null; if(startCluster >= XmlFsType.Clusters) return null; List clusters = new List(); uint nextCluster = startCluster; if(fat12) return null; ulong nextSector = nextCluster / fatEntriesPerSector + fatFirstSector + (useFirstFat ? 0 : sectorsPerFat); int nextEntry = (int)(nextCluster % fatEntriesPerSector); ulong currentSector = nextSector; byte[] fatData = image.ReadSector(currentSector); if(fat32) while((nextCluster & FAT32_MASK) > 0 && (nextCluster & FAT32_MASK) <= FAT32_BAD) { clusters.Add(nextCluster); if(currentSector != nextSector) { fatData = image.ReadSector(nextSector); currentSector = nextSector; } nextCluster = BitConverter.ToUInt32(fatData, nextEntry * 4); nextSector = nextCluster / fatEntriesPerSector + fatFirstSector + (useFirstFat ? 0 : sectorsPerFat); nextEntry = (int)(nextCluster % fatEntriesPerSector); } else if(fat16) while(nextCluster > 0 && nextCluster <= FAT16_BAD) { clusters.Add(nextCluster); if(currentSector != nextSector) { fatData = image.ReadSector(nextSector); currentSector = nextSector; } nextCluster = BitConverter.ToUInt16(fatData, nextEntry * 2); nextSector = nextCluster / fatEntriesPerSector + fatFirstSector + (useFirstFat ? 0 : sectorsPerFat); nextEntry = (int)(nextCluster % fatEntriesPerSector); } return clusters.ToArray(); } Errno GetFileEntry(string path, out DirectoryEntry entry) { entry = new DirectoryEntry(); string cutPath = path.StartsWith("/") ? path.Substring(1).ToLower(cultureInfo) : path.ToLower(cultureInfo); string[] pieces = cutPath.Split(new[] {'/'}, StringSplitOptions.RemoveEmptyEntries); if(pieces.Length == 0) return Errno.InvalidArgument; string parentPath = string.Join("/", pieces, 0, pieces.Length - 1); Errno err = ReadDir(parentPath, out _); if(err != Errno.NoError) return err; Dictionary parent; if(pieces.Length == 1) parent = rootDirectoryCache; else if(!directoryCache.TryGetValue(parentPath, out parent)) return Errno.InvalidArgument; KeyValuePair dirent = parent.FirstOrDefault(t => t.Key.ToLower(cultureInfo) == pieces[pieces.Length - 1]); if(string.IsNullOrEmpty(dirent.Key)) return Errno.NoSuchFile; entry = dirent.Value; return Errno.NoError; } } }