/// <summary> /// Checks the integrity of an NTFS file system held in a stream. /// </summary> /// <param name="reportOutput">A report on issues found</param> /// <param name="levels">The amount of detail to report</param> /// <returns><c>true</c> if the file system appears valid, else <c>false</c></returns> public override bool Check(TextWriter reportOutput, ReportLevels levels) { _context = new NtfsContext(); _context.RawStream = _target; _context.Options = new NtfsOptions(); _report = reportOutput; _reportLevels = levels; _levelsDetected = ReportLevels.None; try { DoCheck(); } catch (AbortException ae) { ReportError("File system check aborted: " + ae.ToString()); return false; } catch (Exception e) { ReportError("File system check aborted with exception: " + e.ToString()); return false; } return (_levelsDetected & _levelsConsideredFail) == 0; }
public NtfsFileSystem Format(Stream stream) { _context = new NtfsContext(); _context.Options = new NtfsOptions(); _context.RawStream = stream; _context.AttributeDefinitions = new AttributeDefinitions(); string localAdminString = (ComputerAccount == null) ? "LA" : new SecurityIdentifier(WellKnownSidType.AccountAdministratorSid, ComputerAccount).ToString(); using (new NtfsTransaction()) { _clusterSize = 4096; _mftRecordSize = 1024; _indexBufferSize = 4096; long totalClusters = ((SectorCount - 1) * Sizes.Sector) / _clusterSize; // Allocate a minimum of 8KB for the boot loader, but allow for more int numBootClusters = Utilities.Ceil(Math.Max((int)(8 * Sizes.OneKiB), BootCode == null ? 0 : BootCode.Length), _clusterSize); // Place MFT mirror in the middle of the volume _mftMirrorCluster = totalClusters / 2; uint numMftMirrorClusters = 1; // The bitmap is also near the middle _bitmapCluster = _mftMirrorCluster + 13; int numBitmapClusters = (int)Utilities.Ceil((totalClusters / 8), _clusterSize); // The MFT bitmap goes 'near' the start - approx 10% in - but ensure we avoid the bootloader long mftBitmapCluster = Math.Max(3 + (totalClusters / 10), numBootClusters); int numMftBitmapClusters = 1; // The MFT follows it's bitmap _mftCluster = mftBitmapCluster + numMftBitmapClusters; int numMftClusters = 8; if (_mftCluster + numMftClusters > _mftMirrorCluster || _bitmapCluster + numBitmapClusters >= totalClusters) { throw new IOException("Unable to determine initial layout of NTFS metadata - disk may be too small"); } CreateBiosParameterBlock(stream, numBootClusters * _clusterSize); _context.Mft = new MasterFileTable(_context); File mftFile = _context.Mft.InitializeNew(_context, mftBitmapCluster, (ulong)numMftBitmapClusters, (long)_mftCluster, (ulong)numMftClusters); File bitmapFile = CreateFixedSystemFile(MasterFileTable.BitmapIndex, _bitmapCluster, (ulong)numBitmapClusters, true); _context.ClusterBitmap = new ClusterBitmap(bitmapFile); _context.ClusterBitmap.MarkAllocated(0, numBootClusters); _context.ClusterBitmap.MarkAllocated(_bitmapCluster, numBitmapClusters); _context.ClusterBitmap.MarkAllocated(mftBitmapCluster, numMftBitmapClusters); _context.ClusterBitmap.MarkAllocated(_mftCluster, numMftClusters); _context.ClusterBitmap.SetTotalClusters(totalClusters); bitmapFile.UpdateRecordInMft(); File mftMirrorFile = CreateFixedSystemFile(MasterFileTable.MftMirrorIndex, _mftMirrorCluster, numMftMirrorClusters, true); File logFile = CreateSystemFile(MasterFileTable.LogFileIndex); using (Stream s = logFile.OpenStream(AttributeType.Data, null, FileAccess.ReadWrite)) { s.SetLength(Math.Min(Math.Max(2 * Sizes.OneMiB, (totalClusters / 500) * (long)_clusterSize), 64 * Sizes.OneMiB)); byte[] buffer = new byte[1024 * 1024]; for (int i = 0; i < buffer.Length; ++i) { buffer[i] = 0xFF; } long totalWritten = 0; while (totalWritten < s.Length) { int toWrite = (int)Math.Min(s.Length - totalWritten, buffer.Length); s.Write(buffer, 0, toWrite); totalWritten += toWrite; } } File volumeFile = CreateSystemFile(MasterFileTable.VolumeIndex); NtfsStream volNameStream = volumeFile.CreateStream(AttributeType.VolumeName, null); volNameStream.SetContent(new VolumeName(Label ?? "New Volume")); NtfsStream volInfoStream = volumeFile.CreateStream(AttributeType.VolumeInformation, null); volInfoStream.SetContent(new VolumeInformation(3, 1, VolumeInformationFlags.None)); SetSecurityAttribute(volumeFile, "O:" + localAdminString + "G:BAD:(A;;0x12019f;;;SY)(A;;0x12019f;;;BA)"); volumeFile.UpdateRecordInMft(); _context.GetFileByIndex = delegate(long index) { return new File(_context, _context.Mft.GetRecord(index, false)); }; _context.AllocateFile = delegate(FileRecordFlags frf) { return new File(_context, _context.Mft.AllocateRecord(frf, false)); }; File attrDefFile = CreateSystemFile(MasterFileTable.AttrDefIndex); _context.AttributeDefinitions.WriteTo(attrDefFile); SetSecurityAttribute(attrDefFile, "O:" + localAdminString + "G:BAD:(A;;FR;;;SY)(A;;FR;;;BA)"); attrDefFile.UpdateRecordInMft(); File bootFile = CreateFixedSystemFile(MasterFileTable.BootIndex, 0, (uint)numBootClusters, false); SetSecurityAttribute(bootFile, "O:" + localAdminString + "G:BAD:(A;;FR;;;SY)(A;;FR;;;BA)"); bootFile.UpdateRecordInMft(); File badClusFile = CreateSystemFile(MasterFileTable.BadClusIndex); badClusFile.CreateStream(AttributeType.Data, "$Bad"); badClusFile.UpdateRecordInMft(); File secureFile = CreateSystemFile(MasterFileTable.SecureIndex, FileRecordFlags.HasViewIndex); secureFile.RemoveStream(secureFile.GetStream(AttributeType.Data, null)); _context.SecurityDescriptors = SecurityDescriptors.Initialize(secureFile); secureFile.UpdateRecordInMft(); File upcaseFile = CreateSystemFile(MasterFileTable.UpCaseIndex); _context.UpperCase = UpperCase.Initialize(upcaseFile); upcaseFile.UpdateRecordInMft(); File objIdFile = File.CreateNew(_context, FileRecordFlags.IsMetaFile | FileRecordFlags.HasViewIndex, FileAttributeFlags.None); objIdFile.RemoveStream(objIdFile.GetStream(AttributeType.Data, null)); objIdFile.CreateIndex("$O", (AttributeType)0, AttributeCollationRule.MultipleUnsignedLongs); objIdFile.UpdateRecordInMft(); File reparseFile = File.CreateNew(_context, FileRecordFlags.IsMetaFile | FileRecordFlags.HasViewIndex, FileAttributeFlags.None); reparseFile.CreateIndex("$R", (AttributeType)0, AttributeCollationRule.MultipleUnsignedLongs); reparseFile.UpdateRecordInMft(); File quotaFile = File.CreateNew(_context, FileRecordFlags.IsMetaFile | FileRecordFlags.HasViewIndex, FileAttributeFlags.None); Quotas.Initialize(quotaFile); Directory extendDir = CreateSystemDirectory(MasterFileTable.ExtendIndex); extendDir.AddEntry(objIdFile, "$ObjId", FileNameNamespace.Win32AndDos); extendDir.AddEntry(reparseFile, "$Reparse", FileNameNamespace.Win32AndDos); extendDir.AddEntry(quotaFile, "$Quota", FileNameNamespace.Win32AndDos); extendDir.UpdateRecordInMft(); Directory rootDir = CreateSystemDirectory(MasterFileTable.RootDirIndex); rootDir.AddEntry(mftFile, "$MFT", FileNameNamespace.Win32AndDos); rootDir.AddEntry(mftMirrorFile, "$MFTMirr", FileNameNamespace.Win32AndDos); rootDir.AddEntry(logFile, "$LogFile", FileNameNamespace.Win32AndDos); rootDir.AddEntry(volumeFile, "$Volume", FileNameNamespace.Win32AndDos); rootDir.AddEntry(attrDefFile, "$AttrDef", FileNameNamespace.Win32AndDos); rootDir.AddEntry(rootDir, ".", FileNameNamespace.Win32AndDos); rootDir.AddEntry(bitmapFile, "$Bitmap", FileNameNamespace.Win32AndDos); rootDir.AddEntry(bootFile, "$Boot", FileNameNamespace.Win32AndDos); rootDir.AddEntry(badClusFile, "$BadClus", FileNameNamespace.Win32AndDos); rootDir.AddEntry(secureFile, "$Secure", FileNameNamespace.Win32AndDos); rootDir.AddEntry(upcaseFile, "$UpCase", FileNameNamespace.Win32AndDos); rootDir.AddEntry(extendDir, "$Extend", FileNameNamespace.Win32AndDos); SetSecurityAttribute(rootDir, "O:" + localAdminString + "G:BUD:(A;OICI;FA;;;BA)(A;OICI;FA;;;SY)(A;OICIIO;GA;;;CO)(A;OICI;0x1200a9;;;BU)(A;CI;LC;;;BU)(A;CIIO;DC;;;BU)(A;;0x1200a9;;;WD)"); rootDir.UpdateRecordInMft(); // A number of records are effectively 'reserved' for (long i = MasterFileTable.ExtendIndex + 1; i <= 15; i++) { File f = CreateSystemFile(i); SetSecurityAttribute(f, "O:S-1-5-21-1708537768-746137067-1060284298-1003G:BAD:(A;;0x12019f;;;SY)(A;;0x12019f;;;BA)"); f.UpdateRecordInMft(); } } // XP-style security permissions setup NtfsFileSystem ntfs = new NtfsFileSystem(stream); ntfs.SetSecurity(@"$MFT", new RawSecurityDescriptor("O:" + localAdminString + "G:BAD:(A;;FR;;;SY)(A;;FR;;;BA)")); ntfs.SetSecurity(@"$MFTMirr", new RawSecurityDescriptor("O:" + localAdminString + "G:BAD:(A;;FR;;;SY)(A;;FR;;;BA)")); ntfs.SetSecurity(@"$LogFile", new RawSecurityDescriptor("O:" + localAdminString + "G:BAD:(A;;FR;;;SY)(A;;FR;;;BA)")); ntfs.SetSecurity(@"$Bitmap", new RawSecurityDescriptor("O:" + localAdminString + "G:BAD:(A;;FR;;;SY)(A;;FR;;;BA)")); ntfs.SetSecurity(@"$BadClus", new RawSecurityDescriptor("O:" + localAdminString + "G:BAD:(A;;FR;;;SY)(A;;FR;;;BA)")); ntfs.SetSecurity(@"$UpCase", new RawSecurityDescriptor("O:" + localAdminString + "G:BAD:(A;;FR;;;SY)(A;;FR;;;BA)")); ntfs.SetSecurity(@"$Secure", new RawSecurityDescriptor("O:" + localAdminString + "G:BAD:(A;;0x12019f;;;SY)(A;;0x12019f;;;BA)")); ntfs.SetSecurity(@"$Extend", new RawSecurityDescriptor("O:" + localAdminString + "G:BAD:(A;;0x12019f;;;SY)(A;;0x12019f;;;BA)")); ntfs.SetSecurity(@"$Extend\$Quota", new RawSecurityDescriptor("O:" + localAdminString + "G:BAD:(A;;0x12019f;;;SY)(A;;0x12019f;;;BA)")); ntfs.SetSecurity(@"$Extend\$ObjId", new RawSecurityDescriptor("O:" + localAdminString + "G:BAD:(A;;0x12019f;;;SY)(A;;0x12019f;;;BA)")); ntfs.SetSecurity(@"$Extend\$Reparse", new RawSecurityDescriptor("O:" + localAdminString + "G:BAD:(A;;0x12019f;;;SY)(A;;0x12019f;;;BA)")); ntfs.CreateDirectory("System Volume Information"); ntfs.SetAttributes("System Volume Information", FileAttributes.Hidden | FileAttributes.System | FileAttributes.Directory); ntfs.SetSecurity("System Volume Information", new RawSecurityDescriptor("O:BAG:SYD:(A;OICI;FA;;;SY)")); using (Stream s = ntfs.OpenFile(@"System Volume Information\MountPointManagerRemoteDatabase", FileMode.Create)) { } ntfs.SetAttributes(@"System Volume Information\MountPointManagerRemoteDatabase", FileAttributes.Hidden | FileAttributes.System | FileAttributes.Archive); ntfs.SetSecurity(@"System Volume Information\MountPointManagerRemoteDatabase", new RawSecurityDescriptor("O:BAG:SYD:(A;;FA;;;SY)")); return ntfs; }
/// <summary> /// Initializes a new instance of the NtfsFileSystem class. /// </summary> /// <param name="stream">The stream containing the NTFS file system</param> public NtfsFileSystem(Stream stream) : base(new NtfsOptions()) { _context = new NtfsContext(); _context.RawStream = stream; _context.Options = NtfsOptions; _context.GetFileByIndex = GetFile; _context.GetFileByRef = GetFile; _context.GetDirectoryByRef = GetDirectory; _context.GetDirectoryByIndex = GetDirectory; _context.AllocateFile = AllocateFile; _context.ForgetFile = ForgetFile; _context.ReadOnly = !stream.CanWrite; _fileCache = new ObjectCache<long, File>(); stream.Position = 0; byte[] bytes = Utilities.ReadFully(stream, 512); _context.BiosParameterBlock = BiosParameterBlock.FromBytes(bytes, 0); if (NtfsOptions.ReadCacheEnabled) { BlockCacheSettings cacheSettings = new BlockCacheSettings(); cacheSettings.BlockSize = _context.BiosParameterBlock.BytesPerCluster; _context.RawStream = new BlockCacheStream(SparseStream.FromStream(stream, Ownership.None), Ownership.None, cacheSettings); } // Bootstrap the Master File Table _context.Mft = new MasterFileTable(_context); File mftFile = new File(_context, _context.Mft.GetBootstrapRecord()); _fileCache[MasterFileTable.MftIndex] = mftFile; _context.Mft.Initialize(mftFile); // Initialize access to the other well-known metadata files _context.ClusterBitmap = new ClusterBitmap(GetFile(MasterFileTable.BitmapIndex)); _context.AttributeDefinitions = new AttributeDefinitions(GetFile(MasterFileTable.AttrDefIndex)); _context.UpperCase = new UpperCase(GetFile(MasterFileTable.UpCaseIndex)); _context.SecurityDescriptors = new SecurityDescriptors(GetFile(MasterFileTable.SecureIndex)); _context.ObjectIds = new ObjectIds(GetFile(GetDirectoryEntry(@"$Extend\$ObjId").Reference)); _context.ReparsePoints = new ReparsePoints(GetFile(GetDirectoryEntry(@"$Extend\$Reparse").Reference)); _context.Quotas = new Quotas(GetFile(GetDirectoryEntry(@"$Extend\$Quota").Reference)); File volumeInfoFile = GetFile(MasterFileTable.VolumeIndex); _volumeInfo = volumeInfoFile.GetStream(AttributeType.VolumeInformation, null).GetContent<VolumeInformation>(); #if false byte[] buffer = new byte[1024]; for (int i = 0; i < buffer.Length; ++i) { buffer[i] = 0xFF; } using (Stream s = OpenFile("$LogFile", FileMode.Open, FileAccess.ReadWrite)) { while (s.Position != s.Length) { s.Write(buffer, 0, (int)Math.Min(buffer.Length, s.Length - s.Position)); } } #endif }
/// <summary> /// Gets an object that can convert between clusters and files. /// </summary> /// <returns>The cluster map</returns> public ClusterMap BuildClusterMap() { _context = new NtfsContext(); _context.RawStream = _target; _context.Options = new NtfsOptions(); _context.RawStream.Position = 0; byte[] bytes = Utilities.ReadFully(_context.RawStream, 512); _context.BiosParameterBlock = BiosParameterBlock.FromBytes(bytes, 0); _context.Mft = new MasterFileTable(_context); File mftFile = new File(_context, _context.Mft.GetBootstrapRecord()); _context.Mft.Initialize(mftFile); return _context.Mft.GetClusterMap(); }