/// <summary>Dumps a MiniDisc Data device</summary> internal void MiniDisc() { bool sense; byte scsiMediumType = 0; const ushort sbcProfile = 0x0001; DateTime start; DateTime end; double totalDuration = 0; double currentSpeed = 0; double maxSpeed = double.MinValue; double minSpeed = double.MaxValue; byte[] readBuffer; Modes.DecodedMode?decMode = null; Dictionary <MediaTagType, byte[]> mediaTags = new Dictionary <MediaTagType, byte[]>(); byte[] cmdBuf; bool ret; _dumpLog.WriteLine("Initializing reader."); var scsiReader = new Reader(_dev, _dev.Timeout, null); ulong blocks = scsiReader.GetDeviceBlocks(); uint blockSize = scsiReader.LogicalBlockSize; _dumpLog.WriteLine("Requesting MODE SENSE (6)."); UpdateStatus?.Invoke("Requesting MODE SENSE (6)."); sense = _dev.ModeSense6(out cmdBuf, out _, true, ScsiModeSensePageControl.Current, 0x3F, 5, out _); if (!sense && !_dev.Error && Modes.DecodeMode6(cmdBuf, _dev.ScsiType).HasValue) { decMode = Modes.DecodeMode6(cmdBuf, _dev.ScsiType); } if (decMode.HasValue) { scsiMediumType = (byte)decMode.Value.Header.MediumType; } if (blockSize != 2048) { _dumpLog.WriteLine("MiniDisc albums, NetMD discs or user-written audio MiniDisc cannot be dumped."); StoppingErrorMessage?. Invoke("MiniDisc albums, NetMD discs or user-written audio MiniDisc cannot be dumped."); return; } MediaType dskType = MediaType.MDData; if (scsiReader.FindReadCommand()) { _dumpLog.WriteLine("ERROR: Cannot find correct read command: {0}.", scsiReader.ErrorMessage); StoppingErrorMessage?.Invoke("Unable to read medium."); return; } if (blocks != 0 && blockSize != 0) { blocks++; UpdateStatus?. Invoke($"Media has {blocks} blocks of {blockSize} bytes/each. (for a total of {blocks * (ulong)blockSize} bytes)"); } // Check how many blocks to read, if error show and return // 64 works, gets maximum speed (150KiB/s), slow I know... if (scsiReader.GetBlocksToRead()) { _dumpLog.WriteLine("ERROR: Cannot get blocks to read: {0}.", scsiReader.ErrorMessage); StoppingErrorMessage?.Invoke(scsiReader.ErrorMessage); return; } uint blocksToRead = scsiReader.BlocksToRead; uint logicalBlockSize = blockSize; uint physicalBlockSize = scsiReader.PhysicalBlockSize; if (blocks == 0) { _dumpLog.WriteLine("ERROR: Unable to read medium or empty medium present..."); StoppingErrorMessage?.Invoke("Unable to read medium or empty medium present..."); return; } UpdateStatus?.Invoke($"Device reports {blocks} blocks ({blocks * blockSize} bytes)."); UpdateStatus?.Invoke($"Device can read {blocksToRead} blocks at a time."); UpdateStatus?.Invoke($"Device reports {blockSize} bytes per logical block."); UpdateStatus?.Invoke($"Device reports {scsiReader.LongBlockSize} bytes per physical block."); UpdateStatus?.Invoke($"SCSI device type: {_dev.ScsiType}."); UpdateStatus?.Invoke($"SCSI medium type: {scsiMediumType}."); UpdateStatus?.Invoke($"Media identified as {dskType}"); _dumpLog.WriteLine("Device reports {0} blocks ({1} bytes).", blocks, blocks * blockSize); _dumpLog.WriteLine("Device can read {0} blocks at a time.", blocksToRead); _dumpLog.WriteLine("Device reports {0} bytes per logical block.", blockSize); _dumpLog.WriteLine("Device reports {0} bytes per physical block.", scsiReader.LongBlockSize); _dumpLog.WriteLine("SCSI device type: {0}.", _dev.ScsiType); _dumpLog.WriteLine("SCSI medium type: {0}.", scsiMediumType); _dumpLog.WriteLine("Media identified as {0}.", dskType); sense = _dev.MiniDiscGetType(out cmdBuf, out _, _dev.Timeout, out _); if (!sense && !_dev.Error) { mediaTags.Add(MediaTagType.MiniDiscType, cmdBuf); } sense = _dev.MiniDiscD5(out cmdBuf, out _, _dev.Timeout, out _); if (!sense && !_dev.Error) { mediaTags.Add(MediaTagType.MiniDiscD5, cmdBuf); } sense = _dev.MiniDiscReadDataTOC(out cmdBuf, out _, _dev.Timeout, out _); if (!sense && !_dev.Error) { mediaTags.Add(MediaTagType.MiniDiscDTOC, cmdBuf); } var utocMs = new MemoryStream(); for (uint i = 0; i < 3; i++) { sense = _dev.MiniDiscReadUserTOC(out cmdBuf, out _, i, _dev.Timeout, out _); if (sense || _dev.Error) { break; } utocMs.Write(cmdBuf, 0, 2336); } if (utocMs.Length > 0) { mediaTags.Add(MediaTagType.MiniDiscUTOC, utocMs.ToArray()); } ret = true; foreach (MediaTagType tag in mediaTags.Keys) { if (_outputPlugin.SupportedMediaTags.Contains(tag)) { continue; } ret = false; _dumpLog.WriteLine($"Output format does not support {tag}."); ErrorMessage?.Invoke($"Output format does not support {tag}."); } if (!ret) { if (_force) { _dumpLog.WriteLine("Several media tags not supported, continuing..."); ErrorMessage?.Invoke("Several media tags not supported, continuing..."); } else { _dumpLog.WriteLine("Several media tags not supported, not continuing..."); StoppingErrorMessage?.Invoke("Several media tags not supported, not continuing..."); return; } } UpdateStatus?.Invoke($"Reading {blocksToRead} sectors at a time."); _dumpLog.WriteLine("Reading {0} sectors at a time.", blocksToRead); var mhddLog = new MhddLog(_outputPrefix + ".mhddlog.bin", _dev, blocks, blockSize, blocksToRead, _private); var ibgLog = new IbgLog(_outputPrefix + ".ibg", sbcProfile); ret = _outputPlugin.Create(_outputPath, dskType, _formatOptions, blocks, blockSize); // Cannot create image if (!ret) { _dumpLog.WriteLine("Error creating output image, not continuing."); _dumpLog.WriteLine(_outputPlugin.ErrorMessage); StoppingErrorMessage?.Invoke("Error creating output image, not continuing." + Environment.NewLine + _outputPlugin.ErrorMessage); return; } start = DateTime.UtcNow; double imageWriteDuration = 0; if (decMode?.Pages != null) { bool setGeometry = false; foreach (Modes.ModePage page in decMode.Value.Pages) { if (page.Page == 0x04 && page.Subpage == 0x00) { Modes.ModePage_04?rigidPage = Modes.DecodeModePage_04(page.PageResponse); if (!rigidPage.HasValue || setGeometry) { continue; } _dumpLog.WriteLine("Setting geometry to {0} cylinders, {1} heads, {2} sectors per track", rigidPage.Value.Cylinders, rigidPage.Value.Heads, (uint)(blocks / (rigidPage.Value.Cylinders * rigidPage.Value.Heads))); UpdateStatus?. Invoke($"Setting geometry to {rigidPage.Value.Cylinders} cylinders, {rigidPage.Value.Heads} heads, {(uint)(blocks / (rigidPage.Value.Cylinders * rigidPage.Value.Heads))} sectors per track"); _outputPlugin.SetGeometry(rigidPage.Value.Cylinders, rigidPage.Value.Heads, (uint)(blocks / (rigidPage.Value.Cylinders * rigidPage.Value.Heads))); setGeometry = true; } else if (page.Page == 0x05 && page.Subpage == 0x00) { Modes.ModePage_05?flexiblePage = Modes.DecodeModePage_05(page.PageResponse); if (!flexiblePage.HasValue) { continue; } _dumpLog.WriteLine("Setting geometry to {0} cylinders, {1} heads, {2} sectors per track", flexiblePage.Value.Cylinders, flexiblePage.Value.Heads, flexiblePage.Value.SectorsPerTrack); UpdateStatus?. Invoke($"Setting geometry to {flexiblePage.Value.Cylinders} cylinders, {flexiblePage.Value.Heads} heads, {flexiblePage.Value.SectorsPerTrack} sectors per track"); _outputPlugin.SetGeometry(flexiblePage.Value.Cylinders, flexiblePage.Value.Heads, flexiblePage.Value.SectorsPerTrack); setGeometry = true; } } } DumpHardwareType currentTry = null; ExtentsULong extents = null; ResumeSupport.Process(true, _dev.IsRemovable, blocks, _dev.Manufacturer, _dev.Model, _dev.Serial, _dev.PlatformId, ref _resume, ref currentTry, ref extents, _dev.FirmwareRevision, _private); if (currentTry == null || extents == null) { StoppingErrorMessage?.Invoke("Could not process resume file, not continuing..."); return; } if (_resume.NextBlock > 0) { UpdateStatus?.Invoke($"Resuming from block {_resume.NextBlock}."); _dumpLog.WriteLine("Resuming from block {0}.", _resume.NextBlock); } bool newTrim = false; DateTime timeSpeedStart = DateTime.UtcNow; ulong sectorSpeedStart = 0; InitProgress?.Invoke(); for (ulong i = _resume.NextBlock; i < blocks; i += blocksToRead) { if (_aborted) { currentTry.Extents = ExtentsConverter.ToMetadata(extents); UpdateStatus?.Invoke("Aborted!"); _dumpLog.WriteLine("Aborted!"); break; } if (blocks - i < blocksToRead) { blocksToRead = (uint)(blocks - i); } #pragma warning disable RECS0018 // Comparison of floating point numbers with equality operator if (currentSpeed > maxSpeed && currentSpeed != 0) { maxSpeed = currentSpeed; } if (currentSpeed < minSpeed && currentSpeed != 0) { minSpeed = currentSpeed; } #pragma warning restore RECS0018 // Comparison of floating point numbers with equality operator UpdateProgress?.Invoke($"Reading sector {i} of {blocks} ({currentSpeed:F3} MiB/sec.)", (long)i, (long)blocks); sense = _dev.Read6(out readBuffer, out _, (uint)i, blockSize, (byte)blocksToRead, _dev.Timeout, out double cmdDuration); totalDuration += cmdDuration; if (!sense && !_dev.Error) { mhddLog.Write(i, cmdDuration); ibgLog.Write(i, currentSpeed * 1024); DateTime writeStart = DateTime.Now; _outputPlugin.WriteSectors(readBuffer, i, blocksToRead); imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds; extents.Add(i, blocksToRead, true); } else { // TODO: Reset device after X errors if (_stopOnError) { return; // TODO: Return more cleanly } if (i + _skip > blocks) { _skip = (uint)(blocks - i); } // Write empty data DateTime writeStart = DateTime.Now; _outputPlugin.WriteSectors(new byte[blockSize * _skip], i, _skip); imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds; for (ulong b = i; b < i + _skip; b++) { _resume.BadBlocks.Add(b); } mhddLog.Write(i, cmdDuration < 500 ? 65535 : cmdDuration); ibgLog.Write(i, 0); _dumpLog.WriteLine("Skipping {0} blocks from errored block {1}.", _skip, i); i += _skip - blocksToRead; newTrim = true; } sectorSpeedStart += blocksToRead; _resume.NextBlock = i + blocksToRead; double elapsed = (DateTime.UtcNow - timeSpeedStart).TotalSeconds; if (elapsed < 1) { continue; } currentSpeed = (sectorSpeedStart * blockSize) / (1048576 * elapsed); sectorSpeedStart = 0; timeSpeedStart = DateTime.UtcNow; } end = DateTime.UtcNow; EndProgress?.Invoke(); mhddLog.Close(); ibgLog.Close(_dev, blocks, blockSize, (end - start).TotalSeconds, currentSpeed * 1024, (blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000), _devicePath); UpdateStatus?.Invoke($"Dump finished in {(end - start).TotalSeconds} seconds."); UpdateStatus?. Invoke($"Average dump speed {((double)blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000):F3} KiB/sec."); UpdateStatus?. Invoke($"Average write speed {((double)blockSize * (double)(blocks + 1)) / 1024 / imageWriteDuration:F3} KiB/sec."); _dumpLog.WriteLine("Dump finished in {0} seconds.", (end - start).TotalSeconds); _dumpLog.WriteLine("Average dump speed {0:F3} KiB/sec.", ((double)blockSize * (double)(blocks + 1)) / 1024 / (totalDuration / 1000)); _dumpLog.WriteLine("Average write speed {0:F3} KiB/sec.", ((double)blockSize * (double)(blocks + 1)) / 1024 / imageWriteDuration); #region Trimming if (_resume.BadBlocks.Count > 0 && !_aborted && _trim && newTrim) { start = DateTime.UtcNow; UpdateStatus?.Invoke("Trimming skipped sectors"); _dumpLog.WriteLine("Trimming skipped sectors"); ulong[] tmpArray = _resume.BadBlocks.ToArray(); InitProgress?.Invoke(); foreach (ulong badSector in tmpArray) { if (_aborted) { currentTry.Extents = ExtentsConverter.ToMetadata(extents); UpdateStatus?.Invoke("Aborted!"); _dumpLog.WriteLine("Aborted!"); break; } PulseProgress?.Invoke($"Trimming sector {badSector}"); sense = _dev.Read6(out readBuffer, out _, (uint)badSector, blockSize, 1, _dev.Timeout, out double cmdDuration); if (sense || _dev.Error) { continue; } _resume.BadBlocks.Remove(badSector); extents.Add(badSector); _outputPlugin.WriteSector(readBuffer, badSector); } EndProgress?.Invoke(); end = DateTime.UtcNow; UpdateStatus?.Invoke($"Trimming finished in {(end - start).TotalSeconds} seconds."); _dumpLog.WriteLine("Trimming finished in {0} seconds.", (end - start).TotalSeconds); } #endregion Trimming #region Error handling if (_resume.BadBlocks.Count > 0 && !_aborted && _retryPasses > 0) { int pass = 1; bool forward = true; bool runningPersistent = false; Modes.ModePage?currentModePage = null; byte[] md6; byte[] md10; if (_persistent) { Modes.ModePage_01_MMC pgMmc; Modes.ModePage_01 pg; sense = _dev.ModeSense6(out readBuffer, out _, false, ScsiModeSensePageControl.Current, 0x01, _dev.Timeout, out _); if (!sense) { Modes.DecodedMode?dcMode6 = Modes.DecodeMode6(readBuffer, _dev.ScsiType); if (dcMode6.HasValue && dcMode6.Value.Pages != null) { foreach (Modes.ModePage modePage in dcMode6.Value.Pages) { if (modePage.Page == 0x01 && modePage.Subpage == 0x00) { currentModePage = modePage; } } } } if (currentModePage == null) { pg = new Modes.ModePage_01 { PS = false, AWRE = true, ARRE = true, TB = false, RC = false, EER = true, PER = false, DTE = true, DCR = false, ReadRetryCount = 32 }; currentModePage = new Modes.ModePage { Page = 0x01, Subpage = 0x00, PageResponse = Modes.EncodeModePage_01(pg) }; } pg = new Modes.ModePage_01 { PS = false, AWRE = false, ARRE = false, TB = true, RC = false, EER = true, PER = false, DTE = false, DCR = false, ReadRetryCount = 255 }; var md = new Modes.DecodedMode { Header = new Modes.ModeHeader(), Pages = new[] { new Modes.ModePage { Page = 0x01, Subpage = 0x00, PageResponse = Modes.EncodeModePage_01(pg) } } }; md6 = Modes.EncodeMode6(md, _dev.ScsiType); UpdateStatus?.Invoke("Sending MODE SELECT to drive (return damaged blocks)."); _dumpLog.WriteLine("Sending MODE SELECT to drive (return damaged blocks)."); sense = _dev.ModeSelect(md6, out byte[] senseBuf, true, false, _dev.Timeout, out _); if (sense) { UpdateStatus?. Invoke("Drive did not accept MODE SELECT command for persistent error reading, try another drive."); AaruConsole.DebugWriteLine("Error: {0}", Sense.PrettifySense(senseBuf)); _dumpLog. WriteLine("Drive did not accept MODE SELECT command for persistent error reading, try another drive."); } else { runningPersistent = true; } } InitProgress?.Invoke(); repeatRetry: ulong[] tmpArray = _resume.BadBlocks.ToArray(); foreach (ulong badSector in tmpArray) { if (_aborted) { currentTry.Extents = ExtentsConverter.ToMetadata(extents); UpdateStatus?.Invoke("Aborted!"); _dumpLog.WriteLine("Aborted!"); break; } PulseProgress?.Invoke(string.Format("Retrying sector {0}, pass {1}, {3}{2}", badSector, pass, forward ? "forward" : "reverse", runningPersistent ? "recovering partial data, " : "")); sense = _dev.Read6(out readBuffer, out _, (uint)badSector, blockSize, 1, _dev.Timeout, out double cmdDuration); totalDuration += cmdDuration; if (!sense && !_dev.Error) { _resume.BadBlocks.Remove(badSector); extents.Add(badSector); _outputPlugin.WriteSector(readBuffer, badSector); UpdateStatus?.Invoke($"Correctly retried block {badSector} in pass {pass}."); _dumpLog.WriteLine("Correctly retried block {0} in pass {1}.", badSector, pass); } else if (runningPersistent) { _outputPlugin.WriteSector(readBuffer, badSector); } } if (pass < _retryPasses && !_aborted && _resume.BadBlocks.Count > 0) { pass++; forward = !forward; _resume.BadBlocks.Sort(); if (!forward) { _resume.BadBlocks.Reverse(); } goto repeatRetry; } if (runningPersistent && currentModePage.HasValue) { var md = new Modes.DecodedMode { Header = new Modes.ModeHeader(), Pages = new[] { currentModePage.Value } }; md6 = Modes.EncodeMode6(md, _dev.ScsiType); UpdateStatus?.Invoke("Sending MODE SELECT to drive (return device to previous status)."); _dumpLog.WriteLine("Sending MODE SELECT to drive (return device to previous status)."); _dev.ModeSelect(md6, out _, true, false, _dev.Timeout, out _); } EndProgress?.Invoke(); } #endregion Error handling _resume.BadBlocks.Sort(); foreach (ulong bad in _resume.BadBlocks) { _dumpLog.WriteLine("Sector {0} could not be read.", bad); } currentTry.Extents = ExtentsConverter.ToMetadata(extents); _outputPlugin.SetDumpHardware(_resume.Tries); var metadata = new CommonTypes.Structs.ImageInfo { Application = "Aaru", ApplicationVersion = Version.GetVersion() }; if (!_outputPlugin.SetMetadata(metadata)) { ErrorMessage?.Invoke("Error {0} setting metadata, continuing..." + Environment.NewLine + _outputPlugin.ErrorMessage); } if (_preSidecar != null) { _outputPlugin.SetCicmMetadata(_preSidecar); } _dumpLog.WriteLine("Closing output file."); UpdateStatus?.Invoke("Closing output file."); DateTime closeStart = DateTime.Now; _outputPlugin.Close(); DateTime closeEnd = DateTime.Now; UpdateStatus?.Invoke($"Closed in {(closeEnd - closeStart).TotalSeconds} seconds."); _dumpLog.WriteLine("Closed in {0} seconds.", (closeEnd - closeStart).TotalSeconds); if (_aborted) { UpdateStatus?.Invoke("Aborted!"); _dumpLog.WriteLine("Aborted!"); return; } double totalChkDuration = 0; if (_metadata) { UpdateStatus?.Invoke("Creating sidecar."); _dumpLog.WriteLine("Creating sidecar."); var filters = new FiltersList(); IFilter filter = filters.GetFilter(_outputPath); IMediaImage inputPlugin = ImageFormat.Detect(filter); if (!inputPlugin.Open(filter)) { StoppingErrorMessage?.Invoke("Could not open created image."); return; } DateTime chkStart = DateTime.UtcNow; _sidecarClass = new Sidecar(inputPlugin, _outputPath, filter.Id, _encoding); _sidecarClass.InitProgressEvent += InitProgress; _sidecarClass.UpdateProgressEvent += UpdateProgress; _sidecarClass.EndProgressEvent += EndProgress; _sidecarClass.InitProgressEvent2 += InitProgress2; _sidecarClass.UpdateProgressEvent2 += UpdateProgress2; _sidecarClass.EndProgressEvent2 += EndProgress2; _sidecarClass.UpdateStatusEvent += UpdateStatus; CICMMetadataType sidecar = _sidecarClass.Create(); end = DateTime.UtcNow; totalChkDuration = (end - chkStart).TotalMilliseconds; UpdateStatus?.Invoke($"Sidecar created in {(end - chkStart).TotalSeconds} seconds."); UpdateStatus?. Invoke($"Average checksum speed {((double)blockSize * (double)(blocks + 1)) / 1024 / (totalChkDuration / 1000):F3} KiB/sec."); _dumpLog.WriteLine("Sidecar created in {0} seconds.", (end - chkStart).TotalSeconds); _dumpLog.WriteLine("Average checksum speed {0:F3} KiB/sec.", ((double)blockSize * (double)(blocks + 1)) / 1024 / (totalChkDuration / 1000)); if (_preSidecar != null) { _preSidecar.BlockMedia = sidecar.BlockMedia; sidecar = _preSidecar; } List <(ulong start, string type)> filesystems = new List <(ulong start, string type)>(); if (sidecar.BlockMedia[0].FileSystemInformation != null) { filesystems.AddRange(from partition in sidecar.BlockMedia[0].FileSystemInformation where partition.FileSystems != null from fileSystem in partition.FileSystems select(partition.StartSector, fileSystem.Type)); } if (filesystems.Count > 0) { foreach (var filesystem in filesystems.Select(o => new { o.start, o.type }).Distinct()) { UpdateStatus?.Invoke($"Found filesystem {filesystem.type} at sector {filesystem.start}"); _dumpLog.WriteLine("Found filesystem {0} at sector {1}", filesystem.type, filesystem.start); } } sidecar.BlockMedia[0].Dimensions = Dimensions.DimensionsFromMediaType(dskType); (string type, string subType)xmlType = CommonTypes.Metadata.MediaType.MediaTypeToString(dskType); sidecar.BlockMedia[0].DiskType = xmlType.type; sidecar.BlockMedia[0].DiskSubType = xmlType.subType; if (!_dev.IsRemovable || _dev.IsUsb) { if (_dev.Type == DeviceType.ATAPI) { sidecar.BlockMedia[0].Interface = "ATAPI"; } else if (_dev.IsUsb) { sidecar.BlockMedia[0].Interface = "USB"; } else if (_dev.IsFireWire) { sidecar.BlockMedia[0].Interface = "FireWire"; } else { sidecar.BlockMedia[0].Interface = "SCSI"; } } sidecar.BlockMedia[0].LogicalBlocks = blocks; sidecar.BlockMedia[0].PhysicalBlockSize = physicalBlockSize; sidecar.BlockMedia[0].LogicalBlockSize = logicalBlockSize; sidecar.BlockMedia[0].Manufacturer = _dev.Manufacturer; sidecar.BlockMedia[0].Model = _dev.Model; if (!_private) { sidecar.BlockMedia[0].Serial = _dev.Serial; } sidecar.BlockMedia[0].Size = blocks * blockSize; if (_dev.IsRemovable) { sidecar.BlockMedia[0].DumpHardwareArray = _resume.Tries.ToArray(); } UpdateStatus?.Invoke("Writing metadata sidecar"); var xmlFs = new FileStream(_outputPrefix + ".cicm.xml", FileMode.Create); var xmlSer = new XmlSerializer(typeof(CICMMetadataType)); xmlSer.Serialize(xmlFs, sidecar); xmlFs.Close(); } UpdateStatus?.Invoke(""); UpdateStatus?. Invoke($"Took a total of {(end - start).TotalSeconds:F3} seconds ({totalDuration / 1000:F3} processing commands, {totalChkDuration / 1000:F3} checksumming, {imageWriteDuration:F3} writing, {(closeEnd - closeStart).TotalSeconds:F3} closing)."); UpdateStatus?. Invoke($"Average speed: {((double)blockSize * (double)(blocks + 1)) / 1048576 / (totalDuration / 1000):F3} MiB/sec."); if (maxSpeed > 0) { UpdateStatus?.Invoke($"Fastest speed burst: {maxSpeed:F3} MiB/sec."); } if (minSpeed > 0 && minSpeed < double.MaxValue) { UpdateStatus?.Invoke($"Slowest speed burst: {minSpeed:F3} MiB/sec."); } UpdateStatus?.Invoke($"{_resume.BadBlocks.Count} sectors could not be read."); UpdateStatus?.Invoke(""); Statistics.AddMedia(dskType, true); }