public static void DoConvert(ConvertImageOptions options)
{
DicConsole.DebugWriteLine("Analyze command", "--debug={0}", options.Debug);
DicConsole.DebugWriteLine("Analyze command", "--verbose={0}", options.Verbose);
DicConsole.DebugWriteLine("Analyze command", "--input={0}", options.InputFile);
DicConsole.DebugWriteLine("Analyze command", "--output={0}", options.OutputFile);
DicConsole.DebugWriteLine("Analyze command", "--format={0}", options.OutputFormat);
DicConsole.DebugWriteLine("Analyze command", "--count={0}", options.Count);
DicConsole.DebugWriteLine("Analyze command", "--force={0}", options.Force);
DicConsole.DebugWriteLine("Analyze command", "--creator={0}", options.Creator);
DicConsole.DebugWriteLine("Analyze command", "--media-title={0}", options.MediaTitle);
DicConsole.DebugWriteLine("Analyze command", "--comments={0}", options.Comments);
DicConsole.DebugWriteLine("Analyze command", "--media-manufacturer={0}", options.MediaManufacturer);
DicConsole.DebugWriteLine("Analyze command", "--media-model={0}", options.MediaModel);
DicConsole.DebugWriteLine("Analyze command", "--media-serial={0}", options.MediaSerialNumber);
DicConsole.DebugWriteLine("Analyze command", "--media-barcode={0}", options.MediaBarcode);
DicConsole.DebugWriteLine("Analyze command", "--media-partnumber={0}", options.MediaPartNumber);
DicConsole.DebugWriteLine("Analyze command", "--media-sequence={0}", options.MediaSequence);
DicConsole.DebugWriteLine("Analyze command", "--media-lastsequence={0}", options.LastMediaSequence);
DicConsole.DebugWriteLine("Analyze command", "--drive-manufacturer={0}", options.DriveManufacturer);
DicConsole.DebugWriteLine("Analyze command", "--drive-model={0}", options.DriveModel);
DicConsole.DebugWriteLine("Analyze command", "--drive-serial={0}", options.DriveSerialNumber);
DicConsole.DebugWriteLine("Analyze command", "--drive-revision={0}", options.DriveFirmwareRevision);
DicConsole.DebugWriteLine("Analyze command", "--cicm-xml={0}", options.CicmXml);
DicConsole.DebugWriteLine("Analyze command", "--resume-file={0}", options.ResumeFile);
DicConsole.DebugWriteLine("Analyze command", "--options={0}", options.Options);
Dictionary <string, string> parsedOptions = Options.Parse(options.Options);
DicConsole.DebugWriteLine("Analyze command", "Parsed options:");
foreach (KeyValuePair <string, string> parsedOption in parsedOptions)
{
DicConsole.DebugWriteLine("Analyze command", "{0} = {1}", parsedOption.Key, parsedOption.Value);
}
if (options.Count == 0)
{
DicConsole.ErrorWriteLine("Need to specify more than 0 sectors to copy at once");
return;
}
Resume resume = null;
CICMMetadataType sidecar = null;
XmlSerializer xs = new XmlSerializer(typeof(CICMMetadataType));
if (options.CicmXml != null)
{
if (File.Exists(options.CicmXml))
{
try
{
StreamReader sr = new StreamReader(options.CicmXml);
sidecar = (CICMMetadataType)xs.Deserialize(sr);
sr.Close();
}
catch
{
DicConsole.ErrorWriteLine("Incorrect metadata sidecar file, not continuing...");
return;
}
}
else
{
DicConsole.ErrorWriteLine("Could not find metadata sidecar, not continuing...");
return;
}
}
xs = new XmlSerializer(typeof(Resume));
if (options.ResumeFile != null)
{
if (File.Exists(options.ResumeFile))
{
try
{
StreamReader sr = new StreamReader(options.ResumeFile);
resume = (Resume)xs.Deserialize(sr);
sr.Close();
}
catch
{
DicConsole.ErrorWriteLine("Incorrect resume file, not continuing...");
return;
}
}
else
{
DicConsole.ErrorWriteLine("Could not find resume file, not continuing...");
return;
}
}
FiltersList filtersList = new FiltersList();
IFilter inputFilter = filtersList.GetFilter(options.InputFile);
if (inputFilter == null)
{
DicConsole.ErrorWriteLine("Cannot open specified file.");
return;
}
if (File.Exists(options.OutputFile))
{
DicConsole.ErrorWriteLine("Output file already exists, not continuing.");
return;
}
PluginBase plugins = GetPluginBase.Instance;
IMediaImage inputFormat = ImageFormat.Detect(inputFilter);
if (inputFormat == null)
{
DicConsole.WriteLine("Input image format not identified, not proceeding with conversion.");
return;
}
if (options.Verbose)
{
DicConsole.VerboseWriteLine("Input image format identified by {0} ({1}).", inputFormat.Name,
inputFormat.Id);
}
else
{
DicConsole.WriteLine("Input image format identified by {0}.", inputFormat.Name);
}
try
{
if (!inputFormat.Open(inputFilter))
{
DicConsole.WriteLine("Unable to open image format");
DicConsole.WriteLine("No error given");
return;
}
DicConsole.DebugWriteLine("Convert-image command", "Correctly opened image file.");
DicConsole.DebugWriteLine("Convert-image command", "Image without headers is {0} bytes.",
inputFormat.Info.ImageSize);
DicConsole.DebugWriteLine("Convert-image command", "Image has {0} sectors.", inputFormat.Info.Sectors);
DicConsole.DebugWriteLine("Convert-image command", "Image identifies media type as {0}.",
inputFormat.Info.MediaType);
Core.Statistics.AddMediaFormat(inputFormat.Format);
Core.Statistics.AddMedia(inputFormat.Info.MediaType, false);
Core.Statistics.AddFilter(inputFilter.Name);
}
catch (Exception ex)
{
DicConsole.ErrorWriteLine("Unable to open image format");
DicConsole.ErrorWriteLine("Error: {0}", ex.Message);
DicConsole.DebugWriteLine("Convert-image command", "Stack trace: {0}", ex.StackTrace);
return;
}
List <IWritableImage> candidates = new List <IWritableImage>();
// Try extension
if (string.IsNullOrEmpty(options.OutputFormat))
{
candidates.AddRange(plugins.WritableImages.Values.Where(t =>
t.KnownExtensions
.Contains(Path.GetExtension(options
.OutputFile))));
}
// Try Id
else if (Guid.TryParse(options.OutputFormat, out Guid outId))
{
candidates.AddRange(plugins.WritableImages.Values.Where(t => t.Id.Equals(outId)));
}
// Try name
else
{
candidates.AddRange(plugins.WritableImages.Values.Where(t => string.Equals(t.Name, options.OutputFormat,
StringComparison
.InvariantCultureIgnoreCase)));
}
if (candidates.Count == 0)
{
DicConsole.WriteLine("No plugin supports requested extension.");
return;
}
if (candidates.Count > 1)
{
DicConsole.WriteLine("More than one plugin supports requested extension.");
return;
}
IWritableImage outputFormat = candidates[0];
if (options.Verbose)
{
DicConsole.VerboseWriteLine("Output image format: {0} ({1}).", outputFormat.Name, outputFormat.Id);
}
else
{
DicConsole.WriteLine("Output image format: {0}.", outputFormat.Name);
}
if (!outputFormat.SupportedMediaTypes.Contains(inputFormat.Info.MediaType))
{
DicConsole.ErrorWriteLine("Output format does not support media type, cannot continue...");
return;
}
foreach (MediaTagType mediaTag in inputFormat.Info.ReadableMediaTags)
{
if (outputFormat.SupportedMediaTags.Contains(mediaTag) || options.Force)
{
continue;
}
DicConsole.ErrorWriteLine("Converting image will lose media tag {0}, not continuing...", mediaTag);
DicConsole.ErrorWriteLine("If you don't care, use force option.");
return;
}
bool useLong = inputFormat.Info.ReadableSectorTags.Count != 0;
foreach (SectorTagType sectorTag in inputFormat.Info.ReadableSectorTags)
{
if (outputFormat.SupportedSectorTags.Contains(sectorTag))
{
continue;
}
if (options.Force)
{
if (sectorTag != SectorTagType.CdTrackFlags && sectorTag != SectorTagType.CdTrackIsrc &&
sectorTag != SectorTagType.CdSectorSubchannel)
{
useLong = false;
}
continue;
}
DicConsole.ErrorWriteLine("Converting image will lose sector tag {0}, not continuing...", sectorTag);
DicConsole
.ErrorWriteLine("If you don't care, use force option. This will skip all sector tags converting only user data.");
return;
}
if (!outputFormat.Create(options.OutputFile, inputFormat.Info.MediaType, parsedOptions,
inputFormat.Info.Sectors, inputFormat.Info.SectorSize))
{
DicConsole.ErrorWriteLine("Error {0} creating output image.", outputFormat.ErrorMessage);
return;
}
CommonTypes.Structs.ImageInfo metadata = new CommonTypes.Structs.ImageInfo
{
Application = "DiscImageChef",
ApplicationVersion = Version.GetVersion(),
Comments = options.Comments ?? inputFormat.Info.Comments,
Creator = options.Creator ?? inputFormat.Info.Creator,
DriveFirmwareRevision = options.DriveFirmwareRevision ?? inputFormat.Info.DriveFirmwareRevision,
DriveManufacturer = options.DriveManufacturer ?? inputFormat.Info.DriveManufacturer,
DriveModel = options.DriveModel ?? inputFormat.Info.DriveModel,
DriveSerialNumber = options.DriveSerialNumber ?? inputFormat.Info.DriveSerialNumber,
LastMediaSequence =
options.LastMediaSequence != 0 ? options.LastMediaSequence : inputFormat.Info.LastMediaSequence,
MediaBarcode = options.MediaBarcode ?? inputFormat.Info.MediaBarcode,
MediaManufacturer = options.MediaManufacturer ?? inputFormat.Info.MediaManufacturer,
MediaModel = options.MediaModel ?? inputFormat.Info.MediaModel,
MediaPartNumber = options.MediaPartNumber ?? inputFormat.Info.MediaPartNumber,
MediaSequence = options.MediaSequence != 0 ? options.MediaSequence : inputFormat.Info.MediaSequence,
MediaSerialNumber = options.MediaSerialNumber ?? inputFormat.Info.MediaSerialNumber,
MediaTitle = options.MediaTitle ?? inputFormat.Info.MediaTitle
};
if (!outputFormat.SetMetadata(metadata))
{
DicConsole.ErrorWrite("Error {0} setting metadata, ", outputFormat.ErrorMessage);
if (!options.Force)
{
DicConsole.ErrorWriteLine("not continuing...");
return;
}
DicConsole.ErrorWriteLine("continuing...");
}
List <Track> tracks;
try { tracks = inputFormat.Tracks; }
catch (Exception) { tracks = null; }
CICMMetadataType cicmMetadata = inputFormat.CicmMetadata;
List <DumpHardwareType> dumpHardware = inputFormat.DumpHardware;
if (tracks != null)
{
if (!outputFormat.SetTracks(tracks))
{
DicConsole.ErrorWriteLine("Error {0} sending tracks list to output image.",
outputFormat.ErrorMessage);
return;
}
}
foreach (MediaTagType mediaTag in inputFormat.Info.ReadableMediaTags)
{
if (options.Force && !outputFormat.SupportedMediaTags.Contains(mediaTag))
{
continue;
}
DicConsole.WriteLine("Converting media tag {0}", mediaTag);
byte[] tag = inputFormat.ReadDiskTag(mediaTag);
if (outputFormat.WriteMediaTag(tag, mediaTag))
{
continue;
}
if (options.Force)
{
DicConsole.ErrorWriteLine("Error {0} writing media tag, continuing...", outputFormat.ErrorMessage);
}
else
{
DicConsole.ErrorWriteLine("Error {0} writing media tag, not continuing...",
outputFormat.ErrorMessage);
return;
}
}
DicConsole.WriteLine("{0} sectors to convert", inputFormat.Info.Sectors);
ulong doneSectors = 0;
if (tracks == null)
{
DicConsole.WriteLine("Setting geometry to {0} cylinders, {1} heads and {2} sectors per track",
inputFormat.Info.Cylinders, inputFormat.Info.Heads,
inputFormat.Info.SectorsPerTrack);
if (!outputFormat.SetGeometry(inputFormat.Info.Cylinders, inputFormat.Info.Heads,
inputFormat.Info.SectorsPerTrack))
{
DicConsole.ErrorWriteLine("Error {0} setting geometry, image may be incorrect, continuing...",
outputFormat.ErrorMessage);
}
while (doneSectors < inputFormat.Info.Sectors)
{
byte[] sector;
uint sectorsToDo;
if (inputFormat.Info.Sectors - doneSectors >= (ulong)options.Count)
{
sectorsToDo = (uint)options.Count;
}
else
{
sectorsToDo = (uint)(inputFormat.Info.Sectors - doneSectors);
}
DicConsole.Write("\rConverting sectors {0} to {1} ({2:P2} done)", doneSectors,
doneSectors + sectorsToDo, doneSectors / (double)inputFormat.Info.Sectors);
bool result;
if (useLong)
{
if (sectorsToDo == 1)
{
sector = inputFormat.ReadSectorLong(doneSectors);
result = outputFormat.WriteSectorLong(sector, doneSectors);
}
else
{
sector = inputFormat.ReadSectorsLong(doneSectors, sectorsToDo);
result = outputFormat.WriteSectorsLong(sector, doneSectors, sectorsToDo);
}
}
else
{
if (sectorsToDo == 1)
{
sector = inputFormat.ReadSector(doneSectors);
result = outputFormat.WriteSector(sector, doneSectors);
}
else
{
sector = inputFormat.ReadSectors(doneSectors, sectorsToDo);
result = outputFormat.WriteSectors(sector, doneSectors, sectorsToDo);
}
}
if (!result)
{
if (options.Force)
{
DicConsole.ErrorWriteLine("Error {0} writing sector {1}, continuing...",
outputFormat.ErrorMessage, doneSectors);
}
else
{
DicConsole.ErrorWriteLine("Error {0} writing sector {1}, not continuing...",
outputFormat.ErrorMessage, doneSectors);
return;
}
}
doneSectors += sectorsToDo;
}
DicConsole.Write("\rConverting sectors {0} to {1} ({2:P2} done)", inputFormat.Info.Sectors,
inputFormat.Info.Sectors, 1.0);
DicConsole.WriteLine();
foreach (SectorTagType tag in inputFormat.Info.ReadableSectorTags)
{
if (!useLong)
{
break;
}
switch (tag)
{
case SectorTagType.AppleSectorTag:
case SectorTagType.CdSectorSync:
case SectorTagType.CdSectorHeader:
case SectorTagType.CdSectorSubHeader:
case SectorTagType.CdSectorEdc:
case SectorTagType.CdSectorEccP:
case SectorTagType.CdSectorEccQ:
case SectorTagType.CdSectorEcc:
// This tags are inline in long sector
continue;
}
if (options.Force && !outputFormat.SupportedSectorTags.Contains(tag))
{
continue;
}
doneSectors = 0;
while (doneSectors < inputFormat.Info.Sectors)
{
byte[] sector;
uint sectorsToDo;
if (inputFormat.Info.Sectors - doneSectors >= (ulong)options.Count)
{
sectorsToDo = (uint)options.Count;
}
else
{
sectorsToDo = (uint)(inputFormat.Info.Sectors - doneSectors);
}
DicConsole.Write("\rConverting tag {2} for sectors {0} to {1} ({2:P2} done)", doneSectors,
doneSectors + sectorsToDo, doneSectors / (double)inputFormat.Info.Sectors,
tag);
bool result;
if (sectorsToDo == 1)
{
sector = inputFormat.ReadSectorTag(doneSectors, tag);
result = outputFormat.WriteSectorTag(sector, doneSectors, tag);
}
else
{
sector = inputFormat.ReadSectorsTag(doneSectors, sectorsToDo, tag);
result = outputFormat.WriteSectorsTag(sector, doneSectors, sectorsToDo, tag);
}
if (!result)
{
if (options.Force)
{
DicConsole.ErrorWriteLine("Error {0} writing sector {1}, continuing...",
outputFormat.ErrorMessage, doneSectors);
}
else
{
DicConsole.ErrorWriteLine("Error {0} writing sector {1}, not continuing...",
outputFormat.ErrorMessage, doneSectors);
return;
}
}
doneSectors += sectorsToDo;
}
DicConsole.Write("\rConverting tag {2} for sectors {0} to {1} ({2:P2} done)",
inputFormat.Info.Sectors, inputFormat.Info.Sectors, 1.0, tag);
DicConsole.WriteLine();
}
}
else
{
foreach (Track track in tracks)
{
doneSectors = 0;
ulong trackSectors = track.TrackEndSector - track.TrackStartSector + 1;
while (doneSectors < trackSectors)
{
byte[] sector;
uint sectorsToDo;
if (trackSectors - doneSectors >= (ulong)options.Count)
{
sectorsToDo = (uint)options.Count;
}
else
{
sectorsToDo =
(uint)(trackSectors - doneSectors);
}
DicConsole.Write("\rConverting sectors {0} to {1} in track {3} ({2:P2} done)",
doneSectors + track.TrackStartSector,
doneSectors + sectorsToDo + track.TrackStartSector,
(doneSectors + track.TrackStartSector) / (double)inputFormat.Info.Sectors,
track.TrackSequence);
bool result;
if (useLong)
{
if (sectorsToDo == 1)
{
sector = inputFormat.ReadSectorLong(doneSectors + track.TrackStartSector);
result = outputFormat.WriteSectorLong(sector, doneSectors + track.TrackStartSector);
}
else
{
sector = inputFormat.ReadSectorsLong(doneSectors + track.TrackStartSector, sectorsToDo);
result = outputFormat.WriteSectorsLong(sector, doneSectors + track.TrackStartSector,
sectorsToDo);
}
}
else
{
if (sectorsToDo == 1)
{
sector = inputFormat.ReadSector(doneSectors + track.TrackStartSector);
result = outputFormat.WriteSector(sector, doneSectors + track.TrackStartSector);
}
else
{
sector = inputFormat.ReadSectors(doneSectors + track.TrackStartSector, sectorsToDo);
result = outputFormat.WriteSectors(sector, doneSectors + track.TrackStartSector,
sectorsToDo);
}
}
if (!result)
{
if (options.Force)
{
DicConsole.ErrorWriteLine("Error {0} writing sector {1}, continuing...",
outputFormat.ErrorMessage, doneSectors);
}
else
{
DicConsole.ErrorWriteLine("Error {0} writing sector {1}, not continuing...",
outputFormat.ErrorMessage, doneSectors);
return;
}
}
doneSectors += sectorsToDo;
}
}
DicConsole.Write("\rConverting sectors {0} to {1} in track {3} ({2:P2} done)", inputFormat.Info.Sectors,
inputFormat.Info.Sectors, 1.0, tracks.Count);
DicConsole.WriteLine();
foreach (SectorTagType tag in inputFormat.Info.ReadableSectorTags.OrderBy(t => t))
{
if (!useLong)
{
break;
}
switch (tag)
{
case SectorTagType.AppleSectorTag:
case SectorTagType.CdSectorSync:
case SectorTagType.CdSectorHeader:
case SectorTagType.CdSectorSubHeader:
case SectorTagType.CdSectorEdc:
case SectorTagType.CdSectorEccP:
case SectorTagType.CdSectorEccQ:
case SectorTagType.CdSectorEcc:
// This tags are inline in long sector
continue;
}
if (options.Force && !outputFormat.SupportedSectorTags.Contains(tag))
{
continue;
}
foreach (Track track in tracks)
{
doneSectors = 0;
ulong trackSectors = track.TrackEndSector - track.TrackStartSector + 1;
byte[] sector;
bool result;
switch (tag)
{
case SectorTagType.CdTrackFlags:
case SectorTagType.CdTrackIsrc:
DicConsole.Write("\rConverting tag {0} in track {1} ({2:P2} done).", tag,
track.TrackSequence, track.TrackSequence / (double)tracks.Count);
sector = inputFormat.ReadSectorTag(track.TrackStartSector, tag);
result = outputFormat.WriteSectorTag(sector, track.TrackStartSector, tag);
if (!result)
{
if (options.Force)
{
DicConsole.ErrorWriteLine("Error {0} writing tag, continuing...",
outputFormat.ErrorMessage);
}
else
{
DicConsole.ErrorWriteLine("Error {0} writing tag, not continuing...",
outputFormat.ErrorMessage);
return;
}
}
continue;
}
while (doneSectors < trackSectors)
{
uint sectorsToDo;
if (trackSectors - doneSectors >= (ulong)options.Count)
{
sectorsToDo = (uint)options.Count;
}
else
{
sectorsToDo =
(uint)(trackSectors - doneSectors);
}
DicConsole.Write("\rConverting tag {4} for sectors {0} to {1} in track {3} ({2:P2} done)",
doneSectors + track.TrackStartSector,
doneSectors + sectorsToDo + track.TrackStartSector,
(doneSectors + track.TrackStartSector) / (double)inputFormat.Info.Sectors,
track.TrackSequence, tag);
if (sectorsToDo == 1)
{
sector = inputFormat.ReadSectorTag(doneSectors + track.TrackStartSector, tag);
result = outputFormat.WriteSectorTag(sector, doneSectors + track.TrackStartSector, tag);
}
else
{
sector = inputFormat.ReadSectorsTag(doneSectors + track.TrackStartSector, sectorsToDo,
tag);
result = outputFormat.WriteSectorsTag(sector, doneSectors + track.TrackStartSector,
sectorsToDo, tag);
}
if (!result)
{
if (options.Force)
{
DicConsole.ErrorWriteLine("Error {0} writing tag for sector {1}, continuing...",
outputFormat.ErrorMessage, doneSectors);
}
else
{
DicConsole.ErrorWriteLine("Error {0} writing tag for sector {1}, not continuing...",
outputFormat.ErrorMessage, doneSectors);
return;
}
}
doneSectors += sectorsToDo;
}
}
switch (tag)
{
case SectorTagType.CdTrackFlags:
case SectorTagType.CdTrackIsrc:
DicConsole.Write("\rConverting tag {0} in track {1} ({2:P2} done).", tag, tracks.Count,
1.0);
break;
default:
DicConsole.Write("\rConverting tag {4} for sectors {0} to {1} in track {3} ({2:P2} done)",
inputFormat.Info.Sectors, inputFormat.Info.Sectors, 1.0, tracks.Count,
tag);
break;
}
DicConsole.WriteLine();
}
}
bool ret = false;
if (resume != null || dumpHardware != null)
{
if (resume != null)
{
ret = outputFormat.SetDumpHardware(resume.Tries);
}
else if (dumpHardware != null)
{
ret = outputFormat.SetDumpHardware(dumpHardware);
}
if (ret)
{
DicConsole.WriteLine("Written dump hardware list to output image.");
}
}
ret = false;
if (sidecar != null || cicmMetadata != null)
{
if (sidecar != null)
{
ret = outputFormat.SetCicmMetadata(sidecar);
}
else if (cicmMetadata != null)
{
ret = outputFormat.SetCicmMetadata(cicmMetadata);
}
if (ret)
{
DicConsole.WriteLine("Written CICM XML metadata to output image.");
}
}
DicConsole.WriteLine("Closing output image.");
if (!outputFormat.Close())
{
DicConsole.ErrorWriteLine("Error {0} closing output image... Contents are not correct.",
outputFormat.ErrorMessage);
}
DicConsole.WriteLine();
DicConsole.WriteLine("Conversion done.");
Core.Statistics.AddCommand("convert-image");
}
/// <summary>
/// Dumps an Xbox Game Disc using a Kreon drive
/// </summary>
/// <param name="dev">Device</param>
/// <param name="devicePath">Path to the device</param>
/// <param name="outputPrefix">Prefix for output data files</param>
/// <param name="outputPlugin">Plugin for output file</param>
/// <param name="retryPasses">How many times to retry</param>
/// <param name="force">Force to continue dump whenever possible</param>
/// <param name="dumpRaw">Dump raw/long sectors</param>
/// <param name="persistent">Store whatever data the drive returned on error</param>
/// <param name="stopOnError">Stop dump on first error</param>
/// <param name="resume">Information for dump resuming</param>
/// <param name="dumpLog">Dump logger</param>
/// <param name="encoding">Encoding to use when analyzing dump</param>
/// <param name="mediaTags">Media tags as retrieved in MMC layer</param>
/// <param name="dskType">Disc type as detected in MMC layer</param>
/// <param name="outputPath">Path to output file</param>
/// <param name="formatOptions">Formats to pass to output file plugin</param>
/// <exception cref="InvalidOperationException">
/// If the provided resume does not correspond with the current in progress
/// dump
/// </exception>
internal static void Dump(Device dev, string devicePath,
IWritableImage outputPlugin, ushort retryPasses,
bool force, bool dumpRaw,
bool persistent, bool stopOnError,
Dictionary <MediaTagType, byte[]> mediaTags, ref MediaType dskType,
ref Resume resume,
ref DumpLog dumpLog, Encoding encoding,
string outputPrefix, string outputPath,
Dictionary <string, string> formatOptions, CICMMetadataType preSidecar,
uint skip,
bool nometadata, bool notrim)
{
bool sense;
ulong blocks;
const uint BLOCK_SIZE = 2048;
uint blocksToRead = 64;
DateTime start;
DateTime end;
double totalDuration = 0;
double currentSpeed = 0;
double maxSpeed = double.MinValue;
double minSpeed = double.MaxValue;
bool aborted = false;
System.Console.CancelKeyPress += (sender, e) => e.Cancel = aborted = true;
if (mediaTags.ContainsKey(MediaTagType.DVD_PFI))
{
mediaTags.Remove(MediaTagType.DVD_PFI);
}
if (mediaTags.ContainsKey(MediaTagType.DVD_DMI))
{
mediaTags.Remove(MediaTagType.DVD_DMI);
}
dumpLog.WriteLine("Reading Xbox Security Sector.");
sense = dev.KreonExtractSs(out byte[] ssBuf, out byte[] senseBuf, dev.Timeout, out _);
if (sense)
{
dumpLog.WriteLine("Cannot get Xbox Security Sector, not continuing.");
DicConsole.ErrorWriteLine("Cannot get Xbox Security Sector, not continuing.");
return;
}
dumpLog.WriteLine("Decoding Xbox Security Sector.");
SS.SecuritySector?xboxSs = SS.Decode(ssBuf);
if (!xboxSs.HasValue)
{
dumpLog.WriteLine("Cannot decode Xbox Security Sector, not continuing.");
DicConsole.ErrorWriteLine("Cannot decode Xbox Security Sector, not continuing.");
return;
}
byte[] tmpBuf = new byte[ssBuf.Length - 4];
Array.Copy(ssBuf, 4, tmpBuf, 0, ssBuf.Length - 4);
mediaTags.Add(MediaTagType.Xbox_SecuritySector, tmpBuf);
ulong l0Video, l1Video, middleZone, gameSize, totalSize, layerBreak;
// Get video partition size
DicConsole.DebugWriteLine("Dump-media command", "Getting video partition size");
dumpLog.WriteLine("Locking drive.");
sense = dev.KreonLock(out senseBuf, dev.Timeout, out _);
if (sense)
{
dumpLog.WriteLine("Cannot lock drive, not continuing.");
DicConsole.ErrorWriteLine("Cannot lock drive, not continuing.");
return;
}
dumpLog.WriteLine("Getting video partition size.");
sense = dev.ReadCapacity(out byte[] readBuffer, out senseBuf, dev.Timeout, out _);
if (sense)
{
dumpLog.WriteLine("Cannot get disc capacity.");
DicConsole.ErrorWriteLine("Cannot get disc capacity.");
return;
}
totalSize = (ulong)((readBuffer[0] << 24) + (readBuffer[1] << 16) + (readBuffer[2] << 8) + readBuffer[3]);
dumpLog.WriteLine("Reading Physical Format Information.");
sense = dev.ReadDiscStructure(out readBuffer, out senseBuf, MmcDiscStructureMediaType.Dvd, 0, 0,
MmcDiscStructureFormat.PhysicalInformation, 0, 0, out _);
if (sense)
{
dumpLog.WriteLine("Cannot get PFI.");
DicConsole.ErrorWriteLine("Cannot get PFI.");
return;
}
tmpBuf = new byte[readBuffer.Length - 4];
Array.Copy(readBuffer, 4, tmpBuf, 0, readBuffer.Length - 4);
mediaTags.Add(MediaTagType.DVD_PFI, tmpBuf);
DicConsole.DebugWriteLine("Dump-media command", "Video partition total size: {0} sectors", totalSize);
l0Video = PFI.Decode(readBuffer).Value.Layer0EndPSN - PFI.Decode(readBuffer).Value.DataAreaStartPSN + 1;
l1Video = totalSize - l0Video + 1;
dumpLog.WriteLine("Reading Disc Manufacturing Information.");
sense = dev.ReadDiscStructure(out readBuffer, out senseBuf, MmcDiscStructureMediaType.Dvd, 0, 0,
MmcDiscStructureFormat.DiscManufacturingInformation, 0, 0, out _);
if (sense)
{
dumpLog.WriteLine("Cannot get DMI.");
DicConsole.ErrorWriteLine("Cannot get DMI.");
return;
}
tmpBuf = new byte[readBuffer.Length - 4];
Array.Copy(readBuffer, 4, tmpBuf, 0, readBuffer.Length - 4);
mediaTags.Add(MediaTagType.DVD_DMI, tmpBuf);
// Get game partition size
DicConsole.DebugWriteLine("Dump-media command", "Getting game partition size");
dumpLog.WriteLine("Unlocking drive (Xtreme).");
sense = dev.KreonUnlockXtreme(out senseBuf, dev.Timeout, out _);
if (sense)
{
dumpLog.WriteLine("Cannot unlock drive, not continuing.");
DicConsole.ErrorWriteLine("Cannot unlock drive, not continuing.");
return;
}
dumpLog.WriteLine("Getting game partition size.");
sense = dev.ReadCapacity(out readBuffer, out senseBuf, dev.Timeout, out _);
if (sense)
{
dumpLog.WriteLine("Cannot get disc capacity.");
DicConsole.ErrorWriteLine("Cannot get disc capacity.");
return;
}
gameSize = (ulong)((readBuffer[0] << 24) + (readBuffer[1] << 16) + (readBuffer[2] << 8) + readBuffer[3]) +
1;
DicConsole.DebugWriteLine("Dump-media command", "Game partition total size: {0} sectors", gameSize);
// Get middle zone size
DicConsole.DebugWriteLine("Dump-media command", "Getting middle zone size");
dumpLog.WriteLine("Unlocking drive (Wxripper).");
sense = dev.KreonUnlockWxripper(out senseBuf, dev.Timeout, out _);
if (sense)
{
dumpLog.WriteLine("Cannot unlock drive, not continuing.");
DicConsole.ErrorWriteLine("Cannot unlock drive, not continuing.");
return;
}
dumpLog.WriteLine("Getting disc size.");
sense = dev.ReadCapacity(out readBuffer, out senseBuf, dev.Timeout, out _);
if (sense)
{
dumpLog.WriteLine("Cannot get disc capacity.");
DicConsole.ErrorWriteLine("Cannot get disc capacity.");
return;
}
totalSize = (ulong)((readBuffer[0] << 24) + (readBuffer[1] << 16) + (readBuffer[2] << 8) + readBuffer[3]);
dumpLog.WriteLine("Reading Physical Format Information.");
sense = dev.ReadDiscStructure(out readBuffer, out senseBuf, MmcDiscStructureMediaType.Dvd, 0, 0,
MmcDiscStructureFormat.PhysicalInformation, 0, 0, out _);
if (sense)
{
dumpLog.WriteLine("Cannot get PFI.");
DicConsole.ErrorWriteLine("Cannot get PFI.");
return;
}
DicConsole.DebugWriteLine("Dump-media command", "Unlocked total size: {0} sectors", totalSize);
blocks = totalSize + 1;
middleZone =
totalSize - (PFI.Decode(readBuffer).Value.Layer0EndPSN -
PFI.Decode(readBuffer).Value.DataAreaStartPSN +
1) - gameSize + 1;
tmpBuf = new byte[readBuffer.Length - 4];
Array.Copy(readBuffer, 4, tmpBuf, 0, readBuffer.Length - 4);
mediaTags.Add(MediaTagType.Xbox_PFI, tmpBuf);
dumpLog.WriteLine("Reading Disc Manufacturing Information.");
sense = dev.ReadDiscStructure(out readBuffer, out senseBuf, MmcDiscStructureMediaType.Dvd, 0, 0,
MmcDiscStructureFormat.DiscManufacturingInformation, 0, 0, out _);
if (sense)
{
dumpLog.WriteLine("Cannot get DMI.");
DicConsole.ErrorWriteLine("Cannot get DMI.");
return;
}
tmpBuf = new byte[readBuffer.Length - 4];
Array.Copy(readBuffer, 4, tmpBuf, 0, readBuffer.Length - 4);
mediaTags.Add(MediaTagType.Xbox_DMI, tmpBuf);
totalSize = l0Video + l1Video + middleZone * 2 + gameSize;
layerBreak = l0Video + middleZone + gameSize / 2;
DicConsole.WriteLine("Video layer 0 size: {0} sectors", l0Video);
DicConsole.WriteLine("Video layer 1 size: {0} sectors", l1Video);
DicConsole.WriteLine("Middle zone size: {0} sectors", middleZone);
DicConsole.WriteLine("Game data size: {0} sectors", gameSize);
DicConsole.WriteLine("Total size: {0} sectors", totalSize);
DicConsole.WriteLine("Real layer break: {0}", layerBreak);
DicConsole.WriteLine();
dumpLog.WriteLine("Video layer 0 size: {0} sectors", l0Video);
dumpLog.WriteLine("Video layer 1 size: {0} sectors", l1Video);
dumpLog.WriteLine("Middle zone 0 size: {0} sectors", middleZone);
dumpLog.WriteLine("Game data 0 size: {0} sectors", gameSize);
dumpLog.WriteLine("Total 0 size: {0} sectors", totalSize);
dumpLog.WriteLine("Real layer break: {0}", layerBreak);
bool read12 = !dev.Read12(out readBuffer, out senseBuf, 0, false, true, false, false, 0, BLOCK_SIZE, 0, 1,
false, dev.Timeout, out _);
if (!read12)
{
dumpLog.WriteLine("Cannot read medium, aborting scan...");
DicConsole.ErrorWriteLine("Cannot read medium, aborting scan...");
return;
}
dumpLog.WriteLine("Using SCSI READ (12) command.");
DicConsole.WriteLine("Using SCSI READ (12) command.");
while (true)
{
if (read12)
{
sense = dev.Read12(out readBuffer, out senseBuf, 0, false, false, false, false, 0, BLOCK_SIZE, 0,
blocksToRead, false, dev.Timeout, out _);
if (sense || dev.Error)
{
blocksToRead /= 2;
}
}
if (!dev.Error || blocksToRead == 1)
{
break;
}
}
if (dev.Error)
{
dumpLog.WriteLine("Device error {0} trying to guess ideal transfer length.", dev.LastError);
DicConsole.ErrorWriteLine("Device error {0} trying to guess ideal transfer length.", dev.LastError);
return;
}
if (skip < blocksToRead)
{
skip = blocksToRead;
}
bool ret = true;
foreach (MediaTagType tag in mediaTags.Keys)
{
if (outputPlugin.SupportedMediaTags.Contains(tag))
{
continue;
}
ret = false;
dumpLog.WriteLine($"Output format does not support {tag}.");
DicConsole.ErrorWriteLine($"Output format does not support {tag}.");
}
if (!ret)
{
dumpLog.WriteLine("Several media tags not supported, {0}continuing...", force ? "" : "not ");
DicConsole.ErrorWriteLine("Several media tags not supported, {0}continuing...", force ? "" : "not ");
if (!force)
{
return;
}
}
dumpLog.WriteLine("Reading {0} sectors at a time.", blocksToRead);
DicConsole.WriteLine("Reading {0} sectors at a time.", blocksToRead);
MhddLog mhddLog = new MhddLog(outputPrefix + ".mhddlog.bin", dev, blocks, BLOCK_SIZE, blocksToRead);
IbgLog ibgLog = new IbgLog(outputPrefix + ".ibg", 0x0010);
ret = outputPlugin.Create(outputPath, dskType, formatOptions, blocks, BLOCK_SIZE);
// Cannot create image
if (!ret)
{
dumpLog.WriteLine("Error creating output image, not continuing.");
dumpLog.WriteLine(outputPlugin.ErrorMessage);
DicConsole.ErrorWriteLine("Error creating output image, not continuing.");
DicConsole.ErrorWriteLine(outputPlugin.ErrorMessage);
return;
}
start = DateTime.UtcNow;
double imageWriteDuration = 0;
double cmdDuration = 0;
uint saveBlocksToRead = blocksToRead;
DumpHardwareType currentTry = null;
ExtentsULong extents = null;
ResumeSupport.Process(true, true, totalSize, dev.Manufacturer, dev.Model, dev.Serial, dev.PlatformId,
ref resume, ref currentTry, ref extents);
if (currentTry == null || extents == null)
{
throw new NotImplementedException("Could not process resume file, not continuing...");
}
outputPlugin.SetTracks(new List <Track>
{
new Track
{
TrackBytesPerSector = (int)BLOCK_SIZE,
TrackEndSector = blocks - 1,
TrackSequence = 1,
TrackRawBytesPerSector = (int)BLOCK_SIZE,
TrackSubchannelType = TrackSubchannelType.None,
TrackSession = 1,
TrackType = TrackType.Data
}
});
ulong currentSector = resume.NextBlock;
if (resume.NextBlock > 0)
{
dumpLog.WriteLine("Resuming from block {0}.", resume.NextBlock);
}
bool newTrim = false;
dumpLog.WriteLine("Reading game partition.");
for (int e = 0; e <= 16; e++)
{
if (aborted)
{
resume.NextBlock = currentSector;
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
dumpLog.WriteLine("Aborted!");
break;
}
if (currentSector >= blocks)
{
break;
}
ulong extentStart, extentEnd;
// Extents
if (e < 16)
{
if (xboxSs.Value.Extents[e].StartPSN <= xboxSs.Value.Layer0EndPSN)
{
extentStart = xboxSs.Value.Extents[e].StartPSN - 0x30000;
}
else
{
extentStart = (xboxSs.Value.Layer0EndPSN + 1) * 2 -
((xboxSs.Value.Extents[e].StartPSN ^ 0xFFFFFF) + 1) - 0x30000;
}
if (xboxSs.Value.Extents[e].EndPSN <= xboxSs.Value.Layer0EndPSN)
{
extentEnd = xboxSs.Value.Extents[e].EndPSN - 0x30000;
}
else
{
extentEnd = (xboxSs.Value.Layer0EndPSN + 1) * 2 -
((xboxSs.Value.Extents[e].EndPSN ^ 0xFFFFFF) + 1) - 0x30000;
}
}
// After last extent
else
{
extentStart = blocks;
extentEnd = blocks;
}
if (currentSector > extentEnd)
{
continue;
}
for (ulong i = currentSector; i < extentStart; i += blocksToRead)
{
saveBlocksToRead = blocksToRead;
if (aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
dumpLog.WriteLine("Aborted!");
break;
}
if (extentStart - i < blocksToRead)
{
blocksToRead = (uint)(extentStart - 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
DicConsole.Write("\rReading sector {0} of {1} ({2:F3} MiB/sec.)", i, totalSize, currentSpeed);
sense = dev.Read12(out readBuffer, out senseBuf, 0, false, false, false, false, (uint)i, BLOCK_SIZE,
0, blocksToRead, false, dev.Timeout, out 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[BLOCK_SIZE * skip], i, skip);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
for (ulong b = i; b < i + skip; b++)
{
resume.BadBlocks.Add(b);
}
DicConsole.DebugWriteLine("Dump-Media", "READ error:\n{0}", Sense.PrettifySense(senseBuf));
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;
string[] senseLines = Sense.PrettifySense(senseBuf).Split(new[] { Environment.NewLine },
StringSplitOptions
.RemoveEmptyEntries);
foreach (string senseLine in senseLines)
{
dumpLog.WriteLine(senseLine);
}
newTrim = true;
}
double newSpeed =
(double)BLOCK_SIZE * blocksToRead / 1048576 / (cmdDuration / 1000);
if (!double.IsInfinity(newSpeed))
{
currentSpeed = newSpeed;
}
blocksToRead = saveBlocksToRead;
currentSector = i + 1;
resume.NextBlock = currentSector;
}
for (ulong i = extentStart; i <= extentEnd; i += blocksToRead)
{
saveBlocksToRead = blocksToRead;
if (aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
dumpLog.WriteLine("Aborted!");
break;
}
if (extentEnd - i < blocksToRead)
{
blocksToRead = (uint)(extentEnd - i) + 1;
}
mhddLog.Write(i, cmdDuration);
ibgLog.Write(i, currentSpeed * 1024);
// Write empty data
DateTime writeStart = DateTime.Now;
outputPlugin.WriteSectors(new byte[BLOCK_SIZE * blocksToRead], i, blocksToRead);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
blocksToRead = saveBlocksToRead;
extents.Add(i, blocksToRead, true);
currentSector = i + 1;
resume.NextBlock = currentSector;
}
if (!aborted)
{
currentSector = extentEnd + 1;
}
}
// Middle Zone D
dumpLog.WriteLine("Writing Middle Zone D (empty).");
for (ulong middle = currentSector - blocks - 1; middle < middleZone - 1; middle += blocksToRead)
{
if (aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
dumpLog.WriteLine("Aborted!");
break;
}
if (middleZone - 1 - middle < blocksToRead)
{
blocksToRead = (uint)(middleZone - 1 - middle);
}
DicConsole.Write("\rReading sector {0} of {1} ({2:F3} MiB/sec.)", middle + currentSector, totalSize,
currentSpeed);
mhddLog.Write(middle + currentSector, cmdDuration);
ibgLog.Write(middle + currentSector, currentSpeed * 1024);
// Write empty data
DateTime writeStart = DateTime.Now;
outputPlugin.WriteSectors(new byte[BLOCK_SIZE * blocksToRead], middle + currentSector, blocksToRead);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
extents.Add(currentSector, blocksToRead, true);
currentSector += blocksToRead;
resume.NextBlock = currentSector;
}
blocksToRead = saveBlocksToRead;
dumpLog.WriteLine("Locking drive.");
sense = dev.KreonLock(out senseBuf, dev.Timeout, out _);
if (sense)
{
dumpLog.WriteLine("Cannot lock drive, not continuing.");
DicConsole.ErrorWriteLine("Cannot lock drive, not continuing.");
return;
}
sense = dev.ReadCapacity(out readBuffer, out senseBuf, dev.Timeout, out _);
if (sense)
{
DicConsole.ErrorWriteLine("Cannot get disc capacity.");
return;
}
// Video Layer 1
dumpLog.WriteLine("Reading Video Layer 1.");
for (ulong l1 = currentSector - blocks - middleZone + l0Video; l1 < l0Video + l1Video; l1 += blocksToRead)
{
if (aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
dumpLog.WriteLine("Aborted!");
break;
}
if (l0Video + l1Video - l1 < blocksToRead)
{
blocksToRead = (uint)(l0Video + l1Video - l1);
}
#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
DicConsole.Write("\rReading sector {0} of {1} ({2:F3} MiB/sec.)", currentSector, totalSize,
currentSpeed);
sense = dev.Read12(out readBuffer, out senseBuf, 0, false, false, false, false, (uint)l1, BLOCK_SIZE, 0,
blocksToRead, false, dev.Timeout, out cmdDuration);
totalDuration += cmdDuration;
if (!sense && !dev.Error)
{
mhddLog.Write(currentSector, cmdDuration);
ibgLog.Write(currentSector, currentSpeed * 1024);
DateTime writeStart = DateTime.Now;
outputPlugin.WriteSectors(readBuffer, currentSector, blocksToRead);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
extents.Add(currentSector, blocksToRead, true);
}
else
{
// TODO: Reset device after X errors
if (stopOnError)
{
return; // TODO: Return more cleanly
}
// Write empty data
DateTime writeStart = DateTime.Now;
outputPlugin.WriteSectors(new byte[BLOCK_SIZE * skip], currentSector, skip);
imageWriteDuration += (DateTime.Now - writeStart).TotalSeconds;
// TODO: Handle errors in video partition
//errored += blocksToRead;
//resume.BadBlocks.Add(l1);
DicConsole.DebugWriteLine("Dump-Media", "READ error:\n{0}", Sense.PrettifySense(senseBuf));
mhddLog.Write(l1, cmdDuration < 500 ? 65535 : cmdDuration);
ibgLog.Write(l1, 0);
dumpLog.WriteLine("Skipping {0} blocks from errored block {1}.", skip, l1);
l1 += skip - blocksToRead;
string[] senseLines = Sense.PrettifySense(senseBuf).Split(new[] { Environment.NewLine },
StringSplitOptions.RemoveEmptyEntries);
foreach (string senseLine in senseLines)
{
dumpLog.WriteLine(senseLine);
}
}
double newSpeed =
(double)BLOCK_SIZE * blocksToRead / 1048576 / (cmdDuration / 1000);
if (!double.IsInfinity(newSpeed))
{
currentSpeed = newSpeed;
}
currentSector += blocksToRead;
resume.NextBlock = currentSector;
}
dumpLog.WriteLine("Unlocking drive (Wxripper).");
sense = dev.KreonUnlockWxripper(out senseBuf, dev.Timeout, out _);
if (sense)
{
dumpLog.WriteLine("Cannot unlock drive, not continuing.");
DicConsole.ErrorWriteLine("Cannot unlock drive, not continuing.");
return;
}
sense = dev.ReadCapacity(out readBuffer, out senseBuf, dev.Timeout, out _);
if (sense)
{
DicConsole.ErrorWriteLine("Cannot get disc capacity.");
return;
}
end = DateTime.UtcNow;
DicConsole.WriteLine();
mhddLog.Close();
ibgLog.Close(dev, blocks, BLOCK_SIZE, (end - start).TotalSeconds, currentSpeed * 1024,
BLOCK_SIZE * (double)(blocks + 1) / 1024 / (totalDuration / 1000),
devicePath);
dumpLog.WriteLine("Dump finished in {0} seconds.", (end - start).TotalSeconds);
dumpLog.WriteLine("Average dump speed {0:F3} KiB/sec.",
(double)BLOCK_SIZE * (double)(blocks + 1) / 1024 / (totalDuration / 1000));
dumpLog.WriteLine("Average write speed {0:F3} KiB/sec.",
(double)BLOCK_SIZE * (double)(blocks + 1) / 1024 / imageWriteDuration);
#region Trimming
if (resume.BadBlocks.Count > 0 && !aborted && !notrim && newTrim)
{
start = DateTime.UtcNow;
dumpLog.WriteLine("Trimming bad sectors");
ulong[] tmpArray = resume.BadBlocks.ToArray();
foreach (ulong badSector in tmpArray)
{
if (aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
dumpLog.WriteLine("Aborted!");
break;
}
DicConsole.Write("\rTrimming sector {0}", badSector);
sense = dev.Read12(out readBuffer, out senseBuf, 0, false, false, false, false, (uint)badSector,
BLOCK_SIZE, 0, 1, false, dev.Timeout, out cmdDuration);
totalDuration += cmdDuration;
if (sense || dev.Error)
{
continue;
}
resume.BadBlocks.Remove(badSector);
extents.Add(badSector);
outputPlugin.WriteSector(readBuffer, badSector);
}
DicConsole.WriteLine();
end = DateTime.UtcNow;
dumpLog.WriteLine("Trimmming finished in {0} seconds.", (end - start).TotalSeconds);
}
#endregion Trimming
#region Error handling
if (resume.BadBlocks.Count > 0 && !aborted && retryPasses > 0)
{
List <ulong> tmpList = new List <ulong>();
foreach (ulong ur in resume.BadBlocks)
{
for (ulong i = ur; i < ur + blocksToRead; i++)
{
tmpList.Add(i);
}
}
tmpList.Sort();
int pass = 1;
bool forward = true;
bool runningPersistent = false;
resume.BadBlocks = tmpList;
Modes.ModePage?currentModePage = null;
byte[] md6;
byte[] md10;
if (persistent)
{
Modes.ModePage_01_MMC pgMmc;
sense = dev.ModeSense6(out readBuffer, out _, false, ScsiModeSensePageControl.Current, 0x01,
dev.Timeout, out _);
if (sense)
{
sense = dev.ModeSense10(out readBuffer, out _, false, ScsiModeSensePageControl.Current,
0x01, dev.Timeout, out _);
if (!sense)
{
Modes.DecodedMode?dcMode10 =
Modes.DecodeMode10(readBuffer, PeripheralDeviceTypes.MultiMediaDevice);
if (dcMode10.HasValue)
{
foreach (Modes.ModePage modePage in dcMode10.Value.Pages)
{
if (modePage.Page == 0x01 && modePage.Subpage == 0x00)
{
currentModePage = modePage;
}
}
}
}
}
else
{
Modes.DecodedMode?dcMode6 =
Modes.DecodeMode6(readBuffer, PeripheralDeviceTypes.MultiMediaDevice);
if (dcMode6.HasValue)
{
foreach (Modes.ModePage modePage in dcMode6.Value.Pages)
{
if (modePage.Page == 0x01 && modePage.Subpage == 0x00)
{
currentModePage = modePage;
}
}
}
}
if (currentModePage == null)
{
pgMmc =
new Modes.ModePage_01_MMC {
PS = false, ReadRetryCount = 0x20, Parameter = 0x00
};
currentModePage = new Modes.ModePage
{
Page = 0x01,
Subpage = 0x00,
PageResponse = Modes.EncodeModePage_01_MMC(pgMmc)
};
}
pgMmc =
new Modes.ModePage_01_MMC {
PS = false, ReadRetryCount = 255, Parameter = 0x20
};
Modes.DecodedMode md = new Modes.DecodedMode
{
Header = new Modes.ModeHeader(),
Pages = new[]
{
new Modes.ModePage
{
Page = 0x01,
Subpage = 0x00,
PageResponse = Modes.EncodeModePage_01_MMC(pgMmc)
}
}
};
md6 = Modes.EncodeMode6(md, dev.ScsiType);
md10 = Modes.EncodeMode10(md, dev.ScsiType);
dumpLog.WriteLine("Sending MODE SELECT to drive (return damaged blocks).");
sense = dev.ModeSelect(md6, out senseBuf, true, false, dev.Timeout, out _);
if (sense)
{
sense = dev.ModeSelect10(md10, out senseBuf, true, false, dev.Timeout, out _);
}
if (sense)
{
DicConsole
.WriteLine("Drive did not accept MODE SELECT command for persistent error reading, try another drive.");
DicConsole.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;
}
}
repeatRetry:
ulong[] tmpArray = resume.BadBlocks.ToArray();
foreach (ulong badSector in tmpArray)
{
if (aborted)
{
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
dumpLog.WriteLine("Aborted!");
break;
}
DicConsole.Write("\rRetrying sector {0}, pass {1}, {3}{2}", badSector, pass,
forward ? "forward" : "reverse",
runningPersistent ? "recovering partial data, " : "");
sense = dev.Read12(out readBuffer, out senseBuf, 0, false, false, false, false, (uint)badSector,
BLOCK_SIZE, 0, 1, false, dev.Timeout, out cmdDuration);
totalDuration += cmdDuration;
if (!sense && !dev.Error)
{
resume.BadBlocks.Remove(badSector);
extents.Add(badSector);
outputPlugin.WriteSector(readBuffer, badSector);
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();
resume.BadBlocks.Reverse();
goto repeatRetry;
}
if (runningPersistent && currentModePage.HasValue)
{
Modes.DecodedMode md = new Modes.DecodedMode
{
Header = new Modes.ModeHeader(),
Pages = new[] { currentModePage.Value }
};
md6 = Modes.EncodeMode6(md, dev.ScsiType);
md10 = Modes.EncodeMode10(md, dev.ScsiType);
dumpLog.WriteLine("Sending MODE SELECT to drive (return device to previous status).");
sense = dev.ModeSelect(md6, out senseBuf, true, false, dev.Timeout, out _);
if (sense)
{
dev.ModeSelect10(md10, out senseBuf, true, false, dev.Timeout, out _);
}
}
DicConsole.WriteLine();
}
#endregion Error handling
resume.BadBlocks.Sort();
currentTry.Extents = ExtentsConverter.ToMetadata(extents);
foreach (KeyValuePair <MediaTagType, byte[]> tag in mediaTags)
{
ret = outputPlugin.WriteMediaTag(tag.Value, tag.Key);
if (ret || force)
{
continue;
}
// Cannot write tag to image
dumpLog.WriteLine($"Cannot write tag {tag.Key}.");
throw new ArgumentException(outputPlugin.ErrorMessage);
}
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);
if (preSidecar != null)
{
outputPlugin.SetCicmMetadata(preSidecar);
}
dumpLog.WriteLine("Closing output file.");
DicConsole.WriteLine("Closing output file.");
DateTime closeStart = DateTime.Now;
outputPlugin.Close();
DateTime closeEnd = DateTime.Now;
dumpLog.WriteLine("Closed in {0} seconds.", (closeEnd - closeStart).TotalSeconds);
if (aborted)
{
dumpLog.WriteLine("Aborted!");
return;
}
double totalChkDuration = 0;
if (!nometadata)
{
dumpLog.WriteLine("Creating sidecar.");
FiltersList filters = new FiltersList();
IFilter filter = filters.GetFilter(outputPath);
IMediaImage inputPlugin = ImageFormat.Detect(filter);
if (!inputPlugin.Open(filter))
{
throw new ArgumentException("Could not open created image.");
}
DateTime chkStart = DateTime.UtcNow;
CICMMetadataType sidecar = Sidecar.Create(inputPlugin, outputPath, filter.Id, encoding);
end = DateTime.UtcNow;
if (preSidecar != null)
{
preSidecar.OpticalDisc = sidecar.OpticalDisc;
sidecar = preSidecar;
}
totalChkDuration = (end - chkStart).TotalMilliseconds;
dumpLog.WriteLine("Sidecar created in {0} seconds.", (end - chkStart).TotalSeconds);
dumpLog.WriteLine("Average checksum speed {0:F3} KiB/sec.",
(double)BLOCK_SIZE * (double)(blocks + 1) / 1024 / (totalChkDuration / 1000));
foreach (KeyValuePair <MediaTagType, byte[]> tag in mediaTags)
{
Mmc.AddMediaTagToSidecar(outputPath, tag, ref sidecar);
}
List <(ulong start, string type)> filesystems = new List <(ulong start, string type)>();
if (sidecar.OpticalDisc[0].Track != null)
{
filesystems.AddRange(from xmlTrack in sidecar.OpticalDisc[0].Track
where xmlTrack.FileSystemInformation != null
from partition in xmlTrack.FileSystemInformation
where partition.FileSystems != null
from fileSystem in partition.FileSystems
select((ulong)partition.StartSector, fileSystem.Type));
}
if (filesystems.Count > 0)
{
foreach (var filesystem in filesystems.Select(o => new { o.start, o.type }).Distinct())
{
dumpLog.WriteLine("Found filesystem {0} at sector {1}", filesystem.type, filesystem.start);
}
}
sidecar.OpticalDisc[0].Layers = new LayersType
{
type = LayersTypeType.OTP,
typeSpecified = true,
Sectors = new SectorsType[1]
};
sidecar.OpticalDisc[0].Layers.Sectors[0] = new SectorsType {
Value = (long)layerBreak
};
sidecar.OpticalDisc[0].Sessions = 1;
sidecar.OpticalDisc[0].Dimensions = Dimensions.DimensionsFromMediaType(dskType);
Metadata.MediaType.MediaTypeToString(dskType, out string xmlDskTyp, out string xmlDskSubTyp);
sidecar.OpticalDisc[0].DiscType = xmlDskTyp;
sidecar.OpticalDisc[0].DiscSubType = xmlDskSubTyp;
foreach (KeyValuePair <MediaTagType, byte[]> tag in mediaTags)
{
if (outputPlugin.SupportedMediaTags.Contains(tag.Key))
{
Mmc.AddMediaTagToSidecar(outputPath, tag, ref sidecar);
}
}
DicConsole.WriteLine("Writing metadata sidecar");
FileStream xmlFs = new FileStream(outputPrefix + ".cicm.xml", FileMode.Create);
XmlSerializer xmlSer = new XmlSerializer(typeof(CICMMetadataType));
xmlSer.Serialize(xmlFs, sidecar);
xmlFs.Close();
}
DicConsole.WriteLine();
DicConsole.WriteLine("Took a total of {0:F3} seconds ({1:F3} processing commands, {2:F3} checksumming, {3:F3} writing, {4:F3} closing).",
(end - start).TotalSeconds, totalDuration / 1000,
totalChkDuration / 1000,
imageWriteDuration, (closeEnd - closeStart).TotalSeconds);
DicConsole.WriteLine("Avegare speed: {0:F3} MiB/sec.",
(double)BLOCK_SIZE * (double)(blocks + 1) / 1048576 / (totalDuration / 1000));
DicConsole.WriteLine("Fastest speed burst: {0:F3} MiB/sec.", maxSpeed);
DicConsole.WriteLine("Slowest speed burst: {0:F3} MiB/sec.", minSpeed);
DicConsole.WriteLine("{0} sectors could not be read.", resume.BadBlocks.Count);
DicConsole.WriteLine();
Statistics.AddMedia(dskType, true);
}
