static void DoScsiMediaInfo(bool debug, bool verbose, string outputPrefix, Devices.Device dev) { var scsiInfo = new ScsiInfo(dev); if (!scsiInfo.MediaInserted) { return; } if (scsiInfo.DeviceInfo.ScsiModeSense6 != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_scsi_modesense6.bin", "SCSI MODE SENSE (6)", scsiInfo.DeviceInfo.ScsiModeSense6); } if (scsiInfo.DeviceInfo.ScsiModeSense10 != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_scsi_modesense10.bin", "SCSI MODE SENSE (10)", scsiInfo.DeviceInfo.ScsiModeSense10); } switch (dev.ScsiType) { case PeripheralDeviceTypes.DirectAccess: case PeripheralDeviceTypes.MultiMediaDevice: case PeripheralDeviceTypes.OCRWDevice: case PeripheralDeviceTypes.OpticalDevice: case PeripheralDeviceTypes.SimplifiedDevice: case PeripheralDeviceTypes.WriteOnceDevice: if (scsiInfo.ReadCapacity != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readcapacity.bin", "SCSI READ CAPACITY", scsiInfo.ReadCapacity); } if (scsiInfo.ReadCapacity16 != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readcapacity16.bin", "SCSI READ CAPACITY(16)", scsiInfo.ReadCapacity16); } if (scsiInfo.Blocks != 0 && scsiInfo.BlockSize != 0) { AaruConsole.WriteLine("Media has {0} blocks of {1} bytes/each. (for a total of {2} bytes)", scsiInfo.Blocks, scsiInfo.BlockSize, scsiInfo.Blocks * scsiInfo.BlockSize); } break; case PeripheralDeviceTypes.SequentialAccess: if (scsiInfo.DensitySupport != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_ssc_reportdensitysupport_media.bin", "SSC REPORT DENSITY SUPPORT (MEDIA)", scsiInfo.DensitySupport); if (scsiInfo.DensitySupportHeader.HasValue) { AaruConsole.WriteLine("Densities supported by currently inserted media:"); AaruConsole.WriteLine(DensitySupport.PrettifyDensity(scsiInfo.DensitySupportHeader)); } } if (scsiInfo.MediaTypeSupport != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_ssc_reportdensitysupport_medium_media.bin", "SSC REPORT DENSITY SUPPORT (MEDIUM & MEDIA)", scsiInfo.MediaTypeSupport); if (scsiInfo.MediaTypeSupportHeader.HasValue) { AaruConsole.WriteLine("Medium types currently inserted in device:"); AaruConsole.WriteLine(DensitySupport.PrettifyMediumType(scsiInfo.MediaTypeSupportHeader)); } AaruConsole.WriteLine(DensitySupport.PrettifyMediumType(scsiInfo.MediaTypeSupport)); } break; } if (dev.ScsiType == PeripheralDeviceTypes.MultiMediaDevice) { if (scsiInfo.MmcConfiguration != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_getconfiguration_current.bin", "SCSI GET CONFIGURATION", scsiInfo.MmcConfiguration); } if (scsiInfo.RecognizedFormatLayers != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_formatlayers.bin", "SCSI READ DISC STRUCTURE", scsiInfo.RecognizedFormatLayers); } if (scsiInfo.WriteProtectionStatus != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_writeprotection.bin", "SCSI READ DISC STRUCTURE", scsiInfo.WriteProtectionStatus); } if (scsiInfo.DvdPfi != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_pfi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdPfi); if (scsiInfo.DecodedPfi.HasValue) { AaruConsole.WriteLine("PFI:\n{0}", PFI.Prettify(scsiInfo.DecodedPfi)); } } if (scsiInfo.DvdDmi != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_dmi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdDmi); if (DMI.IsXbox(scsiInfo.DvdDmi)) { AaruConsole.WriteLine("Xbox DMI:\n{0}", DMI.PrettifyXbox(scsiInfo.DvdDmi)); } else if (DMI.IsXbox360(scsiInfo.DvdDmi)) { AaruConsole.WriteLine("Xbox 360 DMI:\n{0}", DMI.PrettifyXbox360(scsiInfo.DvdDmi)); } } if (scsiInfo.DvdCmi != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_cmi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdCmi); AaruConsole.WriteLine("Lead-In CMI:\n{0}", CSS_CPRM.PrettifyLeadInCopyright(scsiInfo.DvdCmi)); } if (scsiInfo.DvdBca != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_bca.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdBca); } if (scsiInfo.DvdAacs != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_aacs.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdAacs); } if (scsiInfo.DvdRamDds != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdram_dds.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdRamDds); AaruConsole.WriteLine("Disc Definition Structure:\n{0}", DDS.Prettify(scsiInfo.DvdRamDds)); } if (scsiInfo.DvdRamCartridgeStatus != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdram_status.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdRamCartridgeStatus); AaruConsole.WriteLine("Medium Status:\n{0}", Cartridge.Prettify(scsiInfo.DvdRamCartridgeStatus)); } if (scsiInfo.DvdRamSpareArea != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdram_spare.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdRamSpareArea); AaruConsole.WriteLine("Spare Area Information:\n{0}", Spare.Prettify(scsiInfo.DvdRamSpareArea)); } if (scsiInfo.LastBorderOutRmd != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_lastrmd.bin", "SCSI READ DISC STRUCTURE", scsiInfo.LastBorderOutRmd); } if (scsiInfo.DvdPreRecordedInfo != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_pri.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdPreRecordedInfo); } if (scsiInfo.DvdrMediaIdentifier != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdr_mediaid.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrMediaIdentifier); } if (scsiInfo.DvdrPhysicalInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdr_pfi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrPhysicalInformation); } if (scsiInfo.DvdPlusAdip != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd+_adip.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdPlusAdip); } if (scsiInfo.DvdPlusDcb != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd+_dcb.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdPlusDcb); } if (scsiInfo.HddvdCopyrightInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_hddvd_cmi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.HddvdCopyrightInformation); } if (scsiInfo.HddvdrMediumStatus != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_hddvdr_status.bin", "SCSI READ DISC STRUCTURE", scsiInfo.HddvdrMediumStatus); } if (scsiInfo.HddvdrLastRmd != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_hddvdr_lastrmd.bin", "SCSI READ DISC STRUCTURE", scsiInfo.HddvdrLastRmd); } if (scsiInfo.DvdrLayerCapacity != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdr_layercap.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrLayerCapacity); } if (scsiInfo.DvdrDlMiddleZoneStart != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_mzs.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrDlMiddleZoneStart); } if (scsiInfo.DvdrDlJumpIntervalSize != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_jis.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrDlJumpIntervalSize); } if (scsiInfo.DvdrDlManualLayerJumpStartLba != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_manuallj.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrDlManualLayerJumpStartLba); } if (scsiInfo.DvdrDlRemapAnchorPoint != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_remapanchor.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrDlRemapAnchorPoint); } if (scsiInfo.BlurayDiscInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_di.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayDiscInformation); AaruConsole.WriteLine("Blu-ray Disc Information:\n{0}", DI.Prettify(scsiInfo.BlurayDiscInformation)); } if (scsiInfo.BlurayPac != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_pac.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayPac); } if (scsiInfo.BlurayBurstCuttingArea != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_bca.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayBurstCuttingArea); AaruConsole.WriteLine("Blu-ray Burst Cutting Area:\n{0}", BCA.Prettify(scsiInfo.BlurayBurstCuttingArea)); } if (scsiInfo.BlurayDds != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_dds.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayDds); AaruConsole.WriteLine("Blu-ray Disc Definition Structure:\n{0}", Decoders.Bluray.DDS.Prettify(scsiInfo.BlurayDds)); } if (scsiInfo.BlurayCartridgeStatus != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_cartstatus.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayCartridgeStatus); AaruConsole.WriteLine("Blu-ray Cartridge Status:\n{0}", Decoders.Bluray.Cartridge.Prettify(scsiInfo.BlurayCartridgeStatus)); } if (scsiInfo.BluraySpareAreaInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_spare.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BluraySpareAreaInformation); AaruConsole.WriteLine("Blu-ray Spare Area Information:\n{0}", Decoders.Bluray.Spare.Prettify(scsiInfo.BluraySpareAreaInformation)); } if (scsiInfo.BlurayRawDfl != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_dfl.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayRawDfl); } if (scsiInfo.BlurayTrackResources != null) { AaruConsole.WriteLine("Track Resources Information:\n{0}", DiscInformation.Prettify(scsiInfo.BlurayTrackResources)); DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscinformation_001b.bin", "SCSI READ DISC INFORMATION", scsiInfo.BlurayTrackResources); } if (scsiInfo.BlurayPowResources != null) { AaruConsole.WriteLine("POW Resources Information:\n{0}", DiscInformation.Prettify(scsiInfo.BlurayPowResources)); DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscinformation_010b.bin", "SCSI READ DISC INFORMATION", scsiInfo.BlurayPowResources); } if (scsiInfo.Toc != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_toc.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.Toc); if (scsiInfo.DecodedToc.HasValue) { AaruConsole.WriteLine("TOC:\n{0}", TOC.Prettify(scsiInfo.DecodedToc)); } } if (scsiInfo.Atip != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_atip.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.Atip); if (scsiInfo.DecodedAtip.HasValue) { AaruConsole.WriteLine("ATIP:\n{0}", ATIP.Prettify(scsiInfo.DecodedAtip)); } } if (scsiInfo.CompactDiscInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscinformation_000b.bin", "SCSI READ DISC INFORMATION", scsiInfo.CompactDiscInformation); if (scsiInfo.DecodedCompactDiscInformation.HasValue) { AaruConsole.WriteLine("Standard Disc Information:\n{0}", DiscInformation.Prettify000b(scsiInfo.DecodedCompactDiscInformation)); } } if (scsiInfo.Session != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_session.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.Session); if (scsiInfo.DecodedSession.HasValue) { AaruConsole.WriteLine("Session information:\n{0}", Session.Prettify(scsiInfo.DecodedSession)); } } if (scsiInfo.RawToc != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_rawtoc.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.RawToc); if (scsiInfo.FullToc.HasValue) { AaruConsole.WriteLine("Raw TOC:\n{0}", FullTOC.Prettify(scsiInfo.RawToc)); } } if (scsiInfo.Pma != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_pma.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.Pma); AaruConsole.WriteLine("PMA:\n{0}", PMA.Prettify(scsiInfo.Pma)); } if (scsiInfo.CdTextLeadIn != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_cdtext.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.CdTextLeadIn); if (scsiInfo.DecodedCdTextLeadIn.HasValue) { AaruConsole.WriteLine("CD-TEXT on Lead-In:\n{0}", CDTextOnLeadIn.Prettify(scsiInfo.DecodedCdTextLeadIn)); } } if (!string.IsNullOrEmpty(scsiInfo.Mcn)) { AaruConsole.WriteLine("MCN: {0}", scsiInfo.Mcn); } if (scsiInfo.Isrcs != null) { foreach (KeyValuePair <byte, string> isrc in scsiInfo.Isrcs) { AaruConsole.WriteLine("Track's {0} ISRC: {1}", isrc.Key, isrc.Value); } } if (scsiInfo.XboxSecuritySector != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_xbox_ss.bin", "KREON EXTRACT SS", scsiInfo.XboxSecuritySector); } if (scsiInfo.DecodedXboxSecuritySector.HasValue) { AaruConsole.WriteLine("Xbox Security Sector:\n{0}", SS.Prettify(scsiInfo.DecodedXboxSecuritySector)); } if (scsiInfo.XgdInfo != null) { AaruConsole.WriteLine("Video layer 0 size: {0} sectors", scsiInfo.XgdInfo.L0Video); AaruConsole.WriteLine("Video layer 1 size: {0} sectors", scsiInfo.XgdInfo.L1Video); AaruConsole.WriteLine("Middle zone size: {0} sectors", scsiInfo.XgdInfo.MiddleZone); AaruConsole.WriteLine("Game data size: {0} sectors", scsiInfo.XgdInfo.GameSize); AaruConsole.WriteLine("Total size: {0} sectors", scsiInfo.XgdInfo.TotalSize); AaruConsole.WriteLine("Real layer break: {0}", scsiInfo.XgdInfo.LayerBreak); AaruConsole.WriteLine(); } } if (scsiInfo.MediaSerialNumber != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_mediaserialnumber.bin", "SCSI READ MEDIA SERIAL NUMBER", scsiInfo.MediaSerialNumber); AaruConsole.Write("Media Serial Number: "); for (int i = 4; i < scsiInfo.MediaSerialNumber.Length; i++) { AaruConsole.Write("{0:X2}", scsiInfo.MediaSerialNumber[i]); } AaruConsole.WriteLine(); } AaruConsole.WriteLine("Media identified as {0}", scsiInfo.MediaType); Statistics.AddMedia(scsiInfo.MediaType, true); if (scsiInfo.Toc != null || scsiInfo.RawToc != null) { uint blockSize = 2352; Track[] tracks = Dump.GetCdTracks(ref blockSize, dev, scsiInfo.MediaType, null, false, out long lastSector, null, null, null, TrackSubchannelType.None, out _, null, null); if (tracks != null) { bool supportsPqSubchannel = Dump.SupportsPqSubchannel(dev, null, null); bool supportsRwSubchannel = Dump.SupportsRwSubchannel(dev, null, null); // Open master database var ctx = AaruContext.Create(Settings.Settings.MasterDbPath); // Search for device in master database Database.Models.Device dbDev = ctx.Devices.FirstOrDefault(d => d.Manufacturer == dev.Manufacturer && d.Model == dev.Model && d.Revision == dev.FirmwareRevision); Dump.SolveTrackPregaps(dev, null, null, tracks, supportsPqSubchannel, supportsRwSubchannel, dbDev, out bool inexactPositioning); for (int t = 1; t < tracks.Length; t++) { tracks[t - 1].TrackEndSector = tracks[t].TrackStartSector - 1; } tracks[tracks.Length - 1].TrackEndSector = (ulong)lastSector; AaruConsole.WriteLine(); AaruConsole.WriteLine("Track calculations:"); if (inexactPositioning) { AaruConsole. WriteLine("WARNING: The drive has returned incorrect Q positioning when calculating pregaps. A best effort has been tried but they may be incorrect."); } foreach (Track track in tracks) { AaruConsole. WriteLine("Track {0} starts at LBA {1}, ends at LBA {2}, has a pregap of {3} sectors and is of type {4}", track.TrackSequence, track.TrackStartSector, track.TrackEndSector, track.TrackPregap, track.TrackType); } AaruConsole.WriteLine(); AaruConsole.WriteLine("Offsets:"); CdOffset cdOffset = null; // Search for read offset in master database cdOffset = ctx.CdOffsets.FirstOrDefault(d => d.Manufacturer == dev.Manufacturer && d.Model == dev.Model); CompactDisc.GetOffset(cdOffset, dbDev, debug, dev, scsiInfo.MediaType, null, tracks, null, out int?driveOffset, out int?combinedOffset, out _); if (combinedOffset is null) { if (driveOffset is null) { AaruConsole.WriteLine("Drive reading offset not found in database."); AaruConsole.WriteLine("Disc offset cannot be calculated."); } else { AaruConsole. WriteLine($"Drive reading offset is {driveOffset} bytes ({driveOffset / 4} samples)."); AaruConsole.WriteLine("Disc write offset is unknown."); } } else { int offsetBytes = combinedOffset.Value; if (driveOffset is null) { AaruConsole.WriteLine("Drive reading offset not found in database."); AaruConsole. WriteLine($"Combined disc and drive offset are {offsetBytes} bytes ({offsetBytes / 4} samples)."); } else { AaruConsole. WriteLine($"Drive reading offset is {driveOffset} bytes ({driveOffset / 4} samples)."); AaruConsole. WriteLine($"Combined offset is {offsetBytes} bytes ({offsetBytes / 4} samples)"); int?discOffset = offsetBytes - driveOffset; AaruConsole.WriteLine($"Disc offset is {discOffset} bytes ({discOffset / 4} samples)"); } } } } dev.Close(); }
public static int Invoke(bool verbose, bool debug, bool diskTags, string imagePath, string length, bool sectorTags, ulong startSector) { MainClass.PrintCopyright(); if (debug) { AaruConsole.DebugWriteLineEvent += System.Console.Error.WriteLine; } if (verbose) { AaruConsole.VerboseWriteLineEvent += System.Console.WriteLine; } Statistics.AddCommand("decode"); AaruConsole.DebugWriteLine("Decode command", "--debug={0}", debug); AaruConsole.DebugWriteLine("Decode command", "--disk-tags={0}", diskTags); AaruConsole.DebugWriteLine("Decode command", "--input={0}", imagePath); AaruConsole.DebugWriteLine("Decode command", "--length={0}", length); AaruConsole.DebugWriteLine("Decode command", "--sector-tags={0}", sectorTags); AaruConsole.DebugWriteLine("Decode command", "--start={0}", startSector); AaruConsole.DebugWriteLine("Decode command", "--verbose={0}", verbose); var filtersList = new FiltersList(); IFilter inputFilter = filtersList.GetFilter(imagePath); if (inputFilter == null) { AaruConsole.ErrorWriteLine("Cannot open specified file."); return((int)ErrorNumber.CannotOpenFile); } IMediaImage inputFormat = ImageFormat.Detect(inputFilter); if (inputFormat == null) { AaruConsole.ErrorWriteLine("Unable to recognize image format, not decoding"); return((int)ErrorNumber.UnrecognizedFormat); } inputFormat.Open(inputFilter); Statistics.AddMediaFormat(inputFormat.Format); Statistics.AddMedia(inputFormat.Info.MediaType, false); Statistics.AddFilter(inputFilter.Name); if (diskTags) { if (inputFormat.Info.ReadableMediaTags.Count == 0) { AaruConsole.WriteLine("There are no disk tags in chosen disc image."); } else { foreach (MediaTagType tag in inputFormat.Info.ReadableMediaTags) { switch (tag) { case MediaTagType.SCSI_INQUIRY: { byte[] inquiry = inputFormat.ReadDiskTag(MediaTagType.SCSI_INQUIRY); if (inquiry == null) { AaruConsole.WriteLine("Error reading SCSI INQUIRY response from disc image"); } else { AaruConsole.WriteLine("SCSI INQUIRY command response:"); AaruConsole. WriteLine("================================================================================"); AaruConsole.WriteLine(Inquiry.Prettify(inquiry)); AaruConsole. WriteLine("================================================================================"); } break; } case MediaTagType.ATA_IDENTIFY: { byte[] identify = inputFormat.ReadDiskTag(MediaTagType.ATA_IDENTIFY); if (identify == null) { AaruConsole.WriteLine("Error reading ATA IDENTIFY DEVICE response from disc image"); } else { AaruConsole.WriteLine("ATA IDENTIFY DEVICE command response:"); AaruConsole. WriteLine("================================================================================"); AaruConsole.WriteLine(Identify.Prettify(identify)); AaruConsole. WriteLine("================================================================================"); } break; } case MediaTagType.ATAPI_IDENTIFY: { byte[] identify = inputFormat.ReadDiskTag(MediaTagType.ATAPI_IDENTIFY); if (identify == null) { AaruConsole. WriteLine("Error reading ATA IDENTIFY PACKET DEVICE response from disc image"); } else { AaruConsole.WriteLine("ATA IDENTIFY PACKET DEVICE command response:"); AaruConsole. WriteLine("================================================================================"); AaruConsole.WriteLine(Identify.Prettify(identify)); AaruConsole. WriteLine("================================================================================"); } break; } case MediaTagType.CD_ATIP: { byte[] atip = inputFormat.ReadDiskTag(MediaTagType.CD_ATIP); if (atip == null) { AaruConsole.WriteLine("Error reading CD ATIP from disc image"); } else { AaruConsole.WriteLine("CD ATIP:"); AaruConsole. WriteLine("================================================================================"); AaruConsole.WriteLine(ATIP.Prettify(atip)); AaruConsole. WriteLine("================================================================================"); } break; } case MediaTagType.CD_FullTOC: { byte[] fullToc = inputFormat.ReadDiskTag(MediaTagType.CD_FullTOC); if (fullToc == null) { AaruConsole.WriteLine("Error reading CD full TOC from disc image"); } else { AaruConsole.WriteLine("CD full TOC:"); AaruConsole. WriteLine("================================================================================"); AaruConsole.WriteLine(FullTOC.Prettify(fullToc)); AaruConsole. WriteLine("================================================================================"); } break; } case MediaTagType.CD_PMA: { byte[] pma = inputFormat.ReadDiskTag(MediaTagType.CD_PMA); if (pma == null) { AaruConsole.WriteLine("Error reading CD PMA from disc image"); } else { AaruConsole.WriteLine("CD PMA:"); AaruConsole. WriteLine("================================================================================"); AaruConsole.WriteLine(PMA.Prettify(pma)); AaruConsole. WriteLine("================================================================================"); } break; } case MediaTagType.CD_SessionInfo: { byte[] sessionInfo = inputFormat.ReadDiskTag(MediaTagType.CD_SessionInfo); if (sessionInfo == null) { AaruConsole.WriteLine("Error reading CD session information from disc image"); } else { AaruConsole.WriteLine("CD session information:"); AaruConsole. WriteLine("================================================================================"); AaruConsole.WriteLine(Session.Prettify(sessionInfo)); AaruConsole. WriteLine("================================================================================"); } break; } case MediaTagType.CD_TEXT: { byte[] cdText = inputFormat.ReadDiskTag(MediaTagType.CD_TEXT); if (cdText == null) { AaruConsole.WriteLine("Error reading CD-TEXT from disc image"); } else { AaruConsole.WriteLine("CD-TEXT:"); AaruConsole. WriteLine("================================================================================"); AaruConsole.WriteLine(CDTextOnLeadIn.Prettify(cdText)); AaruConsole. WriteLine("================================================================================"); } break; } case MediaTagType.CD_TOC: { byte[] toc = inputFormat.ReadDiskTag(MediaTagType.CD_TOC); if (toc == null) { AaruConsole.WriteLine("Error reading CD TOC from disc image"); } else { AaruConsole.WriteLine("CD TOC:"); AaruConsole. WriteLine("================================================================================"); AaruConsole.WriteLine(TOC.Prettify(toc)); AaruConsole. WriteLine("================================================================================"); } break; } default: AaruConsole.WriteLine("Decoder for disk tag type \"{0}\" not yet implemented, sorry.", tag); break; } } } } if (sectorTags) { if (length.ToLowerInvariant() == "all") { } else { if (!ulong.TryParse(length, out ulong _)) { AaruConsole.WriteLine("Value \"{0}\" is not a valid number for length.", length); AaruConsole.WriteLine("Not decoding sectors tags"); return(3); } } if (inputFormat.Info.ReadableSectorTags.Count == 0) { AaruConsole.WriteLine("There are no sector tags in chosen disc image."); } else { foreach (SectorTagType tag in inputFormat.Info.ReadableSectorTags) { switch (tag) { default: AaruConsole.WriteLine("Decoder for disk tag type \"{0}\" not yet implemented, sorry.", tag); break; } } } // TODO: Not implemented } return((int)ErrorNumber.NoError); }
internal static void DoDecode(DecodeOptions options) { DicConsole.DebugWriteLine("Decode command", "--debug={0}", options.Debug); DicConsole.DebugWriteLine("Decode command", "--verbose={0}", options.Verbose); DicConsole.DebugWriteLine("Decode command", "--input={0}", options.InputFile); DicConsole.DebugWriteLine("Decode command", "--start={0}", options.StartSector); DicConsole.DebugWriteLine("Decode command", "--length={0}", options.Length); DicConsole.DebugWriteLine("Decode command", "--disk-tags={0}", options.DiskTags); DicConsole.DebugWriteLine("Decode command", "--sector-tags={0}", options.SectorTags); FiltersList filtersList = new FiltersList(); IFilter inputFilter = filtersList.GetFilter(options.InputFile); if (inputFilter == null) { DicConsole.ErrorWriteLine("Cannot open specified file."); return; } IMediaImage inputFormat = ImageFormat.Detect(inputFilter); if (inputFormat == null) { DicConsole.ErrorWriteLine("Unable to recognize image format, not decoding"); return; } inputFormat.Open(inputFilter); Core.Statistics.AddMediaFormat(inputFormat.Format); Core.Statistics.AddMedia(inputFormat.Info.MediaType, false); Core.Statistics.AddFilter(inputFilter.Name); if (options.DiskTags) { if (inputFormat.Info.ReadableMediaTags.Count == 0) { DicConsole.WriteLine("There are no disk tags in chosen disc image."); } else { foreach (MediaTagType tag in inputFormat.Info.ReadableMediaTags) { switch (tag) { case MediaTagType.SCSI_INQUIRY: { byte[] inquiry = inputFormat.ReadDiskTag(MediaTagType.SCSI_INQUIRY); if (inquiry == null) { DicConsole.WriteLine("Error reading SCSI INQUIRY response from disc image"); } else { DicConsole.WriteLine("SCSI INQUIRY command response:"); DicConsole .WriteLine("================================================================================"); DicConsole.WriteLine(Inquiry.Prettify(inquiry)); DicConsole .WriteLine("================================================================================"); } break; } case MediaTagType.ATA_IDENTIFY: { byte[] identify = inputFormat.ReadDiskTag(MediaTagType.ATA_IDENTIFY); if (identify == null) { DicConsole.WriteLine("Error reading ATA IDENTIFY DEVICE response from disc image"); } else { DicConsole.WriteLine("ATA IDENTIFY DEVICE command response:"); DicConsole .WriteLine("================================================================================"); DicConsole.WriteLine(Identify.Prettify(identify)); DicConsole .WriteLine("================================================================================"); } break; } case MediaTagType.ATAPI_IDENTIFY: { byte[] identify = inputFormat.ReadDiskTag(MediaTagType.ATAPI_IDENTIFY); if (identify == null) { DicConsole .WriteLine("Error reading ATA IDENTIFY PACKET DEVICE response from disc image"); } else { DicConsole.WriteLine("ATA IDENTIFY PACKET DEVICE command response:"); DicConsole .WriteLine("================================================================================"); DicConsole.WriteLine(Identify.Prettify(identify)); DicConsole .WriteLine("================================================================================"); } break; } case MediaTagType.CD_ATIP: { byte[] atip = inputFormat.ReadDiskTag(MediaTagType.CD_ATIP); if (atip == null) { DicConsole.WriteLine("Error reading CD ATIP from disc image"); } else { DicConsole.WriteLine("CD ATIP:"); DicConsole .WriteLine("================================================================================"); DicConsole.WriteLine(ATIP.Prettify(atip)); DicConsole .WriteLine("================================================================================"); } break; } case MediaTagType.CD_FullTOC: { byte[] fulltoc = inputFormat.ReadDiskTag(MediaTagType.CD_FullTOC); if (fulltoc == null) { DicConsole.WriteLine("Error reading CD full TOC from disc image"); } else { DicConsole.WriteLine("CD full TOC:"); DicConsole .WriteLine("================================================================================"); DicConsole.WriteLine(FullTOC.Prettify(fulltoc)); DicConsole .WriteLine("================================================================================"); } break; } case MediaTagType.CD_PMA: { byte[] pma = inputFormat.ReadDiskTag(MediaTagType.CD_PMA); if (pma == null) { DicConsole.WriteLine("Error reading CD PMA from disc image"); } else { DicConsole.WriteLine("CD PMA:"); DicConsole .WriteLine("================================================================================"); DicConsole.WriteLine(PMA.Prettify(pma)); DicConsole .WriteLine("================================================================================"); } break; } case MediaTagType.CD_SessionInfo: { byte[] sessioninfo = inputFormat.ReadDiskTag(MediaTagType.CD_SessionInfo); if (sessioninfo == null) { DicConsole.WriteLine("Error reading CD session information from disc image"); } else { DicConsole.WriteLine("CD session information:"); DicConsole .WriteLine("================================================================================"); DicConsole.WriteLine(Session.Prettify(sessioninfo)); DicConsole .WriteLine("================================================================================"); } break; } case MediaTagType.CD_TEXT: { byte[] cdtext = inputFormat.ReadDiskTag(MediaTagType.CD_TEXT); if (cdtext == null) { DicConsole.WriteLine("Error reading CD-TEXT from disc image"); } else { DicConsole.WriteLine("CD-TEXT:"); DicConsole .WriteLine("================================================================================"); DicConsole.WriteLine(CDTextOnLeadIn.Prettify(cdtext)); DicConsole .WriteLine("================================================================================"); } break; } case MediaTagType.CD_TOC: { byte[] toc = inputFormat.ReadDiskTag(MediaTagType.CD_TOC); if (toc == null) { DicConsole.WriteLine("Error reading CD TOC from disc image"); } else { DicConsole.WriteLine("CD TOC:"); DicConsole .WriteLine("================================================================================"); DicConsole.WriteLine(TOC.Prettify(toc)); DicConsole .WriteLine("================================================================================"); } break; } default: DicConsole.WriteLine("Decoder for disk tag type \"{0}\" not yet implemented, sorry.", tag); break; } } } } if (options.SectorTags) { ulong length; if (options.Length.ToLowerInvariant() == "all") { length = inputFormat.Info.Sectors - 1; } else { if (!ulong.TryParse(options.Length, out length)) { DicConsole.WriteLine("Value \"{0}\" is not a valid number for length.", options.Length); DicConsole.WriteLine("Not decoding sectors tags"); return; } } if (inputFormat.Info.ReadableSectorTags.Count == 0) { DicConsole.WriteLine("There are no sector tags in chosen disc image."); } else { foreach (SectorTagType tag in inputFormat.Info.ReadableSectorTags) { switch (tag) { default: DicConsole.WriteLine("Decoder for disk tag type \"{0}\" not yet implemented, sorry.", tag); break; } } } // TODO: Not implemented } Core.Statistics.AddCommand("decode"); }
public pnlScsiInfo(ScsiInfo scsiInfo) { XamlReader.Load(this); this.scsiInfo = scsiInfo; Stream logo = ResourceHandler.GetResourceStream($"DiscImageChef.Gui.Assets.Logos.Media.{scsiInfo.MediaType}.svg"); /* if(logo != null) * { * svgMediaLogo.SvgStream = logo; * svgMediaLogo.Visible = true; * } * else * {*/ logo = ResourceHandler.GetResourceStream($"DiscImageChef.Gui.Assets.Logos.Media.{scsiInfo.MediaType}.png"); if (logo != null) { imgMediaLogo.Image = new Bitmap(logo); imgMediaLogo.Visible = true; } //} switch (this.scsiInfo.MediaType) { case MediaType.HDDVDROM: case MediaType.HDDVDRAM: case MediaType.HDDVDR: case MediaType.HDDVDRW: case MediaType.HDDVDRDL: case MediaType.HDDVDRWDL: tabDvd.Text = "HD DVD"; break; default: tabDvd.Text = "DVD"; break; } switch (this.scsiInfo.MediaType) { case MediaType.DVDR: tabDvdr.Text = "DVD-R"; break; case MediaType.DVDRW: tabDvdr.Text = "DVD-RW"; break; case MediaType.DVDPR: tabDvdr.Text = "DVD+R"; break; case MediaType.DVDPRW: tabDvdr.Text = "DVD+RW"; break; case MediaType.DVDPRWDL: tabDvdr.Text = "DVD+RW DL"; break; case MediaType.DVDRDL: tabDvdr.Text = "DVD-R DL"; break; case MediaType.DVDPRDL: tabDvdr.Text = "DVD+R DL"; break; case MediaType.DVDRAM: tabDvdr.Text = "DVD-RAM"; break; case MediaType.DVDRWDL: tabDvdr.Text = "DVD-RW DL"; break; case MediaType.HDDVDRAM: tabDvdr.Text = "HD DVD-RAM"; break; case MediaType.HDDVDR: tabDvdr.Text = "HD DVD-R"; break; case MediaType.HDDVDRW: tabDvdr.Text = "HD DVD-RW"; break; case MediaType.HDDVDRDL: tabDvdr.Text = "HD DVD-R DL"; break; case MediaType.HDDVDRWDL: tabDvdr.Text = "HD DVD-RW DL"; break; } txtType.Text = scsiInfo.MediaType.ToString(); lblMediaSize.Text = $"Media has {scsiInfo.Blocks} blocks of {scsiInfo.BlockSize} bytes/each. (for a total of {scsiInfo.Blocks * scsiInfo.BlockSize} bytes)"; lblMediaSize.Visible = scsiInfo.Blocks != 0 && scsiInfo.BlockSize != 0; if (scsiInfo.MediaSerialNumber != null) { stkMediaSerial.Visible = true; StringBuilder sbSerial = new StringBuilder(); for (int i = 4; i < scsiInfo.MediaSerialNumber.Length; i++) { sbSerial.AppendFormat("{0:X2}", scsiInfo.MediaSerialNumber[i]); } txtMediaSerial.Text = sbSerial.ToString(); } btnSaveReadMediaSerial.Visible = this.scsiInfo.MediaSerialNumber != null; btnSaveReadCapacity.Visible = this.scsiInfo.ReadCapacity != null; btnSaveReadCapacity16.Visible = this.scsiInfo.ReadCapacity16 != null; btnSaveGetConfiguration.Visible = this.scsiInfo.MmcConfiguration != null; btnSaveRecognizedFormatLayers.Visible = this.scsiInfo.RecognizedFormatLayers != null; btnSaveWriteProtectionStatus.Visible = this.scsiInfo.WriteProtectionStatus != null; tabMmc.Visible = btnSaveGetConfiguration.Visible || btnSaveRecognizedFormatLayers.Visible || btnSaveWriteProtectionStatus.Visible; if (this.scsiInfo.DensitySupportHeader.HasValue) { grpDensitySupport.Visible = true; txtDensitySupport.Text = DensitySupport.PrettifyDensity(scsiInfo.DensitySupportHeader); } if (this.scsiInfo.MediaTypeSupportHeader.HasValue) { grpMediumSupport.Visible = true; txtMediumSupport.Text = DensitySupport.PrettifyMediumType(scsiInfo.MediaTypeSupportHeader); } btnSaveDensitySupport.Visible = scsiInfo.DensitySupport != null; btnSaveMediumSupport.Visible = scsiInfo.MediaTypeSupport != null; tabSsc.Visible = grpDensitySupport.Visible || grpMediumSupport.Visible || btnSaveDensitySupport.Visible || btnSaveMediumSupport.Visible; if (this.scsiInfo.DecodedCompactDiscInformation.HasValue) { tabCdInformation.Visible = true; txtCdInformation.Text = DiscInformation.Prettify000b(scsiInfo.DecodedCompactDiscInformation); btnCdInformation.Visible = scsiInfo.CompactDiscInformation != null; } if (this.scsiInfo.DecodedToc.HasValue) { tabCdToc.Visible = true; txtCdToc.Text = TOC.Prettify(scsiInfo.DecodedToc); btnCdToc.Visible = scsiInfo.Toc != null; } if (this.scsiInfo.FullToc.HasValue) { tabCdFullToc.Visible = true; txtCdFullToc.Text = FullTOC.Prettify(scsiInfo.FullToc); btnCdFullToc.Visible = scsiInfo.RawToc != null; } if (this.scsiInfo.DecodedSession.HasValue) { tabCdSession.Visible = true; txtCdSession.Text = Session.Prettify(scsiInfo.DecodedSession); btnCdSession.Visible = scsiInfo.Session != null; } if (this.scsiInfo.DecodedCdTextLeadIn.HasValue) { tabCdText.Visible = true; txtCdText.Text = CDTextOnLeadIn.Prettify(this.scsiInfo.DecodedCdTextLeadIn); btnCdText.Visible = scsiInfo.CdTextLeadIn != null; } if (this.scsiInfo.DecodedAtip.HasValue) { tabCdAtip.Visible = true; txtCdAtip.Text = ATIP.Prettify(this.scsiInfo.Atip); btnCdAtip.Visible = scsiInfo.Atip != null; } if (!string.IsNullOrEmpty(scsiInfo.Mcn)) { stkMcn.Visible = true; txtMcn.Text = scsiInfo.Mcn; } if (this.scsiInfo.Isrcs != null && this.scsiInfo.Isrcs.Count > 0) { grpIsrcs.Visible = true; TreeGridItemCollection isrcsItems = new TreeGridItemCollection(); grdIsrcs.Columns.Add(new GridColumn { HeaderText = "ISRC", DataCell = new TextBoxCell(0) }); grdIsrcs.Columns.Add(new GridColumn { HeaderText = "Track", DataCell = new TextBoxCell(0) }); grdIsrcs.AllowMultipleSelection = false; grdIsrcs.ShowHeader = true; grdIsrcs.DataStore = isrcsItems; foreach (KeyValuePair <byte, string> isrc in this.scsiInfo.Isrcs) { isrcsItems.Add(new TreeGridItem { Values = new object[] { isrc.Key.ToString(), isrc.Value } }); } } btnCdPma.Visible = this.scsiInfo.Pma != null; tabCdMisc.Visible = stkMcn.Visible || grpIsrcs.Visible || btnCdPma.Visible; tabCd.Visible = tabCdInformation.Visible || tabCdToc.Visible || tabCdFullToc.Visible || tabCdSession.Visible || tabCdText.Visible || tabCdAtip.Visible || stkMcn.Visible || grpIsrcs.Visible || btnCdPma.Visible; if (this.scsiInfo.DecodedPfi.HasValue) { grpDvdPfi.Visible = true; txtDvdPfi.Text = PFI.Prettify(this.scsiInfo.DecodedPfi); } if (this.scsiInfo.DvdCmi != null) { grpDvdCmi.Visible = true; txtDvdCmi.Text = CSS_CPRM.PrettifyLeadInCopyright(this.scsiInfo.DvdCmi); btnSaveDvdCmi.Visible = true; } btnSaveDvdPfi.Visible = this.scsiInfo.DvdPfi != null; btnSaveDvdDmi.Visible = this.scsiInfo.DvdDmi != null; btnSaveDvdCmi.Visible = this.scsiInfo.DvdCmi != null; btnSaveHdDvdCmi.Visible = this.scsiInfo.HddvdCopyrightInformation != null; btnSaveDvdBca.Visible = this.scsiInfo.DvdBca != null; btnSaveDvdAacs.Visible = this.scsiInfo.DvdAacs != null; tabDvd.Visible = grpDvdPfi.Visible || grpDvdCmi.Visible || btnSaveDvdPfi.Visible || btnSaveDvdDmi.Visible || btnSaveDvdCmi.Visible || btnSaveHdDvdCmi.Visible || btnSaveDvdBca.Visible || btnSaveDvdAacs.Visible; if (this.scsiInfo.XgdInfo != null) { stkXboxInformation.Visible = true; txtXboxL0Video.Text = $"{this.scsiInfo.XgdInfo.L0Video} sectors"; txtXboxL1Video.Text = $"{this.scsiInfo.XgdInfo.L1Video} sectors"; txtXboxMiddleZone.Text = $"{this.scsiInfo.XgdInfo.MiddleZone} sectors"; txtXboxGameSize.Text = $"{this.scsiInfo.XgdInfo.GameSize} sectors"; txtXboxTotalSize.Text = $"{this.scsiInfo.XgdInfo.TotalSize} sectors"; txtXboxRealBreak.Text = this.scsiInfo.XgdInfo.LayerBreak.ToString(); } if (this.scsiInfo.DvdDmi != null) { if (DMI.IsXbox(scsiInfo.DvdDmi)) { grpXboxDmi.Visible = true; txtXboxDmi.Text = DMI.PrettifyXbox(scsiInfo.DvdDmi); } else if (DMI.IsXbox360(scsiInfo.DvdDmi)) { grpXboxDmi.Visible = true; txtXboxDmi.Text = DMI.PrettifyXbox360(scsiInfo.DvdDmi); } } if (this.scsiInfo.DecodedXboxSecuritySector.HasValue) { grpXboxSs.Visible = true; txtXboxSs.Text = SS.Prettify(this.scsiInfo.DecodedXboxSecuritySector); } btnSaveXboxSs.Visible = this.scsiInfo.XboxSecuritySector != null; tabXbox.Visible = stkXboxInformation.Visible || grpXboxDmi.Visible || grpXboxSs.Visible || btnSaveXboxSs.Visible; if (this.scsiInfo.DvdRamDds != null) { grpDvdRamDds.Visible = true; btnSaveDvdRamDds.Visible = true; txtDvdRamDds.Text = DDS.Prettify(this.scsiInfo.DvdRamDds); } if (this.scsiInfo.DvdRamCartridgeStatus != null) { grpDvdRamCartridgeStatus.Visible = true; btnSaveDvdRamCartridgeStatus.Visible = true; txtDvdRamCartridgeStatus.Text = Cartridge.Prettify(this.scsiInfo.DvdRamCartridgeStatus); } if (this.scsiInfo.DvdRamSpareArea != null) { grpDvdRamSpareAreaInformation.Visible = true; btnSaveDvdRamSpareAreaInformation.Visible = true; txtDvdRamSpareAreaInformation.Text = Spare.Prettify(this.scsiInfo.DvdRamSpareArea); } btnSaveDvdRamDds.Visible = this.scsiInfo.DvdRamDds != null; btnSaveDvdRamCartridgeStatus.Visible = this.scsiInfo.DvdRamCartridgeStatus != null; btnSaveDvdRamSpareAreaInformation.Visible = this.scsiInfo.DvdRamSpareArea != null; btnSaveLastBorderOutRmd.Visible = this.scsiInfo.LastBorderOutRmd != null; btnSaveDvdPreRecordedInfo.Visible = this.scsiInfo.DvdPreRecordedInfo != null; btnSaveDvdrMediaIdentifier.Visible = this.scsiInfo.DvdrMediaIdentifier != null; btnSaveDvdrPhysicalInformation.Visible = this.scsiInfo.DvdrPhysicalInformation != null; btnSaveHddvdrMediumStatus.Visible = this.scsiInfo.HddvdrMediumStatus != null; btnSaveHddvdrLastRmd.Visible = this.scsiInfo.HddvdrLastRmd != null; btnSaveDvdrLayerCapacity.Visible = this.scsiInfo.DvdrLayerCapacity != null; btnSaveDvdrDlMiddleZoneStart.Visible = this.scsiInfo.DvdrDlMiddleZoneStart != null; btnSaveDvdrDlJumpIntervalSize.Visible = this.scsiInfo.DvdrDlJumpIntervalSize != null; btnSaveDvdrDlManualLayerJumpStartLba.Visible = this.scsiInfo.DvdrDlManualLayerJumpStartLba != null; btnSaveDvdrDlRemapAnchorPoint.Visible = this.scsiInfo.DvdrDlRemapAnchorPoint != null; btnSaveDvdPlusAdip.Visible = this.scsiInfo.DvdPlusAdip != null; btnSaveDvdPlusDcb.Visible = this.scsiInfo.DvdPlusDcb != null; tabDvdr.Visible = grpDvdRamDds.Visible || grpDvdRamCartridgeStatus.Visible || grpDvdRamSpareAreaInformation.Visible || btnSaveDvdRamDds.Visible || btnSaveDvdRamCartridgeStatus.Visible || btnSaveDvdRamSpareAreaInformation.Visible || btnSaveLastBorderOutRmd.Visible || btnSaveDvdPreRecordedInfo.Visible || btnSaveDvdrMediaIdentifier.Visible || btnSaveDvdrPhysicalInformation.Visible || btnSaveHddvdrMediumStatus.Visible || btnSaveHddvdrLastRmd.Visible || btnSaveDvdrLayerCapacity.Visible || btnSaveDvdrDlMiddleZoneStart.Visible || btnSaveDvdrDlJumpIntervalSize.Visible || btnSaveDvdrDlManualLayerJumpStartLba.Visible || btnSaveDvdrDlRemapAnchorPoint.Visible || btnSaveDvdPlusAdip.Visible || btnSaveDvdPlusDcb.Visible; if (this.scsiInfo.BlurayDiscInformation != null) { grpBlurayDiscInformation.Visible = true; btnSaveBlurayDiscInformation.Visible = true; txtBlurayDiscInformation.Text = DI.Prettify(this.scsiInfo.BlurayDiscInformation); } if (this.scsiInfo.BlurayBurstCuttingArea != null) { grpBlurayBurstCuttingArea.Visible = true; btnSaveBlurayBurstCuttingArea.Visible = true; txtBlurayBurstCuttingArea.Text = BCA.Prettify(this.scsiInfo.BlurayBurstCuttingArea); } if (this.scsiInfo.BlurayDds != null) { grpBlurayDds.Visible = true; btnSaveBlurayDds.Visible = true; txtBlurayDds.Text = Decoders.Bluray.DDS.Prettify(this.scsiInfo.BlurayDds); } if (this.scsiInfo.BlurayCartridgeStatus != null) { grpBlurayCartridgeStatus.Visible = true; btnSaveBlurayCartridgeStatus.Visible = true; txtBlurayCartridgeStatus.Text = Decoders.Bluray.Cartridge.Prettify(this.scsiInfo.BlurayCartridgeStatus); } if (this.scsiInfo.BluraySpareAreaInformation != null) { grpBluraySpareAreaInformation.Visible = true; btnSaveBluraySpareAreaInformation.Visible = true; txtBluraySpareAreaInformation.Text = Decoders.Bluray.Spare.Prettify(this.scsiInfo.BluraySpareAreaInformation); } if (this.scsiInfo.BlurayPowResources != null) { grpBlurayPowResources.Visible = true; btnSaveBlurayPowResources.Visible = true; txtBlurayPowResources.Text = DiscInformation.Prettify(this.scsiInfo.BlurayPowResources); } if (this.scsiInfo.BlurayTrackResources != null) { grpBlurayTrackResources.Visible = true; btnSaveBlurayTrackResources.Visible = true; txtBlurayTrackResources.Text = DiscInformation.Prettify(this.scsiInfo.BlurayTrackResources); } btnSaveBlurayRawDfl.Visible = this.scsiInfo.BlurayRawDfl != null; btnSaveBlurayPac.Visible = this.scsiInfo.BlurayPac != null; tabBluray.Visible = grpBlurayDiscInformation.Visible || grpBlurayBurstCuttingArea.Visible || grpBlurayDds.Visible || grpBlurayCartridgeStatus.Visible || grpBluraySpareAreaInformation.Visible || grpBlurayPowResources.Visible || grpBlurayTrackResources.Visible || btnSaveBlurayRawDfl.Visible || btnSaveBlurayPac.Visible; }
public CompactDiscInfoViewModel(byte[] toc, byte[] atip, byte[] compactDiscInformation, byte[] session, byte[] rawToc, byte[] pma, byte[] cdTextLeadIn, TOC.CDTOC?decodedToc, ATIP.CDATIP?decodedAtip, Session.CDSessionInfo?decodedSession, FullTOC.CDFullTOC?fullToc, CDTextOnLeadIn.CDText?decodedCdTextLeadIn, DiscInformation.StandardDiscInformation?decodedCompactDiscInformation, string mcn, Dictionary <byte, string> isrcs, Window view) { _tocData = toc; _atipData = atip; _compactDiscInformationData = compactDiscInformation; _sessionData = session; _rawTocData = rawToc; _pmaData = pma; _cdTextLeadInData = cdTextLeadIn; _view = view; IsrcList = new ObservableCollection <IsrcModel>(); SaveCdInformationCommand = ReactiveCommand.Create(ExecuteSaveCdInformationCommand); SaveCdTocCommand = ReactiveCommand.Create(ExecuteSaveCdTocCommand); SaveCdFullTocCommand = ReactiveCommand.Create(ExecuteSaveCdFullTocCommand); SaveCdSessionCommand = ReactiveCommand.Create(ExecuteSaveCdSessionCommand); SaveCdTextCommand = ReactiveCommand.Create(ExecuteSaveCdTextCommand); SaveCdAtipCommand = ReactiveCommand.Create(ExecuteSaveCdAtipCommand); SaveCdPmaCommand = ReactiveCommand.Create(ExecuteSaveCdPmaCommand); if (decodedCompactDiscInformation.HasValue) { CdInformationText = DiscInformation.Prettify000b(decodedCompactDiscInformation); } if (decodedToc.HasValue) { CdTocText = TOC.Prettify(decodedToc); } if (fullToc.HasValue) { CdFullTocText = FullTOC.Prettify(fullToc); } if (decodedSession.HasValue) { CdSessionText = Session.Prettify(decodedSession); } if (decodedCdTextLeadIn.HasValue) { CdTextText = CDTextOnLeadIn.Prettify(decodedCdTextLeadIn); } if (decodedAtip.HasValue) { CdAtipText = ATIP.Prettify(atip); } if (!string.IsNullOrEmpty(mcn)) { McnText = mcn; } if (isrcs != null && isrcs.Count > 0) { foreach (KeyValuePair <byte, string> isrc in isrcs) { IsrcList.Add(new IsrcModel { Track = isrc.Key.ToString(), Isrc = isrc.Value }); } } MiscellaneousVisible = McnText != null || isrcs?.Count > 0 || pma != null; CdPmaVisible = pma != null; }
static void DoScsiMediaInfo(string outputPrefix, Device dev) { ScsiInfo scsiInfo = new ScsiInfo(dev); if (!scsiInfo.MediaInserted) { return; } if (scsiInfo.DeviceInfo.ScsiModeSense6 != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_scsi_modesense6.bin", "SCSI MODE SENSE (6)", scsiInfo.DeviceInfo.ScsiModeSense6); } if (scsiInfo.DeviceInfo.ScsiModeSense10 != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_scsi_modesense10.bin", "SCSI MODE SENSE (10)", scsiInfo.DeviceInfo.ScsiModeSense10); } switch (dev.ScsiType) { case PeripheralDeviceTypes.DirectAccess: case PeripheralDeviceTypes.MultiMediaDevice: case PeripheralDeviceTypes.OCRWDevice: case PeripheralDeviceTypes.OpticalDevice: case PeripheralDeviceTypes.SimplifiedDevice: case PeripheralDeviceTypes.WriteOnceDevice: if (scsiInfo.ReadCapacity != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readcapacity.bin", "SCSI READ CAPACITY", scsiInfo.ReadCapacity); } if (scsiInfo.ReadCapacity16 != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readcapacity16.bin", "SCSI READ CAPACITY(16)", scsiInfo.ReadCapacity16); } if (scsiInfo.Blocks != 0 && scsiInfo.BlockSize != 0) { DicConsole.WriteLine("Media has {0} blocks of {1} bytes/each. (for a total of {2} bytes)", scsiInfo.Blocks, scsiInfo.BlockSize, scsiInfo.Blocks * scsiInfo.BlockSize); } break; case PeripheralDeviceTypes.SequentialAccess: if (scsiInfo.DensitySupport != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_ssc_reportdensitysupport_media.bin", "SSC REPORT DENSITY SUPPORT (MEDIA)", scsiInfo.DensitySupport); if (scsiInfo.DensitySupportHeader.HasValue) { DicConsole.WriteLine("Densities supported by currently inserted media:"); DicConsole.WriteLine(DensitySupport.PrettifyDensity(scsiInfo.DensitySupportHeader)); } } if (scsiInfo.MediaTypeSupport != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_ssc_reportdensitysupport_medium_media.bin", "SSC REPORT DENSITY SUPPORT (MEDIUM & MEDIA)", scsiInfo.MediaTypeSupport); if (scsiInfo.MediaTypeSupportHeader.HasValue) { DicConsole.WriteLine("Medium types currently inserted in device:"); DicConsole.WriteLine(DensitySupport.PrettifyMediumType(scsiInfo.MediaTypeSupportHeader)); } DicConsole.WriteLine(DensitySupport.PrettifyMediumType(scsiInfo.MediaTypeSupport)); } break; } if (dev.ScsiType == PeripheralDeviceTypes.MultiMediaDevice) { if (scsiInfo.MmcConfiguration != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_getconfiguration_current.bin", "SCSI GET CONFIGURATION", scsiInfo.MmcConfiguration); } if (scsiInfo.RecognizedFormatLayers != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_formatlayers.bin", "SCSI READ DISC STRUCTURE", scsiInfo.RecognizedFormatLayers); } if (scsiInfo.WriteProtectionStatus != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_writeprotection.bin", "SCSI READ DISC STRUCTURE", scsiInfo.WriteProtectionStatus); } if (scsiInfo.DvdPfi != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_pfi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdPfi); if (scsiInfo.DecodedPfi.HasValue) { DicConsole.WriteLine("PFI:\n{0}", PFI.Prettify(scsiInfo.DecodedPfi)); } } if (scsiInfo.DvdDmi != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_dmi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdDmi); if (DMI.IsXbox(scsiInfo.DvdDmi)) { DicConsole.WriteLine("Xbox DMI:\n{0}", DMI.PrettifyXbox(scsiInfo.DvdDmi)); } else if (DMI.IsXbox360(scsiInfo.DvdDmi)) { DicConsole.WriteLine("Xbox 360 DMI:\n{0}", DMI.PrettifyXbox360(scsiInfo.DvdDmi)); } } if (scsiInfo.DvdCmi != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_cmi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdCmi); DicConsole.WriteLine("Lead-In CMI:\n{0}", CSS_CPRM.PrettifyLeadInCopyright(scsiInfo.DvdCmi)); } if (scsiInfo.DvdBca != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_bca.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdBca); } if (scsiInfo.DvdAacs != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_aacs.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdAacs); } if (scsiInfo.DvdRamDds != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdram_dds.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdRamDds); DicConsole.WriteLine("Disc Definition Structure:\n{0}", DDS.Prettify(scsiInfo.DvdRamDds)); } if (scsiInfo.DvdRamCartridgeStatus != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdram_status.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdRamCartridgeStatus); DicConsole.WriteLine("Medium Status:\n{0}", Cartridge.Prettify(scsiInfo.DvdRamCartridgeStatus)); } if (scsiInfo.DvdRamSpareArea != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdram_spare.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdRamSpareArea); DicConsole.WriteLine("Spare Area Information:\n{0}", Spare.Prettify(scsiInfo.DvdRamSpareArea)); } if (scsiInfo.LastBorderOutRmd != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_lastrmd.bin", "SCSI READ DISC STRUCTURE", scsiInfo.LastBorderOutRmd); } if (scsiInfo.DvdPreRecordedInfo != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_pri.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdPreRecordedInfo); } if (scsiInfo.DvdrMediaIdentifier != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdr_mediaid.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrMediaIdentifier); } if (scsiInfo.DvdrPhysicalInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdr_pfi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrPhysicalInformation); } if (scsiInfo.DvdPlusAdip != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd+_adip.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdPlusAdip); } if (scsiInfo.DvdPlusDcb != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd+_dcb.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdPlusDcb); } if (scsiInfo.HddvdCopyrightInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_hddvd_cmi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.HddvdCopyrightInformation); } if (scsiInfo.HddvdrMediumStatus != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_hddvdr_status.bin", "SCSI READ DISC STRUCTURE", scsiInfo.HddvdrMediumStatus); } if (scsiInfo.HddvdrLastRmd != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_hddvdr_lastrmd.bin", "SCSI READ DISC STRUCTURE", scsiInfo.HddvdrLastRmd); } if (scsiInfo.DvdrLayerCapacity != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdr_layercap.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrLayerCapacity); } if (scsiInfo.DvdrDlMiddleZoneStart != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_mzs.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrDlMiddleZoneStart); } if (scsiInfo.DvdrDlJumpIntervalSize != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_jis.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrDlJumpIntervalSize); } if (scsiInfo.DvdrDlManualLayerJumpStartLba != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_manuallj.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrDlManualLayerJumpStartLba); } if (scsiInfo.DvdrDlRemapAnchorPoint != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_remapanchor.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrDlRemapAnchorPoint); } if (scsiInfo.BlurayDiscInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_di.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayDiscInformation); DicConsole.WriteLine("Blu-ray Disc Information:\n{0}", DI.Prettify(scsiInfo.BlurayDiscInformation)); } if (scsiInfo.BlurayPac != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_pac.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayPac); } if (scsiInfo.BlurayBurstCuttingArea != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_bca.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayBurstCuttingArea); DicConsole.WriteLine("Blu-ray Burst Cutting Area:\n{0}", BCA.Prettify(scsiInfo.BlurayBurstCuttingArea)); } if (scsiInfo.BlurayDds != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_dds.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayDds); DicConsole.WriteLine("Blu-ray Disc Definition Structure:\n{0}", Decoders.Bluray.DDS.Prettify(scsiInfo.BlurayDds)); } if (scsiInfo.BlurayCartridgeStatus != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_cartstatus.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayCartridgeStatus); DicConsole.WriteLine("Blu-ray Cartridge Status:\n{0}", Decoders.Bluray.Cartridge.Prettify(scsiInfo.BlurayCartridgeStatus)); } if (scsiInfo.BluraySpareAreaInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_spare.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BluraySpareAreaInformation); DicConsole.WriteLine("Blu-ray Spare Area Information:\n{0}", Decoders.Bluray.Spare.Prettify(scsiInfo.BluraySpareAreaInformation)); } if (scsiInfo.BlurayRawDfl != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_dfl.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayRawDfl); } if (scsiInfo.BlurayTrackResources != null) { DicConsole.WriteLine("Track Resources Information:\n{0}", DiscInformation.Prettify(scsiInfo.BlurayTrackResources)); DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscinformation_001b.bin", "SCSI READ DISC INFORMATION", scsiInfo.BlurayTrackResources); } if (scsiInfo.BlurayPowResources != null) { DicConsole.WriteLine("POW Resources Information:\n{0}", DiscInformation.Prettify(scsiInfo.BlurayPowResources)); DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscinformation_010b.bin", "SCSI READ DISC INFORMATION", scsiInfo.BlurayPowResources); } if (scsiInfo.Toc != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_toc.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.Toc); if (scsiInfo.DecodedToc.HasValue) { DicConsole.WriteLine("TOC:\n{0}", TOC.Prettify(scsiInfo.DecodedToc)); } } if (scsiInfo.Atip != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_atip.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.Atip); if (scsiInfo.DecodedAtip.HasValue) { DicConsole.WriteLine("ATIP:\n{0}", ATIP.Prettify(scsiInfo.DecodedAtip)); } } if (scsiInfo.CompactDiscInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscinformation_000b.bin", "SCSI READ DISC INFORMATION", scsiInfo.CompactDiscInformation); if (scsiInfo.DecodedCompactDiscInformation.HasValue) { DicConsole.WriteLine("Standard Disc Information:\n{0}", DiscInformation.Prettify000b(scsiInfo.DecodedCompactDiscInformation)); } } if (scsiInfo.Session != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_session.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.Session); if (scsiInfo.DecodedSession.HasValue) { DicConsole.WriteLine("Session information:\n{0}", Session.Prettify(scsiInfo.DecodedSession)); } } if (scsiInfo.RawToc != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_rawtoc.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.RawToc); if (scsiInfo.FullToc.HasValue) { DicConsole.WriteLine("Raw TOC:\n{0}", FullTOC.Prettify(scsiInfo.RawToc)); } } if (scsiInfo.Pma != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_pma.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.Pma); DicConsole.WriteLine("PMA:\n{0}", PMA.Prettify(scsiInfo.Pma)); } if (scsiInfo.CdTextLeadIn != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_cdtext.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.CdTextLeadIn); if (scsiInfo.DecodedCdTextLeadIn.HasValue) { DicConsole.WriteLine("CD-TEXT on Lead-In:\n{0}", CDTextOnLeadIn.Prettify(scsiInfo.DecodedCdTextLeadIn)); } } if (!string.IsNullOrEmpty(scsiInfo.Mcn)) { DicConsole.WriteLine("MCN: {0}", scsiInfo.Mcn); } if (scsiInfo.Isrcs != null) { foreach (KeyValuePair <byte, string> isrc in scsiInfo.Isrcs) { DicConsole.WriteLine("Track's {0} ISRC: {1}", isrc.Key, isrc.Value); } } if (scsiInfo.XboxSecuritySector != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_xbox_ss.bin", "KREON EXTRACT SS", scsiInfo.XboxSecuritySector); } if (scsiInfo.DecodedXboxSecuritySector.HasValue) { DicConsole.WriteLine("Xbox Security Sector:\n{0}", SS.Prettify(scsiInfo.DecodedXboxSecuritySector)); } if (scsiInfo.XgdInfo != null) { DicConsole.WriteLine("Video layer 0 size: {0} sectors", scsiInfo.XgdInfo.L0Video); DicConsole.WriteLine("Video layer 1 size: {0} sectors", scsiInfo.XgdInfo.L1Video); DicConsole.WriteLine("Middle zone size: {0} sectors", scsiInfo.XgdInfo.MiddleZone); DicConsole.WriteLine("Game data size: {0} sectors", scsiInfo.XgdInfo.GameSize); DicConsole.WriteLine("Total size: {0} sectors", scsiInfo.XgdInfo.TotalSize); DicConsole.WriteLine("Real layer break: {0}", scsiInfo.XgdInfo.LayerBreak); DicConsole.WriteLine(); } } if (scsiInfo.MediaSerialNumber != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_mediaserialnumber.bin", "SCSI READ MEDIA SERIAL NUMBER", scsiInfo.MediaSerialNumber); DicConsole.Write("Media Serial Number: "); for (int i = 4; i < scsiInfo.MediaSerialNumber.Length; i++) { DicConsole.Write("{0:X2}", scsiInfo.MediaSerialNumber[i]); } DicConsole.WriteLine(); } DicConsole.WriteLine("Media identified as {0}", scsiInfo.MediaType); Core.Statistics.AddMedia(scsiInfo.MediaType, true); }
// TODO: More graphically aware decoders void OnCmbTagSelectedIndexChanged(object sender, EventArgs e) { if (!(cmbTag.SelectedValue is MediaTagWithData tagWithData)) { return; } // TODO: Decoders should be able to handle tags with/without length header txtPrintHex.Text = PrintHex.ByteArrayToHexArrayString(tagWithData.Data, HEX_COLUMNS); tabDecoded.Visible = true; switch (tagWithData.Tag) { case MediaTagType.CD_TOC: txtDecoded.Text = TOC.Prettify(tagWithData.Data); break; case MediaTagType.CD_SessionInfo: txtDecoded.Text = Session.Prettify(tagWithData.Data); break; case MediaTagType.CD_FullTOC: txtDecoded.Text = FullTOC.Prettify(tagWithData.Data); break; case MediaTagType.CD_PMA: txtDecoded.Text = PMA.Prettify(tagWithData.Data); break; case MediaTagType.CD_ATIP: txtDecoded.Text = ATIP.Prettify(tagWithData.Data); break; case MediaTagType.CD_TEXT: txtDecoded.Text = CDTextOnLeadIn.Prettify(tagWithData.Data); break; case MediaTagType.CD_MCN: txtDecoded.Text = Encoding.ASCII.GetString(tagWithData.Data); break; case MediaTagType.DVD_PFI: txtDecoded.Text = PFI.Prettify(tagWithData.Data); break; case MediaTagType.DVD_CMI: txtDecoded.Text = CSS_CPRM.PrettifyLeadInCopyright(tagWithData.Data); break; case MediaTagType.DVDRAM_DDS: txtDecoded.Text = DDS.Prettify(tagWithData.Data); break; case MediaTagType.DVDRAM_SpareArea: txtDecoded.Text = Spare.Prettify(tagWithData.Data); break; case MediaTagType.DVDR_PFI: txtDecoded.Text = PFI.Prettify(tagWithData.Data); break; case MediaTagType.HDDVD_MediumStatus: txtDecoded.Text = PFI.Prettify(tagWithData.Data); break; case MediaTagType.BD_DI: txtDecoded.Text = DI.Prettify(tagWithData.Data); break; case MediaTagType.BD_BCA: txtDecoded.Text = BCA.Prettify(tagWithData.Data); break; case MediaTagType.BD_DDS: txtDecoded.Text = Decoders.Bluray.DDS.Prettify(tagWithData.Data); break; case MediaTagType.BD_CartridgeStatus: txtDecoded.Text = Cartridge.Prettify(tagWithData.Data); break; case MediaTagType.BD_SpareArea: txtDecoded.Text = Decoders.Bluray.Spare.Prettify(tagWithData.Data); break; case MediaTagType.MMC_WriteProtection: txtDecoded.Text = WriteProtect.PrettifyWriteProtectionStatus(tagWithData.Data); break; case MediaTagType.MMC_DiscInformation: txtDecoded.Text = DiscInformation.Prettify(tagWithData.Data); break; case MediaTagType.SCSI_INQUIRY: txtDecoded.Text = Inquiry.Prettify(tagWithData.Data); break; case MediaTagType.SCSI_MODEPAGE_2A: txtDecoded.Text = Modes.PrettifyModePage_2A(tagWithData.Data); break; case MediaTagType.ATA_IDENTIFY: case MediaTagType.ATAPI_IDENTIFY: txtDecoded.Text = Identify.Prettify(tagWithData.Data); break; case MediaTagType.Xbox_SecuritySector: txtDecoded.Text = SS.Prettify(tagWithData.Data); break; case MediaTagType.SCSI_MODESENSE_6: txtDecoded.Text = Modes.PrettifyModeHeader6(tagWithData.Data, PeripheralDeviceTypes.DirectAccess); break; case MediaTagType.SCSI_MODESENSE_10: txtDecoded.Text = Modes.PrettifyModeHeader10(tagWithData.Data, PeripheralDeviceTypes.DirectAccess); break; case MediaTagType.Xbox_DMI: txtDecoded.Text = DMI.IsXbox360(tagWithData.Data) ? DMI.PrettifyXbox360(tagWithData.Data) : DMI.PrettifyXbox(tagWithData.Data); break; default: tabDecoded.Visible = false; break; } }
internal void LoadData(byte[] toc, byte[] atip, byte[] compactDiscInformation, byte[] session, byte[] rawToc, byte[] pma, byte[] cdTextLeadIn, TOC.CDTOC?decodedToc, ATIP.CDATIP?decodedAtip, Session.CDSessionInfo?decodedSession, FullTOC.CDFullTOC?fullToc, CDTextOnLeadIn.CDText?decodedCdTextLeadIn, DiscInformation.StandardDiscInformation?decodedCompactDiscInformation, string mcn, Dictionary <byte, string> isrcs) { tocData = toc; atipData = atip; compactDiscInformationData = compactDiscInformation; sessionData = session; rawTocData = rawToc; pmaData = pma; cdTextLeadInData = cdTextLeadIn; if (decodedCompactDiscInformation.HasValue) { tabCdInformation.Visible = true; txtCdInformation.Text = DiscInformation.Prettify000b(decodedCompactDiscInformation); btnCdInformation.Visible = compactDiscInformation != null; } if (decodedToc.HasValue) { tabCdToc.Visible = true; txtCdToc.Text = TOC.Prettify(decodedToc); btnCdToc.Visible = toc != null; } if (fullToc.HasValue) { tabCdFullToc.Visible = true; txtCdFullToc.Text = FullTOC.Prettify(fullToc); btnCdFullToc.Visible = rawToc != null; } if (decodedSession.HasValue) { tabCdSession.Visible = true; txtCdSession.Text = Session.Prettify(decodedSession); btnCdSession.Visible = session != null; } if (decodedCdTextLeadIn.HasValue) { tabCdText.Visible = true; txtCdText.Text = CDTextOnLeadIn.Prettify(decodedCdTextLeadIn); btnCdText.Visible = cdTextLeadIn != null; } if (decodedAtip.HasValue) { tabCdAtip.Visible = true; txtCdAtip.Text = ATIP.Prettify(atip); btnCdAtip.Visible = atip != null; } if (!string.IsNullOrEmpty(mcn)) { stkMcn.Visible = true; txtMcn.Text = mcn; } if (isrcs != null && isrcs.Count > 0) { grpIsrcs.Visible = true; TreeGridItemCollection isrcsItems = new TreeGridItemCollection(); grdIsrcs.Columns.Add(new GridColumn { HeaderText = "ISRC", DataCell = new TextBoxCell(0) }); grdIsrcs.Columns.Add(new GridColumn { HeaderText = "Track", DataCell = new TextBoxCell(0) }); grdIsrcs.AllowMultipleSelection = false; grdIsrcs.ShowHeader = true; grdIsrcs.DataStore = isrcsItems; foreach (KeyValuePair <byte, string> isrc in isrcs) { isrcsItems.Add(new TreeGridItem { Values = new object[] { isrc.Key.ToString(), isrc.Value } }); } } btnCdPma.Visible = pma != null; tabCdMisc.Visible = stkMcn.Visible || grpIsrcs.Visible || btnCdPma.Visible; Visible = tabCdInformation.Visible || tabCdToc.Visible || tabCdFullToc.Visible || tabCdSession.Visible || tabCdText.Visible || tabCdAtip.Visible || stkMcn.Visible || grpIsrcs.Visible || btnCdPma.Visible; }
static void DoScsiMediaInfo(bool debug, string outputPrefix, Devices.Device dev) { var scsiInfo = new ScsiInfo(dev); if (!scsiInfo.MediaInserted) { return; } if (scsiInfo.DeviceInfo.ScsiModeSense6 != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_scsi_modesense6.bin", "SCSI MODE SENSE (6)", scsiInfo.DeviceInfo.ScsiModeSense6); } if (scsiInfo.DeviceInfo.ScsiModeSense10 != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_scsi_modesense10.bin", "SCSI MODE SENSE (10)", scsiInfo.DeviceInfo.ScsiModeSense10); } switch (dev.ScsiType) { case PeripheralDeviceTypes.DirectAccess: case PeripheralDeviceTypes.MultiMediaDevice: case PeripheralDeviceTypes.OCRWDevice: case PeripheralDeviceTypes.OpticalDevice: case PeripheralDeviceTypes.SimplifiedDevice: case PeripheralDeviceTypes.WriteOnceDevice: case PeripheralDeviceTypes.BridgingExpander when dev.Model.StartsWith("MDM", StringComparison.Ordinal) || dev.Model.StartsWith("MDH", StringComparison.Ordinal): if (scsiInfo.ReadCapacity != null) DataFile.WriteTo("Media-Info command", outputPrefix, "_readcapacity.bin", "SCSI READ CAPACITY", scsiInfo.ReadCapacity); if (scsiInfo.ReadCapacity16 != null) DataFile.WriteTo("Media-Info command", outputPrefix, "_readcapacity16.bin", "SCSI READ CAPACITY(16)", scsiInfo.ReadCapacity16); if (scsiInfo.Blocks != 0 && scsiInfo.BlockSize != 0) { ulong totalSize = scsiInfo.Blocks * scsiInfo.BlockSize; if (totalSize > 1099511627776) { AaruConsole.WriteLine("Media has {0} blocks of {1} bytes/each. (for a total of {2:F3} TiB)", scsiInfo.Blocks, scsiInfo.BlockSize, totalSize / 1099511627776d); } else if (totalSize > 1073741824) { AaruConsole.WriteLine("Media has {0} blocks of {1} bytes/each. (for a total of {2:F3} GiB)", scsiInfo.Blocks, scsiInfo.BlockSize, totalSize / 1073741824d); } else if (totalSize > 1048576) { AaruConsole.WriteLine("Media has {0} blocks of {1} bytes/each. (for a total of {2:F3} MiB)", scsiInfo.Blocks, scsiInfo.BlockSize, totalSize / 1048576d); } else if (totalSize > 1024) { AaruConsole.WriteLine("Media has {0} blocks of {1} bytes/each. (for a total of {2:F3} KiB)", scsiInfo.Blocks, scsiInfo.BlockSize, totalSize / 1024d); } else { AaruConsole.WriteLine("Media has {0} blocks of {1} bytes/each. (for a total of {2} bytes)", scsiInfo.Blocks, scsiInfo.BlockSize, totalSize); } } break; case PeripheralDeviceTypes.SequentialAccess: if (scsiInfo.DensitySupport != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_ssc_reportdensitysupport_media.bin", "SSC REPORT DENSITY SUPPORT (MEDIA)", scsiInfo.DensitySupport); if (scsiInfo.DensitySupportHeader.HasValue) { AaruConsole.WriteLine("Densities supported by currently inserted media:"); AaruConsole.WriteLine(DensitySupport.PrettifyDensity(scsiInfo.DensitySupportHeader)); } } if (scsiInfo.MediaTypeSupport != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_ssc_reportdensitysupport_medium_media.bin", "SSC REPORT DENSITY SUPPORT (MEDIUM & MEDIA)", scsiInfo.MediaTypeSupport); if (scsiInfo.MediaTypeSupportHeader.HasValue) { AaruConsole.WriteLine("Medium types currently inserted in device:"); AaruConsole.WriteLine(DensitySupport.PrettifyMediumType(scsiInfo.MediaTypeSupportHeader)); } AaruConsole.WriteLine(DensitySupport.PrettifyMediumType(scsiInfo.MediaTypeSupport)); } break; } if (dev.ScsiType == PeripheralDeviceTypes.MultiMediaDevice) { if (scsiInfo.MmcConfiguration != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_getconfiguration_current.bin", "SCSI GET CONFIGURATION", scsiInfo.MmcConfiguration); } if (scsiInfo.RecognizedFormatLayers != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_formatlayers.bin", "SCSI READ DISC STRUCTURE", scsiInfo.RecognizedFormatLayers); } if (scsiInfo.WriteProtectionStatus != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_writeprotection.bin", "SCSI READ DISC STRUCTURE", scsiInfo.WriteProtectionStatus); } if (scsiInfo.DvdPfi != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_pfi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdPfi); if (scsiInfo.DecodedPfi.HasValue) { AaruConsole.WriteLine("PFI:\n{0}", PFI.Prettify(scsiInfo.DecodedPfi)); } } if (scsiInfo.DvdDmi != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_dmi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdDmi); if (DMI.IsXbox(scsiInfo.DvdDmi)) { AaruConsole.WriteLine("Xbox DMI:\n{0}", DMI.PrettifyXbox(scsiInfo.DvdDmi)); } else if (DMI.IsXbox360(scsiInfo.DvdDmi)) { AaruConsole.WriteLine("Xbox 360 DMI:\n{0}", DMI.PrettifyXbox360(scsiInfo.DvdDmi)); } } if (scsiInfo.DvdCmi != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_cmi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdCmi); AaruConsole.WriteLine("Lead-In CMI:\n{0}", CSS_CPRM.PrettifyLeadInCopyright(scsiInfo.DvdCmi)); } if (scsiInfo.DvdDiscKey != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_disckey.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdDiscKey); } if (scsiInfo.DvdSectorCmi != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_sectorcmi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdSectorCmi); } if (scsiInfo.DvdBca != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_bca.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdBca); } if (scsiInfo.DvdAacs != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_aacs.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdAacs); } if (scsiInfo.DvdRamDds != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdram_dds.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdRamDds); AaruConsole.WriteLine("Disc Definition Structure:\n{0}", DDS.Prettify(scsiInfo.DvdRamDds)); } if (scsiInfo.DvdRamCartridgeStatus != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdram_status.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdRamCartridgeStatus); AaruConsole.WriteLine("Medium Status:\n{0}", Cartridge.Prettify(scsiInfo.DvdRamCartridgeStatus)); } if (scsiInfo.DvdRamSpareArea != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdram_spare.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdRamSpareArea); AaruConsole.WriteLine("Spare Area Information:\n{0}", Spare.Prettify(scsiInfo.DvdRamSpareArea)); } if (scsiInfo.LastBorderOutRmd != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_lastrmd.bin", "SCSI READ DISC STRUCTURE", scsiInfo.LastBorderOutRmd); } if (scsiInfo.DvdPreRecordedInfo != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_pri.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdPreRecordedInfo); if (scsiInfo.DecodedDvdPrePitInformation.HasValue) { AaruConsole.WriteLine("DVD-R(W) Pre-Recorded Information:\n{0}", PRI.Prettify(scsiInfo.DecodedDvdPrePitInformation)); } } if (scsiInfo.DvdrMediaIdentifier != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdr_mediaid.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrMediaIdentifier); } if (scsiInfo.DvdrPhysicalInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdr_pfi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrPhysicalInformation); if (scsiInfo.DecodedDvdrPfi.HasValue) { AaruConsole.WriteLine("DVD-R(W) PFI:\n{0}", PFI.Prettify(scsiInfo.DecodedDvdrPfi)); } } if (scsiInfo.DvdPlusAdip != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd+_adip.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdPlusAdip); } if (scsiInfo.DvdPlusDcb != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd+_dcb.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdPlusDcb); } if (scsiInfo.HddvdCopyrightInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_hddvd_cmi.bin", "SCSI READ DISC STRUCTURE", scsiInfo.HddvdCopyrightInformation); } if (scsiInfo.HddvdrMediumStatus != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_hddvdr_status.bin", "SCSI READ DISC STRUCTURE", scsiInfo.HddvdrMediumStatus); } if (scsiInfo.HddvdrLastRmd != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_hddvdr_lastrmd.bin", "SCSI READ DISC STRUCTURE", scsiInfo.HddvdrLastRmd); } if (scsiInfo.DvdrLayerCapacity != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvdr_layercap.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrLayerCapacity); } if (scsiInfo.DvdrDlMiddleZoneStart != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_mzs.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrDlMiddleZoneStart); } if (scsiInfo.DvdrDlJumpIntervalSize != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_jis.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrDlJumpIntervalSize); } if (scsiInfo.DvdrDlManualLayerJumpStartLba != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_manuallj.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrDlManualLayerJumpStartLba); } if (scsiInfo.DvdrDlRemapAnchorPoint != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_dvd_remapanchor.bin", "SCSI READ DISC STRUCTURE", scsiInfo.DvdrDlRemapAnchorPoint); } if (scsiInfo.BlurayDiscInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_di.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayDiscInformation); AaruConsole.WriteLine("Blu-ray Disc Information:\n{0}", DI.Prettify(scsiInfo.BlurayDiscInformation)); } if (scsiInfo.BlurayPac != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_pac.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayPac); } if (scsiInfo.BlurayBurstCuttingArea != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_bca.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayBurstCuttingArea); AaruConsole.WriteLine("Blu-ray Burst Cutting Area:\n{0}", BCA.Prettify(scsiInfo.BlurayBurstCuttingArea)); } if (scsiInfo.BlurayDds != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_dds.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayDds); AaruConsole.WriteLine("Blu-ray Disc Definition Structure:\n{0}", Decoders.Bluray.DDS.Prettify(scsiInfo.BlurayDds)); } if (scsiInfo.BlurayCartridgeStatus != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_cartstatus.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayCartridgeStatus); AaruConsole.WriteLine("Blu-ray Cartridge Status:\n{0}", Decoders.Bluray.Cartridge.Prettify(scsiInfo.BlurayCartridgeStatus)); } if (scsiInfo.BluraySpareAreaInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_spare.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BluraySpareAreaInformation); AaruConsole.WriteLine("Blu-ray Spare Area Information:\n{0}", Decoders.Bluray.Spare.Prettify(scsiInfo.BluraySpareAreaInformation)); } if (scsiInfo.BlurayRawDfl != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscstructure_bd_dfl.bin", "SCSI READ DISC STRUCTURE", scsiInfo.BlurayRawDfl); } if (scsiInfo.BlurayTrackResources != null) { AaruConsole.WriteLine("Track Resources Information:\n{0}", DiscInformation.Prettify(scsiInfo.BlurayTrackResources)); DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscinformation_001b.bin", "SCSI READ DISC INFORMATION", scsiInfo.BlurayTrackResources); } if (scsiInfo.BlurayPowResources != null) { AaruConsole.WriteLine("POW Resources Information:\n{0}", DiscInformation.Prettify(scsiInfo.BlurayPowResources)); DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscinformation_010b.bin", "SCSI READ DISC INFORMATION", scsiInfo.BlurayPowResources); } if (scsiInfo.Toc != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_toc.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.Toc); if (scsiInfo.DecodedToc.HasValue) { AaruConsole.WriteLine("TOC:\n{0}", TOC.Prettify(scsiInfo.DecodedToc)); } } if (scsiInfo.Atip != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_atip.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.Atip); if (scsiInfo.DecodedAtip != null) { AaruConsole.WriteLine("ATIP:\n{0}", ATIP.Prettify(scsiInfo.DecodedAtip)); } } if (scsiInfo.DiscInformation != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_readdiscinformation_000b.bin", "SCSI READ DISC INFORMATION", scsiInfo.DiscInformation); if (scsiInfo.DecodedDiscInformation.HasValue) { AaruConsole.WriteLine("Standard Disc Information:\n{0}", DiscInformation.Prettify000b(scsiInfo.DecodedDiscInformation)); } } if (scsiInfo.Session != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_session.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.Session); if (scsiInfo.DecodedSession.HasValue) { AaruConsole.WriteLine("Session information:\n{0}", Session.Prettify(scsiInfo.DecodedSession)); } } if (scsiInfo.RawToc != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_rawtoc.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.RawToc); if (scsiInfo.FullToc.HasValue) { AaruConsole.WriteLine("Raw TOC:\n{0}", FullTOC.Prettify(scsiInfo.RawToc)); } } if (scsiInfo.Pma != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_pma.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.Pma); AaruConsole.WriteLine("PMA:\n{0}", PMA.Prettify(scsiInfo.Pma)); } if (scsiInfo.CdTextLeadIn != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_cdtext.bin", "SCSI READ TOC/PMA/ATIP", scsiInfo.CdTextLeadIn); if (scsiInfo.DecodedCdTextLeadIn.HasValue) { AaruConsole.WriteLine("CD-TEXT on Lead-In:\n{0}", CDTextOnLeadIn.Prettify(scsiInfo.DecodedCdTextLeadIn)); } } if (!string.IsNullOrEmpty(scsiInfo.Mcn)) { AaruConsole.WriteLine("MCN: {0}", scsiInfo.Mcn); } if (scsiInfo.Isrcs != null) { foreach (KeyValuePair <byte, string> isrc in scsiInfo.Isrcs) { AaruConsole.WriteLine("Track's {0} ISRC: {1}", isrc.Key, isrc.Value); } } if (scsiInfo.XboxSecuritySector != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_xbox_ss.bin", "KREON EXTRACT SS", scsiInfo.XboxSecuritySector); } if (scsiInfo.DecodedXboxSecuritySector.HasValue) { AaruConsole.WriteLine("Xbox Security Sector:\n{0}", SS.Prettify(scsiInfo.DecodedXboxSecuritySector)); } if (scsiInfo.XgdInfo != null) { AaruConsole.WriteLine("Video layer 0 size: {0} sectors", scsiInfo.XgdInfo.L0Video); AaruConsole.WriteLine("Video layer 1 size: {0} sectors", scsiInfo.XgdInfo.L1Video); AaruConsole.WriteLine("Middle zone size: {0} sectors", scsiInfo.XgdInfo.MiddleZone); AaruConsole.WriteLine("Game data size: {0} sectors", scsiInfo.XgdInfo.GameSize); AaruConsole.WriteLine("Total size: {0} sectors", scsiInfo.XgdInfo.TotalSize); AaruConsole.WriteLine("Real layer break: {0}", scsiInfo.XgdInfo.LayerBreak); AaruConsole.WriteLine(); } } if (scsiInfo.MediaSerialNumber != null) { DataFile.WriteTo("Media-Info command", outputPrefix, "_mediaserialnumber.bin", "SCSI READ MEDIA SERIAL NUMBER", scsiInfo.MediaSerialNumber); AaruConsole.Write("Media Serial Number: "); for (int i = 4; i < scsiInfo.MediaSerialNumber.Length; i++) { AaruConsole.Write("{0:X2}", scsiInfo.MediaSerialNumber[i]); } AaruConsole.WriteLine(); } AaruConsole.WriteLine("Media identified as {0}", scsiInfo.MediaType); Statistics.AddMedia(scsiInfo.MediaType, true); if (scsiInfo.Toc != null || scsiInfo.RawToc != null) { Track[] tracks = Dump.GetCdTracks(dev, null, false, out long lastSector, null, null, null, out _, null, null); if (tracks != null) { uint firstLba = (uint)tracks.Min(t => t.TrackStartSector); bool supportsPqSubchannel = Dump.SupportsPqSubchannel(dev, null, null, firstLba); bool supportsRwSubchannel = Dump.SupportsRwSubchannel(dev, null, null, firstLba); // Open main database var ctx = AaruContext.Create(Settings.Settings.MainDbPath); // Search for device in main database Aaru.Database.Models.Device dbDev = ctx.Devices.FirstOrDefault(d => d.Manufacturer == dev.Manufacturer && d.Model == dev.Model && d.Revision == dev.FirmwareRevision); Dump.SolveTrackPregaps(dev, null, null, tracks, supportsPqSubchannel, supportsRwSubchannel, dbDev, out bool inexactPositioning, false); for (int t = 1; t < tracks.Length; t++) { tracks[t - 1].TrackEndSector = tracks[t].TrackStartSector - 1; } tracks[^ 1].TrackEndSector = (ulong)lastSector;