mirror of
https://github.com/aaru-dps/Aaru.git
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402 lines
17 KiB
C#
402 lines
17 KiB
C#
using System;
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using System.Collections.Generic;
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using System.IO;
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using System.Linq;
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using System.Text;
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using Aaru.Checksums;
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using Aaru.CommonTypes;
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using Aaru.CommonTypes.AaruMetadata;
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using Aaru.CommonTypes.Enums;
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using Aaru.CommonTypes.Interfaces;
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using Aaru.CommonTypes.Metadata;
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using Aaru.Console;
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using Aaru.Core;
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using Aaru.Core.Media;
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using Aaru.Devices;
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using NUnit.Framework;
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using File = System.IO.File;
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using ImageInfo = Aaru.CommonTypes.Structs.ImageInfo;
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using Track = Aaru.CommonTypes.Structs.Track;
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using Version = Aaru.CommonTypes.Interop.Version;
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namespace Aaru.Tests.Issues;
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/// <summary>
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/// This tests the conversion of an input image (autodetected) to an output image and checks that the resulting
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/// image has the same hash as it should
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/// </summary>
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// TODO: The algorithm should be in Core, not copied in 3 places
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public abstract class OpticalImageConvertIssueTest
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{
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public const int SECTORS_TO_READ = 256;
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public abstract Dictionary<string, string> ParsedOptions { get; }
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public abstract string DataFolder { get; }
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public abstract string InputPath { get; }
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public abstract string SuggestedOutputFilename { get; }
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public abstract IWritableImage OutputFormat { get; }
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public abstract string Md5 { get; }
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public abstract bool UseLong { get; }
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[Test]
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public void Convert()
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{
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Environment.CurrentDirectory = DataFolder;
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Resume resume = null;
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Metadata sidecar = null;
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ErrorNumber errno;
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var filtersList = new FiltersList();
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IFilter inputFilter = filtersList.GetFilter(InputPath);
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Assert.IsNotNull(inputFilter, Localization.Cannot_open_specified_file);
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string outputPath = Path.Combine(Path.GetTempPath(), SuggestedOutputFilename);
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Assert.IsFalse(File.Exists(outputPath), Localization.Output_file_already_exists_not_continuing);
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var inputFormat = ImageFormat.Detect(inputFilter) as IMediaImage;
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Assert.IsNotNull(inputFormat, Localization.Input_image_format_not_identified_not_proceeding_with_conversion);
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Assert.AreEqual(ErrorNumber.NoError, inputFormat.Open(inputFilter), Localization.Unable_to_open_image_format);
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Assert.IsTrue(OutputFormat.SupportedMediaTypes.Contains(inputFormat.Info.MediaType),
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Localization.Output_format_does_not_support_media_type_cannot_continue);
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if(inputFormat.Info.ReadableSectorTags.Count == 0)
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Assert.IsFalse(UseLong, Localization.Input_image_does_not_support_long_sectors);
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var inputOptical = inputFormat as IOpticalMediaImage;
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var outputOptical = OutputFormat as IWritableOpticalImage;
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Assert.IsNotNull(inputOptical, Localization.Could_not_treat_existing_image_as_optical_disc);
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Assert.IsNotNull(outputOptical, Localization.Could_not_treat_new_image_as_optical_disc);
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Assert.IsNotNull(inputOptical.Tracks, Localization.Existing_image_contains_no_tracks);
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Assert.IsTrue(outputOptical.Create(outputPath, inputFormat.Info.MediaType, ParsedOptions, inputFormat.Info.Sectors, inputFormat.Info.SectorSize),
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string.Format(Localization.Error_0_creating_output_image, outputOptical.ErrorMessage));
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var metadata = new ImageInfo
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{
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Application = "Aaru",
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ApplicationVersion = Version.GetVersion(),
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Comments = inputFormat.Info.Comments,
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Creator = inputFormat.Info.Creator,
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DriveFirmwareRevision = inputFormat.Info.DriveFirmwareRevision,
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DriveManufacturer = inputFormat.Info.DriveManufacturer,
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DriveModel = inputFormat.Info.DriveModel,
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DriveSerialNumber = inputFormat.Info.DriveSerialNumber,
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LastMediaSequence = inputFormat.Info.LastMediaSequence,
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MediaBarcode = inputFormat.Info.MediaBarcode,
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MediaManufacturer = inputFormat.Info.MediaManufacturer,
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MediaModel = inputFormat.Info.MediaModel,
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MediaPartNumber = inputFormat.Info.MediaPartNumber,
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MediaSequence = inputFormat.Info.MediaSequence,
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MediaSerialNumber = inputFormat.Info.MediaSerialNumber,
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MediaTitle = inputFormat.Info.MediaTitle
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};
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Assert.IsTrue(outputOptical.SetImageInfo(metadata),
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string.Format(Localization.Error_0_setting_metadata, outputOptical.ErrorMessage));
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Metadata aaruMetadata = inputFormat.AaruMetadata;
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List<DumpHardware> dumpHardware = inputFormat.DumpHardware;
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foreach(MediaTagType mediaTag in inputFormat.Info.ReadableMediaTags.Where(mediaTag =>
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outputOptical.SupportedMediaTags.Contains(mediaTag)))
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{
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AaruConsole.WriteLine(Localization.Converting_media_tag_0, mediaTag);
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errno = inputFormat.ReadMediaTag(mediaTag, out byte[] tag);
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Assert.AreEqual(ErrorNumber.NoError, errno);
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Assert.IsTrue(outputOptical.WriteMediaTag(tag, mediaTag));
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}
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AaruConsole.WriteLine(Localization._0_sectors_to_convert, inputFormat.Info.Sectors);
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ulong doneSectors;
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Assert.IsTrue(outputOptical.SetTracks(inputOptical.Tracks),
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string.Format(Localization.Error_0_sending_tracks_list_to_output_image,
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outputOptical.ErrorMessage));
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foreach(Track track in inputOptical.Tracks)
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{
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doneSectors = 0;
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ulong trackSectors = track.EndSector - track.StartSector + 1;
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while(doneSectors < trackSectors)
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{
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byte[] sector;
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uint sectorsToDo;
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if(trackSectors - doneSectors >= SECTORS_TO_READ)
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sectorsToDo = SECTORS_TO_READ;
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else
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sectorsToDo = (uint)(trackSectors - doneSectors);
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bool useNotLong = false;
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bool result = false;
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if(UseLong)
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{
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errno = sectorsToDo == 1 ? inputFormat.ReadSectorLong(doneSectors + track.StartSector, out sector)
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: inputFormat.ReadSectorsLong(doneSectors + track.StartSector, sectorsToDo, out sector);
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if(errno == ErrorNumber.NoError)
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result = sectorsToDo == 1
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? outputOptical.WriteSectorLong(sector, doneSectors + track.StartSector)
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: outputOptical.WriteSectorsLong(sector, doneSectors + track.StartSector,
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sectorsToDo);
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else
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result = true;
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if(!result &&
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sector.Length % 2352 != 0)
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useNotLong = true;
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}
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if(!UseLong || useNotLong)
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{
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errno = sectorsToDo == 1 ? inputFormat.ReadSector(doneSectors + track.StartSector, out sector)
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: inputFormat.ReadSectors(doneSectors + track.StartSector, sectorsToDo, out sector);
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Assert.AreEqual(ErrorNumber.NoError, errno);
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result = sectorsToDo == 1 ? outputOptical.WriteSector(sector, doneSectors + track.StartSector)
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: outputOptical.WriteSectors(sector, doneSectors + track.StartSector, sectorsToDo);
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}
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Assert.IsTrue(result,
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string.Format(Localization.Error_0_writing_sector_1_not_continuing,
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outputOptical.ErrorMessage, doneSectors + track.StartSector));
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doneSectors += sectorsToDo;
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}
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}
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Dictionary<byte, string> isrcs = new();
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Dictionary<byte, byte> trackFlags = new();
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string mcn = null;
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HashSet<int> subchannelExtents = new();
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Dictionary<byte, int> smallestPregapLbaPerTrack = new();
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Track[] tracks = new Track[inputOptical.Tracks.Count];
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for(int i = 0; i < tracks.Length; i++)
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{
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tracks[i] = new Track
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{
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Indexes = new Dictionary<ushort, int>(),
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Description = inputOptical.Tracks[i].Description,
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EndSector = inputOptical.Tracks[i].EndSector,
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StartSector = inputOptical.Tracks[i].StartSector,
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Pregap = inputOptical.Tracks[i].Pregap,
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Sequence = inputOptical.Tracks[i].Sequence,
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Session = inputOptical.Tracks[i].Session,
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BytesPerSector = inputOptical.Tracks[i].BytesPerSector,
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RawBytesPerSector = inputOptical.Tracks[i].RawBytesPerSector,
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Type = inputOptical.Tracks[i].Type,
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SubchannelType = inputOptical.Tracks[i].SubchannelType
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};
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foreach(KeyValuePair<ushort, int> idx in inputOptical.Tracks[i].Indexes)
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tracks[i].Indexes[idx.Key] = idx.Value;
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}
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foreach(SectorTagType tag in inputFormat.Info.ReadableSectorTags.Where(t => t == SectorTagType.CdTrackIsrc).
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OrderBy(t => t))
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{
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foreach(Track track in tracks)
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{
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errno = inputFormat.ReadSectorTag(track.Sequence, tag, out byte[] isrc);
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if(errno != ErrorNumber.NoError)
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continue;
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isrcs[(byte)track.Sequence] = Encoding.UTF8.GetString(isrc);
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}
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}
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foreach(SectorTagType tag in inputFormat.Info.ReadableSectorTags.Where(t => t == SectorTagType.CdTrackFlags).
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OrderBy(t => t))
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{
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foreach(Track track in tracks)
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{
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errno = inputFormat.ReadSectorTag(track.Sequence, tag, out byte[] flags);
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if(errno != ErrorNumber.NoError)
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continue;
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trackFlags[(byte)track.Sequence] = flags[0];
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}
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}
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for(ulong s = 0; s < inputFormat.Info.Sectors; s++)
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{
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if(s > int.MaxValue)
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break;
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subchannelExtents.Add((int)s);
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}
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foreach(SectorTagType tag in inputFormat.Info.ReadableSectorTags.OrderBy(t => t).TakeWhile(_ => UseLong))
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{
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switch(tag)
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{
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case SectorTagType.AppleSectorTag:
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case SectorTagType.CdSectorSync:
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case SectorTagType.CdSectorHeader:
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case SectorTagType.CdSectorSubHeader:
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case SectorTagType.CdSectorEdc:
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case SectorTagType.CdSectorEccP:
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case SectorTagType.CdSectorEccQ:
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case SectorTagType.CdSectorEcc:
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// This tags are inline in long sector
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continue;
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}
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if(!outputOptical.SupportedSectorTags.Contains(tag))
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continue;
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foreach(Track track in inputOptical.Tracks)
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{
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doneSectors = 0;
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ulong trackSectors = track.EndSector - track.StartSector + 1;
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byte[] sector;
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bool result;
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switch(tag)
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{
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case SectorTagType.CdTrackFlags:
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case SectorTagType.CdTrackIsrc:
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errno = inputFormat.ReadSectorTag(track.Sequence, tag, out sector);
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if(errno == ErrorNumber.NoData)
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continue;
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Assert.AreEqual(ErrorNumber.NoError, errno,
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string.Format(Localization.Error_0_reading_tag_not_continuing, errno));
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result = outputOptical.WriteSectorTag(sector, track.Sequence, tag);
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Assert.IsTrue(result,
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string.Format(Localization.Error_0_writing_tag_not_continuing,
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outputOptical.ErrorMessage));
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continue;
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}
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while(doneSectors < trackSectors)
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{
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uint sectorsToDo;
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if(trackSectors - doneSectors >= SECTORS_TO_READ)
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sectorsToDo = SECTORS_TO_READ;
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else
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sectorsToDo = (uint)(trackSectors - doneSectors);
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if(sectorsToDo == 1)
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{
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errno = inputFormat.ReadSectorTag(doneSectors + track.StartSector, tag, out sector);
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Assert.AreEqual(ErrorNumber.NoError, errno,
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string.Format(Localization.Error_0_reading_tag_not_continuing, errno));
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if(tag == SectorTagType.CdSectorSubchannel)
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{
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bool indexesChanged = CompactDisc.WriteSubchannelToImage(MmcSubchannel.Raw,
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MmcSubchannel.Raw, sector, doneSectors + track.StartSector, 1, null, isrcs,
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(byte)track.Sequence, ref mcn, tracks, subchannelExtents, true, outputOptical,
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true, true, null, null, smallestPregapLbaPerTrack, false, out _);
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if(indexesChanged)
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outputOptical.SetTracks(tracks.ToList());
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result = true;
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}
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else
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result = outputOptical.WriteSectorTag(sector, doneSectors + track.StartSector, tag);
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}
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else
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{
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errno = inputFormat.ReadSectorsTag(doneSectors + track.StartSector, sectorsToDo, tag,
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out sector);
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Assert.AreEqual(ErrorNumber.NoError, errno,
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string.Format(Localization.Error_0_reading_tag_not_continuing, errno));
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if(tag == SectorTagType.CdSectorSubchannel)
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{
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bool indexesChanged = CompactDisc.WriteSubchannelToImage(MmcSubchannel.Raw,
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MmcSubchannel.Raw, sector, doneSectors + track.StartSector, sectorsToDo, null,
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isrcs, (byte)track.Sequence, ref mcn, tracks, subchannelExtents, true,
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outputOptical, true, true, null, null, smallestPregapLbaPerTrack, false, out _);
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if(indexesChanged)
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outputOptical.SetTracks(tracks.ToList());
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result = true;
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}
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else
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result = outputOptical.WriteSectorsTag(sector, doneSectors + track.StartSector, sectorsToDo,
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tag);
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}
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Assert.IsTrue(result,
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string.Format(Localization.Error_0_writing_tag_for_sector_1_not_continuing,
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outputOptical.ErrorMessage, doneSectors + track.StartSector));
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doneSectors += sectorsToDo;
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}
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}
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}
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if(isrcs.Count > 0)
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foreach(KeyValuePair<byte, string> isrc in isrcs)
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outputOptical.WriteSectorTag(Encoding.UTF8.GetBytes(isrc.Value), isrc.Key, SectorTagType.CdTrackIsrc);
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if(trackFlags.Count > 0)
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foreach((byte track, byte flags) in trackFlags)
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outputOptical.WriteSectorTag(new[]
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{
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flags
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}, track, SectorTagType.CdTrackFlags);
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if(mcn != null)
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outputOptical.WriteMediaTag(Encoding.UTF8.GetBytes(mcn), MediaTagType.CD_MCN);
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if(resume != null ||
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dumpHardware != null)
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{
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if(resume != null)
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outputOptical.SetDumpHardware(resume.Tries);
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else if(dumpHardware != null)
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outputOptical.SetDumpHardware(dumpHardware);
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}
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if(sidecar != null ||
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aaruMetadata != null)
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{
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if(sidecar != null)
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outputOptical.SetMetadata(sidecar);
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else if(aaruMetadata != null)
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outputOptical.SetMetadata(aaruMetadata);
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}
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Assert.True(outputOptical.Close(),
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string.Format(Localization.Error_0_closing_output_image_Contents_are_not_correct,
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outputOptical.ErrorMessage));
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// Some images will never generate the same
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if(Md5 != null)
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{
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string md5 = Md5Context.File(outputPath, out _);
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Assert.AreEqual(Md5, md5, Localization.Hashes_are_different);
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}
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File.Delete(outputPath);
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}
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} |