Ejemplo n.º 1
0
        // Now to the audio transfer functions, the sequence how
        // the functions are called is:
        // StartNewSession
        // StartNewTransfer
        // TransferAudio
        // ...
        // TransferAudio
        // TransferFinshed
        // Then perhaps repeating StartNewTransfer to TransferFinished
        // (e.g. when extracting several tracks), and finally
        // EndOfSession
        // This is called just before the log window will be
        // shown. You can return a log output in that stage (or
        // even display a window of your own - even though it should
        // not annoy the user)

        // StartNewSession is called once at the very beginning of an
        // extraction session. It receives the CD metadata, the
        // name of the used drive, the used read offset and whether
        // the offset was setted by AccurateRip (so having a comparable
        // offset value)

        public void StartNewSession(IMetadataLookup data, string drivename, int offset, bool aroffset, int mode)
        {
            // Copy the CD metadata to the object
            m_data = data;

#if DEBUG
            m_trace = new StringWriter();
#endif

            var parts = drivename.Split(' ');
            m_drivename = parts[0].PadRight(8, ' ') + " -";
            for (int i = 1; i < parts.Length; i++)
            {
                m_drivename += " " + parts[i];
            }

            TOC = new CDImageLayout();
            for (int i = 0; i < m_data.NumberOfTracks; i++)
            {
                uint start = m_data.GetTrackStartPosition(i);
                uint next  = m_data.GetTrackEndPosition(i);
                TOC.AddTrack(new CDTrack(
                                 (uint)i + 1,
                                 start,
                                 next - start,
                                 !m_data.GetTrackDataTrack(i),
                                 m_data.GetTrackPreemphasis(i)));
            }
            TOC[1][0].Start = 0U;
            ar     = new AccurateRipVerify(TOC, null);
            arTest = new AccurateRipVerify(TOC, null);
            ctdb   = new CUEToolsDB(TOC, null);
#if USEAR
            ArId = AccurateRipVerify.CalculateAccurateRipId(TOC);
            ar.ContactAccurateRip(ArId);
#endif
            ctdb.Init(ar);
            this.sequence_ok      = true;
            this.m_start_pos      = 0;
            this.m_length         = 0;
            this.m_suspicious     = 0;
            this.m_suspiciousTest = 0;
            this.m_test_mode      = false;
            this.is_offset_set    = aroffset;
            this.is_secure_mode   = mode >= 2;
        }
Ejemplo n.º 2
0
        static void Main(string[] args)
        {
            Console.SetOut(Console.Error);
            Console.WriteLine("CUERipper v2.1.7 Copyright (C) 2008-10 Grigory Chudov");
            Console.WriteLine("This is free software under the GNU GPLv3+ license; There is NO WARRANTY, to");
            Console.WriteLine("the extent permitted by law. <http://www.gnu.org/licenses/> for details.");

            int    correctionQuality = 1;
            string driveLetter       = null;
            int    driveOffset       = 0;
            bool   test = false;
            bool   forceD8 = false, forceBE = false, quiet = false;

            for (int arg = 0; arg < args.Length; arg++)
            {
                bool ok = true;
                if (args[arg] == "-P" || args[arg] == "--paranoid")
                {
                    correctionQuality = 2;
                }
                else if (args[arg] == "-S" || args[arg] == "--secure")
                {
                    correctionQuality = 1;
                }
                else if (args[arg] == "-B" || args[arg] == "--burst")
                {
                    correctionQuality = 0;
                }
                else if (args[arg] == "-T" || args[arg] == "--test")
                {
                    test = true;
                }
                else if (args[arg] == "--d8")
                {
                    forceD8 = true;
                }
                else if (args[arg] == "--be")
                {
                    forceBE = true;
                }
                else if (args[arg] == "-Q" || args[arg] == "--quiet")
                {
                    quiet = true;
                }
                else if ((args[arg] == "-D" || args[arg] == "--drive") && ++arg < args.Length)
                {
                    driveLetter = args[arg];
                }
                else if ((args[arg] == "-O" || args[arg] == "--offset") && ++arg < args.Length)
                {
                    ok = int.TryParse(args[arg], out driveOffset);
                }
                else
                {
                    ok = false;
                }
                if (!ok)
                {
                    Usage();
                    return;
                }
            }

            char[] drives;
            if (driveLetter == null || driveLetter.Length < 1)
            {
                drives = CDDrivesList.DrivesAvailable();
                if (drives.Length < 1)
                {
                    Console.WriteLine("No CD drives found.");
                    return;
                }
            }
            else
            {
                drives    = new char[1];
                drives[0] = driveLetter[0];
            }

#if !DEBUG
            try
#endif
            {
                CDDriveReader audioSource = new CDDriveReader();
                audioSource.Open(drives[0]);

                if (audioSource.TOC.AudioTracks < 1)
                {
                    Console.WriteLine("{0}: CD does not contain any audio tracks.", audioSource.Path);
                    audioSource.Close();
                    return;
                }
                if (driveOffset == 0)
                {
                    if (!AccurateRipVerify.FindDriveReadOffset(audioSource.ARName, out driveOffset))
                    {
                        Console.WriteLine("Unknown read offset for drive {0}!!!", audioSource.Path);
                    }
                }
                //throw new Exception("Failed to find drive read offset for drive" + audioSource.ARName);

                audioSource.DriveOffset       = driveOffset;
                audioSource.CorrectionQuality = correctionQuality;
                audioSource.DebugMessages     = !quiet;
                if (forceD8)
                {
                    audioSource.ForceD8 = true;
                }
                if (forceBE)
                {
                    audioSource.ForceBE = true;
                }
                string readCmd = audioSource.AutoDetectReadCommand;
                if (test)
                {
                    Console.Write(readCmd);
                    return;
                }

                AccurateRipVerify arVerify = new AccurateRipVerify(audioSource.TOC, WebRequest.GetSystemWebProxy());
                AudioBuffer       buff     = new AudioBuffer(audioSource, 0x10000);
                string            CDDBId   = AccurateRipVerify.CalculateCDDBId(audioSource.TOC);
                string            ArId     = AccurateRipVerify.CalculateAccurateRipId(audioSource.TOC);
                var ctdb = new CUEToolsDB(audioSource.TOC, null);
                ctdb.Init(arVerify);
                ctdb.ContactDB(null, "CUETools.ConsoleRipper 2.1.7", audioSource.ARName, true, false, CTDBMetadataSearch.Fast);
                arVerify.ContactAccurateRip(ArId);
                CTDBResponseMeta meta = null;
                foreach (var imeta in ctdb.Metadata)
                {
                    meta = imeta;
                    break;
                }

                //string destFile = (release == null) ? "cdimage.flac" : release.GetArtist() + " - " + release.GetTitle() + ".flac";
                string destFile = (meta == null) ? "cdimage.wav" : meta.artist + " - " + meta.album + ".wav";

                Console.WriteLine("Drive       : {0}", audioSource.Path);
                Console.WriteLine("Read offset : {0}", audioSource.DriveOffset);
                Console.WriteLine("Read cmd    : {0}", audioSource.CurrentReadCommand);
                Console.WriteLine("Secure mode : {0}", audioSource.CorrectionQuality);
                Console.WriteLine("Filename    : {0}", destFile);
                Console.WriteLine("Disk length : {0}", CDImageLayout.TimeToString(audioSource.TOC.AudioLength));
                Console.WriteLine("AccurateRip : {0}", arVerify.ARStatus == null ? "ok" : arVerify.ARStatus);
                Console.WriteLine("MusicBrainz : {0}", meta == null ? "not found" : meta.artist + " - " + meta.album);

                ProgressMeter meter = new ProgressMeter();
                audioSource.ReadProgress += new EventHandler <ReadProgressArgs>(meter.ReadProgress);

                audioSource.DetectGaps();

                StringWriter cueWriter = new StringWriter();
                cueWriter.WriteLine("REM DISCID {0}", CDDBId);
                cueWriter.WriteLine("REM ACCURATERIPID {0}", ArId);
                cueWriter.WriteLine("REM COMMENT \"{0}\"", audioSource.RipperVersion);
                if (meta != null && meta.year != "")
                {
                    cueWriter.WriteLine("REM DATE {0}", meta.year);
                }
                if (audioSource.TOC.Barcode != null)
                {
                    cueWriter.WriteLine("CATALOG {0}", audioSource.TOC.Barcode);
                }
                if (meta != null)
                {
                    cueWriter.WriteLine("PERFORMER \"{0}\"", meta.artist);
                    cueWriter.WriteLine("TITLE \"{0}\"", meta.album);
                }
                cueWriter.WriteLine("FILE \"{0}\" WAVE", destFile);
                for (int track = 1; track <= audioSource.TOC.TrackCount; track++)
                {
                    if (audioSource.TOC[track].IsAudio)
                    {
                        cueWriter.WriteLine("  TRACK {0:00} AUDIO", audioSource.TOC[track].Number);
                        if (meta != null && meta.track.Length >= audioSource.TOC[track].Number)
                        {
                            cueWriter.WriteLine("    TITLE \"{0}\"", meta.track[(int)audioSource.TOC[track].Number - 1].name);
                            cueWriter.WriteLine("    PERFORMER \"{0}\"", meta.track[(int)audioSource.TOC[track].Number - 1].artist);
                        }
                        if (audioSource.TOC[track].ISRC != null)
                        {
                            cueWriter.WriteLine("    ISRC {0}", audioSource.TOC[track].ISRC);
                        }
                        if (audioSource.TOC[track].DCP || audioSource.TOC[track].PreEmphasis)
                        {
                            cueWriter.WriteLine("    FLAGS{0}{1}", audioSource.TOC[track].PreEmphasis ? " PRE" : "", audioSource.TOC[track].DCP ? " DCP" : "");
                        }
                        for (int index = audioSource.TOC[track].Pregap > 0 ? 0 : 1; index <= audioSource.TOC[track].LastIndex; index++)
                        {
                            cueWriter.WriteLine("    INDEX {0:00} {1}", index, audioSource.TOC[track][index].MSF);
                        }
                    }
                }
                cueWriter.Close();
                StreamWriter cueFile = new StreamWriter(Path.ChangeExtension(destFile, ".cue"));
                cueFile.Write(cueWriter.ToString());
                cueFile.Close();

                //IAudioDest audioDest = new FLACWriter(destFile, audioSource.BitsPerSample, audioSource.ChannelCount, audioSource.SampleRate);
                IAudioDest audioDest = new Codecs.WAV.AudioEncoder(new Codecs.WAV.EncoderSettings(audioSource.PCM), destFile);
                audioDest.FinalSampleCount = audioSource.Length;
                while (audioSource.Read(buff, -1) != 0)
                {
                    arVerify.Write(buff);
                    audioDest.Write(buff);
                }

                TimeSpan totalElapsed = DateTime.Now - meter.realStart;
                Console.Write("\r                                                                             \r");
                Console.WriteLine("Results     : {0:0.00}x; {1:d5} errors; {2:d2}:{3:d2}:{4:d2}",
                                  audioSource.Length / totalElapsed.TotalSeconds / audioSource.PCM.SampleRate,
                                  audioSource.FailedSectors.PopulationCount(),
                                  totalElapsed.Hours, totalElapsed.Minutes, totalElapsed.Seconds
                                  );
                audioDest.Close();

                StringWriter logWriter = new StringWriter();
                logWriter.WriteLine("{0}", audioSource.RipperVersion);
                logWriter.WriteLine("Extraction logfile from {0}", DateTime.Now);
                logWriter.WriteLine("Used drive  : {0}", audioSource.Path);
                logWriter.WriteLine("Read offset correction                      : {0}", audioSource.DriveOffset);
                bool wereErrors = false;
                for (int iTrack = 1; iTrack <= audioSource.TOC.AudioTracks; iTrack++)
                {
                    for (uint iSector = audioSource.TOC[iTrack].Start; iSector <= audioSource.TOC[iTrack].End; iSector++)
                    {
                        if (audioSource.FailedSectors[(int)iSector])
                        {
                            if (!wereErrors)
                            {
                                logWriter.WriteLine();
                                logWriter.WriteLine("Errors detected");
                                logWriter.WriteLine();
                            }
                            wereErrors = true;
                            logWriter.WriteLine("Track {0} contains errors", iTrack);
                            break;
                        }
                    }
                }
                logWriter.WriteLine();
                logWriter.WriteLine("TOC of the extracted CD");
                logWriter.WriteLine();
                logWriter.WriteLine("     Track |   Start  |  Length  | Start sector | End sector");
                logWriter.WriteLine("    ---------------------------------------------------------");
                for (int track = 1; track <= audioSource.TOC.TrackCount; track++)
                {
                    logWriter.WriteLine("{0,9}  | {1,8} | {2,8} | {3,9}    | {4,9}",
                                        audioSource.TOC[track].Number,
                                        audioSource.TOC[track].StartMSF,
                                        audioSource.TOC[track].LengthMSF,
                                        audioSource.TOC[track].Start,
                                        audioSource.TOC[track].End);
                }
                logWriter.WriteLine();
                logWriter.WriteLine("AccurateRip summary");
                logWriter.WriteLine();
                arVerify.GenerateFullLog(logWriter, true, ArId);
                logWriter.WriteLine();
                logWriter.WriteLine("End of status report");
                logWriter.Close();
                StreamWriter logFile = new StreamWriter(Path.ChangeExtension(destFile, ".log"));
                logFile.Write(logWriter.ToString());
                logFile.Close();

                audioSource.Close();

                //FLACReader tagger = new FLACReader(destFile, null);
                //tagger.Tags.Add("CUESHEET", cueWriter.ToString());
                //tagger.Tags.Add("LOG", logWriter.ToString());
                //tagger.UpdateTags(false);
            }
#if !DEBUG
            catch (Exception ex)
            {
                Console.WriteLine();
                Console.WriteLine("Error: {0}", ex.Message);
                Console.WriteLine("{0}", ex.StackTrace);
            }
#endif
        }