using MediaBrowser.Common.Configuration; using MediaBrowser.Controller.Configuration; using MediaBrowser.Controller.Library; using MediaBrowser.Controller.MediaEncoding; using MediaBrowser.Controller.Session; using MediaBrowser.Model.Configuration; using MediaBrowser.Model.Dto; using MediaBrowser.Model.Entities; using MediaBrowser.Model.IO; using MediaBrowser.Model.Logging; using MediaBrowser.Model.MediaInfo; using System; using System.Collections.Generic; using System.Globalization; using System.IO; using System.Text; using System.Threading; using System.Threading.Tasks; using MediaBrowser.Model.Diagnostics; using MediaBrowser.Model.Dlna; namespace MediaBrowser.MediaEncoding.Encoder { public abstract class BaseEncoder { protected readonly MediaEncoder MediaEncoder; protected readonly ILogger Logger; protected readonly IServerConfigurationManager ConfigurationManager; protected readonly IFileSystem FileSystem; protected readonly IIsoManager IsoManager; protected readonly ILibraryManager LibraryManager; protected readonly ISessionManager SessionManager; protected readonly ISubtitleEncoder SubtitleEncoder; protected readonly IMediaSourceManager MediaSourceManager; protected IProcessFactory ProcessFactory; protected readonly CultureInfo UsCulture = new CultureInfo("en-US"); protected EncodingHelper EncodingHelper; protected BaseEncoder(MediaEncoder mediaEncoder, ILogger logger, IServerConfigurationManager configurationManager, IFileSystem fileSystem, IIsoManager isoManager, ILibraryManager libraryManager, ISessionManager sessionManager, ISubtitleEncoder subtitleEncoder, IMediaSourceManager mediaSourceManager, IProcessFactory processFactory) { MediaEncoder = mediaEncoder; Logger = logger; ConfigurationManager = configurationManager; FileSystem = fileSystem; IsoManager = isoManager; LibraryManager = libraryManager; SessionManager = sessionManager; SubtitleEncoder = subtitleEncoder; MediaSourceManager = mediaSourceManager; ProcessFactory = processFactory; EncodingHelper = new EncodingHelper(MediaEncoder, ConfigurationManager, FileSystem, SubtitleEncoder); } public async Task Start(EncodingJobOptions options, IProgress progress, CancellationToken cancellationToken) { var encodingJob = await new EncodingJobFactory(Logger, LibraryManager, MediaSourceManager, ConfigurationManager, MediaEncoder) .CreateJob(options, EncodingHelper, IsVideoEncoder, progress, cancellationToken).ConfigureAwait(false); encodingJob.OutputFilePath = GetOutputFilePath(encodingJob); FileSystem.CreateDirectory(Path.GetDirectoryName(encodingJob.OutputFilePath)); encodingJob.ReadInputAtNativeFramerate = options.ReadInputAtNativeFramerate; await AcquireResources(encodingJob, cancellationToken).ConfigureAwait(false); var commandLineArgs = await GetCommandLineArguments(encodingJob).ConfigureAwait(false); var process = ProcessFactory.Create(new ProcessOptions { CreateNoWindow = true, UseShellExecute = false, // Must consume both stdout and stderr or deadlocks may occur //RedirectStandardOutput = true, RedirectStandardError = true, RedirectStandardInput = true, FileName = MediaEncoder.EncoderPath, Arguments = commandLineArgs, IsHidden = true, ErrorDialog = false, EnableRaisingEvents = true }); var workingDirectory = GetWorkingDirectory(options); if (!string.IsNullOrWhiteSpace(workingDirectory)) { process.StartInfo.WorkingDirectory = workingDirectory; } OnTranscodeBeginning(encodingJob); var commandLineLogMessage = process.StartInfo.FileName + " " + process.StartInfo.Arguments; Logger.Info(commandLineLogMessage); var logFilePath = Path.Combine(ConfigurationManager.CommonApplicationPaths.LogDirectoryPath, "transcode-" + Guid.NewGuid() + ".txt"); FileSystem.CreateDirectory(Path.GetDirectoryName(logFilePath)); // FFMpeg writes debug/error info to stderr. This is useful when debugging so let's put it in the log directory. encodingJob.LogFileStream = FileSystem.GetFileStream(logFilePath, FileOpenMode.Create, FileAccessMode.Write, FileShareMode.Read, true); var commandLineLogMessageBytes = Encoding.UTF8.GetBytes(commandLineLogMessage + Environment.NewLine + Environment.NewLine); await encodingJob.LogFileStream.WriteAsync(commandLineLogMessageBytes, 0, commandLineLogMessageBytes.Length, cancellationToken).ConfigureAwait(false); process.Exited += (sender, args) => OnFfMpegProcessExited(process, encodingJob); try { process.Start(); } catch (Exception ex) { Logger.ErrorException("Error starting ffmpeg", ex); OnTranscodeFailedToStart(encodingJob.OutputFilePath, encodingJob); throw; } cancellationToken.Register(() => Cancel(process, encodingJob)); // MUST read both stdout and stderr asynchronously or a deadlock may occurr //process.BeginOutputReadLine(); // Important - don't await the log task or we won't be able to kill ffmpeg when the user stops playback new JobLogger(Logger).StartStreamingLog(encodingJob, process.StandardError.BaseStream, encodingJob.LogFileStream); // Wait for the file to exist before proceeeding while (!FileSystem.FileExists(encodingJob.OutputFilePath) && !encodingJob.HasExited) { await Task.Delay(100, cancellationToken).ConfigureAwait(false); } return encodingJob; } private void Cancel(IProcess process, EncodingJob job) { Logger.Info("Killing ffmpeg process for {0}", job.OutputFilePath); //process.Kill(); process.StandardInput.WriteLine("q"); job.IsCancelled = true; } /// /// Processes the exited. /// /// The process. /// The job. private void OnFfMpegProcessExited(IProcess process, EncodingJob job) { job.HasExited = true; Logger.Debug("Disposing stream resources"); job.Dispose(); var isSuccesful = false; try { var exitCode = process.ExitCode; Logger.Info("FFMpeg exited with code {0}", exitCode); isSuccesful = exitCode == 0; } catch { Logger.Error("FFMpeg exited with an error."); } if (isSuccesful && !job.IsCancelled) { job.TaskCompletionSource.TrySetResult(true); } else if (job.IsCancelled) { try { DeleteFiles(job); } catch { } try { job.TaskCompletionSource.TrySetException(new OperationCanceledException()); } catch { } } else { try { DeleteFiles(job); } catch { } try { job.TaskCompletionSource.TrySetException(new Exception("Encoding failed")); } catch { } } // This causes on exited to be called twice: //try //{ // // Dispose the process // process.Dispose(); //} //catch (Exception ex) //{ // Logger.ErrorException("Error disposing ffmpeg.", ex); //} } protected virtual void DeleteFiles(EncodingJob job) { FileSystem.DeleteFile(job.OutputFilePath); } private void OnTranscodeBeginning(EncodingJob job) { job.ReportTranscodingProgress(null, null, null, null); } private void OnTranscodeFailedToStart(string path, EncodingJob job) { if (!string.IsNullOrWhiteSpace(job.Options.DeviceId)) { SessionManager.ClearTranscodingInfo(job.Options.DeviceId); } } protected abstract bool IsVideoEncoder { get; } protected virtual string GetWorkingDirectory(EncodingJobOptions options) { return null; } protected EncodingOptions GetEncodingOptions() { return ConfigurationManager.GetConfiguration("encoding"); } protected abstract Task GetCommandLineArguments(EncodingJob job); private string GetOutputFilePath(EncodingJob state) { var folder = string.IsNullOrWhiteSpace(state.Options.OutputDirectory) ? ConfigurationManager.ApplicationPaths.TranscodingTempPath : state.Options.OutputDirectory; var outputFileExtension = GetOutputFileExtension(state); var filename = state.Id + (outputFileExtension ?? string.Empty).ToLower(); return Path.Combine(folder, filename); } protected virtual string GetOutputFileExtension(EncodingJob state) { if (!string.IsNullOrWhiteSpace(state.Options.OutputContainer)) { return "." + state.Options.OutputContainer; } return null; } /// /// Gets the name of the output video codec /// /// The state. /// System.String. protected string GetVideoDecoder(EncodingJob state) { if (string.Equals(state.OutputVideoCodec, "copy", StringComparison.OrdinalIgnoreCase)) { return null; } // Only use alternative encoders for video files. // When using concat with folder rips, if the mfx session fails to initialize, ffmpeg will be stuck retrying and will not exit gracefully // Since transcoding of folder rips is expiremental anyway, it's not worth adding additional variables such as this. if (state.VideoType != VideoType.VideoFile) { return null; } if (state.VideoStream != null && !string.IsNullOrWhiteSpace(state.VideoStream.Codec)) { if (string.Equals(GetEncodingOptions().HardwareAccelerationType, "qsv", StringComparison.OrdinalIgnoreCase)) { switch (state.MediaSource.VideoStream.Codec.ToLower()) { case "avc": case "h264": if (MediaEncoder.SupportsDecoder("h264_qsv")) { // Seeing stalls and failures with decoding. Not worth it compared to encoding. return "-c:v h264_qsv "; } break; case "mpeg2video": if (MediaEncoder.SupportsDecoder("mpeg2_qsv")) { return "-c:v mpeg2_qsv "; } break; case "vc1": if (MediaEncoder.SupportsDecoder("vc1_qsv")) { return "-c:v vc1_qsv "; } break; } } } // leave blank so ffmpeg will decide return null; } private async Task AcquireResources(EncodingJob state, CancellationToken cancellationToken) { if (state.VideoType == VideoType.Iso && state.IsoType.HasValue && IsoManager.CanMount(state.MediaPath)) { state.IsoMount = await IsoManager.Mount(state.MediaPath, cancellationToken).ConfigureAwait(false); } if (state.MediaSource.RequiresOpening && string.IsNullOrWhiteSpace(state.LiveStreamId)) { var liveStreamResponse = await MediaSourceManager.OpenLiveStream(new LiveStreamRequest { OpenToken = state.MediaSource.OpenToken }, false, cancellationToken).ConfigureAwait(false); EncodingHelper.AttachMediaSourceInfo(state, liveStreamResponse.MediaSource, null); if (state.IsVideoRequest) { EncodingHelper.TryStreamCopy(state); } } if (state.MediaSource.BufferMs.HasValue) { await Task.Delay(state.MediaSource.BufferMs.Value, cancellationToken).ConfigureAwait(false); } } } }