using MediaBrowser.Common.IO; using MediaBrowser.Controller.Channels; using MediaBrowser.Controller.Configuration; using MediaBrowser.Controller.Library; using MediaBrowser.Controller.LiveTv; using MediaBrowser.Controller.MediaEncoding; using MediaBrowser.Controller.Session; using MediaBrowser.MediaEncoding.Probing; using MediaBrowser.Model.Dlna; using MediaBrowser.Model.Entities; using MediaBrowser.Model.IO; using MediaBrowser.Model.Logging; using MediaBrowser.Model.MediaInfo; using MediaBrowser.Model.Serialization; using System; using System.Collections.Generic; using System.Diagnostics; using System.Globalization; using System.IO; using System.Linq; using System.Threading; using System.Threading.Tasks; namespace MediaBrowser.MediaEncoding.Encoder { /// /// Class MediaEncoder /// public class MediaEncoder : IMediaEncoder, IDisposable { /// /// The _logger /// private readonly ILogger _logger; /// /// Gets the json serializer. /// /// The json serializer. private readonly IJsonSerializer _jsonSerializer; /// /// The _thumbnail resource pool /// private readonly SemaphoreSlim _thumbnailResourcePool = new SemaphoreSlim(1, 1); /// /// The video image resource pool /// private readonly SemaphoreSlim _videoImageResourcePool = new SemaphoreSlim(1, 1); /// /// The audio image resource pool /// private readonly SemaphoreSlim _audioImageResourcePool = new SemaphoreSlim(2, 2); /// /// The FF probe resource pool /// private readonly SemaphoreSlim _ffProbeResourcePool = new SemaphoreSlim(2, 2); public string FFMpegPath { get; private set; } public string FFProbePath { get; private set; } public string Version { get; private set; } protected readonly IServerConfigurationManager ConfigurationManager; protected readonly IFileSystem FileSystem; protected readonly ILiveTvManager LiveTvManager; protected readonly IIsoManager IsoManager; protected readonly ILibraryManager LibraryManager; protected readonly IChannelManager ChannelManager; protected readonly ISessionManager SessionManager; protected readonly Func SubtitleEncoder; protected readonly Func MediaSourceManager; private readonly List _runningProcesses = new List(); public MediaEncoder(ILogger logger, IJsonSerializer jsonSerializer, string ffMpegPath, string ffProbePath, string version, IServerConfigurationManager configurationManager, IFileSystem fileSystem, ILiveTvManager liveTvManager, IIsoManager isoManager, ILibraryManager libraryManager, IChannelManager channelManager, ISessionManager sessionManager, Func subtitleEncoder, Func mediaSourceManager) { _logger = logger; _jsonSerializer = jsonSerializer; Version = version; ConfigurationManager = configurationManager; FileSystem = fileSystem; LiveTvManager = liveTvManager; IsoManager = isoManager; LibraryManager = libraryManager; ChannelManager = channelManager; SessionManager = sessionManager; SubtitleEncoder = subtitleEncoder; MediaSourceManager = mediaSourceManager; FFProbePath = ffProbePath; FFMpegPath = ffMpegPath; } /// /// Gets the encoder path. /// /// The encoder path. public string EncoderPath { get { return FFMpegPath; } } /// /// Gets the media info. /// /// The request. /// The cancellation token. /// Task. public Task GetMediaInfo(MediaInfoRequest request, CancellationToken cancellationToken) { var extractChapters = request.MediaType == DlnaProfileType.Video && request.ExtractChapters; var inputFiles = MediaEncoderHelpers.GetInputArgument(request.InputPath, request.Protocol, request.MountedIso, request.PlayableStreamFileNames); var extractKeyFrameInterval = request.ExtractKeyFrameInterval && request.Protocol == MediaProtocol.File && request.VideoType == VideoType.VideoFile; return GetMediaInfoInternal(GetInputArgument(inputFiles, request.Protocol), request.InputPath, request.Protocol, extractChapters, extractKeyFrameInterval, GetProbeSizeArgument(inputFiles, request.Protocol), request.MediaType == DlnaProfileType.Audio, cancellationToken); } /// /// Gets the input argument. /// /// The input files. /// The protocol. /// System.String. /// Unrecognized InputType public string GetInputArgument(string[] inputFiles, MediaProtocol protocol) { return EncodingUtils.GetInputArgument(inputFiles.ToList(), protocol); } /// /// Gets the probe size argument. /// /// The input files. /// The protocol. /// System.String. public string GetProbeSizeArgument(string[] inputFiles, MediaProtocol protocol) { return EncodingUtils.GetProbeSizeArgument(inputFiles.Length > 1); } /// /// Gets the media info internal. /// /// The input path. /// The primary path. /// The protocol. /// if set to true [extract chapters]. /// if set to true [extract key frame interval]. /// The probe size argument. /// if set to true [is audio]. /// The cancellation token. /// Task{MediaInfoResult}. /// private async Task GetMediaInfoInternal(string inputPath, string primaryPath, MediaProtocol protocol, bool extractChapters, bool extractKeyFrameInterval, string probeSizeArgument, bool isAudio, CancellationToken cancellationToken) { var args = extractChapters ? "{0} -i {1} -threads 0 -v info -print_format json -show_streams -show_chapters -show_format" : "{0} -i {1} -threads 0 -v info -print_format json -show_streams -show_format"; var process = new Process { StartInfo = new ProcessStartInfo { CreateNoWindow = true, UseShellExecute = false, // Must consume both or ffmpeg may hang due to deadlocks. See comments below. RedirectStandardOutput = true, RedirectStandardError = true, RedirectStandardInput = true, FileName = FFProbePath, Arguments = string.Format(args, probeSizeArgument, inputPath).Trim(), WindowStyle = ProcessWindowStyle.Hidden, ErrorDialog = false }, EnableRaisingEvents = true }; _logger.Debug("{0} {1}", process.StartInfo.FileName, process.StartInfo.Arguments); await _ffProbeResourcePool.WaitAsync(cancellationToken).ConfigureAwait(false); var processWrapper = new ProcessWrapper(process, this); try { StartProcess(processWrapper); } catch (Exception ex) { _ffProbeResourcePool.Release(); _logger.ErrorException("Error starting ffprobe", ex); throw; } try { process.BeginErrorReadLine(); var result = _jsonSerializer.DeserializeFromStream(process.StandardOutput.BaseStream); if (result != null) { if (result.streams != null) { // Normalize aspect ratio if invalid foreach (var stream in result.streams) { if (string.Equals(stream.display_aspect_ratio, "0:1", StringComparison.OrdinalIgnoreCase)) { stream.display_aspect_ratio = string.Empty; } if (string.Equals(stream.sample_aspect_ratio, "0:1", StringComparison.OrdinalIgnoreCase)) { stream.sample_aspect_ratio = string.Empty; } } } var mediaInfo = new ProbeResultNormalizer(_logger, FileSystem).GetMediaInfo(result, isAudio, primaryPath, protocol); if (extractKeyFrameInterval && mediaInfo.RunTimeTicks.HasValue) { foreach (var stream in mediaInfo.MediaStreams) { if (stream.Type == MediaStreamType.Video && string.Equals(stream.Codec, "h264", StringComparison.OrdinalIgnoreCase)) { try { //stream.KeyFrames = await GetKeyFrames(inputPath, stream.Index, cancellationToken) // .ConfigureAwait(false); } catch (OperationCanceledException) { } catch (Exception ex) { _logger.ErrorException("Error getting key frame interval", ex); } } } } return mediaInfo; } } catch { StopProcess(processWrapper, 100, true); throw; } finally { _ffProbeResourcePool.Release(); } throw new ApplicationException(string.Format("FFProbe failed for {0}", inputPath)); } private async Task> GetKeyFrames(string inputPath, int videoStreamIndex, CancellationToken cancellationToken) { const string args = "-i {0} -select_streams v:{1} -show_frames -show_entries frame=pkt_dts,key_frame -print_format compact"; var process = new Process { StartInfo = new ProcessStartInfo { CreateNoWindow = true, UseShellExecute = false, // Must consume both or ffmpeg may hang due to deadlocks. See comments below. RedirectStandardOutput = true, RedirectStandardError = true, RedirectStandardInput = true, FileName = FFProbePath, Arguments = string.Format(args, inputPath, videoStreamIndex.ToString(CultureInfo.InvariantCulture)).Trim(), WindowStyle = ProcessWindowStyle.Hidden, ErrorDialog = false }, EnableRaisingEvents = true }; _logger.Debug("{0} {1}", process.StartInfo.FileName, process.StartInfo.Arguments); var processWrapper = new ProcessWrapper(process, this); StartProcess(processWrapper); var lines = new List(); try { process.BeginErrorReadLine(); await StartReadingOutput(process.StandardOutput.BaseStream, lines, 120000, cancellationToken).ConfigureAwait(false); } catch (OperationCanceledException) { if (cancellationToken.IsCancellationRequested) { throw; } } finally { StopProcess(processWrapper, 100, true); } return lines; } private async Task StartReadingOutput(Stream source, List lines, int timeoutMs, CancellationToken cancellationToken) { try { using (var reader = new StreamReader(source)) { while (!reader.EndOfStream) { cancellationToken.ThrowIfCancellationRequested(); var line = await reader.ReadLineAsync().ConfigureAwait(false); var values = (line ?? string.Empty).Split('|') .Where(i => !string.IsNullOrWhiteSpace(i)) .Select(i => i.Split('=')) .Where(i => i.Length == 2) .ToDictionary(i => i[0], i => i[1]); string pktDts; int frameMs; if (values.TryGetValue("pkt_dts", out pktDts) && int.TryParse(pktDts, NumberStyles.Any, CultureInfo.InvariantCulture, out frameMs)) { string keyFrame; if (values.TryGetValue("key_frame", out keyFrame) && string.Equals(keyFrame, "1", StringComparison.OrdinalIgnoreCase)) { lines.Add(frameMs); } } } } } catch (OperationCanceledException) { throw; } catch (Exception ex) { _logger.ErrorException("Error reading ffprobe output", ex); } } /// /// The us culture /// protected readonly CultureInfo UsCulture = new CultureInfo("en-US"); public Task ExtractAudioImage(string path, CancellationToken cancellationToken) { return ExtractImage(new[] { path }, MediaProtocol.File, true, null, null, cancellationToken); } public Task ExtractVideoImage(string[] inputFiles, MediaProtocol protocol, Video3DFormat? threedFormat, TimeSpan? offset, CancellationToken cancellationToken) { return ExtractImage(inputFiles, protocol, false, threedFormat, offset, cancellationToken); } private async Task ExtractImage(string[] inputFiles, MediaProtocol protocol, bool isAudio, Video3DFormat? threedFormat, TimeSpan? offset, CancellationToken cancellationToken) { var resourcePool = isAudio ? _audioImageResourcePool : _videoImageResourcePool; var inputArgument = GetInputArgument(inputFiles, protocol); if (!isAudio) { try { return await ExtractImageInternal(inputArgument, protocol, threedFormat, offset, true, resourcePool, cancellationToken).ConfigureAwait(false); } catch (ArgumentException) { throw; } catch { _logger.Error("I-frame image extraction failed, will attempt standard way. Input: {0}", inputArgument); } } return await ExtractImageInternal(inputArgument, protocol, threedFormat, offset, false, resourcePool, cancellationToken).ConfigureAwait(false); } private async Task ExtractImageInternal(string inputPath, MediaProtocol protocol, Video3DFormat? threedFormat, TimeSpan? offset, bool useIFrame, SemaphoreSlim resourcePool, CancellationToken cancellationToken) { if (string.IsNullOrEmpty(inputPath)) { throw new ArgumentNullException("inputPath"); } // apply some filters to thumbnail extracted below (below) crop any black lines that we made and get the correct ar then scale to width 600. // This filter chain may have adverse effects on recorded tv thumbnails if ar changes during presentation ex. commercials @ diff ar var vf = "scale=600:trunc(600/dar/2)*2"; if (threedFormat.HasValue) { switch (threedFormat.Value) { case Video3DFormat.HalfSideBySide: vf = "crop=iw/2:ih:0:0,scale=(iw*2):ih,setdar=dar=a,crop=min(iw\\,ih*dar):min(ih\\,iw/dar):(iw-min(iw\\,iw*sar))/2:(ih - min (ih\\,ih/sar))/2,setsar=sar=1,scale=600:trunc(600/dar/2)*2"; // hsbs crop width in half,scale to correct size, set the display aspect,crop out any black bars we may have made the scale width to 600. Work out the correct height based on the display aspect it will maintain the aspect where -1 in this case (3d) may not. break; case Video3DFormat.FullSideBySide: vf = "crop=iw/2:ih:0:0,setdar=dar=a,crop=min(iw\\,ih*dar):min(ih\\,iw/dar):(iw-min(iw\\,iw*sar))/2:(ih - min (ih\\,ih/sar))/2,setsar=sar=1,scale=600:trunc(600/dar/2)*2"; //fsbs crop width in half,set the display aspect,crop out any black bars we may have made the scale width to 600. break; case Video3DFormat.HalfTopAndBottom: vf = "crop=iw:ih/2:0:0,scale=(iw*2):ih),setdar=dar=a,crop=min(iw\\,ih*dar):min(ih\\,iw/dar):(iw-min(iw\\,iw*sar))/2:(ih - min (ih\\,ih/sar))/2,setsar=sar=1,scale=600:trunc(600/dar/2)*2"; //htab crop heigh in half,scale to correct size, set the display aspect,crop out any black bars we may have made the scale width to 600 break; case Video3DFormat.FullTopAndBottom: vf = "crop=iw:ih/2:0:0,setdar=dar=a,crop=min(iw\\,ih*dar):min(ih\\,iw/dar):(iw-min(iw\\,iw*sar))/2:(ih - min (ih\\,ih/sar))/2,setsar=sar=1,scale=600:trunc(600/dar/2)*2"; // ftab crop heigt in half, set the display aspect,crop out any black bars we may have made the scale width to 600 break; } } // TODO: Output in webp for smaller sizes // -f image2 -f webp // Use ffmpeg to sample 100 (we can drop this if required using thumbnail=50 for 50 frames) frames and pick the best thumbnail. Have a fall back just in case. var args = useIFrame ? string.Format("-i {0} -threads 1 -v quiet -vframes 1 -vf \"{2},thumbnail=30\" -f image2 \"{1}\"", inputPath, "-", vf) : string.Format("-i {0} -threads 1 -v quiet -vframes 1 -vf \"{2}\" -f image2 \"{1}\"", inputPath, "-", vf); var probeSize = GetProbeSizeArgument(new[] { inputPath }, protocol); if (!string.IsNullOrEmpty(probeSize)) { args = probeSize + " " + args; } if (offset.HasValue) { args = string.Format("-ss {0} ", GetTimeParameter(offset.Value)) + args; } var process = new Process { StartInfo = new ProcessStartInfo { CreateNoWindow = true, UseShellExecute = false, FileName = FFMpegPath, Arguments = args, WindowStyle = ProcessWindowStyle.Hidden, ErrorDialog = false, RedirectStandardOutput = true, RedirectStandardError = true, RedirectStandardInput = true } }; _logger.Debug("{0} {1}", process.StartInfo.FileName, process.StartInfo.Arguments); await resourcePool.WaitAsync(cancellationToken).ConfigureAwait(false); var processWrapper = new ProcessWrapper(process, this); StartProcess(processWrapper); var memoryStream = new MemoryStream(); #pragma warning disable 4014 // Important - don't await the log task or we won't be able to kill ffmpeg when the user stops playback process.StandardOutput.BaseStream.CopyToAsync(memoryStream); #pragma warning restore 4014 // MUST read both stdout and stderr asynchronously or a deadlock may occurr process.BeginErrorReadLine(); var ranToCompletion = process.WaitForExit(10000); if (!ranToCompletion) { StopProcess(processWrapper, 1000, false); } resourcePool.Release(); var exitCode = ranToCompletion ? processWrapper.ExitCode ?? 0 : -1; process.Dispose(); if (exitCode == -1 || memoryStream.Length == 0) { memoryStream.Dispose(); var msg = string.Format("ffmpeg image extraction failed for {0}", inputPath); _logger.Error(msg); throw new ApplicationException(msg); } memoryStream.Position = 0; return memoryStream; } public string GetTimeParameter(long ticks) { var time = TimeSpan.FromTicks(ticks); return GetTimeParameter(time); } public string GetTimeParameter(TimeSpan time) { return time.ToString(@"hh\:mm\:ss\.fff", UsCulture); } public async Task ExtractVideoImagesOnInterval(string[] inputFiles, MediaProtocol protocol, Video3DFormat? threedFormat, TimeSpan interval, string targetDirectory, string filenamePrefix, int? maxWidth, CancellationToken cancellationToken) { var resourcePool = _thumbnailResourcePool; var inputArgument = GetInputArgument(inputFiles, protocol); var vf = "fps=fps=1/" + interval.TotalSeconds.ToString(UsCulture); if (maxWidth.HasValue) { var maxWidthParam = maxWidth.Value.ToString(UsCulture); vf += string.Format(",scale=min(iw\\,{0}):trunc(ow/dar/2)*2", maxWidthParam); } Directory.CreateDirectory(targetDirectory); var outputPath = Path.Combine(targetDirectory, filenamePrefix + "%05d.jpg"); var args = string.Format("-i {0} -threads 1 -v quiet -vf \"{2}\" -f image2 \"{1}\"", inputArgument, outputPath, vf); var probeSize = GetProbeSizeArgument(new[] { inputArgument }, protocol); if (!string.IsNullOrEmpty(probeSize)) { args = probeSize + " " + args; } var process = new Process { StartInfo = new ProcessStartInfo { CreateNoWindow = true, UseShellExecute = false, FileName = FFMpegPath, Arguments = args, WindowStyle = ProcessWindowStyle.Hidden, ErrorDialog = false, RedirectStandardInput = true } }; _logger.Info(process.StartInfo.FileName + " " + process.StartInfo.Arguments); await resourcePool.WaitAsync(cancellationToken).ConfigureAwait(false); bool ranToCompletion; var processWrapper = new ProcessWrapper(process, this); try { StartProcess(processWrapper); // Need to give ffmpeg enough time to make all the thumbnails, which could be a while, // but we still need to detect if the process hangs. // Making the assumption that as long as new jpegs are showing up, everything is good. bool isResponsive = true; int lastCount = 0; while (isResponsive && !process.WaitForExit(30000)) { cancellationToken.ThrowIfCancellationRequested(); int jpegCount = Directory.GetFiles(targetDirectory) .Count(i => string.Equals(Path.GetExtension(i), ".jpg", StringComparison.OrdinalIgnoreCase)); isResponsive = (jpegCount > lastCount); lastCount = jpegCount; } ranToCompletion = process.HasExited; if (!ranToCompletion) { StopProcess(processWrapper, 1000, false); } } finally { resourcePool.Release(); } var exitCode = ranToCompletion ? processWrapper.ExitCode ?? 0 : -1; process.Dispose(); if (exitCode == -1) { var msg = string.Format("ffmpeg image extraction failed for {0}", inputArgument); _logger.Error(msg); throw new ApplicationException(msg); } } public async Task EncodeAudio(EncodingJobOptions options, IProgress progress, CancellationToken cancellationToken) { var job = await new AudioEncoder(this, _logger, ConfigurationManager, FileSystem, IsoManager, LibraryManager, SessionManager, SubtitleEncoder(), MediaSourceManager()) .Start(options, progress, cancellationToken).ConfigureAwait(false); await job.TaskCompletionSource.Task.ConfigureAwait(false); return job.OutputFilePath; } public async Task EncodeVideo(EncodingJobOptions options, IProgress progress, CancellationToken cancellationToken) { var job = await new VideoEncoder(this, _logger, ConfigurationManager, FileSystem, IsoManager, LibraryManager, SessionManager, SubtitleEncoder(), MediaSourceManager()) .Start(options, progress, cancellationToken).ConfigureAwait(false); await job.TaskCompletionSource.Task.ConfigureAwait(false); return job.OutputFilePath; } private void StartProcess(ProcessWrapper process) { process.Process.Start(); lock (_runningProcesses) { _runningProcesses.Add(process); } } private void StopProcess(ProcessWrapper process, int waitTimeMs, bool enableForceKill) { try { _logger.Info("Killing ffmpeg process"); try { process.Process.StandardInput.WriteLine("q"); } catch (Exception) { _logger.Error("Error sending q command to process"); } try { if (process.Process.WaitForExit(waitTimeMs)) { return; } } catch (Exception ex) { _logger.Error("Error in WaitForExit", ex); } if (enableForceKill) { process.Process.Kill(); } } catch (Exception ex) { _logger.ErrorException("Error killing process", ex); } } private void StopProcesses() { List proceses; lock (_runningProcesses) { proceses = _runningProcesses.ToList(); } _runningProcesses.Clear(); foreach (var process in proceses) { if (!process.HasExited) { StopProcess(process, 500, true); } } } /// /// Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources. /// public void Dispose() { Dispose(true); } /// /// Releases unmanaged and - optionally - managed resources. /// /// true to release both managed and unmanaged resources; false to release only unmanaged resources. protected virtual void Dispose(bool dispose) { if (dispose) { _videoImageResourcePool.Dispose(); StopProcesses(); } } private class ProcessWrapper { public readonly Process Process; public bool HasExited; public int? ExitCode; private readonly MediaEncoder _mediaEncoder; public ProcessWrapper(Process process, MediaEncoder mediaEncoder) { Process = process; this._mediaEncoder = mediaEncoder; Process.Exited += Process_Exited; } void Process_Exited(object sender, EventArgs e) { var process = (Process)sender; HasExited = true; ExitCode = process.ExitCode; lock (_mediaEncoder._runningProcesses) { _mediaEncoder._runningProcesses.Remove(this); } process.Dispose(); } } } }