using MediaBrowser.Common.Configuration; using MediaBrowser.Model.Configuration; using MediaBrowser.Model.Logging; using System; using System.IO; using System.Threading; namespace MediaBrowser.Api.Playback { public class TranscodingThrottler : IDisposable { private readonly TranscodingJob _job; private readonly ILogger _logger; private Timer _timer; private bool _isPaused; private readonly IConfigurationManager _config; public TranscodingThrottler(TranscodingJob job, ILogger logger, IConfigurationManager config) { _job = job; _logger = logger; _config = config; } private EncodingOptions GetOptions() { return _config.GetConfiguration("encoding"); } public void Start() { _timer = new Timer(TimerCallback, null, 5000, 5000); } private void TimerCallback(object state) { if (_job.HasExited) { DisposeTimer(); return; } var options = GetOptions(); if (options.EnableThrottling && IsThrottleAllowed(_job, options.ThrottleThresholdSeconds)) { PauseTranscoding(); } else { UnpauseTranscoding(); } } private void PauseTranscoding() { if (!_isPaused) { _logger.Debug("Sending pause command to ffmpeg"); try { _job.Process.StandardInput.Write("c"); _isPaused = true; } catch (Exception ex) { _logger.ErrorException("Error pausing transcoding", ex); } } } private void UnpauseTranscoding() { if (_isPaused) { _logger.Debug("Sending unpause command to ffmpeg"); try { _job.Process.StandardInput.WriteLine(); _isPaused = false; } catch (Exception ex) { _logger.ErrorException("Error unpausing transcoding", ex); } } } private bool IsThrottleAllowed(TranscodingJob job, int thresholdSeconds) { var bytesDownloaded = job.BytesDownloaded ?? 0; var transcodingPositionTicks = job.TranscodingPositionTicks ?? 0; var downloadPositionTicks = job.DownloadPositionTicks ?? 0; var path = job.Path; var gapLengthInTicks = TimeSpan.FromSeconds(thresholdSeconds).Ticks; if (downloadPositionTicks > 0 && transcodingPositionTicks > 0) { // HLS - time-based consideration var targetGap = gapLengthInTicks; var gap = transcodingPositionTicks - downloadPositionTicks; if (gap < targetGap) { //_logger.Debug("Not throttling transcoder gap {0} target gap {1}", gap, targetGap); return false; } //_logger.Debug("Throttling transcoder gap {0} target gap {1}", gap, targetGap); return true; } if (bytesDownloaded > 0 && transcodingPositionTicks > 0) { // Progressive Streaming - byte-based consideration try { var bytesTranscoded = job.BytesTranscoded ?? new FileInfo(path).Length; // Estimate the bytes the transcoder should be ahead double gapFactor = gapLengthInTicks; gapFactor /= transcodingPositionTicks; var targetGap = bytesTranscoded * gapFactor; var gap = bytesTranscoded - bytesDownloaded; if (gap < targetGap) { //_logger.Debug("Not throttling transcoder gap {0} target gap {1} bytes downloaded {2}", gap, targetGap, bytesDownloaded); return false; } //_logger.Debug("Throttling transcoder gap {0} target gap {1} bytes downloaded {2}", gap, targetGap, bytesDownloaded); return true; } catch { //_logger.Error("Error getting output size"); return false; } } //_logger.Debug("No throttle data for " + path); return false; } public void Stop() { DisposeTimer(); UnpauseTranscoding(); } public void Dispose() { DisposeTimer(); } private void DisposeTimer() { if (_timer != null) { _timer.Dispose(); _timer = null; } } } }