using MediaBrowser.Controller.Library; using MediaBrowser.Model.Dlna; using MediaBrowser.Model.Drawing; using MediaBrowser.Model.Dto; using MediaBrowser.Model.Entities; using MediaBrowser.Model.IO; using MediaBrowser.Model.Logging; using MediaBrowser.Model.MediaInfo; using MediaBrowser.Model.Net; using System; using System.Collections.Generic; using System.Globalization; using System.IO; using System.Linq; using System.Threading; namespace MediaBrowser.Api.Playback { public class StreamState : IDisposable { private readonly ILogger _logger; private readonly IMediaSourceManager _mediaSourceManager; public string RequestedUrl { get; set; } public StreamRequest Request { get; set; } public TranscodingThrottler TranscodingThrottler { get; set; } public VideoStreamRequest VideoRequest { get { return Request as VideoStreamRequest; } } public Dictionary RemoteHttpHeaders { get; set; } /// /// Gets or sets the log file stream. /// /// The log file stream. public Stream LogFileStream { get; set; } public IDirectStreamProvider DirectStreamProvider { get; set; } public string InputContainer { get; set; } public MediaSourceInfo MediaSource { get; set; } public MediaStream AudioStream { get; set; } public MediaStream VideoStream { get; set; } public MediaStream SubtitleStream { get; set; } public SubtitleDeliveryMethod SubtitleDeliveryMethod { get; set; } /// /// Gets or sets the iso mount. /// /// The iso mount. public IIsoMount IsoMount { get; set; } public string MediaPath { get; set; } public string WaitForPath { get; set; } public MediaProtocol InputProtocol { get; set; } public bool IsOutputVideo { get { return Request is VideoStreamRequest; } } public bool IsInputVideo { get; set; } public VideoType VideoType { get; set; } public IsoType? IsoType { get; set; } public List PlayableStreamFileNames { get; set; } public int SegmentLength { get { if (string.Equals(OutputVideoCodec, "copy", StringComparison.OrdinalIgnoreCase)) { var userAgent = UserAgent ?? string.Empty; if (userAgent.IndexOf("AppleTV", StringComparison.OrdinalIgnoreCase) != -1) { return 10; } if (userAgent.IndexOf("cfnetwork", StringComparison.OrdinalIgnoreCase) != -1 || userAgent.IndexOf("ipad", StringComparison.OrdinalIgnoreCase) != -1 || userAgent.IndexOf("iphone", StringComparison.OrdinalIgnoreCase) != -1 || userAgent.IndexOf("ipod", StringComparison.OrdinalIgnoreCase) != -1) { return 10; } if (IsSegmentedLiveStream) { return 3; } return 6; } return 3; } } public bool IsSegmentedLiveStream { get { return TranscodingType != TranscodingJobType.Progressive && !RunTimeTicks.HasValue; } } public int HlsListSize { get { return 0; } } public long? RunTimeTicks; public long? InputBitrate { get; set; } public long? InputFileSize { get; set; } public string OutputAudioSync = "1"; public string OutputVideoSync = "-1"; public List SupportedSubtitleCodecs { get; set; } public List SupportedAudioCodecs { get; set; } public List SupportedVideoCodecs { get; set; } public string UserAgent { get; set; } public TranscodingJobType TranscodingType { get; set; } public StreamState(IMediaSourceManager mediaSourceManager, ILogger logger, TranscodingJobType transcodingType) { _mediaSourceManager = mediaSourceManager; _logger = logger; SupportedSubtitleCodecs = new List(); SupportedAudioCodecs = new List(); SupportedVideoCodecs = new List(); PlayableStreamFileNames = new List(); RemoteHttpHeaders = new Dictionary(StringComparer.OrdinalIgnoreCase); TranscodingType = transcodingType; } public string InputAudioSync { get; set; } public string InputVideoSync { get; set; } public bool DeInterlace { get; set; } public bool ReadInputAtNativeFramerate { get; set; } public TransportStreamTimestamp InputTimestamp { get; set; } public string MimeType { get; set; } public bool EstimateContentLength { get; set; } public bool EnableMpegtsM2TsMode { get; set; } public TranscodeSeekInfo TranscodeSeekInfo { get; set; } public long? EncodingDurationTicks { get; set; } public string GetMimeType(string outputPath) { if (!string.IsNullOrEmpty(MimeType)) { return MimeType; } return MimeTypes.GetMimeType(outputPath); } public void Dispose() { DisposeTranscodingThrottler(); DisposeLiveStream(); DisposeLogStream(); DisposeIsoMount(); } private void DisposeLogStream() { if (LogFileStream != null) { try { LogFileStream.Dispose(); } catch (Exception ex) { _logger.ErrorException("Error disposing log stream", ex); } LogFileStream = null; } } private void DisposeTranscodingThrottler() { if (TranscodingThrottler != null) { try { TranscodingThrottler.Dispose(); } catch (Exception ex) { _logger.ErrorException("Error disposing TranscodingThrottler", ex); } TranscodingThrottler = null; } } private void DisposeIsoMount() { if (IsoMount != null) { try { IsoMount.Dispose(); } catch (Exception ex) { _logger.ErrorException("Error disposing iso mount", ex); } IsoMount = null; } } private async void DisposeLiveStream() { if (MediaSource.RequiresClosing && string.IsNullOrWhiteSpace(Request.LiveStreamId) && !string.IsNullOrWhiteSpace(MediaSource.LiveStreamId)) { try { await _mediaSourceManager.CloseLiveStream(MediaSource.LiveStreamId).ConfigureAwait(false); } catch (Exception ex) { _logger.ErrorException("Error closing media source", ex); } } } public int InternalSubtitleStreamOffset { get; set; } public string OutputFilePath { get; set; } public string OutputVideoCodec { get; set; } public string OutputAudioCodec { get; set; } public int? OutputAudioChannels; public int? OutputAudioSampleRate; public int? OutputAudioBitrate; public int? OutputVideoBitrate; public string ActualOutputVideoCodec { get { var codec = OutputVideoCodec; if (string.Equals(codec, "copy", StringComparison.OrdinalIgnoreCase)) { var stream = VideoStream; if (stream != null) { return stream.Codec; } return null; } return codec; } } public string ActualOutputAudioCodec { get { var codec = OutputAudioCodec; if (string.Equals(codec, "copy", StringComparison.OrdinalIgnoreCase)) { var stream = AudioStream; if (stream != null) { return stream.Codec; } return null; } return codec; } } public string OutputContainer { get; set; } public DeviceProfile DeviceProfile { get; set; } public int? TotalOutputBitrate { get { return (OutputAudioBitrate ?? 0) + (OutputVideoBitrate ?? 0); } } public int? OutputWidth { get { if (VideoStream != null && VideoStream.Width.HasValue && VideoStream.Height.HasValue) { var size = new ImageSize { Width = VideoStream.Width.Value, Height = VideoStream.Height.Value }; var newSize = DrawingUtils.Resize(size, VideoRequest.Width, VideoRequest.Height, VideoRequest.MaxWidth, VideoRequest.MaxHeight); return Convert.ToInt32(newSize.Width); } if (VideoRequest == null) { return null; } return VideoRequest.MaxWidth ?? VideoRequest.Width; } } public int? OutputHeight { get { if (VideoStream != null && VideoStream.Width.HasValue && VideoStream.Height.HasValue) { var size = new ImageSize { Width = VideoStream.Width.Value, Height = VideoStream.Height.Value }; var newSize = DrawingUtils.Resize(size, VideoRequest.Width, VideoRequest.Height, VideoRequest.MaxWidth, VideoRequest.MaxHeight); return Convert.ToInt32(newSize.Height); } if (VideoRequest == null) { return null; } return VideoRequest.MaxHeight ?? VideoRequest.Height; } } /// /// Predicts the audio sample rate that will be in the output stream /// public int? TargetVideoBitDepth { get { var stream = VideoStream; return stream == null || !Request.Static ? null : stream.BitDepth; } } /// /// Gets the target reference frames. /// /// The target reference frames. public int? TargetRefFrames { get { var stream = VideoStream; return stream == null || !Request.Static ? null : stream.RefFrames; } } public int? TargetVideoStreamCount { get { if (Request.Static) { return GetMediaStreamCount(MediaStreamType.Video, int.MaxValue); } return GetMediaStreamCount(MediaStreamType.Video, 1); } } public int? TargetAudioStreamCount { get { if (Request.Static) { return GetMediaStreamCount(MediaStreamType.Audio, int.MaxValue); } return GetMediaStreamCount(MediaStreamType.Audio, 1); } } private int? GetMediaStreamCount(MediaStreamType type, int limit) { var count = MediaSource.GetStreamCount(type); if (count.HasValue) { count = Math.Min(count.Value, limit); } return count; } /// /// Predicts the audio sample rate that will be in the output stream /// public float? TargetFramerate { get { var stream = VideoStream; var requestedFramerate = VideoRequest.MaxFramerate ?? VideoRequest.Framerate; return requestedFramerate.HasValue && !Request.Static ? requestedFramerate : stream == null ? null : stream.AverageFrameRate ?? stream.RealFrameRate; } } /// /// Predicts the audio sample rate that will be in the output stream /// public double? TargetVideoLevel { get { var stream = VideoStream; return !string.IsNullOrEmpty(VideoRequest.Level) && !Request.Static ? double.Parse(VideoRequest.Level, CultureInfo.InvariantCulture) : stream == null ? null : stream.Level; } } public TransportStreamTimestamp TargetTimestamp { get { var defaultValue = string.Equals(OutputContainer, "m2ts", StringComparison.OrdinalIgnoreCase) ? TransportStreamTimestamp.Valid : TransportStreamTimestamp.None; return !Request.Static ? defaultValue : InputTimestamp; } } /// /// Predicts the audio sample rate that will be in the output stream /// public int? TargetPacketLength { get { var stream = VideoStream; return !Request.Static ? null : stream == null ? null : stream.PacketLength; } } /// /// Predicts the audio sample rate that will be in the output stream /// public string TargetVideoProfile { get { var stream = VideoStream; return !string.IsNullOrEmpty(VideoRequest.Profile) && !Request.Static ? VideoRequest.Profile : stream == null ? null : stream.Profile; } } public string TargetVideoCodecTag { get { var stream = VideoStream; return !Request.Static ? null : stream == null ? null : stream.CodecTag; } } public bool? IsTargetAnamorphic { get { if (Request.Static) { return VideoStream == null ? null : VideoStream.IsAnamorphic; } return false; } } public bool? IsTargetAVC { get { if (Request.Static) { return VideoStream == null ? null : VideoStream.IsAVC; } return true; } } } }