using MediaBrowser.Common.Net.Handlers; using MediaBrowser.Controller.Drawing; using MediaBrowser.Controller.Entities; using MediaBrowser.Model.DTO; using MediaBrowser.Model.Entities; using System; using System.Collections.Generic; using System.ComponentModel.Composition; using System.Drawing; using System.Linq; using System.Net; namespace MediaBrowser.Api.HttpHandlers { /// /// Supported output formats: mkv,m4v,mp4,asf,wmv,mov,webm,ogv,3gp,avi,ts,flv /// [Export(typeof(BaseHandler))] class VideoHandler : BaseMediaHandler { public override bool HandlesRequest(HttpListenerRequest request) { return ApiService.IsApiUrlMatch("video", request); } /// /// We can output these files directly, but we can't encode them /// protected override IEnumerable UnsupportedOutputEncodingFormats { get { // mp4, 3gp, mov - muxer does not support non-seekable output // avi, mov, mkv, m4v - can't stream these when encoding. the player will try to download them completely before starting playback. // wmv - can't seem to figure out the output format name return new VideoOutputFormats[] { VideoOutputFormats.Mp4, VideoOutputFormats.ThreeGp, VideoOutputFormats.M4V, VideoOutputFormats.Mkv, VideoOutputFormats.Avi, VideoOutputFormats.Mov, VideoOutputFormats.Wmv }; } } /// /// Determines whether or not we can just output the original file directly /// protected override bool RequiresConversion() { if (base.RequiresConversion()) { return true; } // See if the video requires conversion if (RequiresVideoConversion()) { return true; } // See if the audio requires conversion AudioStream audioStream = (LibraryItem.AudioStreams ?? new List()).FirstOrDefault(); if (audioStream != null) { if (RequiresAudioConversion(audioStream)) { return true; } } // Yay return false; } /// /// Translates the output file extension to the format param that follows "-f" on the ffmpeg command line /// private string GetFfMpegOutputFormat(VideoOutputFormats outputFormat) { if (outputFormat == VideoOutputFormats.Mkv) { return "matroska"; } if (outputFormat == VideoOutputFormats.Ts) { return "mpegts"; } if (outputFormat == VideoOutputFormats.Ogv) { return "ogg"; } return outputFormat.ToString().ToLower(); } /// /// Creates arguments to pass to ffmpeg /// protected override string GetCommandLineArguments() { VideoOutputFormats outputFormat = GetConversionOutputFormat(); return string.Format("-i \"{0}\" -threads 0 {1} {2} -f {3} -", LibraryItem.Path, GetVideoArguments(outputFormat), GetAudioArguments(outputFormat), GetFfMpegOutputFormat(outputFormat) ); } /// /// Gets video arguments to pass to ffmpeg /// private string GetVideoArguments(VideoOutputFormats outputFormat) { // Get the output codec name string codec = GetVideoCodec(outputFormat); string args = "-vcodec " + codec; // If we're encoding video, add additional params if (!codec.Equals("copy", StringComparison.OrdinalIgnoreCase)) { // Add resolution params, if specified if (Width.HasValue || Height.HasValue || MaxHeight.HasValue || MaxWidth.HasValue) { Size size = DrawingUtils.Resize(LibraryItem.Width, LibraryItem.Height, Width, Height, MaxWidth, MaxHeight); args += string.Format(" -s {0}x{1}", size.Width, size.Height); } } return args; } /// /// Gets audio arguments to pass to ffmpeg /// private string GetAudioArguments(VideoOutputFormats outputFormat) { AudioStream audioStream = (LibraryItem.AudioStreams ?? new List()).FirstOrDefault(); // If the video doesn't have an audio stream, return empty if (audioStream == null) { return string.Empty; } // Get the output codec name string codec = GetAudioCodec(audioStream, outputFormat); string args = "-acodec " + codec; // If we're encoding audio, add additional params if (!codec.Equals("copy", StringComparison.OrdinalIgnoreCase)) { // Add the number of audio channels int? channels = GetNumAudioChannelsParam(codec, audioStream.Channels); if (channels.HasValue) { args += " -ac " + channels.Value; } // Add the audio sample rate int? sampleRate = GetSampleRateParam(audioStream.SampleRate); if (sampleRate.HasValue) { args += " -ar " + sampleRate.Value; } } return args; } /// /// Gets the name of the output video codec /// private string GetVideoCodec(VideoOutputFormats outputFormat) { // Some output containers require specific codecs if (outputFormat == VideoOutputFormats.Webm) { // Per webm specification, it must be vpx return "libvpx"; } if (outputFormat == VideoOutputFormats.Asf) { return "wmv2"; } if (outputFormat == VideoOutputFormats.Wmv) { return "wmv2"; } if (outputFormat == VideoOutputFormats.Ogv) { return "libtheora"; } // Skip encoding when possible if (!RequiresVideoConversion()) { return "copy"; } return "libx264"; } /// /// Gets the name of the output audio codec /// private string GetAudioCodec(AudioStream audioStream, VideoOutputFormats outputFormat) { // Some output containers require specific codecs if (outputFormat == VideoOutputFormats.Webm) { // Per webm specification, it must be vorbis return "libvorbis"; } if (outputFormat == VideoOutputFormats.Asf) { return "wmav2"; } if (outputFormat == VideoOutputFormats.Wmv) { return "wmav2"; } if (outputFormat == VideoOutputFormats.Ogv) { return "libvorbis"; } // Skip encoding when possible if (!RequiresAudioConversion(audioStream)) { return "copy"; } return "libvo_aacenc"; } /// /// Gets the number of audio channels to specify on the command line /// private int? GetNumAudioChannelsParam(string audioCodec, int libraryItemChannels) { if (libraryItemChannels > 2) { if (audioCodec.Equals("libvo_aacenc")) { // libvo_aacenc currently only supports two channel output return 2; } if (audioCodec.Equals("wmav2")) { // wmav2 currently only supports two channel output return 2; } } return GetNumAudioChannelsParam(libraryItemChannels); } /// /// Determines if the video stream requires encoding /// private bool RequiresVideoConversion() { // Check dimensions // If a specific width is required, validate that if (Width.HasValue) { if (Width.Value != LibraryItem.Width) { return true; } } // If a specific height is required, validate that if (Height.HasValue) { if (Height.Value != LibraryItem.Height) { return true; } } // If a max width is required, validate that if (MaxWidth.HasValue) { if (MaxWidth.Value < LibraryItem.Width) { return true; } } // If a max height is required, validate that if (MaxHeight.HasValue) { if (MaxHeight.Value < LibraryItem.Height) { return true; } } // If the codec is already h264, don't encode if (LibraryItem.Codec.IndexOf("264", StringComparison.OrdinalIgnoreCase) != -1 || LibraryItem.Codec.IndexOf("avc", StringComparison.OrdinalIgnoreCase) != -1) { return false; } return false; } /// /// Determines if the audio stream requires encoding /// private bool RequiresAudioConversion(AudioStream audio) { // If the input stream has more audio channels than the client can handle, we need to encode if (AudioChannels.HasValue) { if (audio.Channels > AudioChannels.Value) { return true; } } // Aac, ac-3 and mp3 are all pretty much universally supported. No need to encode them if (audio.Codec.IndexOf("aac", StringComparison.OrdinalIgnoreCase) != -1) { return false; } if (audio.Codec.IndexOf("ac-3", StringComparison.OrdinalIgnoreCase) != -1 || audio.Codec.IndexOf("ac3", StringComparison.OrdinalIgnoreCase) != -1) { return false; } if (audio.Codec.IndexOf("mpeg", StringComparison.OrdinalIgnoreCase) != -1 || audio.Codec.IndexOf("mp3", StringComparison.OrdinalIgnoreCase) != -1) { return false; } return true; } /// /// Gets the fixed output video height, in pixels /// private int? Height { get { string val = QueryString["height"]; if (string.IsNullOrEmpty(val)) { return null; } return int.Parse(val); } } /// /// Gets the fixed output video width, in pixels /// private int? Width { get { string val = QueryString["width"]; if (string.IsNullOrEmpty(val)) { return null; } return int.Parse(val); } } /// /// Gets the maximum output video height, in pixels /// private int? MaxHeight { get { string val = QueryString["maxheight"]; if (string.IsNullOrEmpty(val)) { return null; } return int.Parse(val); } } /// /// Gets the maximum output video width, in pixels /// private int? MaxWidth { get { string val = QueryString["maxwidth"]; if (string.IsNullOrEmpty(val)) { return null; } return int.Parse(val); } } } }