using MediaBrowser.Common.Configuration ;
using MediaBrowser.Controller.Library ;
using MediaBrowser.Controller.MediaEncoding ;
using MediaBrowser.Model.Configuration ;
using MediaBrowser.Model.Dlna ;
using MediaBrowser.Model.Dto ;
using MediaBrowser.Model.Entities ;
using MediaBrowser.Model.Logging ;
using MediaBrowser.Model.MediaInfo ;
using System ;
using System.Collections.Generic ;
using System.Globalization ;
using System.Linq ;
using System.Threading ;
using System.Threading.Tasks ;
namespace MediaBrowser.MediaEncoding.Encoder
{
public class EncodingJobFactory
{
private readonly ILogger _logger ;
private readonly ILibraryManager _libraryManager ;
private readonly IMediaSourceManager _mediaSourceManager ;
private readonly IConfigurationManager _config ;
protected static readonly CultureInfo UsCulture = new CultureInfo ( "en-US" ) ;
public EncodingJobFactory ( ILogger logger , ILibraryManager libraryManager , IMediaSourceManager mediaSourceManager , IConfigurationManager config )
{
_logger = logger ;
_libraryManager = libraryManager ;
_mediaSourceManager = mediaSourceManager ;
_config = config ;
}
public async Task < EncodingJob > CreateJob ( EncodingJobOptions options , bool isVideoRequest , IProgress < double > progress , CancellationToken cancellationToken )
{
var request = options ;
if ( string . IsNullOrEmpty ( request . AudioCodec ) )
{
request . AudioCodec = InferAudioCodec ( request . OutputContainer ) ;
}
var state = new EncodingJob ( _logger , _mediaSourceManager )
{
Options = options ,
IsVideoRequest = isVideoRequest ,
Progress = progress
} ;
if ( ! string . IsNullOrWhiteSpace ( request . AudioCodec ) )
{
state . SupportedAudioCodecs = request . AudioCodec . Split ( ',' ) . Where ( i = > ! string . IsNullOrWhiteSpace ( i ) ) . ToList ( ) ;
request . AudioCodec = state . SupportedAudioCodecs . FirstOrDefault ( ) ;
}
var item = _libraryManager . GetItemById ( request . ItemId ) ;
state . ItemType = item . GetType ( ) . Name ;
state . IsInputVideo = string . Equals ( item . MediaType , MediaType . Video , StringComparison . OrdinalIgnoreCase ) ;
var primaryImage = item . GetImageInfo ( ImageType . Primary , 0 ) ? ?
item . Parents . Select ( i = > i . GetImageInfo ( ImageType . Primary , 0 ) ) . FirstOrDefault ( i = > i ! = null ) ;
if ( primaryImage ! = null )
{
state . AlbumCoverPath = primaryImage . Path ;
}
var mediaSources = await _mediaSourceManager . GetPlayackMediaSources ( request . ItemId , null , false , new [ ] { MediaType . Audio , MediaType . Video } , cancellationToken ) . ConfigureAwait ( false ) ;
var mediaSource = string . IsNullOrEmpty ( request . MediaSourceId )
? mediaSources . First ( )
: mediaSources . First ( i = > string . Equals ( i . Id , request . MediaSourceId ) ) ;
var videoRequest = state . Options ;
AttachMediaSourceInfo ( state , mediaSource , videoRequest ) ;
//var container = Path.GetExtension(state.RequestedUrl);
//if (string.IsNullOrEmpty(container))
//{
// container = request.Static ?
// state.InputContainer :
// (Path.GetExtension(GetOutputFilePath(state)) ?? string.Empty).TrimStart('.');
//}
//state.OutputContainer = (container ?? string.Empty).TrimStart('.');
state . OutputAudioBitrate = GetAudioBitrateParam ( state . Options , state . AudioStream ) ;
state . OutputAudioSampleRate = request . AudioSampleRate ;
state . OutputAudioCodec = state . Options . AudioCodec ;
state . OutputAudioChannels = GetNumAudioChannelsParam ( state . Options , state . AudioStream , state . OutputAudioCodec ) ;
if ( videoRequest ! = null )
{
state . OutputVideoCodec = state . Options . VideoCodec ;
state . OutputVideoBitrate = GetVideoBitrateParamValue ( state . Options , state . VideoStream , state . OutputVideoCodec ) ;
if ( state . OutputVideoBitrate . HasValue )
{
var resolution = ResolutionNormalizer . Normalize (
state . VideoStream = = null ? ( int? ) null : state . VideoStream . BitRate ,
state . OutputVideoBitrate . Value ,
state . VideoStream = = null ? null : state . VideoStream . Codec ,
state . OutputVideoCodec ,
videoRequest . MaxWidth ,
videoRequest . MaxHeight ) ;
videoRequest . MaxWidth = resolution . MaxWidth ;
videoRequest . MaxHeight = resolution . MaxHeight ;
}
}
ApplyDeviceProfileSettings ( state ) ;
if ( videoRequest ! = null )
{
TryStreamCopy ( state , videoRequest ) ;
}
//state.OutputFilePath = GetOutputFilePath(state);
return state ;
}
internal static void TryStreamCopy ( EncodingJob state ,
EncodingJobOptions videoRequest )
{
if ( state . IsVideoRequest )
{
if ( state . VideoStream ! = null & & CanStreamCopyVideo ( videoRequest , state . VideoStream ) )
{
state . OutputVideoCodec = "copy" ;
}
if ( state . AudioStream ! = null & & CanStreamCopyAudio ( videoRequest , state . AudioStream , state . SupportedAudioCodecs ) )
{
state . OutputAudioCodec = "copy" ;
}
}
}
internal static void AttachMediaSourceInfo ( EncodingJob state ,
MediaSourceInfo mediaSource ,
EncodingJobOptions videoRequest )
{
state . MediaPath = mediaSource . Path ;
state . InputProtocol = mediaSource . Protocol ;
state . InputContainer = mediaSource . Container ;
state . InputFileSize = mediaSource . Size ;
state . InputBitrate = mediaSource . Bitrate ;
state . RunTimeTicks = mediaSource . RunTimeTicks ;
state . RemoteHttpHeaders = mediaSource . RequiredHttpHeaders ;
if ( mediaSource . VideoType . HasValue )
{
state . VideoType = mediaSource . VideoType . Value ;
}
state . IsoType = mediaSource . IsoType ;
state . PlayableStreamFileNames = mediaSource . PlayableStreamFileNames . ToList ( ) ;
if ( mediaSource . Timestamp . HasValue )
{
state . InputTimestamp = mediaSource . Timestamp . Value ;
}
state . InputProtocol = mediaSource . Protocol ;
state . MediaPath = mediaSource . Path ;
state . RunTimeTicks = mediaSource . RunTimeTicks ;
state . RemoteHttpHeaders = mediaSource . RequiredHttpHeaders ;
state . InputBitrate = mediaSource . Bitrate ;
state . InputFileSize = mediaSource . Size ;
state . ReadInputAtNativeFramerate = mediaSource . ReadAtNativeFramerate ;
if ( state . ReadInputAtNativeFramerate | |
mediaSource . Protocol = = MediaProtocol . File & & string . Equals ( mediaSource . Container , "wtv" , StringComparison . OrdinalIgnoreCase ) )
{
state . OutputAudioSync = "1000" ;
state . InputVideoSync = "-1" ;
state . InputAudioSync = "1" ;
}
if ( string . Equals ( mediaSource . Container , "wma" , StringComparison . OrdinalIgnoreCase ) )
{
// Seeing some stuttering when transcoding wma to audio-only HLS
state . InputAudioSync = "1" ;
}
var mediaStreams = mediaSource . MediaStreams ;
if ( videoRequest ! = null )
{
if ( string . IsNullOrEmpty ( videoRequest . VideoCodec ) )
{
videoRequest . VideoCodec = InferVideoCodec ( videoRequest . OutputContainer ) ;
}
state . VideoStream = GetMediaStream ( mediaStreams , videoRequest . VideoStreamIndex , MediaStreamType . Video ) ;
state . SubtitleStream = GetMediaStream ( mediaStreams , videoRequest . SubtitleStreamIndex , MediaStreamType . Subtitle , false ) ;
state . AudioStream = GetMediaStream ( mediaStreams , videoRequest . AudioStreamIndex , MediaStreamType . Audio ) ;
if ( state . SubtitleStream ! = null & & ! state . SubtitleStream . IsExternal )
{
state . InternalSubtitleStreamOffset = mediaStreams . Where ( i = > i . Type = = MediaStreamType . Subtitle & & ! i . IsExternal ) . ToList ( ) . IndexOf ( state . SubtitleStream ) ;
}
if ( state . VideoStream ! = null & & state . VideoStream . IsInterlaced )
{
state . DeInterlace = true ;
}
EnforceResolutionLimit ( state , videoRequest ) ;
}
else
{
state . AudioStream = GetMediaStream ( mediaStreams , null , MediaStreamType . Audio , true ) ;
}
state . MediaSource = mediaSource ;
}
protected EncodingOptions GetEncodingOptions ( )
{
return _config . GetConfiguration < EncodingOptions > ( "encoding" ) ;
}
/// <summary>
/// Infers the video codec.
/// </summary>
/// <param name="container">The container.</param>
/// <returns>System.Nullable{VideoCodecs}.</returns>
private static string InferVideoCodec ( string container )
{
var ext = "." + ( container ? ? string . Empty ) ;
if ( string . Equals ( ext , ".asf" , StringComparison . OrdinalIgnoreCase ) )
{
return "wmv" ;
}
if ( string . Equals ( ext , ".webm" , StringComparison . OrdinalIgnoreCase ) )
{
return "vpx" ;
}
if ( string . Equals ( ext , ".ogg" , StringComparison . OrdinalIgnoreCase ) | | string . Equals ( ext , ".ogv" , StringComparison . OrdinalIgnoreCase ) )
{
return "theora" ;
}
if ( string . Equals ( ext , ".m3u8" , StringComparison . OrdinalIgnoreCase ) | | string . Equals ( ext , ".ts" , StringComparison . OrdinalIgnoreCase ) )
{
return "h264" ;
}
return "copy" ;
}
private string InferAudioCodec ( string container )
{
var ext = "." + ( container ? ? string . Empty ) ;
if ( string . Equals ( ext , ".mp3" , StringComparison . OrdinalIgnoreCase ) )
{
return "mp3" ;
}
if ( string . Equals ( ext , ".aac" , StringComparison . OrdinalIgnoreCase ) )
{
return "aac" ;
}
if ( string . Equals ( ext , ".wma" , StringComparison . OrdinalIgnoreCase ) )
{
return "wma" ;
}
if ( string . Equals ( ext , ".ogg" , StringComparison . OrdinalIgnoreCase ) )
{
return "vorbis" ;
}
if ( string . Equals ( ext , ".oga" , StringComparison . OrdinalIgnoreCase ) )
{
return "vorbis" ;
}
if ( string . Equals ( ext , ".ogv" , StringComparison . OrdinalIgnoreCase ) )
{
return "vorbis" ;
}
if ( string . Equals ( ext , ".webm" , StringComparison . OrdinalIgnoreCase ) )
{
return "vorbis" ;
}
if ( string . Equals ( ext , ".webma" , StringComparison . OrdinalIgnoreCase ) )
{
return "vorbis" ;
}
return "copy" ;
}
/// <summary>
/// Determines which stream will be used for playback
/// </summary>
/// <param name="allStream">All stream.</param>
/// <param name="desiredIndex">Index of the desired.</param>
/// <param name="type">The type.</param>
/// <param name="returnFirstIfNoIndex">if set to <c>true</c> [return first if no index].</param>
/// <returns>MediaStream.</returns>
private static MediaStream GetMediaStream ( IEnumerable < MediaStream > allStream , int? desiredIndex , MediaStreamType type , bool returnFirstIfNoIndex = true )
{
var streams = allStream . Where ( s = > s . Type = = type ) . OrderBy ( i = > i . Index ) . ToList ( ) ;
if ( desiredIndex . HasValue )
{
var stream = streams . FirstOrDefault ( s = > s . Index = = desiredIndex . Value ) ;
if ( stream ! = null )
{
return stream ;
}
}
if ( type = = MediaStreamType . Video )
{
streams = streams . Where ( i = > ! string . Equals ( i . Codec , "mjpeg" , StringComparison . OrdinalIgnoreCase ) ) . ToList ( ) ;
}
if ( returnFirstIfNoIndex & & type = = MediaStreamType . Audio )
{
return streams . FirstOrDefault ( i = > i . Channels . HasValue & & i . Channels . Value > 0 ) ? ?
streams . FirstOrDefault ( ) ;
}
// Just return the first one
return returnFirstIfNoIndex ? streams . FirstOrDefault ( ) : null ;
}
/// <summary>
/// Enforces the resolution limit.
/// </summary>
/// <param name="state">The state.</param>
/// <param name="videoRequest">The video request.</param>
private static void EnforceResolutionLimit ( EncodingJob state , EncodingJobOptions videoRequest )
{
// Switch the incoming params to be ceilings rather than fixed values
videoRequest . MaxWidth = videoRequest . MaxWidth ? ? videoRequest . Width ;
videoRequest . MaxHeight = videoRequest . MaxHeight ? ? videoRequest . Height ;
videoRequest . Width = null ;
videoRequest . Height = null ;
}
/// <summary>
/// Gets the number of audio channels to specify on the command line
/// </summary>
/// <param name="request">The request.</param>
/// <param name="audioStream">The audio stream.</param>
/// <param name="outputAudioCodec">The output audio codec.</param>
/// <returns>System.Nullable{System.Int32}.</returns>
private int? GetNumAudioChannelsParam ( EncodingJobOptions request , MediaStream audioStream , string outputAudioCodec )
{
var inputChannels = audioStream = = null
? null
: audioStream . Channels ;
if ( inputChannels < = 0 )
{
inputChannels = null ;
}
var codec = outputAudioCodec ? ? string . Empty ;
if ( codec . IndexOf ( "wma" , StringComparison . OrdinalIgnoreCase ) ! = - 1 )
{
// wmav2 currently only supports two channel output
return Math . Min ( 2 , inputChannels ? ? 2 ) ;
}
if ( request . MaxAudioChannels . HasValue )
{
var channelLimit = codec . IndexOf ( "mp3" , StringComparison . OrdinalIgnoreCase ) ! = - 1
? 2
: 6 ;
if ( inputChannels . HasValue )
{
channelLimit = Math . Min ( channelLimit , inputChannels . Value ) ;
}
// If we don't have any media info then limit it to 5 to prevent encoding errors due to asking for too many channels
return Math . Min ( request . MaxAudioChannels . Value , channelLimit ) ;
}
return request . AudioChannels ;
}
private int? GetVideoBitrateParamValue ( EncodingJobOptions request , MediaStream videoStream , string outputVideoCodec )
{
var bitrate = request . VideoBitRate ;
if ( videoStream ! = null )
{
var isUpscaling = request . Height . HasValue & & videoStream . Height . HasValue & &
request . Height . Value > videoStream . Height . Value ;
if ( request . Width . HasValue & & videoStream . Width . HasValue & &
request . Width . Value > videoStream . Width . Value )
{
isUpscaling = true ;
}
// Don't allow bitrate increases unless upscaling
if ( ! isUpscaling )
{
if ( bitrate . HasValue & & videoStream . BitRate . HasValue )
{
bitrate = Math . Min ( bitrate . Value , videoStream . BitRate . Value ) ;
}
}
}
if ( bitrate . HasValue )
{
var inputVideoCodec = videoStream = = null ? null : videoStream . Codec ;
bitrate = ResolutionNormalizer . ScaleBitrate ( bitrate . Value , inputVideoCodec , outputVideoCodec ) ;
// If a max bitrate was requested, don't let the scaled bitrate exceed it
if ( request . VideoBitRate . HasValue )
{
bitrate = Math . Min ( bitrate . Value , request . VideoBitRate . Value ) ;
}
}
return bitrate ;
}
protected string GetVideoBitrateParam ( EncodingJob state , string videoCodec , bool isHls )
{
var bitrate = state . OutputVideoBitrate ;
if ( bitrate . HasValue )
{
if ( string . Equals ( videoCodec , "libvpx" , StringComparison . OrdinalIgnoreCase ) )
{
// With vpx when crf is used, b:v becomes a max rate
// https://trac.ffmpeg.org/wiki/vpxEncodingGuide. But higher bitrate source files -b:v causes judder so limite the bitrate but dont allow it to "saturate" the bitrate. So dont contrain it down just up.
return string . Format ( " -maxrate:v {0} -bufsize:v ({0}*2) -b:v {0}" , bitrate . Value . ToString ( UsCulture ) ) ;
}
if ( string . Equals ( videoCodec , "msmpeg4" , StringComparison . OrdinalIgnoreCase ) )
{
return string . Format ( " -b:v {0}" , bitrate . Value . ToString ( UsCulture ) ) ;
}
// h264
return string . Format ( " -b:v {0} -maxrate {0} -bufsize {1}" ,
bitrate . Value . ToString ( UsCulture ) ,
( bitrate . Value * 2 ) . ToString ( UsCulture ) ) ;
}
return string . Empty ;
}
private int? GetAudioBitrateParam ( EncodingJobOptions request , MediaStream audioStream )
{
if ( request . AudioBitRate . HasValue )
{
// Make sure we don't request a bitrate higher than the source
var currentBitrate = audioStream = = null ? request . AudioBitRate . Value : audioStream . BitRate ? ? request . AudioBitRate . Value ;
return request . AudioBitRate . Value ;
//return Math.Min(currentBitrate, request.AudioBitRate.Value);
}
return null ;
}
/// <summary>
/// Determines whether the specified stream is H264.
/// </summary>
/// <param name="stream">The stream.</param>
/// <returns><c>true</c> if the specified stream is H264; otherwise, <c>false</c>.</returns>
protected bool IsH264 ( MediaStream stream )
{
var codec = stream . Codec ? ? string . Empty ;
return codec . IndexOf ( "264" , StringComparison . OrdinalIgnoreCase ) ! = - 1 | |
codec . IndexOf ( "avc" , StringComparison . OrdinalIgnoreCase ) ! = - 1 ;
}
/// <summary>
/// Gets the name of the output audio codec
/// </summary>
/// <param name="state">The state.</param>
/// <returns>System.String.</returns>
internal static string GetAudioEncoder ( EncodingJob state )
{
var codec = state . OutputAudioCodec ;
if ( string . Equals ( codec , "aac" , StringComparison . OrdinalIgnoreCase ) )
{
return "aac -strict experimental" ;
}
if ( string . Equals ( codec , "mp3" , StringComparison . OrdinalIgnoreCase ) )
{
return "libmp3lame" ;
}
if ( string . Equals ( codec , "vorbis" , StringComparison . OrdinalIgnoreCase ) )
{
return "libvorbis" ;
}
if ( string . Equals ( codec , "wma" , StringComparison . OrdinalIgnoreCase ) )
{
return "wmav2" ;
}
return codec . ToLower ( ) ;
}
/// <summary>
/// Gets the name of the output video codec
/// </summary>
/// <param name="state">The state.</param>
/// <param name="options">The options.</param>
/// <returns>System.String.</returns>
internal static string GetVideoEncoder ( EncodingJob state , EncodingOptions options )
{
var codec = state . OutputVideoCodec ;
if ( ! string . IsNullOrEmpty ( codec ) )
{
if ( string . Equals ( codec , "h264" , StringComparison . OrdinalIgnoreCase ) )
{
return GetH264Encoder ( state , options ) ;
}
if ( string . Equals ( codec , "vpx" , StringComparison . OrdinalIgnoreCase ) )
{
return "libvpx" ;
}
if ( string . Equals ( codec , "wmv" , StringComparison . OrdinalIgnoreCase ) )
{
return "wmv2" ;
}
if ( string . Equals ( codec , "theora" , StringComparison . OrdinalIgnoreCase ) )
{
return "libtheora" ;
}
return codec . ToLower ( ) ;
}
return "copy" ;
}
internal static string GetH264Encoder ( EncodingJob state , EncodingOptions options )
{
if ( string . Equals ( options . HardwareAccelerationType , "qsv" , StringComparison . OrdinalIgnoreCase ) | |
string . Equals ( options . HardwareAccelerationType , "h264_qsv" , StringComparison . OrdinalIgnoreCase ) )
{
return "h264_qsv" ;
}
if ( string . Equals ( options . HardwareAccelerationType , "nvenc" , StringComparison . OrdinalIgnoreCase ) )
{
return "h264_nvenc" ;
}
if ( string . Equals ( options . HardwareAccelerationType , "h264_omx" , StringComparison . OrdinalIgnoreCase ) )
{
return "h264_omx" ;
}
return "libx264" ;
}
internal static bool CanStreamCopyVideo ( EncodingJobOptions request , MediaStream videoStream )
{
if ( videoStream . IsInterlaced )
{
return false ;
}
if ( videoStream . IsAnamorphic ? ? false )
{
return false ;
}
// Can't stream copy if we're burning in subtitles
if ( request . SubtitleStreamIndex . HasValue )
{
if ( request . SubtitleMethod = = SubtitleDeliveryMethod . Encode )
{
return false ;
}
}
// Source and target codecs must match
if ( ! string . Equals ( request . VideoCodec , videoStream . Codec , StringComparison . OrdinalIgnoreCase ) )
{
return false ;
}
if ( string . Equals ( "h264" , videoStream . Codec , StringComparison . OrdinalIgnoreCase ) )
{
if ( videoStream . IsAVC . HasValue & & ! videoStream . IsAVC . Value )
{
return false ;
}
}
// If client is requesting a specific video profile, it must match the source
if ( ! string . IsNullOrEmpty ( request . Profile ) )
{
if ( string . IsNullOrEmpty ( videoStream . Profile ) )
{
return false ;
}
if ( ! string . Equals ( request . Profile , videoStream . Profile , StringComparison . OrdinalIgnoreCase ) )
{
var currentScore = GetVideoProfileScore ( videoStream . Profile ) ;
var requestedScore = GetVideoProfileScore ( request . Profile ) ;
if ( currentScore = = - 1 | | currentScore > requestedScore )
{
return false ;
}
}
}
// Video width must fall within requested value
if ( request . MaxWidth . HasValue )
{
if ( ! videoStream . Width . HasValue | | videoStream . Width . Value > request . MaxWidth . Value )
{
return false ;
}
}
// Video height must fall within requested value
if ( request . MaxHeight . HasValue )
{
if ( ! videoStream . Height . HasValue | | videoStream . Height . Value > request . MaxHeight . Value )
{
return false ;
}
}
// Video framerate must fall within requested value
var requestedFramerate = request . MaxFramerate ? ? request . Framerate ;
if ( requestedFramerate . HasValue )
{
var videoFrameRate = videoStream . AverageFrameRate ? ? videoStream . RealFrameRate ;
if ( ! videoFrameRate . HasValue | | videoFrameRate . Value > requestedFramerate . Value )
{
return false ;
}
}
// Video bitrate must fall within requested value
if ( request . VideoBitRate . HasValue )
{
if ( ! videoStream . BitRate . HasValue | | videoStream . BitRate . Value > request . VideoBitRate . Value )
{
return false ;
}
}
if ( request . MaxVideoBitDepth . HasValue )
{
if ( videoStream . BitDepth . HasValue & & videoStream . BitDepth . Value > request . MaxVideoBitDepth . Value )
{
return false ;
}
}
if ( request . MaxRefFrames . HasValue )
{
if ( videoStream . RefFrames . HasValue & & videoStream . RefFrames . Value > request . MaxRefFrames . Value )
{
return false ;
}
}
// If a specific level was requested, the source must match or be less than
if ( request . Level . HasValue )
{
if ( ! videoStream . Level . HasValue )
{
return false ;
}
if ( videoStream . Level . Value > request . Level . Value )
{
return false ;
}
}
return request . EnableAutoStreamCopy ;
}
private static int GetVideoProfileScore ( string profile )
{
var list = new List < string >
{
"Constrained Baseline" ,
"Baseline" ,
"Extended" ,
"Main" ,
"High" ,
"Progressive High" ,
"Constrained High"
} ;
return Array . FindIndex ( list . ToArray ( ) , t = > string . Equals ( t , profile , StringComparison . OrdinalIgnoreCase ) ) ;
}
internal static bool CanStreamCopyAudio ( EncodingJobOptions request , MediaStream audioStream , List < string > supportedAudioCodecs )
{
// Source and target codecs must match
if ( string . IsNullOrEmpty ( audioStream . Codec ) | | ! supportedAudioCodecs . Contains ( audioStream . Codec , StringComparer . OrdinalIgnoreCase ) )
{
return false ;
}
// Video bitrate must fall within requested value
if ( request . AudioBitRate . HasValue )
{
if ( ! audioStream . BitRate . HasValue | | audioStream . BitRate . Value < = 0 )
{
return false ;
}
if ( audioStream . BitRate . Value > request . AudioBitRate . Value )
{
return false ;
}
}
// Channels must fall within requested value
var channels = request . AudioChannels ? ? request . MaxAudioChannels ;
if ( channels . HasValue )
{
if ( ! audioStream . Channels . HasValue | | audioStream . Channels . Value < = 0 )
{
return false ;
}
if ( audioStream . Channels . Value > channels . Value )
{
return false ;
}
}
// Sample rate must fall within requested value
if ( request . AudioSampleRate . HasValue )
{
if ( ! audioStream . SampleRate . HasValue | | audioStream . SampleRate . Value < = 0 )
{
return false ;
}
if ( audioStream . SampleRate . Value > request . AudioSampleRate . Value )
{
return false ;
}
}
return request . EnableAutoStreamCopy ;
}
private void ApplyDeviceProfileSettings ( EncodingJob state )
{
var profile = state . Options . DeviceProfile ;
if ( profile = = null )
{
// Don't use settings from the default profile.
// Only use a specific profile if it was requested.
return ;
}
var audioCodec = state . ActualOutputAudioCodec ;
var videoCodec = state . ActualOutputVideoCodec ;
var outputContainer = state . Options . OutputContainer ;
var mediaProfile = state . IsVideoRequest ?
profile . GetAudioMediaProfile ( outputContainer , audioCodec , state . OutputAudioChannels , state . OutputAudioBitrate ) :
profile . GetVideoMediaProfile ( outputContainer ,
audioCodec ,
videoCodec ,
state . OutputWidth ,
state . OutputHeight ,
state . TargetVideoBitDepth ,
state . OutputVideoBitrate ,
state . TargetVideoProfile ,
state . TargetVideoLevel ,
state . TargetFramerate ,
state . TargetPacketLength ,
state . TargetTimestamp ,
state . IsTargetAnamorphic ,
state . TargetRefFrames ,
state . TargetVideoStreamCount ,
state . TargetAudioStreamCount ,
state . TargetVideoCodecTag ) ;
if ( mediaProfile ! = null )
{
state . MimeType = mediaProfile . MimeType ;
}
var transcodingProfile = state . IsVideoRequest ?
profile . GetAudioTranscodingProfile ( outputContainer , audioCodec ) :
profile . GetVideoTranscodingProfile ( outputContainer , audioCodec , videoCodec ) ;
if ( transcodingProfile ! = null )
{
state . EstimateContentLength = transcodingProfile . EstimateContentLength ;
state . EnableMpegtsM2TsMode = transcodingProfile . EnableMpegtsM2TsMode ;
state . TranscodeSeekInfo = transcodingProfile . TranscodeSeekInfo ;
state . Options . CopyTimestamps = transcodingProfile . CopyTimestamps ;
}
}
}
}