using System;
using System.Collections.Generic;
using System.ComponentModel.DataAnnotations;
using System.Globalization;
using System.IO;
using System.Runtime.InteropServices;
using System.Threading;
using System.Threading.Tasks;
using Jellyfin.Api.Attributes;
using Jellyfin.Api.Constants;
using Jellyfin.Api.Helpers;
using Jellyfin.Api.Models.PlaybackDtos;
using Jellyfin.Api.Models.StreamingDtos;
using MediaBrowser.Common.Configuration;
using MediaBrowser.Common.Extensions;
using MediaBrowser.Controller.Configuration;
using MediaBrowser.Controller.Devices;
using MediaBrowser.Controller.Dlna;
using MediaBrowser.Controller.Library;
using MediaBrowser.Controller.MediaEncoding;
using MediaBrowser.Controller.Net;
using MediaBrowser.Model.Configuration;
using MediaBrowser.Model.Dlna;
using MediaBrowser.Model.IO;
using MediaBrowser.Model.Net;
using Microsoft.AspNetCore.Authorization;
using Microsoft.AspNetCore.Http;
using Microsoft.AspNetCore.Mvc;
using Microsoft.Extensions.Configuration;
using Microsoft.Extensions.Logging;
namespace Jellyfin.Api.Controllers
{
///
/// The video hls controller.
///
[Route("")]
[Authorize(Policy = Policies.DefaultAuthorization)]
public class VideoHlsController : BaseJellyfinApiController
{
private const string DefaultEncoderPreset = "superfast";
private const TranscodingJobType TranscodingJobType = MediaBrowser.Controller.MediaEncoding.TranscodingJobType.Hls;
private readonly EncodingHelper _encodingHelper;
private readonly IDlnaManager _dlnaManager;
private readonly IAuthorizationContext _authContext;
private readonly IUserManager _userManager;
private readonly ILibraryManager _libraryManager;
private readonly IMediaSourceManager _mediaSourceManager;
private readonly IServerConfigurationManager _serverConfigurationManager;
private readonly IMediaEncoder _mediaEncoder;
private readonly IFileSystem _fileSystem;
private readonly ISubtitleEncoder _subtitleEncoder;
private readonly IConfiguration _configuration;
private readonly IDeviceManager _deviceManager;
private readonly TranscodingJobHelper _transcodingJobHelper;
private readonly ILogger _logger;
private readonly EncodingOptions _encodingOptions;
///
/// Initializes a new instance of the class.
///
/// Instance of the interface.
/// Instance of the interface.
/// Instance of the interface.
/// Instance of the interface.
/// Instance of the interface.
/// Instance of the interface.
/// Instance of the interface.
/// Instance of the interface.
/// Instance of the interface.
/// Instance of the interface.
/// Instance of the interface.
/// The singleton.
/// Instance of the .
public VideoHlsController(
IMediaEncoder mediaEncoder,
IFileSystem fileSystem,
ISubtitleEncoder subtitleEncoder,
IConfiguration configuration,
IDlnaManager dlnaManager,
IUserManager userManger,
IAuthorizationContext authorizationContext,
ILibraryManager libraryManager,
IMediaSourceManager mediaSourceManager,
IServerConfigurationManager serverConfigurationManager,
IDeviceManager deviceManager,
TranscodingJobHelper transcodingJobHelper,
ILogger logger)
{
_encodingHelper = new EncodingHelper(mediaEncoder, fileSystem, subtitleEncoder, configuration);
_dlnaManager = dlnaManager;
_authContext = authorizationContext;
_userManager = userManger;
_libraryManager = libraryManager;
_mediaSourceManager = mediaSourceManager;
_serverConfigurationManager = serverConfigurationManager;
_mediaEncoder = mediaEncoder;
_fileSystem = fileSystem;
_subtitleEncoder = subtitleEncoder;
_configuration = configuration;
_deviceManager = deviceManager;
_transcodingJobHelper = transcodingJobHelper;
_logger = logger;
_encodingOptions = serverConfigurationManager.GetEncodingOptions();
}
///
/// Gets a hls live stream.
///
/// The item id.
/// The audio container.
/// Optional. If true, the original file will be streamed statically without any encoding. Use either no url extension or the original file extension. true/false.
/// The streaming parameters.
/// The tag.
/// Optional. The dlna device profile id to utilize.
/// The play session id.
/// The segment container.
/// The segment lenght.
/// The minimum number of segments.
/// The media version id, if playing an alternate version.
/// The device id of the client requesting. Used to stop encoding processes when needed.
/// Optional. Specify a audio codec to encode to, e.g. mp3. If omitted the server will auto-select using the url's extension. Options: aac, mp3, vorbis, wma.
/// Whether or not to allow automatic stream copy if requested values match the original source. Defaults to true.
/// Whether or not to allow copying of the video stream url.
/// Whether or not to allow copying of the audio stream url.
/// Optional. Whether to break on non key frames.
/// Optional. Specify a specific audio sample rate, e.g. 44100.
/// Optional. The maximum audio bit depth.
/// Optional. Specify an audio bitrate to encode to, e.g. 128000. If omitted this will be left to encoder defaults.
/// Optional. Specify a specific number of audio channels to encode to, e.g. 2.
/// Optional. Specify a maximum number of audio channels to encode to, e.g. 2.
/// Optional. Specify a specific an encoder profile (varies by encoder), e.g. main, baseline, high.
/// Optional. Specify a level for the encoder profile (varies by encoder), e.g. 3, 3.1.
/// Optional. A specific video framerate to encode to, e.g. 23.976. Generally this should be omitted unless the device has specific requirements.
/// Optional. A specific maximum video framerate to encode to, e.g. 23.976. Generally this should be omitted unless the device has specific requirements.
/// Whether or not to copy timestamps when transcoding with an offset. Defaults to false.
/// Optional. Specify a starting offset, in ticks. 1 tick = 10000 ms.
/// Optional. The fixed horizontal resolution of the encoded video.
/// Optional. The fixed vertical resolution of the encoded video.
/// Optional. Specify a video bitrate to encode to, e.g. 500000. If omitted this will be left to encoder defaults.
/// Optional. The index of the subtitle stream to use. If omitted no subtitles will be used.
/// Optional. Specify the subtitle delivery method.
/// Optional.
/// Optional. The maximum video bit depth.
/// Optional. Whether to require avc.
/// Optional. Whether to deinterlace the video.
/// Optional. Whether to require a non anamorphic stream.
/// Optional. The maximum number of audio channels to transcode.
/// Optional. The limit of how many cpu cores to use.
/// The live stream id.
/// Optional. Whether to enable the MpegtsM2Ts mode.
/// Optional. Specify a video codec to encode to, e.g. h264. If omitted the server will auto-select using the url's extension. Options: h265, h264, mpeg4, theora, vpx, wmv.
/// Optional. Specify a subtitle codec to encode to.
/// Optional. The transcoding reason.
/// Optional. The index of the audio stream to use. If omitted the first audio stream will be used.
/// Optional. The index of the video stream to use. If omitted the first video stream will be used.
/// Optional. The .
/// Optional. The streaming options.
/// Optional. The max width.
/// Optional. The max height.
/// Optional. Whether to enable subtitles in the manifest.
/// Hls live stream retrieved.
/// A containing the hls file.
[HttpGet("Videos/{itemId}/live.m3u8")]
[ProducesResponseType(StatusCodes.Status200OK)]
[ProducesPlaylistFile]
public async Task GetLiveHlsStream(
[FromRoute, Required] Guid itemId,
[FromQuery] string? container,
[FromQuery] bool? @static,
[FromQuery] string? @params,
[FromQuery] string? tag,
[FromQuery] string? deviceProfileId,
[FromQuery] string? playSessionId,
[FromQuery] string? segmentContainer,
[FromQuery] int? segmentLength,
[FromQuery] int? minSegments,
[FromQuery] string? mediaSourceId,
[FromQuery] string? deviceId,
[FromQuery] string? audioCodec,
[FromQuery] bool? enableAutoStreamCopy,
[FromQuery] bool? allowVideoStreamCopy,
[FromQuery] bool? allowAudioStreamCopy,
[FromQuery] bool? breakOnNonKeyFrames,
[FromQuery] int? audioSampleRate,
[FromQuery] int? maxAudioBitDepth,
[FromQuery] int? audioBitRate,
[FromQuery] int? audioChannels,
[FromQuery] int? maxAudioChannels,
[FromQuery] string? profile,
[FromQuery] string? level,
[FromQuery] float? framerate,
[FromQuery] float? maxFramerate,
[FromQuery] bool? copyTimestamps,
[FromQuery] long? startTimeTicks,
[FromQuery] int? width,
[FromQuery] int? height,
[FromQuery] int? videoBitRate,
[FromQuery] int? subtitleStreamIndex,
[FromQuery] SubtitleDeliveryMethod subtitleMethod,
[FromQuery] int? maxRefFrames,
[FromQuery] int? maxVideoBitDepth,
[FromQuery] bool? requireAvc,
[FromQuery] bool? deInterlace,
[FromQuery] bool? requireNonAnamorphic,
[FromQuery] int? transcodingMaxAudioChannels,
[FromQuery] int? cpuCoreLimit,
[FromQuery] string? liveStreamId,
[FromQuery] bool? enableMpegtsM2TsMode,
[FromQuery] string? videoCodec,
[FromQuery] string? subtitleCodec,
[FromQuery] string? transcodeReasons,
[FromQuery] int? audioStreamIndex,
[FromQuery] int? videoStreamIndex,
[FromQuery] EncodingContext context,
[FromQuery] Dictionary streamOptions,
[FromQuery] int? maxWidth,
[FromQuery] int? maxHeight,
[FromQuery] bool? enableSubtitlesInManifest)
{
VideoRequestDto streamingRequest = new VideoRequestDto
{
Id = itemId,
Container = container,
Static = @static ?? true,
Params = @params,
Tag = tag,
DeviceProfileId = deviceProfileId,
PlaySessionId = playSessionId,
SegmentContainer = segmentContainer,
SegmentLength = segmentLength,
MinSegments = minSegments,
MediaSourceId = mediaSourceId,
DeviceId = deviceId,
AudioCodec = audioCodec,
EnableAutoStreamCopy = enableAutoStreamCopy ?? true,
AllowAudioStreamCopy = allowAudioStreamCopy ?? true,
AllowVideoStreamCopy = allowVideoStreamCopy ?? true,
BreakOnNonKeyFrames = breakOnNonKeyFrames ?? false,
AudioSampleRate = audioSampleRate,
MaxAudioChannels = maxAudioChannels,
AudioBitRate = audioBitRate,
MaxAudioBitDepth = maxAudioBitDepth,
AudioChannels = audioChannels,
Profile = profile,
Level = level,
Framerate = framerate,
MaxFramerate = maxFramerate,
CopyTimestamps = copyTimestamps ?? true,
StartTimeTicks = startTimeTicks,
Width = width,
Height = height,
VideoBitRate = videoBitRate,
SubtitleStreamIndex = subtitleStreamIndex,
SubtitleMethod = subtitleMethod,
MaxRefFrames = maxRefFrames,
MaxVideoBitDepth = maxVideoBitDepth,
RequireAvc = requireAvc ?? true,
DeInterlace = deInterlace ?? true,
RequireNonAnamorphic = requireNonAnamorphic ?? true,
TranscodingMaxAudioChannels = transcodingMaxAudioChannels,
CpuCoreLimit = cpuCoreLimit,
LiveStreamId = liveStreamId,
EnableMpegtsM2TsMode = enableMpegtsM2TsMode ?? true,
VideoCodec = videoCodec,
SubtitleCodec = subtitleCodec,
TranscodeReasons = transcodeReasons,
AudioStreamIndex = audioStreamIndex,
VideoStreamIndex = videoStreamIndex,
Context = context,
StreamOptions = streamOptions,
MaxHeight = maxHeight,
MaxWidth = maxWidth,
EnableSubtitlesInManifest = enableSubtitlesInManifest ?? true
};
var cancellationTokenSource = new CancellationTokenSource();
using var state = await StreamingHelpers.GetStreamingState(
streamingRequest,
Request,
_authContext,
_mediaSourceManager,
_userManager,
_libraryManager,
_serverConfigurationManager,
_mediaEncoder,
_fileSystem,
_subtitleEncoder,
_configuration,
_dlnaManager,
_deviceManager,
_transcodingJobHelper,
TranscodingJobType,
cancellationTokenSource.Token)
.ConfigureAwait(false);
TranscodingJobDto? job = null;
var playlistPath = Path.ChangeExtension(state.OutputFilePath, ".m3u8");
if (!System.IO.File.Exists(playlistPath))
{
var transcodingLock = _transcodingJobHelper.GetTranscodingLock(playlistPath);
await transcodingLock.WaitAsync(cancellationTokenSource.Token).ConfigureAwait(false);
try
{
if (!System.IO.File.Exists(playlistPath))
{
// If the playlist doesn't already exist, startup ffmpeg
try
{
job = await _transcodingJobHelper.StartFfMpeg(
state,
playlistPath,
GetCommandLineArguments(playlistPath, state),
Request,
TranscodingJobType,
cancellationTokenSource)
.ConfigureAwait(false);
job.IsLiveOutput = true;
}
catch
{
state.Dispose();
throw;
}
minSegments = state.MinSegments;
if (minSegments > 0)
{
await HlsHelpers.WaitForMinimumSegmentCount(playlistPath, minSegments, _logger, cancellationTokenSource.Token).ConfigureAwait(false);
}
}
}
finally
{
transcodingLock.Release();
}
}
job ??= _transcodingJobHelper.OnTranscodeBeginRequest(playlistPath, TranscodingJobType);
if (job != null)
{
_transcodingJobHelper.OnTranscodeEndRequest(job);
}
var playlistText = HlsHelpers.GetLivePlaylistText(playlistPath, state);
return Content(playlistText, MimeTypes.GetMimeType("playlist.m3u8"));
}
///
/// Gets the command line arguments for ffmpeg.
///
/// The output path of the file.
/// The .
/// The command line arguments as a string.
private string GetCommandLineArguments(string outputPath, StreamState state)
{
var videoCodec = _encodingHelper.GetVideoEncoder(state, _encodingOptions);
var threads = EncodingHelper.GetNumberOfThreads(state, _encodingOptions, videoCodec); // GetNumberOfThreads is static.
var inputModifier = _encodingHelper.GetInputModifier(state, _encodingOptions);
var mapArgs = state.IsOutputVideo ? _encodingHelper.GetMapArgs(state) : string.Empty;
var directory = Path.GetDirectoryName(outputPath) ?? throw new ArgumentException($"Provided path ({outputPath}) is not valid.", nameof(outputPath));
var outputFileNameWithoutExtension = Path.GetFileNameWithoutExtension(outputPath);
var outputPrefix = Path.Combine(directory, outputFileNameWithoutExtension);
var outputExtension = EncodingHelper.GetSegmentFileExtension(state.Request.SegmentContainer);
var outputTsArg = outputPrefix + "%d" + outputExtension;
var segmentFormat = outputExtension.TrimStart('.');
if (string.Equals(segmentFormat, "ts", StringComparison.OrdinalIgnoreCase))
{
segmentFormat = "mpegts";
}
else if (string.Equals(segmentFormat, "mp4", StringComparison.OrdinalIgnoreCase))
{
var outputFmp4HeaderArg = string.Empty;
var isWindows = RuntimeInformation.IsOSPlatform(OSPlatform.Windows);
if (isWindows)
{
// on Windows, the path of fmp4 header file needs to be configured
outputFmp4HeaderArg = " -hls_fmp4_init_filename \"" + outputPrefix + "-1" + outputExtension + "\"";
}
else
{
// on Linux/Unix, ffmpeg generate fmp4 header file to m3u8 output folder
outputFmp4HeaderArg = " -hls_fmp4_init_filename \"" + outputFileNameWithoutExtension + "-1" + outputExtension + "\"";
}
segmentFormat = "fmp4" + outputFmp4HeaderArg;
}
else
{
_logger.LogError("Invalid HLS segment container: {SegmentFormat}", segmentFormat);
}
var maxMuxingQueueSize = _encodingOptions.MaxMuxingQueueSize > 128
? _encodingOptions.MaxMuxingQueueSize.ToString(CultureInfo.InvariantCulture)
: "128";
var baseUrlParam = string.Format(
CultureInfo.InvariantCulture,
"\"hls/{0}/\"",
Path.GetFileNameWithoutExtension(outputPath));
return string.Format(
CultureInfo.InvariantCulture,
"{0} {1} -map_metadata -1 -map_chapters -1 -threads {2} {3} {4} {5} -copyts -avoid_negative_ts disabled -max_muxing_queue_size {6} -f hls -max_delay 5000000 -hls_time {7} -hls_segment_type {8} -start_number 0 -hls_base_url {9} -hls_playlist_type event -hls_segment_filename \"{10}\" -y \"{11}\"",
inputModifier,
_encodingHelper.GetInputArgument(state, _encodingOptions),
threads,
mapArgs,
GetVideoArguments(state),
GetAudioArguments(state),
maxMuxingQueueSize,
state.SegmentLength.ToString(CultureInfo.InvariantCulture),
segmentFormat,
baseUrlParam,
outputTsArg,
outputPath).Trim();
}
///
/// Gets the audio arguments for transcoding.
///
/// The .
/// The command line arguments for audio transcoding.
private string GetAudioArguments(StreamState state)
{
if (state.AudioStream == null)
{
return string.Empty;
}
var audioCodec = _encodingHelper.GetAudioEncoder(state);
if (!state.IsOutputVideo)
{
if (EncodingHelper.IsCopyCodec(audioCodec))
{
var bitStreamArgs = EncodingHelper.GetAudioBitStreamArguments(state, state.Request.SegmentContainer, state.MediaSource.Container);
return "-acodec copy -strict -2" + bitStreamArgs;
}
var audioTranscodeParams = string.Empty;
audioTranscodeParams += "-acodec " + audioCodec;
if (state.OutputAudioBitrate.HasValue)
{
audioTranscodeParams += " -ab " + state.OutputAudioBitrate.Value.ToString(CultureInfo.InvariantCulture);
}
if (state.OutputAudioChannels.HasValue)
{
audioTranscodeParams += " -ac " + state.OutputAudioChannels.Value.ToString(CultureInfo.InvariantCulture);
}
if (state.OutputAudioSampleRate.HasValue)
{
audioTranscodeParams += " -ar " + state.OutputAudioSampleRate.Value.ToString(CultureInfo.InvariantCulture);
}
audioTranscodeParams += " -vn";
return audioTranscodeParams;
}
if (EncodingHelper.IsCopyCodec(audioCodec))
{
var bitStreamArgs = EncodingHelper.GetAudioBitStreamArguments(state, state.Request.SegmentContainer, state.MediaSource.Container);
return "-acodec copy -strict -2" + bitStreamArgs;
}
var args = "-codec:a:0 " + audioCodec;
var channels = state.OutputAudioChannels;
if (channels.HasValue)
{
args += " -ac " + channels.Value;
}
var bitrate = state.OutputAudioBitrate;
if (bitrate.HasValue)
{
args += " -ab " + bitrate.Value.ToString(CultureInfo.InvariantCulture);
}
if (state.OutputAudioSampleRate.HasValue)
{
args += " -ar " + state.OutputAudioSampleRate.Value.ToString(CultureInfo.InvariantCulture);
}
args += _encodingHelper.GetAudioFilterParam(state, _encodingOptions, true);
return args;
}
///
/// Gets the video arguments for transcoding.
///
/// The .
/// The command line arguments for video transcoding.
private string GetVideoArguments(StreamState state)
{
if (state.VideoStream == null)
{
return string.Empty;
}
if (!state.IsOutputVideo)
{
return string.Empty;
}
var codec = _encodingHelper.GetVideoEncoder(state, _encodingOptions);
var args = "-codec:v:0 " + codec;
// Prefer hvc1 to hev1.
if (string.Equals(state.ActualOutputVideoCodec, "h265", StringComparison.OrdinalIgnoreCase)
|| string.Equals(state.ActualOutputVideoCodec, "hevc", StringComparison.OrdinalIgnoreCase)
|| string.Equals(codec, "h265", StringComparison.OrdinalIgnoreCase)
|| string.Equals(codec, "hevc", StringComparison.OrdinalIgnoreCase))
{
args += " -tag:v:0 hvc1";
}
// if (state.EnableMpegtsM2TsMode)
// {
// args += " -mpegts_m2ts_mode 1";
// }
// See if we can save come cpu cycles by avoiding encoding.
if (EncodingHelper.IsCopyCodec(codec))
{
// If h264_mp4toannexb is ever added, do not use it for live tv.
if (state.VideoStream != null && !string.Equals(state.VideoStream.NalLengthSize, "0", StringComparison.OrdinalIgnoreCase))
{
string bitStreamArgs = EncodingHelper.GetBitStreamArgs(state.VideoStream);
if (!string.IsNullOrEmpty(bitStreamArgs))
{
args += " " + bitStreamArgs;
}
}
args += " -start_at_zero";
}
else
{
args += _encodingHelper.GetVideoQualityParam(state, codec, _encodingOptions, DefaultEncoderPreset);
// Set the key frame params for video encoding to match the hls segment time.
args += _encodingHelper.GetHlsVideoKeyFrameArguments(state, codec, state.SegmentLength, true, null);
// Currenly b-frames in libx265 breaks the FMP4-HLS playback on iOS, disable it for now.
if (string.Equals(codec, "libx265", StringComparison.OrdinalIgnoreCase))
{
args += " -bf 0";
}
var hasGraphicalSubs = state.SubtitleStream != null && !state.SubtitleStream.IsTextSubtitleStream && state.SubtitleDeliveryMethod == SubtitleDeliveryMethod.Encode;
if (hasGraphicalSubs)
{
// Graphical subs overlay and resolution params.
args += _encodingHelper.GetGraphicalSubtitleParam(state, _encodingOptions, codec);
}
else
{
// Resolution params.
args += _encodingHelper.GetOutputSizeParam(state, _encodingOptions, codec);
}
if (state.SubtitleStream == null || !state.SubtitleStream.IsExternal || state.SubtitleStream.IsTextSubtitleStream)
{
args += " -start_at_zero";
}
}
args += " -flags -global_header";
if (!string.IsNullOrEmpty(state.OutputVideoSync))
{
args += " -vsync " + state.OutputVideoSync;
}
args += _encodingHelper.GetOutputFFlags(state);
return args;
}
}
}