// zlib License // // Copyright (c) 2021 Dan Ferguson, Victor Hugo Soliz Kuncar, Jason Dove // // This software is provided 'as-is', without any express or implied // warranty. In no event will the authors be held liable for any damages // arising from the use of this software. // // Permission is granted to anyone to use this software for any purpose, // including commercial applications, and to alter it and redistribute it // freely, subject to the following restrictions: // // 1. The origin of this software must not be misrepresented; you must not // claim that you wrote the original software. If you use this software // in a product, an acknowledgment in the product documentation would be // appreciated but is not required. // 2. Altered source versions must be plainly marked as such, and must not be // misrepresented as being the original software. // 3. This notice may not be removed or altered from any source distribution. using System; using System.Collections.Generic; using System.Diagnostics; using System.IO; using System.Text; using ErsatzTV.Core.Domain; using ErsatzTV.Core.Interfaces.FFmpeg; using LanguageExt; namespace ErsatzTV.Core.FFmpeg { internal class FFmpegProcessBuilder { private static readonly Dictionary QsvMap = new() { { "h264", "h264_qsv" }, { "hevc", "hevc_qsv" }, { "mpeg2video", "mpeg2_qsv" } }; private readonly List _arguments = new(); private readonly string _ffmpegPath; private readonly bool _saveReports; private FFmpegComplexFilterBuilder _complexFilterBuilder = new(); public FFmpegProcessBuilder(string ffmpegPath, bool saveReports) { _ffmpegPath = ffmpegPath; _saveReports = saveReports; } public FFmpegProcessBuilder WithThreads(int threads) { _arguments.Add("-threads"); _arguments.Add($"{threads}"); return this; } public FFmpegProcessBuilder WithHardwareAcceleration(HardwareAccelerationKind hwAccel) { switch (hwAccel) { case HardwareAccelerationKind.Qsv: _arguments.Add("-hwaccel"); _arguments.Add("qsv"); _arguments.Add("-init_hw_device"); _arguments.Add("qsv=qsv:MFX_IMPL_hw_any"); break; case HardwareAccelerationKind.Nvenc: _arguments.Add("-hwaccel"); _arguments.Add("cuda"); _arguments.Add("-hwaccel_output_format"); _arguments.Add("cuda"); break; case HardwareAccelerationKind.Vaapi: _arguments.Add("-hwaccel"); _arguments.Add("vaapi"); _arguments.Add("-vaapi_device"); _arguments.Add("/dev/dri/renderD128"); _arguments.Add("-hwaccel_output_format"); _arguments.Add("vaapi"); break; } _complexFilterBuilder = _complexFilterBuilder.WithHardwareAcceleration(hwAccel); return this; } public FFmpegProcessBuilder WithRealtimeOutput(bool realtimeOutput) { if (realtimeOutput) { _arguments.Add("-re"); } return this; } public FFmpegProcessBuilder WithSeek(Option maybeStart) { maybeStart.IfSome( start => { _arguments.Add("-ss"); _arguments.Add($"{start:c}"); }); return this; } public FFmpegProcessBuilder WithInfiniteLoop() { _arguments.Add("-stream_loop"); _arguments.Add("-1"); return this; } public FFmpegProcessBuilder WithLoopedImage(string input) { _arguments.Add("-loop"); _arguments.Add("1"); return WithInput(input); } public FFmpegProcessBuilder WithPipe() { _arguments.Add("pipe:1"); return this; } public FFmpegProcessBuilder WithPixfmt(string pixfmt) { _arguments.Add("-pix_fmt"); _arguments.Add(pixfmt); return this; } public FFmpegProcessBuilder WithLibavfilter() { _arguments.Add("-f"); _arguments.Add("lavfi"); return this; } public FFmpegProcessBuilder WithInput(string input) { _arguments.Add("-i"); _arguments.Add($"{input}"); return this; } public FFmpegProcessBuilder WithInputCodec(string input, HardwareAccelerationKind hwAccel, string codec) { if (hwAccel == HardwareAccelerationKind.Qsv && QsvMap.TryGetValue(codec, out string qsvCodec)) { _arguments.Add("-c:v"); _arguments.Add(qsvCodec); } _complexFilterBuilder = _complexFilterBuilder.WithInputCodec(codec); _arguments.Add("-i"); _arguments.Add($"{input}"); return this; } public FFmpegProcessBuilder WithFiltergraph(string graph) { _arguments.Add("-vf"); _arguments.Add($"{graph}"); return this; } public FFmpegProcessBuilder WithFilterComplex(string filter, string finalVideo, string finalAudio) { _arguments.Add("-filter_complex"); _arguments.Add($"{filter}"); _arguments.Add("-map"); _arguments.Add(finalVideo); _arguments.Add("-map"); _arguments.Add(finalAudio); return this; } public FFmpegProcessBuilder WithConcat(string concatPlaylist) { var arguments = new List { "-f", "concat", "-safe", "0", "-protocol_whitelist", "file,http,tcp,https,tcp,tls", "-probesize", "32", "-i", concatPlaylist, "-map", "0:v", "-map", "0:a", "-c", "copy", "-muxdelay", "0", "-muxpreload", "0" }; _arguments.AddRange(arguments); return this; } public FFmpegProcessBuilder WithMetadata(Channel channel) { var arguments = new List { "-metadata", "service_provider=\"ErsatzTV\"", "-metadata", $"service_name=\"{channel.Name}\"" }; _arguments.AddRange(arguments); return this; } public FFmpegProcessBuilder WithFormatFlags(IEnumerable formatFlags) { _arguments.Add("-fflags"); _arguments.Add(string.Join(string.Empty, formatFlags)); return this; } public FFmpegProcessBuilder WithErrorText(IDisplaySize desiredResolution, string text) { const string FONT_FILE = "fontfile=Resources/Roboto-Regular.ttf"; const string FONT_COLOR = "fontcolor=white"; const string X = "x=(w-text_w)/2"; const string Y = "y=(h-text_h)/3*2"; string fontSize = text.Length > 60 ? "fontsize=40" : "fontsize=60"; return WithFilterComplex( $"[0:0]scale={desiredResolution.Width}:{desiredResolution.Height},drawtext={FONT_FILE}:{fontSize}:{FONT_COLOR}:{X}:{Y}:text='{text}'[v]", "[v]", "1:a"); } public FFmpegProcessBuilder WithDuration(TimeSpan duration) { _arguments.Add("-t"); _arguments.Add($"{duration:c}"); return this; } public FFmpegProcessBuilder WithFormat(string format) { _arguments.Add("-f"); _arguments.Add($"{format}"); return this; } public FFmpegProcessBuilder WithPlaybackArgs(FFmpegPlaybackSettings playbackSettings) { var arguments = new List { "-c:v", playbackSettings.VideoCodec, "-flags", "cgop", "-sc_threshold", "1000000000" }; string[] videoBitrateArgs = playbackSettings.VideoBitrate.Match( bitrate => new[] { "-b:v", $"{bitrate}k", "-maxrate:v", $"{bitrate}k" }, Array.Empty()); arguments.AddRange(videoBitrateArgs); playbackSettings.VideoBufferSize .IfSome(bufferSize => arguments.AddRange(new[] { "-bufsize:v", $"{bufferSize}k" })); string[] audioBitrateArgs = playbackSettings.AudioBitrate.Match( bitrate => new[] { "-b:a", $"{bitrate}k", "-maxrate:a", $"{bitrate}k" }, Array.Empty()); arguments.AddRange(audioBitrateArgs); playbackSettings.AudioBufferSize .IfSome(bufferSize => arguments.AddRange(new[] { "-bufsize:a", $"{bufferSize}k" })); playbackSettings.AudioChannels .IfSome(channels => arguments.AddRange(new[] { "-ac", $"{channels}" })); playbackSettings.AudioSampleRate .IfSome(sampleRate => arguments.AddRange(new[] { "-ar", $"{sampleRate}k" })); arguments.AddRange( new[] { "-c:a", playbackSettings.AudioCodec, "-map_metadata", "-1", "-movflags", "+faststart", "-muxdelay", "0", "-muxpreload", "0" }); _arguments.AddRange(arguments); return this; } public FFmpegProcessBuilder WithScaling(IDisplaySize displaySize) { _complexFilterBuilder = _complexFilterBuilder.WithScaling(displaySize); return this; } public FFmpegProcessBuilder WithBlackBars(IDisplaySize displaySize) { _complexFilterBuilder = _complexFilterBuilder.WithBlackBars(displaySize); return this; } public FFmpegProcessBuilder WithAlignedAudio(Option audioDuration) { _complexFilterBuilder = _complexFilterBuilder.WithAlignedAudio(audioDuration); return this; } public FFmpegProcessBuilder WithDeinterlace(bool deinterlace) { _complexFilterBuilder = _complexFilterBuilder.WithDeinterlace(deinterlace); return this; } public FFmpegProcessBuilder WithFilterComplex() { var videoLabel = "0:V"; var audioLabel = "0:a"; Option maybeFilter = _complexFilterBuilder.Build(); maybeFilter.IfSome( filter => { _arguments.Add("-filter_complex"); _arguments.Add(filter.ComplexFilter); videoLabel = filter.VideoLabel; audioLabel = filter.AudioLabel; }); _arguments.Add("-map"); _arguments.Add(videoLabel); _arguments.Add("-map"); _arguments.Add(audioLabel); return this; } public FFmpegProcessBuilder WithQuiet() { _arguments.AddRange(new[] { "-hide_banner", "-loglevel", "error", "-nostats" }); return this; } public Process Build() { var startInfo = new ProcessStartInfo { FileName = _ffmpegPath, RedirectStandardOutput = true, RedirectStandardError = false, UseShellExecute = false, CreateNoWindow = true, StandardOutputEncoding = Encoding.UTF8 }; if (_saveReports) { string fileName = Path.Combine(FileSystemLayout.FFmpegReportsFolder, "%p-%t.log"); startInfo.EnvironmentVariables.Add("FFREPORT", $"file={fileName}:level=32"); } foreach (string argument in _arguments) { startInfo.ArgumentList.Add(argument); } return new Process { StartInfo = startInfo }; } } }