#pragma warning disable CS1591
using System ;
using System.Collections.Generic ;
using System.Diagnostics ;
using System.Globalization ;
using System.Linq ;
using System.Text.RegularExpressions ;
using Microsoft.Extensions.Logging ;
namespace MediaBrowser.MediaEncoding.Encoder
{
public class EncoderValidator
{
private static readonly string [ ] _requiredDecoders = new [ ]
{
"h264" ,
"hevc" ,
"vp8" ,
"libvpx" ,
"vp9" ,
"libvpx-vp9" ,
"av1" ,
"libdav1d" ,
"mpeg2video" ,
"mpeg4" ,
"msmpeg4" ,
"dca" ,
"ac3" ,
"aac" ,
"mp3" ,
"flac" ,
"truehd" ,
"h264_qsv" ,
"hevc_qsv" ,
"mpeg2_qsv" ,
"vc1_qsv" ,
"vp8_qsv" ,
"vp9_qsv" ,
"av1_qsv" ,
"h264_cuvid" ,
"hevc_cuvid" ,
"mpeg2_cuvid" ,
"vc1_cuvid" ,
"mpeg4_cuvid" ,
"vp8_cuvid" ,
"vp9_cuvid" ,
"av1_cuvid"
} ;
private static readonly string [ ] _requiredEncoders = new [ ]
{
"libx264" ,
"libx265" ,
"mpeg4" ,
"msmpeg4" ,
"libvpx" ,
"libvpx-vp9" ,
"aac" ,
"aac_at" ,
"libfdk_aac" ,
"ac3" ,
"dca" ,
"libmp3lame" ,
"libopus" ,
"libvorbis" ,
"flac" ,
"truehd" ,
"srt" ,
"h264_amf" ,
"hevc_amf" ,
"h264_qsv" ,
"hevc_qsv" ,
"h264_nvenc" ,
"hevc_nvenc" ,
"h264_vaapi" ,
"hevc_vaapi" ,
"h264_v4l2m2m" ,
"h264_videotoolbox" ,
"hevc_videotoolbox"
} ;
private static readonly string [ ] _requiredFilters = new [ ]
{
// sw
"alphasrc" ,
"zscale" ,
// qsv
"scale_qsv" ,
"vpp_qsv" ,
"deinterlace_qsv" ,
"overlay_qsv" ,
// cuda
"scale_cuda" ,
"yadif_cuda" ,
"tonemap_cuda" ,
"overlay_cuda" ,
"hwupload_cuda" ,
// opencl
"scale_opencl" ,
"tonemap_opencl" ,
"overlay_opencl" ,
// vaapi
"scale_vaapi" ,
"deinterlace_vaapi" ,
"tonemap_vaapi" ,
"procamp_vaapi" ,
"overlay_vaapi" ,
"hwupload_vaapi" ,
// vulkan
"libplacebo" ,
"scale_vulkan" ,
"overlay_vulkan" ,
"hwupload_vaapi" ,
// videotoolbox
"yadif_videotoolbox"
} ;
private static readonly IReadOnlyDictionary < int , string [ ] > _filterOptionsDict = new Dictionary < int , string [ ] >
{
{ 0 , new string [ ] { "scale_cuda" , "Output format (default \"same\")" } } ,
{ 1 , new string [ ] { "tonemap_cuda" , "GPU accelerated HDR to SDR tonemapping" } } ,
{ 2 , new string [ ] { "tonemap_opencl" , "bt2390" } } ,
{ 3 , new string [ ] { "overlay_opencl" , "Action to take when encountering EOF from secondary input" } } ,
{ 4 , new string [ ] { "overlay_vaapi" , "Action to take when encountering EOF from secondary input" } } ,
{ 5 , new string [ ] { "overlay_vulkan" , "Action to take when encountering EOF from secondary input" } }
} ;
// These are the library versions that corresponds to our minimum ffmpeg version 4.x according to the version table below
private static readonly IReadOnlyDictionary < string , Version > _ffmpegMinimumLibraryVersions = new Dictionary < string , Version >
{
{ "libavutil" , new Version ( 56 , 14 ) } ,
{ "libavcodec" , new Version ( 58 , 18 ) } ,
{ "libavformat" , new Version ( 58 , 12 ) } ,
{ "libavdevice" , new Version ( 58 , 3 ) } ,
{ "libavfilter" , new Version ( 7 , 16 ) } ,
{ "libswscale" , new Version ( 5 , 1 ) } ,
{ "libswresample" , new Version ( 3 , 1 ) } ,
{ "libpostproc" , new Version ( 55 , 1 ) }
} ;
private readonly ILogger _logger ;
private readonly string _encoderPath ;
public EncoderValidator ( ILogger logger , string encoderPath )
{
_logger = logger ;
_encoderPath = encoderPath ;
}
private enum Codec
{
Encoder ,
Decoder
}
// When changing this, also change the minimum library versions in _ffmpegMinimumLibraryVersions
public static Version MinVersion { get ; } = new Version ( 4 , 0 ) ;
public static Version ? MaxVersion { get ; } = null ;
public bool ValidateVersion ( )
{
string output ;
try
{
output = GetProcessOutput ( _encoderPath , "-version" , false , null ) ;
}
catch ( Exception ex )
{
_logger . LogError ( ex , "Error validating encoder" ) ;
return false ;
}
if ( string . IsNullOrWhiteSpace ( output ) )
{
_logger . LogError ( "FFmpeg validation: The process returned no result" ) ;
return false ;
}
_logger . LogDebug ( "ffmpeg output: {Output}" , output ) ;
return ValidateVersionInternal ( output ) ;
}
internal bool ValidateVersionInternal ( string versionOutput )
{
if ( versionOutput . IndexOf ( "Libav developers" , StringComparison . OrdinalIgnoreCase ) ! = - 1 )
{
_logger . LogError ( "FFmpeg validation: avconv instead of ffmpeg is not supported" ) ;
return false ;
}
// Work out what the version under test is
var version = GetFFmpegVersionInternal ( versionOutput ) ;
_logger . LogInformation ( "Found ffmpeg version {Version}" , version is not null ? version . ToString ( ) : "unknown" ) ;
if ( version is null )
{
if ( MaxVersion is not null ) // Version is unknown
{
if ( MinVersion = = MaxVersion )
{
_logger . LogWarning ( "FFmpeg validation: We recommend version {MinVersion}" , MinVersion ) ;
}
else
{
_logger . LogWarning ( "FFmpeg validation: We recommend a minimum of {MinVersion} and maximum of {MaxVersion}" , MinVersion , MaxVersion ) ;
}
}
else
{
_logger . LogWarning ( "FFmpeg validation: We recommend minimum version {MinVersion}" , MinVersion ) ;
}
return false ;
}
if ( version < MinVersion ) // Version is below what we recommend
{
_logger . LogWarning ( "FFmpeg validation: The minimum recommended version is {MinVersion}" , MinVersion ) ;
return false ;
}
if ( MaxVersion is not null & & version > MaxVersion ) // Version is above what we recommend
{
_logger . LogWarning ( "FFmpeg validation: The maximum recommended version is {MaxVersion}" , MaxVersion ) ;
return false ;
}
return true ;
}
public IEnumerable < string > GetDecoders ( ) = > GetCodecs ( Codec . Decoder ) ;
public IEnumerable < string > GetEncoders ( ) = > GetCodecs ( Codec . Encoder ) ;
public IEnumerable < string > GetHwaccels ( ) = > GetHwaccelTypes ( ) ;
public IEnumerable < string > GetFilters ( ) = > GetFFmpegFilters ( ) ;
public IDictionary < int , bool > GetFiltersWithOption ( ) = > GetFFmpegFiltersWithOption ( ) ;
public Version ? GetFFmpegVersion ( )
{
string output ;
try
{
output = GetProcessOutput ( _encoderPath , "-version" , false , null ) ;
}
catch ( Exception ex )
{
_logger . LogError ( ex , "Error validating encoder" ) ;
return null ;
}
if ( string . IsNullOrWhiteSpace ( output ) )
{
_logger . LogError ( "FFmpeg validation: The process returned no result" ) ;
return null ;
}
_logger . LogDebug ( "ffmpeg output: {Output}" , output ) ;
return GetFFmpegVersionInternal ( output ) ;
}
/// <summary>
/// Using the output from "ffmpeg -version" work out the FFmpeg version.
/// For pre-built binaries the first line should contain a string like "ffmpeg version x.y", which is easy
/// to parse. If this is not available, then we try to match known library versions to FFmpeg versions.
/// If that fails then we test the libraries to determine if they're newer than our minimum versions.
/// </summary>
/// <param name="output">The output from "ffmpeg -version".</param>
/// <returns>The FFmpeg version.</returns>
internal Version ? GetFFmpegVersionInternal ( string output )
{
// For pre-built binaries the FFmpeg version should be mentioned at the very start of the output
var match = Regex . Match ( output , @"^ffmpeg version n?((?:[0-9]+\.?)+)" ) ;
if ( match . Success )
{
if ( Version . TryParse ( match . Groups [ 1 ] . ValueSpan , out var result ) )
{
return result ;
}
}
var versionMap = GetFFmpegLibraryVersions ( output ) ;
var allVersionsValidated = true ;
foreach ( var minimumVersion in _ffmpegMinimumLibraryVersions )
{
if ( versionMap . TryGetValue ( minimumVersion . Key , out var foundVersion ) )
{
if ( foundVersion > = minimumVersion . Value )
{
_logger . LogInformation ( "Found {Library} version {FoundVersion} ({MinimumVersion})" , minimumVersion . Key , foundVersion , minimumVersion . Value ) ;
}
else
{
_logger . LogWarning ( "Found {Library} version {FoundVersion} lower than recommended version {MinimumVersion}" , minimumVersion . Key , foundVersion , minimumVersion . Value ) ;
allVersionsValidated = false ;
}
}
else
{
_logger . LogError ( "{Library} version not found" , minimumVersion . Key ) ;
allVersionsValidated = false ;
}
}
return allVersionsValidated ? MinVersion : null ;
}
/// <summary>
/// Grabs the library names and major.minor version numbers from the 'ffmpeg -version' output
/// and condenses them on to one line. Output format is "name1=major.minor,name2=major.minor,etc.".
/// </summary>
/// <param name="output">The 'ffmpeg -version' output.</param>
/// <returns>The library names and major.minor version numbers.</returns>
private static IReadOnlyDictionary < string , Version > GetFFmpegLibraryVersions ( string output )
{
var map = new Dictionary < string , Version > ( ) ;
foreach ( Match match in Regex . Matches (
output ,
@"((?<name>lib\w+)\s+(?<major>[0-9]+)\.\s*(?<minor>[0-9]+))" ,
RegexOptions . Multiline ) )
{
var version = new Version (
int . Parse ( match . Groups [ "major" ] . ValueSpan , CultureInfo . InvariantCulture ) ,
int . Parse ( match . Groups [ "minor" ] . ValueSpan , CultureInfo . InvariantCulture ) ) ;
map . Add ( match . Groups [ "name" ] . Value , version ) ;
}
return map ;
}
public bool CheckVaapiDeviceByDriverName ( string driverName , string renderNodePath )
{
if ( ! OperatingSystem . IsLinux ( ) )
{
return false ;
}
if ( string . IsNullOrEmpty ( driverName ) | | string . IsNullOrEmpty ( renderNodePath ) )
{
return false ;
}
try
{
var output = GetProcessOutput ( _encoderPath , "-v verbose -hide_banner -init_hw_device vaapi=va:" + renderNodePath , true , null ) ;
return output . Contains ( driverName , StringComparison . Ordinal ) ;
}
catch ( Exception ex )
{
_logger . LogError ( ex , "Error detecting the given vaapi render node path" ) ;
return false ;
}
}
public bool CheckVulkanDrmDeviceByExtensionName ( string renderNodePath , string [ ] vulkanExtensions )
{
if ( ! OperatingSystem . IsLinux ( ) )
{
return false ;
}
if ( string . IsNullOrEmpty ( renderNodePath ) )
{
return false ;
}
try
{
var command = "-v verbose -hide_banner -init_hw_device drm=dr:" + renderNodePath + " -init_hw_device vulkan=vk@dr" ;
var output = GetProcessOutput ( _encoderPath , command , true , null ) ;
foreach ( string ext in vulkanExtensions )
{
if ( ! output . Contains ( ext , StringComparison . Ordinal ) )
{
return false ;
}
}
return true ;
}
catch ( Exception ex )
{
_logger . LogError ( ex , "Error detecting the given drm render node path" ) ;
return false ;
}
}
private IEnumerable < string > GetHwaccelTypes ( )
{
string? output = null ;
try
{
output = GetProcessOutput ( _encoderPath , "-hwaccels" , false , null ) ;
}
catch ( Exception ex )
{
_logger . LogError ( ex , "Error detecting available hwaccel types" ) ;
}
if ( string . IsNullOrWhiteSpace ( output ) )
{
return Enumerable . Empty < string > ( ) ;
}
var found = output . Split ( new char [ ] { '\r' , '\n' } , StringSplitOptions . RemoveEmptyEntries ) . Skip ( 1 ) . Distinct ( ) . ToList ( ) ;
_logger . LogInformation ( "Available hwaccel types: {Types}" , found ) ;
return found ;
}
public bool CheckFilterWithOption ( string filter , string option )
{
if ( string . IsNullOrEmpty ( filter ) | | string . IsNullOrEmpty ( option ) )
{
return false ;
}
string output ;
try
{
output = GetProcessOutput ( _encoderPath , "-h filter=" + filter , false , null ) ;
}
catch ( Exception ex )
{
_logger . LogError ( ex , "Error detecting the given filter" ) ;
return false ;
}
if ( output . Contains ( "Filter " + filter , StringComparison . Ordinal ) )
{
return output . Contains ( option , StringComparison . Ordinal ) ;
}
_logger . LogWarning ( "Filter: {Name} with option {Option} is not available" , filter , option ) ;
return false ;
}
public bool CheckSupportedRuntimeKey ( string keyDesc )
{
if ( string . IsNullOrEmpty ( keyDesc ) )
{
return false ;
}
string output ;
try
{
output = GetProcessOutput ( _encoderPath , "-hide_banner -f lavfi -i nullsrc=s=1x1:d=500 -f null -" , true , "?" ) ;
}
catch ( Exception ex )
{
_logger . LogError ( ex , "Error checking supported runtime key" ) ;
return false ;
}
return output . Contains ( keyDesc , StringComparison . Ordinal ) ;
}
private IEnumerable < string > GetCodecs ( Codec codec )
{
string codecstr = codec = = Codec . Encoder ? "encoders" : "decoders" ;
string output ;
try
{
output = GetProcessOutput ( _encoderPath , "-" + codecstr , false , null ) ;
}
catch ( Exception ex )
{
_logger . LogError ( ex , "Error detecting available {Codec}" , codecstr ) ;
return Enumerable . Empty < string > ( ) ;
}
if ( string . IsNullOrWhiteSpace ( output ) )
{
return Enumerable . Empty < string > ( ) ;
}
var required = codec = = Codec . Encoder ? _requiredEncoders : _requiredDecoders ;
var found = Regex
. Matches ( output , @"^\s\S{6}\s(?<codec>[\w|-]+)\s+.+$" , RegexOptions . Multiline )
. Select ( x = > x . Groups [ "codec" ] . Value )
. Where ( x = > required . Contains ( x ) ) ;
_logger . LogInformation ( "Available {Codec}: {Codecs}" , codecstr , found ) ;
return found ;
}
private IEnumerable < string > GetFFmpegFilters ( )
{
string output ;
try
{
output = GetProcessOutput ( _encoderPath , "-filters" , false , null ) ;
}
catch ( Exception ex )
{
_logger . LogError ( ex , "Error detecting available filters" ) ;
return Enumerable . Empty < string > ( ) ;
}
if ( string . IsNullOrWhiteSpace ( output ) )
{
return Enumerable . Empty < string > ( ) ;
}
var found = Regex
. Matches ( output , @"^\s\S{3}\s(?<filter>[\w|-]+)\s+.+$" , RegexOptions . Multiline )
. Select ( x = > x . Groups [ "filter" ] . Value )
. Where ( x = > _requiredFilters . Contains ( x ) ) ;
_logger . LogInformation ( "Available filters: {Filters}" , found ) ;
return found ;
}
private IDictionary < int , bool > GetFFmpegFiltersWithOption ( )
{
IDictionary < int , bool > dict = new Dictionary < int , bool > ( ) ;
for ( int i = 0 ; i < _filterOptionsDict . Count ; i + + )
{
if ( _filterOptionsDict . TryGetValue ( i , out var val ) & & val . Length = = 2 )
{
dict . Add ( i , CheckFilterWithOption ( val [ 0 ] , val [ 1 ] ) ) ;
}
}
return dict ;
}
private string GetProcessOutput ( string path , string arguments , bool readStdErr , string? testKey )
{
using ( var process = new Process ( )
{
StartInfo = new ProcessStartInfo ( path , arguments )
{
CreateNoWindow = true ,
UseShellExecute = false ,
WindowStyle = ProcessWindowStyle . Hidden ,
ErrorDialog = false ,
RedirectStandardInput = ! string . IsNullOrEmpty ( testKey ) ,
RedirectStandardOutput = true ,
RedirectStandardError = true
}
} )
{
_logger . LogDebug ( "Running {Path} {Arguments}" , path , arguments ) ;
process . Start ( ) ;
if ( ! string . IsNullOrEmpty ( testKey ) )
{
process . StandardInput . Write ( testKey ) ;
}
return readStdErr ? process . StandardError . ReadToEnd ( ) : process . StandardOutput . ReadToEnd ( ) ;
}
}
}
}