#ifndef DISABLE_INTERNAL_PLAYER #include "ffmpegaudio.hh" #include #include #ifndef INT64_C #define INT64_C(c) (c ## LL) #endif #ifndef UINT64_C #define UINT64_C(c) (c ## ULL) #endif #include extern "C" { #include #include #include } #include #include #include #include using std::vector; namespace Ffmpeg { QMutex DecoderThread::deviceMutex_; static inline QString avErrorString( int errnum ) { char buf[64]; av_strerror( errnum, buf, 64 ); return QString::fromLatin1( buf ); } AudioPlayer & AudioPlayer::instance() { static AudioPlayer a; return a; } AudioPlayer::AudioPlayer() { av_register_all(); ao_initialize(); } AudioPlayer::~AudioPlayer() { emit cancelPlaying( true ); ao_shutdown(); } void AudioPlayer::playMemory( const void * ptr, int size ) { emit cancelPlaying( false ); QByteArray audioData( ( char * )ptr, size ); DecoderThread * thread = new DecoderThread( audioData, this ); connect( thread, SIGNAL( error( QString ) ), this, SIGNAL( error( QString ) ) ); connect( this, SIGNAL( cancelPlaying( bool ) ), thread, SLOT( cancel( bool ) ), Qt::DirectConnection ); connect( thread, SIGNAL( finished() ), thread, SLOT( deleteLater() ) ); thread->start(); } void AudioPlayer::stop() { emit cancelPlaying( false ); } struct DecoderContext { enum { kBufferSize = 32768 }; static QMutex deviceMutex_; QAtomicInt & isCancelled_; QByteArray audioData_; QDataStream audioDataStream_; AVFormatContext * formatContext_; AVCodecContext * codecContext_; AVIOContext * avioContext_; AVStream * audioStream_; ao_device * aoDevice_; bool avformatOpened_; DecoderContext( QByteArray const & audioData, QAtomicInt & isCancelled ); ~DecoderContext(); bool openCodec( QString & errorString ); void closeCodec(); bool openOutputDevice( QString & errorString ); void closeOutputDevice(); bool play( QString & errorString ); bool normalizeAudio( AVFrame * frame, vector & samples ); void playFrame( AVFrame * frame ); }; DecoderContext::DecoderContext( QByteArray const & audioData, QAtomicInt & isCancelled ): isCancelled_( isCancelled ), audioData_( audioData ), audioDataStream_( audioData_ ), formatContext_( NULL ), codecContext_( NULL ), avioContext_( NULL ), audioStream_( NULL ), aoDevice_( NULL ), avformatOpened_( false ) { } DecoderContext::~DecoderContext() { closeOutputDevice(); closeCodec(); } static int readAudioData( void * opaque, unsigned char * buffer, int bufferSize ) { QDataStream * pStream = ( QDataStream * )opaque; return pStream->readRawData( ( char * )buffer, bufferSize ); } bool DecoderContext::openCodec( QString & errorString ) { formatContext_ = avformat_alloc_context(); if ( !formatContext_ ) { errorString = QObject::tr( "avformat_alloc_context() failed." ); return false; } unsigned char * avioBuffer = ( unsigned char * )av_malloc( kBufferSize + FF_INPUT_BUFFER_PADDING_SIZE ); if ( !avioBuffer ) { errorString = QObject::tr( "av_malloc() failed." ); return false; } // Don't free buffer allocated here (if succeeded), it will be cleaned up automatically. avioContext_ = avio_alloc_context( avioBuffer, kBufferSize, 0, &audioDataStream_, readAudioData, NULL, NULL ); if ( !avioContext_ ) { av_free( avioBuffer ); errorString = QObject::tr( "avio_alloc_context() failed." ); return false; } avioContext_->seekable = 0; avioContext_->write_flag = 0; // If pb not set, avformat_open_input() simply crash. formatContext_->pb = avioContext_; formatContext_->flags |= AVFMT_FLAG_CUSTOM_IO; int ret = 0; avformatOpened_ = true; ret = avformat_open_input( &formatContext_, "_STREAM_", NULL, NULL ); if ( ret < 0 ) { errorString = QObject::tr( "avformat_open_input() failed: %1." ).arg( avErrorString( ret ) ); return false; } ret = avformat_find_stream_info( formatContext_, NULL ); if ( ret < 0 ) { errorString = QObject::tr( "avformat_find_stream_info() failed: %1." ).arg( avErrorString( ret ) ); return false; } // Find audio stream, use the first audio stream if available for ( unsigned i = 0; i < formatContext_->nb_streams; i++ ) { if ( formatContext_->streams[i]->codec->codec_type == AVMEDIA_TYPE_AUDIO ) { audioStream_ = formatContext_->streams[i]; break; } } if ( !audioStream_ ) { errorString = QObject::tr( "Could not find audio stream." ); return false; } codecContext_ = audioStream_->codec; AVCodec * codec = avcodec_find_decoder( codecContext_->codec_id ); if ( !codec ) { errorString = QObject::tr( "Codec [id: %1] not found." ).arg( codecContext_->codec_id ); return false; } ret = avcodec_open2( codecContext_, codec, NULL ); if ( ret < 0 ) { errorString = QObject::tr( "avcodec_open2() failed: %1." ).arg( avErrorString( ret ) ); return false; } av_log( NULL, AV_LOG_INFO, "Codec open: %s: channels: %d, rate: %d, format: %s\n", codec->long_name, codecContext_->channels, codecContext_->sample_rate, av_get_sample_fmt_name( codecContext_->sample_fmt ) ); return true; } void DecoderContext::closeCodec() { if ( !formatContext_ ) { if ( avioContext_ ) { av_free( avioContext_->buffer ); avioContext_ = NULL; } return; } // avformat_open_input() is not called, just free the buffer associated with // the AVIOContext, and the AVFormatContext if ( !avformatOpened_ ) { if ( formatContext_ ) { avformat_free_context( formatContext_ ); formatContext_ = NULL; } if ( avioContext_ ) { av_free( avioContext_->buffer ); avioContext_ = NULL; } return; } avformatOpened_ = false; // Closing a codec context without prior avcodec_open2() will result in // a crash in ffmpeg if ( audioStream_ && audioStream_->codec && audioStream_->codec->codec ) { audioStream_->discard = AVDISCARD_ALL; avcodec_close( audioStream_->codec ); } avformat_close_input( &formatContext_ ); av_free( avioContext_->buffer ); } bool DecoderContext::openOutputDevice( QString & errorString ) { // Prepare for audio output int aoDriverId = ao_default_driver_id(); ao_info * aoDrvInfo = ao_driver_info( aoDriverId ); if ( aoDriverId < 0 || !aoDrvInfo ) { errorString = QObject::tr( "Cannot find usable audio output device." ); return false; } ao_sample_format aoSampleFormat; aoSampleFormat.channels = codecContext_->channels; aoSampleFormat.rate = codecContext_->sample_rate; aoSampleFormat.byte_format = AO_FMT_NATIVE; aoSampleFormat.matrix = 0; aoSampleFormat.bits = qMin( 32, av_get_bytes_per_sample( codecContext_->sample_fmt ) << 3 ); if ( aoSampleFormat.bits == 0 ) { errorString = QObject::tr( "Unsupported sample format." ); return false; } av_log( NULL, AV_LOG_INFO, "ao_open_live(): %s: channels: %d, rate: %d, bits: %d\n", aoDrvInfo->name, aoSampleFormat.channels, aoSampleFormat.rate, aoSampleFormat.bits ); aoDevice_ = ao_open_live( aoDriverId, &aoSampleFormat, NULL ); if ( !aoDevice_ ) { errorString = QObject::tr( "ao_open_live() failed: " ); switch ( errno ) { case AO_ENODRIVER: errorString += QObject::tr( "No driver." ); break; case AO_ENOTLIVE: errorString += QObject::tr( "This driver is not a live output device." ); break; case AO_EBADOPTION: errorString += QObject::tr( "A valid option key has an invalid value." ); break; case AO_EOPENDEVICE: errorString += QObject::tr( "Cannot open the device: %1, channels: %2, rate: %3, bits: %4." ) .arg( aoDrvInfo->short_name ) .arg( aoSampleFormat.channels ) .arg( aoSampleFormat.rate ) .arg( aoSampleFormat.bits ); break; default: errorString += QObject::tr( "Unknown error." ); break; } return false; } return true; } void DecoderContext::closeOutputDevice() { // ao_close() is synchronous, it will wait until all audio streams flushed if ( aoDevice_ ) { ao_close( aoDevice_ ); aoDevice_ = NULL; } } bool DecoderContext::play( QString & errorString ) { #if LIBAVCODEC_VERSION_MAJOR < 55 || ( LIBAVCODEC_VERSION_MAJOR == 55 && LIBAVCODEC_VERSION_MINOR < 28 ) AVFrame * frame = avcodec_alloc_frame(); #else AVFrame * frame = av_frame_alloc(); #endif if ( !frame ) { errorString = QObject::tr( "avcodec_alloc_frame() failed." ); return false; } AVPacket packet; av_init_packet( &packet ); while ( !isCancelled_ && av_read_frame( formatContext_, &packet ) >= 0 ) { if ( packet.stream_index == audioStream_->index ) { AVPacket pack = packet; int gotFrame = 0; do { int len = avcodec_decode_audio4( codecContext_, frame, &gotFrame, &pack ); if ( !isCancelled_ && gotFrame ) { playFrame( frame ); } if( len <= 0 || isCancelled_ ) break; pack.size -= len; pack.data += len; } while( pack.size > 0 ); } // av_free_packet() must be called after each call to av_read_frame() #if LIBAVCODEC_VERSION_MAJOR < 57 || ( LIBAVCODEC_VERSION_MAJOR == 57 && LIBAVCODEC_VERSION_MINOR < 7 ) av_free_packet( &packet ); #else av_packet_unref( &packet ); #endif } if ( !isCancelled_ && codecContext_->codec->capabilities & CODEC_CAP_DELAY ) { av_init_packet( &packet ); int gotFrame = 0; while ( avcodec_decode_audio4( codecContext_, frame, &gotFrame, &packet ) >= 0 && gotFrame ) { if ( isCancelled_ ) break; playFrame( frame ); } } #if LIBAVCODEC_VERSION_MAJOR < 54 av_free( frame ); #elif LIBAVCODEC_VERSION_MAJOR < 55 || ( LIBAVCODEC_VERSION_MAJOR == 55 && LIBAVCODEC_VERSION_MINOR < 28 ) avcodec_free_frame( &frame ); #else av_frame_free( &frame ); #endif return true; } static inline int32_t toInt32( double v ) { if ( v >= 1.0 ) return 0x7fffffffL; else if ( v <= -1.0 ) return 0x80000000L; return floor( v * 2147483648.0 ); } bool DecoderContext::normalizeAudio( AVFrame * frame, vector & samples ) { int lineSize = 0; int dataSize = av_samples_get_buffer_size( &lineSize, codecContext_->channels, frame->nb_samples, codecContext_->sample_fmt, 1 ); // Portions from: https://code.google.com/p/lavfilters/source/browse/decoder/LAVAudio/LAVAudio.cpp // But this one use 8, 16, 32 bits integer, respectively. switch ( codecContext_->sample_fmt ) { case AV_SAMPLE_FMT_U8: case AV_SAMPLE_FMT_S16: case AV_SAMPLE_FMT_S32: { samples.resize( dataSize ); memcpy( &samples.front(), frame->data[0], lineSize ); } break; case AV_SAMPLE_FMT_FLT: { samples.resize( dataSize ); int32_t * out = ( int32_t * )&samples.front(); for ( int i = 0; i < dataSize; i += sizeof( float ) ) { *out++ = toInt32( *( float * )frame->data[i] ); } } break; case AV_SAMPLE_FMT_DBL: { samples.resize( dataSize / 2 ); int32_t * out = ( int32_t * )&samples.front(); for ( int i = 0; i < dataSize; i += sizeof( double ) ) { *out++ = toInt32( *( double * )frame->data[i] ); } } break; // Planar case AV_SAMPLE_FMT_U8P: { samples.resize( dataSize ); uint8_t * out = ( uint8_t * )&samples.front(); for ( int i = 0; i < frame->nb_samples; i++ ) { for ( int ch = 0; ch < codecContext_->channels; ch++ ) { *out++ = ( ( uint8_t * )frame->extended_data[ch] )[i]; } } } break; case AV_SAMPLE_FMT_S16P: { samples.resize( dataSize ); int16_t * out = ( int16_t * )&samples.front(); for ( int i = 0; i < frame->nb_samples; i++ ) { for ( int ch = 0; ch < codecContext_->channels; ch++ ) { *out++ = ( ( int16_t * )frame->extended_data[ch] )[i]; } } } break; case AV_SAMPLE_FMT_S32P: { samples.resize( dataSize ); int32_t * out = ( int32_t * )&samples.front(); for ( int i = 0; i < frame->nb_samples; i++ ) { for ( int ch = 0; ch < codecContext_->channels; ch++ ) { *out++ = ( ( int32_t * )frame->extended_data[ch] )[i]; } } } break; case AV_SAMPLE_FMT_FLTP: { samples.resize( dataSize ); float ** data = ( float ** )frame->extended_data; int32_t * out = ( int32_t * )&samples.front(); for ( int i = 0; i < frame->nb_samples; i++ ) { for ( int ch = 0; ch < codecContext_->channels; ch++ ) { *out++ = toInt32( data[ch][i] ); } } } break; case AV_SAMPLE_FMT_DBLP: { samples.resize( dataSize / 2 ); double ** data = ( double ** )frame->extended_data; int32_t * out = ( int32_t * )&samples.front(); for ( int i = 0; i < frame->nb_samples; i++ ) { for ( int ch = 0; ch < codecContext_->channels; ch++ ) { *out++ = toInt32( data[ch][i] ); } } } break; default: return false; } return true; } void DecoderContext::playFrame( AVFrame * frame ) { if ( !frame ) return; vector samples; if ( normalizeAudio( frame, samples ) ) ao_play( aoDevice_, &samples.front(), samples.size() ); } DecoderThread::DecoderThread( QByteArray const & audioData, QObject * parent ) : QThread( parent ), isCancelled_( 0 ), audioData_( audioData ) { } DecoderThread::~DecoderThread() { isCancelled_.ref(); } void DecoderThread::run() { QString errorString; DecoderContext d( audioData_, isCancelled_ ); if ( !d.openCodec( errorString ) ) { emit error( errorString ); return; } while ( !deviceMutex_.tryLock( 100 ) ) { if ( isCancelled_ ) return; } if ( !d.openOutputDevice( errorString ) ) emit error( errorString ); else if ( !d.play( errorString ) ) emit error( errorString ); d.closeOutputDevice(); deviceMutex_.unlock(); } void DecoderThread::cancel( bool waitUntilFinished ) { isCancelled_.ref(); if ( waitUntilFinished ) this->wait(); } } #endif //DISABLE_INTERNAL_PLAYER