package main import ( "fmt" "unsafe" ) // #cgo pkg-config: libavcodec libavutil // #include import "C" func frameData(frame *C.AVFrame) **C.uint8_t { return (**C.uint8_t)(unsafe.Pointer(&frame.data[0])) } func frameLineSize(frame *C.AVFrame) *C.int { return (*C.int)(unsafe.Pointer(&frame.linesize[0])) } func switchEndianness16(samples []byte) []byte { ls := len(samples) for i := 0; i < ls; i += 2 { samples[i], samples[i+1] = samples[i+1], samples[i] } return samples } // opusEncoder is a wrapper around FFmpeg's Opus encoder. type opusEncoder struct { Width int Height int FPS int codecCtx *C.AVCodecContext frame *C.AVFrame pkt *C.AVPacket samplesBuffer []byte samplesBufferPTS int64 } // initialize initializes a opusEncoder. func (d *opusEncoder) initialize() error { codec := C.avcodec_find_encoder(C.AV_CODEC_ID_OPUS) if codec == nil { return fmt.Errorf("avcodec_find_encoder() failed") } d.codecCtx = C.avcodec_alloc_context3(codec) if d.codecCtx == nil { return fmt.Errorf("avcodec_alloc_context3() failed") } d.codecCtx.bit_rate = 64000 d.codecCtx.sample_fmt = C.AV_SAMPLE_FMT_S16 d.codecCtx.sample_rate = 48000 d.codecCtx.channel_layout = C.AV_CH_LAYOUT_MONO d.codecCtx.channels = C.av_get_channel_layout_nb_channels(d.codecCtx.channel_layout) res := C.avcodec_open2(d.codecCtx, codec, nil) if res < 0 { C.avcodec_close(d.codecCtx) return fmt.Errorf("avcodec_open2() failed") } d.frame = C.av_frame_alloc() if d.frame == nil { C.avcodec_close(d.codecCtx) return fmt.Errorf("av_frame_alloc() failed") } d.frame.nb_samples = d.codecCtx.frame_size d.frame.format = (C.int)(d.codecCtx.sample_fmt) d.frame.channel_layout = d.codecCtx.channel_layout res = C.av_frame_get_buffer(d.frame, 0) if res < 0 { C.av_frame_free(&d.frame) C.avcodec_close(d.codecCtx) return fmt.Errorf("av_frame_get_buffer() failed") } d.pkt = C.av_packet_alloc() if d.pkt == nil { C.av_frame_free(&d.frame) C.avcodec_close(d.codecCtx) return fmt.Errorf("av_packet_alloc() failed") } return nil } // close closes the decoder. func (d *opusEncoder) close() { C.av_packet_free(&d.pkt) C.av_frame_free(&d.frame) C.avcodec_close(d.codecCtx) } // encode encodes LPCM samples into Opus packets. func (d *opusEncoder) encode(samples []byte) ([][]byte, int64, error) { // convert from big-endian to little-endian samples = switchEndianness16(samples) // put samples into an internal buffer d.samplesBuffer = append(d.samplesBuffer, samples...) // split buffer into AVFrames requiredSampleSize := (int)(d.codecCtx.frame_size) * 2 frameCount := len(d.samplesBuffer) / requiredSampleSize if frameCount == 0 { return nil, 0, fmt.Errorf("sample buffer is not filled enough") } ret := make([][]byte, frameCount) var pts int64 for i := 0; i < frameCount; i++ { samples = d.samplesBuffer[:requiredSampleSize] d.samplesBuffer = d.samplesBuffer[requiredSampleSize:] samplePTS := d.samplesBufferPTS d.samplesBufferPTS += int64(len(samples) / 2) // pass samples pointer to frame d.frame.data[0] = (*C.uint8_t)(&samples[0]) // send frame to the encoder d.frame.pts = (C.int64_t)(samplePTS) res := C.avcodec_send_frame(d.codecCtx, d.frame) if res < 0 { return nil, 0, fmt.Errorf("avcodec_send_frame() failed") } // wait for result res = C.avcodec_receive_packet(d.codecCtx, d.pkt) if res < 0 { return nil, 0, fmt.Errorf("avcodec_receive_packet() failed") } // perform a deep copy of the data before unreferencing the packet data := C.GoBytes(unsafe.Pointer(d.pkt.data), d.pkt.size) if i == 0 { pts = (int64)(d.pkt.pts) } C.av_packet_unref(d.pkt) ret[i] = data } return ret, pts, nil }