Esempio n. 1
0
        public bool setup(DecoderCallback callback_obj, int width, int height) //format_hint is aviFileContent
        {
            callbackThread = new HandlerThread("H264DecoderHandler");
            callbackThread.Start();
            handler = new Handler(callbackThread.Looper);

            mDecoder     = MediaCodec.CreateDecoderByType(MIME);
            mCallbackObj = callback_obj;
            myCallback   = new MyCallback(mDecoder, mCallbackObj);
            mDecoder.SetCallback(myCallback, handler);

            //mOutputFormat = mDecoder.GetOutputFormat(); // option B
            inputFormat = MediaFormat.CreateVideoFormat(MIME, width, height);
            inputFormat.SetInteger(MediaFormat.KeyMaxInputSize, width * height);
            inputFormat.SetInteger("durationUs", 63446722);
            //inputFormat.SetInteger(MediaFormat.KeyColorFormat, (int)MediaCodecCapabilities.Formatyuv420semiplanar);
            //inputFormat.SetInteger(MediaFormat.KeyIFrameInterval, 60);
            try
            {
                mDecoder.Configure(inputFormat, null, null, 0 /* Decoder */);
            }
            catch (Exception ex)
            {
                throw ex;
            }

            Console.WriteLine("before mDecoder.Start()");
            mDecoder.Start();
            Console.WriteLine("after mDecoder.Start()");

            return(true);
        }
        /**
         * Edits a video file, saving the contents to a new file. This involves decoding and
         * re-encoding, not to mention conversions between YUV and RGB, and so may be lossy.
         * <p>
         * If we recognize the decoded format we can do this in Java code using the ByteBuffer[]
         * output, but it's not practical to support all OEM formats. By using a SurfaceTexture
         * for output and a Surface for input, we can avoid issues with obscure formats and can
         * use a fragment shader to do transformations.
         */
        private VideoChunks editVideoFile(VideoChunks inputData)
        {
            if (AppSettings.Logging.SendToConsole)
            {
                Log.Debug(TAG, "editVideoFile " + mWidth + "x" + mHeight);
            }
            VideoChunks   outputData    = new VideoChunks();
            MediaCodec    decoder       = null;
            MediaCodec    encoder       = null;
            InputSurface  inputSurface  = null;
            OutputSurface outputSurface = null;

            try {
                MediaFormat inputFormat = inputData.getMediaFormat();
                // Create an encoder format that matches the input format. (Might be able to just
                // re-use the format used to generate the video, since we want it to be the same.)
                MediaFormat outputFormat = MediaFormat.CreateVideoFormat(MIME_TYPE, mWidth, mHeight);
                outputFormat.SetInteger(MediaFormat.KeyColorFormat, (int)MediaCodecInfo.CodecCapabilities.COLORFormatSurface);
                outputFormat.SetInteger(MediaFormat.KeyBitRate, inputFormat.GetInteger(MediaFormat.KeyBitRate));
                outputFormat.SetInteger(MediaFormat.KeyFrameRate, inputFormat.GetInteger(MediaFormat.KeyFrameRate));
                outputFormat.SetInteger(MediaFormat.KeyIFrameInterval, inputFormat.GetInteger(MediaFormat.KeyIFrameInterval));
                outputData.setMediaFormat(outputFormat);
                encoder = MediaCodec.CreateEncoderByType(MIME_TYPE);
                encoder.Configure(outputFormat, null, null, MediaCodecConfigFlags.Encode);
                inputSurface = new InputSurface(encoder.CreateInputSurface());
                inputSurface.MakeCurrent();
                encoder.Start();
                // OutputSurface uses the EGL context created by InputSurface.
                decoder       = MediaCodec.CreateDecoderByType(MIME_TYPE);
                outputSurface = new OutputSurface();
                outputSurface.ChangeFragmentShader(FRAGMENT_SHADER);
                decoder.Configure(inputFormat, outputSurface.Surface, null, 0);
                decoder.Start();
                editVideoData(inputData, decoder, outputSurface, inputSurface, encoder, outputData);
            } finally {
                if (AppSettings.Logging.SendToConsole)
                {
                    Log.Debug(TAG, "shutting down encoder, decoder");
                }
                if (outputSurface != null)
                {
                    outputSurface.Release();
                }
                if (inputSurface != null)
                {
                    inputSurface.Release();
                }
                if (encoder != null)
                {
                    encoder.Stop();
                    encoder.Release();
                }
                if (decoder != null)
                {
                    decoder.Stop();
                    decoder.Release();
                }
            }
            return(outputData);
        }
Esempio n. 3
0
        //@Override
        //@SuppressLint({ "InlinedApi", "NewApi" })
        protected override void encodeWithMediaCodec()
        {
            int bufferSize = AudioRecord.GetMinBufferSize(mQuality.samplingRate, ChannelIn.Mono, Encoding.Pcm16bit) * 2;

            ((AACLATMPacketizer)mPacketizer).setSamplingRate(mQuality.samplingRate);

            mAudioRecord = new AudioRecord(Android.Media.AudioSource.Mic, mQuality.samplingRate, Android.Media.ChannelIn.Mono, Android.Media.Encoding.Pcm16bit, bufferSize);
            mMediaCodec  = MediaCodec.CreateEncoderByType("audio/mp4a-latm");
            MediaFormat format = new MediaFormat();

            format.SetString(MediaFormat.KeyMime, "audio/mp4a-latm");
            format.SetInteger(MediaFormat.KeyBitRate, mQuality.bitRate);
            format.SetInteger(MediaFormat.KeyChannelCount, 1);
            format.SetInteger(MediaFormat.KeySampleRate, mQuality.samplingRate);
            format.SetInteger(MediaFormat.KeyAacProfile, (int)MediaCodecInfo.CodecProfileLevel.AACObjectLC);
            format.SetInteger(MediaFormat.KeyMaxInputSize, bufferSize);
            mMediaCodec.Configure(format, null, null, MediaCodecConfigFlags.Encode);
            mAudioRecord.StartRecording();
            mMediaCodec.Start();

            MediaCodecInputStream inputStream = new MediaCodecInputStream(mMediaCodec);

            Java.Nio.ByteBuffer[] inputBuffers = mMediaCodec.GetInputBuffers();

            mThread = new Thread(this);


            mThread.Start();

            // The packetizer encapsulates this stream in an RTP stream and send it over the network
            mPacketizer.setInputStream(inputStream);
            mPacketizer.start();

            mStreaming = true;
        }
Esempio n. 4
0
        /// <summary>
        /// Initialize this instance.
        /// First, stop decoder and check if surface exists.
        /// Then configure MediaFormat and MediaCodec and start it.
        /// </summary>
        /// <returns>The initialize.</returns>
        public bool Initialize()
        {
            Initialized = false;
            if (!StopDecoder() || _surface == null)
            {
                return(Initialized);
            }

            _mediaFormat = GetMediaFormat(_mimeType, _videoWidth, _videoHeight);
            _mediaFormat.SetInteger(MediaFormat.KeyMaxWidth, _videoWidth);
            _mediaFormat.SetInteger(MediaFormat.KeyMaxHeight, _videoHeight);


            if (Build.VERSION.SdkInt >= BuildVersionCodes.M)
            {
                _mediaFormat.SetInteger(MediaFormat.KeyOperatingRate, Short.MaxValue);
            }

            _mediaCodec.Configure(
                format: _mediaFormat,
                surface: _surface,
                crypto: null,
                flags: MediaCodecConfigFlags.None);
            _mediaCodec.SetVideoScalingMode(VideoScalingMode.ScaleToFit);

            _mediaCodec.SetCallback(this);
            _mediaCodec.Start();
            Initialized = true;
            return(Initialized);
        }
        /**
         * Instantiates and starts the encoder.
         * @throws IOException The encoder cannot be configured
         */
        private void configureEncoder()
        {
            mEncoder = MediaCodec.CreateByCodecName(mEncoderName);
            MediaFormat mediaFormat = MediaFormat.CreateVideoFormat(MIME_TYPE, mWidth, mHeight);

            mediaFormat.SetInteger(MediaFormat.KeyBitRate, BITRATE);
            mediaFormat.SetInteger(MediaFormat.KeyFrameRate, FRAMERATE);
            mediaFormat.SetInteger(MediaFormat.KeyColorFormat, mEncoderColorFormat);
            mediaFormat.SetInteger(MediaFormat.KeyIFrameInterval, 1);
            mEncoder.Configure(mediaFormat, null, null, MediaCodecConfigFlags.Encode);
            mEncoder.Start();
        }
Esempio n. 6
0
        public void SetupAudio(int sampleRate, int channels, byte[] esdsData)
        {
            _audioTrack = new AudioTrack(
                new AudioAttributes.Builder()
                .SetUsage(AudioUsageKind.Media)
                .SetContentType(AudioContentType.Music)
                .SetFlags(AudioFlags.LowLatency)
                .Build(),
                new Android.Media.AudioFormat.Builder()
                .SetEncoding(Encoding.Pcm16bit)
                .SetSampleRate(44100)
                .SetChannelMask(ChannelOut.Stereo)
                .Build(),
                4096,
                AudioTrackMode.Stream,
                AudioManager.AudioSessionIdGenerate);

            MediaFormat audioFormat = MediaFormat.CreateAudioFormat(
                mime: MediaFormat.MimetypeAudioAac,
                sampleRate: sampleRate,
                channelCount: channels);

            audioFormat.SetInteger(MediaFormat.KeyIsAdts, 0);
            audioFormat.SetInteger(MediaFormat.KeyAacProfile, (int)MediaCodecProfileType.Aacobjectlc);

            _audioCodec = MediaCodec.CreateDecoderByType(
                MediaFormat.MimetypeAudioAac);

            // TODO: Remove hardcoding
            byte profile     = (byte)MediaCodecProfileType.Aacobjectlc;
            byte sampleIndex = AacAdtsAssembler.GetSamplingFrequencyIndex(sampleRate);

            byte[] csd0 = new byte[2];
            csd0[0]  = (byte)(((byte)profile << 3) | (sampleIndex >> 1));
            csd0[1]  = (byte)((byte)((sampleIndex << 7) & 0x80) | (channels << 3));
            esdsData = csd0;

            audioFormat.SetByteBuffer("csd-0", Java.Nio.ByteBuffer.Wrap(esdsData));


            _audioCodec.SetCallback(this);
            _audioCodec.Configure(
                format: audioFormat,
                surface: null,
                crypto: null,
                flags: MediaCodecConfigFlags.None);

            _audioCodec.Start();
            _audioTrack.Play();
        }
Esempio n. 7
0
        /**
         * Configures encoder and muxer state, and prepares the input Surface.  Initializes
         * mEncoder, mMuxer, mInputSurface, mBufferInfo, mTrackIndex, and mMuxerStarted.
         */
        private void prepareEncoder()
        {
            mBufferInfo = new MediaCodec.BufferInfo();

            MediaFormat format = MediaFormat.CreateVideoFormat(MIME_TYPE, _width, _height);

            // Set some properties.  Failing to specify some of these can cause the MediaCodec
            // configure() call to throw an unhelpful exception.
            format.SetInteger(MediaFormat.KeyColorFormat, (int)MediaCodecCapabilities.Formatsurface);
            format.SetInteger(MediaFormat.KeyBitRate, _bitRate);
            format.SetInteger(MediaFormat.KeyFrameRate, FRAME_RATE);
            format.SetInteger(MediaFormat.KeyIFrameInterval, IFRAME_INTERVAL);
            if (VERBOSE)
            {
                Log.Debug(TAG, "format: " + format);
            }

            // Create a MediaCodec encoder, and configure it with our format.  Get a Surface
            // we can use for input and wrap it with a class that handles the EGL work.
            //
            // If you want to have two EGL contexts -- one for display, one for recording --
            // you will likely want to defer instantiation of CodecInputSurface until after the
            // "display" EGL context is created, then modify the eglCreateContext call to
            // take eglGetCurrentContext() as the share_context argument.
            mEncoder = MediaCodec.CreateEncoderByType(MIME_TYPE);
            mEncoder.Configure(format, null, null, MediaCodec.ConfigureFlagEncode);
            _inputSurface = new InputSurface(mEncoder.CreateInputSurface());
            mEncoder.Start();

            // Output filename.  Ideally this would use Context.getFilesDir() rather than a
            // hard-coded output directory.
            string outputPath = System.IO.Path.Combine(_workingDirectory, "test." + _width + "x" + _height + ".mp4");

            Log.Info(TAG, "Output file is " + outputPath);

            // Create a MediaMuxer.  We can't add the video track and start() the muxer here,
            // because our MediaFormat doesn't have the Magic Goodies.  These can only be
            // obtained from the encoder after it has started processing data.
            //
            // We're not actually interested in multiplexing audio.  We just want to convert
            // the raw H.264 elementary stream we get from MediaCodec into a .mp4 file.
            try {
                mMuxer = new MediaMuxer(outputPath, MediaMuxer.OutputFormat.MuxerOutputMpeg4);
            } catch (System.Exception e) {
                throw new System.Exception(e.Message);
            }

            mTrackIndex   = -1;
            mMuxerStarted = false;
        }
Esempio n. 8
0
    private void initHwDecoder(string codec)
    {
        MediaFormat format = new MediaFormat();

        string mime_type = null;

        switch (codec)
        {
        case "amrnb":
            mime_type = MediaFormat.MimetypeAudioAmrNb;
            format.SetInteger(MediaFormat.KeySampleRate, 8000);
            format.SetInteger(MediaFormat.KeyBitRate, 7950);
            break;

        case "amrwb":
            mime_type = MediaFormat.MimetypeAudioAmrWb;
            format.SetInteger(MediaFormat.KeySampleRate, 16000);
            format.SetInteger(MediaFormat.KeyBitRate, 18250);
            break;
        }

        if (mime_type != null)
        {
            format.SetString(MediaFormat.KeyMime, mime_type);
            format.SetInteger(MediaFormat.KeyChannelCount, 1);
            format.SetInteger(MediaFormat.KeyMaxInputSize, bufferSize);
            format.SetInteger(MediaFormat.KeyLatency, 1);
            format.SetInteger(MediaFormat.KeyPriority, 0);
            audioDecoder = new HwDecoder(mime_type, format, this);
            audioDecoder.start();
        }
    }
        private void SetupEncoder()
        {
            MediaFormat outputFormat = MediaFormat.CreateVideoFormat(MediaHelper.MIME_TYPE_AVC, mWidth, mHeight);

            outputFormat.SetInteger(MediaFormat.KeyColorFormat, (int)MediaCodecCapabilities.Formatsurface);
            outputFormat.SetInteger(MediaFormat.KeyBitRate, mBitRate);

            outputFormat.SetInteger(MediaFormat.KeyFrameRate, mFrameRate);
            outputFormat.SetInteger(MediaFormat.KeyIFrameInterval, mIFrameInterval);

            mEncoder = MediaCodec.CreateEncoderByType(MediaHelper.MIME_TYPE_AVC);
            mEncoder.Configure(outputFormat, null, null, MediaCodecConfigFlags.Encode);
            mInputSurface = new InputSurface(mEncoder.CreateInputSurface());
            mInputSurface.MakeCurrent();
            mEncoder.Start();
        }
        public void SetupVideo(int width, int height, byte[] spsData, byte[] ppsData)
        {
            MediaFormat videoFormat = MediaFormat.CreateVideoFormat(
                mime: MediaFormat.MimetypeVideoAvc,
                width: width,
                height: height);

            /*
             * TODO: Use SPS / PPS
             * videoFormat.SetByteBuffer("csd-0", Java.Nio.ByteBuffer.Wrap(spsData));
             * videoFormat.SetByteBuffer("csd-1", Java.Nio.ByteBuffer.Wrap(ppsData));
             */

            videoFormat.SetInteger(MediaFormat.KeyMaxInputSize, 100000);

            _videoCodec = MediaCodec.CreateDecoderByType(
                MediaFormat.MimetypeVideoAvc);

            _videoCodec.SetCallback(this);
            _videoCodec.Configure(format: videoFormat,
                                  surface: new Surface(_surface),
                                  crypto: null,
                                  flags: MediaCodecConfigFlags.None);

            _videoCodec.Start();
        }
Esempio n. 11
0
        public MediaFormat CreateAudioOutputFormat(MediaFormat inputFormat)
        {
            if (mAudioBitrate == AUDIO_BITRATE_AS_IS || mAudioChannels == AUDIO_CHANNELS_AS_IS)
            {
                return(null);
            }

            // Use original sample rate, as resampling is not supported yet.
            MediaFormat format = MediaFormat.CreateAudioFormat(MediaFormatExtraConstants.MimetypeAudioAac,
                                                               inputFormat.GetInteger(MediaFormat.KeySampleRate),
                                                               mAudioChannels);

            // this is obsolete: MediaCodecInfo.CodecProfileLevel.AACObjectLC, so using MediaCodecProfileType.Aacobjectlc instead
            format.SetInteger(MediaFormat.KeyAacProfile, (int)MediaCodecProfileType.Aacobjectlc);
            format.SetInteger(MediaFormat.KeyBitRate, mAudioBitrate);
            return(format);
        }
Esempio n. 12
0
        public MediaFormat CreateVideoOutputFormat(MediaFormat inputFormat)
        {
            int width = inputFormat.GetInteger(MediaFormat.KeyWidth);
            int height = inputFormat.GetInteger(MediaFormat.KeyHeight);
            int longer, shorter, outWidth, outHeight;

            if (width >= height)
            {
                longer    = width;
                shorter   = height;
                outWidth  = LONGER_LENGTH;
                outHeight = SHORTER_LENGTH;
            }
            else
            {
                shorter   = width;
                longer    = height;
                outWidth  = SHORTER_LENGTH;
                outHeight = LONGER_LENGTH;
            }

            //if (longer * 9 != shorter * 16)
            //{
            //    throw new OutputFormatUnavailableException("This video is not 16:9, and is not able to transcode. (" + width + "x" + height + ")");
            //}
            if (shorter <= SHORTER_LENGTH)
            {
#if DEBUG
                System.Console.WriteLine("This video is less or equal to 720p, pass-through. (" + width + "x" + height + ")");
#endif

                return(null);
            }

            MediaFormat format = MediaFormat.CreateVideoFormat("video/avc", outWidth, outHeight);
            format.SetInteger(MediaFormat.KeyBitRate, mVideoBitrate);
            format.SetInteger(MediaFormat.KeyFrameRate, 30);
            format.SetInteger(MediaFormat.KeyIFrameInterval, 3);
            // this is obsolete: MediaCodecInfo.CodecCapabilities.COLORFormatSurface, so using MediaCodecCapabilities.Formatsurface instead
            format.SetInteger(MediaFormat.KeyColorFormat, (int)MediaCodecCapabilities.Formatsurface);

            return(format);
        }
        /**
         * Instantiates and starts the decoder.
         * @throws IOException The decoder cannot be configured
         */
        private void configureDecoder()
        {
            byte[] prefix = new byte[] { 0x00, 0x00, 0x00, 0x01 };

            ByteBuffer csd0 = ByteBuffer.Allocate(4 + mSPS.Length + 4 + mPPS.Length);

            csd0.Put(new byte[] { 0x00, 0x00, 0x00, 0x01 });
            csd0.Put(mSPS);
            csd0.Put(new byte[] { 0x00, 0x00, 0x00, 0x01 });
            csd0.Put(mPPS);

            mDecoder = MediaCodec.CreateByCodecName(mDecoderName);
            MediaFormat mediaFormat = MediaFormat.CreateVideoFormat(MIME_TYPE, mWidth, mHeight);

            mediaFormat.SetByteBuffer("csd-0", csd0);
            mediaFormat.SetInteger(MediaFormat.KeyColorFormat, mDecoderColorFormat);
            mDecoder.Configure(mediaFormat, null, null, 0);
            mDecoder.Start();

            ByteBuffer[] decInputBuffers = mDecoder.GetInputBuffers();

            int decInputIndex = mDecoder.DequeueInputBuffer(1000000 / FRAMERATE);

            if (decInputIndex >= 0)
            {
                decInputBuffers[decInputIndex].Clear();
                decInputBuffers[decInputIndex].Put(prefix);
                decInputBuffers[decInputIndex].Put(mSPS);
                mDecoder.QueueInputBuffer(decInputIndex, 0, decInputBuffers[decInputIndex].Position(), timestamp(), 0);
            }
            else
            {
                if (VERBOSE)
                {
                    Log.e(TAG, "No buffer available !");
                }
            }

            decInputIndex = mDecoder.DequeueInputBuffer(1000000 / FRAMERATE);
            if (decInputIndex >= 0)
            {
                decInputBuffers[decInputIndex].Clear();
                decInputBuffers[decInputIndex].Put(prefix);
                decInputBuffers[decInputIndex].Put(mPPS);
                mDecoder.QueueInputBuffer(decInputIndex, 0, decInputBuffers[decInputIndex].Position(), timestamp(), 0);
            }
            else
            {
                if (VERBOSE)
                {
                    Log.Error(TAG, "No buffer available !");
                }
            }
        }
Esempio n. 14
0
    private void initEncoder(string codec)
    {
        MediaFormat format = new MediaFormat();

        switch (codec)
        {
        case "amrnb":
            audioEncoder = MediaCodec.CreateEncoderByType(MediaFormat.MimetypeAudioAmrNb);
            format.SetString(MediaFormat.KeyMime, MediaFormat.MimetypeAudioAmrNb);
            format.SetInteger(MediaFormat.KeySampleRate, 8000);
            format.SetInteger(MediaFormat.KeyBitRate, 7950);
            break;

        case "amrwb":
            audioEncoder = MediaCodec.CreateEncoderByType(MediaFormat.MimetypeAudioAmrWb);
            format.SetString(MediaFormat.KeyMime, MediaFormat.MimetypeAudioAmrWb);
            format.SetInteger(MediaFormat.KeySampleRate, 16000);
            format.SetInteger(MediaFormat.KeyBitRate, 18250);
            break;

        default:
            throw new Exception("Unknown recorder codec selected " + codec);
        }

        format.SetInteger(MediaFormat.KeyChannelCount, 1);
        format.SetInteger(MediaFormat.KeyMaxInputSize, bufferSize);
        audioEncoder.SetCallback(this);
        audioEncoder.Configure(format, null, null, MediaCodecConfigFlags.Encode);
        audioEncoder.Start();
    }
Esempio n. 15
0
        /**
         * Configures encoder and muxer state, and prepares the input Surface.  Initializes
         * mEncoder, mMuxer, mInputSurface, mBufferInfo, mTrackIndex, and mMuxerStarted.
         */
        private void prepareEncoder(string outputPath)
        {
            _bfi             = new MediaCodec.BufferInfo();
            LatestOutputPath = outputPath;
            MediaFormat format = MediaFormat.CreateVideoFormat(MIME_TYPE, _width, _height);

            // Set some properties.  Failing to specify some of these can cause the MediaCodec
            // configure() call to throw an unhelpful exception.

            format.SetInteger(MediaFormat.KeyColorFormat, (int)MediaCodecCapabilities.Formatsurface);
            format.SetInteger(MediaFormat.KeyBitRate, _bitRate);
            format.SetInteger(MediaFormat.KeyFrameRate, FRAME_RATE);
            format.SetInteger(MediaFormat.KeyIFrameInterval, IFRAME_INTERVAL);
            if (AppSettings.Logging.SendToConsole)
            {
                Log.Debug(TAG, "format: " + format);
            }

            // Create a MediaCodec encoder, and configure it with our format.  Get a Surface
            // we can use for input and wrap it with a class that handles the EGL work.
            //
            // If you want to have two EGL contexts -- one for display, one for recording --
            // you will likely want to defer instantiation of CodecInputSurface until after the
            // "display" EGL context is created, then modify the eglCreateContext call to
            // take eglGetCurrentContext() as the share_context argument.
            mEncoder = MediaCodec.CreateEncoderByType(MIME_TYPE);
            mEncoder.Configure(format, null, null, MediaCodec.ConfigureFlagEncode);
            _inputSurface = new InputSurface(mEncoder.CreateInputSurface());
            mEncoder.Start();

            Log.Info(TAG, "Output file is " + outputPath);
            try {
                _muxer = new MediaMuxer(outputPath, MediaMuxer.OutputFormat.MuxerOutputMpeg4);
            } catch (System.Exception e) {
                throw new System.Exception(e.Message);
            }

            mTrackIndex  = -1;
            MuxerStarted = false;
        }
Esempio n. 16
0
    /**
     * Video encoding is done by a MediaCodec.
     */

    protected void encodeWithMediaCodecMethod1() {

		    Log.Debug(TAG,"Video encoded using the MediaCodec API with a buffer");

		    // Updates the parameters of the camera if needed
		    createCamera();
		    updateCamera();

		    // Estimates the frame rate of the camera
		    measureFramerate();

		    // Starts the preview if needed
		    if (!mPreviewStarted) {
			    try {
				    mCamera.startPreview();
				    mPreviewStarted = true;
			    } catch (RuntimeException e) {
				    destroyCamera();
				    throw e;
			    }
		    }

		    EncoderDebugger debugger = EncoderDebugger.debug(mSettings, mQuality.resX, mQuality.resY);
		    const NV21Convertor convertor = debugger.getNV21Convertor();

		    mMediaCodec = MediaCodec.CreateByCodecName(debugger.getEncoderName());
		    MediaFormat mediaFormat = MediaFormat.CreateVideoFormat("video/avc", mQuality.resX, mQuality.resY);
		    mediaFormat.SetInteger(MediaFormat.KeyBitRate, mQuality.bitrate);
		    mediaFormat.SetInteger(MediaFormat.KeyFrameRate, mQuality.framerate);	
		    mediaFormat.SetInteger(MediaFormat.KeyColorFormat,debugger.getEncoderColorFormat());
		    mediaFormat.SetInteger(MediaFormat.KeyIFrameInterval, 1);
		    mMediaCodec.Configure(mediaFormat, null, null, MediaCodecConfigFlags.Encode);
		    mMediaCodec.Start();

		    Camera.PreviewCallback callback = new Camera.PreviewCallback() Action InnerMethod = () =>{
			    long now = System.nanoTime()/1000, oldnow = now, i=0;
			    ByteBuffer[] inputBuffers = mMediaCodec.getInputBuffers();
			    @Override
Esempio n. 17
0
            static public void config(Surface surface, int width, int height, byte[] sps, byte[] pps)
            {
                if (sps == null || pps == null)//not ready.
                {
                    return;
                }

                if (bConfigured)
                {
                    return;
                }

                if (codec != null)
                {
                    stop();
                }

                Decoder.width  = width;
                Decoder.height = height;
                Decoder.sps    = sps;
                Decoder.pps    = pps;
                MediaFormat videoFormat = MediaFormat.CreateVideoFormat("video/avc", width, height);

                videoFormat.SetByteBuffer("csd-0", ByteBuffer.Wrap(sps));
                videoFormat.SetByteBuffer("csd-1", ByteBuffer.Wrap(pps));
                videoFormat.SetInteger("color-format", 19);

                string str = videoFormat.GetString("mime");

                try
                {
                    codec = MediaCodec.CreateDecoderByType(str);
                    codec.Configure(videoFormat, surface, (MediaCrypto)null, 0);
                    codec.SetVideoScalingMode(VideoScalingMode.ScaleToFit);
                    codec.Start();
                    bConfigured = true;
                }
                catch (Exception ex)
                {
                    var errstr = ex.Message.ToString();
                }
            }
        /**
         * Generates a test video file, saving it as VideoChunks. We generate frames with GL to
         * avoid having to deal with multiple YUV formats.
         *
         * @return true on success, false on "soft" failure
         */
        private bool generateVideoFile(VideoChunks output)
        {
            if (AppSettings.Logging.SendToConsole)
            {
                Log.Debug(TAG, "generateVideoFile " + mWidth + "x" + mHeight);
            }
            MediaCodec   encoder      = null;
            InputSurface inputSurface = null;

            try {
                MediaCodecInfo codecInfo = selectCodec(MIME_TYPE);
                if (codecInfo == null)
                {
                    // Don't fail CTS if they don't have an AVC codec (not here, anyway).
                    Log.Error(TAG, "Unable to find an appropriate codec for " + MIME_TYPE);
                    return(false);
                }
                if (AppSettings.Logging.SendToConsole)
                {
                    Log.Debug(TAG, "found codec: " + codecInfo.Name);
                }
                // We avoid the device-specific limitations on width and height by using values that
                // are multiples of 16, which all tested devices seem to be able to handle.
                MediaFormat format = MediaFormat.CreateVideoFormat(MIME_TYPE, mWidth, mHeight);
                // Set some properties. Failing to specify some of these can cause the MediaCodec
                // configure() call to throw an unhelpful exception.
                format.SetInteger(MediaFormat.KeyColorFormat,
                                  (int)MediaCodecCapabilities.Formatsurface);
                format.SetInteger(MediaFormat.KeyBitRate, mBitRate);
                format.SetInteger(MediaFormat.KeyFrameRate, FRAME_RATE);
                format.SetInteger(MediaFormat.KeyIFrameInterval, IFRAME_INTERVAL);
                if (AppSettings.Logging.SendToConsole)
                {
                    Log.Debug(TAG, "format: " + format);
                }
                output.setMediaFormat(format);
                // Create a MediaCodec for the desired codec, then configure it as an encoder with
                // our desired properties.
                encoder = MediaCodec.CreateByCodecName(codecInfo.Name);
                encoder.Configure(format, null, null, MediaCodecConfigFlags.Encode);
                inputSurface = new InputSurface(encoder.CreateInputSurface());
                inputSurface.MakeCurrent();
                encoder.Start();
                generateVideoData(encoder, inputSurface, output);
            } finally {
                if (encoder != null)
                {
                    if (AppSettings.Logging.SendToConsole)
                    {
                        Log.Debug(TAG, "releasing encoder");
                    }
                    encoder.Stop();
                    encoder.Release();
                    if (AppSettings.Logging.SendToConsole)
                    {
                        Log.Debug(TAG, "released encoder");
                    }
                }
                if (inputSurface != null)
                {
                    inputSurface.Release();
                }
            }
            return(true);
        }
Esempio n. 19
0
        // https://github.com/lanhq147/SampleMediaFrame/blob/e2f20ff9eef73318e5a9b4de15458c5c2eb0fd46/app/src/main/java/com/google/android/exoplayer2/video/av/HWRecorder.java

        public bool BeginEncoding(int resX, int resY, int rateNumer, int rateDenom, int videoBitRate, int audioBitRate, string audioFile, string outputFile)
        {
            videoBufferInfo = new MediaCodec.BufferInfo();
            audioBufferInfo = new MediaCodec.BufferInfo();

            frameRateNumer = rateNumer;
            frameRateDenom = rateDenom;

            MediaFormat videoFormat = MediaFormat.CreateVideoFormat(VideoMimeType, resX, resY);

            videoFormat.SetInteger(MediaFormat.KeyColorFormat, (int)MediaCodecCapabilities.Formatsurface);
            videoFormat.SetInteger(MediaFormat.KeyBitRate, videoBitRate * 1000);
            videoFormat.SetFloat(MediaFormat.KeyFrameRate, rateNumer / (float)rateDenom);
            videoFormat.SetInteger(MediaFormat.KeyIFrameInterval, 4);
            videoFormat.SetInteger(MediaFormat.KeyProfile, (int)MediaCodecProfileType.Avcprofilehigh);
            videoFormat.SetInteger(MediaFormat.KeyLevel, (int)MediaCodecProfileLevel.Avclevel31);

            videoEncoder = MediaCodec.CreateEncoderByType(VideoMimeType);
            videoEncoder.Configure(videoFormat, null, null, MediaCodecConfigFlags.Encode);
            surface = videoEncoder.CreateInputSurface();
            videoEncoder.Start();

            MediaFormat audioFormat = MediaFormat.CreateAudioFormat(AudioMimeType, 44100, 1);

            audioFormat.SetInteger(MediaFormat.KeyAacProfile, (int)MediaCodecProfileType.Aacobjectlc);
            audioFormat.SetInteger(MediaFormat.KeyBitRate, audioBitRate * 1000);

            audioEncoder = MediaCodec.CreateEncoderByType(AudioMimeType);
            audioEncoder.Configure(audioFormat, null, null, MediaCodecConfigFlags.Encode);
            audioEncoder.Start();

            try
            {
                muxer = new MediaMuxer(outputFile, MuxerOutputType.Mpeg4);
            }
            catch
            {
                return(false);
            }

            videoTrackIndex = -1;
            audioTrackIndex = -1;
            muxerStarted    = false;

            if (!ElgInitialize())
            {
                return(false);
            }

            audioData = File.ReadAllBytes(audioFile);

            if (audioData == null)
            {
                return(false);
            }

            DrainEncoder(videoEncoder, videoBufferInfo, videoTrackIndex, false);
            DrainEncoder(audioEncoder, audioBufferInfo, audioTrackIndex, false);

            audioEncodingTask = Task.Factory.StartNew(AudioEncodeThread, TaskCreationOptions.LongRunning);

            return(true);
        }
        public void TranscodeAudio(SourceMedia sourceMedia,
                              TargetMedia targetMedia,
                              TrimConfig trimConfig,
                              TransformationState transformationState)
        {


            if (targetMedia.targetFile.Exists())
            {
                targetMedia.targetFile.Delete();
            }

            transformationState.requestId = UUID.RandomUUID().ToString();

            /*
            MediaTransformationListener transformationListener = new MediaTransformationListener(context,
                    transformationState.requestId,
                    transformationState,
                    targetMedia);
            */

            MediaRange mediaRange = trimConfig.enabled
                    ? new MediaRange(
                    TimeUnit.Milliseconds.ToMicros((long)(trimConfig.range[0] * 1000)),
                    TimeUnit.Milliseconds.ToMicros((long)(trimConfig.range[1] * 1000)))
                    : new MediaRange(0, long.MaxValue);

            try
            {
                var targetMimeType = targetMedia.writeToWav ? "audio/raw" : "audio/mp4a-latm";
                IMediaTarget mediaTarget;

                if (targetMedia.writeToWav)
                {
                    mediaTarget = new WavMediaTarget(targetMedia.targetFile.Path);
                }
                else
                {
                    mediaTarget = new MediaMuxerMediaTarget(targetMedia.targetFile.Path, 1, 0, (int)MuxerOutputType.Mpeg4);
                }
                var mediaSource = new MediaExtractorMediaSource(context, sourceMedia.uri, mediaRange);
                List<TrackTransform> trackTransforms = new List<TrackTransform>(1);

                foreach (TargetTrack targetTrack in targetMedia.tracks)
                { 
                    if (targetTrack.format is AudioTrackFormat trackFormat)
                    {
                        MediaFormat mediaFormat = MediaFormat.CreateAudioFormat(
                                targetMimeType,
                                trackFormat.samplingRate,
                                trackFormat.channelCount);
                        mediaFormat.SetInteger(MediaFormat.KeyBitRate, trackFormat.bitrate);
                        mediaFormat.SetLong(MediaFormat.KeyDuration, trackFormat.duration);

                        IEncoder encoder;
                        if (targetMedia.writeToWav)
                        {
                            encoder = new PassthroughBufferEncoder(8192);
                        }
                        else
                        {
                            encoder = new MediaCodecEncoder();
                        }
                        //IEncoder encoder = targetMedia.writeToWav ? new PassthroughBufferEncoder(8192) : new MediaCodecEncoder();
                        TrackTransform trackTransform = new TrackTransform.Builder(mediaSource, targetTrack.sourceTrackIndex, mediaTarget)
                                .SetTargetTrack(0)
                                .SetDecoder(new MediaCodecDecoder())
                                .SetEncoder(encoder)
                                .SetRenderer(new AudioRenderer(encoder))
                                .SetTargetFormat(mediaFormat)
                                .Build();


                        trackTransforms.Add(trackTransform);
                        break;
                    }
                }

                _mediaTransformer.Transform(
                    transformationState.requestId,
                    trackTransforms,
                    this,
                    MediaTransformer.GranularityDefault);
            }
            catch (System.Exception err)
            {
                System.Diagnostics.Debug.WriteLine($"Exception when trying to transcode audio: {err.Message}");
            }
        }