Esempio n. 1
0
        public async Task ImageFxComponentFromCameraVideoPortWithSplitterAndEncoder(MMAL_PARAM_IMAGEFX_T effect, bool throwsException)
        {
            TestHelper.BeginTest($"Video - ImageFxComponentFromCameraVideoPortWithSplitterAndEncoder - {effect}");
            TestHelper.SetConfigurationDefaults();
            TestHelper.CleanDirectory("/home/pi/videos/tests");

            using (var vidCaptureHandler = new VideoStreamCaptureHandler("/home/pi/videos/tests", "h264"))
                using (var preview = new MMALNullSinkComponent())
                    using (var imageFx = new MMALImageFxComponent())
                        using (var splitter = new MMALSplitterComponent())
                            using (var vidEncoder = new MMALVideoEncoder())
                            {
                                Fixture.MMALCamera.ConfigureCameraSettings();

                                var vidEncoderConfig = new MMALPortConfig(MMALEncoding.H264, MMALEncoding.I420);
                                var splitterConfig   = new MMALPortConfig(MMALEncoding.I420, MMALEncoding.I420);
                                var fxConfig         = new MMALPortConfig(MMALEncoding.I420, MMALEncoding.I420);

                                imageFx.ConfigureOutputPort <VideoPort>(0, fxConfig, null);

                                splitter.ConfigureInputPort(new MMALPortConfig(MMALEncoding.I420, MMALEncoding.I420), imageFx.Outputs[0], null);
                                splitter.ConfigureOutputPort <VideoPort>(0, splitterConfig, null);

                                vidEncoder.ConfigureInputPort(new MMALPortConfig(MMALEncoding.I420, MMALEncoding.I420), splitter.Outputs[0], null);
                                vidEncoder.ConfigureOutputPort(0, vidEncoderConfig, vidCaptureHandler);

                                if (throwsException)
                                {
                                    Assert.Throws <MMALInvalidException>(() =>
                                    {
                                        imageFx.ImageEffect = effect;
                                    });
                                }
                                else
                                {
                                    imageFx.ImageEffect = effect;
                                }

                                // Create our component pipeline.
                                Fixture.MMALCamera.Camera.VideoPort
                                .ConnectTo(imageFx);
                                Fixture.MMALCamera.Camera.PreviewPort
                                .ConnectTo(preview);

                                imageFx.Outputs[0].ConnectTo(splitter);
                                splitter.Outputs[0].ConnectTo(vidEncoder);

                                // Camera warm up time
                                await Task.Delay(2000);

                                var cts = new CancellationTokenSource(TimeSpan.FromSeconds(5));

                                await Fixture.MMALCamera.ProcessAsync(Fixture.MMALCamera.Camera.VideoPort, cts.Token);

                                Fixture.CheckAndAssertFilepath(vidCaptureHandler.GetFilepath());
                            }
        }
Esempio n. 2
0
        // motion without raw recording, decouple from onDetect event
        static async Task motion(int totalSeconds, int recordSeconds, int sensitivity)
        {
            DeleteFiles(ramdiskPath, "*.h264");
            DeleteFiles(ramdiskPath, "*.raw");

            var cam = GetConfiguredCamera();

            // No longer cut-and-paste from the MMALSharp wiki:
            // The built-in MotionConfig "recordingTime" argument only applies to calling StartRecording
            // on the motion buffer, which is RAW (and huge). That also means the onStopDetect action
            // for cam.WithMotionDetection is not especially useful. So this variation doesn't record the
            // RAW stream and instead uses a token timeout to terminate the recording.

            // When using H.264 encoding we require key frames to be generated for the Circular buffer capture handler.
            MMALCameraConfig.InlineHeaders = true;

            Console.WriteLine("Preparing pipeline...");
            using (var splitter = new MMALSplitterComponent())
            {
                // Two capture handlers are being used here, one for motion detection and the other to record a H.264 stream.
                using var vidCaptureHandler = new CircularBufferCaptureHandler(4000000, "/media/ramdisk", "h264");
                using var motionCircularBufferCaptureHandler = new CircularBufferCaptureHandler(4000000, "/media/ramdisk", "raw");
                using var resizer    = new MMALIspComponent();
                using var vidEncoder = new MMALVideoEncoder();
                using var renderer   = new MMALVideoRenderer();
                cam.ConfigureCameraSettings();

                var splitterPortConfig   = new MMALPortConfig(MMALEncoding.OPAQUE, MMALEncoding.I420, 0, 0, null);
                var vidEncoderPortConfig = new MMALPortConfig(MMALEncoding.H264, MMALEncoding.I420, 0, MMALVideoEncoder.MaxBitrateLevel4, null);

                // The ISP resizer is being used for better performance. Frame difference motion detection will only work if using raw video data. Do not encode to H.264/MJPEG.
                // Resizing to a smaller image may improve performance, but ensure that the width/height are multiples of 32 and 16 respectively to avoid cropping.
                var resizerPortConfig = new MMALPortConfig(MMALEncoding.RGB24, MMALEncoding.RGB24, 640, 480, 0, 0, 0, false, null);

                splitter.ConfigureInputPort(new MMALPortConfig(MMALEncoding.OPAQUE, MMALEncoding.I420), cam.Camera.VideoPort, null);
                splitter.ConfigureOutputPort(0, splitterPortConfig, null);
                splitter.ConfigureOutputPort(1, splitterPortConfig, null);

                resizer.ConfigureOutputPort <VideoPort>(0, resizerPortConfig, motionCircularBufferCaptureHandler);

                vidEncoder.ConfigureInputPort(new MMALPortConfig(MMALEncoding.OPAQUE, MMALEncoding.I420), splitter.Outputs[1], null);
                vidEncoder.ConfigureOutputPort(vidEncoderPortConfig, vidCaptureHandler);

                cam.Camera.VideoPort.ConnectTo(splitter);
                cam.Camera.PreviewPort.ConnectTo(renderer);

                splitter.Outputs[0].ConnectTo(resizer);
                splitter.Outputs[1].ConnectTo(vidEncoder);

                Console.WriteLine("Camera warmup...");
                await Task.Delay(2000);

                Console.WriteLine($"Detecting motion for {totalSeconds} seconds with sensitivity threshold {sensitivity}...");

                var cts = new CancellationTokenSource(TimeSpan.FromSeconds(totalSeconds));

                // The recording duration doesn't matter; see notes at top of this method.
                var motionConfig = new MotionConfig(TimeSpan.FromSeconds(10), sensitivity);

                // Stephen Cleary says CTS disposal is unnecessary as long as you cancel! https://stackoverflow.com/a/19005066/152997
                var startRecordingCTS = LocalPrepareToRecord();

                await cam.WithMotionDetection(
                    motionCircularBufferCaptureHandler,
                    motionConfig,
                    // This callback will be invoked when motion has been detected.
                    () => {
                    // This has no effect if the token is already cancelled.
                    startRecordingCTS.Cancel();
                })
                .ProcessAsync(cam.Camera.VideoPort, cts.Token);

                CancellationTokenSource LocalPrepareToRecord()
                {
                    var cts = new CancellationTokenSource();

                    cts.Token.Register(LocalStartRecording);
                    return(cts);
                }

                async void LocalStartRecording()
                {
                    Console.WriteLine($"Motion detected, recording {recordSeconds} seconds...");
                    motionCircularBufferCaptureHandler.DisableMotionDetection();
                    vidCaptureHandler.StartRecording();
                    vidEncoder.RequestIFrame();

                    // Prepare to record
                    // Stephen Cleary says CTS disposal is unnecessary as long as you cancel! https://stackoverflow.com/a/19005066/152997
                    var recordingCTS = new CancellationTokenSource();

                    // When the token expires, stop recording and re-enable capture
                    recordingCTS.Token.Register(LocalEndRecording);

                    // Start the clock
                    recordingCTS.CancelAfter(recordSeconds * 1000);

                    // Record until the duration passes or the overall motion detection token expires
                    await Task.WhenAny(new Task[]
                    {
                        cts.Token.AsTask(),
                        recordingCTS.Token.AsTask()
                    });

                    if (!recordingCTS.IsCancellationRequested)
                    {
                        recordingCTS.Cancel();
                    }
                }

                void LocalEndRecording()
                {
                    Console.WriteLine("...recording stopped.");
                    startRecordingCTS = LocalPrepareToRecord();
                    motionCircularBufferCaptureHandler.EnableMotionDetection();
                    vidCaptureHandler.StopRecording();
                    vidCaptureHandler.Split();
                }
            }

            // can't use the convenient fall-through using or MMALCamera.Cleanup
            // throws: Argument is invalid. Unable to destroy component
            cam.Cleanup();

            Console.WriteLine("Exiting.");
        }
Esempio n. 3
0
        // motion as in the wiki (records raw file)
        static async Task motion_record_raw(int totalSeconds, int recordSeconds, int sensitivity)
        {
            DeleteFiles(ramdiskPath, "*.h264");
            DeleteFiles(ramdiskPath, "*.raw");

            var cam = GetConfiguredCamera();

            // When using H.264 encoding we require key frames to be generated for the Circular buffer capture handler.
            MMALCameraConfig.InlineHeaders = true;

            Console.WriteLine("Preparing pipeline...");
            using (var splitter = new MMALSplitterComponent())
            {
                // Two capture handlers are being used here, one for motion detection and the other to record a H.264 stream.
                using var vidCaptureHandler = new CircularBufferCaptureHandler(4000000, "/media/ramdisk", "h264");
                using var motionCircularBufferCaptureHandler = new CircularBufferCaptureHandler(4000000, "/media/ramdisk", "raw");
                using var resizer    = new MMALIspComponent();
                using var vidEncoder = new MMALVideoEncoder();
                using var renderer   = new MMALVideoRenderer();
                cam.ConfigureCameraSettings();

                // The ISP resizer is being used for better performance. Frame difference motion detection will only work if using raw video data. Do not encode to H.264/MJPEG.
                // Resizing to a smaller image may improve performance, but ensure that the width/height are multiples of 32 and 16 respectively to avoid cropping.
                var resizerPortConfig    = new MMALPortConfig(MMALEncoding.RGB24, MMALEncoding.RGB24, 640, 480, 0, 0, 0, false, null);
                var vidEncoderPortConfig = new MMALPortConfig(MMALEncoding.H264, MMALEncoding.I420, 0, MMALVideoEncoder.MaxBitrateLevel4, null);
                var splitterPortConfig   = new MMALPortConfig(MMALEncoding.OPAQUE, MMALEncoding.I420, 0, 0, null);

                splitter.ConfigureInputPort(new MMALPortConfig(MMALEncoding.OPAQUE, MMALEncoding.I420), cam.Camera.VideoPort, null);
                splitter.ConfigureOutputPort(0, splitterPortConfig, null);
                splitter.ConfigureOutputPort(1, splitterPortConfig, null);

                resizer.ConfigureOutputPort <VideoPort>(0, resizerPortConfig, motionCircularBufferCaptureHandler);

                vidEncoder.ConfigureInputPort(new MMALPortConfig(MMALEncoding.OPAQUE, MMALEncoding.I420), splitter.Outputs[1], null);
                vidEncoder.ConfigureOutputPort(vidEncoderPortConfig, vidCaptureHandler);

                cam.Camera.VideoPort.ConnectTo(splitter);
                cam.Camera.PreviewPort.ConnectTo(renderer);

                splitter.Outputs[0].ConnectTo(resizer);
                splitter.Outputs[1].ConnectTo(vidEncoder);

                Console.WriteLine("Camera warmup...");
                await Task.Delay(2000);

                var cts = new CancellationTokenSource(TimeSpan.FromSeconds(totalSeconds));

                var motionConfig = new MotionConfig(TimeSpan.FromSeconds(recordSeconds), sensitivity);

                Console.WriteLine($"Detecting motion for {totalSeconds} seconds with sensitivity threshold {sensitivity}...");

                await cam.WithMotionDetection(
                    motionCircularBufferCaptureHandler,
                    motionConfig,
                    // This callback will be invoked when motion has been detected.
                    () =>
                {
                    Console.WriteLine($"Motion detected, recording {recordSeconds} seconds...");

                    // Stop motion detection while we are recording.
                    motionCircularBufferCaptureHandler.DisableMotionDetection();

                    // Start recording our H.264 video.
                    vidCaptureHandler.StartRecording();
                    motionCircularBufferCaptureHandler.StartRecording();

                    // Request a key frame to be immediately generated by the h.264 encoder.
                    vidEncoder.RequestIFrame();
                },
                    // Invoked when motion handler recording-time expires
                    () =>
                {
                    // We want to re-enable the motion detection.
                    motionCircularBufferCaptureHandler.EnableMotionDetection();

                    // Stop recording on our capture handlers.
                    motionCircularBufferCaptureHandler.StopRecording();
                    vidCaptureHandler.StopRecording();

                    // Optionally create new file for our next recording run (don't do the RAW file, we don't want it).
                    vidCaptureHandler.Split();

                    Console.WriteLine("...recording stopped.");
                })
                .ProcessAsync(cam.Camera.VideoPort, cts.Token);
            }

            // can't use the convenient fall-through using or MMALCamera.Cleanup
            // throws: Argument is invalid. Unable to destroy component
            cam.Cleanup();

            Console.WriteLine("Exiting.");
        }
Esempio n. 4
0
        public void ChangeColorSpace()
        {
            TestHelper.BeginTest("ChangeColorSpace");
            TestHelper.SetConfigurationDefaults();
            TestHelper.CleanDirectory("/home/pi/videos/tests");

            MMALCameraConfig.VideoColorSpace = MMALEncoding.MMAL_COLOR_SPACE_ITUR_BT601;

            using (var handler = new VideoStreamCaptureHandler("/home/pi/videos/tests", "h264"))
                using (var handler2 = new VideoStreamCaptureHandler("/home/pi/video/tests", "h264"))
                    using (var handler3 = new VideoStreamCaptureHandler("/home/pi/video/tests", "h264"))
                        using (var handler4 = new VideoStreamCaptureHandler("/home/pi/video/tests", "h264"))
                            using (var splitter = new MMALSplitterComponent(null))
                                using (var vidEncoder = new MMALVideoEncoder(handler))
                                    using (var vidEncoder2 = new MMALVideoEncoder(handler2))
                                        using (var vidEncoder3 = new MMALVideoEncoder(handler3))
                                            using (var vidEncoder4 = new MMALVideoEncoder(handler4))
                                                using (var renderer = new MMALVideoRenderer())
                                                {
                                                    Fixture.MMALCamera.ConfigureCameraSettings();

                                                    var splitterPortConfig = new MMALPortConfig(MMALEncoding.OPAQUE, MMALEncoding.I420, 10, 0, 13000000, null);
                                                    var portConfig1        = new MMALPortConfig(MMALEncoding.H264, MMALEncoding.I420, 10, 10, 13000000, DateTime.Now.AddSeconds(20));
                                                    var portConfig2        = new MMALPortConfig(MMALEncoding.H264, MMALEncoding.I420, 10, 20, 13000000, DateTime.Now.AddSeconds(15));
                                                    var portConfig3        = new MMALPortConfig(MMALEncoding.H264, MMALEncoding.I420, 25, 30, 13000000, DateTime.Now.AddSeconds(10));
                                                    var portConfig4        = new MMALPortConfig(MMALEncoding.H264, MMALEncoding.I420, 25, 40, 13000000, DateTime.Now.AddSeconds(10));

                                                    // Create our component pipeline.
                                                    splitter.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, Fixture.MMALCamera.Camera.VideoPort);
                                                    splitter.ConfigureOutputPort(0, splitterPortConfig);
                                                    splitter.ConfigureOutputPort(1, splitterPortConfig);
                                                    splitter.ConfigureOutputPort(2, splitterPortConfig);
                                                    splitter.ConfigureOutputPort(3, splitterPortConfig);

                                                    vidEncoder.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, splitter.Outputs[0]);
                                                    vidEncoder.ConfigureOutputPort(0, portConfig1);

                                                    vidEncoder2.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, splitter.Outputs[1]);
                                                    vidEncoder2.ConfigureOutputPort(0, portConfig2);
                                                    vidEncoder3.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, splitter.Outputs[2]);
                                                    vidEncoder3.ConfigureOutputPort(0, portConfig3);

                                                    vidEncoder4.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, splitter.Outputs[3]);
                                                    vidEncoder4.ConfigureOutputPort(0, portConfig4);

                                                    Fixture.MMALCamera.Camera.VideoPort.ConnectTo(splitter);

                                                    splitter.Outputs[0].ConnectTo(vidEncoder);
                                                    splitter.Outputs[1].ConnectTo(vidEncoder2);
                                                    splitter.Outputs[2].ConnectTo(vidEncoder3);
                                                    splitter.Outputs[3].ConnectTo(vidEncoder4);

                                                    Fixture.MMALCamera.Camera.PreviewPort.ConnectTo(renderer);

                                                    // Assert that all output ports have the same video color space.
                                                    Assert.True(Fixture.MMALCamera.Camera.VideoPort.VideoColorSpace.EncodingVal == MMALEncoding.MMAL_COLOR_SPACE_ITUR_BT601.EncodingVal);

                                                    Assert.True(splitter.Outputs[0].VideoColorSpace.EncodingVal == MMALEncoding.MMAL_COLOR_SPACE_ITUR_BT601.EncodingVal);
                                                    Assert.True(splitter.Outputs[1].VideoColorSpace.EncodingVal == MMALEncoding.MMAL_COLOR_SPACE_ITUR_BT601.EncodingVal);
                                                    Assert.True(splitter.Outputs[2].VideoColorSpace.EncodingVal == MMALEncoding.MMAL_COLOR_SPACE_ITUR_BT601.EncodingVal);
                                                    Assert.True(splitter.Outputs[3].VideoColorSpace.EncodingVal == MMALEncoding.MMAL_COLOR_SPACE_ITUR_BT601.EncodingVal);

                                                    Assert.True(vidEncoder.Outputs[0].VideoColorSpace.EncodingVal == MMALEncoding.MMAL_COLOR_SPACE_ITUR_BT601.EncodingVal);
                                                    Assert.True(vidEncoder2.Outputs[0].VideoColorSpace.EncodingVal == MMALEncoding.MMAL_COLOR_SPACE_ITUR_BT601.EncodingVal);
                                                    Assert.True(vidEncoder3.Outputs[0].VideoColorSpace.EncodingVal == MMALEncoding.MMAL_COLOR_SPACE_ITUR_BT601.EncodingVal);
                                                    Assert.True(vidEncoder4.Outputs[0].VideoColorSpace.EncodingVal == MMALEncoding.MMAL_COLOR_SPACE_ITUR_BT601.EncodingVal);
                                                }
        }
Esempio n. 5
0
        public async Task VideoSplitterComponent()
        {
            TestHelper.BeginTest("VideoSplitterComponent");
            TestHelper.SetConfigurationDefaults();
            TestHelper.CleanDirectory("/home/pi/videos/tests");

            using (var handler = new VideoStreamCaptureHandler("/home/pi/videos/tests", "h264"))
                using (var handler2 = new VideoStreamCaptureHandler("/home/pi/videos/tests", "h264"))
                    using (var handler3 = new VideoStreamCaptureHandler("/home/pi/videos/tests", "h264"))
                        using (var handler4 = new VideoStreamCaptureHandler("/home/pi/videos/tests", "h264"))
                            using (var splitter = new MMALSplitterComponent(null))
                                using (var vidEncoder = new MMALVideoEncoder(handler))
                                    using (var vidEncoder2 = new MMALVideoEncoder(handler2))
                                        using (var vidEncoder3 = new MMALVideoEncoder(handler3))
                                            using (var vidEncoder4 = new MMALVideoEncoder(handler4))
                                                using (var renderer = new MMALNullSinkComponent())
                                                {
                                                    Fixture.MMALCamera.ConfigureCameraSettings();

                                                    var splitterPortConfig = new MMALPortConfig(MMALEncoding.OPAQUE, MMALEncoding.I420, 10, 0, 13000000, null);
                                                    var portConfig1        = new MMALPortConfig(MMALEncoding.H264, MMALEncoding.I420, 10, 10, 13000000, DateTime.Now.AddSeconds(20));
                                                    var portConfig2        = new MMALPortConfig(MMALEncoding.H264, MMALEncoding.I420, 10, 20, 13000000, DateTime.Now.AddSeconds(15));
                                                    var portConfig3        = new MMALPortConfig(MMALEncoding.H264, MMALEncoding.I420, 25, 30, 13000000, DateTime.Now.AddSeconds(10));
                                                    var portConfig4        = new MMALPortConfig(MMALEncoding.H264, MMALEncoding.I420, 25, 40, 13000000, DateTime.Now.AddSeconds(10));

                                                    // Create our component pipeline.
                                                    splitter.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, Fixture.MMALCamera.Camera.VideoPort);
                                                    splitter.ConfigureOutputPort(0, splitterPortConfig);
                                                    splitter.ConfigureOutputPort(1, splitterPortConfig);
                                                    splitter.ConfigureOutputPort(2, splitterPortConfig);
                                                    splitter.ConfigureOutputPort(3, splitterPortConfig);

                                                    vidEncoder.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, splitter.Outputs[0]);
                                                    vidEncoder.ConfigureOutputPort(0, portConfig1);

                                                    vidEncoder2.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, splitter.Outputs[1]);
                                                    vidEncoder2.ConfigureOutputPort(0, portConfig2);
                                                    vidEncoder3.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, splitter.Outputs[2]);
                                                    vidEncoder3.ConfigureOutputPort(0, portConfig3);

                                                    vidEncoder4.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, splitter.Outputs[3]);
                                                    vidEncoder4.ConfigureOutputPort(0, portConfig4);

                                                    Fixture.MMALCamera.Camera.VideoPort.ConnectTo(splitter);

                                                    splitter.Outputs[0].ConnectTo(vidEncoder);
                                                    splitter.Outputs[1].ConnectTo(vidEncoder2);
                                                    splitter.Outputs[2].ConnectTo(vidEncoder3);
                                                    splitter.Outputs[3].ConnectTo(vidEncoder4);

                                                    Fixture.MMALCamera.Camera.PreviewPort.ConnectTo(renderer);

                                                    // Camera warm up time
                                                    await Task.Delay(2000);

                                                    await Fixture.MMALCamera.ProcessAsync(Fixture.MMALCamera.Camera.VideoPort);

                                                    Fixture.CheckAndAssertFilepath(handler.GetFilepath());
                                                    Fixture.CheckAndAssertFilepath(handler2.GetFilepath());
                                                    Fixture.CheckAndAssertFilepath(handler3.GetFilepath());
                                                    Fixture.CheckAndAssertFilepath(handler4.GetFilepath());
                                                }
        }
        public void VideoSplitterComponent()
        {
            TestHelper.BeginTest("VideoSplitterComponent");
            TestHelper.SetConfigurationDefaults();

            AsyncContext.Run(async() =>
            {
                TestHelper.CleanDirectory("/home/pi/videos/tests");

                using (var handler = new VideoStreamCaptureHandler("/home/pi/videos/tests", "avi"))
                    using (var handler2 = new VideoStreamCaptureHandler("/home/pi/video/tests", "avi"))
                        using (var handler3 = new VideoStreamCaptureHandler("/home/pi/video/tests", "avi"))
                            using (var handler4 = new VideoStreamCaptureHandler("/home/pi/video/tests", "avi"))
                                using (var splitter = new MMALSplitterComponent(null))
                                    using (var vidEncoder = new MMALVideoEncoder(handler, DateTime.Now.AddSeconds(10)))
                                        using (var vidEncoder2 = new MMALVideoEncoder(handler2, DateTime.Now.AddSeconds(15)))
                                            using (var vidEncoder3 = new MMALVideoEncoder(handler3, DateTime.Now.AddSeconds(10)))
                                                using (var vidEncoder4 = new MMALVideoEncoder(handler4, DateTime.Now.AddSeconds(10)))
                                                    using (var renderer = new MMALVideoRenderer())
                                                    {
                                                        _fixture.MMALCamera.ConfigureCameraSettings();

                                                        // Create our component pipeline.
                                                        splitter.ConfigureInputPort(MMALEncoding.I420, MMALEncoding.I420, _fixture.MMALCamera.Camera.VideoPort);
                                                        splitter.ConfigureOutputPort(0, MMALEncoding.OPAQUE, MMALEncoding.I420, 0);
                                                        splitter.ConfigureOutputPort(1, MMALEncoding.OPAQUE, MMALEncoding.I420, 0);
                                                        splitter.ConfigureOutputPort(2, MMALEncoding.OPAQUE, MMALEncoding.I420, 0);
                                                        splitter.ConfigureOutputPort(3, MMALEncoding.OPAQUE, MMALEncoding.I420, 0);

                                                        vidEncoder.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, splitter.Outputs[0]);
                                                        vidEncoder.ConfigureOutputPort(0, MMALEncoding.H264, MMALEncoding.I420, 10, 25000000);

                                                        vidEncoder2.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, splitter.Outputs[1]);
                                                        vidEncoder2.ConfigureOutputPort(0, MMALEncoding.H264, MMALEncoding.I420, 20, 25000000);
                                                        vidEncoder3.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, splitter.Outputs[2]);
                                                        vidEncoder3.ConfigureOutputPort(0, MMALEncoding.H264, MMALEncoding.I420, 30, 25000000);

                                                        vidEncoder4.ConfigureInputPort(MMALEncoding.OPAQUE, MMALEncoding.I420, splitter.Outputs[3]);
                                                        vidEncoder4.ConfigureOutputPort(0, MMALEncoding.H264, MMALEncoding.I420, 40, 25000000);

                                                        _fixture.MMALCamera.Camera.VideoPort.ConnectTo(splitter);

                                                        splitter.Outputs[0].ConnectTo(vidEncoder);
                                                        splitter.Outputs[1].ConnectTo(vidEncoder2);
                                                        splitter.Outputs[2].ConnectTo(vidEncoder3);
                                                        splitter.Outputs[3].ConnectTo(vidEncoder4);

                                                        _fixture.MMALCamera.Camera.PreviewPort.ConnectTo(renderer);

                                                        // Camera warm up time
                                                        await Task.Delay(2000);

                                                        await _fixture.MMALCamera.ProcessAsync(_fixture.MMALCamera.Camera.VideoPort);

                                                        _fixture.CheckAndAssertFilepath(handler.GetFilepath());
                                                        _fixture.CheckAndAssertFilepath(handler2.GetFilepath());
                                                        _fixture.CheckAndAssertFilepath(handler3.GetFilepath());
                                                        _fixture.CheckAndAssertFilepath(handler4.GetFilepath());
                                                    }
            });
        }