sdk/android/instrumentationtests/src/org/webrtc/Camera2CapturerTest.java - src.git - Git at Google

 /*
  *  Copyright 2016 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 package org.webrtc;

 import static org.junit.Assert.assertEquals;
 import static org.junit.Assert.assertFalse;
 import static org.junit.Assert.fail;

 import android.annotation.TargetApi;
 import android.content.Context;
 import android.hardware.camera2.CameraAccessException;
 import android.hardware.camera2.CameraDevice;
 import android.hardware.camera2.CameraManager;
 import android.os.Handler;
 import android.os.Looper;
 import android.support.annotation.Nullable;
 import android.support.test.InstrumentationRegistry;
 import android.support.test.filters.LargeTest;
 import android.support.test.filters.MediumTest;
 import android.support.test.filters.SmallTest;
 import java.io.IOException;
 import java.util.concurrent.CountDownLatch;
 import org.chromium.base.test.BaseJUnit4ClassRunner;
 import org.junit.After;
 import org.junit.Before;
 import org.junit.Test;
 import org.junit.runner.RunWith;

 @TargetApi(21)
 @RunWith(BaseJUnit4ClassRunner.class)
 public class Camera2CapturerTest {
   static final String TAG = "Camera2CapturerTest";

   /**
    * Simple camera2 implementation that only knows how to open the camera and close it.
    */
   private class SimpleCamera2 {
     final CameraManager cameraManager;
     final LooperThread looperThread;
     final CountDownLatch openDoneSignal;
     final Object cameraDeviceLock;
     @Nullable CameraDevice cameraDevice; // Guarded by cameraDeviceLock
     boolean openSucceeded; // Guarded by cameraDeviceLock

     private class LooperThread extends Thread {
       final CountDownLatch startedSignal = new CountDownLatch(1);
       private Handler handler;

       @Override
       public void run() {
         Looper.prepare();
         handler = new Handler();
         startedSignal.countDown();
         Looper.loop();
       }

       public void waitToStart() {
         ThreadUtils.awaitUninterruptibly(startedSignal);
       }

       public void requestStop() {
         handler.getLooper().quit();
       }

       public Handler getHandler() {
         return handler;
       }
     }

     private class CameraStateCallback extends CameraDevice.StateCallback {
       @Override
       public void onClosed(CameraDevice cameraDevice) {
         Logging.d(TAG, "Simple camera2 closed.");

         synchronized (cameraDeviceLock) {
           SimpleCamera2.this.cameraDevice = null;
         }
       }

       @Override
       public void onDisconnected(CameraDevice cameraDevice) {
         Logging.d(TAG, "Simple camera2 disconnected.");

         synchronized (cameraDeviceLock) {
           SimpleCamera2.this.cameraDevice = null;
         }
       }

       @Override
       public void onError(CameraDevice cameraDevice, int errorCode) {
         Logging.w(TAG, "Simple camera2 error: " + errorCode);

         synchronized (cameraDeviceLock) {
           SimpleCamera2.this.cameraDevice = cameraDevice;
           openSucceeded = false;
         }

         openDoneSignal.countDown();
       }

       @Override
       public void onOpened(CameraDevice cameraDevice) {
         Logging.d(TAG, "Simple camera2 opened.");

         synchronized (cameraDeviceLock) {
           SimpleCamera2.this.cameraDevice = cameraDevice;
           openSucceeded = true;
         }

         openDoneSignal.countDown();
       }
     }

     SimpleCamera2(Context context, String deviceName) {
       cameraManager = (CameraManager) context.getSystemService(Context.CAMERA_SERVICE);
       looperThread = new LooperThread();
       looperThread.start();
       looperThread.waitToStart();
       cameraDeviceLock = new Object();
       openDoneSignal = new CountDownLatch(1);
       cameraDevice = null;
       Logging.d(TAG, "Opening simple camera2.");
       try {
         cameraManager.openCamera(deviceName, new CameraStateCallback(), looperThread.getHandler());
       } catch (CameraAccessException e) {
         fail("Simple camera2 CameraAccessException: " + e.getMessage());
       }

       Logging.d(TAG, "Waiting for simple camera2 to open.");
       ThreadUtils.awaitUninterruptibly(openDoneSignal);
       synchronized (cameraDeviceLock) {
         if (!openSucceeded) {
           fail("Opening simple camera2 failed.");
         }
       }
     }

     public void close() {
       Logging.d(TAG, "Closing simple camera2.");
       synchronized (cameraDeviceLock) {
         if (cameraDevice != null) {
           cameraDevice.close();
         }
       }

       looperThread.requestStop();
       ThreadUtils.joinUninterruptibly(looperThread);
     }
   }

   private class TestObjectFactory extends CameraVideoCapturerTestFixtures.TestObjectFactory {
     @Override
     public CameraEnumerator getCameraEnumerator() {
       return new Camera2Enumerator(getAppContext());
     }

     @Override
     public Context getAppContext() {
       return InstrumentationRegistry.getTargetContext();
     }

     @SuppressWarnings("deprecation")
     @Override
     public Object rawOpenCamera(String cameraName) {
       return new SimpleCamera2(getAppContext(), cameraName);
     }

     @SuppressWarnings("deprecation")
     @Override
     public void rawCloseCamera(Object camera) {
       ((SimpleCamera2) camera).close();
     }
   }

   private CameraVideoCapturerTestFixtures fixtures;

   @Before
   public void setUp() {
     fixtures = new CameraVideoCapturerTestFixtures(new TestObjectFactory());
   }

   @After
   public void tearDown() {
     fixtures.dispose();
   }

   @Test
   @SmallTest
   public void testCreateAndDispose() throws InterruptedException {
     fixtures.createCapturerAndDispose();
   }

   @Test
   @SmallTest
   public void testCreateNonExistingCamera() throws InterruptedException {
     fixtures.createNonExistingCamera();
   }

   // This test that the camera can be started and that the frames are forwarded
   // to a Java video renderer using a "default" capturer.
   // It tests both the Java and the C++ layer.
   @Test
   @MediumTest
   public void testCreateCapturerAndRender() throws InterruptedException {
     fixtures.createCapturerAndRender();
   }

   // This test that the camera can be started and that the frames are forwarded
   // to a Java video renderer using the front facing video capturer.
   // It tests both the Java and the C++ layer.
   @Test
   @MediumTest
   public void testStartFrontFacingVideoCapturer() throws InterruptedException {
     fixtures.createFrontFacingCapturerAndRender();
   }

   // This test that the camera can be started and that the frames are forwarded
   // to a Java video renderer using the back facing video capturer.
   // It tests both the Java and the C++ layer.
   @Test
   @MediumTest
   public void testStartBackFacingVideoCapturer() throws InterruptedException {
     fixtures.createBackFacingCapturerAndRender();
   }

   // This test that the default camera can be started and that the camera can
   // later be switched to another camera.
   // It tests both the Java and the C++ layer.
   @Test
   @MediumTest
   public void testSwitchVideoCapturer() throws InterruptedException {
     fixtures.switchCamera();
   }

   @Test
   @MediumTest
   public void testCameraEvents() throws InterruptedException {
     fixtures.cameraEventsInvoked();
   }

   // Test what happens when attempting to call e.g. switchCamera() after camera has been stopped.
   @Test
   @MediumTest
   public void testCameraCallsAfterStop() throws InterruptedException {
     fixtures.cameraCallsAfterStop();
   }

   // This test that the VideoSource that the CameraVideoCapturer is connected to can
   // be stopped and restarted. It tests both the Java and the C++ layer.
   @Test
   @LargeTest
   public void testStopRestartVideoSource() throws InterruptedException {
     fixtures.stopRestartVideoSource();
   }

   // This test that the camera can be started at different resolutions.
   // It does not test or use the C++ layer.
   @Test
   @LargeTest
   public void testStartStopWithDifferentResolutions() throws InterruptedException {
     fixtures.startStopWithDifferentResolutions();
   }

   // This test what happens if buffers are returned after the capturer have
   // been stopped and restarted. It does not test or use the C++ layer.
   @Test
   @LargeTest
   public void testReturnBufferLate() throws InterruptedException {
     fixtures.returnBufferLate();
   }

   // This test that we can capture frames, keep the frames in a local renderer, stop capturing,
   // and then return the frames. The difference between the test testReturnBufferLate() is that we
   // also test the JNI and C++ AndroidVideoCapturer parts.
   @Test
   @MediumTest
   public void testReturnBufferLateEndToEnd() throws InterruptedException {
     fixtures.returnBufferLateEndToEnd();
   }

   // This test that CameraEventsHandler.onError is triggered if video buffers are not returned to
   // the capturer.
   @Test
   @LargeTest
   public void testCameraFreezedEventOnBufferStarvation() throws InterruptedException {
     fixtures.cameraFreezedEventOnBufferStarvation();
   }

   // This test that frames forwarded to a renderer is scaled if adaptOutputFormat is
   // called. This test both Java and C++ parts of of the stack.
   @Test
   @MediumTest
   public void testScaleCameraOutput() throws InterruptedException {
     fixtures.scaleCameraOutput();
   }

   // This test that frames forwarded to a renderer is cropped to a new orientation if
   // adaptOutputFormat is called in such a way. This test both Java and C++ parts of of the stack.
   @Test
   @MediumTest
   public void testCropCameraOutput() throws InterruptedException {
     fixtures.cropCameraOutput();
   }

   // This test that an error is reported if the camera is already opened
   // when CameraVideoCapturer is started.
   @Test
   @LargeTest
   public void testStartWhileCameraIsAlreadyOpen() throws InterruptedException {
     fixtures.startWhileCameraIsAlreadyOpen();
   }

   // This test that CameraVideoCapturer can be started, even if the camera is already opened
   // if the camera is closed while CameraVideoCapturer is re-trying to start.
   @Test
   @LargeTest
   public void testStartWhileCameraIsAlreadyOpenAndCloseCamera() throws InterruptedException {
     fixtures.startWhileCameraIsAlreadyOpenAndCloseCamera();
   }

   // This test that CameraVideoCapturer.stop can be called while CameraVideoCapturer is
   // re-trying to start.
   @Test
   @MediumTest
   public void testStartWhileCameraIsAlreadyOpenAndStop() throws InterruptedException {
     fixtures.startWhileCameraIsAlreadyOpenAndStop();
   }
 }
	/*
	* Copyright 2016 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	package org.webrtc;

	import static org.junit.Assert.assertEquals;
	import static org.junit.Assert.assertFalse;
	import static org.junit.Assert.fail;

	import android.annotation.TargetApi;
	import android.content.Context;
	import android.hardware.camera2.CameraAccessException;
	import android.hardware.camera2.CameraDevice;
	import android.hardware.camera2.CameraManager;
	import android.os.Handler;
	import android.os.Looper;
	import android.support.annotation.Nullable;
	import android.support.test.InstrumentationRegistry;
	import android.support.test.filters.LargeTest;
	import android.support.test.filters.MediumTest;
	import android.support.test.filters.SmallTest;
	import java.io.IOException;
	import java.util.concurrent.CountDownLatch;
	import org.chromium.base.test.BaseJUnit4ClassRunner;
	import org.junit.After;
	import org.junit.Before;
	import org.junit.Test;
	import org.junit.runner.RunWith;

	@TargetApi(21)
	@RunWith(BaseJUnit4ClassRunner.class)
	public class Camera2CapturerTest {
	static final String TAG = "Camera2CapturerTest";

	/**
	* Simple camera2 implementation that only knows how to open the camera and close it.
	*/
	private class SimpleCamera2 {
	final CameraManager cameraManager;
	final LooperThread looperThread;
	final CountDownLatch openDoneSignal;
	final Object cameraDeviceLock;
	@Nullable CameraDevice cameraDevice; // Guarded by cameraDeviceLock
	boolean openSucceeded; // Guarded by cameraDeviceLock

	private class LooperThread extends Thread {
	final CountDownLatch startedSignal = new CountDownLatch(1);
	private Handler handler;

	@Override
	public void run() {
	Looper.prepare();
	handler = new Handler();
	startedSignal.countDown();
	Looper.loop();
	}

	public void waitToStart() {
	ThreadUtils.awaitUninterruptibly(startedSignal);
	}

	public void requestStop() {
	handler.getLooper().quit();
	}

	public Handler getHandler() {
	return handler;
	}
	}

	private class CameraStateCallback extends CameraDevice.StateCallback {
	@Override
	public void onClosed(CameraDevice cameraDevice) {
	Logging.d(TAG, "Simple camera2 closed.");

	synchronized (cameraDeviceLock) {
	SimpleCamera2.this.cameraDevice = null;
	}
	}

	@Override
	public void onDisconnected(CameraDevice cameraDevice) {
	Logging.d(TAG, "Simple camera2 disconnected.");

	synchronized (cameraDeviceLock) {
	SimpleCamera2.this.cameraDevice = null;
	}
	}

	@Override
	public void onError(CameraDevice cameraDevice, int errorCode) {
	Logging.w(TAG, "Simple camera2 error: " + errorCode);

	synchronized (cameraDeviceLock) {
	SimpleCamera2.this.cameraDevice = cameraDevice;
	openSucceeded = false;
	}

	openDoneSignal.countDown();
	}

	@Override
	public void onOpened(CameraDevice cameraDevice) {
	Logging.d(TAG, "Simple camera2 opened.");

	synchronized (cameraDeviceLock) {
	SimpleCamera2.this.cameraDevice = cameraDevice;
	openSucceeded = true;
	}

	openDoneSignal.countDown();
	}
	}

	SimpleCamera2(Context context, String deviceName) {
	cameraManager = (CameraManager) context.getSystemService(Context.CAMERA_SERVICE);
	looperThread = new LooperThread();
	looperThread.start();
	looperThread.waitToStart();
	cameraDeviceLock = new Object();
	openDoneSignal = new CountDownLatch(1);
	cameraDevice = null;
	Logging.d(TAG, "Opening simple camera2.");
	try {
	cameraManager.openCamera(deviceName, new CameraStateCallback(), looperThread.getHandler());
	} catch (CameraAccessException e) {
	fail("Simple camera2 CameraAccessException: " + e.getMessage());
	}

	Logging.d(TAG, "Waiting for simple camera2 to open.");
	ThreadUtils.awaitUninterruptibly(openDoneSignal);
	synchronized (cameraDeviceLock) {
	if (!openSucceeded) {
	fail("Opening simple camera2 failed.");
	}
	}
	}

	public void close() {
	Logging.d(TAG, "Closing simple camera2.");
	synchronized (cameraDeviceLock) {
	if (cameraDevice != null) {
	cameraDevice.close();
	}
	}

	looperThread.requestStop();
	ThreadUtils.joinUninterruptibly(looperThread);
	}
	}

	private class TestObjectFactory extends CameraVideoCapturerTestFixtures.TestObjectFactory {
	@Override
	public CameraEnumerator getCameraEnumerator() {
	return new Camera2Enumerator(getAppContext());
	}

	@Override
	public Context getAppContext() {
	return InstrumentationRegistry.getTargetContext();
	}

	@SuppressWarnings("deprecation")
	@Override
	public Object rawOpenCamera(String cameraName) {
	return new SimpleCamera2(getAppContext(), cameraName);
	}

	@SuppressWarnings("deprecation")
	@Override
	public void rawCloseCamera(Object camera) {
	((SimpleCamera2) camera).close();
	}
	}

	private CameraVideoCapturerTestFixtures fixtures;

	@Before
	public void setUp() {
	fixtures = new CameraVideoCapturerTestFixtures(new TestObjectFactory());
	}

	@After
	public void tearDown() {
	fixtures.dispose();
	}

	@Test
	@SmallTest
	public void testCreateAndDispose() throws InterruptedException {
	fixtures.createCapturerAndDispose();
	}

	@Test
	@SmallTest
	public void testCreateNonExistingCamera() throws InterruptedException {
	fixtures.createNonExistingCamera();
	}

	// This test that the camera can be started and that the frames are forwarded
	// to a Java video renderer using a "default" capturer.
	// It tests both the Java and the C++ layer.
	@Test
	@MediumTest
	public void testCreateCapturerAndRender() throws InterruptedException {
	fixtures.createCapturerAndRender();
	}

	// This test that the camera can be started and that the frames are forwarded
	// to a Java video renderer using the front facing video capturer.
	// It tests both the Java and the C++ layer.
	@Test
	@MediumTest
	public void testStartFrontFacingVideoCapturer() throws InterruptedException {
	fixtures.createFrontFacingCapturerAndRender();
	}

	// This test that the camera can be started and that the frames are forwarded
	// to a Java video renderer using the back facing video capturer.
	// It tests both the Java and the C++ layer.
	@Test
	@MediumTest
	public void testStartBackFacingVideoCapturer() throws InterruptedException {
	fixtures.createBackFacingCapturerAndRender();
	}

	// This test that the default camera can be started and that the camera can
	// later be switched to another camera.
	// It tests both the Java and the C++ layer.
	@Test
	@MediumTest
	public void testSwitchVideoCapturer() throws InterruptedException {
	fixtures.switchCamera();
	}

	@Test
	@MediumTest
	public void testCameraEvents() throws InterruptedException {
	fixtures.cameraEventsInvoked();
	}

	// Test what happens when attempting to call e.g. switchCamera() after camera has been stopped.
	@Test
	@MediumTest
	public void testCameraCallsAfterStop() throws InterruptedException {
	fixtures.cameraCallsAfterStop();
	}

	// This test that the VideoSource that the CameraVideoCapturer is connected to can
	// be stopped and restarted. It tests both the Java and the C++ layer.
	@Test
	@LargeTest
	public void testStopRestartVideoSource() throws InterruptedException {
	fixtures.stopRestartVideoSource();
	}

	// This test that the camera can be started at different resolutions.
	// It does not test or use the C++ layer.
	@Test
	@LargeTest
	public void testStartStopWithDifferentResolutions() throws InterruptedException {
	fixtures.startStopWithDifferentResolutions();
	}

	// This test what happens if buffers are returned after the capturer have
	// been stopped and restarted. It does not test or use the C++ layer.
	@Test
	@LargeTest
	public void testReturnBufferLate() throws InterruptedException {
	fixtures.returnBufferLate();
	}

	// This test that we can capture frames, keep the frames in a local renderer, stop capturing,
	// and then return the frames. The difference between the test testReturnBufferLate() is that we
	// also test the JNI and C++ AndroidVideoCapturer parts.
	@Test
	@MediumTest
	public void testReturnBufferLateEndToEnd() throws InterruptedException {
	fixtures.returnBufferLateEndToEnd();
	}

	// This test that CameraEventsHandler.onError is triggered if video buffers are not returned to
	// the capturer.
	@Test
	@LargeTest
	public void testCameraFreezedEventOnBufferStarvation() throws InterruptedException {
	fixtures.cameraFreezedEventOnBufferStarvation();
	}

	// This test that frames forwarded to a renderer is scaled if adaptOutputFormat is
	// called. This test both Java and C++ parts of of the stack.
	@Test
	@MediumTest
	public void testScaleCameraOutput() throws InterruptedException {
	fixtures.scaleCameraOutput();
	}

	// This test that frames forwarded to a renderer is cropped to a new orientation if
	// adaptOutputFormat is called in such a way. This test both Java and C++ parts of of the stack.
	@Test
	@MediumTest
	public void testCropCameraOutput() throws InterruptedException {
	fixtures.cropCameraOutput();
	}

	// This test that an error is reported if the camera is already opened
	// when CameraVideoCapturer is started.
	@Test
	@LargeTest
	public void testStartWhileCameraIsAlreadyOpen() throws InterruptedException {
	fixtures.startWhileCameraIsAlreadyOpen();
	}

	// This test that CameraVideoCapturer can be started, even if the camera is already opened
	// if the camera is closed while CameraVideoCapturer is re-trying to start.
	@Test
	@LargeTest
	public void testStartWhileCameraIsAlreadyOpenAndCloseCamera() throws InterruptedException {
	fixtures.startWhileCameraIsAlreadyOpenAndCloseCamera();
	}

	// This test that CameraVideoCapturer.stop can be called while CameraVideoCapturer is
	// re-trying to start.
	@Test
	@MediumTest
	public void testStartWhileCameraIsAlreadyOpenAndStop() throws InterruptedException {
	fixtures.startWhileCameraIsAlreadyOpenAndStop();
	}
	}