深入理解Android Camera架构一-应用层

相机应用处于整个框架的上层，在现实生活中，为了满足各式各样的应用场景，会加入很多业务处理逻辑，但是一旦当我们拨开繁杂的业务逻辑，便会发现其核心部分依然是通过调用谷歌制订的一系列Camera Api接口来完成的，而所有的相机行为都包含在该接口中。

起初，相机系统采用的是Camera Api v1接口，它通过一个Camera 类以及该类中的几个标准方法来实现整个相机系统的预览、拍照以及录像功能，控制逻辑比较简单，同时也比较容易理解，但也正是这种简单，导致了它无法逐帧控制底层硬件，无法通过元数据进行修改进而增强帧的表达能力，再加之应用场景的多样化趋势，该接口在新功能的实现上显得些许力不从心。面对该接口难以进一步扩展相机功能这一局面，谷歌在Andorid 5.0(API Level 21)便重新对Camera进行了设计，摒弃了Camera Api v1的设计逻辑，提出了一个全新的API – camera2，引入了Session以及Request概念，将控制逻辑统一成一个视图，因此在使用上更加复杂，同时也支持了更多特性，比如逐帧控制曝光、感光度以及支持Raw格式的输出等。并且由于对控制逻辑的高度抽象化，使得该接口具有很高的灵活性，可以通过简单的操作实现30fps的全高清连拍的功能，总得来说，该接口极大地提高了对于相机框架的控制能力，同时也进一步大幅度提升了其整体性能。

谷歌提出Camera Api v2接口的同时，将其具体实现放入了Camera Framework中来完成，Framework内部负责解析来自App的请求，并且通过AIDL跨进程接口下发到Camera Service中进行处理，并且等待结果的回传。下面将通过 Camera Api v2打开Camera的流程，来介绍下如何使用该接口来控制整个相机体系。

一、打开Camera主流程

1.1 初始化TextureView并设置监听

 mTextureView = findViewById(R.id.textview);
 mTextureView.setSurfaceTextureListener(textureListener);
 public TextureView.SurfaceTextureListener textureListener = new TextureView.SurfaceTextureListener() {
        @Override
        public void onSurfaceTextureAvailable(SurfaceTexture surface, int width, int height) {
            //获取CameraManager服务
            mCamManager = (CameraManager) getSystemService(Context.CAMERA_SERVICE);
            try {
                //打开主摄
                mCamManager.openCamera("0", mStateCallback, null);
            } catch (CameraAccessException e) {
                e.printStackTrace();
            }
        }

        @Override
        public void onSurfaceTextureSizeChanged(SurfaceTexture surface, int width, int height) {
            log("onSurfaceTextureSizeChanged Enter");
        }

        @Override
        public boolean onSurfaceTextureDestroyed(SurfaceTexture surface) {
            log("onSurfaceTextureDestroyed Enter");
            return false;
        }

        @Override
        public void onSurfaceTextureUpdated(SurfaceTexture surface) {
            log("onSurfaceTextureUpdated Enter");
        }  
}

1.2 SurfaceTexture可用打开Camera

//mStateCallback获取CameraDevice
public CameraDevice.StateCallback mStateCallback = new CameraDevice.StateCallback() {
            @Override
            public void onOpened(CameraDevice camera) {
                if (camera != null) {
                    log("camera is not null");
                }
                log("onOpened");
                //返回CameraDevice,将其存入mCamDevice
                mCamDevice = camera;
                startPreview();
            }

            @Override
            public void onDisconnected(CameraDevice camera) {
                camera.close();
                mCamDevice = null;
            }

            @Override
            public void onError(CameraDevice camera, int error) {
                camera.close();
                mCamDevice = null;
            }
 };

1.3 创建Camera Session，请求Camera数据

//CameraDevice创建Session，请求Camera数据
public void startPreview() {
            SurfaceTexture mSurfaceTexture = mTextureView.getSurfaceTexture();
            // 设置TextureView 用于显示的缓冲区大小
            mSurfaceTexture.setDefaultBufferSize(mPreviewSize.getWidth(), mPreviewSize.getHeight());
            //创建Surface，用于显示预览数据
            mPreviewSurface = new Surface(mSurfaceTexture);
            try {
                //创建CameraCaptureSession,App需要实现CameraCaptureSession.StateCallback用于接收CameraCaptureSession实例
                mCamDevice.createCaptureSession(Arrays.asList(mPreviewSurface, mImageReader.getSurface()), new CameraCaptureSession.StateCallback() {
                    @Override
                    public void onConfigured(CameraCaptureSession session) {
                        try {
                            //创建用于预览的CaptureRequest.Builder,进而得到CaptureRequest
                            CaptureRequest.Builder b = mCamDevice.createCaptureRequest(CameraDevice.TEMPLATE_PREVIEW);
                            b.addTarget(mPreviewSurface);
                            CaptureRequest r = b.build();
                            mCamSession = session;
                            //下发预览需求
                            mCamSession.setRepeatingRequest(r, mPreviewCaptureCallback, null);
                        } catch (CameraAccessException e) {
                            e.printStackTrace();
                        }
                    }

                    CameraCaptureSession.CaptureCallback mPreviewCaptureCallback = new CameraCaptureSession.CaptureCallback() {
                        @Override
                        public void onCaptureCompleted(CameraCaptureSession session, CaptureRequest request, TotalCaptureResult result) {
                            //返回result --> meta data
                        }
                    };

                    @Override
                    public void onReady(CameraCaptureSession session) {
                        super.onReady(session);
                    }

                    @Override
                    public void onConfigureFailed(CameraCaptureSession session) {

                    }
                }, null);
            } catch (CameraAccessException e) {
                e.printStackTrace();
            }
  }

1.4 拍照

try {
                    //创建CaptureRequest.Builder,TEMPLATE_STILL_CAPTURE代表了此Request是用于拍照
                    CaptureRequest.Builder b = mCamDevice.createCaptureRequest(CameraDevice.TEMPLATE_STILL_CAPTURE);
                    b.addTarget(mImageReader.getSurface());
                    mCamSession.capture(b.build(), new CameraCaptureSession.CaptureCallback() {
                        @Override
                        public void onCaptureCompleted(@NonNull CameraCaptureSession session, @NonNull CaptureRequest request, @NonNull TotalCaptureResult result) {
                            super.onCaptureCompleted(session, request, result);
                            //返回result --> meta data
                        }
                    }, null);
                } catch (CameraAccessException e) {
                    e.printStackTrace();
                }
                
                
    mImageReader = ImageReader.newInstance(mCaptureSize.getWidth(), mCaptureSize.getHeight(), ImageFormat.JPEG, 2);
        mImageReader.setOnImageAvailableListener(new ImageReader.OnImageAvailableListener() {
            @Override
            public void onImageAvailable(ImageReader reader) {
                Image image = reader.acquireNextImage();
                ByteBuffer buffer = image.getPlanes()[0].getBuffer();
                byte[] bytes = new byte[buffer.remaining()];
                //由缓冲区存入字节数组
                buffer.get(bytes);
                //字节数组转换为jpeg格式图片，并存储在设备中
                doByte2JpegFile(bytes);
                image.close();
            }
        }, null /*mCameraHandler*/);

二、mCamManager.openCamera

2.1 openCamera

[->frameworks\base\core\java\android\hardware\camera2\CameraManager.java]

@RequiresPermission(android.Manifest.permission.CAMERA)
  public void openCamera(@NonNull String cameraId,
          @NonNull final CameraDevice.StateCallback callback, @Nullable Handler handler)
          throws CameraAccessException {

      openCameraForUid(cameraId, callback, CameraDeviceImpl.checkAndWrapHandler(handler),
              USE_CALLING_UID);
  }

2.2 openCameraForUid

[->frameworks\base\core\java\android\hardware\camera2\CameraManager.java]

public void openCameraForUid(@NonNull String cameraId,
            @NonNull final CameraDevice.StateCallback callback, @NonNull Executor executor,
            int clientUid)
            throws CameraAccessException {

        if (cameraId == null) {
            throw new IllegalArgumentException("cameraId was null");
        } else if (callback == null) {
            throw new IllegalArgumentException("callback was null");
        }
        if (CameraManagerGlobal.sCameraServiceDisabled) {
            throw new IllegalArgumentException("No cameras available on device");
        }

        openCameraDeviceUserAsync(cameraId, callback, executor, clientUid);
    }

2.3 openCameraDeviceUserAsync

[->frameworks\base\core\java\android\hardware\camera2\CameraManager.java]

private CameraDevice openCameraDeviceUserAsync(String cameraId,
            CameraDevice.StateCallback callback, Executor executor, final int uid)
            throws CameraAccessException {
        //获取Camera特性
        CameraCharacteristics characteristics = getCameraCharacteristics(cameraId);
        CameraDevice device = null;

        synchronized (mLock) {

            ICameraDeviceUser cameraUser = null;
            //实例化CameraDeviceImpl，传入callback
            android.hardware.camera2.impl.CameraDeviceImpl deviceImpl =
                    new android.hardware.camera2.impl.CameraDeviceImpl(
                        cameraId,
                        callback,
                        executor,
                        characteristics,
                        mContext.getApplicationInfo().targetSdkVersion);

            ICameraDeviceCallbacks callbacks = deviceImpl.getCallbacks();

            try {
                //camera2 api
                if (supportsCamera2ApiLocked(cameraId)) {
                    // Use cameraservice's cameradeviceclient implementation for HAL3.2+ devices
                    ICameraService cameraService = CameraManagerGlobal.get().getCameraService();
                    if (cameraService == null) {
                        throw new ServiceSpecificException(
                            ICameraService.ERROR_DISCONNECTED,
                            "Camera service is currently unavailable");
                    }
                    //连接设备，并将callbacks传入
                    cameraUser = cameraService.connectDevice(callbacks, cameraId,
                            mContext.getOpPackageName(), uid);
                } else {
                    // Use legacy camera implementation for HAL1 devices
                    int id;
                    try {
                        id = Integer.parseInt(cameraId);
                    } catch (NumberFormatException e) {
                        throw new IllegalArgumentException("Expected cameraId to be numeric, but it was: "
                                + cameraId);
                    }

                    Log.i(TAG, "Using legacy camera HAL.");
                    cameraUser = CameraDeviceUserShim.connectBinderShim(callbacks, id,
                            getDisplaySize());
                }
            } catch (ServiceSpecificException e) {
                if (e.errorCode == ICameraService.ERROR_DEPRECATED_HAL) {
                    throw new AssertionError("Should've gone down the shim path");
                } else if (e.errorCode == ICameraService.ERROR_CAMERA_IN_USE ||
                        e.errorCode == ICameraService.ERROR_MAX_CAMERAS_IN_USE ||
                        e.errorCode == ICameraService.ERROR_DISABLED ||
                        e.errorCode == ICameraService.ERROR_DISCONNECTED ||
                        e.errorCode == ICameraService.ERROR_INVALID_OPERATION) {
                    // Received one of the known connection errors
                    // The remote camera device cannot be connected to, so
                    // set the local camera to the startup error state
                    deviceImpl.setRemoteFailure(e);

                    if (e.errorCode == ICameraService.ERROR_DISABLED ||
                            e.errorCode == ICameraService.ERROR_DISCONNECTED ||
                            e.errorCode == ICameraService.ERROR_CAMERA_IN_USE) {
                        // Per API docs, these failures call onError and throw
                        throwAsPublicException(e);
                    }
                } else {
                    // Unexpected failure - rethrow
                    throwAsPublicException(e);
                }
            } catch (RemoteException e) {
                // Camera service died - act as if it's a CAMERA_DISCONNECTED case
                ServiceSpecificException sse = new ServiceSpecificException(
                    ICameraService.ERROR_DISCONNECTED,
                    "Camera service is currently unavailable");
                deviceImpl.setRemoteFailure(sse);
                throwAsPublicException(sse);
            }

            // TODO: factor out callback to be non-nested, then move setter to constructor
            // For now, calling setRemoteDevice will fire initial
            // onOpened/onUnconfigured callbacks.
            // This function call may post onDisconnected and throw CAMERA_DISCONNECTED if
            // cameraUser dies during setup.
            deviceImpl.setRemoteDevice(cameraUser);
            device = deviceImpl;
        }

        return device;
    }
    
     public CameraCharacteristics getCameraCharacteristics(@NonNull String cameraId)
            throws CameraAccessException {
        CameraCharacteristics characteristics = null;
        if (CameraManagerGlobal.sCameraServiceDisabled) {
            throw new IllegalArgumentException("No cameras available on device");
        }
        synchronized (mLock) {
            /*
             * Get the camera characteristics from the camera service directly if it supports it,
             * otherwise get them from the legacy shim instead.
             */
            ICameraService cameraService = CameraManagerGlobal.get().getCameraService();
            if (cameraService == null) {
                throw new CameraAccessException(CameraAccessException.CAMERA_DISCONNECTED,
                        "Camera service is currently unavailable");
            }
            try {
                Size displaySize = getDisplaySize();

                // First check isHiddenPhysicalCamera to avoid supportsCamera2ApiLocked throwing
                // exception in case cameraId is a hidden physical camera.
                if (!isHiddenPhysicalCamera(cameraId) && !supportsCamera2ApiLocked(cameraId)) {
                    // Legacy backwards compatibility path; build static info from the camera
                    // parameters
                    int id = Integer.parseInt(cameraId);

                    String parameters = cameraService.getLegacyParameters(id);

                    CameraInfo info = cameraService.getCameraInfo(id);

                    characteristics = LegacyMetadataMapper.createCharacteristics(parameters, info,
                            id, displaySize);
                } else {
                    // Normal path: Get the camera characteristics directly from the camera service
                    CameraMetadataNative info = cameraService.getCameraCharacteristics(cameraId);
                    try {
                        info.setCameraId(Integer.parseInt(cameraId));
                    } catch (NumberFormatException e) {
                        Log.e(TAG, "Failed to parse camera Id " + cameraId + " to integer");
                    }
                    info.setDisplaySize(displaySize);

                    characteristics = new CameraCharacteristics(info);
                }
            } catch (ServiceSpecificException e) {
                throwAsPublicException(e);
            } catch (RemoteException e) {
                // Camera service died - act as if the camera was disconnected
                throw new CameraAccessException(CameraAccessException.CAMERA_DISCONNECTED,
                        "Camera service is currently unavailable", e);
            }
        }
        return characteristics;
    }

2.3.1 创建CameraDeviceImpl对象

[->frameworks\base\core\java\android\hardware\camera2\impl\CameraDeviceImpl.java]

public CameraDeviceImpl(String cameraId, StateCallback callback, Executor executor,
                    CameraCharacteristics characteristics, int appTargetSdkVersion) {
    if (cameraId == null || callback == null || executor == null || characteristics == null) {
        throw new IllegalArgumentException("Null argument given");
    }
    mCameraId = cameraId;
    mDeviceCallback = callback;
    mDeviceExecutor = executor;
    mCharacteristics = characteristics;
    mAppTargetSdkVersion = appTargetSdkVersion;

    final int MAX_TAG_LEN = 23;
    String tag = String.format("CameraDevice-JV-%s", mCameraId);
    if (tag.length() > MAX_TAG_LEN) {
        tag = tag.substring(0, MAX_TAG_LEN);
    }
    TAG = tag;

    Integer partialCount =
            mCharacteristics.get(CameraCharacteristics.REQUEST_PARTIAL_RESULT_COUNT);
    if (partialCount == null) {
        // 1 means partial result is not supported.
        mTotalPartialCount = 1;
    } else {
        mTotalPartialCount = partialCount;
    }
    mIsPrivilegedApp = checkPrivilegedAppList();
}

2.3.2 deviceImpl.getCallbacks

获取CameraDeviceCallbacks，用于下面的connectDevice传入，mCallbacks获取设备的状态，并将这些状态转发给StateCallback，从而同步给应用。mCallbacks起到了代理作用，其实现了ICameraDeviceCallbacks.Stub接口

    private final CameraDeviceCallbacks mCallbacks = new CameraDeviceCallbacks();
    
    public CameraDeviceCallbacks getCallbacks() {
        return mCallbacks;
    }
    
    public class CameraDeviceCallbacks extends ICameraDeviceCallbacks.Stub {

        @Override
        public IBinder asBinder() {
            return this;
        }

        @Override
        public void onDeviceError(final int errorCode, CaptureResultExtras resultExtras) {
            if (DEBUG) {
                Log.d(TAG, String.format(
                        "Device error received, code %d, frame number %d, request ID %d, subseq ID %d",
                        errorCode, resultExtras.getFrameNumber(), resultExtras.getRequestId(),
                        resultExtras.getSubsequenceId()));
            }

            synchronized(mInterfaceLock) {
                if (mRemoteDevice == null) {
                    return; // Camera already closed
                }

                switch (errorCode) {
                    case ERROR_CAMERA_DISCONNECTED:
                        final long ident = Binder.clearCallingIdentity();
                        try {
                            CameraDeviceImpl.this.mDeviceExecutor.execute(mCallOnDisconnected);
                        } finally {
                            Binder.restoreCallingIdentity(ident);
                        }
                        break;
                    case ERROR_CAMERA_REQUEST:
                    case ERROR_CAMERA_RESULT:
                    case ERROR_CAMERA_BUFFER:
                        onCaptureErrorLocked(errorCode, resultExtras);
                        break;
                    case ERROR_CAMERA_DEVICE:
                        scheduleNotifyError(StateCallback.ERROR_CAMERA_DEVICE);
                        break;
                    case ERROR_CAMERA_DISABLED:
                        scheduleNotifyError(StateCallback.ERROR_CAMERA_DISABLED);
                        break;
                    default:
                        Log.e(TAG, "Unknown error from camera device: " + errorCode);
                        scheduleNotifyError(StateCallback.ERROR_CAMERA_SERVICE);
                }
            }
        }
        ....
}

2.3.3 getCameraService

获取cameraService，通过CameraManager中的CameraManagerGlobal类，再通过ServiceManager获取ICameraService实例，代理CameraService。如何通过CAMERA_SERVICE_BINDER_NAME获取getCameraService代理，将在后面的章节进行详细说明

[->frameworks\base\core\java\android\hardware\camera2\CameraManager.java]

// Use cameraservice's cameradeviceclient implementation for HAL3.2+ devices
// frameworks/av/camera/aidl/android/hardware/ICameraService.aidl
ICameraService cameraService = CameraManagerGlobal.get().getCameraService();

public ICameraService getCameraService() {
         synchronized(mLock) {
             connectCameraServiceLocked();
             if (mCameraService == null && !sCameraServiceDisabled) {
                 Log.e(TAG, "Camera service is unavailable");
             }
             return mCameraService;
         }
  }
  
   private void connectCameraServiceLocked() {
         // Only reconnect if necessary
         if (mCameraService != null || sCameraServiceDisabled) return;

         Log.i(TAG, "Connecting to camera service");
         //获取cameraServiceBinder服务
         IBinder cameraServiceBinder = ServiceManager.getService(CAMERA_SERVICE_BINDER_NAME);
         if (cameraServiceBinder == null) {
             // Camera service is now down, leave mCameraService as null
             return;
         }
         try {
             cameraServiceBinder.linkToDeath(this, /*flags*/ 0);
         } catch (RemoteException e) {
             // Camera service is now down, leave mCameraService as null
             return;
         }
         //将binder转化为ICameraService实例
         ICameraService cameraService = ICameraService.Stub.asInterface(cameraServiceBinder);

         try {
             CameraMetadataNative.setupGlobalVendorTagDescriptor();
         } catch (ServiceSpecificException e) {
             handleRecoverableSetupErrors(e);
         }

         try {
             CameraStatus[] cameraStatuses = cameraService.addListener(this);
             for (CameraStatus c : cameraStatuses) {
                 onStatusChangedLocked(c.status, c.cameraId);
             }
             mCameraService = cameraService;
         } catch(ServiceSpecificException e) {
             // Unexpected failure
             throw new IllegalStateException("Failed to register a camera service listener", e);
         } catch (RemoteException e) {
             // Camera service is now down, leave mCameraService as null
         }
     }

2.3.4 connectDevice

通过CameraService获取ICameraDeviceUser代理类，上面所有的代理实现aidl在源代码frameworks/av/camera/aidl/android/hardware/camera2中可以找到

//frameworks/av/camera/aidl/android/hardware/camera2/ICameraDeviceUser.aidl
ICameraDeviceUser cameraUser = null;
cameraUser = cameraService.connectDevice(callbacks, cameraId,
                            mContext.getOpPackageName(), uid);
 /**
     * Open a camera device through the new camera API
     * Only supported for device HAL versions >= 3.2
     */
ICameraDeviceUser connectDevice(ICameraDeviceCallbacks callbacks,
            String cameraId,
            String opPackageName,
            int clientUid);

2.3.5 setRemoteDevice

将获取到的ICameraDeviceUser保存到CameraDeviceImpl用于管理

deviceImpl.setRemoteDevice(cameraUser);
public void setRemoteDevice(ICameraDeviceUser remoteDevice) throws CameraAccessException {
      synchronized(mInterfaceLock) {
          // TODO: Move from decorator to direct binder-mediated exceptions
          // If setRemoteFailure already called, do nothing
          if (mInError) return;

          mRemoteDevice = new ICameraDeviceUserWrapper(remoteDevice);

          IBinder remoteDeviceBinder = remoteDevice.asBinder();
          // For legacy camera device, remoteDevice is in the same process, and
          // asBinder returns NULL.
          if (remoteDeviceBinder != null) {
              try {
                  remoteDeviceBinder.linkToDeath(this, /*flag*/ 0);
              } catch (RemoteException e) {
                  CameraDeviceImpl.this.mDeviceExecutor.execute(mCallOnDisconnected);

                  throw new CameraAccessException(CameraAccessException.CAMERA_DISCONNECTED,
                          "The camera device has encountered a serious error");
              }
          }

          mDeviceExecutor.execute(mCallOnOpened);
          mDeviceExecutor.execute(mCallOnUnconfigured);
      }
  }

2.3.6 mDeviceExecutor.execute

通过StateCallback返回给应用CameraDeviceImpl，用于后续的操作

private final Runnable mCallOnOpened = new Runnable() {
       @Override
       public void run() {
           StateCallbackKK sessionCallback = null;
           synchronized(mInterfaceLock) {
               if (mRemoteDevice == null) return; // Camera already closed

               sessionCallback = mSessionStateCallback;
           }
           if (sessionCallback != null) {
               sessionCallback.onOpened(CameraDeviceImpl.this);
           }
           mDeviceCallback.onOpened(CameraDeviceImpl.this);
       }
   };

2.4 小结

当应用打开相机应用时，会去调用该方法打开一个相机设备，其中该方法最终经过层层调用会调用到Camera Framework中的openCameraDeviceUserAsync方法，在该方法中主要做了三件事：

1. 首先是获取ICameraService代理，调用其getCameraInfo方法获取当前设备的属性。
2. 其次是实例化了一个CameraDeviceImpl对象，并将来自App的CameraDevice.StateCallback接口存入该对象中，再将CameraDeviceImpl中的内部类CameraDeviceCallback作为参数通过ICameraService的connectDevice方法传入Camera Service去打开并获取一个ICameraDeviceUser代理，并将该代理存入CameraDeviceImpl中进行管理。
3. 最后通过App传入的回调将CameraDeviceImpl返回给App使用，至此整个流程便完成了。

三、mCamDevice.createCaptureSession

3.1 createCaptureSession

public void createCaptureSession(List<Surface> outputs,
            CameraCaptureSession.StateCallback callback, Handler handler)
            throws CameraAccessException {
        List<OutputConfiguration> outConfigurations = new ArrayList<>(outputs.size());
        for (Surface surface : outputs) {
            outConfigurations.add(new OutputConfiguration(surface));
        }
        createCaptureSessionInternal(null, outConfigurations, callback,
                checkAndWrapHandler(handler), /*operatingMode*/ICameraDeviceUser.NORMAL_MODE,
                /*sessionParams*/ null);
    }

3.2 createCaptureSessionInternal

private void createCaptureSessionInternal(InputConfiguration inputConfig,
            List<OutputConfiguration> outputConfigurations,
            CameraCaptureSession.StateCallback callback, Executor executor,
            int operatingMode, CaptureRequest sessionParams) throws CameraAccessException {
        synchronized(mInterfaceLock) {
            if (DEBUG) {
                Log.d(TAG, "createCaptureSessionInternal");
            }

            checkIfCameraClosedOrInError();

            boolean isConstrainedHighSpeed =
                    (operatingMode == ICameraDeviceUser.CONSTRAINED_HIGH_SPEED_MODE);
            if (isConstrainedHighSpeed && inputConfig != null) {
                throw new IllegalArgumentException("Constrained high speed session doesn't support"
                        + " input configuration yet.");
            }

            // Notify current session that it's going away, before starting camera operations
            // After this call completes, the session is not allowed to call into CameraDeviceImpl
            if (mCurrentSession != null) {
                mCurrentSession.replaceSessionClose();
            }

            // TODO: dont block for this
            boolean configureSuccess = true;
            CameraAccessException pendingException = null;
            Surface input = null;
            try {
                // configure streams and then block until IDLE
                configureSuccess = configureStreamsChecked(inputConfig, outputConfigurations,
                        operatingMode, sessionParams);
                if (configureSuccess == true && inputConfig != null) {
                    input = mRemoteDevice.getInputSurface();
                }
            } catch (CameraAccessException e) {
                configureSuccess = false;
                pendingException = e;
                input = null;
                if (DEBUG) {
                    Log.v(TAG, "createCaptureSession - failed with exception ", e);
                }
            }

            // Fire onConfigured if configureOutputs succeeded, fire onConfigureFailed otherwise.
            CameraCaptureSessionCore newSession = null;
            if (isConstrainedHighSpeed) {
                ArrayList<Surface> surfaces = new ArrayList<>(outputConfigurations.size());
                for (OutputConfiguration outConfig : outputConfigurations) {
                    surfaces.add(outConfig.getSurface());
                }
                StreamConfigurationMap config =
                    getCharacteristics().get(CameraCharacteristics.SCALER_STREAM_CONFIGURATION_MAP);
                SurfaceUtils.checkConstrainedHighSpeedSurfaces(surfaces, /*fpsRange*/null, config);

                newSession = new CameraConstrainedHighSpeedCaptureSessionImpl(mNextSessionId++,
                        callback, executor, this, mDeviceExecutor, configureSuccess,
                        mCharacteristics);
            } else {
                newSession = new CameraCaptureSessionImpl(mNextSessionId++, input,
                        callback, executor, this, mDeviceExecutor, configureSuccess);
            }

            // TODO: wait until current session closes, then create the new session
            mCurrentSession = newSession;

            if (pendingException != null) {
                throw pendingException;
            }

            mSessionStateCallback = mCurrentSession.getDeviceStateCallback();
        }
    }

3.2.1 configureStreamsChecked

通过mRemoteDevice配置数据流，mRemoteDevice是在2.3.5中setRemoteDevice初始化，最终调用的是ICameraDeviceUser接口进行deleteStream、createStream等操作。

public boolean configureStreamsChecked(InputConfiguration inputConfig,
            List<OutputConfiguration> outputs, int operatingMode, CaptureRequest sessionParams)
                    throws CameraAccessException {
        // Treat a null input the same an empty list
        if (outputs == null) {
            outputs = new ArrayList<OutputConfiguration>();
        }
        if (outputs.size() == 0 && inputConfig != null) {
            throw new IllegalArgumentException("cannot configure an input stream without " +
                    "any output streams");
        }

        checkInputConfiguration(inputConfig);

        boolean success = false;

        synchronized(mInterfaceLock) {
            checkIfCameraClosedOrInError();
            // Streams to create
            HashSet<OutputConfiguration> addSet = new HashSet<OutputConfiguration>(outputs);
            // Streams to delete
            List<Integer> deleteList = new ArrayList<Integer>();

            // Determine which streams need to be created, which to be deleted
            for (int i = 0; i < mConfiguredOutputs.size(); ++i) {
                int streamId = mConfiguredOutputs.keyAt(i);
                OutputConfiguration outConfig = mConfiguredOutputs.valueAt(i);

                if (!outputs.contains(outConfig) || outConfig.isDeferredConfiguration()) {
                    // Always delete the deferred output configuration when the session
                    // is created, as the deferred output configuration doesn't have unique surface
                    // related identifies.
                    deleteList.add(streamId);
                } else {
                    addSet.remove(outConfig);  // Don't create a stream previously created
                }
            }

            mDeviceExecutor.execute(mCallOnBusy);
            stopRepeating();

            try {
                waitUntilIdle();

                mRemoteDevice.beginConfigure();

                // reconfigure the input stream if the input configuration is different.
                InputConfiguration currentInputConfig = mConfiguredInput.getValue();
                if (inputConfig != currentInputConfig &&
                        (inputConfig == null || !inputConfig.equals(currentInputConfig))) {
                    if (currentInputConfig != null) {
                        mRemoteDevice.deleteStream(mConfiguredInput.getKey());
                        mConfiguredInput = new SimpleEntry<Integer, InputConfiguration>(
                                REQUEST_ID_NONE, null);
                    }
                    if (inputConfig != null) {
                        int streamId = mRemoteDevice.createInputStream(inputConfig.getWidth(),
                                inputConfig.getHeight(), inputConfig.getFormat());
                        mConfiguredInput = new SimpleEntry<Integer, InputConfiguration>(
                                streamId, inputConfig);
                    }
                }

                // Delete all streams first (to free up HW resources)
                for (Integer streamId : deleteList) {
                    mRemoteDevice.deleteStream(streamId);
                    mConfiguredOutputs.delete(streamId);
                }

                // Add all new streams
                for (OutputConfiguration outConfig : outputs) {
                    if (addSet.contains(outConfig)) {
                        int streamId = mRemoteDevice.createStream(outConfig);
                        mConfiguredOutputs.put(streamId, outConfig);
                    }
                }
                operatingMode = (operatingMode | (customOpMode << 16));

                if (sessionParams != null) {
                    mRemoteDevice.endConfigure(operatingMode, sessionParams.getNativeCopy());
                } else {
                    mRemoteDevice.endConfigure(operatingMode, null);
                }

                success = true;
            } catch (IllegalArgumentException e) {
                // OK. camera service can reject stream config if it's not supported by HAL
                // This is only the result of a programmer misusing the camera2 api.
                Log.w(TAG, "Stream configuration failed due to: " + e.getMessage());
                return false;
            } catch (CameraAccessException e) {
                if (e.getReason() == CameraAccessException.CAMERA_IN_USE) {
                    throw new IllegalStateException("The camera is currently busy." +
                            " You must wait until the previous operation completes.", e);
                }
                throw e;
            } finally {
                if (success && outputs.size() > 0) {
                    mDeviceExecutor.execute(mCallOnIdle);
                } else {
                    // Always return to the 'unconfigured' state if we didn't hit a fatal error
                    mDeviceExecutor.execute(mCallOnUnconfigured);
                }
            }
        }

        return success;
    }

3.2.2 创建CameraCaptureSessionImpl

创建CameraCaptureSessionImpl，并传入CameraCaptureSession.StateCallback用于返回给应用侧

newSession = new CameraCaptureSessionImpl(mNextSessionId++, input,
                       callback, executor, this, mDeviceExecutor, configureSuccess);

将应用侧mStateCallback保存在CameraCaptureSessionImpl，用于结果的回调。配置流成功，返回给应用侧状态mStateCallback.onConfigured

[->frameworks\base\core\java\android\hardware\camera2\impl\CameraCaptureSessionImpl.java]

CameraCaptureSessionImpl(int id, Surface input,
            CameraCaptureSession.StateCallback callback, Executor stateExecutor,
            android.hardware.camera2.impl.CameraDeviceImpl deviceImpl,
            Executor deviceStateExecutor, boolean configureSuccess) {
        if (callback == null) {
            throw new IllegalArgumentException("callback must not be null");
        }

        mId = id;
        mIdString = String.format("Session %d: ", mId);

        mInput = input;
        mStateExecutor = checkNotNull(stateExecutor, "stateExecutor must not be null");
        mStateCallback = createUserStateCallbackProxy(mStateExecutor, callback);

        mDeviceExecutor = checkNotNull(deviceStateExecutor,
                "deviceStateExecutor must not be null");
        mDeviceImpl = checkNotNull(deviceImpl, "deviceImpl must not be null");

        /*
         * Use the same handler as the device's StateCallback for all the internal coming events
         *
         * This ensures total ordering between CameraDevice.StateCallback and
         * CameraDeviceImpl.CaptureCallback events.
         */
        mSequenceDrainer = new TaskDrainer<>(mDeviceExecutor, new SequenceDrainListener(),
                /*name*/"seq");
        mIdleDrainer = new TaskSingleDrainer(mDeviceExecutor, new IdleDrainListener(),
                /*name*/"idle");
        mAbortDrainer = new TaskSingleDrainer(mDeviceExecutor, new AbortDrainListener(),
                /*name*/"abort");

        // CameraDevice should call configureOutputs and have it finish before constructing us

        if (configureSuccess) {
            mStateCallback.onConfigured(this);
            if (DEBUG) Log.v(TAG, mIdString + "Created session successfully");
            mConfigureSuccess = true;
        } else {
            mStateCallback.onConfigureFailed(this);
            mClosed = true; // do not fire any other callbacks, do not allow any other work
            Log.e(TAG, mIdString + "Failed to create capture session; configuration failed");
            mConfigureSuccess = false;
        }
    }

3.3 小结

在打开相机设备之后便需要去创建一个相机会话，用于传输图像请求，其最终实现是调用该方法来进行实现的，而该方法会去调用到Camera Framework中的createCaptureSessionInternal方法，该方法主要做了两件事：

1. 首先调用configureStreamsChecked方法来配置数据流。
2. 其次实例化了一个CameraCaptureImpl对象，并通过传入CameraCaptureSession.StateCallback回调类将该对象发送至至App中。

而在configureStreamsChecked方法中会去调用ICameraDeviceUser代理的一系列方法进行数据流配置，其中调用cancelRequest方法停掉当前的预览流程，调用deleteStream方法删除之前的数据流，调用createStream创建新的数据流，最后调用endConfigure来进行数据流的配置工作，针对性的配置便在最后这个endConfigure方法中。

四、mCamDevice.createCaptureRequest

[->frameworks/base/core/java/android/hardware/camera2/CaptureRequest.java ]

CaptureRequest.Builder b = mCamDevice.createCaptureRequest(CameraDevice.TEMPLATE_PREVIEW);
b.addTarget(mPreviewSurface);
CaptureRequest r = b.build();

请求类型有6种

TEMPLATE_PREVIEW : 创建预览的请求
TEMPLATE_STILL_CAPTURE: 创建一个适合于静态图像捕获的请求，图像质量优先于帧速率
TEMPLATE_RECORD : 创建视频录制的请求
TEMPLATE_VIDEO_SNAPSHOT : 创建视视频录制时截屏的请求
TEMPLATE_ZERO_SHUTTER_LAG : 创建一个适用于零快门延迟的请求。在不影响预览帧率的情况下最大化图像质量
TEMPLATE_MANUAL : 创建一个基本捕获请求，这种请求中所有的自动控制都是禁用的(自动曝光，自动白平衡、自动焦点)

4.1 createCaptureRequest

public CaptureRequest.Builder createCaptureRequest(int templateType,
           Set<String> physicalCameraIdSet)
           throws CameraAccessException {
       synchronized(mInterfaceLock) {
           checkIfCameraClosedOrInError();

           for (String physicalId : physicalCameraIdSet) {
               if (physicalId == getId()) {
                   throw new IllegalStateException("Physical id matches the logical id!");
               }
           }

           CameraMetadataNative templatedRequest = null;

           templatedRequest = mRemoteDevice.createDefaultRequest(templateType);

           // If app target SDK is older than O, or it's not a still capture template, enableZsl
           // must be false in the default request.
           if (mAppTargetSdkVersion < Build.VERSION_CODES.O ||
                   templateType != TEMPLATE_STILL_CAPTURE) {
               overrideEnableZsl(templatedRequest, false);
           }

           CaptureRequest.Builder builder = new CaptureRequest.Builder(
                   templatedRequest, /*reprocess*/false, CameraCaptureSession.SESSION_ID_NONE,
                   getId(), physicalCameraIdSet);

           return builder;
       }
   }
   
   public CameraMetadataNative createDefaultRequest(int templateId) throws CameraAccessException {
       try {
           return mRemoteDevice.createDefaultRequest(templateId);
       } catch (Throwable t) {
           CameraManager.throwAsPublicException(t);
           throw new UnsupportedOperationException("Unexpected exception", t);
       }
   }
   
  public Builder(CameraMetadataNative template, boolean reprocess,
               int reprocessableSessionId, String logicalCameraId,
               Set<String> physicalCameraIdSet) {
           mRequest = new CaptureRequest(template, reprocess, reprocessableSessionId,
                   logicalCameraId, physicalCameraIdSet);
  }

4.2 小结

在创建并获取相机会话之后，便可以开始下发图像请求了，而在此之前，需要通过该方法来创建一个CaptureRequest，一旦调用该方法，最终会调用到Camera Service中ICameraDeviceUser的createDefaultRequest方法来创建一个默认配置的CameraMetadataNative，其次实例化一个CaptureRequest.Builder对象，并将刚才获取的CameraMetadataNative传入其中，之后返回该CaptureRequest.Builder对象，在App中，直接通过调用该Buidler对象的build方法，获取一个CaptureRequest对象。

CaptureRequest对象也创建成功了，接下来需要下发图像请求了，一般常用请求分为两种,一个是预览一个是拍照。

五、mCamSession.setRepeatingRequest

5.1 setRepeatingRequest

public int setRepeatingRequest(CaptureRequest request, CaptureCallback callback,
         Handler handler) throws CameraAccessException {
     checkRepeatingRequest(request);

     synchronized (mDeviceImpl.mInterfaceLock) {
         checkNotClosed();

         handler = checkHandler(handler, callback);

         if (DEBUG) {
             Log.v(TAG, mIdString + "setRepeatingRequest - request " + request + ", callback " +
                     callback + " handler" + " " + handler);
         }

         return addPendingSequence(mDeviceImpl.setRepeatingRequest(request,
                 createCaptureCallbackProxy(handler, callback), mDeviceExecutor));
     }
 }

5.2 addPendingSequence

private int addPendingSequence(int sequenceId) {
      mSequenceDrainer.taskStarted(sequenceId);
      return sequenceId;
  }

5.2.1 setRepeatingRequest

public int setRepeatingRequest(CaptureRequest request, CaptureCallback callback,
         Executor executor) throws CameraAccessException {
     List<CaptureRequest> requestList = new ArrayList<CaptureRequest>();
     requestList.add(request);
     return submitCaptureRequest(requestList, callback, executor, /*streaming*/true);
 }

5.2.2 submitRequestList

最后调用的是ICameraDeviceUser的submitRequestList方法

private int submitCaptureRequest(List<CaptureRequest> requestList, CaptureCallback callback,
            Executor executor, boolean repeating) throws CameraAccessException {

        // Need a valid executor, or current thread needs to have a looper, if
        // callback is valid
        executor = checkExecutor(executor, callback);

        synchronized(mInterfaceLock) {
            checkIfCameraClosedOrInError();

            // Make sure that there all requests have at least 1 surface; all surfaces are non-null;
            // the surface isn't a physical stream surface for reprocessing request
            for (CaptureRequest request : requestList) {
                if (request.getTargets().isEmpty()) {
                    throw new IllegalArgumentException(
                            "Each request must have at least one Surface target");
                }

                for (Surface surface : request.getTargets()) {
                    if (surface == null) {
                        throw new IllegalArgumentException("Null Surface targets are not allowed");
                    }

                    for (int i = 0; i < mConfiguredOutputs.size(); i++) {
                        OutputConfiguration configuration = mConfiguredOutputs.valueAt(i);
                        if (configuration.isForPhysicalCamera()
                                && configuration.getSurfaces().contains(surface)) {
                            if (request.isReprocess()) {
                                throw new IllegalArgumentException(
                                        "Reprocess request on physical stream is not allowed");
                            }
                        }
                    }
                }
            }

            if (repeating) {
                stopRepeating();
            }

            SubmitInfo requestInfo;

            CaptureRequest[] requestArray = requestList.toArray(new CaptureRequest[requestList.size()]);
            // Convert Surface to streamIdx and surfaceIdx
            for (CaptureRequest request : requestArray) {
                request.convertSurfaceToStreamId(mConfiguredOutputs);
            }

            requestInfo = mRemoteDevice.submitRequestList(requestArray, repeating);
            if (DEBUG) {
                Log.v(TAG, "last frame number " + requestInfo.getLastFrameNumber());
            }

            for (CaptureRequest request : requestArray) {
                request.recoverStreamIdToSurface();
            }
            //保存callback到CameraDeviceImpl中
            if (callback != null) {
                mCaptureCallbackMap.put(requestInfo.getRequestId(),
                        new CaptureCallbackHolder(
                            callback, requestList, executor, repeating, mNextSessionId - 1));
            } else {
                if (DEBUG) {
                    Log.d(TAG, "Listen for request " + requestInfo.getRequestId() + " is null");
                }
            }

            if (repeating) {
                if (mRepeatingRequestId != REQUEST_ID_NONE) {
                    checkEarlyTriggerSequenceComplete(mRepeatingRequestId,
                            requestInfo.getLastFrameNumber(),
                            mRepeatingRequestTypes);
                }
                mRepeatingRequestId = requestInfo.getRequestId();
                mRepeatingRequestTypes = getRequestTypes(requestArray);
            } else {
                mRequestLastFrameNumbersList.add(
                    new RequestLastFrameNumbersHolder(requestList, requestInfo));
            }

            if (mIdle) {
                mDeviceExecutor.execute(mCallOnActive);
            }
            mIdle = false;

            return requestInfo.getRequestId();
        }
    }

5.3 小结

应用调用该方法开始预览流程，通过层层调用最终会调用到Framework中的submitCaptureRequest方法，该方法主要做了两件事：

1. 首先调用CameraService层CameraDeviceUser的submitRequestList方法，将此次Request下发到CameraService中。
2. 其次将App通过参数传入的CameraCaptureSession.CaptureCallback对象存到CameraDeviceImpI对象中。

六、mCamSession.capture

6.1 capture

public int capture(CaptureRequest request, CaptureCallback callback,
            Handler handler) throws CameraAccessException {
        checkCaptureRequest(request);

        synchronized (mDeviceImpl.mInterfaceLock) {
            checkNotClosed();

            handler = checkHandler(handler, callback);

            if (DEBUG) {
                Log.v(TAG, mIdString + "capture - request " + request + ", callback " + callback +
                        " handler " + handler);
            }

            return addPendingSequence(mDeviceImpl.capture(request,
                    createCaptureCallbackProxy(handler, callback), mDeviceExecutor));
        }
    }

6.2 mDeviceImpl.capture

public int capture(CaptureRequest request, CaptureCallback callback, Executor executor)
           throws CameraAccessException {
       if (DEBUG) {
           Log.d(TAG, "calling capture");
       }
       List<CaptureRequest> requestList = new ArrayList<CaptureRequest>();
       requestList.add(request);
       return submitCaptureRequest(requestList, callback, executor, /*streaming*/false);
   }

6.3 submitCaptureRequest

该过程和5.3.1类似，最后submitRequestList提交拍照请求

private int submitCaptureRequest(List<CaptureRequest> requestList, CaptureCallback callback,
            Executor executor, boolean repeating) throws CameraAccessException {

        // Need a valid executor, or current thread needs to have a looper, if
        // callback is valid
        executor = checkExecutor(executor, callback);

        synchronized(mInterfaceLock) {
            checkIfCameraClosedOrInError();

            // Make sure that there all requests have at least 1 surface; all surfaces are non-null;
            // the surface isn't a physical stream surface for reprocessing request
            for (CaptureRequest request : requestList) {
                if (request.getTargets().isEmpty()) {
                    throw new IllegalArgumentException(
                            "Each request must have at least one Surface target");
                }

                for (Surface surface : request.getTargets()) {
                    if (surface == null) {
                        throw new IllegalArgumentException("Null Surface targets are not allowed");
                    }

                    for (int i = 0; i < mConfiguredOutputs.size(); i++) {
                        OutputConfiguration configuration = mConfiguredOutputs.valueAt(i);
                        if (configuration.isForPhysicalCamera()
                                && configuration.getSurfaces().contains(surface)) {
                            if (request.isReprocess()) {
                                throw new IllegalArgumentException(
                                        "Reprocess request on physical stream is not allowed");
                            }
                        }
                    }
                }
            }

            if (repeating) {
                stopRepeating();
            }

            SubmitInfo requestInfo;

            CaptureRequest[] requestArray = requestList.toArray(new CaptureRequest[requestList.size()]);
            // Convert Surface to streamIdx and surfaceIdx
            for (CaptureRequest request : requestArray) {
                request.convertSurfaceToStreamId(mConfiguredOutputs);
            }

            requestInfo = mRemoteDevice.submitRequestList(requestArray, repeating);
            if (DEBUG) {
                Log.v(TAG, "last frame number " + requestInfo.getLastFrameNumber());
            }

            for (CaptureRequest request : requestArray) {
                request.recoverStreamIdToSurface();
            }

            if (callback != null) {
                mCaptureCallbackMap.put(requestInfo.getRequestId(),
                        new CaptureCallbackHolder(
                            callback, requestList, executor, repeating, mNextSessionId - 1));
            } else {
                if (DEBUG) {
                    Log.d(TAG, "Listen for request " + requestInfo.getRequestId() + " is null");
                }
            }

            if (repeating) {
                if (mRepeatingRequestId != REQUEST_ID_NONE) {
                    checkEarlyTriggerSequenceComplete(mRepeatingRequestId,
                            requestInfo.getLastFrameNumber(),
                            mRepeatingRequestTypes);
                }
                mRepeatingRequestId = requestInfo.getRequestId();
                mRepeatingRequestTypes = getRequestTypes(requestArray);
            } else {
                mRequestLastFrameNumbersList.add(
                    new RequestLastFrameNumbersHolder(requestList, requestInfo));
            }

            if (mIdle) {
                mDeviceExecutor.execute(mCallOnActive);
            }
            mIdle = false;

            return requestInfo.getRequestId();
        }
    }

6.4 onCaptureProgressed、onCaptureCompleted

一旦Request下发到Camera Service之后，当底层生成了Partial Meta Data数据，Camera Service会调用通过调用在打开相机设备时传入的ICameraDeviceCallback代理，通过其onResultReceived方法将数据传回Framework，之后调用App传入的CameraCaptureSession.CaptureCallback中的onCaputreProgressed、onCaptureCompleted方法将结果回传至App进行解析以及后处理。

public class CameraDeviceCallbacks extends ICameraDeviceCallbacks.Stub {
  .....
 public void onResultReceived(CameraMetadataNative result,
                CaptureResultExtras resultExtras, PhysicalCaptureResultInfo physicalResults[])
                throws RemoteException {

            int requestId = resultExtras.getRequestId();
            long frameNumber = resultExtras.getFrameNumber();

            if (DEBUG) {
                Log.v(TAG, "Received result frame " + frameNumber + " for id "
                        + requestId);
            }

            synchronized(mInterfaceLock) {
                if (mRemoteDevice == null) return; // Camera already closed

                // TODO: Handle CameraCharacteristics access from CaptureResult correctly.
                result.set(CameraCharacteristics.LENS_INFO_SHADING_MAP_SIZE,
                        getCharacteristics().get(CameraCharacteristics.LENS_INFO_SHADING_MAP_SIZE));

                final CaptureCallbackHolder holder =
                        CameraDeviceImpl.this.mCaptureCallbackMap.get(requestId);
                final CaptureRequest request = holder.getRequest(resultExtras.getSubsequenceId());

                boolean isPartialResult =
                        (resultExtras.getPartialResultCount() < mTotalPartialCount);
                int requestType = request.getRequestType();

                // Check if we have a callback for this
                if (holder == null) {
                    if (DEBUG) {
                        Log.d(TAG,
                                "holder is null, early return at frame "
                                        + frameNumber);
                    }

                    mFrameNumberTracker.updateTracker(frameNumber, /*result*/null, isPartialResult,
                            requestType);

                    return;
                }

                if (isClosed()) {
                    if (DEBUG) {
                        Log.d(TAG,
                                "camera is closed, early return at frame "
                                        + frameNumber);
                    }

                    mFrameNumberTracker.updateTracker(frameNumber, /*result*/null, isPartialResult,
                            requestType);
                    return;
                }


                Runnable resultDispatch = null;

                CaptureResult finalResult;
                // Make a copy of the native metadata before it gets moved to a CaptureResult
                // object.
                final CameraMetadataNative resultCopy;
                if (holder.hasBatchedOutputs()) {
                    resultCopy = new CameraMetadataNative(result);
                } else {
                    resultCopy = null;
                }

                // Either send a partial result or the final capture completed result
                if (isPartialResult) {
                    final CaptureResult resultAsCapture =
                            new CaptureResult(result, request, resultExtras);
                    // Partial result
                    resultDispatch = new Runnable() {
                        @Override
                        public void run() {
                            if (!CameraDeviceImpl.this.isClosed()) {
                                if (holder.hasBatchedOutputs()) {
                                    // Send derived onCaptureProgressed for requests within
                                    // the batch.
                                    for (int i = 0; i < holder.getRequestCount(); i++) {
                                        CameraMetadataNative resultLocal =
                                                new CameraMetadataNative(resultCopy);
                                        CaptureResult resultInBatch = new CaptureResult(
                                                resultLocal, holder.getRequest(i), resultExtras);

                                        holder.getCallback().onCaptureProgressed(
                                            CameraDeviceImpl.this,
                                            holder.getRequest(i),
                                            resultInBatch);
                                    }
                                } else {
                                    holder.getCallback().onCaptureProgressed(
                                        CameraDeviceImpl.this,
                                        request,
                                        resultAsCapture);
                                }
                            }
                        }
                    };
                    finalResult = resultAsCapture;
                } else {
                    List<CaptureResult> partialResults =
                            mFrameNumberTracker.popPartialResults(frameNumber);

                    final long sensorTimestamp =
                            result.get(CaptureResult.SENSOR_TIMESTAMP);
                    final Range<Integer> fpsRange =
                            request.get(CaptureRequest.CONTROL_AE_TARGET_FPS_RANGE);
                    final int subsequenceId = resultExtras.getSubsequenceId();
                    final TotalCaptureResult resultAsCapture = new TotalCaptureResult(result,
                            request, resultExtras, partialResults, holder.getSessionId(),
                            physicalResults);
                    // Final capture result
                    resultDispatch = new Runnable() {
                        @Override
                        public void run() {
                            if (!CameraDeviceImpl.this.isClosed()){
                                if (holder.hasBatchedOutputs()) {
                                    // Send derived onCaptureCompleted for requests within
                                    // the batch.
                                    for (int i = 0; i < holder.getRequestCount(); i++) {
                                        resultCopy.set(CaptureResult.SENSOR_TIMESTAMP,
                                                sensorTimestamp - (subsequenceId - i) *
                                                NANO_PER_SECOND/fpsRange.getUpper());
                                        CameraMetadataNative resultLocal =
                                                new CameraMetadataNative(resultCopy);
                                        // No logical multi-camera support for batched output mode.
                                        TotalCaptureResult resultInBatch = new TotalCaptureResult(
                                            resultLocal, holder.getRequest(i), resultExtras,
                                            partialResults, holder.getSessionId(),
                                            new PhysicalCaptureResultInfo[0]);

                                        holder.getCallback().onCaptureCompleted(
                                            CameraDeviceImpl.this,
                                            holder.getRequest(i),
                                            resultInBatch);
                                    }
                                } else {
                                    holder.getCallback().onCaptureCompleted(
                                        CameraDeviceImpl.this,
                                        request,
                                        resultAsCapture);
                                }
                            }
                        }
                    };
                    finalResult = resultAsCapture;
                }

                final long ident = Binder.clearCallingIdentity();
                try {
                    holder.getExecutor().execute(resultDispatch);
                } finally {
                    Binder.restoreCallingIdentity(ident);
                }

                // Collect the partials for a total result; or mark the frame as totally completed
                mFrameNumberTracker.updateTracker(frameNumber, finalResult, isPartialResult,
                        requestType);

                // Fire onCaptureSequenceCompleted
                if (!isPartialResult) {
                    checkAndFireSequenceComplete();
                }
            }
        }
        ....
}

6.5 onImageAvailable

[->frameworks/base/media/java/android/media/ImageReader.java]

 protected ImageReader(int width, int height, int format, int maxImages, long usage) {
      mWidth = width;
      mHeight = height;
      mFormat = format;
      mMaxImages = maxImages;

      if (width < 1 || height < 1) {
          throw new IllegalArgumentException(
              "The image dimensions must be positive");
      }
      if (mMaxImages < 1) {
          throw new IllegalArgumentException(
              "Maximum outstanding image count must be at least 1");
      }

      if (format == ImageFormat.NV21) {
          throw new IllegalArgumentException(
                  "NV21 format is not supported");
      }

      mNumPlanes = ImageUtils.getNumPlanesForFormat(mFormat);

      nativeInit(new WeakReference<>(this), width, height, format, maxImages, usage);

      mSurface = nativeGetSurface();

      mIsReaderValid = true;
      // Estimate the native buffer allocation size and register it so it gets accounted for
      // during GC. Note that this doesn't include the buffers required by the buffer queue
      // itself and the buffers requested by the producer.
      // Only include memory for 1 buffer, since actually accounting for the memory used is
      // complex, and 1 buffer is enough for the VM to treat the ImageReader as being of some
      // size.
      mEstimatedNativeAllocBytes = ImageUtils.getEstimatedNativeAllocBytes(
              width, height, format, /*buffer count*/ 1);
      VMRuntime.getRuntime().registerNativeAllocation(mEstimatedNativeAllocBytes);
  }

/**
   * Called from Native code when an Event happens.
   *
   * This may be called from an arbitrary Binder thread, so access to the ImageReader must be
   * synchronized appropriately.
   */
  private static void postEventFromNative(Object selfRef) {
      @SuppressWarnings("unchecked")
      WeakReference<ImageReader> weakSelf = (WeakReference<ImageReader>)selfRef;
      final ImageReader ir = weakSelf.get();
      if (ir == null) {
          return;
      }

      final Handler handler;
      synchronized (ir.mListenerLock) {
          handler = ir.mListenerHandler;
      }
      if (handler != null) {
          handler.sendEmptyMessage(0);
      }
  }
  
   public void setOnImageAvailableListener(OnImageAvailableListener listener, Handler handler) {
      synchronized (mListenerLock) {
          if (listener != null) {
              Looper looper = handler != null ? handler.getLooper() : Looper.myLooper();
              if (looper == null) {
                  throw new IllegalArgumentException(
                          "handler is null but the current thread is not a looper");
              }
              if (mListenerHandler == null || mListenerHandler.getLooper() != looper) {
                  mListenerHandler = new ListenerHandler(looper);
              }
              mListener = listener;
          } else {
              mListener = null;
              mListenerHandler = null;
          }
      }
  }
  
   private final class ListenerHandler extends Handler {
      public ListenerHandler(Looper looper) {
          super(looper, null, true /*async*/);
      }

      @Override
      public void handleMessage(Message msg) {
          OnImageAvailableListener listener;
          synchronized (mListenerLock) {
              listener = mListener;
          }

          // It's dangerous to fire onImageAvailable() callback when the ImageReader is being
          // closed, as application could acquire next image in the onImageAvailable() callback.
          boolean isReaderValid = false;
          synchronized (mCloseLock) {
              isReaderValid = mIsReaderValid;
          }
          if (listener != null && isReaderValid) {
              listener.onImageAvailable(ImageReader.this);
          }
      }
  }
  
   private synchronized native Surface nativeGetSurface();

之前已经通过两个回调接口onCaptureProgressed以及onCaptureCompleted方法将meta data上传到了App，一般情况下，图像数据会在他们之后上传，而且这个上传过程并不经过Camera Framework，而是通过BufferQueue来进行的，当Camera Service接收到底层传来的图像数据，便会立即调用processCaptureResult_3_4方法，该方法中会去调用BufferQueue中生产者角色的Surface的queueBuffer方法，将数据入队并通知消费者去消费，而此时的消费者正是应用侧的ImageReader，并经过一层层回调，最终会通过调用ImageReader的onImageAvailable方法，通知ImageReader去将数据取出，并做后期操作。

6.6 小结

该方法最终也会调用到Framework中的submitCaptureRequest方法，接下来边和预览流程大致相同，会去调用Camera Service 中的ICameraDeviceUser的submitRequestList方法传入请求，之后将App实现的回调对象存入CameraDeviceImpl对象中。

七、总结

基于接口与实现相分离的基本设计原则，谷歌通过Camera Api 接口的定义，搭建起了App与相机系统的桥梁，而具体实现便是由Camera Framework来负责完成的。在采用Camera Api v1接口的时期，该部分是通过JNI层来进行java到C++的转换，进而到达native层，而在native层会通过实现CameraClient建立与Camera Service的通讯 ，整个过程比较繁琐，使得整体框架略显繁杂，而随着Camera Api v2的提出，在该层便大量使用AIDL机制，直接在Java层建立与Camera Service的通信，进一步简化了整体框架。接下来我们以几个主要接口为主线，简单梳理下其具体实现。

CameraManager

实现主要在CameraManager.java中，通过CameraManager查询、获取以及打开一个Camera 设备。在该类中还实现了内部类CameraManagerGlobal，该类继承于ICameraServiceListener.Stub，在打开相机设备的时候，在内部会获取到ICameraService远程代理，并且调用ICameraService的addListener方法将自己注册到Camera Service中，一旦Camera Service状态有所变更便会通过其实现的回调方法通知到Camera Manager服务，另外，该类还通过调用ICameraService.connectDevice()方法获取到Camera Service中的CameraDevice远程代理，并且将该代理传入CameraDeviceImpl中，进而与Camera Service建立了连接。

CameraDeviceImpl

该类定义在CameraDeviceImpl.java文件中，继承并实现了CameraDevice接口，代表了一个相机设备，可以完成CameraCaptureSession的创建以及CaptureRequest创建等工作，内部定义了CameraDeviceCallbacks类(该类继承于ICameraDeviceCallbacks.Stub，对应于Camera Service中的 ICameraDeviceCallbacks接口)，用于接收来自Camera Service中的Camera Device的状态回调，并且内部维护着一个Camera Service 的远程ICameraDevice代理，进而可以下发图像请求到Camera Service中。

CameraCaptureSessionImpl

该类定义在CameraCaptureSessionImpl.java文件中，继承并实现了CameraCaptureSession接口，每一个相机设备在一个时间段中，只能创建并存在一个CameraCaptureSession，其中该类包含了两种Session，一种是普通的，适用于一般情况下的会话操作，另一种是用于Reprocess流程的会话操作，该流程主要用于对于现有的图像数据进行再处理的操作。该类维护着来自实例化时传入的Surface列表，这些Surface正是包含了每一个图像请求的数据缓冲区。除了以上这几个接口，还有几个接口是需要App部分进行实现的，用于返回App所需要的对象或者数据：

CameraDevice.StateCallback

被应用侧进行继承并实现，用于在调用CameraManager的openCamera方法时，通过参数的形式传入Framework，在Framework中，一旦CameraDeviceImpl创建成功便通过其中的onOpened方法将其返回给App，如果失败，便会通过其他方法返回给App错误信息。

CameraCaptureSession.StateCallback

被应用侧进行继承并实现，用于在调用CameraDevice的createCaptureSession方法时作为参数传入Framework中，一旦创建成功，Framework便会通过调用该类的onConfigured接口返回一个CameraCaptureSessionImpl的对象，如果失败，Framework会调用其onConfigureFailed方法将错误信息返回至App。

CameraCaptureSession.CaptureCallback

被应用侧进行继承并实现，App通过调用CameraCaptureSessionImpl的setReaptingRequest或者capture方法是作为参数传入Framework，一旦Framework接收到来自CameraService的数据时，便会通过调用这个回调类将数据发送至App中。