third_party/chromium/media/capture/video/chromeos/camera_3a_controller.h - cobalt - Git at Google

 // Copyright 2018 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef MEDIA_CAPTURE_VIDEO_CHROMEOS_CAMERA_3A_CONTROLLER_H_
 #define MEDIA_CAPTURE_VIDEO_CHROMEOS_CAMERA_3A_CONTROLLER_H_

 #include <unordered_set>

 #include "base/cancelable_callback.h"
 #include "media/base/media_export.h"
 #include "media/capture/video/chromeos/mojom/camera3.mojom.h"
 #include "media/capture/video/chromeos/request_manager.h"

 namespace media {

 // A class to control the auto-exposure, auto-focus, and auto-white-balancing
 // operations and modes of the camera.  For the detailed state transitions for
 // auto-exposure, auto-focus, and auto-white-balancing, see
 // https://source.android.com/devices/camera/camera3_3Amodes
 class CAPTURE_EXPORT Camera3AController final
     : public CaptureMetadataDispatcher::ResultMetadataObserver {
  public:
   Camera3AController(const cros::mojom::CameraMetadataPtr& static_metadata,
                      CaptureMetadataDispatcher* capture_metadata_dispatcher,
                      scoped_refptr<base::SingleThreadTaskRunner> task_runner);
   ~Camera3AController() final;

   // Trigger the camera to start exposure, focus, and white-balance metering and
   // lock them for still capture.
   void Stabilize3AForStillCapture(base::OnceClosure on_3a_stabilized_callback);

   // CaptureMetadataDispatcher::ResultMetadataObserver implementation.
   void OnResultMetadataAvailable(
       uint32_t frame_number,
       const cros::mojom::CameraMetadataPtr& result_metadata) final;

   // Enable the auto-focus mode suitable for still capture.
   void SetAutoFocusModeForStillCapture();

   // TODO(shik): This function is unused now.
   // Enable the auto-focus mode suitable for video recording.
   void SetAutoFocusModeForVideoRecording();

   // Set auto white balance mode.
   void SetAutoWhiteBalanceMode(cros::mojom::AndroidControlAwbMode mode);

   // Set exposure time.
   // |enable_auto| enables auto exposure mode. |exposure_time_nanoseconds| is
   // only effective if |enable_auto| is set to false
   void SetExposureTime(bool enable_auto, int64_t exposure_time_nanoseconds);

   // Set focus distance.
   // |enable_auto| enables auto focus mode. |focus_distance_diopters| is only
   // effective if |enable_auto| is set to false
   void SetFocusDistance(bool enable_auto, float focus_distance_diopters);

   bool IsPointOfInterestSupported();

   // Set point of interest. The coordinate system is based on the active
   // pixel array.
   void SetPointOfInterest(gfx::Point point);

   base::WeakPtr<Camera3AController> GetWeakPtr();

  private:
   void Set3AMode(cros::mojom::CameraMetadataTag tag, uint8_t target_mode);

   // Sometimes it might take long time to stabilize 3A.  Fire the
   // callback artificially after |time_limit| passed.
   void Set3aStabilizedCallback(base::OnceClosure callback,
                                base::TimeDelta time_limit);

   bool Is3AStabilized();

   // Intermediate steps of setting point of interest.
   void SetPointOfInterestOn3AModeSet();
   void SetPointOfInterestOn3AStabilized();
   void SetPointOfInterestUnlockAe();

   // Helper functions for manipulating metadata.
   template <typename T>
   void SetCaptureMetadata(cros::mojom::CameraMetadataTag tag, T value);

   template <typename T>
   void SetCaptureMetadata(cros::mojom::CameraMetadataTag tag,
                           const std::vector<T>& value);

   template <typename T>
   void SetRepeatingCaptureMetadata(cros::mojom::CameraMetadataTag tag, T value);

   template <typename T>
   void SetRepeatingCaptureMetadata(cros::mojom::CameraMetadataTag tag,
                                    const std::vector<T>& value);

   void ClearRepeatingCaptureMetadata();

   const cros::mojom::CameraMetadataPtr& static_metadata_;
   bool ae_region_supported_;
   bool af_region_supported_;
   bool point_of_interest_supported_;
   bool zero_shutter_lag_supported_;

   CaptureMetadataDispatcher* capture_metadata_dispatcher_;
   const scoped_refptr<base::SingleThreadTaskRunner> task_runner_;

   std::unordered_set<cros::mojom::AndroidControlAfMode> available_af_modes_;
   cros::mojom::AndroidControlAfMode af_mode_;
   cros::mojom::AndroidControlAfState af_state_;
   // |af_mode_set_| is set to true when the AF mode is synchronized between
   // the HAL and the Camera3AController.
   bool af_mode_set_;

   std::unordered_set<cros::mojom::AndroidControlAeMode> available_ae_modes_;
   cros::mojom::AndroidControlAeMode ae_mode_;
   cros::mojom::AndroidControlAeState ae_state_;
   // |ae_mode_set_| is set to true when the AE mode is synchronized between
   // the HAL and the Camera3AController.
   bool ae_mode_set_;

   std::unordered_set<cros::mojom::AndroidControlAwbMode> available_awb_modes_;
   cros::mojom::AndroidControlAwbMode awb_mode_;
   cros::mojom::AndroidControlAwbState awb_state_;
   // |awb_mode_set_| is set to true when the AWB mode is synchronized between
   // the HAL and the Camera3AController.
   bool awb_mode_set_;

   bool set_point_of_interest_running_;

   bool ae_locked_for_point_of_interest_;

   base::TimeDelta latest_sensor_timestamp_;

   std::unordered_set<cros::mojom::CameraMetadataTag> repeating_metadata_tags_;

   // TODO(shik): There are potential races in |on.*callback_| due to processing
   // pipeline.  Here are some possible solutions/mitgations used in GCA:
   // 1. Record the frame number.
   // 2. Wait for some frames before checking.
   // 3. Wait for more complex patterns (like TriggerStateMachine.java in GCA).
   base::OnceClosure on_3a_mode_set_callback_;

   base::OnceClosure on_3a_stabilized_callback_;
   base::TimeDelta artificial_3a_stabilized_deadline_;

   base::OnceClosure on_ae_locked_for_point_of_interest_callback_;

   base::OnceClosure on_af_trigger_cancelled_callback_;

   base::CancelableOnceClosure delayed_ae_unlock_callback_;

   base::WeakPtrFactory<Camera3AController> weak_ptr_factory_{this};

   DISALLOW_IMPLICIT_CONSTRUCTORS(Camera3AController);
 };

 }  // namespace media

 #endif  // MEDIA_CAPTURE_VIDEO_CHROMEOS_CAMERA_3A_CONTROLLER_H_
	// Copyright 2018 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef MEDIA_CAPTURE_VIDEO_CHROMEOS_CAMERA_3A_CONTROLLER_H_
	#define MEDIA_CAPTURE_VIDEO_CHROMEOS_CAMERA_3A_CONTROLLER_H_

	#include <unordered_set>

	#include "base/cancelable_callback.h"
	#include "media/base/media_export.h"
	#include "media/capture/video/chromeos/mojom/camera3.mojom.h"
	#include "media/capture/video/chromeos/request_manager.h"

	namespace media {

	// A class to control the auto-exposure, auto-focus, and auto-white-balancing
	// operations and modes of the camera. For the detailed state transitions for
	// auto-exposure, auto-focus, and auto-white-balancing, see
	// https://source.android.com/devices/camera/camera3_3Amodes
	class CAPTURE_EXPORT Camera3AController final
	: public CaptureMetadataDispatcher::ResultMetadataObserver {
	public:
	Camera3AController(const cros::mojom::CameraMetadataPtr& static_metadata,
	CaptureMetadataDispatcher* capture_metadata_dispatcher,
	scoped_refptr<base::SingleThreadTaskRunner> task_runner);
	~Camera3AController() final;

	// Trigger the camera to start exposure, focus, and white-balance metering and
	// lock them for still capture.
	void Stabilize3AForStillCapture(base::OnceClosure on_3a_stabilized_callback);

	// CaptureMetadataDispatcher::ResultMetadataObserver implementation.
	void OnResultMetadataAvailable(
	uint32_t frame_number,
	const cros::mojom::CameraMetadataPtr& result_metadata) final;

	// Enable the auto-focus mode suitable for still capture.
	void SetAutoFocusModeForStillCapture();

	// TODO(shik): This function is unused now.
	// Enable the auto-focus mode suitable for video recording.
	void SetAutoFocusModeForVideoRecording();

	// Set auto white balance mode.
	void SetAutoWhiteBalanceMode(cros::mojom::AndroidControlAwbMode mode);

	// Set exposure time.
	// \|enable_auto\| enables auto exposure mode. \|exposure_time_nanoseconds\| is
	// only effective if \|enable_auto\| is set to false
	void SetExposureTime(bool enable_auto, int64_t exposure_time_nanoseconds);

	// Set focus distance.
	// \|enable_auto\| enables auto focus mode. \|focus_distance_diopters\| is only
	// effective if \|enable_auto\| is set to false
	void SetFocusDistance(bool enable_auto, float focus_distance_diopters);

	bool IsPointOfInterestSupported();

	// Set point of interest. The coordinate system is based on the active
	// pixel array.
	void SetPointOfInterest(gfx::Point point);

	base::WeakPtr<Camera3AController> GetWeakPtr();

	private:
	void Set3AMode(cros::mojom::CameraMetadataTag tag, uint8_t target_mode);

	// Sometimes it might take long time to stabilize 3A. Fire the
	// callback artificially after \|time_limit\| passed.
	void Set3aStabilizedCallback(base::OnceClosure callback,
	base::TimeDelta time_limit);

	bool Is3AStabilized();

	// Intermediate steps of setting point of interest.
	void SetPointOfInterestOn3AModeSet();
	void SetPointOfInterestOn3AStabilized();
	void SetPointOfInterestUnlockAe();

	// Helper functions for manipulating metadata.
	template <typename T>
	void SetCaptureMetadata(cros::mojom::CameraMetadataTag tag, T value);

	template <typename T>
	void SetCaptureMetadata(cros::mojom::CameraMetadataTag tag,
	const std::vector<T>& value);

	template <typename T>
	void SetRepeatingCaptureMetadata(cros::mojom::CameraMetadataTag tag, T value);

	template <typename T>
	void SetRepeatingCaptureMetadata(cros::mojom::CameraMetadataTag tag,
	const std::vector<T>& value);

	void ClearRepeatingCaptureMetadata();

	const cros::mojom::CameraMetadataPtr& static_metadata_;
	bool ae_region_supported_;
	bool af_region_supported_;
	bool point_of_interest_supported_;
	bool zero_shutter_lag_supported_;

	CaptureMetadataDispatcher* capture_metadata_dispatcher_;
	const scoped_refptr<base::SingleThreadTaskRunner> task_runner_;

	std::unordered_set<cros::mojom::AndroidControlAfMode> available_af_modes_;
	cros::mojom::AndroidControlAfMode af_mode_;
	cros::mojom::AndroidControlAfState af_state_;
	// \|af_mode_set_\| is set to true when the AF mode is synchronized between
	// the HAL and the Camera3AController.
	bool af_mode_set_;

	std::unordered_set<cros::mojom::AndroidControlAeMode> available_ae_modes_;
	cros::mojom::AndroidControlAeMode ae_mode_;
	cros::mojom::AndroidControlAeState ae_state_;
	// \|ae_mode_set_\| is set to true when the AE mode is synchronized between
	// the HAL and the Camera3AController.
	bool ae_mode_set_;

	std::unordered_set<cros::mojom::AndroidControlAwbMode> available_awb_modes_;
	cros::mojom::AndroidControlAwbMode awb_mode_;
	cros::mojom::AndroidControlAwbState awb_state_;
	// \|awb_mode_set_\| is set to true when the AWB mode is synchronized between
	// the HAL and the Camera3AController.
	bool awb_mode_set_;

	bool set_point_of_interest_running_;

	bool ae_locked_for_point_of_interest_;

	base::TimeDelta latest_sensor_timestamp_;

	std::unordered_set<cros::mojom::CameraMetadataTag> repeating_metadata_tags_;

	// TODO(shik): There are potential races in \|on.*callback_\| due to processing
	// pipeline. Here are some possible solutions/mitgations used in GCA:
	// 1. Record the frame number.
	// 2. Wait for some frames before checking.
	// 3. Wait for more complex patterns (like TriggerStateMachine.java in GCA).
	base::OnceClosure on_3a_mode_set_callback_;

	base::OnceClosure on_3a_stabilized_callback_;
	base::TimeDelta artificial_3a_stabilized_deadline_;

	base::OnceClosure on_ae_locked_for_point_of_interest_callback_;

	base::OnceClosure on_af_trigger_cancelled_callback_;

	base::CancelableOnceClosure delayed_ae_unlock_callback_;

	base::WeakPtrFactory<Camera3AController> weak_ptr_factory_{this};

	DISALLOW_IMPLICIT_CONSTRUCTORS(Camera3AController);
	};

	} // namespace media

	#endif // MEDIA_CAPTURE_VIDEO_CHROMEOS_CAMERA_3A_CONTROLLER_H_