camera/EmulatedFakeCamera3.h - device/generic/goldfish - Git at Google

 /*
  * Copyright (C) 2013 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef HW_EMULATOR_CAMERA_EMULATED_FAKE_CAMERA3_H
 #define HW_EMULATOR_CAMERA_EMULATED_FAKE_CAMERA3_H

 /**
  * Contains declaration of a class EmulatedCamera that encapsulates
  * functionality of a fake camera that implements version 3 of the camera device
  * interace.
  */

 #include "EmulatedCamera3.h"
 #include "fake-pipeline2/Base.h"
 #include "fake-pipeline2/Sensor.h"
 #include "fake-pipeline2/JpegCompressor.h"
 #include <camera/CameraMetadata.h>
 #include <utils/List.h>
 #include <utils/Mutex.h>

 namespace android {

 /**
  * Encapsulates functionality for a v3 HAL camera which produces synthetic data.
  *
  * Note that EmulatedCameraFactory instantiates an object of this class just
  * once, when EmulatedCameraFactory instance gets constructed. Connection to /
  * disconnection from the actual camera device is handled by calls to
  * connectDevice(), and closeCamera() methods of this class that are invoked in
  * response to hw_module_methods_t::open, and camera_device::close callbacks.
  */
 class EmulatedFakeCamera3 : public EmulatedCamera3,
         private Sensor::SensorListener {
 public:

     EmulatedFakeCamera3(int cameraId, bool facingBack,
             struct hw_module_t* module);

     virtual ~EmulatedFakeCamera3();

     /****************************************************************************
      * EmulatedCamera3 virtual overrides
      ***************************************************************************/

 public:

     virtual status_t Initialize();

     /****************************************************************************
      * Camera module API and generic hardware device API implementation
      ***************************************************************************/

 public:
     virtual status_t connectCamera(hw_device_t** device);

     virtual status_t closeCamera();

     virtual status_t getCameraInfo(struct camera_info *info);

     /****************************************************************************
      * EmulatedCamera3 abstract API implementation
      ***************************************************************************/

 protected:

     virtual status_t configureStreams(
         camera3_stream_configuration *streamList);

     virtual status_t registerStreamBuffers(
         const camera3_stream_buffer_set *bufferSet) ;

     virtual const camera_metadata_t* constructDefaultRequestSettings(
         int type);

     virtual status_t processCaptureRequest(camera3_capture_request *request);

     /** Debug methods */

     virtual void dump(int fd);

     /** Tag query methods */
     virtual const char *getVendorSectionName(uint32_t tag);

     virtual const char *getVendorTagName(uint32_t tag);

     virtual int getVendorTagType(uint32_t tag);

 private:

     /**
      * Build the static info metadata buffer for this device
      */
     status_t constructStaticInfo();

     /**
      * Run the fake 3A algorithms as needed. May override/modify settings
      * values.
      */
     status_t process3A(CameraMetadata &settings);

     status_t doFakeAE(CameraMetadata &settings);
     status_t doFakeAF(CameraMetadata &settings);
     status_t doFakeAWB(CameraMetadata &settings);
     void     update3A(CameraMetadata &settings);

     /** Signal from readout thread that it doesn't have anything to do */
     void     signalReadoutIdle();

     /** Handle interrupt events from the sensor */
     void     onSensorEvent(uint32_t frameNumber, Event e, nsecs_t timestamp);

     /****************************************************************************
      * Static configuration information
      ***************************************************************************/
 private:
     static const uint32_t kMaxRawStreamCount = 1;
     static const uint32_t kMaxProcessedStreamCount = 3;
     static const uint32_t kMaxJpegStreamCount = 1;
     static const uint32_t kMaxReprocessStreamCount = 2;
     static const uint32_t kMaxBufferCount = 4;
     // We need a positive stream ID to distinguish external buffers from
     // sensor-generated buffers which use a nonpositive ID. Otherwise, HAL3 has
     // no concept of a stream id.
     static const uint32_t kGenericStreamId = 1;
     static const int32_t  kAvailableFormats[];
     static const uint32_t kAvailableRawSizes[];
     static const uint64_t kAvailableRawMinDurations[];
     static const uint32_t kAvailableProcessedSizesBack[];
     static const uint32_t kAvailableProcessedSizesFront[];
     static const uint64_t kAvailableProcessedMinDurations[];
     static const uint32_t kAvailableJpegSizesBack[];
     static const uint32_t kAvailableJpegSizesFront[];
     static const uint64_t kAvailableJpegMinDurations[];

     static const int64_t  kSyncWaitTimeout     = 10000000; // 10 ms
     static const int32_t  kMaxSyncTimeoutCount = 1000; // 1000 kSyncWaitTimeouts
     static const uint32_t kFenceTimeoutMs      = 2000; // 2 s

     /****************************************************************************
      * Data members.
      ***************************************************************************/

     /* HAL interface serialization lock. */
     Mutex              mLock;

     /* Facing back (true) or front (false) switch. */
     bool               mFacingBack;

     /**
      * Cache for default templates. Once one is requested, the pointer must be
      * valid at least until close() is called on the device
      */
     camera_metadata_t *mDefaultTemplates[CAMERA3_TEMPLATE_COUNT];

     /**
      * Private stream information, stored in camera3_stream_t->priv.
      */
     struct PrivateStreamInfo {
         bool alive;
         bool registered;
     };

     // Shortcut to the input stream
     camera3_stream_t*  mInputStream;

     typedef List<camera3_stream_t*>           StreamList;
     typedef List<camera3_stream_t*>::iterator StreamIterator;
     typedef Vector<camera3_stream_buffer>     HalBufferVector;

     // All streams, including input stream
     StreamList         mStreams;

     // Cached settings from latest submitted request
     CameraMetadata     mPrevSettings;

     /** Fake hardware interfaces */
     sp<Sensor>         mSensor;
     sp<JpegCompressor> mJpegCompressor;
     friend class       JpegCompressor;

     /** Processing thread for sending out results */

     class ReadoutThread : public Thread, private JpegCompressor::JpegListener {
       public:
         ReadoutThread(EmulatedFakeCamera3 *parent);
         ~ReadoutThread();

         struct Request {
             uint32_t         frameNumber;
             CameraMetadata   settings;
             HalBufferVector *buffers;
             Buffers         *sensorBuffers;
         };

         /**
          * Interface to parent class
          */

         // Place request in the in-flight queue to wait for sensor capture
         void     queueCaptureRequest(const Request &r);

         // Test if the readout thread is idle (no in-flight requests, not
         // currently reading out anything
         bool     isIdle();

         // Wait until isIdle is true
         status_t waitForReadout();

       private:
         static const nsecs_t kWaitPerLoop  = 10000000L; // 10 ms
         static const nsecs_t kMaxWaitLoops = 1000;
         static const size_t  kMaxQueueSize = 2;

         EmulatedFakeCamera3 *mParent;
         Mutex mLock;

         List<Request> mInFlightQueue;
         Condition     mInFlightSignal;
         bool          mThreadActive;

         virtual bool threadLoop();

         // Only accessed by threadLoop

         Request mCurrentRequest;

         // Jpeg completion callbacks

         Mutex                 mJpegLock;
         bool                  mJpegWaiting;
         camera3_stream_buffer mJpegHalBuffer;
         uint32_t              mJpegFrameNumber;
         virtual void onJpegDone(const StreamBuffer &jpegBuffer, bool success);
         virtual void onJpegInputDone(const StreamBuffer &inputBuffer);
     };

     sp<ReadoutThread> mReadoutThread;

     /** Fake 3A constants */

     static const nsecs_t kNormalExposureTime;
     static const nsecs_t kFacePriorityExposureTime;
     static const int     kNormalSensitivity;
     static const int     kFacePrioritySensitivity;
     // Rate of converging AE to new target value, as fraction of difference between
     // current and target value.
     static const float   kExposureTrackRate;
     // Minimum duration for precapture state. May be longer if slow to converge
     // to target exposure
     static const int     kPrecaptureMinFrames;
     // How often to restart AE 'scanning'
     static const int     kStableAeMaxFrames;
     // Maximum stop below 'normal' exposure time that we'll wander to while
     // pretending to converge AE. In powers of 2. (-2 == 1/4 as bright)
     static const float   kExposureWanderMin;
     // Maximum stop above 'normal' exposure time that we'll wander to while
     // pretending to converge AE. In powers of 2. (2 == 4x as bright)
     static const float   kExposureWanderMax;

     /** Fake 3A state */

     uint8_t mControlMode;
     bool    mFacePriority;
     uint8_t mAeState;
     uint8_t mAfState;
     uint8_t mAwbState;
     uint8_t mAeMode;
     uint8_t mAfMode;
     uint8_t mAwbMode;
     int     mAfTriggerId;
     int     mAeTriggerId;

     int     mAeCounter;
     nsecs_t mAeCurrentExposureTime;
     nsecs_t mAeTargetExposureTime;
     int     mAeCurrentSensitivity;

 };

 } // namespace android

 #endif // HW_EMULATOR_CAMERA_EMULATED_CAMERA3_H
	/*
	* Copyright (C) 2013 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef HW_EMULATOR_CAMERA_EMULATED_FAKE_CAMERA3_H
	#define HW_EMULATOR_CAMERA_EMULATED_FAKE_CAMERA3_H

	/**
	* Contains declaration of a class EmulatedCamera that encapsulates
	* functionality of a fake camera that implements version 3 of the camera device
	* interace.
	*/

	#include "EmulatedCamera3.h"
	#include "fake-pipeline2/Base.h"
	#include "fake-pipeline2/Sensor.h"
	#include "fake-pipeline2/JpegCompressor.h"
	#include <camera/CameraMetadata.h>
	#include <utils/List.h>
	#include <utils/Mutex.h>

	namespace android {

	/**
	* Encapsulates functionality for a v3 HAL camera which produces synthetic data.
	*
	* Note that EmulatedCameraFactory instantiates an object of this class just
	* once, when EmulatedCameraFactory instance gets constructed. Connection to /
	* disconnection from the actual camera device is handled by calls to
	* connectDevice(), and closeCamera() methods of this class that are invoked in
	* response to hw_module_methods_t::open, and camera_device::close callbacks.
	*/
	class EmulatedFakeCamera3 : public EmulatedCamera3,
	private Sensor::SensorListener {
	public:

	EmulatedFakeCamera3(int cameraId, bool facingBack,
	struct hw_module_t* module);

	virtual ~EmulatedFakeCamera3();

	/****************************************************************************
	* EmulatedCamera3 virtual overrides
	***************************************************************************/

	public:

	virtual status_t Initialize();

	/****************************************************************************
	* Camera module API and generic hardware device API implementation
	***************************************************************************/

	public:
	virtual status_t connectCamera(hw_device_t** device);

	virtual status_t closeCamera();

	virtual status_t getCameraInfo(struct camera_info *info);

	/****************************************************************************
	* EmulatedCamera3 abstract API implementation
	***************************************************************************/

	protected:

	virtual status_t configureStreams(
	camera3_stream_configuration *streamList);

	virtual status_t registerStreamBuffers(
	const camera3_stream_buffer_set *bufferSet) ;

	virtual const camera_metadata_t* constructDefaultRequestSettings(
	int type);

	virtual status_t processCaptureRequest(camera3_capture_request *request);

	/** Debug methods */

	virtual void dump(int fd);

	/** Tag query methods */
	virtual const char *getVendorSectionName(uint32_t tag);

	virtual const char *getVendorTagName(uint32_t tag);

	virtual int getVendorTagType(uint32_t tag);

	private:

	/**
	* Build the static info metadata buffer for this device
	*/
	status_t constructStaticInfo();

	/**
	* Run the fake 3A algorithms as needed. May override/modify settings
	* values.
	*/
	status_t process3A(CameraMetadata &settings);

	status_t doFakeAE(CameraMetadata &settings);
	status_t doFakeAF(CameraMetadata &settings);
	status_t doFakeAWB(CameraMetadata &settings);
	void update3A(CameraMetadata &settings);

	/** Signal from readout thread that it doesn't have anything to do */
	void signalReadoutIdle();

	/** Handle interrupt events from the sensor */
	void onSensorEvent(uint32_t frameNumber, Event e, nsecs_t timestamp);

	/****************************************************************************
	* Static configuration information
	***************************************************************************/
	private:
	static const uint32_t kMaxRawStreamCount = 1;
	static const uint32_t kMaxProcessedStreamCount = 3;
	static const uint32_t kMaxJpegStreamCount = 1;
	static const uint32_t kMaxReprocessStreamCount = 2;
	static const uint32_t kMaxBufferCount = 4;
	// We need a positive stream ID to distinguish external buffers from
	// sensor-generated buffers which use a nonpositive ID. Otherwise, HAL3 has
	// no concept of a stream id.
	static const uint32_t kGenericStreamId = 1;
	static const int32_t kAvailableFormats[];
	static const uint32_t kAvailableRawSizes[];
	static const uint64_t kAvailableRawMinDurations[];
	static const uint32_t kAvailableProcessedSizesBack[];
	static const uint32_t kAvailableProcessedSizesFront[];
	static const uint64_t kAvailableProcessedMinDurations[];
	static const uint32_t kAvailableJpegSizesBack[];
	static const uint32_t kAvailableJpegSizesFront[];
	static const uint64_t kAvailableJpegMinDurations[];

	static const int64_t kSyncWaitTimeout = 10000000; // 10 ms
	static const int32_t kMaxSyncTimeoutCount = 1000; // 1000 kSyncWaitTimeouts
	static const uint32_t kFenceTimeoutMs = 2000; // 2 s

	/****************************************************************************
	* Data members.
	***************************************************************************/

	/* HAL interface serialization lock. */
	Mutex mLock;

	/* Facing back (true) or front (false) switch. */
	bool mFacingBack;

	/**
	* Cache for default templates. Once one is requested, the pointer must be
	* valid at least until close() is called on the device
	*/
	camera_metadata_t *mDefaultTemplates[CAMERA3_TEMPLATE_COUNT];

	/**
	* Private stream information, stored in camera3_stream_t->priv.
	*/
	struct PrivateStreamInfo {
	bool alive;
	bool registered;
	};

	// Shortcut to the input stream
	camera3_stream_t* mInputStream;

	typedef List<camera3_stream_t*> StreamList;
	typedef List<camera3_stream_t*>::iterator StreamIterator;
	typedef Vector<camera3_stream_buffer> HalBufferVector;

	// All streams, including input stream
	StreamList mStreams;

	// Cached settings from latest submitted request
	CameraMetadata mPrevSettings;

	/** Fake hardware interfaces */
	sp<Sensor> mSensor;
	sp<JpegCompressor> mJpegCompressor;
	friend class JpegCompressor;

	/** Processing thread for sending out results */

	class ReadoutThread : public Thread, private JpegCompressor::JpegListener {
	public:
	ReadoutThread(EmulatedFakeCamera3 *parent);
	~ReadoutThread();

	struct Request {
	uint32_t frameNumber;
	CameraMetadata settings;
	HalBufferVector *buffers;
	Buffers *sensorBuffers;
	};

	/**
	* Interface to parent class
	*/

	// Place request in the in-flight queue to wait for sensor capture
	void queueCaptureRequest(const Request &r);

	// Test if the readout thread is idle (no in-flight requests, not
	// currently reading out anything
	bool isIdle();

	// Wait until isIdle is true
	status_t waitForReadout();

	private:
	static const nsecs_t kWaitPerLoop = 10000000L; // 10 ms
	static const nsecs_t kMaxWaitLoops = 1000;
	static const size_t kMaxQueueSize = 2;

	EmulatedFakeCamera3 *mParent;
	Mutex mLock;

	List<Request> mInFlightQueue;
	Condition mInFlightSignal;
	bool mThreadActive;

	virtual bool threadLoop();

	// Only accessed by threadLoop

	Request mCurrentRequest;

	// Jpeg completion callbacks

	Mutex mJpegLock;
	bool mJpegWaiting;
	camera3_stream_buffer mJpegHalBuffer;
	uint32_t mJpegFrameNumber;
	virtual void onJpegDone(const StreamBuffer &jpegBuffer, bool success);
	virtual void onJpegInputDone(const StreamBuffer &inputBuffer);
	};

	sp<ReadoutThread> mReadoutThread;

	/** Fake 3A constants */

	static const nsecs_t kNormalExposureTime;
	static const nsecs_t kFacePriorityExposureTime;
	static const int kNormalSensitivity;
	static const int kFacePrioritySensitivity;
	// Rate of converging AE to new target value, as fraction of difference between
	// current and target value.
	static const float kExposureTrackRate;
	// Minimum duration for precapture state. May be longer if slow to converge
	// to target exposure
	static const int kPrecaptureMinFrames;
	// How often to restart AE 'scanning'
	static const int kStableAeMaxFrames;
	// Maximum stop below 'normal' exposure time that we'll wander to while
	// pretending to converge AE. In powers of 2. (-2 == 1/4 as bright)
	static const float kExposureWanderMin;
	// Maximum stop above 'normal' exposure time that we'll wander to while
	// pretending to converge AE. In powers of 2. (2 == 4x as bright)
	static const float kExposureWanderMax;

	/** Fake 3A state */

	uint8_t mControlMode;
	bool mFacePriority;
	uint8_t mAeState;
	uint8_t mAfState;
	uint8_t mAwbState;
	uint8_t mAeMode;
	uint8_t mAfMode;
	uint8_t mAwbMode;
	int mAfTriggerId;
	int mAeTriggerId;

	int mAeCounter;
	nsecs_t mAeCurrentExposureTime;
	nsecs_t mAeTargetExposureTime;
	int mAeCurrentSensitivity;

	};

	} // namespace android

	#endif // HW_EMULATOR_CAMERA_EMULATED_CAMERA3_H