services/inputflinger/InputClassifier.h - third_party/android/platform/frameworks/native - Git at Google

 /*
  * Copyright (C) 2019 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 _UI_INPUT_CLASSIFIER_H
 #define _UI_INPUT_CLASSIFIER_H

 #include <android-base/thread_annotations.h>
 #include <utils/RefBase.h>
 #include <thread>
 #include <unordered_map>

 #include "BlockingQueue.h"
 #include "InputListener.h"
 #include <android/hardware/input/classifier/1.0/IInputClassifier.h>

 namespace android {

 enum class ClassifierEventType : uint8_t {
     MOTION = 0,
     DEVICE_RESET = 1,
     HAL_RESET = 2,
     EXIT = 3,
 };

 struct ClassifierEvent {
     ClassifierEventType type;
     std::unique_ptr<NotifyArgs> args;

     ClassifierEvent(ClassifierEventType type, std::unique_ptr<NotifyArgs> args);
     ClassifierEvent(std::unique_ptr<NotifyMotionArgs> args);
     ClassifierEvent(std::unique_ptr<NotifyDeviceResetArgs> args);
     ClassifierEvent(ClassifierEvent&& other);
     ClassifierEvent& operator=(ClassifierEvent&& other);

     // Convenience function to create a HAL_RESET event
     static ClassifierEvent createHalResetEvent();
     // Convenience function to create an EXIT event
     static ClassifierEvent createExitEvent();

     std::optional<int32_t> getDeviceId() const;
 };

 // --- Interfaces ---

 /**
  * Interface for adding a MotionClassification to NotifyMotionArgs.
  *
  * To implement, override the classify function.
  */
 class MotionClassifierInterface {
 public:
     MotionClassifierInterface() { }
     virtual ~MotionClassifierInterface() { }
     /**
      * Based on the motion event described by NotifyMotionArgs,
      * provide a MotionClassification for the current gesture.
      */
     virtual MotionClassification classify(const NotifyMotionArgs& args) = 0;
     /**
      * Reset all internal HAL state.
      */
     virtual void reset() = 0;
     /**
      * Reset HAL state for a specific device.
      */
     virtual void reset(const NotifyDeviceResetArgs& args) = 0;

     /**
      * Dump the state of the motion classifier
      */
     virtual void dump(std::string& dump) = 0;
 };

 /**
  * Base interface for an InputListener stage.
  * Provides classification to events.
  */
 class InputClassifierInterface : public virtual RefBase, public InputListenerInterface {
 public:
     virtual void setMotionClassifierEnabled(bool enabled) = 0;
     /**
      * Dump the state of the input classifier.
      * This method may be called on any thread (usually by the input manager).
      */
     virtual void dump(std::string& dump) = 0;
 protected:
     InputClassifierInterface() { }
     virtual ~InputClassifierInterface() { }
 };

 // --- Implementations ---

 /**
  * Implementation of MotionClassifierInterface that calls the InputClassifier HAL
  * in order to determine the classification for the current gesture.
  *
  * The InputClassifier HAL may keep track of the entire gesture in order to determine
  * the classification, and may be hardware-specific. It may use the data in
  * NotifyMotionArgs::videoFrames field to drive the classification decisions.
  * The HAL is called from a separate thread.
  */
 class MotionClassifier final : public MotionClassifierInterface {
 public:
     /*
      * Create an instance of MotionClassifier.
      * The death recipient, if provided, will be subscribed to the HAL death.
      * The death recipient could be used to destroy MotionClassifier.
      *
      * This function should be called asynchronously, because getService takes a long time.
      */
     static std::unique_ptr<MotionClassifierInterface> create(
             sp<android::hardware::hidl_death_recipient> deathRecipient);

     ~MotionClassifier();

     /**
      * Classifies events asynchronously; that is, it doesn't block events on a classification,
      * but instead sends them over to the classifier HAL. After a classification of a specific
      * event is determined, MotionClassifier then marks the next event in the stream with this
      * classification.
      *
      * Therefore, it is acceptable to have the classifications be delayed by 1-2 events
      * in a particular gesture.
      */
     virtual MotionClassification classify(const NotifyMotionArgs& args) override;
     virtual void reset() override;
     virtual void reset(const NotifyDeviceResetArgs& args) override;

     virtual void dump(std::string& dump) override;

 private:
     friend class MotionClassifierTest; // to create MotionClassifier with a test HAL implementation
     explicit MotionClassifier(
             sp<android::hardware::input::classifier::V1_0::IInputClassifier> service);

     // The events that need to be sent to the HAL.
     BlockingQueue<ClassifierEvent> mEvents;
     /**
      * Add an event to the queue mEvents.
      */
     void enqueueEvent(ClassifierEvent&& event);
     /**
      * Thread that will communicate with InputClassifier HAL.
      * This should be the only thread that communicates with InputClassifier HAL,
      * because this thread is allowed to block on the HAL calls.
      */
     std::thread mHalThread;
     /**
      * Process events and call the InputClassifier HAL
      */
     void processEvents();
     /**
      * Access to the InputClassifier HAL. May be null if init() hasn't completed yet.
      * When init() successfully completes, mService is guaranteed to remain non-null and to not
      * change its value until MotionClassifier is destroyed.
      * This variable is *not* guarded by mLock in the InputClassifier thread, because
      * that thread knows exactly when this variable is initialized.
      * When accessed in any other thread, mService is checked for nullness with a lock.
      */
     sp<android::hardware::input::classifier::V1_0::IInputClassifier> mService;
     std::mutex mLock;
     /**
      * Per-device input classifications. Should only be accessed using the
      * getClassification / setClassification methods.
      */
     std::unordered_map<int32_t /*deviceId*/, MotionClassification>
             mClassifications GUARDED_BY(mLock);
     /**
      * Set the current classification for a given device.
      */
     void setClassification(int32_t deviceId, MotionClassification classification);
     /**
      * Get the current classification for a given device.
      */
     MotionClassification getClassification(int32_t deviceId);
     void updateClassification(int32_t deviceId, nsecs_t eventTime,
             MotionClassification classification);
     /**
      * Clear all current classifications
      */
     void clearClassifications();
     /**
      * Per-device times when the last ACTION_DOWN was received.
      * Used to reject late classifications that do not belong to the current gesture.
      *
      * Accessed indirectly by both InputClassifier thread and the thread that receives notifyMotion.
      */
     std::unordered_map<int32_t /*deviceId*/, nsecs_t /*downTime*/> mLastDownTimes GUARDED_BY(mLock);

     void updateLastDownTime(int32_t deviceId, nsecs_t downTime);

     void clearDeviceState(int32_t deviceId);

     /**
      * Exit the InputClassifier HAL thread.
      * Useful for tests to ensure proper cleanup.
      */
     void requestExit();
     /**
      * Return string status of mService
      */
     const char* getServiceStatus() REQUIRES(mLock);
 };

 /**
  * Implementation of the InputClassifierInterface.
  * Represents a separate stage of input processing. All of the input events go through this stage.
  * Acts as a passthrough for all input events except for motion events.
  * The events of motion type are sent to MotionClassifier.
  */
 class InputClassifier : public InputClassifierInterface {
 public:
     explicit InputClassifier(const sp<InputListenerInterface>& listener);

     virtual void notifyConfigurationChanged(const NotifyConfigurationChangedArgs* args) override;
     virtual void notifyKey(const NotifyKeyArgs* args) override;
     virtual void notifyMotion(const NotifyMotionArgs* args) override;
     virtual void notifySwitch(const NotifySwitchArgs* args) override;
     virtual void notifyDeviceReset(const NotifyDeviceResetArgs* args) override;

     virtual void dump(std::string& dump) override;

     ~InputClassifier();

     // Called from InputManager
     virtual void setMotionClassifierEnabled(bool enabled) override;

 private:
     // Protect access to mMotionClassifier, since it may become null via a hidl callback
     std::mutex mLock;
     // The next stage to pass input events to
     sp<InputListenerInterface> mListener;

     std::unique_ptr<MotionClassifierInterface> mMotionClassifier GUARDED_BY(mLock);
     std::thread mInitializeMotionClassifierThread;
     /**
      * Set the value of mMotionClassifier.
      * This is called from 2 different threads:
      * 1) mInitializeMotionClassifierThread, when we have constructed a MotionClassifier
      * 2) A binder thread of the HalDeathRecipient, which is created when HAL dies. This would cause
      *    mMotionClassifier to become nullptr.
      */
     void setMotionClassifier(std::unique_ptr<MotionClassifierInterface> motionClassifier);

     /**
      * The deathRecipient will call setMotionClassifier(null) when the HAL dies.
      */
     class HalDeathRecipient : public android::hardware::hidl_death_recipient {
     public:
         explicit HalDeathRecipient(InputClassifier& parent);
         virtual void serviceDied(uint64_t cookie,
                                  const wp<android::hidl::base::V1_0::IBase>& who) override;

     private:
         InputClassifier& mParent;
     };
     // We retain a reference to death recipient, because the death recipient will be calling
     // ~MotionClassifier if the HAL dies.
     // If we don't retain a reference, and MotionClassifier is the only owner of the death
     // recipient, the serviceDied call will cause death recipient to call its own destructor.
     sp<HalDeathRecipient> mHalDeathRecipient;
 };

 } // namespace android
 #endif
	/*
	* Copyright (C) 2019 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 _UI_INPUT_CLASSIFIER_H
	#define _UI_INPUT_CLASSIFIER_H

	#include <android-base/thread_annotations.h>
	#include <utils/RefBase.h>
	#include <thread>
	#include <unordered_map>

	#include "BlockingQueue.h"
	#include "InputListener.h"
	#include <android/hardware/input/classifier/1.0/IInputClassifier.h>

	namespace android {

	enum class ClassifierEventType : uint8_t {
	MOTION = 0,
	DEVICE_RESET = 1,
	HAL_RESET = 2,
	EXIT = 3,
	};

	struct ClassifierEvent {
	ClassifierEventType type;
	std::unique_ptr<NotifyArgs> args;

	ClassifierEvent(ClassifierEventType type, std::unique_ptr<NotifyArgs> args);
	ClassifierEvent(std::unique_ptr<NotifyMotionArgs> args);
	ClassifierEvent(std::unique_ptr<NotifyDeviceResetArgs> args);
	ClassifierEvent(ClassifierEvent&& other);
	ClassifierEvent& operator=(ClassifierEvent&& other);

	// Convenience function to create a HAL_RESET event
	static ClassifierEvent createHalResetEvent();
	// Convenience function to create an EXIT event
	static ClassifierEvent createExitEvent();

	std::optional<int32_t> getDeviceId() const;
	};

	// --- Interfaces ---

	/**
	* Interface for adding a MotionClassification to NotifyMotionArgs.
	*
	* To implement, override the classify function.
	*/
	class MotionClassifierInterface {
	public:
	MotionClassifierInterface() { }
	virtual ~MotionClassifierInterface() { }
	/**
	* Based on the motion event described by NotifyMotionArgs,
	* provide a MotionClassification for the current gesture.
	*/
	virtual MotionClassification classify(const NotifyMotionArgs& args) = 0;
	/**
	* Reset all internal HAL state.
	*/
	virtual void reset() = 0;
	/**
	* Reset HAL state for a specific device.
	*/
	virtual void reset(const NotifyDeviceResetArgs& args) = 0;

	/**
	* Dump the state of the motion classifier
	*/
	virtual void dump(std::string& dump) = 0;
	};

	/**
	* Base interface for an InputListener stage.
	* Provides classification to events.
	*/
	class InputClassifierInterface : public virtual RefBase, public InputListenerInterface {
	public:
	virtual void setMotionClassifierEnabled(bool enabled) = 0;
	/**
	* Dump the state of the input classifier.
	* This method may be called on any thread (usually by the input manager).
	*/
	virtual void dump(std::string& dump) = 0;
	protected:
	InputClassifierInterface() { }
	virtual ~InputClassifierInterface() { }
	};

	// --- Implementations ---

	/**
	* Implementation of MotionClassifierInterface that calls the InputClassifier HAL
	* in order to determine the classification for the current gesture.
	*
	* The InputClassifier HAL may keep track of the entire gesture in order to determine
	* the classification, and may be hardware-specific. It may use the data in
	* NotifyMotionArgs::videoFrames field to drive the classification decisions.
	* The HAL is called from a separate thread.
	*/
	class MotionClassifier final : public MotionClassifierInterface {
	public:
	/*
	* Create an instance of MotionClassifier.
	* The death recipient, if provided, will be subscribed to the HAL death.
	* The death recipient could be used to destroy MotionClassifier.
	*
	* This function should be called asynchronously, because getService takes a long time.
	*/
	static std::unique_ptr<MotionClassifierInterface> create(
	sp<android::hardware::hidl_death_recipient> deathRecipient);

	~MotionClassifier();

	/**
	* Classifies events asynchronously; that is, it doesn't block events on a classification,
	* but instead sends them over to the classifier HAL. After a classification of a specific
	* event is determined, MotionClassifier then marks the next event in the stream with this
	* classification.
	*
	* Therefore, it is acceptable to have the classifications be delayed by 1-2 events
	* in a particular gesture.
	*/
	virtual MotionClassification classify(const NotifyMotionArgs& args) override;
	virtual void reset() override;
	virtual void reset(const NotifyDeviceResetArgs& args) override;

	virtual void dump(std::string& dump) override;

	private:
	friend class MotionClassifierTest; // to create MotionClassifier with a test HAL implementation
	explicit MotionClassifier(
	sp<android::hardware::input::classifier::V1_0::IInputClassifier> service);

	// The events that need to be sent to the HAL.
	BlockingQueue<ClassifierEvent> mEvents;
	/**
	* Add an event to the queue mEvents.
	*/
	void enqueueEvent(ClassifierEvent&& event);
	/**
	* Thread that will communicate with InputClassifier HAL.
	* This should be the only thread that communicates with InputClassifier HAL,
	* because this thread is allowed to block on the HAL calls.
	*/
	std::thread mHalThread;
	/**
	* Process events and call the InputClassifier HAL
	*/
	void processEvents();
	/**
	* Access to the InputClassifier HAL. May be null if init() hasn't completed yet.
	* When init() successfully completes, mService is guaranteed to remain non-null and to not
	* change its value until MotionClassifier is destroyed.
	* This variable is not guarded by mLock in the InputClassifier thread, because
	* that thread knows exactly when this variable is initialized.
	* When accessed in any other thread, mService is checked for nullness with a lock.
	*/
	sp<android::hardware::input::classifier::V1_0::IInputClassifier> mService;
	std::mutex mLock;
	/**
	* Per-device input classifications. Should only be accessed using the
	* getClassification / setClassification methods.
	*/
	std::unordered_map<int32_t /deviceId/, MotionClassification>
	mClassifications GUARDED_BY(mLock);
	/**
	* Set the current classification for a given device.
	*/
	void setClassification(int32_t deviceId, MotionClassification classification);
	/**
	* Get the current classification for a given device.
	*/
	MotionClassification getClassification(int32_t deviceId);
	void updateClassification(int32_t deviceId, nsecs_t eventTime,
	MotionClassification classification);
	/**
	* Clear all current classifications
	*/
	void clearClassifications();
	/**
	* Per-device times when the last ACTION_DOWN was received.
	* Used to reject late classifications that do not belong to the current gesture.
	*
	* Accessed indirectly by both InputClassifier thread and the thread that receives notifyMotion.
	*/
	std::unordered_map<int32_t /deviceId/, nsecs_t /downTime/> mLastDownTimes GUARDED_BY(mLock);

	void updateLastDownTime(int32_t deviceId, nsecs_t downTime);

	void clearDeviceState(int32_t deviceId);

	/**
	* Exit the InputClassifier HAL thread.
	* Useful for tests to ensure proper cleanup.
	*/
	void requestExit();
	/**
	* Return string status of mService
	*/
	const char* getServiceStatus() REQUIRES(mLock);
	};

	/**
	* Implementation of the InputClassifierInterface.
	* Represents a separate stage of input processing. All of the input events go through this stage.
	* Acts as a passthrough for all input events except for motion events.
	* The events of motion type are sent to MotionClassifier.
	*/
	class InputClassifier : public InputClassifierInterface {
	public:
	explicit InputClassifier(const sp<InputListenerInterface>& listener);

	virtual void notifyConfigurationChanged(const NotifyConfigurationChangedArgs* args) override;
	virtual void notifyKey(const NotifyKeyArgs* args) override;
	virtual void notifyMotion(const NotifyMotionArgs* args) override;
	virtual void notifySwitch(const NotifySwitchArgs* args) override;
	virtual void notifyDeviceReset(const NotifyDeviceResetArgs* args) override;

	virtual void dump(std::string& dump) override;

	~InputClassifier();

	// Called from InputManager
	virtual void setMotionClassifierEnabled(bool enabled) override;

	private:
	// Protect access to mMotionClassifier, since it may become null via a hidl callback
	std::mutex mLock;
	// The next stage to pass input events to
	sp<InputListenerInterface> mListener;

	std::unique_ptr<MotionClassifierInterface> mMotionClassifier GUARDED_BY(mLock);
	std::thread mInitializeMotionClassifierThread;
	/**
	* Set the value of mMotionClassifier.
	* This is called from 2 different threads:
	* 1) mInitializeMotionClassifierThread, when we have constructed a MotionClassifier
	* 2) A binder thread of the HalDeathRecipient, which is created when HAL dies. This would cause
	* mMotionClassifier to become nullptr.
	*/
	void setMotionClassifier(std::unique_ptr<MotionClassifierInterface> motionClassifier);

	/**
	* The deathRecipient will call setMotionClassifier(null) when the HAL dies.
	*/
	class HalDeathRecipient : public android::hardware::hidl_death_recipient {
	public:
	explicit HalDeathRecipient(InputClassifier& parent);
	virtual void serviceDied(uint64_t cookie,
	const wp<android::hidl::base::V1_0::IBase>& who) override;

	private:
	InputClassifier& mParent;
	};
	// We retain a reference to death recipient, because the death recipient will be calling
	// ~MotionClassifier if the HAL dies.
	// If we don't retain a reference, and MotionClassifier is the only owner of the death
	// recipient, the serviceDied call will cause death recipient to call its own destructor.
	sp<HalDeathRecipient> mHalDeathRecipient;
	};

	} // namespace android
	#endif