src/app/reporting/ReportSchedulerImpl.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2023 Project CHIP Authors
  *    All rights reserved.
  *
  *    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.
  */

 #pragma once

 #include <app/reporting/ReportScheduler.h>

 namespace chip {
 namespace app {
 namespace reporting {

 /**
  * @class ReportSchedulerImpl
  *
  * @brief This class extends ReportScheduler and provides a scheduling logic for the CHIP Interaction Model Reporting Engine.
  *
  * It is responsible for implementing the ReadHandler and ICD observers callbacks so the Scheduler can take action whenever a
  * ReadHandler event occurs or the ICD mode change occurs.
  *
  * All ReadHandlers Observers callbacks rely on the node pool to create or find the node associated with the ReadHandler that
  * triggered the callback and will use the FindReadHandlerNode() method to do so.
  *
  * ## Scheduling Logic
  *
  * This class implements a scheduling logic that calculates the next report timeout based on the current system timestamp, the state
  * of the ReadHandlers associated with the scheduler nodes and the min and max intervals of the ReadHandlers.
  *
  * The logic is as follows:
  *
  * - When a ReadHandler is created for a subscription, the scheduler adds a node and registers it in the scheduler node pool.
  *
  * - Each node can schedule a report independently from the other nodes, and thus each node has its timer.
  *
  * - The timeout of each node timer is calculated when its associated ReadHandler becomes reportable, when a report is sent for
  *   the ReadHandler.
  *
  * - The scheduler calculates the next report timeout of each node timer based on the current system timestamp and the state of the
  *  ReadHandlers. If the ReadHandler is not reportable, the timeout is the difference between the next max interval and now. If the
  *  ReadHandler is reportable, the timeout is the difference between the next min interval and now. If that min interval is in the
  *  past, the scheduler directly calls the TimerFired() method instead of starting a timer.
  *
  *

  */
 class ReportSchedulerImpl : public ReportScheduler
 {
 public:
     using Timeout = System::Clock::Timeout;

     ReportSchedulerImpl(TimerDelegate * aTimerDelegate);
     ~ReportSchedulerImpl() override { UnregisterAllHandlers(); }

     // ICDStateObserver

     /**
      * @brief This implementation is not attempting any synchronization on external events as each Node is scheduled independently
      *        solely based on its ReadHandler's state. Therefore, no synchronization action on the ICDState is needed in this
      *        implementation.
      */
     void OnTransitionToIdle() override{};

     /**
      * @brief When the ICD transitions to Active mode, this implementation will trigger a report emission on each ReadHandler that
      * is not blocked by its min interval.
      *
      * @note Most of the actions that trigger a change to the Active mode already trigger a report emission (e.g. Event or Attribute
      * change), so this method is optional as it might be redundant.
      */
     void OnEnterActiveMode() override;

     /**
      * @brief Similar to the OnTransitionToIdle() method, this implementation does not attempt any synchronization on ICD events,
      *        therefore no action is needed on the ICDModeChange() method.
      */
     void OnICDModeChange() override{};

     // ReadHandlerObserver

     /**
      * @brief When a ReadHandler is created for a subscription, the scheduler adds a node and registers it in the scheduler node
      * pool. Scheduling the report here is unnecessary since the ReadHandler will call
      * MoveToState(HandlerState::CanStartReporting);, which will call OnBecameReportable() and schedule a report.
      *
      * @note This method sets a timestamp to the call time that is used as an input parameter by the ScheduleReport method.
      */
     void OnSubscriptionEstablished(ReadHandler * aReadHandler) final;

     /**
      * @brief When a ReadHandler becomes reportable, recalculate and reschedule the report.
      *
      * @note This method sets a now Timestamp that is used to calculate the next report timeout.
      */
     void OnBecameReportable(ReadHandler * aReadHandler) final;

     /**
      * @brief When a ReadHandler report is sent, recalculate and reschedule the report.
      *
      * @note This method sets a now Timestamp that is used to calculate the next report timeout.
      */
     void OnSubscriptionReportSent(ReadHandler * aReadHandler) final;

     /**
      * @brief When a ReadHandler is destroyed, remove the node from the scheduler node pool and cancel the timer associated to it.
      */
     void OnReadHandlerDestroyed(ReadHandler * aReadHandler) override;

     /**
      * @brief Checks if a report is scheduled for the ReadHandler by checking if the timer is active.
      *
      *      @note If the CalculateNextReportTimeout outputs 0, the TimerFired() will be called directly instead of starting a timer,
      *      so this method will return false.
      */
     virtual bool IsReportScheduled(ReadHandler * aReadHandler);

     void ReportTimerCallback() override;

 protected:
     /**
      * @brief Schedule a report for the ReadHandler associated with a ReadHandlerNode.
      *
      * @note If a report is already scheduled for the ReadHandler, this method will cancel it and schedule a new one.
      *
      * @param[in] timeout The timeout to schedule the report.
      * @param[in] node The node associated with the ReadHandler.
      * @param[in] now The current system timestamp.
      *
      * @return CHIP_ERROR CHIP_NO_ERROR on success, timer-related error code otherwise (This can only fail on starting the timer)
      */
     virtual CHIP_ERROR ScheduleReport(Timeout timeout, ReadHandlerNode * node, const Timestamp & now);
     void CancelReport(ReadHandler * aReadHandler);
     virtual void UnregisterAllHandlers();

 private:
     friend class chip::app::reporting::TestReportScheduler;

     /**
      * @brief Find the next timestamp when a report should be scheduled for a ReadHandler.
      *
      * @param[out] timeout The timeout calculated from the "now" timestamp provided as an input parameter.
      * @param[in] aNode The node associated to the ReadHandler.
      * @param[in] now The current system timestamp.
      *
      * @return CHIP_ERROR CHIP_NO_ERROR on success or CHIP_ERROR_INVALID_ARGUMENT if aNode is not in the pool.
      *
      */
     virtual CHIP_ERROR CalculateNextReportTimeout(Timeout & timeout, ReadHandlerNode * aNode, const Timestamp & now);
 };

 } // namespace reporting
 } // namespace app
 } // namespace chip
	/*
	*
	* Copyright (c) 2023 Project CHIP Authors
	* All rights reserved.
	*
	* 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.
	*/

	#pragma once

	#include <app/reporting/ReportScheduler.h>

	namespace chip {
	namespace app {
	namespace reporting {

	/**
	* @class ReportSchedulerImpl
	*
	* @brief This class extends ReportScheduler and provides a scheduling logic for the CHIP Interaction Model Reporting Engine.
	*
	* It is responsible for implementing the ReadHandler and ICD observers callbacks so the Scheduler can take action whenever a
	* ReadHandler event occurs or the ICD mode change occurs.
	*
	* All ReadHandlers Observers callbacks rely on the node pool to create or find the node associated with the ReadHandler that
	* triggered the callback and will use the FindReadHandlerNode() method to do so.
	*
	* ## Scheduling Logic
	*
	* This class implements a scheduling logic that calculates the next report timeout based on the current system timestamp, the state
	* of the ReadHandlers associated with the scheduler nodes and the min and max intervals of the ReadHandlers.
	*
	* The logic is as follows:
	*
	* - When a ReadHandler is created for a subscription, the scheduler adds a node and registers it in the scheduler node pool.
	*
	* - Each node can schedule a report independently from the other nodes, and thus each node has its timer.
	*
	* - The timeout of each node timer is calculated when its associated ReadHandler becomes reportable, when a report is sent for
	* the ReadHandler.
	*
	* - The scheduler calculates the next report timeout of each node timer based on the current system timestamp and the state of the
	* ReadHandlers. If the ReadHandler is not reportable, the timeout is the difference between the next max interval and now. If the
	* ReadHandler is reportable, the timeout is the difference between the next min interval and now. If that min interval is in the
	* past, the scheduler directly calls the TimerFired() method instead of starting a timer.
	*
	*

	*/
	class ReportSchedulerImpl : public ReportScheduler
	{
	public:
	using Timeout = System::Clock::Timeout;

	ReportSchedulerImpl(TimerDelegate * aTimerDelegate);
	~ReportSchedulerImpl() override { UnregisterAllHandlers(); }

	// ICDStateObserver

	/**
	* @brief This implementation is not attempting any synchronization on external events as each Node is scheduled independently
	* solely based on its ReadHandler's state. Therefore, no synchronization action on the ICDState is needed in this
	* implementation.
	*/
	void OnTransitionToIdle() override{};

	/**
	* @brief When the ICD transitions to Active mode, this implementation will trigger a report emission on each ReadHandler that
	* is not blocked by its min interval.
	*
	* @note Most of the actions that trigger a change to the Active mode already trigger a report emission (e.g. Event or Attribute
	* change), so this method is optional as it might be redundant.
	*/
	void OnEnterActiveMode() override;

	/**
	* @brief Similar to the OnTransitionToIdle() method, this implementation does not attempt any synchronization on ICD events,
	* therefore no action is needed on the ICDModeChange() method.
	*/
	void OnICDModeChange() override{};

	// ReadHandlerObserver

	/**
	* @brief When a ReadHandler is created for a subscription, the scheduler adds a node and registers it in the scheduler node
	* pool. Scheduling the report here is unnecessary since the ReadHandler will call
	* MoveToState(HandlerState::CanStartReporting);, which will call OnBecameReportable() and schedule a report.
	*
	* @note This method sets a timestamp to the call time that is used as an input parameter by the ScheduleReport method.
	*/
	void OnSubscriptionEstablished(ReadHandler * aReadHandler) final;

	/**
	* @brief When a ReadHandler becomes reportable, recalculate and reschedule the report.
	*
	* @note This method sets a now Timestamp that is used to calculate the next report timeout.
	*/
	void OnBecameReportable(ReadHandler * aReadHandler) final;

	/**
	* @brief When a ReadHandler report is sent, recalculate and reschedule the report.
	*
	* @note This method sets a now Timestamp that is used to calculate the next report timeout.
	*/
	void OnSubscriptionReportSent(ReadHandler * aReadHandler) final;

	/**
	* @brief When a ReadHandler is destroyed, remove the node from the scheduler node pool and cancel the timer associated to it.
	*/
	void OnReadHandlerDestroyed(ReadHandler * aReadHandler) override;

	/**
	* @brief Checks if a report is scheduled for the ReadHandler by checking if the timer is active.
	*
	* @note If the CalculateNextReportTimeout outputs 0, the TimerFired() will be called directly instead of starting a timer,
	* so this method will return false.
	*/
	virtual bool IsReportScheduled(ReadHandler * aReadHandler);

	void ReportTimerCallback() override;

	protected:
	/**
	* @brief Schedule a report for the ReadHandler associated with a ReadHandlerNode.
	*
	* @note If a report is already scheduled for the ReadHandler, this method will cancel it and schedule a new one.
	*
	* @param[in] timeout The timeout to schedule the report.
	* @param[in] node The node associated with the ReadHandler.
	* @param[in] now The current system timestamp.
	*
	* @return CHIP_ERROR CHIP_NO_ERROR on success, timer-related error code otherwise (This can only fail on starting the timer)
	*/
	virtual CHIP_ERROR ScheduleReport(Timeout timeout, ReadHandlerNode * node, const Timestamp & now);
	void CancelReport(ReadHandler * aReadHandler);
	virtual void UnregisterAllHandlers();

	private:
	friend class chip::app::reporting::TestReportScheduler;

	/**
	* @brief Find the next timestamp when a report should be scheduled for a ReadHandler.
	*
	* @param[out] timeout The timeout calculated from the "now" timestamp provided as an input parameter.
	* @param[in] aNode The node associated to the ReadHandler.
	* @param[in] now The current system timestamp.
	*
	* @return CHIP_ERROR CHIP_NO_ERROR on success or CHIP_ERROR_INVALID_ARGUMENT if aNode is not in the pool.
	*
	*/
	virtual CHIP_ERROR CalculateNextReportTimeout(Timeout & timeout, ReadHandlerNode * aNode, const Timestamp & now);
	};

	} // namespace reporting
	} // namespace app
	} // namespace chip