src/app/icd/server/ICDManager.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2023 Project CHIP Authors
  *
  *    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/icd/server/ICDServerConfig.h>

 #include <app-common/zap-generated/cluster-enums.h>
 #include <app/AppConfig.h>
 #include <app/SubscriptionsInfoProvider.h>
 #include <app/TestEventTriggerDelegate.h>
 #include <app/icd/server/ICDConfigurationData.h>
 #include <app/icd/server/ICDNotifier.h>
 #include <app/icd/server/ICDStateObserver.h>
 #include <credentials/FabricTable.h>
 #include <crypto/SessionKeystore.h>
 #include <lib/support/BitFlags.h>
 #include <messaging/ExchangeMgr.h>
 #include <platform/CHIPDeviceConfig.h>
 #include <platform/internal/CHIPDeviceLayerInternal.h>
 #include <system/SystemClock.h>

 #if CHIP_CONFIG_ENABLE_ICD_CIP
 #include <app/icd/server/ICDCheckInSender.h>   // nogncheck
 #include <app/icd/server/ICDMonitoringTable.h> // nogncheck
 #endif                                         // CHIP_CONFIG_ENABLE_ICD_CIP

 namespace chip {
 namespace Crypto {
 using SymmetricKeystore = SessionKeystore;
 }
 } // namespace chip

 namespace chip {
 namespace app {

 // Forward declaration of TestICDManager tests to allow it to be friend with ICDManager
 // Used in unit tests
 class TestICDManager_TestShouldCheckInMsgsBeSentAtActiveModeFunction_Test;

 /**
  * @brief ICD Manager is responsible of processing the events and triggering the correct action for an ICD
  */
 class ICDManager : public ICDListener, public TestEventTriggerHandler
 {
 public:
     /**
      * @brief This structure is used for the creation an ObjectPool of ICDStateObserver pointers
      */
     struct ObserverPointer
     {
         ObserverPointer(ICDStateObserver * obs) : mObserver(obs) {}
         ~ObserverPointer() { mObserver = nullptr; }
         ICDStateObserver * mObserver;
     };

     enum class OperationalState : uint8_t
     {
         IdleMode,
         ActiveMode,
     };

     /**
      * @brief This enum class represents all ICDStateObserver callbacks available from the
      *        mStateObserverPool for the ICDManager.
      *
      *        EnterActiveMode, TransitionToIdle and EnterIdleMode will always be called as a trio in the same order.
      *        Each event will only be called once per cycle.
      *        EnterActiveMode will always be called first, when the ICD has transitioned to ActiveMode.
      *        TransitionToIdle will always be second. This event will only be called the first time there is
      *        `ICD_ACTIVE_TIME_JITTER_MS` remaining to the ActiveMode timer.
      *         When this event is called, the ICD is still in ActiveMode.
      *        If the ActiveMode timer is increased due to the TransitionToIdle event, the event will not be called a second time in
      *        a given cycle.
      *        OnEnterIdleMode will always the third event and indicates that the ICD has transitioned to IdleMode.
      *
      *        The ICDModeChange event can occur independently from the EnterActiveMode, TransitionToIdle and EnterIdleMode.
      *        It will typically happen at the ICDManager init when a client is already registered with the ICD before the
      *        OnEnterIdleMode event or when a client sends a register command after the OnEnterActiveMode event. Nothing prevents
      *        the ICDModeChange event from happening multiple times per cycle or while the ICD is in IdleMode.
      *
      *        See src/app/icd/server/ICDStateObserver.h for more information on the APIs each event triggers
      */
     enum class ObserverEventType : uint8_t
     {
         EnterActiveMode,
         EnterIdleMode,
         TransitionToIdle,
         ICDModeChange,
     };

     /**
      * @brief Verifier template function
      *        This type can be used to implement specific verifiers that can be used in the CheckInMessagesWouldBeSent function.
      *        The goal is to avoid having multiple functions that implement the iterator loop with only the check changing.
      *
      * @return true: if at least one Check-In message would be sent
      *         false: No Check-In messages would be sent
      */
     using ShouldCheckInMsgsBeSentFunction = bool(FabricIndex aFabricIndex, NodeId subjectID);

     ICDManager()  = default;
     ~ICDManager() = default;

     void Init(PersistentStorageDelegate * storage, FabricTable * fabricTable, Crypto::SymmetricKeystore * symmetricKeyStore,
               Messaging::ExchangeManager * exchangeManager, SubscriptionsInfoProvider * subInfoProvider);
     void Shutdown();

     /**
      * @brief SupportsFeature verifies if a given FeatureMap bit is enabled
      *
      * @param[in] feature FeatureMap bit to verify
      *
      * @return true: if the FeatureMap bit is enabled in the ICDM cluster attribute.
      *         false: if the FeatureMap bit is not enabled in the ICDM cluster attribute.
      *                if we failed to read the FeatureMap attribute.
      */
     bool SupportsFeature(Clusters::IcdManagement::Feature feature);

     ICDConfigurationData::ICDMode GetICDMode() { return ICDConfigurationData::GetInstance().GetICDMode(); };

     OperationalState GetOperaionalState() { return mOperationalState; };

     /**
      * @brief Adds the referenced observer in parameters to the mStateObserverPool
      * A maximum of CHIP_CONFIG_ICD_OBSERVERS_POOL_SIZE observers can be concurrently registered
      *
      * @return The pointer to the pool object, or null if it could not be added.
      */
     ObserverPointer * RegisterObserver(ICDStateObserver * observer);

     /**
      * @brief Remove the referenced observer in parameters from the mStateObserverPool
      *        If the observer is not present in the object pool, we do nothing
      */
     void ReleaseObserver(ICDStateObserver * observer);

     /**
      * @brief Ensures that the remaining Active Mode duration is at least the smaller of 30000 milliseconds and stayActiveDuration.
      *
      * @param[in] stayActiveDuration The duration (in milliseconds) requested by the client to stay in Active Mode
      * @return The duration (in milliseconds) the device will stay in Active Mode
      */
     uint32_t StayActiveRequest(uint32_t stayActiveDuration);

     /**
      * @brief TestEventTriggerHandler for the ICD feature set
      *
      * @param[in] eventTrigger Event trigger to handle.
      *
      * @return CHIP_ERROR CHIP_NO_ERROR - No erros during the processing
      *                    CHIP_ERROR_INVALID_ARGUMENT - eventTrigger isn't a valid value
      */
     CHIP_ERROR HandleEventTrigger(uint64_t eventTrigger) override;

 #if CHIP_CONFIG_ENABLE_ICD_CIP
     /**
      * @brief Trigger the ICDManager to send Check-In message if necessary
      *
      * @param[in] function to use to determine if we need to send check-in messages
      */
     void TriggerCheckInMessages(const std::function<ShouldCheckInMsgsBeSentFunction> & function);

 #if CHIP_CONFIG_PERSIST_SUBSCRIPTIONS && !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION
     /**
      * @brief Set mSubCheckInBootCheckExecuted to true
      *        Function allows the InteractionModelEngine to notify the ICDManager that the boot up subscription resumption has been
      *        completed.
      */
     void SetBootUpResumeSubscriptionExecuted() { mIsBootUpResumeSubscriptionExecuted = true; };
 #endif // !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION && CHIP_CONFIG_PERSIST_SUBSCRIPTIONS
 #endif // CHIP_CONFIG_ENABLE_ICD_CIP

 #if CONFIG_BUILD_FOR_HOST_UNIT_TEST
     void SetTestFeatureMapValue(uint32_t featureMap) { mFeatureMap = featureMap; };
 #if CHIP_CONFIG_PERSIST_SUBSCRIPTIONS && !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION
     bool GetIsBootUpResumeSubscriptionExecuted() { return mIsBootUpResumeSubscriptionExecuted; };
 #endif // !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION && CHIP_CONFIG_PERSIST_SUBSCRIPTIONS
 #endif

     // Implementation of ICDListener functions.
     // Callers must origin from the chip task context or hold the ChipStack lock.

     void OnNetworkActivity() override;
     void OnKeepActiveRequest(KeepActiveFlags request) override;
     void OnActiveRequestWithdrawal(KeepActiveFlags request) override;
     void OnICDManagementServerEvent(ICDManagementEvents event) override;
     void OnSubscriptionReport() override;

 private:
     // TODO : Once <gtest/gtest_prod.h> can be included, use FRIEND_TEST for the friend class.
     friend class TestICDManager_TestShouldCheckInMsgsBeSentAtActiveModeFunction_Test;

     /**
      * @brief UpdateICDMode evaluates in which mode the ICD can be in; SIT or LIT mode.
      *        If the current operating mode does not match the evaluated operating mode, function updates the ICDMode and triggers
      *        all necessary operations.
      *        For a SIT ICD, this function does nothing.
      *        For a LIT ICD, the function checks if the ICD has a registration in the ICDMonitoringTable to determine which ICDMode
      *        the ICD must be in.
      */
     void UpdateICDMode();

     /**
      * @brief UpdateOperationState updates the OperationState of the ICD to the requested one.
      *        IdleMode -> IdleMode     : No actions are necessary, do nothing.
      *        IdleMode -> ActiveMode   : Transition the device to ActiveMode, start the  ActiveMode timer and trigger all necessary
      *                                   operations. These operations could be : Send Check-In messages
      *                                                                           Send subscription reports
      *                                                                           Process user actions
      *        ActiveMode -> ActiveMode : Increase remaining ActiveMode timer to one ActiveModeThreshold.
      *                                   If ActiveModeThreshold is 0, do nothing.
      *        ActiveMode -> IdleMode   : Transition ICD to IdleMode and start the IdleMode timer.
      *
      * @param state requested OperationalState for the ICD to transition to
      */
     void UpdateOperationState(OperationalState state);

     /**
      * @brief Set or Remove a keep ActiveMode requirement for the given flag
      *        If state is true and the ICD is in IdleMode, transition the ICD to ActiveMode
      *        If state is false and the ICD is in ActiveMode, check whether we can transition the ICD to IdleMode.
      *        If we can, transition the ICD to IdleMode.
      *
      * @param flag KeepActiveFlag to remove or add
      * @param state true: adding a flag requirement
      *              false: removing a flag requirement
      */
     void SetKeepActiveModeRequirements(KeepActiveFlags flag, bool state);

     /**
      * @brief Associates the ObserverEventType parameters to the correct
      *  ICDStateObservers function and calls it for all observers in the mStateObserverPool
      */
     void postObserverEvent(ObserverEventType event);

     /**
      * @brief Hepler function that extends the ActiveMode timer as well as the Active Mode Jitter timer for the transition to
      *        idle mode event.
      */
     void ExtendActiveMode(System::Clock::Milliseconds16 extendDuration);

     /**
      * @brief Timer callback function for when the IdleMode timer expires
      *
      * @param appState pointer to the ICDManager
      */
     static void OnIdleModeDone(System::Layer * aLayer, void * appState);

     /**
      * @brief Timer callback function for when the ActiveMode timer expires
      *
      * @param appState pointer to the ICDManager
      */
     static void OnActiveModeDone(System::Layer * aLayer, void * appState);

     /**
      * @brief Timer Callback function called shortly before the device enters idle mode to allow checks to be made.
      *        This is currently only called once to prevent entering in a loop if some events re-trigger this check (for instance if
      *        a check for subscriptions before entering idle mode leads to emiting a report, we will re-enter UpdateOperationState
      *        and check again for subscription, etc.)
      *
      * @param appState pointer to the ICDManager
      */
     static void OnTransitionToIdle(System::Layer * aLayer, void * appState);

 #if CHIP_CONFIG_ENABLE_ICD_CIP
     /**
      * @brief Function triggers all necessary Check-In messages to be sent.
      *
      * @note For each ICDMonitoring entry, we check if should send a Check-In message with
      *       ShouldCheckInMsgsBeSentAtActiveModeFunction. If we should, we allocate an ICDCheckInSender which tries to send a
      *       Check-In message to the registered client.
      */
     void SendCheckInMsgs();

     /**
      * @brief See function implementation in .cpp for details on this function.
      */
     bool ShouldCheckInMsgsBeSentAtActiveModeFunction(FabricIndex aFabricIndex, NodeId subjectID);

     /**
      * @brief Function checks if at least one client registration would require a Check-In message
      *
      * @param[in] function  function to use to determine if a Check-In message would be sent for a given registration
      *
      * @return true At least one registration would require an Check-In message if we were entering ActiveMode.
      * @return false None of the registration would require a Check-In message either because there are no registration or
      * because they all have associated subscriptions.
      */
     bool CheckInMessagesWouldBeSent(const std::function<ShouldCheckInMsgsBeSentFunction> & function);
 #endif // CHIP_CONFIG_ENABLE_ICD_CIP

     KeepActiveFlags mKeepActiveFlags{ 0 };

     // Initialize mOperationalState to ActiveMode so the init sequence at bootup triggers the IdleMode behaviour first.
     OperationalState mOperationalState = OperationalState::ActiveMode;
     bool mTransitionToIdleCalled       = false;
     ObjectPool<ObserverPointer, CHIP_CONFIG_ICD_OBSERVERS_POOL_SIZE> mStateObserverPool;
     uint8_t mOpenExchangeContextCount = 0;

 #if CHIP_CONFIG_ENABLE_ICD_CIP
     uint8_t mCheckInRequestCount = 0;

 #if !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION && CHIP_CONFIG_PERSIST_SUBSCRIPTIONS
     bool mIsBootUpResumeSubscriptionExecuted = false;
 #endif // !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION && CHIP_CONFIG_PERSIST_SUBSCRIPTIONS

     PersistentStorageDelegate * mStorage           = nullptr;
     FabricTable * mFabricTable                     = nullptr;
     Messaging::ExchangeManager * mExchangeManager  = nullptr;
     Crypto::SymmetricKeystore * mSymmetricKeystore = nullptr;
     SubscriptionsInfoProvider * mSubInfoProvider   = nullptr;
     ObjectPool<ICDCheckInSender, (CHIP_CONFIG_ICD_CLIENTS_SUPPORTED_PER_FABRIC * CHIP_CONFIG_MAX_FABRICS)> mICDSenderPool;
 #endif // CHIP_CONFIG_ENABLE_ICD_CIP

 #ifdef CONFIG_BUILD_FOR_HOST_UNIT_TEST
     // feature map that can be changed at runtime for testing purposes
     uint32_t mFeatureMap = 0;
 #endif
 };

 } // namespace app
 } // namespace chip
	/*
	*
	* Copyright (c) 2023 Project CHIP Authors
	*
	* 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/icd/server/ICDServerConfig.h>

	#include <app-common/zap-generated/cluster-enums.h>
	#include <app/AppConfig.h>
	#include <app/SubscriptionsInfoProvider.h>
	#include <app/TestEventTriggerDelegate.h>
	#include <app/icd/server/ICDConfigurationData.h>
	#include <app/icd/server/ICDNotifier.h>
	#include <app/icd/server/ICDStateObserver.h>
	#include <credentials/FabricTable.h>
	#include <crypto/SessionKeystore.h>
	#include <lib/support/BitFlags.h>
	#include <messaging/ExchangeMgr.h>
	#include <platform/CHIPDeviceConfig.h>
	#include <platform/internal/CHIPDeviceLayerInternal.h>
	#include <system/SystemClock.h>

	#if CHIP_CONFIG_ENABLE_ICD_CIP
	#include <app/icd/server/ICDCheckInSender.h> // nogncheck
	#include <app/icd/server/ICDMonitoringTable.h> // nogncheck
	#endif // CHIP_CONFIG_ENABLE_ICD_CIP

	namespace chip {
	namespace Crypto {
	using SymmetricKeystore = SessionKeystore;
	}
	} // namespace chip

	namespace chip {
	namespace app {

	// Forward declaration of TestICDManager tests to allow it to be friend with ICDManager
	// Used in unit tests
	class TestICDManager_TestShouldCheckInMsgsBeSentAtActiveModeFunction_Test;

	/**
	* @brief ICD Manager is responsible of processing the events and triggering the correct action for an ICD
	*/
	class ICDManager : public ICDListener, public TestEventTriggerHandler
	{
	public:
	/**
	* @brief This structure is used for the creation an ObjectPool of ICDStateObserver pointers
	*/
	struct ObserverPointer
	{
	ObserverPointer(ICDStateObserver * obs) : mObserver(obs) {}
	~ObserverPointer() { mObserver = nullptr; }
	ICDStateObserver * mObserver;
	};

	enum class OperationalState : uint8_t
	{
	IdleMode,
	ActiveMode,
	};

	/**
	* @brief This enum class represents all ICDStateObserver callbacks available from the
	* mStateObserverPool for the ICDManager.
	*
	* EnterActiveMode, TransitionToIdle and EnterIdleMode will always be called as a trio in the same order.
	* Each event will only be called once per cycle.
	* EnterActiveMode will always be called first, when the ICD has transitioned to ActiveMode.
	* TransitionToIdle will always be second. This event will only be called the first time there is
	* `ICD_ACTIVE_TIME_JITTER_MS` remaining to the ActiveMode timer.
	* When this event is called, the ICD is still in ActiveMode.
	* If the ActiveMode timer is increased due to the TransitionToIdle event, the event will not be called a second time in
	* a given cycle.
	* OnEnterIdleMode will always the third event and indicates that the ICD has transitioned to IdleMode.
	*
	* The ICDModeChange event can occur independently from the EnterActiveMode, TransitionToIdle and EnterIdleMode.
	* It will typically happen at the ICDManager init when a client is already registered with the ICD before the
	* OnEnterIdleMode event or when a client sends a register command after the OnEnterActiveMode event. Nothing prevents
	* the ICDModeChange event from happening multiple times per cycle or while the ICD is in IdleMode.
	*
	* See src/app/icd/server/ICDStateObserver.h for more information on the APIs each event triggers
	*/
	enum class ObserverEventType : uint8_t
	{
	EnterActiveMode,
	EnterIdleMode,
	TransitionToIdle,
	ICDModeChange,
	};

	/**
	* @brief Verifier template function
	* This type can be used to implement specific verifiers that can be used in the CheckInMessagesWouldBeSent function.
	* The goal is to avoid having multiple functions that implement the iterator loop with only the check changing.
	*
	* @return true: if at least one Check-In message would be sent
	* false: No Check-In messages would be sent
	*/
	using ShouldCheckInMsgsBeSentFunction = bool(FabricIndex aFabricIndex, NodeId subjectID);

	ICDManager() = default;
	~ICDManager() = default;

	void Init(PersistentStorageDelegate * storage, FabricTable * fabricTable, Crypto::SymmetricKeystore * symmetricKeyStore,
	Messaging::ExchangeManager * exchangeManager, SubscriptionsInfoProvider * subInfoProvider);
	void Shutdown();

	/**
	* @brief SupportsFeature verifies if a given FeatureMap bit is enabled
	*
	* @param[in] feature FeatureMap bit to verify
	*
	* @return true: if the FeatureMap bit is enabled in the ICDM cluster attribute.
	* false: if the FeatureMap bit is not enabled in the ICDM cluster attribute.
	* if we failed to read the FeatureMap attribute.
	*/
	bool SupportsFeature(Clusters::IcdManagement::Feature feature);

	ICDConfigurationData::ICDMode GetICDMode() { return ICDConfigurationData::GetInstance().GetICDMode(); };

	OperationalState GetOperaionalState() { return mOperationalState; };

	/**
	* @brief Adds the referenced observer in parameters to the mStateObserverPool
	* A maximum of CHIP_CONFIG_ICD_OBSERVERS_POOL_SIZE observers can be concurrently registered
	*
	* @return The pointer to the pool object, or null if it could not be added.
	*/
	ObserverPointer * RegisterObserver(ICDStateObserver * observer);

	/**
	* @brief Remove the referenced observer in parameters from the mStateObserverPool
	* If the observer is not present in the object pool, we do nothing
	*/
	void ReleaseObserver(ICDStateObserver * observer);

	/**
	* @brief Ensures that the remaining Active Mode duration is at least the smaller of 30000 milliseconds and stayActiveDuration.
	*
	* @param[in] stayActiveDuration The duration (in milliseconds) requested by the client to stay in Active Mode
	* @return The duration (in milliseconds) the device will stay in Active Mode
	*/
	uint32_t StayActiveRequest(uint32_t stayActiveDuration);

	/**
	* @brief TestEventTriggerHandler for the ICD feature set
	*
	* @param[in] eventTrigger Event trigger to handle.
	*
	* @return CHIP_ERROR CHIP_NO_ERROR - No erros during the processing
	* CHIP_ERROR_INVALID_ARGUMENT - eventTrigger isn't a valid value
	*/
	CHIP_ERROR HandleEventTrigger(uint64_t eventTrigger) override;

	#if CHIP_CONFIG_ENABLE_ICD_CIP
	/**
	* @brief Trigger the ICDManager to send Check-In message if necessary
	*
	* @param[in] function to use to determine if we need to send check-in messages
	*/
	void TriggerCheckInMessages(const std::function<ShouldCheckInMsgsBeSentFunction> & function);

	#if CHIP_CONFIG_PERSIST_SUBSCRIPTIONS && !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION
	/**
	* @brief Set mSubCheckInBootCheckExecuted to true
	* Function allows the InteractionModelEngine to notify the ICDManager that the boot up subscription resumption has been
	* completed.
	*/
	void SetBootUpResumeSubscriptionExecuted() { mIsBootUpResumeSubscriptionExecuted = true; };
	#endif // !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION && CHIP_CONFIG_PERSIST_SUBSCRIPTIONS
	#endif // CHIP_CONFIG_ENABLE_ICD_CIP

	#if CONFIG_BUILD_FOR_HOST_UNIT_TEST
	void SetTestFeatureMapValue(uint32_t featureMap) { mFeatureMap = featureMap; };
	#if CHIP_CONFIG_PERSIST_SUBSCRIPTIONS && !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION
	bool GetIsBootUpResumeSubscriptionExecuted() { return mIsBootUpResumeSubscriptionExecuted; };
	#endif // !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION && CHIP_CONFIG_PERSIST_SUBSCRIPTIONS
	#endif

	// Implementation of ICDListener functions.
	// Callers must origin from the chip task context or hold the ChipStack lock.

	void OnNetworkActivity() override;
	void OnKeepActiveRequest(KeepActiveFlags request) override;
	void OnActiveRequestWithdrawal(KeepActiveFlags request) override;
	void OnICDManagementServerEvent(ICDManagementEvents event) override;
	void OnSubscriptionReport() override;

	private:
	// TODO : Once <gtest/gtest_prod.h> can be included, use FRIEND_TEST for the friend class.
	friend class TestICDManager_TestShouldCheckInMsgsBeSentAtActiveModeFunction_Test;

	/**
	* @brief UpdateICDMode evaluates in which mode the ICD can be in; SIT or LIT mode.
	* If the current operating mode does not match the evaluated operating mode, function updates the ICDMode and triggers
	* all necessary operations.
	* For a SIT ICD, this function does nothing.
	* For a LIT ICD, the function checks if the ICD has a registration in the ICDMonitoringTable to determine which ICDMode
	* the ICD must be in.
	*/
	void UpdateICDMode();

	/**
	* @brief UpdateOperationState updates the OperationState of the ICD to the requested one.
	* IdleMode -> IdleMode : No actions are necessary, do nothing.
	* IdleMode -> ActiveMode : Transition the device to ActiveMode, start the ActiveMode timer and trigger all necessary
	* operations. These operations could be : Send Check-In messages
	* Send subscription reports
	* Process user actions
	* ActiveMode -> ActiveMode : Increase remaining ActiveMode timer to one ActiveModeThreshold.
	* If ActiveModeThreshold is 0, do nothing.
	* ActiveMode -> IdleMode : Transition ICD to IdleMode and start the IdleMode timer.
	*
	* @param state requested OperationalState for the ICD to transition to
	*/
	void UpdateOperationState(OperationalState state);

	/**
	* @brief Set or Remove a keep ActiveMode requirement for the given flag
	* If state is true and the ICD is in IdleMode, transition the ICD to ActiveMode
	* If state is false and the ICD is in ActiveMode, check whether we can transition the ICD to IdleMode.
	* If we can, transition the ICD to IdleMode.
	*
	* @param flag KeepActiveFlag to remove or add
	* @param state true: adding a flag requirement
	* false: removing a flag requirement
	*/
	void SetKeepActiveModeRequirements(KeepActiveFlags flag, bool state);

	/**
	* @brief Associates the ObserverEventType parameters to the correct
	* ICDStateObservers function and calls it for all observers in the mStateObserverPool
	*/
	void postObserverEvent(ObserverEventType event);

	/**
	* @brief Hepler function that extends the ActiveMode timer as well as the Active Mode Jitter timer for the transition to
	* idle mode event.
	*/
	void ExtendActiveMode(System::Clock::Milliseconds16 extendDuration);

	/**
	* @brief Timer callback function for when the IdleMode timer expires
	*
	* @param appState pointer to the ICDManager
	*/
	static void OnIdleModeDone(System::Layer * aLayer, void * appState);

	/**
	* @brief Timer callback function for when the ActiveMode timer expires
	*
	* @param appState pointer to the ICDManager
	*/
	static void OnActiveModeDone(System::Layer * aLayer, void * appState);

	/**
	* @brief Timer Callback function called shortly before the device enters idle mode to allow checks to be made.
	* This is currently only called once to prevent entering in a loop if some events re-trigger this check (for instance if
	* a check for subscriptions before entering idle mode leads to emiting a report, we will re-enter UpdateOperationState
	* and check again for subscription, etc.)
	*
	* @param appState pointer to the ICDManager
	*/
	static void OnTransitionToIdle(System::Layer * aLayer, void * appState);

	#if CHIP_CONFIG_ENABLE_ICD_CIP
	/**
	* @brief Function triggers all necessary Check-In messages to be sent.
	*
	* @note For each ICDMonitoring entry, we check if should send a Check-In message with
	* ShouldCheckInMsgsBeSentAtActiveModeFunction. If we should, we allocate an ICDCheckInSender which tries to send a
	* Check-In message to the registered client.
	*/
	void SendCheckInMsgs();

	/**
	* @brief See function implementation in .cpp for details on this function.
	*/
	bool ShouldCheckInMsgsBeSentAtActiveModeFunction(FabricIndex aFabricIndex, NodeId subjectID);

	/**
	* @brief Function checks if at least one client registration would require a Check-In message
	*
	* @param[in] function function to use to determine if a Check-In message would be sent for a given registration
	*
	* @return true At least one registration would require an Check-In message if we were entering ActiveMode.
	* @return false None of the registration would require a Check-In message either because there are no registration or
	* because they all have associated subscriptions.
	*/
	bool CheckInMessagesWouldBeSent(const std::function<ShouldCheckInMsgsBeSentFunction> & function);
	#endif // CHIP_CONFIG_ENABLE_ICD_CIP

	KeepActiveFlags mKeepActiveFlags{ 0 };

	// Initialize mOperationalState to ActiveMode so the init sequence at bootup triggers the IdleMode behaviour first.
	OperationalState mOperationalState = OperationalState::ActiveMode;
	bool mTransitionToIdleCalled = false;
	ObjectPool<ObserverPointer, CHIP_CONFIG_ICD_OBSERVERS_POOL_SIZE> mStateObserverPool;
	uint8_t mOpenExchangeContextCount = 0;

	#if CHIP_CONFIG_ENABLE_ICD_CIP
	uint8_t mCheckInRequestCount = 0;

	#if !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION && CHIP_CONFIG_PERSIST_SUBSCRIPTIONS
	bool mIsBootUpResumeSubscriptionExecuted = false;
	#endif // !CHIP_CONFIG_SUBSCRIPTION_TIMEOUT_RESUMPTION && CHIP_CONFIG_PERSIST_SUBSCRIPTIONS

	PersistentStorageDelegate * mStorage = nullptr;
	FabricTable * mFabricTable = nullptr;
	Messaging::ExchangeManager * mExchangeManager = nullptr;
	Crypto::SymmetricKeystore * mSymmetricKeystore = nullptr;
	SubscriptionsInfoProvider * mSubInfoProvider = nullptr;
	ObjectPool<ICDCheckInSender, (CHIP_CONFIG_ICD_CLIENTS_SUPPORTED_PER_FABRIC * CHIP_CONFIG_MAX_FABRICS)> mICDSenderPool;
	#endif // CHIP_CONFIG_ENABLE_ICD_CIP

	#ifdef CONFIG_BUILD_FOR_HOST_UNIT_TEST
	// feature map that can be changed at runtime for testing purposes
	uint32_t mFeatureMap = 0;
	#endif
	};

	} // namespace app
	} // namespace chip