examples/lock-app/genio/src/AppTask.cpp - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2020 Project CHIP Authors
  *    Copyright (c) 2019 Google LLC.
  *    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.
  */

 #include "AppTask.h"
 #include "AppConfig.h"
 #include "AppEvent.h"
 #include "LEDWidget.h"

 #include "qrcodegen.h"
 #include <app-common/zap-generated/af-structs.h>
 #include <app-common/zap-generated/attribute-id.h>
 #include <app-common/zap-generated/attribute-type.h>
 #include <app-common/zap-generated/attributes/Accessors.h>
 #include <app-common/zap-generated/cluster-id.h>
 #include <app-common/zap-generated/cluster-objects.h>
 #include <app/clusters/door-lock-server/door-lock-server.h>
 #include <app/clusters/identify-server/identify-server.h>
 #include <app/clusters/network-commissioning/network-commissioning.h>
 #include <app/server/OnboardingCodesUtil.h>
 #include <app/server/Server.h>
 #include <app/util/attribute-storage.h>

 #include <assert.h>

 #include <credentials/DeviceAttestationCredsProvider.h>
 #include <credentials/examples/DeviceAttestationCredsExample.h>

 #include <setup_payload/QRCodeSetupPayloadGenerator.h>
 #include <setup_payload/SetupPayload.h>

 #include <lib/support/CodeUtils.h>

 #include <platform/CHIPDeviceLayer.h>
 #include <platform/mt793x/NetworkCommissioningWiFiDriver.h>

 #define FACTORY_RESET_TRIGGER_TIMEOUT 3000
 #define FACTORY_RESET_CANCEL_WINDOW_TIMEOUT 3000
 #define APP_TASK_STACK_SIZE (4096)
 #define APP_TASK_PRIORITY 2
 #define APP_EVENT_QUEUE_SIZE 10
 //#define EXAMPLE_VENDOR_ID                   0xcafe

 #ifdef portYIELD_FROM_ISR
 #define OS_YIELD_FROM_ISR(yield) portYIELD_FROM_ISR(yield)
 #elif portEND_SWITCHING_ISR
 #define OS_YIELD_FROM_ISR(yield) portEND_SWITCHING_ISR(yield)
 #else
 #error "Must have portYIELD_FROM_ISR or portEND_SWITCHING_ISR"
 #endif

 #define UNUSED_PARAMETER(a) (a = a)

 namespace {

 TimerHandle_t sFunctionTimer; // FreeRTOS app sw timer.
 TaskHandle_t sAppTaskHandle;
 QueueHandle_t sAppEventQueue;

 LEDWidget sStatusLED;
 LEDWidget sLockLED;

 bool sIsWiFiProvisioned = false;
 bool sIsWiFiEnabled     = false;
 bool sIsWiFiAttached    = false;

 uint8_t sAppEventQueueBuffer[APP_EVENT_QUEUE_SIZE * sizeof(AppEvent)];
 StaticQueue_t sAppEventQueueStruct;

 bool configValueSet             = false;
 bool mSyncClusterToButtonAction = false;

 StackType_t appStack[APP_TASK_STACK_SIZE * 2 / sizeof(StackType_t)];
 StaticTask_t appTaskStruct;

 #if CHIP_DEVICE_CONFIG_ENABLE_WIFI_STATION
 using namespace chip::DeviceLayer::NetworkCommissioning;
 chip::app::Clusters::NetworkCommissioning::Instance sWiFiNetworkCommissioningInstance(0 /* Endpoint Id */,
                                                                                       &GenioWiFiDriver::GetInstance());
 #endif

 } // namespace

 using chip::app::Clusters::DoorLock::DlLockState;
 using chip::app::Clusters::DoorLock::DlOperationError;
 using chip::app::Clusters::DoorLock::DlOperationSource;

 using namespace chip;
 using namespace ::chip::DeviceLayer;
 using namespace ::chip::DeviceLayer::Internal;
 using namespace MT793XDoorLock::LockInitParams;

 using namespace chip::TLV;
 using namespace ::chip::Credentials;
 using namespace ::chip::DeviceLayer;

 AppTask AppTask::sAppTask;

 CHIP_ERROR AppTask::StartAppTask()
 {
     sAppEventQueue = xQueueCreateStatic(APP_EVENT_QUEUE_SIZE, sizeof(AppEvent), sAppEventQueueBuffer, &sAppEventQueueStruct);
     if (sAppEventQueue == NULL)
     {
         MT793X_LOG("Failed to allocate app event queue");
         appError(APP_ERROR_EVENT_QUEUE_FAILED);
     }

     // Start App task.
     sAppTaskHandle = xTaskCreateStatic(AppTaskMain, APP_TASK_NAME, ArraySize(appStack), NULL, 1, appStack, &appTaskStruct);
     if (sAppTaskHandle == nullptr)
         return APP_ERROR_CREATE_TASK_FAILED;

     return CHIP_NO_ERROR;
 }

 CHIP_ERROR AppTask::Init()
 {
     CHIP_ERROR error = CHIP_NO_ERROR;

     // Wait for the WiFi to be initialized
     MT793X_LOG("APP: Wait WiFi Init");
     vTaskDelay(1000); // TODO
     MT793X_LOG("APP: Done WiFi Init");

 #if CHIP_DEVICE_CONFIG_ENABLE_WIFI_STATION
     sWiFiNetworkCommissioningInstance.Init();
 #endif
     // Init ZCL Data Model and start server
     static chip::CommonCaseDeviceServerInitParams initParams;
     (void) initParams.InitializeStaticResourcesBeforeServerInit();
     chip::Server::GetInstance().Init(initParams);

     // Initialize device attestation config
     SetDeviceAttestationCredentialsProvider(Examples::GetExampleDACProvider());

     // Create FreeRTOS sw timer for Function Selection.
     sFunctionTimer = xTimerCreate("FnTmr",          // Just a text name, not used by the RTOS kernel
                                   1,                // == default timer period (mS)
                                   false,            // no timer reload (==one-shot)
                                   (void *) this,    // init timer id = app task obj context
                                   TimerEventHandler // timer callback handler
     );
     if (sFunctionTimer == NULL)
     {
         MT793X_LOG("funct timer create failed");
         appError(APP_ERROR_CREATE_TIMER_FAILED);
     }

     MT793X_LOG("Current Software Version: %s", CHIP_DEVICE_CONFIG_DEVICE_SOFTWARE_VERSION_STRING);

     // Initial lock state
     chip::app::DataModel::Nullable<chip::app::Clusters::DoorLock::DlLockState> state;
     chip::EndpointId endpointId{ 1 };
     chip::DeviceLayer::PlatformMgr().LockChipStack();
     chip::app::Clusters::DoorLock::Attributes::LockState::Get(endpointId, state);

     uint8_t numberOfCredentialsPerUser = 0;
     if (!DoorLockServer::Instance().GetNumberOfCredentialsSupportedPerUser(endpointId, numberOfCredentialsPerUser))
     {
         ChipLogError(Zcl,
                      "Unable to get number of credentials supported per user when initializing lock endpoint, defaulting to 5 "
                      "[endpointId=%d]",
                      endpointId);
         numberOfCredentialsPerUser = 5;
     }

     uint16_t numberOfUsers = 0;
     if (!DoorLockServer::Instance().GetNumberOfUserSupported(endpointId, numberOfUsers))
     {
         ChipLogError(Zcl,
                      "Unable to get number of supported users when initializing lock endpoint, defaulting to 10 [endpointId=%d]",
                      endpointId);
         numberOfUsers = 10;
     }

     uint8_t numberOfWeekdaySchedulesPerUser = 0;
     if (!DoorLockServer::Instance().GetNumberOfWeekDaySchedulesPerUserSupported(endpointId, numberOfWeekdaySchedulesPerUser))
     {
         ChipLogError(
             Zcl,
             "Unable to get number of supported weekday schedules when initializing lock endpoint, defaulting to 10 [endpointId=%d]",
             endpointId);
         numberOfWeekdaySchedulesPerUser = 10;
     }

     uint8_t numberOfYeardaySchedulesPerUser = 0;
     if (!DoorLockServer::Instance().GetNumberOfYearDaySchedulesPerUserSupported(endpointId, numberOfYeardaySchedulesPerUser))
     {
         ChipLogError(
             Zcl,
             "Unable to get number of supported yearday schedules when initializing lock endpoint, defaulting to 10 [endpointId=%d]",
             endpointId);
         numberOfYeardaySchedulesPerUser = 10;
     }

     uint8_t numberOfHolidaySchedules = 0;
     if (!DoorLockServer::Instance().GetNumberOfHolidaySchedulesSupported(endpointId, numberOfHolidaySchedules))
     {
         ChipLogError(
             Zcl,
             "Unable to get number of supported holiday schedules when initializing lock endpoint, defaulting to 10 [endpointId=%d]",
             endpointId);
         numberOfHolidaySchedules = 10;
     }

     chip::DeviceLayer::PlatformMgr().UnlockChipStack();

     error = LockMgr().Init(state,
                            ParamBuilder()
                                .SetNumberOfUsers(numberOfUsers)
                                .SetNumberOfCredentialsPerUser(numberOfCredentialsPerUser)
                                .SetNumberOfWeekdaySchedulesPerUser(numberOfWeekdaySchedulesPerUser)
                                .SetNumberOfYeardaySchedulesPerUser(numberOfYeardaySchedulesPerUser)
                                .SetNumberOfHolidaySchedules(numberOfHolidaySchedules)
                                .GetLockParam());

     if (error != CHIP_NO_ERROR)
     {
         MT793X_LOG("LockMgr().Init() failed");
         appError(error);
     }

     LockMgr().SetCallbacks(ActionInitiated, ActionCompleted);

     sStatusLED.Init(LED_STATUS);
     sLockLED.Init(LED_LIGHT);

     if (state.Value() == DlLockState::kUnlocked)
     {
         sLockLED.Set(false);
     }
     else
     {
         sLockLED.Set(true);
     }
     chip::DeviceLayer::PlatformMgr().ScheduleWork(UpdateClusterState, reinterpret_cast<intptr_t>(nullptr));

     ConfigurationMgr().LogDeviceConfig();

     // PrintOnboardingCodes(chip::RendezvousInformationFlag(chip::RendezvousInformationFlag::kBLE));
     PrintOnboardingCodes(chip::RendezvousInformationFlag(chip::RendezvousInformationFlag::kSoftAP));

     return error;
 }

 void AppTask::AppTaskMain(void * pvParameter)
 {
     AppEvent event;

     CHIP_ERROR error = sAppTask.Init();
     if (error != CHIP_NO_ERROR)
     {
         MT793X_LOG("AppTask.Init() failed");
         appError(error);
     }

     MT793X_LOG("AppTask started");

     while (true)
     {
         // Users and credentials should be checked once from nvm flash on boot
         if (!configValueSet)
         {
             LockMgr().ReadConfigValues();
             configValueSet = true;
         }
         BaseType_t eventReceived = xQueueReceive(sAppEventQueue, &event, pdMS_TO_TICKS(10));
         while (eventReceived == pdTRUE)
         {
             sAppTask.DispatchEvent(&event);
             eventReceived = xQueueReceive(sAppEventQueue, &event, 0);
         }

         // Collect connectivity and configuration state from the CHIP stack. Because
         // the CHIP event loop is being run in a separate task, the stack must be
         // locked while these values are queried.  However we use a non-blocking
         // lock request (TryLockCHIPStack()) to avoid blocking other UI activities
         // when the CHIP task is busy (e.g. with a long crypto operation).
         if (PlatformMgr().TryLockChipStack())
         {
             sIsWiFiProvisioned = ConnectivityMgr().IsWiFiStationProvisioned();
             sIsWiFiEnabled     = ConnectivityMgr().IsWiFiStationEnabled();
             sIsWiFiAttached    = ConnectivityMgr().IsWiFiStationConnected();

             PlatformMgr().UnlockChipStack();
         }

         // Update the status LED if factory reset has not been initiated.
         //
         // If system has "full connectivity", keep the LED On constantly.
         //
         // If thread and service provisioned, but not attached to the thread network
         // yet OR no connectivity to the service OR subscriptions are not fully
         // established THEN blink the LED Off for a short period of time.
         //
         // If the system has ble connection(s) uptill the stage above, THEN blink
         // the LEDs at an even rate of 100ms.
         //
         // Otherwise, blink the LED ON for a very short time.
         if (sAppTask.mFunction != kFunction_FactoryReset)
         {
             if (sIsWiFiProvisioned && sIsWiFiEnabled && !sIsWiFiAttached)
             {
                 sStatusLED.Blink(950, 50);
             }
             else
             {
                 sStatusLED.Blink(50, 950);
             }
         }
     }
 }

 void AppTask::LockActionEventHandler(AppEvent * aEvent)
 {
     bool initiated = false;
     LockManager::Action_t action;
     int32_t actor;
     CHIP_ERROR err = CHIP_NO_ERROR;

     if (aEvent->Type == AppEvent::kEventType_Lock)
     {
         action = static_cast<LockManager::Action_t>(aEvent->LockEvent.Action);
         actor  = aEvent->LockEvent.Actor;
     }
     else if (aEvent->Type == AppEvent::kEventType_Button)
     {
         if (LockMgr().NextState() == true)
         {
             action = LockManager::LOCK_ACTION;
         }
         else
         {
             action = LockManager::UNLOCK_ACTION;
         }
         actor = AppEvent::kEventType_Button;
     }
     else
     {
         err = APP_ERROR_UNHANDLED_EVENT;
     }

     if (err == CHIP_NO_ERROR)
     {
         initiated = LockMgr().InitiateAction(actor, action);

         if (!initiated)
         {
             MT793X_LOG("Action is already in progress or active.");
         }
     }
 }

 void AppTask::ButtonTimerEventHandler(AppEvent * aEvent)
 {
     if (aEvent->Type != AppEvent::kEventType_Timer || sAppTask.mFunctionTimerActive == false)
     {
         return;
     }

     switch (sAppTask.mFunction)
     {
     case kFunction_NoneSelected:
         break;

     case kFunction_LightSwitch:
         // Start timer for user to cancel the facotry reset, if needed
         MT793X_LOG("Factory Reset Triggered.");
         MT793X_LOG("Release button within %ums to cancel.", FACTORY_RESET_CANCEL_WINDOW_TIMEOUT);
         sAppTask.StartTimer(FACTORY_RESET_CANCEL_WINDOW_TIMEOUT);
         sAppTask.mFunction = kFunction_FactoryReset;

         // Turn off all LEDs before starting blink to make sure blink is
         // co-ordinated.
         sStatusLED.Set(false);
         sStatusLED.Blink(500);
         break;

     case kFunction_FactoryReset:
         MT793X_LOG("Factory Reset Start.");
         // Actually trigger Factory Reset
         sAppTask.mFunction = kFunction_NoneSelected;
         ConfigurationMgr().InitiateFactoryReset();
         sStatusLED.Set(true);
         break;

     default:
         break;
     }
 }

 void AppTask::SingleButtonEventHandler(AppEvent * aEvent)
 {
     if (aEvent->Type != AppEvent::kEventType_Button)
     {
         MT793X_LOG("A Non ButtonEvent received %d", aEvent->Type);
         return;
     }

     if (aEvent->ButtonEvent.Pressed)
     {
         if (sAppTask.mFunctionTimerActive == false)
         {
             /* Start the timer to detect how long Button has been pressed */
             MT793X_LOG("AppTask status LED on");
             sStatusLED.Set(true);
             sAppTask.mFunction = kFunction_LightSwitch;
             sAppTask.StartTimer(FACTORY_RESET_TRIGGER_TIMEOUT);
         }
         else
         {
             MT793X_LOG("AppTask function timer already started");
         }
     }
     else
     {
         /* Cancel the timer to detect how long Button has been pressed */
         sAppTask.CancelTimer();

         switch (sAppTask.mFunction)
         {
         case kFunction_LightSwitch:
             MT793X_LOG("AppTask light switch");
             AppEvent event;
             event.Type = AppEvent::kEventType_Button;
             LockActionEventHandler(&event);
             break;
         case kFunction_FactoryReset:
             // factory reset cancelled, restore LED
             MT793X_LOG("AppTask factory reset cancelled");
             break;
         default:
             MT793X_LOG("not handled key release event, mFunction = %x", sAppTask.mFunction);
             break;
         }

         sStatusLED.Set(false);

         sAppTask.mFunction = kFunction_NoneSelected;
     }
 }

 void AppTask::ButtonHandler(const filogic_button_t & button)
 {
     AppEvent button_event            = {};
     button_event.Type                = AppEvent::kEventType_Button;
     button_event.ButtonEvent.Pressed = button.press;
     button_event.Handler             = SingleButtonEventHandler;
     sAppTask.PostEvent(&button_event);
 }

 void AppTask::TimerEventHandler(TimerHandle_t xTimer)
 {
     AppEvent event;
     event.Type               = AppEvent::kEventType_Timer;
     event.TimerEvent.Context = (void *) xTimer;
     event.Handler            = ButtonTimerEventHandler;
     sAppTask.PostEvent(&event);
 }

 void AppTask::CancelTimer()
 {
     if (xTimerStop(sFunctionTimer, 0) == pdFAIL)
     {
         MT793X_LOG("app timer stop() failed");
         appError(APP_ERROR_STOP_TIMER_FAILED);
     }

     mFunctionTimerActive = false;
 }

 void AppTask::StartTimer(uint32_t aTimeoutInMs)
 {
     if (xTimerIsTimerActive(sFunctionTimer))
     {
         MT793X_LOG("app timer already started!");
         CancelTimer();
     }

     // timer is not active, change its period to required value (== restart).
     // FreeRTOS- Block for a maximum of 100 ticks if the change period command
     // cannot immediately be sent to the timer command queue.
     if (xTimerChangePeriod(sFunctionTimer, aTimeoutInMs / portTICK_PERIOD_MS, 100) != pdPASS)
     {
         MT793X_LOG("app timer start() failed");
         appError(APP_ERROR_START_TIMER_FAILED);
     }

     mFunctionTimerActive = true;
 }

 void AppTask::ActionInitiated(LockManager::Action_t aAction, int32_t aActor)
 {
     // Action initiated, update the light led
     if (aAction == LockManager::LOCK_ACTION)
     {
         MT793X_LOG("Lock Action has been initiated")
         sLockLED.Set(true);
     }
     else if (aAction == LockManager::UNLOCK_ACTION)
     {
         MT793X_LOG("Unlock Action has been initiated")
         sLockLED.Set(false);
     }

     if (aActor == AppEvent::kEventType_Button)
     {
         mSyncClusterToButtonAction = true;
     }
 }

 void AppTask::ActionCompleted(LockManager::Action_t aAction)
 {
     // action has been completed bon the light
     if (aAction == LockManager::LOCK_ACTION)
     {
         MT793X_LOG("Lock Action has been completed")
     }
     else if (aAction == LockManager::UNLOCK_ACTION)
     {
         MT793X_LOG("Unlock Action has been completed")
     }

     if (mSyncClusterToButtonAction)
     {
         chip::DeviceLayer::PlatformMgr().ScheduleWork(UpdateClusterState, reinterpret_cast<intptr_t>(nullptr));
         mSyncClusterToButtonAction = false;
     }
 }

 void AppTask::ActionRequest(int32_t aActor, LockManager::Action_t aAction)
 {
     AppEvent event;
     event.Type             = AppEvent::kEventType_Lock;
     event.LockEvent.Actor  = aActor;
     event.LockEvent.Action = aAction;
     event.Handler          = LockActionEventHandler;
     PostEvent(&event);
 }

 void AppTask::PostEvent(const AppEvent * aEvent)
 {
     if (sAppEventQueue != NULL)
     {
         BaseType_t status;
         if (xPortIsInsideInterrupt())
         {
             BaseType_t higherPrioTaskWoken;

             higherPrioTaskWoken = pdFALSE;
             status              = xQueueSendFromISR(sAppEventQueue, aEvent, &higherPrioTaskWoken);
             OS_YIELD_FROM_ISR(higherPrioTaskWoken);
         }
         else
         {
             status = xQueueSend(sAppEventQueue, aEvent, 1);
         }

         if (!status)
             MT793X_LOG("Failed to post event to app task event queue");
     }
     else
     {
         MT793X_LOG("Event Queue is NULL should never happen");
     }
 }

 void AppTask::DispatchEvent(AppEvent * aEvent)
 {
     if (aEvent->Handler)
     {
         aEvent->Handler(aEvent);
     }
     else
     {
         MT793X_LOG("Event received with no handler. Dropping event.");
     }
 }

 void AppTask::UpdateClusterState(intptr_t context)
 {
     bool unlocked        = LockMgr().NextState();
     DlLockState newState = unlocked ? DlLockState::kUnlocked : DlLockState::kLocked;

     DlOperationSource source = DlOperationSource::kUnspecified;

     // write the new lock value
     EmberAfStatus status =
         DoorLockServer::Instance().SetLockState(1, newState, source) ? EMBER_ZCL_STATUS_SUCCESS : EMBER_ZCL_STATUS_FAILURE;

     if (status != EMBER_ZCL_STATUS_SUCCESS)
     {
         MT793X_LOG("ERR: updating lock state %x", status);
     }
 }
	/*
	*
	* Copyright (c) 2020 Project CHIP Authors
	* Copyright (c) 2019 Google LLC.
	* 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.
	*/

	#include "AppTask.h"
	#include "AppConfig.h"
	#include "AppEvent.h"
	#include "LEDWidget.h"

	#include "qrcodegen.h"
	#include <app-common/zap-generated/af-structs.h>
	#include <app-common/zap-generated/attribute-id.h>
	#include <app-common/zap-generated/attribute-type.h>
	#include <app-common/zap-generated/attributes/Accessors.h>
	#include <app-common/zap-generated/cluster-id.h>
	#include <app-common/zap-generated/cluster-objects.h>
	#include <app/clusters/door-lock-server/door-lock-server.h>
	#include <app/clusters/identify-server/identify-server.h>
	#include <app/clusters/network-commissioning/network-commissioning.h>
	#include <app/server/OnboardingCodesUtil.h>
	#include <app/server/Server.h>
	#include <app/util/attribute-storage.h>

	#include <assert.h>

	#include <credentials/DeviceAttestationCredsProvider.h>
	#include <credentials/examples/DeviceAttestationCredsExample.h>

	#include <setup_payload/QRCodeSetupPayloadGenerator.h>
	#include <setup_payload/SetupPayload.h>

	#include <lib/support/CodeUtils.h>

	#include <platform/CHIPDeviceLayer.h>
	#include <platform/mt793x/NetworkCommissioningWiFiDriver.h>

	#define FACTORY_RESET_TRIGGER_TIMEOUT 3000
	#define FACTORY_RESET_CANCEL_WINDOW_TIMEOUT 3000
	#define APP_TASK_STACK_SIZE (4096)
	#define APP_TASK_PRIORITY 2
	#define APP_EVENT_QUEUE_SIZE 10
	//#define EXAMPLE_VENDOR_ID 0xcafe

	#ifdef portYIELD_FROM_ISR
	#define OS_YIELD_FROM_ISR(yield) portYIELD_FROM_ISR(yield)
	#elif portEND_SWITCHING_ISR
	#define OS_YIELD_FROM_ISR(yield) portEND_SWITCHING_ISR(yield)
	#else
	#error "Must have portYIELD_FROM_ISR or portEND_SWITCHING_ISR"
	#endif

	#define UNUSED_PARAMETER(a) (a = a)

	namespace {

	TimerHandle_t sFunctionTimer; // FreeRTOS app sw timer.
	TaskHandle_t sAppTaskHandle;
	QueueHandle_t sAppEventQueue;

	LEDWidget sStatusLED;
	LEDWidget sLockLED;

	bool sIsWiFiProvisioned = false;
	bool sIsWiFiEnabled = false;
	bool sIsWiFiAttached = false;

	uint8_t sAppEventQueueBuffer[APP_EVENT_QUEUE_SIZE * sizeof(AppEvent)];
	StaticQueue_t sAppEventQueueStruct;

	bool configValueSet = false;
	bool mSyncClusterToButtonAction = false;

	StackType_t appStack[APP_TASK_STACK_SIZE * 2 / sizeof(StackType_t)];
	StaticTask_t appTaskStruct;

	#if CHIP_DEVICE_CONFIG_ENABLE_WIFI_STATION
	using namespace chip::DeviceLayer::NetworkCommissioning;
	chip::app::Clusters::NetworkCommissioning::Instance sWiFiNetworkCommissioningInstance(0 /* Endpoint Id */,
	&GenioWiFiDriver::GetInstance());
	#endif

	} // namespace

	using chip::app::Clusters::DoorLock::DlLockState;
	using chip::app::Clusters::DoorLock::DlOperationError;
	using chip::app::Clusters::DoorLock::DlOperationSource;

	using namespace chip;
	using namespace ::chip::DeviceLayer;
	using namespace ::chip::DeviceLayer::Internal;
	using namespace MT793XDoorLock::LockInitParams;

	using namespace chip::TLV;
	using namespace ::chip::Credentials;
	using namespace ::chip::DeviceLayer;

	AppTask AppTask::sAppTask;

	CHIP_ERROR AppTask::StartAppTask()
	{
	sAppEventQueue = xQueueCreateStatic(APP_EVENT_QUEUE_SIZE, sizeof(AppEvent), sAppEventQueueBuffer, &sAppEventQueueStruct);
	if (sAppEventQueue == NULL)
	{
	MT793X_LOG("Failed to allocate app event queue");
	appError(APP_ERROR_EVENT_QUEUE_FAILED);
	}

	// Start App task.
	sAppTaskHandle = xTaskCreateStatic(AppTaskMain, APP_TASK_NAME, ArraySize(appStack), NULL, 1, appStack, &appTaskStruct);
	if (sAppTaskHandle == nullptr)
	return APP_ERROR_CREATE_TASK_FAILED;

	return CHIP_NO_ERROR;
	}

	CHIP_ERROR AppTask::Init()
	{
	CHIP_ERROR error = CHIP_NO_ERROR;

	// Wait for the WiFi to be initialized
	MT793X_LOG("APP: Wait WiFi Init");
	vTaskDelay(1000); // TODO
	MT793X_LOG("APP: Done WiFi Init");

	#if CHIP_DEVICE_CONFIG_ENABLE_WIFI_STATION
	sWiFiNetworkCommissioningInstance.Init();
	#endif
	// Init ZCL Data Model and start server
	static chip::CommonCaseDeviceServerInitParams initParams;
	(void) initParams.InitializeStaticResourcesBeforeServerInit();
	chip::Server::GetInstance().Init(initParams);

	// Initialize device attestation config
	SetDeviceAttestationCredentialsProvider(Examples::GetExampleDACProvider());

	// Create FreeRTOS sw timer for Function Selection.
	sFunctionTimer = xTimerCreate("FnTmr", // Just a text name, not used by the RTOS kernel
	1, // == default timer period (mS)
	false, // no timer reload (==one-shot)
	(void *) this, // init timer id = app task obj context
	TimerEventHandler // timer callback handler
	);
	if (sFunctionTimer == NULL)
	{
	MT793X_LOG("funct timer create failed");
	appError(APP_ERROR_CREATE_TIMER_FAILED);
	}

	MT793X_LOG("Current Software Version: %s", CHIP_DEVICE_CONFIG_DEVICE_SOFTWARE_VERSION_STRING);

	// Initial lock state
	chip::app::DataModel::Nullable<chip::app::Clusters::DoorLock::DlLockState> state;
	chip::EndpointId endpointId{ 1 };
	chip::DeviceLayer::PlatformMgr().LockChipStack();
	chip::app::Clusters::DoorLock::Attributes::LockState::Get(endpointId, state);

	uint8_t numberOfCredentialsPerUser = 0;
	if (!DoorLockServer::Instance().GetNumberOfCredentialsSupportedPerUser(endpointId, numberOfCredentialsPerUser))
	{
	ChipLogError(Zcl,
	"Unable to get number of credentials supported per user when initializing lock endpoint, defaulting to 5 "
	"[endpointId=%d]",
	endpointId);
	numberOfCredentialsPerUser = 5;
	}

	uint16_t numberOfUsers = 0;
	if (!DoorLockServer::Instance().GetNumberOfUserSupported(endpointId, numberOfUsers))
	{
	ChipLogError(Zcl,
	"Unable to get number of supported users when initializing lock endpoint, defaulting to 10 [endpointId=%d]",
	endpointId);
	numberOfUsers = 10;
	}

	uint8_t numberOfWeekdaySchedulesPerUser = 0;
	if (!DoorLockServer::Instance().GetNumberOfWeekDaySchedulesPerUserSupported(endpointId, numberOfWeekdaySchedulesPerUser))
	{
	ChipLogError(
	Zcl,
	"Unable to get number of supported weekday schedules when initializing lock endpoint, defaulting to 10 [endpointId=%d]",
	endpointId);
	numberOfWeekdaySchedulesPerUser = 10;
	}

	uint8_t numberOfYeardaySchedulesPerUser = 0;
	if (!DoorLockServer::Instance().GetNumberOfYearDaySchedulesPerUserSupported(endpointId, numberOfYeardaySchedulesPerUser))
	{
	ChipLogError(
	Zcl,
	"Unable to get number of supported yearday schedules when initializing lock endpoint, defaulting to 10 [endpointId=%d]",
	endpointId);
	numberOfYeardaySchedulesPerUser = 10;
	}

	uint8_t numberOfHolidaySchedules = 0;
	if (!DoorLockServer::Instance().GetNumberOfHolidaySchedulesSupported(endpointId, numberOfHolidaySchedules))
	{
	ChipLogError(
	Zcl,
	"Unable to get number of supported holiday schedules when initializing lock endpoint, defaulting to 10 [endpointId=%d]",
	endpointId);
	numberOfHolidaySchedules = 10;
	}

	chip::DeviceLayer::PlatformMgr().UnlockChipStack();

	error = LockMgr().Init(state,
	ParamBuilder()
	.SetNumberOfUsers(numberOfUsers)
	.SetNumberOfCredentialsPerUser(numberOfCredentialsPerUser)
	.SetNumberOfWeekdaySchedulesPerUser(numberOfWeekdaySchedulesPerUser)
	.SetNumberOfYeardaySchedulesPerUser(numberOfYeardaySchedulesPerUser)
	.SetNumberOfHolidaySchedules(numberOfHolidaySchedules)
	.GetLockParam());

	if (error != CHIP_NO_ERROR)
	{
	MT793X_LOG("LockMgr().Init() failed");
	appError(error);
	}

	LockMgr().SetCallbacks(ActionInitiated, ActionCompleted);

	sStatusLED.Init(LED_STATUS);
	sLockLED.Init(LED_LIGHT);

	if (state.Value() == DlLockState::kUnlocked)
	{
	sLockLED.Set(false);
	}
	else
	{
	sLockLED.Set(true);
	}
	chip::DeviceLayer::PlatformMgr().ScheduleWork(UpdateClusterState, reinterpret_cast<intptr_t>(nullptr));

	ConfigurationMgr().LogDeviceConfig();

	// PrintOnboardingCodes(chip::RendezvousInformationFlag(chip::RendezvousInformationFlag::kBLE));
	PrintOnboardingCodes(chip::RendezvousInformationFlag(chip::RendezvousInformationFlag::kSoftAP));

	return error;
	}

	void AppTask::AppTaskMain(void * pvParameter)
	{
	AppEvent event;

	CHIP_ERROR error = sAppTask.Init();
	if (error != CHIP_NO_ERROR)
	{
	MT793X_LOG("AppTask.Init() failed");
	appError(error);
	}

	MT793X_LOG("AppTask started");

	while (true)
	{
	// Users and credentials should be checked once from nvm flash on boot
	if (!configValueSet)
	{
	LockMgr().ReadConfigValues();
	configValueSet = true;
	}
	BaseType_t eventReceived = xQueueReceive(sAppEventQueue, &event, pdMS_TO_TICKS(10));
	while (eventReceived == pdTRUE)
	{
	sAppTask.DispatchEvent(&event);
	eventReceived = xQueueReceive(sAppEventQueue, &event, 0);
	}

	// Collect connectivity and configuration state from the CHIP stack. Because
	// the CHIP event loop is being run in a separate task, the stack must be
	// locked while these values are queried. However we use a non-blocking
	// lock request (TryLockCHIPStack()) to avoid blocking other UI activities
	// when the CHIP task is busy (e.g. with a long crypto operation).
	if (PlatformMgr().TryLockChipStack())
	{
	sIsWiFiProvisioned = ConnectivityMgr().IsWiFiStationProvisioned();
	sIsWiFiEnabled = ConnectivityMgr().IsWiFiStationEnabled();
	sIsWiFiAttached = ConnectivityMgr().IsWiFiStationConnected();

	PlatformMgr().UnlockChipStack();
	}

	// Update the status LED if factory reset has not been initiated.
	//
	// If system has "full connectivity", keep the LED On constantly.
	//
	// If thread and service provisioned, but not attached to the thread network
	// yet OR no connectivity to the service OR subscriptions are not fully
	// established THEN blink the LED Off for a short period of time.
	//
	// If the system has ble connection(s) uptill the stage above, THEN blink
	// the LEDs at an even rate of 100ms.
	//
	// Otherwise, blink the LED ON for a very short time.
	if (sAppTask.mFunction != kFunction_FactoryReset)
	{
	if (sIsWiFiProvisioned && sIsWiFiEnabled && !sIsWiFiAttached)
	{
	sStatusLED.Blink(950, 50);
	}
	else
	{
	sStatusLED.Blink(50, 950);
	}
	}
	}
	}

	void AppTask::LockActionEventHandler(AppEvent * aEvent)
	{
	bool initiated = false;
	LockManager::Action_t action;
	int32_t actor;
	CHIP_ERROR err = CHIP_NO_ERROR;

	if (aEvent->Type == AppEvent::kEventType_Lock)
	{
	action = static_cast<LockManager::Action_t>(aEvent->LockEvent.Action);
	actor = aEvent->LockEvent.Actor;
	}
	else if (aEvent->Type == AppEvent::kEventType_Button)
	{
	if (LockMgr().NextState() == true)
	{
	action = LockManager::LOCK_ACTION;
	}
	else
	{
	action = LockManager::UNLOCK_ACTION;
	}
	actor = AppEvent::kEventType_Button;
	}
	else
	{
	err = APP_ERROR_UNHANDLED_EVENT;
	}

	if (err == CHIP_NO_ERROR)
	{
	initiated = LockMgr().InitiateAction(actor, action);

	if (!initiated)
	{
	MT793X_LOG("Action is already in progress or active.");
	}
	}
	}

	void AppTask::ButtonTimerEventHandler(AppEvent * aEvent)
	{
	if (aEvent->Type != AppEvent::kEventType_Timer \|\| sAppTask.mFunctionTimerActive == false)
	{
	return;
	}

	switch (sAppTask.mFunction)
	{
	case kFunction_NoneSelected:
	break;

	case kFunction_LightSwitch:
	// Start timer for user to cancel the facotry reset, if needed
	MT793X_LOG("Factory Reset Triggered.");
	MT793X_LOG("Release button within %ums to cancel.", FACTORY_RESET_CANCEL_WINDOW_TIMEOUT);
	sAppTask.StartTimer(FACTORY_RESET_CANCEL_WINDOW_TIMEOUT);
	sAppTask.mFunction = kFunction_FactoryReset;

	// Turn off all LEDs before starting blink to make sure blink is
	// co-ordinated.
	sStatusLED.Set(false);
	sStatusLED.Blink(500);
	break;

	case kFunction_FactoryReset:
	MT793X_LOG("Factory Reset Start.");
	// Actually trigger Factory Reset
	sAppTask.mFunction = kFunction_NoneSelected;
	ConfigurationMgr().InitiateFactoryReset();
	sStatusLED.Set(true);
	break;

	default:
	break;
	}
	}

	void AppTask::SingleButtonEventHandler(AppEvent * aEvent)
	{
	if (aEvent->Type != AppEvent::kEventType_Button)
	{
	MT793X_LOG("A Non ButtonEvent received %d", aEvent->Type);
	return;
	}

	if (aEvent->ButtonEvent.Pressed)
	{
	if (sAppTask.mFunctionTimerActive == false)
	{
	/* Start the timer to detect how long Button has been pressed */
	MT793X_LOG("AppTask status LED on");
	sStatusLED.Set(true);
	sAppTask.mFunction = kFunction_LightSwitch;
	sAppTask.StartTimer(FACTORY_RESET_TRIGGER_TIMEOUT);
	}
	else
	{
	MT793X_LOG("AppTask function timer already started");
	}
	}
	else
	{
	/* Cancel the timer to detect how long Button has been pressed */
	sAppTask.CancelTimer();

	switch (sAppTask.mFunction)
	{
	case kFunction_LightSwitch:
	MT793X_LOG("AppTask light switch");
	AppEvent event;
	event.Type = AppEvent::kEventType_Button;
	LockActionEventHandler(&event);
	break;
	case kFunction_FactoryReset:
	// factory reset cancelled, restore LED
	MT793X_LOG("AppTask factory reset cancelled");
	break;
	default:
	MT793X_LOG("not handled key release event, mFunction = %x", sAppTask.mFunction);
	break;
	}

	sStatusLED.Set(false);

	sAppTask.mFunction = kFunction_NoneSelected;
	}
	}

	void AppTask::ButtonHandler(const filogic_button_t & button)
	{
	AppEvent button_event = {};
	button_event.Type = AppEvent::kEventType_Button;
	button_event.ButtonEvent.Pressed = button.press;
	button_event.Handler = SingleButtonEventHandler;
	sAppTask.PostEvent(&button_event);
	}

	void AppTask::TimerEventHandler(TimerHandle_t xTimer)
	{
	AppEvent event;
	event.Type = AppEvent::kEventType_Timer;
	event.TimerEvent.Context = (void *) xTimer;
	event.Handler = ButtonTimerEventHandler;
	sAppTask.PostEvent(&event);
	}

	void AppTask::CancelTimer()
	{
	if (xTimerStop(sFunctionTimer, 0) == pdFAIL)
	{
	MT793X_LOG("app timer stop() failed");
	appError(APP_ERROR_STOP_TIMER_FAILED);
	}

	mFunctionTimerActive = false;
	}

	void AppTask::StartTimer(uint32_t aTimeoutInMs)
	{
	if (xTimerIsTimerActive(sFunctionTimer))
	{
	MT793X_LOG("app timer already started!");
	CancelTimer();
	}

	// timer is not active, change its period to required value (== restart).
	// FreeRTOS- Block for a maximum of 100 ticks if the change period command
	// cannot immediately be sent to the timer command queue.
	if (xTimerChangePeriod(sFunctionTimer, aTimeoutInMs / portTICK_PERIOD_MS, 100) != pdPASS)
	{
	MT793X_LOG("app timer start() failed");
	appError(APP_ERROR_START_TIMER_FAILED);
	}

	mFunctionTimerActive = true;
	}

	void AppTask::ActionInitiated(LockManager::Action_t aAction, int32_t aActor)
	{
	// Action initiated, update the light led
	if (aAction == LockManager::LOCK_ACTION)
	{
	MT793X_LOG("Lock Action has been initiated")
	sLockLED.Set(true);
	}
	else if (aAction == LockManager::UNLOCK_ACTION)
	{
	MT793X_LOG("Unlock Action has been initiated")
	sLockLED.Set(false);
	}

	if (aActor == AppEvent::kEventType_Button)
	{
	mSyncClusterToButtonAction = true;
	}
	}

	void AppTask::ActionCompleted(LockManager::Action_t aAction)
	{
	// action has been completed bon the light
	if (aAction == LockManager::LOCK_ACTION)
	{
	MT793X_LOG("Lock Action has been completed")
	}
	else if (aAction == LockManager::UNLOCK_ACTION)
	{
	MT793X_LOG("Unlock Action has been completed")
	}

	if (mSyncClusterToButtonAction)
	{
	chip::DeviceLayer::PlatformMgr().ScheduleWork(UpdateClusterState, reinterpret_cast<intptr_t>(nullptr));
	mSyncClusterToButtonAction = false;
	}
	}

	void AppTask::ActionRequest(int32_t aActor, LockManager::Action_t aAction)
	{
	AppEvent event;
	event.Type = AppEvent::kEventType_Lock;
	event.LockEvent.Actor = aActor;
	event.LockEvent.Action = aAction;
	event.Handler = LockActionEventHandler;
	PostEvent(&event);
	}

	void AppTask::PostEvent(const AppEvent * aEvent)
	{
	if (sAppEventQueue != NULL)
	{
	BaseType_t status;
	if (xPortIsInsideInterrupt())
	{
	BaseType_t higherPrioTaskWoken;

	higherPrioTaskWoken = pdFALSE;
	status = xQueueSendFromISR(sAppEventQueue, aEvent, &higherPrioTaskWoken);
	OS_YIELD_FROM_ISR(higherPrioTaskWoken);
	}
	else
	{
	status = xQueueSend(sAppEventQueue, aEvent, 1);
	}

	if (!status)
	MT793X_LOG("Failed to post event to app task event queue");
	}
	else
	{
	MT793X_LOG("Event Queue is NULL should never happen");
	}
	}

	void AppTask::DispatchEvent(AppEvent * aEvent)
	{
	if (aEvent->Handler)
	{
	aEvent->Handler(aEvent);
	}
	else
	{
	MT793X_LOG("Event received with no handler. Dropping event.");
	}
	}

	void AppTask::UpdateClusterState(intptr_t context)
	{
	bool unlocked = LockMgr().NextState();
	DlLockState newState = unlocked ? DlLockState::kUnlocked : DlLockState::kLocked;

	DlOperationSource source = DlOperationSource::kUnspecified;

	// write the new lock value
	EmberAfStatus status =
	DoorLockServer::Instance().SetLockState(1, newState, source) ? EMBER_ZCL_STATUS_SUCCESS : EMBER_ZCL_STATUS_FAILURE;

	if (status != EMBER_ZCL_STATUS_SUCCESS)
	{
	MT793X_LOG("ERR: updating lock state %x", status);
	}
	}