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/*
*
* Copyright (c) 2020 Project CHIP Authors
* Copyright (c) 2020 Texas Instruments Incorporated
* 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 "CHIPDeviceManager.h"
#include "DeviceCallbacks.h"
#include <app/server/Dnssd.h>
#include <app/server/Server.h>
#include "FreeRTOS.h"
#include <app/EventLogging.h>
#include <app/util/af-types.h>
#include <app/util/attribute-storage.h>
#include <credentials/DeviceAttestationCredsProvider.h>
#include <credentials/examples/DeviceAttestationCredsExample.h>
#include <examples/platform/cc13x2_26x2/CC13X2_26X2DeviceAttestationCreds.h>
#if CHIP_DEVICE_CONFIG_ENABLE_OTA_REQUESTOR
#include <app/clusters/ota-requestor/BDXDownloader.h>
#include <app/clusters/ota-requestor/DefaultOTARequestor.h>
#include <app/clusters/ota-requestor/DefaultOTARequestorDriver.h>
#include <app/clusters/ota-requestor/DefaultOTARequestorStorage.h>
#include <platform/cc13xx_26xx/OTAImageProcessorImpl.h>
#endif
#include <app-common/zap-generated/attributes/Accessors.h>
#include <app/clusters/identify-server/identify-server.h>
#include <lib/support/CHIPMem.h>
#include <lib/support/CHIPPlatformMemory.h>
#include <platform/CHIPDeviceLayer.h>
#include <app/server/OnboardingCodesUtil.h>
#include <ti/drivers/apps/Button.h>
#include <ti/drivers/apps/LED.h>
/* syscfg */
#include <ti_drivers_config.h>
#define APP_TASK_STACK_SIZE (4096)
#define APP_TASK_PRIORITY 4
#define APP_EVENT_QUEUE_SIZE 10
#define PCC_CLUSTER_ENDPOINT 1
#define ONOFF_CLUSTER_ENDPOINT 1
#define EXTENDED_DISCOVERY_TIMEOUT_SEC 20
using namespace chip;
using namespace chip::app;
using namespace chip::Credentials;
using namespace chip::DeviceLayer;
using namespace chip::DeviceManager;
using namespace chip::app::Clusters;
static TaskHandle_t sAppTaskHandle;
static QueueHandle_t sAppEventQueue;
static LED_Handle sAppRedHandle;
static LED_Handle sAppGreenHandle;
static Button_Handle sAppLeftHandle;
static Button_Handle sAppRightHandle;
AppTask AppTask::sAppTask;
static DeviceCallbacks sDeviceCallbacks;
#if CHIP_DEVICE_CONFIG_ENABLE_OTA_REQUESTOR
static DefaultOTARequestor sRequestorCore;
static DefaultOTARequestorStorage sRequestorStorage;
static DefaultOTARequestorDriver sRequestorUser;
static BDXDownloader sDownloader;
static OTAImageProcessorImpl sImageProcessor;
void InitializeOTARequestor(void)
{
// Initialize and interconnect the Requestor and Image Processor objects
SetRequestorInstance(&sRequestorCore);
sRequestorStorage.Init(chip::Server::GetInstance().GetPersistentStorage());
sRequestorCore.Init(chip::Server::GetInstance(), sRequestorStorage, sRequestorUser, sDownloader);
sImageProcessor.SetOTADownloader(&sDownloader);
sDownloader.SetImageProcessorDelegate(&sImageProcessor);
sRequestorUser.Init(&sRequestorCore, &sImageProcessor);
}
#endif
static const chip::EndpointId sIdentifyEndpointId = 0;
static const uint32_t sIdentifyBlinkRateMs = 500;
::Identify stIdentify = { sIdentifyEndpointId, AppTask::IdentifyStartHandler, AppTask::IdentifyStopHandler,
Clusters::Identify::IdentifyTypeEnum::kVisibleIndicator, AppTask::TriggerIdentifyEffectHandler };
int AppTask::StartAppTask()
{
int ret = 0;
sAppEventQueue = xQueueCreate(APP_EVENT_QUEUE_SIZE, sizeof(AppEvent));
if (sAppEventQueue == NULL)
{
PLAT_LOG("Failed to allocate app event queue");
while (true)
;
}
// Start App task.
if (xTaskCreate(AppTaskMain, "APP", APP_TASK_STACK_SIZE / sizeof(StackType_t), NULL, APP_TASK_PRIORITY, &sAppTaskHandle) !=
pdPASS)
{
PLAT_LOG("Failed to create app task");
while (true)
;
}
return ret;
}
int AppTask::Init()
{
LED_Params ledParams;
Button_Params buttonParams;
cc13xx_26xxLogInit();
// Init Chip memory management before the stack
Platform::MemoryInit();
CHIP_ERROR ret = PlatformMgr().InitChipStack();
if (ret != CHIP_NO_ERROR)
{
PLAT_LOG("PlatformMgr().InitChipStack() failed");
while (true)
;
}
ret = ThreadStackMgr().InitThreadStack();
if (ret != CHIP_NO_ERROR)
{
PLAT_LOG("ThreadStackMgr().InitThreadStack() failed");
while (true)
;
}
#if CHIP_DEVICE_CONFIG_THREAD_FTD
ret = ConnectivityMgr().SetThreadDeviceType(ConnectivityManager::kThreadDeviceType_Router);
#elif CONFIG_OPENTHREAD_MTD_SED
ret = ConnectivityMgr().SetThreadDeviceType(ConnectivityManager::kThreadDeviceType_SleepyEndDevice);
#else
ret = ConnectivityMgr().SetThreadDeviceType(ConnectivityManager::kThreadDeviceType_MinimalEndDevice);
#endif
if (ret != CHIP_NO_ERROR)
{
PLAT_LOG("ConnectivityMgr().SetThreadDeviceType() failed");
while (true)
;
}
ret = ThreadStackMgrImpl().StartThreadTask();
if (ret != CHIP_NO_ERROR)
{
PLAT_LOG("ThreadStackMgr().StartThreadTask() failed");
while (true)
;
}
// Initialize LEDs
PLAT_LOG("Initialize LEDs");
LED_init();
LED_Params_init(&ledParams); // default PWM LED
sAppRedHandle = LED_open(CONFIG_LED_RED, &ledParams);
LED_setOff(sAppRedHandle);
LED_Params_init(&ledParams); // default PWM LED
sAppGreenHandle = LED_open(CONFIG_LED_GREEN, &ledParams);
LED_setOff(sAppGreenHandle);
// Initialize buttons
PLAT_LOG("Initialize buttons");
Button_init();
Button_Params_init(&buttonParams);
buttonParams.buttonEventMask = Button_EV_CLICKED | Button_EV_LONGPRESSED;
buttonParams.longPressDuration = 5000U; // ms
sAppLeftHandle = Button_open(CONFIG_BTN_LEFT, &buttonParams);
Button_setCallback(sAppLeftHandle, ButtonLeftEventHandler);
Button_Params_init(&buttonParams);
buttonParams.buttonEventMask = Button_EV_CLICKED;
buttonParams.longPressDuration = 1000U; // ms
sAppRightHandle = Button_open(CONFIG_BTN_RIGHT, &buttonParams);
Button_setCallback(sAppRightHandle, ButtonRightEventHandler);
// Initialize device attestation config
#ifdef CC13X2_26X2_ATTESTATION_CREDENTIALS
#ifdef CC13XX_26XX_FACTORY_DATA
SetDeviceInstanceInfoProvider(&mFactoryDataProvider);
SetDeviceAttestationCredentialsProvider(&mFactoryDataProvider);
SetCommissionableDataProvider(&mFactoryDataProvider);
#else
SetDeviceAttestationCredentialsProvider(CC13X2_26X2::GetCC13X2_26X2DacProvider());
#endif
#else
SetDeviceAttestationCredentialsProvider(Examples::GetExampleDACProvider());
#endif
// Initialize Pump module
PLAT_LOG("Initialize Pump");
PumpMgr().Init();
PumpMgr().SetCallbacks(ActionInitiated, ActionCompleted);
#if CHIP_DEVICE_CONFIG_ENABLE_EXTENDED_DISCOVERY
DnssdServer::Instance().SetExtendedDiscoveryTimeoutSecs(EXTENDED_DISCOVERY_TIMEOUT_SEC);
#endif
// Init ZCL Data Model
static chip::CommonCaseDeviceServerInitParams initParams;
(void) initParams.InitializeStaticResourcesBeforeServerInit();
chip::Server::GetInstance().Init(initParams);
ConfigurationMgr().LogDeviceConfig();
uint32_t iterationCount;
mFactoryDataProvider.GetSpake2pIterationCount(iterationCount);
#if CHIP_DEVICE_CONFIG_ENABLE_OTA_REQUESTOR
InitializeOTARequestor();
#endif
// QR code will be used with CHIP Tool
PrintOnboardingCodes(RendezvousInformationFlags(RendezvousInformationFlag::kBLE));
CHIPDeviceManager & deviceMgr = CHIPDeviceManager::GetInstance();
ret = deviceMgr.Init(&sDeviceCallbacks);
if (ret != CHIP_NO_ERROR)
{
PLAT_LOG("CHIPDeviceManager::Init() failed: %s", ErrorStr(ret));
while (true)
;
}
return 0;
}
void AppTask::AppTaskMain(void * pvParameter)
{
AppEvent event;
sAppTask.Init();
while (true)
{
/* Task pend until we have stuff to do */
if (xQueueReceive(sAppEventQueue, &event, portMAX_DELAY) == pdTRUE)
{
sAppTask.DispatchEvent(&event);
}
}
}
void AppTask::PostEvent(const AppEvent * aEvent)
{
if (xQueueSend(sAppEventQueue, aEvent, 0) != pdPASS)
{
/* Failed to post the message */
}
}
void AppTask::ButtonLeftEventHandler(Button_Handle handle, Button_EventMask events)
{
AppEvent event;
event.Type = AppEvent::kEventType_ButtonLeft;
if (events & Button_EV_CLICKED)
{
event.ButtonEvent.Type = AppEvent::kAppEventButtonType_Clicked;
}
else if (events & Button_EV_LONGPRESSED)
{
event.ButtonEvent.Type = AppEvent::kAppEventButtonType_LongPressed;
}
// button callbacks are in ISR context
if (xQueueSendFromISR(sAppEventQueue, &event, NULL) != pdPASS)
{
/* Failed to post the message */
}
}
void AppTask::ButtonRightEventHandler(Button_Handle handle, Button_EventMask events)
{
AppEvent event;
event.Type = AppEvent::kEventType_ButtonRight;
if (events & Button_EV_CLICKED)
{
event.ButtonEvent.Type = AppEvent::kAppEventButtonType_Clicked;
}
// button callbacks are in ISR context
if (xQueueSendFromISR(sAppEventQueue, &event, NULL) != pdPASS)
{
/* Failed to post the message */
}
}
void AppTask::ActionInitiated(PumpManager::Action_t aAction, int32_t aActor)
{
// If the action has been initiated by the pump, update the pump trait
// and start flashing the LEDs rapidly to indicate action initiation.
if (aAction == PumpManager::START_ACTION)
{
PLAT_LOG("Pump start initiated");
; // TODO
}
else if (aAction == PumpManager::STOP_ACTION)
{
PLAT_LOG("Stop initiated");
; // TODO
}
LED_setOn(sAppGreenHandle, LED_BRIGHTNESS_MAX);
LED_startBlinking(sAppGreenHandle, 50 /* ms */, LED_BLINK_FOREVER);
LED_setOn(sAppRedHandle, LED_BRIGHTNESS_MAX);
LED_startBlinking(sAppRedHandle, 110 /* ms */, LED_BLINK_FOREVER);
}
void AppTask::ActionCompleted(PumpManager::Action_t aAction, int32_t aActor)
{
// if the action has been completed by the pump, update the pump trait.
// Turn on the pump state LED if in a STARTED state OR
// Turn off the pump state LED if in an STOPPED state.
if (aAction == PumpManager::START_ACTION)
{
PLAT_LOG("Pump start completed");
LED_stopBlinking(sAppGreenHandle);
LED_setOn(sAppGreenHandle, LED_BRIGHTNESS_MAX);
LED_stopBlinking(sAppRedHandle);
LED_setOn(sAppRedHandle, LED_BRIGHTNESS_MAX);
// Signal to the PCC cluster, that the pump is running
sAppTask.UpdateClusterState();
}
else if (aAction == PumpManager::STOP_ACTION)
{
PLAT_LOG("Pump stop completed");
LED_stopBlinking(sAppGreenHandle);
LED_setOff(sAppGreenHandle);
LED_stopBlinking(sAppRedHandle);
LED_setOff(sAppRedHandle);
// Signal to the PCC cluster, that the pump is NOT running
sAppTask.UpdateClusterState();
}
if (aActor == AppEvent::kEventType_ButtonLeft)
{
sAppTask.UpdateClusterState();
}
}
void AppTask::DispatchEvent(AppEvent * aEvent)
{
switch (aEvent->Type)
{
case AppEvent::kEventType_ButtonRight:
if (AppEvent::kAppEventButtonType_Clicked == aEvent->ButtonEvent.Type)
{
// Toggle Pump state
if (!PumpMgr().IsStopped())
{
PumpMgr().InitiateAction(0, PumpManager::STOP_ACTION);
}
else
{
PumpMgr().InitiateAction(0, PumpManager::START_ACTION);
}
}
break;
case AppEvent::kEventType_ButtonLeft:
if (AppEvent::kAppEventButtonType_Clicked == aEvent->ButtonEvent.Type)
{
// Post event for demonstration purposes, we must ensure that the
// LogEvent is called in the right context which is the Matter mainloop
// thru ScheduleWork()
chip::DeviceLayer::PlatformMgr().ScheduleWork(sAppTask.PostEvents, reinterpret_cast<intptr_t>(nullptr));
// Toggle BLE advertisements
if (!ConnectivityMgr().IsBLEAdvertisingEnabled())
{
if (chip::Server::GetInstance().GetCommissioningWindowManager().OpenBasicCommissioningWindow() == CHIP_NO_ERROR)
{
PLAT_LOG("Enabled BLE Advertisements");
}
else
{
PLAT_LOG("OpenBasicCommissioningWindow() failed");
}
}
else
{
// Disable BLE advertisements
ConnectivityMgr().SetBLEAdvertisingEnabled(false);
PLAT_LOG("Disabled BLE Advertisements");
}
}
else if (AppEvent::kAppEventButtonType_LongPressed == aEvent->ButtonEvent.Type)
{
chip::Server::GetInstance().ScheduleFactoryReset();
}
break;
case AppEvent::kEventType_IdentifyStart:
LED_setOn(sAppGreenHandle, LED_BRIGHTNESS_MAX);
LED_startBlinking(sAppGreenHandle, sIdentifyBlinkRateMs, LED_BLINK_FOREVER);
PLAT_LOG("Identify started");
break;
case AppEvent::kEventType_IdentifyStop:
LED_stopBlinking(sAppGreenHandle);
if (!PumpMgr().IsStopped())
{
LED_setOn(sAppGreenHandle, LED_BRIGHTNESS_MAX);
}
else
{
LED_setOff(sAppGreenHandle);
}
PLAT_LOG("Identify stopped");
break;
case AppEvent::kEventType_AppEvent:
if (NULL != aEvent->Handler)
{
aEvent->Handler(aEvent);
}
break;
case AppEvent::kEventType_None:
default:
break;
}
}
void AppTask::InitOnOffClusterState()
{
Protocols::InteractionModel::Status status;
ChipLogProgress(NotSpecified, "Init On/Off clusterstate");
// Write false as pump always boots in stopped mode
status = OnOff::Attributes::OnOff::Set(ONOFF_CLUSTER_ENDPOINT, false);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Init On/Off state %x", to_underlying(status));
}
}
void AppTask::InitPCCClusterState() {}
void AppTask::UpdateClusterState(void)
{
// We must ensure that the Cluster accessors gets called in the right context
// which is the Matter mainloop thru ScheduleWork()
chip::DeviceLayer::PlatformMgr().ScheduleWork(UpdateCluster, reinterpret_cast<intptr_t>(nullptr));
}
void AppTask::UpdateCluster(intptr_t context)
{
Protocols::InteractionModel::Status status;
BitMask<PumpConfigurationAndControl::PumpStatusBitmap> pumpStatus;
ChipLogProgress(NotSpecified, "Update Cluster State");
// Update the PumpStatus
PumpConfigurationAndControl::Attributes::PumpStatus::Get(PCC_CLUSTER_ENDPOINT, &pumpStatus);
if (PumpMgr().IsStopped())
{
pumpStatus.Clear(PumpConfigurationAndControl::PumpStatusBitmap::kRunning);
}
else
{
pumpStatus.Set(PumpConfigurationAndControl::PumpStatusBitmap::kRunning);
}
PumpConfigurationAndControl::Attributes::PumpStatus::Set(PCC_CLUSTER_ENDPOINT, pumpStatus);
status = PumpConfigurationAndControl::Attributes::ControlMode::Set(PCC_CLUSTER_ENDPOINT,
PumpConfigurationAndControl::ControlModeEnum::kConstantFlow);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Constant Flow error %x", to_underlying(status));
}
status = PumpConfigurationAndControl::Attributes::ControlMode::Set(
PCC_CLUSTER_ENDPOINT, PumpConfigurationAndControl::ControlModeEnum::kConstantPressure);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Constant Pressure error %x", to_underlying(status));
}
status = PumpConfigurationAndControl::Attributes::ControlMode::Set(
PCC_CLUSTER_ENDPOINT, PumpConfigurationAndControl::ControlModeEnum::kConstantSpeed);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Constant Speed error %x", to_underlying(status));
}
status = PumpConfigurationAndControl::Attributes::ControlMode::Set(
PCC_CLUSTER_ENDPOINT, PumpConfigurationAndControl::ControlModeEnum::kConstantTemperature);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Constant Temperature error %x", to_underlying(status));
}
// Write the new values
bool onOffState = !PumpMgr().IsStopped();
status = OnOff::Attributes::OnOff::Set(ONOFF_CLUSTER_ENDPOINT, onOffState);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating On/Off state %x", to_underlying(status));
}
int16_t maxPressure = PumpMgr().GetMaxPressure();
status = PumpConfigurationAndControl::Attributes::MaxPressure::Set(PCC_CLUSTER_ENDPOINT, maxPressure);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating MaxPressure %x", to_underlying(status));
}
uint16_t maxSpeed = PumpMgr().GetMaxSpeed();
status = PumpConfigurationAndControl::Attributes::MaxSpeed::Set(PCC_CLUSTER_ENDPOINT, maxSpeed);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating MaxSpeed %x", to_underlying(status));
}
uint16_t maxFlow = PumpMgr().GetMaxFlow();
status = PumpConfigurationAndControl::Attributes::MaxFlow::Set(PCC_CLUSTER_ENDPOINT, maxFlow);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating MaxFlow %x", to_underlying(status));
}
int16_t minConstPress = PumpMgr().GetMinConstPressure();
status = PumpConfigurationAndControl::Attributes::MinConstPressure::Set(PCC_CLUSTER_ENDPOINT, minConstPress);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating MinConstPressure %x", to_underlying(status));
}
int16_t maxConstPress = PumpMgr().GetMaxConstPressure();
status = PumpConfigurationAndControl::Attributes::MaxConstPressure::Set(PCC_CLUSTER_ENDPOINT, maxConstPress);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating MaxConstPressure %x", to_underlying(status));
}
int16_t minCompPress = PumpMgr().GetMinCompPressure();
status = PumpConfigurationAndControl::Attributes::MinCompPressure::Set(PCC_CLUSTER_ENDPOINT, minCompPress);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating MinCompPressure %x", to_underlying(status));
}
int16_t maxCompPress = PumpMgr().GetMaxCompPressure();
status = PumpConfigurationAndControl::Attributes::MaxCompPressure::Set(PCC_CLUSTER_ENDPOINT, maxCompPress);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating MaxCompPressure %x", to_underlying(status));
}
uint16_t minConstSpeed = PumpMgr().GetMinConstSpeed();
status = PumpConfigurationAndControl::Attributes::MinConstSpeed::Set(PCC_CLUSTER_ENDPOINT, minConstSpeed);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating MinConstSpeed %x", to_underlying(status));
}
uint16_t maxConstSpeed = PumpMgr().GetMaxConstSpeed();
status = PumpConfigurationAndControl::Attributes::MaxConstSpeed::Set(PCC_CLUSTER_ENDPOINT, maxConstSpeed);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating MaxConstSpeed %x", to_underlying(status));
}
uint16_t minConstFlow = PumpMgr().GetMinConstFlow();
status = PumpConfigurationAndControl::Attributes::MinConstFlow::Set(PCC_CLUSTER_ENDPOINT, minConstFlow);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating MinConstFlow %x", to_underlying(status));
}
uint16_t maxConstFlow = PumpMgr().GetMaxConstFlow();
status = PumpConfigurationAndControl::Attributes::MaxConstFlow::Set(PCC_CLUSTER_ENDPOINT, maxConstFlow);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating MaxConstFlow %x", to_underlying(status));
}
int16_t minConstTemp = PumpMgr().GetMinConstTemp();
status = PumpConfigurationAndControl::Attributes::MinConstTemp::Set(PCC_CLUSTER_ENDPOINT, minConstTemp);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating MinConstTemp %x", to_underlying(status));
}
int16_t maxConstTemp = PumpMgr().GetMaxConstTemp();
status = PumpConfigurationAndControl::Attributes::MaxConstTemp::Set(PCC_CLUSTER_ENDPOINT, maxConstTemp);
if (status != Protocols::InteractionModel::Status::Success)
{
ChipLogError(NotSpecified, "ERR: Updating MaxConstTemp %x", to_underlying(status));
}
}
void AppTask::PostEvents(intptr_t context)
{
// Example on posting events - here we post the general fault event on endpoints with PCC Server enabled
for (auto endpoint : EnabledEndpointsWithServerCluster(PumpConfigurationAndControl::Id))
{
PumpConfigurationAndControl::Events::GeneralFault::Type event;
EventNumber eventNumber;
ChipLogProgress(Zcl, "AppTask: Post PCC GeneralFault event");
// Using default priority for the event
if (CHIP_NO_ERROR != LogEvent(event, endpoint, eventNumber))
{
ChipLogError(Zcl, "AppTask: Failed to record GeneralFault event");
}
}
}
void AppTask::IdentifyStartHandler(::Identify *)
{
AppEvent event;
event.Type = AppEvent::kEventType_IdentifyStart;
sAppTask.PostEvent(&event);
}
void AppTask::IdentifyStopHandler(::Identify *)
{
AppEvent event;
event.Type = AppEvent::kEventType_IdentifyStop;
sAppTask.PostEvent(&event);
}
void AppTask::TriggerIdentifyEffectHandler(::Identify * identify)
{
switch (identify->mCurrentEffectIdentifier)
{
case Clusters::Identify::EffectIdentifierEnum::kBlink:
PLAT_LOG("Starting blink identifier effect");
IdentifyStartHandler(identify);
break;
case Clusters::Identify::EffectIdentifierEnum::kBreathe:
PLAT_LOG("Breathe identifier effect not implemented");
break;
case Clusters::Identify::EffectIdentifierEnum::kOkay:
PLAT_LOG("Okay identifier effect not implemented");
break;
case Clusters::Identify::EffectIdentifierEnum::kChannelChange:
PLAT_LOG("Channel Change identifier effect not implemented");
break;
case Clusters::Identify::EffectIdentifierEnum::kFinishEffect:
PLAT_LOG("Finish identifier effect not implemented");
break;
case Clusters::Identify::EffectIdentifierEnum::kStopEffect:
PLAT_LOG("Stop identifier effect");
IdentifyStopHandler(identify);
break;
default:
PLAT_LOG("No identifier effect");
}
}