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/*
* Copyright (c) 2022 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.
*/
#include "AppTask.h"
#include "AppConfig.h"
#include "AppEvent.h"
#include "LEDUtil.h"
#include "WindowCovering.h"
#include <DeviceInfoProviderImpl.h>
#include <app-common/zap-generated/attribute-id.h>
#include <app-common/zap-generated/attribute-type.h>
#include <app/clusters/identify-server/identify-server.h>
#include <app/clusters/ota-requestor/OTATestEventTriggerDelegate.h>
#include <app/server/OnboardingCodesUtil.h>
#include <app/server/Server.h>
#include <app/util/attribute-storage.h>
#include <credentials/DeviceAttestationCredsProvider.h>
#include <credentials/examples/DeviceAttestationCredsExample.h>
#if CONFIG_CHIP_OTA_REQUESTOR
#include "OTAUtil.h"
#endif
#include <dk_buttons_and_leds.h>
#include <zephyr/logging/log.h>
#include <zephyr/zephyr.h>
LOG_MODULE_DECLARE(app, CONFIG_CHIP_APP_LOG_LEVEL);
using namespace ::chip;
using namespace ::chip::Credentials;
using namespace ::chip::DeviceLayer;
namespace {
constexpr uint32_t kFactoryResetTriggerTimeout = 3000;
constexpr uint32_t kFactoryResetCancelWindowTimeout = 3000;
constexpr size_t kAppEventQueueSize = 10;
K_MSGQ_DEFINE(sAppEventQueue, sizeof(AppEvent), kAppEventQueueSize, alignof(AppEvent));
k_timer sFunctionTimer;
// NOTE! This key is for test/certification only and should not be available in production devices!
// If CONFIG_CHIP_FACTORY_DATA is enabled, this value is read from the factory data.
uint8_t sTestEventTriggerEnableKey[TestEventTriggerDelegate::kEnableKeyLength] = { 0x00, 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77,
0x88, 0x99, 0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0xff };
Identify sIdentify = { WindowCovering::Endpoint(), AppTask::IdentifyStartHandler, AppTask::IdentifyStopHandler,
EMBER_ZCL_IDENTIFY_IDENTIFY_TYPE_VISIBLE_LED };
LEDWidget sStatusLED;
LEDWidget sIdentifyLED;
FactoryResetLEDsWrapper<1> sFactoryResetLEDs{ { FACTORY_RESET_SIGNAL_LED } };
chip::DeviceLayer::DeviceInfoProviderImpl gExampleDeviceInfoProvider;
bool sIsNetworkProvisioned = false;
bool sIsNetworkEnabled = false;
bool sHaveBLEConnections = false;
} // namespace
namespace LedConsts {
constexpr uint32_t kBlinkRate_ms{ 500 };
constexpr uint32_t kIdentifyBlinkRate_ms{ 500 };
namespace StatusLed {
namespace Unprovisioned {
constexpr uint32_t kOn_ms{ 100 };
constexpr uint32_t kOff_ms{ kOn_ms };
} // namespace Unprovisioned
namespace Provisioned {
constexpr uint32_t kOn_ms{ 50 };
constexpr uint32_t kOff_ms{ 950 };
} // namespace Provisioned
} // namespace StatusLed
} // namespace LedConsts
CHIP_ERROR AppTask::Init()
{
// Initialize CHIP stack
LOG_INF("Init CHIP stack");
CHIP_ERROR err = chip::Platform::MemoryInit();
if (err != CHIP_NO_ERROR)
{
LOG_ERR("Platform::MemoryInit() failed");
return err;
}
err = PlatformMgr().InitChipStack();
if (err != CHIP_NO_ERROR)
{
LOG_ERR("PlatformMgr().InitChipStack() failed");
return err;
}
#if defined(CONFIG_NET_L2_OPENTHREAD)
err = ThreadStackMgr().InitThreadStack();
if (err != CHIP_NO_ERROR)
{
LOG_ERR("ThreadStackMgr().InitThreadStack() failed");
return err;
}
#if CONFIG_CHIP_THREAD_SSED
err = ConnectivityMgr().SetThreadDeviceType(ConnectivityManager::kThreadDeviceType_SynchronizedSleepyEndDevice);
#elif CONFIG_OPENTHREAD_MTD_SED
err = ConnectivityMgr().SetThreadDeviceType(ConnectivityManager::kThreadDeviceType_SleepyEndDevice);
#else
err = ConnectivityMgr().SetThreadDeviceType(ConnectivityManager::kThreadDeviceType_MinimalEndDevice);
#endif
if (err != CHIP_NO_ERROR)
{
LOG_ERR("ConnectivityMgr().SetThreadDeviceType() failed");
return err;
}
#elif !defined(CONFIG_WIFI_NRF700X)
return CHIP_ERROR_INTERNAL;
#endif
// Initialize LEDs
LEDWidget::InitGpio();
LEDWidget::SetStateUpdateCallback(LEDStateUpdateHandler);
sStatusLED.Init(SYSTEM_STATE_LED);
sIdentifyLED.Init(LIFT_STATE_LED);
sIdentifyLED.Set(false);
UpdateStatusLED();
// Initialize buttons
auto ret = dk_buttons_init(ButtonEventHandler);
if (ret)
{
LOG_ERR("dk_buttons_init() failed");
return chip::System::MapErrorZephyr(ret);
}
// Initialize function timer user data
k_timer_init(&sFunctionTimer, &AppTask::FunctionTimerTimeoutCallback, nullptr);
k_timer_user_data_set(&sFunctionTimer, this);
#ifdef CONFIG_MCUMGR_SMP_BT
// Initialize DFU over SMP
GetDFUOverSMP().Init(RequestSMPAdvertisingStart);
GetDFUOverSMP().ConfirmNewImage();
#endif
// Initialize CHIP server
#if CONFIG_CHIP_FACTORY_DATA
ReturnErrorOnFailure(mFactoryDataProvider.Init());
SetDeviceInstanceInfoProvider(&mFactoryDataProvider);
SetDeviceAttestationCredentialsProvider(&mFactoryDataProvider);
SetCommissionableDataProvider(&mFactoryDataProvider);
// Read EnableKey from the factory data.
MutableByteSpan enableKey(sTestEventTriggerEnableKey);
err = mFactoryDataProvider.GetEnableKey(enableKey);
if (err != CHIP_NO_ERROR)
{
LOG_ERR("mFactoryDataProvider.GetEnableKey() failed. Could not delegate a test event trigger");
memset(sTestEventTriggerEnableKey, 0, sizeof(sTestEventTriggerEnableKey));
}
#else
SetDeviceAttestationCredentialsProvider(Examples::GetExampleDACProvider());
#endif
static CommonCaseDeviceServerInitParams initParams;
static OTATestEventTriggerDelegate testEventTriggerDelegate{ ByteSpan(sTestEventTriggerEnableKey) };
(void) initParams.InitializeStaticResourcesBeforeServerInit();
initParams.testEventTriggerDelegate = &testEventTriggerDelegate;
ReturnErrorOnFailure(chip::Server::GetInstance().Init(initParams));
gExampleDeviceInfoProvider.SetStorageDelegate(&Server::GetInstance().GetPersistentStorage());
chip::DeviceLayer::SetDeviceInfoProvider(&gExampleDeviceInfoProvider);
ConfigurationMgr().LogDeviceConfig();
PrintOnboardingCodes(chip::RendezvousInformationFlag(chip::RendezvousInformationFlag::kBLE));
// Add CHIP event handler and start CHIP thread.
// Note that all the initialization code should happen prior to this point to avoid data races
// between the main and the CHIP threads
PlatformMgr().AddEventHandler(ChipEventHandler, 0);
err = PlatformMgr().StartEventLoopTask();
if (err != CHIP_NO_ERROR)
{
LOG_ERR("PlatformMgr().StartEventLoopTask() failed");
return err;
}
WindowCovering::Instance().PositionLEDUpdate(WindowCovering::MoveType::LIFT);
WindowCovering::Instance().PositionLEDUpdate(WindowCovering::MoveType::TILT);
return CHIP_NO_ERROR;
}
CHIP_ERROR AppTask::StartApp()
{
ReturnErrorOnFailure(Init());
AppEvent event{};
while (true)
{
k_msgq_get(&sAppEventQueue, &event, K_FOREVER);
DispatchEvent(event);
}
return CHIP_NO_ERROR;
}
void AppTask::IdentifyStartHandler(Identify *)
{
AppEvent event;
event.Type = AppEventType::IdentifyStart;
event.Handler = [](const AppEvent &) {
WindowCovering::Instance().GetLiftIndicator().SuppressOutput();
sIdentifyLED.Blink(LedConsts::kIdentifyBlinkRate_ms);
};
PostEvent(event);
}
void AppTask::IdentifyStopHandler(Identify *)
{
AppEvent event;
event.Type = AppEventType::IdentifyStop;
event.Handler = [](const AppEvent &) {
sIdentifyLED.Set(false);
WindowCovering::Instance().GetLiftIndicator().ApplyLevel();
};
PostEvent(event);
}
void AppTask::ButtonEventHandler(uint32_t buttonState, uint32_t hasChanged)
{
AppEvent event;
event.Type = AppEventType::Button;
if (FUNCTION_BUTTON_MASK & hasChanged)
{
event.ButtonEvent.PinNo = FUNCTION_BUTTON;
event.ButtonEvent.Action =
static_cast<uint8_t>((FUNCTION_BUTTON_MASK & buttonState) ? AppEventType::ButtonPushed : AppEventType::ButtonReleased);
event.Handler = FunctionHandler;
PostEvent(event);
}
if (BLE_ADVERTISEMENT_START_BUTTON_MASK & buttonState & hasChanged)
{
event.ButtonEvent.PinNo = BLE_ADVERTISEMENT_START_BUTTON;
event.ButtonEvent.Action = static_cast<uint8_t>(AppEventType::ButtonPushed);
event.Handler = StartBLEAdvertisementHandler;
PostEvent(event);
}
if (OPEN_BUTTON_MASK & hasChanged)
{
event.ButtonEvent.PinNo = OPEN_BUTTON;
event.ButtonEvent.Action =
static_cast<uint8_t>((OPEN_BUTTON_MASK & buttonState) ? AppEventType::ButtonPushed : AppEventType::ButtonReleased);
event.Handler = OpenHandler;
PostEvent(event);
}
if (CLOSE_BUTTON_MASK & hasChanged)
{
event.ButtonEvent.PinNo = CLOSE_BUTTON;
event.ButtonEvent.Action =
static_cast<uint8_t>((CLOSE_BUTTON_MASK & buttonState) ? AppEventType::ButtonPushed : AppEventType::ButtonReleased);
event.Handler = CloseHandler;
PostEvent(event);
}
}
#ifdef CONFIG_MCUMGR_SMP_BT
void AppTask::RequestSMPAdvertisingStart(void)
{
AppEvent event;
event.Type = AppEventType::StartSMPAdvertising;
event.Handler = [](const AppEvent &) { GetDFUOverSMP().StartBLEAdvertising(); };
PostEvent(event);
}
#endif
void AppTask::FunctionTimerTimeoutCallback(k_timer * timer)
{
if (!timer)
{
return;
}
AppEvent event;
event.Type = AppEventType::Timer;
event.TimerEvent.Context = k_timer_user_data_get(timer);
event.Handler = FunctionTimerEventHandler;
PostEvent(event);
}
void AppTask::FunctionTimerEventHandler(const AppEvent & event)
{
if (event.Type != AppEventType::Timer)
return;
// If we reached here, the button was held past kFactoryResetTriggerTimeout, initiate factory reset
if (Instance().mFunctionTimerActive && Instance().mFunction == FunctionEvent::SoftwareUpdate)
{
LOG_INF("Factory Reset Triggered. Release button within %ums to cancel.", kFactoryResetTriggerTimeout);
// Start timer for kFactoryResetCancelWindowTimeout to allow user to cancel, if required.
Instance().StartTimer(kFactoryResetCancelWindowTimeout);
Instance().mFunction = FunctionEvent::FactoryReset;
#ifdef CONFIG_STATE_LEDS
// Turn off all LEDs before starting blink to make sure blink is co-ordinated.
sStatusLED.Set(false);
sFactoryResetLEDs.Set(false);
sStatusLED.Blink(LedConsts::kBlinkRate_ms);
sFactoryResetLEDs.Blink(LedConsts::kBlinkRate_ms);
#endif
}
else if (Instance().mFunctionTimerActive && Instance().mFunction == FunctionEvent::FactoryReset)
{
// Actually trigger Factory Reset
Instance().mFunction = FunctionEvent::NoneSelected;
chip::Server::GetInstance().ScheduleFactoryReset();
}
}
void AppTask::FunctionHandler(const AppEvent & event)
{
if (event.ButtonEvent.PinNo != FUNCTION_BUTTON)
return;
// To initiate factory reset: press the FUNCTION_BUTTON for FACTORY_RESET_TRIGGER_TIMEOUT + FACTORY_RESET_CANCEL_WINDOW_TIMEOUT
// All LEDs start blinking after FACTORY_RESET_TRIGGER_TIMEOUT to signal factory reset has been initiated.
// To cancel factory reset: release the FUNCTION_BUTTON once all LEDs start blinking within the
// FACTORY_RESET_CANCEL_WINDOW_TIMEOUT
if (event.ButtonEvent.Action == static_cast<uint8_t>(AppEventType::ButtonPushed))
{
if (!Instance().mFunctionTimerActive && Instance().mFunction == FunctionEvent::NoneSelected)
{
Instance().StartTimer(kFactoryResetTriggerTimeout);
Instance().mFunction = FunctionEvent::SoftwareUpdate;
}
}
else
{
// If the button was released before factory reset got initiated, trigger a software update.
if (Instance().mFunctionTimerActive && Instance().mFunction == FunctionEvent::SoftwareUpdate)
{
Instance().CancelTimer();
#ifdef CONFIG_MCUMGR_SMP_BT
GetDFUOverSMP().StartServer();
#else
LOG_INF("Software update is disabled");
#endif
Instance().mFunction = FunctionEvent::NoneSelected;
}
else if (Instance().mFunctionTimerActive && Instance().mFunction == FunctionEvent::FactoryReset)
{
sFactoryResetLEDs.Set(false);
UpdateStatusLED();
Instance().CancelTimer();
Instance().mFunction = FunctionEvent::NoneSelected;
LOG_INF("Factory Reset has been Canceled");
}
else if (Instance().mFunctionTimerActive)
{
CancelTimer();
Instance().mFunction = FunctionEvent::NoneSelected;
}
}
}
void AppTask::StartBLEAdvertisementHandler(const AppEvent &)
{
if (Server::GetInstance().GetFabricTable().FabricCount() != 0)
{
LOG_INF("Matter service BLE advertising not started - device is already commissioned");
return;
}
if (ConnectivityMgr().IsBLEAdvertisingEnabled())
{
LOG_INF("BLE advertising is already enabled");
return;
}
if (Server::GetInstance().GetCommissioningWindowManager().OpenBasicCommissioningWindow() != CHIP_NO_ERROR)
{
LOG_ERR("OpenBasicCommissioningWindow() failed");
}
}
void AppTask::OpenHandler(const AppEvent & event)
{
if (event.ButtonEvent.PinNo != OPEN_BUTTON || Instance().mFunction != FunctionEvent::NoneSelected)
return;
if (event.ButtonEvent.Action == static_cast<uint8_t>(AppEventType::ButtonPushed))
{
Instance().mOpenButtonIsPressed = true;
if (Instance().mCloseButtonIsPressed)
{
Instance().ToggleMoveType();
}
}
else if (event.ButtonEvent.Action == static_cast<uint8_t>(AppEventType::ButtonReleased))
{
if (!Instance().mCloseButtonIsPressed)
{
if (!Instance().mMoveTypeRecentlyChanged)
{
WindowCovering::Instance().SetSingleStepTarget(OperationalState::MovingUpOrOpen);
}
else
{
Instance().mMoveTypeRecentlyChanged = false;
}
}
Instance().mOpenButtonIsPressed = false;
}
}
void AppTask::CloseHandler(const AppEvent & event)
{
if (event.ButtonEvent.PinNo != CLOSE_BUTTON || Instance().mFunction != FunctionEvent::NoneSelected)
return;
if (event.ButtonEvent.Action == static_cast<uint8_t>(AppEventType::ButtonPushed))
{
Instance().mCloseButtonIsPressed = true;
if (Instance().mOpenButtonIsPressed)
{
Instance().ToggleMoveType();
}
}
else if (event.ButtonEvent.Action == static_cast<uint8_t>(AppEventType::ButtonReleased))
{
if (!Instance().mOpenButtonIsPressed)
{
if (!Instance().mMoveTypeRecentlyChanged)
{
WindowCovering::Instance().SetSingleStepTarget(OperationalState::MovingDownOrClose);
}
else
{
Instance().mMoveTypeRecentlyChanged = false;
}
}
Instance().mCloseButtonIsPressed = false;
}
}
void AppTask::ToggleMoveType()
{
if (WindowCovering::Instance().GetMoveType() == WindowCovering::MoveType::LIFT)
{
WindowCovering::Instance().SetMoveType(WindowCovering::MoveType::TILT);
LOG_INF("Window covering move: tilt");
}
else
{
WindowCovering::Instance().SetMoveType(WindowCovering::MoveType::LIFT);
LOG_INF("Window covering move: lift");
}
mMoveTypeRecentlyChanged = true;
}
void AppTask::UpdateLedStateEventHandler(const AppEvent & event)
{
if (event.Type == AppEventType::UpdateLedState)
{
event.UpdateLedStateEvent.LedWidget->UpdateState();
}
}
void AppTask::LEDStateUpdateHandler(LEDWidget & ledWidget)
{
AppEvent event;
event.Type = AppEventType::UpdateLedState;
event.Handler = UpdateLedStateEventHandler;
event.UpdateLedStateEvent.LedWidget = &ledWidget;
PostEvent(event);
}
void AppTask::UpdateStatusLED()
{
#ifdef CONFIG_STATE_LEDS
// Update the status LED.
//
// If thread and service provisioned, keep the LED On constantly.
//
// If the system has ble connection(s) uptill the stage above, THEN blink the LED at an even
// rate of 100ms.
//
// Otherwise, blink the LED On for a very short time.
if (sIsNetworkProvisioned && sIsNetworkEnabled)
{
sStatusLED.Set(true);
}
else if (sHaveBLEConnections)
{
sStatusLED.Blink(LedConsts::StatusLed::Unprovisioned::kOn_ms, LedConsts::StatusLed::Unprovisioned::kOff_ms);
}
else
{
sStatusLED.Blink(LedConsts::StatusLed::Provisioned::kOn_ms, LedConsts::StatusLed::Provisioned::kOff_ms);
}
#endif
}
void AppTask::ChipEventHandler(const ChipDeviceEvent * event, intptr_t /* arg */)
{
switch (event->Type)
{
case DeviceEventType::kCHIPoBLEAdvertisingChange:
#ifdef CONFIG_CHIP_NFC_COMMISSIONING
if (event->CHIPoBLEAdvertisingChange.Result == kActivity_Started)
{
if (NFCMgr().IsTagEmulationStarted())
{
LOG_INF("NFC Tag emulation is already started");
}
else
{
ShareQRCodeOverNFC(chip::RendezvousInformationFlags(chip::RendezvousInformationFlag::kBLE));
}
}
else if (event->CHIPoBLEAdvertisingChange.Result == kActivity_Stopped)
{
NFCMgr().StopTagEmulation();
}
#endif
sHaveBLEConnections = ConnectivityMgr().NumBLEConnections() != 0;
UpdateStatusLED();
break;
case DeviceEventType::kThreadStateChange:
sIsNetworkProvisioned = ConnectivityMgr().IsThreadProvisioned();
sIsNetworkEnabled = ConnectivityMgr().IsThreadEnabled();
UpdateStatusLED();
break;
case DeviceEventType::kDnssdPlatformInitialized:
#if CONFIG_CHIP_OTA_REQUESTOR
InitBasicOTARequestor();
#endif
break;
default:
break;
}
}
void AppTask::CancelTimer()
{
k_timer_stop(&sFunctionTimer);
Instance().mFunctionTimerActive = false;
}
void AppTask::StartTimer(uint32_t timeoutMs)
{
k_timer_start(&sFunctionTimer, K_MSEC(timeoutMs), K_NO_WAIT);
Instance().mFunctionTimerActive = true;
}
void AppTask::PostEvent(const AppEvent & event)
{
if (k_msgq_put(&sAppEventQueue, &event, K_NO_WAIT))
{
LOG_INF("Failed to post event to app task event queue");
}
}
void AppTask::DispatchEvent(const AppEvent & event)
{
if (event.Handler)
{
event.Handler(event);
}
else
{
LOG_INF("Event received with no handler. Dropping event.");
}
}