// Copyright (c) 2017-2022, Mudita Sp. z.o.o. All rights reserved.
// For licensing, see https://github.com/mudita/MuditaOS/LICENSE.md
#include "endpoints/developerMode/event/ATRequest.hpp"
#include "handler/RawATHandler.hpp"
#include "CellularUrcHandler.hpp"
#include "service-cellular/CellularMessage.hpp"
#include "service-cellular/CellularServiceAPI.hpp"
#include "service-cellular/ServiceCellular.hpp"
#include "service-cellular/SignalStrength.hpp"
#include "service-cellular/State.hpp"
#include "service-cellular/USSD.hpp"
#include "service-cellular/MessageConstants.hpp"
#include "service-cellular/connection-manager/ConnectionManagerCellularCommands.hpp"
#include "SimCard.hpp"
#include "NetworkSettings.hpp"
#include "service-cellular/RequestFactory.hpp"
#include "service-cellular/CellularRequestHandler.hpp"
#include "system/messages/SentinelRegistrationMessage.hpp"
#include <Audio/AudioCommon.hpp>
#include <service-audio/AudioServiceAPI.hpp>
#include <BaseInterface.hpp>
#include <CalllogRecord.hpp>
#include <Commands.hpp>
#include <at/ATFactory.hpp>
#include <Common/Common.hpp>
#include <Common/Query.hpp>
#include <MessageType.hpp>
#include <modem/ATCommon.hpp>
#include <modem/ATParser.hpp>
#include <modem/mux/DLCChannel.h>
#include <modem/mux/CellularMux.h>
#include <NotificationsRecord.hpp>
#include <PhoneNumber.hpp>
#include <Result.hpp>
#include <Service/Message.hpp>
#include <Service/Service.hpp>
#include <Timers/TimerFactory.hpp>
#include <Tables/CalllogTable.hpp>
#include <Tables/Record.hpp>
#include <Utils.hpp>
#include <Utility.hpp>
#include <at/cmd/CLCC.hpp>
#include <at/cmd/CFUN.hpp>
#include <at/UrcCmti.hpp>
#include <at/UrcCreg.hpp>
#include <at/UrcCtze.hpp>
#include <at/UrcCusd.hpp>
#include <at/UrcQind.hpp>
#include <at/UrcCpin.hpp> // for Cpin
#include <at/response.hpp>
#include <bsp/cellular/bsp_cellular.hpp>
#include <EventStore.hpp>
#include <country.hpp>
#include <log/log.hpp>
#include <at/UrcFactory.hpp>
#include <queries/messages/sms/QuerySMSSearchByType.hpp>
#include <queries/notifications/QueryNotificationsIncrement.hpp>
#include <queries/notifications/QueryNotificationsMultipleIncrement.hpp>
#include <projdefs.h>
#include <service-antenna/AntennaMessage.hpp>
#include <service-antenna/AntennaServiceAPI.hpp>
#include <service-antenna/ServiceAntenna.hpp>
#include <service-appmgr/Constants.hpp>
#include <service-appmgr/Controller.hpp>
#include <service-db/agents/settings/SystemSettings.hpp>
#include <service-db/DBServiceAPI.hpp>
#include <service-db/DBNotificationMessage.hpp>
#include <service-db/QueryMessage.hpp>
#include <service-evtmgr/Constants.hpp>
#include <service-evtmgr/EventManagerServiceAPI.hpp>
#include <service-evtmgr/EVMessages.hpp>
#include <service-desktop/DesktopMessages.hpp>
#include <service-desktop/DeveloperModeMessage.hpp>
#include <service-time/service-time/TimeMessage.hpp>
#include <task.h>
#include <ucs2/UCS2.hpp>
#include <utf8/UTF8.hpp>
#include <queries/messages/sms/QuerySMSUpdate.hpp>
#include <queries/messages/sms/QuerySMSAdd.hpp>
#include <algorithm>
#include <bits/exception.h>
#include <cassert>
#include <iostream>
#include <map>
#include <optional>
#include <string>
#include <utility>
#include <vector>
#include "checkSmsCenter.hpp"
#include <service-desktop/Constants.hpp>
#include <gsl/util>
#include <ticks.hpp>
#include "ServiceCellularPriv.hpp"
#include <service-cellular/api/request/sim.hpp>
#include <service-cellular/api/notification/notification.hpp>
#include <ctime>
#include <at/cmd/QCFGUsbnet.hpp>
const char *ServiceCellular::serviceName = cellular::service::name;
using namespace cellular;
using namespace cellular::msg;
using cellular::service::State;
namespace constants
{
using namespace std::chrono_literals;
inline constexpr auto cellularStack = 8000;
inline constexpr std::chrono::milliseconds sleepTimerInterval{500ms};
inline constexpr std::chrono::milliseconds maxUrcHandleTime{5s};
inline constexpr std::chrono::milliseconds maxTimeWithoutCommunication{1s};
} // namespace constants
ServiceCellular::ServiceCellular()
: sys::Service(serviceName, "", constants::cellularStack, sys::ServicePriority::Idle),
phoneModeObserver{std::make_unique<sys::phone_modes::Observer>()},
priv{std::make_unique<internal::ServiceCellularPriv>(this)}
{
LOG_INFO("[ServiceCellular] Initializing");
bus.channels.push_back(sys::BusChannel::ServiceCellularNotifications);
bus.channels.push_back(sys::BusChannel::ServiceDBNotifications);
bus.channels.push_back(sys::BusChannel::ServiceEvtmgrNotifications);
bus.channels.push_back(sys::BusChannel::PhoneModeChanges);
callStateTimer = sys::TimerFactory::createPeriodicTimer(
this, "call_state", std::chrono::milliseconds{1000}, [this](sys::Timer &) { CallStateTimerHandler(); });
callEndedRecentlyTimer = sys::TimerFactory::createSingleShotTimer(
this, "callEndedRecentlyTimer", std::chrono::seconds{5}, [this](sys::Timer &timer) {
priv->outSMSHandler.sendMessageIfDelayed();
});
stateTimer = sys::TimerFactory::createPeriodicTimer(
this, "state", std::chrono::milliseconds{1000}, [&](sys::Timer &) { handleStateTimer(); });
ussdTimer = sys::TimerFactory::createPeriodicTimer(
this, "ussd", std::chrono::milliseconds{1000}, [this](sys::Timer &) { handleUSSDTimer(); });
sleepTimer = sys::TimerFactory::createSingleShotTimer(
this, "sleep", constants::sleepTimerInterval, [this](sys::Timer &) { SleepTimerHandler(); });
connectionTimer =
sys::TimerFactory::createPeriodicTimer(this, "connection", std::chrono::seconds{60}, [this](sys::Timer &) {
utility::conditionally_invoke(
[this]() { return phoneModeObserver->isInMode(sys::phone_modes::PhoneMode::Offline); },
[this]() {
if (connectionManager != nullptr)
connectionManager->onTimerTick();
});
});
simTimer = sys::TimerFactory::createSingleShotTimer(
this, "simTimer", std::chrono::milliseconds{6000}, [this](sys::Timer &) { priv->simCard->handleSimTimer(); });
csqTimer = sys::TimerFactory::createPeriodicTimer(this, "csqTimer", std::chrono::minutes{15}, [this](sys::Timer &) {
auto message = std::make_shared<cellular::URCCounterMessage>(csqCounter.getCounter());
csqCounter.clearCounter();
bus.sendUnicast(std::move(message), serviceName);
priv->csqHandler->handleTimerTick();
});
callDurationTimer = sys::TimerFactory::createPeriodicTimer(
this, "callDurationTimer", std::chrono::milliseconds{1000}, [this](sys::Timer &) {
ongoingCall.handleCallDurationTimer();
});
ongoingCall.setStartCallAction([=](const CalllogRecord &rec) {
auto call = DBServiceAPI::CalllogAdd(this, rec);
if (call.ID == DB_ID_NONE) {
LOG_ERROR("CalllogAdd failed");
}
return call;
});
ongoingCall.setEndCallAction([=](const CalllogRecord &rec) {
if (DBServiceAPI::CalllogUpdate(this, rec) && rec.type == CallType::CT_MISSED) {
DBServiceAPI::GetQuery(this,
db::Interface::Name::Notifications,
std::make_unique<db::query::notifications::Increment>(
NotificationsRecord::Key::Calls, rec.phoneNumber));
}
return true;
});
notificationCallback = [this](std::string &data) {
LOG_DEBUG("Notifications callback called with %u data bytes", static_cast<unsigned int>(data.size()));
std::string logStr = utils::removeNewLines(data);
LOG_SENSITIVE(LOGDEBUG, "Data: %s", logStr.c_str());
atURCStream.write(data);
auto vUrc = atURCStream.getURCList();
for (const auto &urc : vUrc) {
std::string message;
auto msg = identifyNotification(urc);
if (msg != std::nullopt) {
bus.sendMulticast(msg.value(), sys::BusChannel::ServiceCellularNotifications);
}
}
};
packetData = std::make_unique<packet_data::PacketData>(*this); /// call in apnListChanged handler
registerMessageHandlers();
}
ServiceCellular::~ServiceCellular()
{
LOG_INFO("[ServiceCellular] Cleaning resources");
}
void ServiceCellular::SleepTimerHandler()
{
auto currentTime = cpp_freertos::Ticks::TicksToMs(cpp_freertos::Ticks::GetTicks());
auto lastCommunicationTimestamp = cmux->getLastCommunicationTimestamp();
auto timeOfInactivity = currentTime >= lastCommunicationTimestamp
? currentTime - lastCommunicationTimestamp
: std::numeric_limits<TickType_t>::max() - lastCommunicationTimestamp + currentTime;
if (!ongoingCall.isValid() && priv->state->get() >= State::ST::URCReady &&
timeOfInactivity >= constants::maxTimeWithoutCommunication.count()) {
cmux->enterSleepMode();
cpuSentinel->ReleaseMinimumFrequency();
}
else {
sleepTimer.restart(constants::sleepTimerInterval);
}
}
void ServiceCellular::WakeUpHandler()
{
sleepTimer.stop();
cpuSentinel->HoldMinimumFrequency(bsp::CpuFrequencyMHz::Level_2);
cmux->exitSleepMode();
}
void ServiceCellular::CallStateTimerHandler()
{
LOG_DEBUG("CallStateTimerHandler");
auto msg = std::make_shared<CellularListCallsMessage>();
bus.sendUnicast(std::move(msg), ServiceCellular::serviceName);
}
sys::ReturnCodes ServiceCellular::InitHandler()
{
board = cmux->getBoard();
settings = std::make_unique<settings::Settings>();
settings->init(::service::ServiceProxy(shared_from_this()));
connectionManager = std::make_unique<ConnectionManager>(
utils::getNumericValue<bool>(
settings->getValue(settings::Cellular::offlineMode, settings::SettingsScope::Global)),
static_cast<std::chrono::minutes>(utils::getNumericValue<int>(settings->getValue(
settings->getValue(settings::Offline::connectionFrequency, settings::SettingsScope::Global)))),
std::make_shared<ConnectionManagerCellularCommands>(*this));
priv->state->set(State::ST::WaitForStartPermission);
settings->registerValueChange(
settings::Cellular::volte_on,
[this](const std::string &value) { volteChanged(value); },
::settings::SettingsScope::Global);
settings->registerValueChange(
settings::Cellular::apn_list,
[this](const std::string &value) { apnListChanged(value); },
::settings::SettingsScope::Global);
priv->setInitialMultiPartSMSUID(static_cast<std::uint8_t>(utils::getNumericValue<int>(
settings->getValue(settings::Cellular::currentUID, settings::SettingsScope::Global))));
priv->saveNewMultiPartSMSUIDCallback = [this](std::uint8_t uid) -> void {
settings->setValue(
settings::Cellular::currentUID, std::to_string(static_cast<int>(uid)), settings::SettingsScope::Global);
};
cpuSentinel = std::make_shared<sys::CpuSentinel>(serviceName, this);
ongoingCall.setCpuSentinel(cpuSentinel);
auto sentinelRegistrationMsg = std::make_shared<sys::SentinelRegistrationMessage>(cpuSentinel);
bus.sendUnicast(sentinelRegistrationMsg, ::service::name::system_manager);
cmux->registerCellularDevice();
return sys::ReturnCodes::Success;
}
sys::ReturnCodes ServiceCellular::DeinitHandler()
{
settings->deinit();
return sys::ReturnCodes::Success;
}
void ServiceCellular::ProcessCloseReason(sys::CloseReason closeReason)
{}
sys::ReturnCodes ServiceCellular::SwitchPowerModeHandler(const sys::ServicePowerMode mode)
{
LOG_INFO("[ServiceCellular] PowerModeHandler: %s", c_str(mode));
switch (mode) {
case sys::ServicePowerMode::Active:
cmux->exitSleepMode();
break;
case sys::ServicePowerMode::SuspendToRAM:
case sys::ServicePowerMode::SuspendToNVM:
cmux->enterSleepMode();
break;
}
return sys::ReturnCodes::Success;
}
void ServiceCellular::registerMessageHandlers()
{
phoneModeObserver->connect(this);
phoneModeObserver->subscribe([this](sys::phone_modes::PhoneMode mode) {
if (priv->simCard->isSimCardSelected()) {
connectionManager->onPhoneModeChange(mode);
}
ongoingCall.setMode(mode);
});
ongoingCall.setMode(phoneModeObserver->getCurrentPhoneMode());
phoneModeObserver->subscribe([&](sys::phone_modes::Tethering tethering) {
if (tethering == sys::phone_modes::Tethering::On) {
priv->tetheringHandler->enable();
}
else {
priv->tetheringHandler->disable();
logTetheringCalls();
}
});
priv->connectSimCard();
priv->connectNetworkTime();
priv->connectSimContacts();
priv->connectImeiGetHandler();
priv->connectCSQHandler();
connect(typeid(CellularStartOperatorsScanMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularStartOperatorsScanMessage *>(request);
return handleCellularStartOperatorsScan(msg);
});
connect(typeid(CellularGetActiveContextsMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularGetActiveContextsMessage *>(request);
return handleCellularGetActiveContextsMessage(msg);
});
connect(typeid(CellularRequestCurrentOperatorNameMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularRequestCurrentOperatorNameMessage *>(request);
handleCellularRequestCurrentOperatorName(msg);
return sys::MessageNone{};
});
connect(typeid(CellularGetAPNMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularGetAPNMessage *>(request);
return handleCellularGetAPNMessage(msg);
});
connect(typeid(CellularSetAPNMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularSetAPNMessage *>(request);
return handleCellularSetAPNMessage(msg);
});
connect(typeid(CellularNewAPNMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularNewAPNMessage *>(request);
return handleCellularNewAPNMessage(msg);
});
connect(typeid(CellularSetDataTransferMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularSetDataTransferMessage *>(request);
return handleCellularSetDataTransferMessage(msg);
});
connect(typeid(CellularGetDataTransferMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularGetDataTransferMessage *>(request);
return handleCellularGetDataTransferMessage(msg);
});
connect(typeid(CellularActivateContextMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularActivateContextMessage *>(request);
return handleCellularActivateContextMessage(msg);
});
connect(typeid(CellularDeactivateContextMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularDeactivateContextMessage *>(request);
return handleCellularDeactivateContextMessage(msg);
});
connect(typeid(CellularChangeVoLTEDataMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularChangeVoLTEDataMessage *>(request);
volteOn = msg->getVoLTEon();
settings->setValue(settings::Cellular::volte_on, std::to_string(volteOn), settings::SettingsScope::Global);
NetworkSettings networkSettings(*this);
auto vstate = networkSettings.getVoLTEConfigurationState();
if ((vstate != VoLTEState::On) && volteOn) {
LOG_DEBUG("VoLTE On");
if (networkSettings.setVoLTEState(VoLTEState::On) == at::Result::Code::OK) {
priv->modemResetHandler->performSoftReset();
}
}
else if (!volteOn) {
LOG_DEBUG("VoLTE Off");
if (networkSettings.setVoLTEState(VoLTEState::Off) == at::Result::Code::OK) {
priv->modemResetHandler->performSoftReset();
}
}
return std::make_shared<CellularResponseMessage>(true);
});
connect(typeid(CellularSetFlightModeMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularSetFlightModeMessage *>(request);
return handleCellularSetFlightModeMessage(msg);
});
connect(typeid(CellularPowerStateChange), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularPowerStateChange *>(request);
priv->nextPowerState = msg->getNewState();
handle_power_state_change();
return sys::MessageNone{};
});
connect(typeid(sdesktop::developerMode::DeveloperModeRequest), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<sdesktop::developerMode::DeveloperModeRequest *>(request);
if (typeid(*msg->event.get()) == typeid(sdesktop::developerMode::CellularHotStartEvent)) {
priv->simCard->setChannel(nullptr);
priv->networkTime->setChannel(nullptr);
priv->simContacts->setChannel(nullptr);
priv->imeiGetHandler->setChannel(nullptr);
cmux->closeChannels();
///> change state - simulate hot start
handle_power_up_request();
}
if (typeid(*msg->event.get()) == typeid(sdesktop::developerMode::CellularStateInfoRequestEvent)) {
auto event = std::make_unique<sdesktop::developerMode::CellularStateInfoRequestEvent>(priv->state->c_str());
auto message = std::make_shared<sdesktop::developerMode::DeveloperModeRequest>(std::move(event));
bus.sendUnicast(std::move(message), ::service::name::service_desktop);
}
if (typeid(*msg->event.get()) == typeid(sdesktop::developerMode::CellularSleepModeInfoRequestEvent)) {
auto event = std::make_unique<sdesktop::developerMode::CellularSleepModeInfoRequestEvent>(
cmux->isCellularInSleepMode());
auto message = std::make_shared<sdesktop::developerMode::DeveloperModeRequest>(std::move(event));
bus.sendUnicast(std::move(message), ::service::name::service_desktop);
}
if (typeid(*msg->event.get()) == typeid(sdesktop::developerMode::ATResponseEvent)) {
auto channel = cmux->get(CellularMux::Channel::Commands);
assert(channel);
auto handler = cellular::RawATHandler(*channel);
return handler.handle(msg);
}
return sys::MessageNone{};
});
connect(typeid(CellularNewIncomingSMSMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularNewIncomingSMSMessage *>(request);
auto ret = receiveSMS(msg->getData());
return std::make_shared<CellularResponseMessage>(ret);
});
connect(typeid(CellularAnswerIncomingCallMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularAnswerIncomingCallMessage *>(request);
return handleCellularAnswerIncomingCallMessage(msg);
});
connect(typeid(CellularCallRequestMessage), [&](sys::Message *request) -> sys::MessagePointer {
if (phoneModeObserver->isInMode(sys::phone_modes::PhoneMode::Offline)) {
this->bus.sendUnicast(std::make_shared<CellularCallRejectedByOfflineNotification>(),
::service::name::appmgr);
return std::make_shared<CellularResponseMessage>(true);
}
auto msg = static_cast<CellularCallRequestMessage *>(request);
return handleCellularCallRequestMessage(msg);
});
connect(typeid(CellularHangupCallMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularHangupCallMessage *>(request);
handleCellularHangupCallMessage(msg);
return sys::MessageNone{};
});
connect(typeid(CellularDismissCallMessage), [&](sys::Message *request) -> sys::MessagePointer {
handleCellularDismissCallMessage(request);
return sys::MessageNone{};
});
connect(typeid(db::QueryResponse), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<db::QueryResponse *>(request);
return handleDBQueryResponseMessage(msg);
});
connect(typeid(CellularListCallsMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularListCallsMessage *>(request);
return handleCellularListCallsMessage(msg);
});
connect(typeid(db::NotificationMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<db::NotificationMessage *>(request);
return handleDBNotificationMessage(msg);
});
connect(typeid(CellularRingingMessage), [&](sys::Message *request) -> sys::MessagePointer {
auto msg = static_cast<CellularRingingMessage *>(request);
return handleCellularRingingMessage(msg);
});
connect(typeid(CellularGetIMSIMessage),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularGetIMSIMessage(request); });
connect(typeid(CellularGetOwnNumberMessage),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularGetOwnNumberMessage(request); });
connect(typeid(CellularGetNetworkInfoMessage),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularGetNetworkInfoMessage(request); });
connect(typeid(CellularAntennaRequestMessage),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularSelectAntennaMessage(request); });
connect(typeid(CellularSetScanModeMessage),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularSetScanModeMessage(request); });
connect(typeid(CellularGetScanModeMessage),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularGetScanModeMessage(request); });
connect(typeid(CellularGetFirmwareVersionMessage), [&](sys::Message *request) -> sys::MessagePointer {
return handleCellularGetFirmwareVersionMessage(request);
});
connect(typeid(sevm::StatusStateMessage),
[&](sys::Message *request) -> sys::MessagePointer { return handleEVMStatusMessage(request); });
connect(typeid(CellularGetCsqMessage),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularGetCsqMessage(request); });
connect(typeid(CellularGetCregMessage),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularGetCregMessage(request); });
connect(typeid(CellularGetNwinfoMessage),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularGetNwinfoMessage(request); });
connect(typeid(CellularGetAntennaMessage),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularGetAntennaMessage(request); });
connect(typeid(CellularDtmfRequestMessage),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularDtmfRequestMessage(request); });
connect(typeid(CellularUSSDMessage),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularUSSDMessage(request); });
connect(typeid(cellular::StateChange),
[&](sys::Message *request) -> sys::MessagePointer { return handleStateRequestMessage(request); });
connect(typeid(CellularCallActiveNotification),
[&](sys::Message *request) -> sys::MessagePointer { return handleCallActiveNotification(request); });
connect(typeid(CellularCallAbortedNotification),
[&](sys::Message *request) -> sys::MessagePointer { return handleCallAbortedNotification(request); });
connect(typeid(CellularPowerUpProcedureCompleteNotification), [&](sys::Message *request) -> sys::MessagePointer {
return handlePowerUpProcedureCompleteNotification(request);
});
connect(typeid(CellularPowerDownDeregisteringNotification), [&](sys::Message *request) -> sys::MessagePointer {
return handlePowerDownDeregisteringNotification(request);
});
connect(typeid(CellularPowerDownDeregisteredNotification), [&](sys::Message *request) -> sys::MessagePointer {
return handlePowerDownDeregisteredNotification(request);
});
connect(typeid(CellularNewIncomingSMSNotification),
[&](sys::Message *request) -> sys::MessagePointer { return handleNewIncomingSMSNotification(request); });
connect(typeid(CellularSmsDoneNotification),
[&](sys::Message *request) -> sys::MessagePointer { return handleSmsDoneNotification(request); });
connect(typeid(CellularSignalStrengthUpdateNotification), [&](sys::Message *request) -> sys::MessagePointer {
csqCounter.count();
return handleSignalStrengthUpdateNotification(request);
});
connect(typeid(CellularNetworkStatusUpdateNotification), [&](sys::Message *request) -> sys::MessagePointer {
return handleNetworkStatusUpdateNotification(request);
});
connect(typeid(CellularUrcIncomingNotification),
[&](sys::Message *request) -> sys::MessagePointer { return handleUrcIncomingNotification(request); });
connect(typeid(CellularRingNotification),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularRingNotification(request); });
connect(typeid(CellularCallerIdNotification),
[&](sys::Message *request) -> sys::MessagePointer { return handleCellularCallerIdNotification(request); });
connect(typeid(CellularSetConnectionFrequencyMessage), [&](sys::Message *request) -> sys::MessagePointer {
return handleCellularSetConnectionFrequencyMessage(request);
});
connect(typeid(RetryPhoneModeChangeRequest), [&](sys::Message *request) -> sys::MessagePointer {
connectionManager->onPhoneModeChange(phoneModeObserver->getCurrentPhoneMode());
return sys::MessageNone{};
});
connect(typeid(cellular::CallAudioEventRequest), [&](sys::Message *request) -> sys::MessagePointer {
auto message = static_cast<cellular::CallAudioEventRequest *>(request);
ongoingCall.handleCallAudioEventRequest(message->eventType);
return sys::MessageNone{};
});
connect(typeid(cellular::CallActiveNotification), [&](sys::Message *request) -> sys::MessagePointer {
callDurationTimer.start();
return sys::MessageNone{};
});
connect(typeid(cellular::CallEndedNotification), [&](sys::Message *request) -> sys::MessagePointer {
callDurationTimer.stop();
return sys::MessageNone{};
});
handle_CellularGetChannelMessage();
}
void ServiceCellular::change_state(cellular::StateChange *msg)
{
assert(msg);
switch (msg->request) {
case State::ST::Idle:
handle_idle();
break;
case State::ST::WaitForStartPermission:
handle_wait_for_start_permission();
break;
case State::ST::PowerUpRequest:
handle_power_up_request();
break;
case State::ST::StatusCheck:
handle_status_check();
break;
case State::ST::PowerUpInProgress:
handle_power_up_in_progress_procedure();
break;
case State::ST::PowerUpProcedure:
handle_power_up_procedure();
break;
case State::ST::BaudDetect:
if (nextPowerStateChangeAwaiting) {
handle_power_state_change();
}
else {
handle_baud_detect();
}
break;
case State::ST::AudioConfigurationProcedure:
handle_audio_conf_procedure();
break;
case State::ST::CellularPrivInit:
handle_cellular_priv_init();
break;
case State::ST::CellularConfProcedure:
handle_start_conf_procedure();
break;
case State::ST::APNConfProcedure:
handle_apn_conf_procedure();
break;
case State::ST::SanityCheck:
handle_sim_sanity_check();
break;
case State::ST::ModemOn:
handle_modem_on();
break;
case State::ST::URCReady:
handle_URCReady();
break;
case State::ST::ModemFatalFailure:
handle_fatal_failure();
break;
case State::ST::Failed:
handle_failure();
break;
case State::ST::Ready:
handle_ready();
break;
case State::ST::PowerDownStarted:
handle_power_down_started();
break;
case State::ST::PowerDownWaiting:
handle_power_down_waiting();
break;
case State::ST::PowerDown:
handle_power_down();
if (nextPowerStateChangeAwaiting) {
handle_power_state_change();
}
break;
};
}
bool ServiceCellular::handle_idle()
{
LOG_DEBUG("Idle");
return true;
}
bool ServiceCellular::handle_wait_for_start_permission()
{
auto msg = std::make_shared<CellularCheckIfStartAllowedMessage>();
bus.sendUnicast(msg, ::service::name::system_manager);
return true;
}
bool ServiceCellular::handle_power_up_request()
{
cmux->selectAntenna(bsp::cellular::antenna::lowBand);
switch (board) {
case bsp::Board::RT1051:
priv->state->set(State::ST::StatusCheck);
break;
case bsp::Board::Linux:
priv->state->set(State::ST::PowerUpProcedure);
break;
case bsp::Board::none:
return false;
break;
}
return true;
}
bool ServiceCellular::handle_power_up_procedure()
{
switch (board) {
case bsp::Board::RT1051: {
LOG_DEBUG("RT1051 - cold start");
cmux->turnOnModem();
// wait for status pin change to change state
break;
}
case bsp::Board::Linux: {
// check baud once to determine if it's already turned on
auto ret = cmux->baudDetectOnce();
if (ret == CellularMux::ConfState::Success) {
// it's on aka hot start.
LOG_DEBUG("Linux - hot start");
priv->state->set(State::ST::CellularConfProcedure);
break;
}
else {
// it's off aka cold start
LOG_DEBUG("Linux - cold start");
LOG_WARN("Press PWR_KEY for 2 sec on modem eval board!");
vTaskDelay(pdMS_TO_TICKS(2000)); // give some 2 secs more for user input
// if it's Linux, then wait for status pin to become active, to align its starting position with RT1051
vTaskDelay(pdMS_TO_TICKS(8000));
priv->state->set(State::ST::PowerUpInProgress);
break;
}
}
case bsp::Board::none:
default:
LOG_FATAL("Board not known!");
assert(0);
break;
}
return true;
}
bool ServiceCellular::handle_power_up_in_progress_procedure(void)
{
if (priv->modemResetHandler->isResetInProgress()) {
constexpr auto msModemUartInitTime = 12000;
vTaskDelay(pdMS_TO_TICKS(msModemUartInitTime));
}
priv->state->set(State::ST::BaudDetect);
return true;
}
bool ServiceCellular::handle_baud_detect()
{
auto ret = cmux->baudDetectProcedure();
if (ret == CellularMux::ConfState::Success) {
priv->state->set(State::ST::CellularConfProcedure);
return true;
}
else {
priv->state->set(State::ST::ModemFatalFailure);
return false;
}
}
bool ServiceCellular::handle_power_down_started()
{
/// we should not send anything to the modem from now on
return true;
}
bool ServiceCellular::handle_power_down_waiting()
{
switch (board) {
case bsp::Board::RT1051:
// wait for pin status become inactive (handled elsewhere)
break;
case bsp::Board::Linux:
// if it's Linux, then wait for status pin to become inactive, to align with RT1051
vTaskDelay(pdMS_TO_TICKS(17000)); // according to docs this shouldn't be needed, but better be safe than Quectel
priv->state->set(State::ST::PowerDown);
break;
default:
LOG_ERROR("Powering 'down an unknown device not handled");
return false;
}
return true;
}
bool ServiceCellular::handle_power_down()
{
LOG_DEBUG("Powered Down");
cmux->closeChannels();
cmux.reset();
cmux = std::make_unique<CellularMux>(PortSpeed_e::PS460800, this);
if (priv->modemResetHandler->isResetInProgress()) {
priv->state->set(State::ST::Idle);
}
return true;
}
bool ServiceCellular::handle_start_conf_procedure()
{
// Start configuration procedure, if it's first run modem will be restarted
auto confRet = cmux->confProcedure();
if (confRet == CellularMux::ConfState::Success) {
priv->state->set(State::ST::AudioConfigurationProcedure);
return true;
}
priv->state->set(State::ST::Failed);
return false;
}
bool ServiceCellular::handle_audio_conf_procedure()
{
auto audioRet = cmux->audioConfProcedure();
if (audioRet == CellularMux::ConfState::ModemNeedsReset) {
priv->modemResetHandler->performReboot();
return false;
}
if (audioRet == CellularMux::ConfState::Success) {
auto cmd = at::factory(at::AT::IPR) + std::to_string(ATPortSpeeds_text[cmux->getStartParams().PortSpeed]);
LOG_DEBUG("Setting baudrate %i baud", ATPortSpeeds_text[cmux->getStartParams().PortSpeed]);
if (!cmux->getParser()->cmd(cmd)) {
LOG_ERROR("Baudrate setup error");
priv->state->set(State::ST::Failed);
return false;
}
cmux->getCellular()->setSpeed(ATPortSpeeds_text[cmux->getStartParams().PortSpeed]);
vTaskDelay(1000);
if (cmux->startMultiplexer() == CellularMux::ConfState::Success) {
LOG_DEBUG("[ServiceCellular] Modem is fully operational");
// open channel - notifications
DLCChannel *notificationsChannel = cmux->get(CellularMux::Channel::Notifications);
if (notificationsChannel != nullptr) {
LOG_DEBUG("Setting up notifications callback");
notificationsChannel->setCallback(notificationCallback);
}
priv->state->set(State::ST::CellularPrivInit);
return true;
}
else {
priv->state->set(State::ST::Failed);
return false;
}
}
else if (audioRet == CellularMux::ConfState::Failure) {
/// restart
priv->state->set(State::ST::AudioConfigurationProcedure);
return true;
}
// Reset procedure started, do nothing here
priv->state->set(State::ST::Idle);
return true;
}
bool ServiceCellular::handle_cellular_priv_init()
{
auto channel = cmux->get(CellularMux::Channel::Commands);
priv->simCard->setChannel(channel);
priv->networkTime->setChannel(channel);
priv->simContacts->setChannel(channel);
priv->imeiGetHandler->setChannel(channel);
if (!priv->tetheringHandler->configure()) {
priv->modemResetHandler->performHardReset();
return true;
}
auto flightMode =
settings->getValue(settings::Cellular::offlineMode, settings::SettingsScope::Global) == "1" ? true : false;
connectionManager->setFlightMode(flightMode);
auto interval = 0;
if (utils::toNumeric(settings->getValue(settings::Offline::connectionFrequency, settings::SettingsScope::Global),
interval)) {
connectionManager->setInterval(std::chrono::minutes{interval});
}
priv->initCSQHandler();
priv->state->set(State::ST::APNConfProcedure);
return true;
}
auto ServiceCellular::handle(db::query::SMSSearchByTypeResult *response) -> bool
{
if (response->getResults().empty()) {
priv->outSMSHandler.handleNoMoreDbRecords();
}
else {
for (auto &rec : response->getResults()) {
if (rec.type == SMSType::QUEUED) {
priv->outSMSHandler.handleIncomingDbRecord(rec, callEndedRecentlyTimer.isActive());
}
}
}
return true;
}
/**
* NOTICE: URC handling function identifyNotification works on different thread, so sending
* any AT commands is not allowed here (also in URC handlers and other functions called from here)
* @return
*/
std::optional<std::shared_ptr<sys::Message>> ServiceCellular::identifyNotification(const std::string &data)
{
CellularUrcHandler urcHandler(*this);
std::string str(data.begin(), data.end());
std::string logStr = utils::removeNewLines(str);
LOG_SENSITIVE(LOGDEBUG, "Notification:: %s", logStr.c_str());
auto urc = at::urc::UrcFactory::Create(str);
urc->Handle(urcHandler);
if (!urc->isHandled()) {
LOG_SENSITIVE(LOGWARN, "Unhandled notification: %s", logStr.c_str());
}
return urcHandler.getResponse();
}
auto ServiceCellular::receiveSMS(std::string messageNumber) -> bool
{
auto retVal = true;
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel == nullptr) {
retVal = false;
return retVal;
}
auto ucscSetRetries = 0;
while (ucscSetRetries < at::AtCmdMaxRetries) {
if (!channel->cmd(at::AT::SMS_UCSC2)) {
++ucscSetRetries;
LOG_ERROR("Could not set UCS2 charset mode for TE. Retry %d", ucscSetRetries);
}
else {
break;
}
}
auto _ = gsl::finally([&channel, &retVal, &messageNumber] {
if (!channel->cmd(at::AT::SMS_GSM)) {
LOG_ERROR("Could not set GSM (default) charset mode for TE");
}
// delete message from modem memory
if (retVal && !channel->cmd(at::factory(at::AT::CMGD) + messageNumber)) {
LOG_ERROR("Could not delete SMS from modem");
}
});
bool messageParsed = false;
std::string messageRawBody;
UTF8 receivedNumber;
const auto &cmd = at::factory(at::AT::QCMGR);
at::Result ret;
auto qcmgrRetries = 0;
while (qcmgrRetries < at::AtCmdMaxRetries) {
ret = channel->cmd(cmd + messageNumber, cmd.getTimeout());
if (!ret) {
++qcmgrRetries;
LOG_ERROR("Could not read text message. Retry %d", qcmgrRetries);
// There are cases where +QCMGR command is issued to soon after +CMTI URC,
// and modem is still busy processing messages. This results with an error
// and some garbage frame. To work around this, we delay a bit and retry +QCMGR
// to get the message.
vTaskDelay(at::AtCmdRetryDelayMS);
}
else {
break;
}
}
if (!ret || qcmgrRetries == at::AtCmdMaxRetries) {
LOG_ERROR("!!!! Could not read text message !!!!");
retVal = false;
}
else {
for (std::size_t i = 0; i < ret.response.size(); i++) {
if (ret.response[i].find("QCMGR") != std::string::npos) {
std::istringstream ss(ret.response[i]);
std::string token;
std::vector<std::string> tokens;
while (std::getline(ss, token, ',')) {
tokens.push_back(token);
}
tokens[1].erase(std::remove(tokens[1].begin(), tokens[1].end(), '\"'), tokens[1].end());
/*
* tokens:
* [0] - +QCMGR
* [1] - sender number
* [2] - none
* [3] - date YY/MM/DD
* [4] - hour HH/MM/SS/timezone
* concatenaded messages
* [5] - unique concatenated message id
* [6] - current message number
* [7] - total messages count
*
*/
// parse sender number
receivedNumber = UCS2(tokens[1]).toUTF8();
// parse date
tokens[3].erase(std::remove(tokens[3].begin(), tokens[3].end(), '\"'), tokens[3].end());
auto messageDate = std::time(nullptr);
if (tokens.size() == 5) {
LOG_DEBUG("Single message");
messageRawBody = ret.response[i + 1];
messageParsed = true;
}
else if (tokens.size() == 8) {
LOG_DEBUG("Concatenated message");
uint32_t last = 0;
uint32_t current = 0;
try {
last = std::stoi(tokens[7]);
current = std::stoi(tokens[6]);
}
catch (const std::exception &e) {
LOG_ERROR("ServiceCellular::receiveSMS error %s", e.what());
retVal = false;
break;
}
LOG_DEBUG("part %" PRIu32 "from %" PRIu32, current, last);
if (current == last) {
messageParts.push_back(ret.response[i + 1]);
for (std::size_t j = 0; j < messageParts.size(); j++) {
messageRawBody += messageParts[j];
}
messageParts.clear();
messageParsed = true;
}
else {
messageParts.push_back(ret.response[i + 1]);
}
}
if (messageParsed) {
messageParsed = false;
const auto decodedMessage = UCS2(messageRawBody).toUTF8();
const auto record = createSMSRecord(decodedMessage, receivedNumber, messageDate);
if (!dbAddSMSRecord(record)) {
LOG_ERROR("Failed to add text message to db");
retVal = false;
break;
}
}
}
}
}
return retVal;
}
bool ServiceCellular::getOwnNumber(std::string &destination)
{
auto ret = cmux->get(CellularMux::Channel::Commands)->cmd(at::AT::CNUM);
if (ret) {
auto begin = ret.response[0].find(',');
auto end = ret.response[0].rfind(',');
if (begin != std::string::npos && end != std::string::npos) {
std::string number;
try {
number = ret.response[0].substr(begin, end - begin);
}
catch (std::exception &e) {
LOG_ERROR("ServiceCellular::getOwnNumber exception: %s", e.what());
return false;
}
number.erase(std::remove(number.begin(), number.end(), '"'), number.end());
number.erase(std::remove(number.begin(), number.end(), ','), number.end());
destination = number;
return true;
}
}
LOG_ERROR("ServiceCellular::getOwnNumber failed.");
return false;
}
bool ServiceCellular::getIMSI(std::string &destination, bool fullNumber)
{
auto ret = cmux->get(CellularMux::Channel::Commands)->cmd(at::AT::CIMI);
if (ret) {
if (fullNumber) {
destination = ret.response[0];
}
else {
try {
destination = ret.response[0].substr(0, 3);
}
catch (std::exception &e) {
LOG_ERROR("ServiceCellular::getIMSI exception: %s", e.what());
return false;
}
}
return true;
}
LOG_ERROR("ServiceCellular::getIMSI failed.");
return false;
}
std::vector<std::string> ServiceCellular::getNetworkInfo(void)
{
std::vector<std::string> data;
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel) {
auto resp = channel->cmd(at::AT::CSQ);
if (resp.code == at::Result::Code::OK) {
data.push_back(resp.response[0]);
}
else {
LOG_ERROR("CSQ Error");
data.push_back("");
}
resp = channel->cmd(at::AT::CREG);
if (resp.code == at::Result::Code::OK) {
data.push_back(resp.response[0]);
}
else {
LOG_ERROR("CREG Error");
data.push_back("");
}
resp = channel->cmd(at::AT::QNWINFO);
if (resp.code == at::Result::Code::OK) {
std::string ret;
if (at::response::parseQNWINFO(resp.response[0], ret)) {
data.push_back(ret);
}
else {
data.push_back("");
}
}
else {
LOG_ERROR("QNWINFO Error");
data.push_back("");
}
}
return data;
}
std::vector<std::string> get_last_AT_error(DLCChannel *channel)
{
auto ret = channel->cmd(at::AT::CEER);
return std::move(ret.response);
}
void log_last_AT_error(DLCChannel *channel)
{
std::vector<std::string> atErrors(get_last_AT_error(channel));
int i = 1;
for (auto &msg_line : atErrors) {
LOG_ERROR("%d/%d: %s", i, static_cast<int>(atErrors.size()), msg_line.c_str());
i++;
}
}
bool is_SIM_detection_enabled(DLCChannel *channel)
{
auto ret = channel->cmd(at::AT::SIM_DET);
if (ret) {
if (ret.response[0].find("+QSIMDET: 1") != std::string::npos) {
LOG_DEBUG("SIM detecition enabled!");
return true;
}
}
else {
LOG_FATAL("Cant check sim detection status!");
log_last_AT_error(channel);
}
return false;
}
bool enable_SIM_detection(DLCChannel *channel)
{
auto ret = channel->cmd(at::AT::SIM_DET_ON);
if (!ret) {
log_last_AT_error(channel);
return false;
}
return true;
}
bool is_SIM_status_enabled(DLCChannel *channel)
{
auto ret = channel->cmd(at::AT::QSIMSTAT);
if (ret) {
if (ret.response[0].find("+QSIMSTAT: 1") != std::string::npos) {
LOG_DEBUG("SIM swap enabled!");
return true;
}
}
else {
LOG_FATAL("SIM swap status failure! %s", ret.response[0].c_str());
log_last_AT_error(channel);
}
return false;
}
bool enable_SIM_status(DLCChannel *channel)
{
auto ret = channel->cmd(at::AT::SIMSTAT_ON);
if (!ret) {
log_last_AT_error(channel);
return false;
}
return true;
}
void save_SIM_detection_status(DLCChannel *channel)
{
auto ret = channel->cmd(at::AT::STORE_SETTINGS_ATW);
if (!ret) {
log_last_AT_error(channel);
}
}
bool sim_check_hot_swap(DLCChannel *channel)
{
assert(channel);
bool reboot_needed = false;
if (!is_SIM_detection_enabled(channel)) {
reboot_needed = true;
}
if (!is_SIM_status_enabled(channel)) {
reboot_needed = true;
}
if (reboot_needed) {
enable_SIM_detection(channel);
enable_SIM_status(channel);
save_SIM_detection_status(channel);
LOG_FATAL("Modem reboot required, Please remove battery!");
}
return !reboot_needed;
}
bool ServiceCellular::handle_sim_sanity_check()
{
auto ret = sim_check_hot_swap(cmux->get(CellularMux::Channel::Commands));
if (ret) {
priv->state->set(State::ST::ModemOn);
}
else {
LOG_ERROR("Sanity check failure - modem has to be rebooted");
priv->modemResetHandler->performHardReset();
}
return ret;
}
bool ServiceCellular::handle_modem_on()
{
auto channel = cmux->get(CellularMux::Channel::Commands);
channel->cmd("AT+CCLK?");
// inform host ap ready
cmux->informModemHostWakeup();
tetheringTurnOnURC();
priv->state->set(State::ST::URCReady);
LOG_DEBUG("AP ready");
return true;
}
bool ServiceCellular::handle_URCReady()
{
auto channel = cmux->get(CellularMux::Channel::Commands);
bool ret = true;
ret = ret && channel->cmd(at::AT::ENABLE_NETWORK_REGISTRATION_URC);
bus.sendMulticast<cellular::msg::notification::ModemStateChanged>(cellular::api::ModemState::Ready);
channel->onWakeUpModem = [this]() { WakeUpHandler(); };
channel->onSleepModem = [this]() { sleepTimer.restart(constants::sleepTimerInterval); };
LOG_DEBUG("%s", priv->state->c_str());
return ret;
}
bool ServiceCellular::handleTextMessagesInit()
{
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel == nullptr) {
LOG_ERROR("Cant configure sim! no Commands channel!");
return false;
}
auto commands = at::getCommadsSet(at::commadsSet::smsInit);
for (const auto &command : commands) {
if (!channel->cmd(command)) {
LOG_ERROR("Text messages init failed!");
return false;
}
}
if (!receiveAllMessages()) {
LOG_ERROR("Receiving all messages from modem failed");
return true; // this is not blocking issue
}
return true;
}
SMSRecord ServiceCellular::createSMSRecord(const UTF8 &decodedMessage,
const UTF8 &receivedNumber,
const time_t messageDate,
const SMSType &smsType) const noexcept
{
SMSRecord record{};
record.body = decodedMessage;
record.number = utils::PhoneNumber::getReceivedNumberView(receivedNumber);
record.type = SMSType::INBOX;
record.date = messageDate;
return record;
}
bool ServiceCellular::dbAddSMSRecord(const SMSRecord &record)
{
return DBServiceAPI::AddSMS(
this, record, db::QueryCallback::fromFunction([this, number = record.number](auto response) {
auto result = dynamic_cast<db::query::SMSAddResult *>(response);
if (result == nullptr || !result->result) {
return false;
}
onSMSReceived(number);
return true;
}));
}
void ServiceCellular::onSMSReceived(const utils::PhoneNumber::View &number)
{
DBServiceAPI::GetQuery(
this,
db::Interface::Name::Notifications,
std::make_unique<db::query::notifications::Increment>(NotificationsRecord::Key::Sms, number));
bus.sendMulticast(std::make_shared<CellularIncomingSMSNotificationMessage>(),
sys::BusChannel::ServiceCellularNotifications);
}
bool ServiceCellular::receiveAllMessages()
{
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel == nullptr) {
return false;
}
constexpr std::string_view cmd = "CMGL: ";
if (auto ret = channel->cmd(at::AT::LIST_MESSAGES)) {
for (std::size_t i = 0; i < ret.response.size(); i++) {
if (auto pos = ret.response[i].find(cmd); pos != std::string::npos) {
auto startPos = pos + cmd.size();
auto endPos = ret.response[i].find_first_of(',');
if (receiveSMS(ret.response[i].substr(startPos, endPos - startPos))) {
LOG_WARN("Cannot receive text message - %" PRIu32 " / %" PRIu32,
static_cast<uint32_t>(i),
static_cast<uint32_t>(ret.response.size()));
}
}
}
return true;
}
else {
return false;
}
}
bool ServiceCellular::handle_failure()
{
priv->state->set(State::ST::Idle);
bus.sendMulticast<cellular::msg::notification::ModemStateChanged>(cellular::api::ModemState::Fail);
return true;
}
bool ServiceCellular::handle_fatal_failure()
{
LOG_FATAL("Await for death!");
bus.sendMulticast<cellular::msg::notification::ModemStateChanged>(cellular::api::ModemState::Fatal);
while (true) {
vTaskDelay(500);
}
return true;
}
bool ServiceCellular::handle_ready()
{
LOG_DEBUG("%s", priv->state->c_str());
return true;
}
bool ServiceCellular::SetScanMode(std::string mode)
{
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel) {
auto command = at::factory(at::AT::SET_SCANMODE);
auto resp = channel->cmd(command.getCmd() + mode + ",1", command.getTimeout(), 1);
if (resp.code == at::Result::Code::OK) {
return true;
}
}
return false;
}
std::string ServiceCellular::GetScanMode(void)
{
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel) {
auto resp = channel->cmd(at::AT::GET_SCANMODE);
if (resp.code == at::Result::Code::OK) {
auto beg = resp.response[0].find(",");
if (beg != std::string::npos) {
auto response = resp.response[0].substr(beg + 1, 1);
return response;
}
}
else {
LOG_ERROR("Unable to get network search mode configuration");
}
}
return {};
}
bool ServiceCellular::transmitDtmfTone(uint32_t digit)
{
auto channel = cmux->get(CellularMux::Channel::Commands);
at::Result resp;
if (channel) {
auto command = at::factory(at::AT::QLDTMF);
std::string dtmfString = "\"" + std::string(1, digit) + "\"";
resp = channel->cmd(command.getCmd() + dtmfString);
if (resp) {
command = at::factory(at::AT::VTS);
resp = channel->cmd(command.getCmd() + dtmfString);
}
}
return resp.code == at::Result::Code::OK;
}
void ServiceCellular::handle_CellularGetChannelMessage()
{
connect(CellularGetChannelMessage(), [&](sys::Message *req) {
auto getChannelMsg = static_cast<CellularGetChannelMessage *>(req);
LOG_DEBUG("Handle request for channel: %s", CellularMux::name(getChannelMsg->dataChannel).c_str());
std::shared_ptr<CellularGetChannelResponseMessage> channelResponsMessage =
std::make_shared<CellularGetChannelResponseMessage>(cmux->get(getChannelMsg->dataChannel));
LOG_DEBUG("channel ptr: %p", channelResponsMessage->dataChannelPtr);
bus.sendUnicast(std::move(channelResponsMessage), req->sender);
return sys::MessageNone{};
});
}
bool ServiceCellular::handle_status_check(void)
{
LOG_INFO("Checking modem status.");
auto modemActive = cmux->isModemActive();
if (modemActive) {
// modem is already turned on, call configutarion procedure
LOG_INFO("Modem is already turned on.");
LOG_DEBUG("RT1051 - hot start");
priv->state->set(State::ST::PowerUpInProgress);
}
else {
priv->state->set(State::ST::PowerUpProcedure);
}
return true;
}
void ServiceCellular::startStateTimer(uint32_t timeout)
{
stateTimeout = timeout;
stateTimer.start();
}
void ServiceCellular::stopStateTimer()
{
stateTimeout = 0;
stateTimer.stop();
}
void ServiceCellular::handleStateTimer(void)
{
stateTimeout--;
if (stateTimeout == 0) {
stopStateTimer();
LOG_FATAL("State %s timeout occured!", priv->state->c_str());
priv->state->set(State::ST::ModemFatalFailure);
}
}
void ServiceCellular::handle_power_state_change()
{
nextPowerStateChangeAwaiting = false;
auto modemActive = cmux->isModemActive();
if (priv->nextPowerState == State::PowerState::On) {
if (priv->state->get() == State::ST::PowerDownWaiting) {
LOG_DEBUG("Powerdown in progress. Powerup request queued.");
nextPowerStateChangeAwaiting = true;
}
else if (priv->state->get() == State::ST::PowerUpProcedure ||
priv->state->get() == State::ST::PowerUpInProgress) {
LOG_DEBUG("Powerup already in progress");
}
else if (priv->state->get() == State::ST::PowerDown ||
priv->state->get() == State::ST::WaitForStartPermission) {
LOG_INFO("Modem Power UP.");
priv->state->set(State::ST::PowerUpRequest);
}
else {
LOG_DEBUG("Modem already powered up.");
}
}
else {
if (priv->state->get() == State::ST::PowerUpProcedure || priv->state->get() == State::ST::PowerUpInProgress) {
LOG_DEBUG("Powerup in progress. Powerdown request queued.");
nextPowerStateChangeAwaiting = true;
}
else if (priv->state->get() == State::ST::PowerDownWaiting) {
LOG_DEBUG("Powerdown already in progress.");
}
else if (priv->state->get() == State::ST::PowerDown) {
LOG_DEBUG("Modem already powered down.");
}
else if (priv->state->get() == State::ST::WaitForStartPermission && !modemActive) {
LOG_DEBUG("Modem already powered down.");
priv->state->set(State::ST::PowerDown);
}
else {
LOG_INFO("Modem Power DOWN.");
cmux->turnOffModem();
priv->state->set(State::ST::PowerDownWaiting);
}
}
}
bool ServiceCellular::handleUSSDRequest(CellularUSSDMessage::RequestType requestType, const std::string &request)
{
constexpr uint32_t commandTimeout = 120000;
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel != nullptr) {
if (requestType == CellularUSSDMessage::RequestType::pullSesionRequest) {
channel->cmd(at::AT::SMS_GSM);
std::string command = at::factory(at::AT::CUSD_SEND) + request + ",15";
auto result = channel->cmd(command, std::chrono::milliseconds(commandTimeout));
if (result.code == at::Result::Code::OK) {
ussdState = ussd::State::pullRequestSent;
setUSSDTimer();
}
}
else if (requestType == CellularUSSDMessage::RequestType::abortSesion) {
ussdState = ussd::State::sesionAborted;
auto result = channel->cmd(at::AT::CUSD_CLOSE_SESSION);
if (result.code == at::Result::Code::OK) {
CellularServiceAPI::USSDRequest(this, CellularUSSDMessage::RequestType::pushSesionRequest);
}
else {
CellularServiceAPI::USSDRequest(this, CellularUSSDMessage::RequestType::abortSesion);
}
}
else if (requestType == CellularUSSDMessage::RequestType::pushSesionRequest) {
ussdState = ussd::State::pushSesion;
auto result = channel->cmd(at::AT::CUSD_OPEN_SESSION);
if (result.code == at::Result::Code::OK) {}
}
return true;
}
return false;
}
void ServiceCellular::handleUSSDTimer(void)
{
if (ussdTimeout > 0) {
ussdTimeout -= 1;
}
else {
LOG_WARN("USSD timeout occured, abotrig current session");
ussdTimer.stop();
CellularServiceAPI::USSDRequest(this, CellularUSSDMessage::RequestType::abortSesion);
}
}
void ServiceCellular::setUSSDTimer(void)
{
switch (ussdState) {
case ussd::State::pullRequestSent:
ussdTimeout = ussd::pullResponseTimeout;
break;
case ussd::State::pullResponseReceived:
ussdTimeout = ussd::pullSesionTimeout;
break;
case ussd::State::pushSesion:
case ussd::State::sesionAborted:
case ussd::State::none:
ussdTimeout = ussd::noTimeout;
break;
}
if (ussdTimeout == ussd::noTimeout) {
ussdTimer.stop();
return;
}
ussdTimer.start();
}
std::shared_ptr<cellular::RawCommandRespAsync> ServiceCellular::handleCellularStartOperatorsScan(
CellularStartOperatorsScanMessage *msg)
{
LOG_INFO("CellularStartOperatorsScan handled");
auto ret = std::make_shared<cellular::RawCommandRespAsync>(CellularMessage::Type::OperatorsScanResult);
NetworkSettings networkSettings(*this);
ret->data = networkSettings.scanOperators(msg->getFullInfo());
bus.sendUnicast(ret, msg->sender);
return ret;
}
bool ServiceCellular::handle_apn_conf_procedure()
{
LOG_DEBUG("APN on modem configuration");
packetData->setupAPNSettings();
priv->state->set(State::ST::SanityCheck);
return true;
}
void ServiceCellular::handleCellularRequestCurrentOperatorName(CellularRequestCurrentOperatorNameMessage *msg)
{
LOG_INFO("CellularRequestCurrentOperatorName handled");
NetworkSettings networkSettings(*this);
const auto currentNetworkOperatorName = networkSettings.getCurrentOperatorName();
Store::GSM::get()->setNetworkOperatorName(currentNetworkOperatorName);
auto notification = std::make_shared<CellularCurrentOperatorNameNotification>(currentNetworkOperatorName);
this->bus.sendMulticast(std::move(notification), sys::BusChannel::ServiceCellularNotifications);
}
std::shared_ptr<CellularGetAPNResponse> ServiceCellular::handleCellularGetAPNMessage(CellularGetAPNMessage *msg)
{
std::vector<std::shared_ptr<packet_data::APN::Config>> apns;
if (auto type = msg->getAPNType(); type) {
if (auto apn = packetData->getAPNFirst(*type); apn) {
apns.push_back(*apn);
}
return std::make_shared<CellularGetAPNResponse>(apns);
}
if (auto ctxid = msg->getContextId(); ctxid) {
if (auto apn = packetData->getAPN(*ctxid); apn) {
apns.push_back(*apn);
}
return std::make_shared<CellularGetAPNResponse>(apns);
}
return std::make_shared<CellularGetAPNResponse>(packetData->getAPNs());
}
std::shared_ptr<CellularSetAPNResponse> ServiceCellular::handleCellularSetAPNMessage(CellularSetAPNMessage *msg)
{
auto apn = msg->getAPNConfig();
auto ret = packetData->setAPN(apn);
settings->setValue(settings::Cellular::apn_list, packetData->saveAPNSettings(), settings::SettingsScope::Global);
return std::make_shared<CellularSetAPNResponse>(ret);
}
std::shared_ptr<CellularNewAPNResponse> ServiceCellular::handleCellularNewAPNMessage(CellularNewAPNMessage *msg)
{
auto apn = msg->getAPNConfig();
std::uint8_t newId = 0;
auto ret = packetData->newAPN(apn, newId);
settings->setValue(settings::Cellular::apn_list, packetData->saveAPNSettings(), settings::SettingsScope::Global);
return std::make_shared<CellularNewAPNResponse>(ret, newId);
}
std::shared_ptr<CellularSetDataTransferResponse> ServiceCellular::handleCellularSetDataTransferMessage(
CellularSetDataTransferMessage *msg)
{
packetData->setDataTransfer(msg->getDataTransfer());
return std::make_shared<CellularSetDataTransferResponse>(at::Result::Code::OK);
}
std::shared_ptr<CellularGetDataTransferResponse> ServiceCellular::handleCellularGetDataTransferMessage(
CellularGetDataTransferMessage *msg)
{
return std::make_shared<CellularGetDataTransferResponse>(packetData->getDataTransfer());
}
std::shared_ptr<CellularActivateContextResponse> ServiceCellular::handleCellularActivateContextMessage(
CellularActivateContextMessage *msg)
{
return std::make_shared<CellularActivateContextResponse>(packetData->activateContext(msg->getContextId()),
msg->getContextId());
}
std::shared_ptr<CellularDeactivateContextResponse> ServiceCellular::handleCellularDeactivateContextMessage(
CellularDeactivateContextMessage *msg)
{
return std::make_shared<CellularDeactivateContextResponse>(packetData->deactivateContext(msg->getContextId()),
msg->getContextId());
}
std::shared_ptr<CellularGetActiveContextsResponse> ServiceCellular::handleCellularGetActiveContextsMessage(
CellularGetActiveContextsMessage *msg)
{
return std::make_shared<CellularGetActiveContextsResponse>(packetData->getActiveContexts());
}
std::shared_ptr<CellularSetOperatorAutoSelectResponse> ServiceCellular::handleCellularSetOperatorAutoSelect(
CellularSetOperatorAutoSelectMessage *msg)
{
LOG_INFO("CellularSetOperatorAutoSelect handled");
NetworkSettings networkSettings(*this);
return std::make_shared<CellularSetOperatorAutoSelectResponse>(networkSettings.setOperatorAutoSelect());
}
std::shared_ptr<CellularSetOperatorResponse> ServiceCellular::handleCellularSetOperator(CellularSetOperatorMessage *msg)
{
LOG_INFO("CellularSetOperatorAutoSelect handled");
NetworkSettings networkSettings(*this);
return std::make_shared<CellularSetOperatorResponse>(
networkSettings.setOperator(msg->getMode(), msg->getFormat(), msg->getName()));
}
void ServiceCellular::volteChanged(const std::string &value)
{
if (!value.empty()) {
LOG_INFO("VoLTE setting state changed to '%s'.", value.c_str());
volteOn = utils::getNumericValue<bool>(value);
}
}
void ServiceCellular::apnListChanged(const std::string &value)
{
if (!value.empty()) {
LOG_INFO("apn_list setting state changed to '%s'.", value.c_str());
packetData->loadAPNSettings(value);
}
}
auto ServiceCellular::handleCellularAnswerIncomingCallMessage(CellularMessage *msg)
-> std::shared_ptr<CellularResponseMessage>
{
LOG_INFO("%s", __PRETTY_FUNCTION__);
if (ongoingCall.getType() != CallType::CT_INCOMING) {
return std::make_shared<CellularResponseMessage>(true);
}
auto channel = cmux->get(CellularMux::Channel::Commands);
auto ret = false;
if (channel) {
auto response = channel->cmd(at::AT::ATA);
if (response) {
// Propagate "CallActive" notification into system
bus.sendMulticast(std::make_shared<CellularCallActiveNotification>(),
sys::BusChannel::ServiceCellularNotifications);
AudioServiceAPI::RoutingStart(this);
ret = true;
}
}
return std::make_shared<CellularResponseMessage>(ret);
}
namespace
{
constexpr auto translate(at::Result::Code code) -> CellularCallRequestGeneralError::ErrorType
{
switch (code) {
case at::Result::Code::ERROR:
case at::Result::Code::CME_ERROR:
case at::Result::Code::CMS_ERROR:
return CellularCallRequestGeneralError::ErrorType::Error;
case at::Result::Code::TIMEOUT:
return CellularCallRequestGeneralError::ErrorType::ModemTimeout;
case at::Result::Code::TOKENS:
case at::Result::Code::PARSING_ERROR:
case at::Result::Code::FULL_MSG_BUFFER:
case at::Result::Code::TRANSMISSION_NOT_STARTED:
case at::Result::Code::RECEIVING_NOT_STARTED:
case at::Result::Code::DATA_NOT_USED:
case at::Result::Code::CMUX_FRAME_ERROR:
return CellularCallRequestGeneralError::ErrorType::TransmissionError;
case at::Result::Code::OK:
case at::Result::Code::NONE:
case at::Result::Code::UNDEFINED:
return CellularCallRequestGeneralError::ErrorType::UndefinedError;
}
return CellularCallRequestGeneralError::ErrorType::UndefinedError;
}
} // namespace
auto ServiceCellular::handleCellularCallRequestMessage(CellularCallRequestMessage *msg)
-> std::shared_ptr<CellularResponseMessage>
{
LOG_INFO("%s", __PRETTY_FUNCTION__);
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel == nullptr) {
LOG_WARN("commands channel not ready");
auto message = std::make_shared<CellularCallRequestGeneralError>(
CellularCallRequestGeneralError::ErrorType::ChannelNotReadyError);
bus.sendUnicast(message, ::service::name::appmgr);
return std::make_shared<CellularResponseMessage>(false);
}
cellular::RequestFactory factory(
msg->number.getEntered(), *channel, msg->callMode, Store::GSM::get()->simCardInserted());
auto request = factory.create();
CellularRequestHandler handler(*this);
auto result = channel->cmd(request->command());
request->handle(handler, result);
if (!result) {
log_last_AT_error(channel);
}
LOG_INFO("isHandled %d, %s", static_cast<int>(request->isHandled()), utils::enumToString(result.code).c_str());
if (!request->isHandled()) {
CellularCallRequestGeneralError::ErrorType errorType = translate(result.code);
auto message = std::make_shared<CellularCallRequestGeneralError>(errorType);
bus.sendUnicast(message, ::service::name::appmgr);
}
return std::make_shared<CellularResponseMessage>(request->isHandled());
}
void ServiceCellular::handleCellularHangupCallMessage(CellularHangupCallMessage *msg)
{
LOG_INFO("%s", __PRETTY_FUNCTION__);
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel) {
if (channel->cmd(at::AT::ATH)) {
callStateTimer.stop();
callEndedRecentlyTimer.start();
if (!ongoingCall.endCall(CellularCall::Forced::True)) {
LOG_ERROR("Failed to end ongoing call");
}
bus.sendMulticast(std::make_shared<CellularResponseMessage>(true, msg->type),
sys::BusChannel::ServiceCellularNotifications);
}
else {
LOG_ERROR("Call not aborted");
bus.sendMulticast(std::make_shared<CellularResponseMessage>(false, msg->type),
sys::BusChannel::ServiceCellularNotifications);
}
}
bus.sendMulticast(std::make_shared<CellularResponseMessage>(false, msg->type),
sys::BusChannel::ServiceCellularNotifications);
}
void ServiceCellular::handleCellularDismissCallMessage(sys::Message *msg)
{
LOG_INFO("%s", __PRETTY_FUNCTION__);
auto message = static_cast<CellularDismissCallMessage *>(msg);
hangUpCall();
if (message->addNotificationRequired()) {
handleCallAbortedNotification(msg);
}
}
auto ServiceCellular::handleDBQueryResponseMessage(db::QueryResponse *msg) -> std::shared_ptr<sys::ResponseMessage>
{
bool responseHandled = false;
auto result = msg->getResult();
if (auto response = dynamic_cast<db::query::SMSSearchByTypeResult *>(result.get())) {
responseHandled = handle(response);
}
else if (result->hasListener()) {
responseHandled = result->handle();
}
if (responseHandled) {
return std::make_shared<sys::ResponseMessage>();
}
else {
return std::make_shared<sys::ResponseMessage>(sys::ReturnCodes::Unresolved);
}
}
auto ServiceCellular::handleCellularListCallsMessage(CellularMessage *msg) -> std::shared_ptr<sys::ResponseMessage>
{
at::cmd::CLCC cmd;
auto base = cmux->get(CellularMux::Channel::Commands)->cmd(cmd);
if (auto response = cmd.parseCLCC(base); response) {
const auto &data = response.getData();
auto it = std::find_if(std::begin(data), std::end(data), [&](const auto &entry) {
return entry.stateOfCall == ModemCall::CallState::Active && entry.mode == ModemCall::CallMode::Voice;
});
if (it != std::end(data)) {
auto notification = std::make_shared<CellularCallActiveNotification>();
bus.sendMulticast(std::move(notification), sys::BusChannel::ServiceCellularNotifications);
callStateTimer.stop();
return std::make_shared<CellularResponseMessage>(true);
}
}
return std::make_shared<CellularResponseMessage>(false);
}
auto ServiceCellular::handleDBNotificationMessage(db::NotificationMessage *msg) -> std::shared_ptr<sys::ResponseMessage>
{
if (msg->interface == db::Interface::Name::SMS &&
(msg->type == db::Query::Type::Create || msg->type == db::Query::Type::Update)) {
priv->outSMSHandler.handleDBNotification();
return std::make_shared<sys::ResponseMessage>();
}
return std::make_shared<sys::ResponseMessage>(sys::ReturnCodes::Failure);
}
auto ServiceCellular::handleCellularRingingMessage(CellularRingingMessage *msg) -> std::shared_ptr<sys::ResponseMessage>
{
LOG_INFO("%s", __PRETTY_FUNCTION__);
return std::make_shared<CellularResponseMessage>(ongoingCall.startOutgoing(msg->number));
}
auto ServiceCellular::handleCellularGetIMSIMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
std::string temp;
if (getIMSI(temp)) {
return std::make_shared<CellularResponseMessage>(true, temp);
}
return std::make_shared<CellularResponseMessage>(false);
}
auto ServiceCellular::handleCellularGetOwnNumberMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
std::string temp;
if (getOwnNumber(temp)) {
return std::make_shared<CellularGetOwnNumberResponseMessage>(true, temp);
}
return std::make_shared<CellularGetOwnNumberResponseMessage>(false);
}
auto ServiceCellular::handleCellularGetNetworkInfoMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto message = std::make_shared<cellular::RawCommandRespAsync>(CellularMessage::Type::NetworkInfoResult);
message->data = getNetworkInfo();
bus.sendUnicast(message, msg->sender);
return std::make_shared<CellularResponseMessage>(true);
}
auto ServiceCellular::handleCellularSelectAntennaMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto message = static_cast<CellularAntennaRequestMessage *>(msg);
cmux->selectAntenna(message->antenna);
vTaskDelay(50); // sleep for 50 ms...
auto actualAntenna = cmux->getAntenna();
if (actualAntenna == bsp::cellular::antenna::lowBand) {
LOG_INFO("Low band antenna set");
}
else {
LOG_INFO("High band antenna set");
}
bool changedAntenna = (actualAntenna == message->antenna);
auto notification = std::make_shared<AntennaChangedMessage>();
bus.sendMulticast(notification, sys::BusChannel::AntennaNotifications);
return std::make_shared<CellularResponseMessage>(changedAntenna);
}
auto ServiceCellular::handleCellularSetScanModeMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto message = static_cast<CellularSetScanModeMessage *>(msg);
bool ret = SetScanMode(message->data);
return std::make_shared<CellularResponseMessage>(ret);
}
auto ServiceCellular::handleCellularGetScanModeMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto mode = GetScanMode();
if (mode != "") {
auto response = std::make_shared<cellular::RawCommandRespAsync>(CellularMessage::Type::GetScanModeResult);
response->data.push_back(mode);
bus.sendUnicast(response, msg->sender);
return std::make_shared<CellularResponseMessage>(true);
}
return std::make_shared<CellularResponseMessage>(false);
}
auto ServiceCellular::handleCellularGetFirmwareVersionMessage(sys::Message *msg)
-> std::shared_ptr<sys::ResponseMessage>
{
std::string response;
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel) {
auto resp = channel->cmd(at::AT::QGMR);
if (resp.code == at::Result::Code::OK) {
response = resp.response[0];
return std::make_shared<CellularResponseMessage>(true, response);
}
}
return std::make_shared<CellularResponseMessage>(false);
}
auto ServiceCellular::handleEVMStatusMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
using namespace bsp::cellular::status;
auto message = static_cast<sevm::StatusStateMessage *>(msg);
auto status_pin = message->state;
if (priv->modemResetHandler->handleStatusPinEvent(status_pin == value::ACTIVE)) {
return std::make_shared<CellularResponseMessage>(true);
}
if (status_pin == value::ACTIVE) {
if (priv->state->get() == State::ST::PowerUpProcedure) {
priv->state->set(State::ST::PowerUpInProgress); // and go to baud detect as usual
}
}
if (status_pin == value::INACTIVE) {
if (priv->state->get() == State::ST::PowerDownWaiting) {
priv->state->set(State::ST::PowerDown);
}
}
return std::make_shared<CellularResponseMessage>(true);
}
auto ServiceCellular::handleCellularGetCsqMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel) {
auto modemResponse = channel->cmd(at::AT::CSQ);
if (modemResponse.code == at::Result::Code::OK) {
return std::make_shared<CellularResponseMessage>(true, modemResponse.response[0]);
}
}
return std::make_shared<CellularResponseMessage>(false);
}
auto ServiceCellular::handleCellularGetCregMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel) {
auto resp = channel->cmd(at::AT::CREG);
if (resp.code == at::Result::Code::OK) {
return std::make_shared<CellularResponseMessage>(true, resp.response[0]);
}
}
return std::make_shared<CellularResponseMessage>(false);
}
auto ServiceCellular::handleCellularGetNwinfoMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel) {
auto resp = channel->cmd(at::AT::QNWINFO);
if (resp.code == at::Result::Code::OK) {
return std::make_shared<CellularResponseMessage>(true, resp.response[0]);
}
}
return std::make_shared<CellularResponseMessage>(false);
}
auto ServiceCellular::handleCellularGetAntennaMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto antenna = cmux->getAntenna();
return std::make_shared<CellularAntennaResponseMessage>(true, antenna, CellularMessage::Type::GetAntenna);
}
auto ServiceCellular::handleCellularDtmfRequestMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto message = static_cast<CellularDtmfRequestMessage *>(msg);
auto resp = transmitDtmfTone(message->getDigit());
return std::make_shared<CellularResponseMessage>(resp);
}
auto ServiceCellular::handleCellularUSSDMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto message = static_cast<CellularUSSDMessage *>(msg);
return std::make_shared<CellularResponseMessage>(handleUSSDRequest(message->type, message->data));
}
auto ServiceCellular::handleStateRequestMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
change_state(dynamic_cast<cellular::StateChange *>(msg));
return std::make_shared<CellularResponseMessage>(true);
}
auto ServiceCellular::handleCallActiveNotification(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto ret = std::make_shared<CellularResponseMessage>(ongoingCall.setActive());
NetworkSettings networkSettings(*this);
auto currentNAT = networkSettings.getCurrentNAT();
if (currentNAT) {
auto currentSimpleNAT = NetworkSettings::toSimpleNAT(*currentNAT);
LOG_INFO("Current NAT %s(%s)",
utils::enumToString(*currentNAT).c_str(),
utils::enumToString(currentSimpleNAT).c_str());
if (currentSimpleNAT == NetworkSettings::SimpleNAT::LTE) {
LOG_INFO("VoLTE call");
}
else {
LOG_INFO("Non VoLTE call");
}
}
else {
LOG_WARN("Cannot get current NAT");
}
return ret;
}
auto ServiceCellular::handleCallAbortedNotification(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
callStateTimer.stop();
const auto ret = ongoingCall.endCall();
if (not ret) {
LOG_ERROR("failed to end call");
}
return std::make_shared<CellularResponseMessage>(ret);
}
auto ServiceCellular::handlePowerUpProcedureCompleteNotification(sys::Message *msg)
-> std::shared_ptr<sys::ResponseMessage>
{
if (board == bsp::Board::Linux) {
priv->state->set(State::ST::CellularConfProcedure);
}
return std::make_shared<CellularResponseMessage>(true);
}
auto ServiceCellular::handlePowerDownDeregisteringNotification(sys::Message *msg)
-> std::shared_ptr<sys::ResponseMessage>
{
if (priv->state->get() != State::ST::PowerDownWaiting) {
priv->state->set(State::ST::PowerDownStarted);
return std::make_shared<CellularResponseMessage>(true);
}
return std::make_shared<CellularResponseMessage>(false);
}
auto ServiceCellular::handlePowerDownDeregisteredNotification(sys::Message *msg)
-> std::shared_ptr<sys::ResponseMessage>
{
priv->state->set(State::ST::PowerDownWaiting);
return std::make_shared<CellularResponseMessage>(true);
}
auto ServiceCellular::handleNewIncomingSMSNotification(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto message = static_cast<CellularNewIncomingSMSNotification *>(msg);
auto notification = std::make_shared<CellularNewIncomingSMSMessage>(message->data);
bus.sendUnicast(std::move(notification), msg->sender);
return std::make_shared<CellularResponseMessage>(true);
}
auto ServiceCellular::handleSmsDoneNotification(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto resp = handleTextMessagesInit();
return std::make_shared<CellularResponseMessage>(resp);
}
auto ServiceCellular::handleSignalStrengthUpdateNotification(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
return std::make_shared<CellularResponseMessage>(false);
}
auto ServiceCellular::handleNetworkStatusUpdateNotification(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
return std::make_shared<CellularResponseMessage>(false);
}
auto ServiceCellular::handleUrcIncomingNotification(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
WakeUpHandler();
// if there is no response from the host to incoming URC,
// the modem will automatically sleep after time constants::maxUrcHandleTime
sleepTimer.restart(constants::maxUrcHandleTime);
return std::make_shared<CellularResponseMessage>(true);
}
auto ServiceCellular::handleCellularSetFlightModeMessage(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
auto setMsg = static_cast<CellularSetFlightModeMessage *>(msg);
settings->setValue(
settings::Cellular::offlineMode, std::to_string(setMsg->flightModeOn), settings::SettingsScope::Global);
connectionManager->setFlightMode(setMsg->flightModeOn);
connectionManager->onPhoneModeChange(phoneModeObserver->getCurrentPhoneMode());
return std::make_shared<CellularResponseMessage>(true);
}
auto ServiceCellular::handleCellularRingNotification(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
LOG_INFO("%s", __PRETTY_FUNCTION__);
if (phoneModeObserver->isTetheringOn() || connectionManager->forceDismissCalls()) {
return std::make_shared<CellularResponseMessage>(hangUpCall());
}
ongoingCall.handleRING();
return std::make_shared<CellularResponseMessage>(true);
}
auto ServiceCellular::handleCellularCallerIdNotification(sys::Message *msg) -> std::shared_ptr<sys::ResponseMessage>
{
if (connectionManager->forceDismissCalls()) {
return std::make_shared<CellularResponseMessage>(hangUpCall());
}
auto message = static_cast<CellularCallerIdNotification *>(msg);
if (phoneModeObserver->isTetheringOn()) {
tetheringCalllog.push_back(CalllogRecord{CallType::CT_MISSED, message->getNubmer()});
return std::make_shared<CellularResponseMessage>(hangUpCallBusy());
}
if (not ongoingCall.handleCLIP(message->getNubmer())) {
CellularServiceAPI::DismissCall(
this, phoneModeObserver->getCurrentPhoneMode() == sys::phone_modes::PhoneMode::DoNotDisturb);
}
return std::make_shared<CellularResponseMessage>(true);
}
auto ServiceCellular::handleCellularSetConnectionFrequencyMessage(sys::Message *msg)
-> std::shared_ptr<sys::ResponseMessage>
{
auto setMsg = static_cast<CellularSetConnectionFrequencyMessage *>(msg);
settings->setValue(settings::Offline::connectionFrequency,
std::to_string(setMsg->getConnectionFrequency()),
settings::SettingsScope::Global);
connectionManager->setInterval(std::chrono::minutes{setMsg->getConnectionFrequency()});
connectionManager->onPhoneModeChange(phoneModeObserver->getCurrentPhoneMode());
return std::make_shared<CellularResponseMessage>(true);
}
auto ServiceCellular::hangUpCall() -> bool
{
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel != nullptr) {
if (channel->cmd(at::factory(at::AT::ATH))) {
ongoingCall.endCall();
return true;
}
}
LOG_ERROR("Failed to hang up call");
return false;
}
auto ServiceCellular::hangUpCallBusy() -> bool
{
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel != nullptr) {
if (channel->cmd(at::factory(at::AT::QHUP_BUSY))) {
return true;
}
}
LOG_ERROR("Failed to hang up call");
return false;
}
auto ServiceCellular::tetheringTurnOffURC() -> bool
{
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel != nullptr) {
if (!channel->cmd(at::factory(at::AT::CSQ_URC_OFF))) {
LOG_ERROR("Failed to stop CSQ URC");
return false;
}
if (!channel->cmd(at::factory(at::AT::ACT_URC_OFF))) {
LOG_ERROR("Failed to stop ACT URC");
return false;
}
if (!channel->cmd(at::factory(at::AT::SMS_URC_OFF))) {
LOG_ERROR("Failed to stop SMS URC");
return false;
}
if (!channel->cmd(at::factory(at::AT::RING_URC_OFF))) {
LOG_ERROR("Failed to stop RING URC");
return false;
}
}
return true;
}
auto ServiceCellular::tetheringTurnOnURC() -> bool
{
auto channel = cmux->get(CellularMux::Channel::Commands);
if (channel != nullptr) {
if (!channel->cmd(at::factory(at::AT::CSQ_URC_ON))) {
LOG_ERROR("Failed to stop CSQ URC");
return false;
}
if (!channel->cmd(at::factory(at::AT::ACT_URC_ON))) {
LOG_ERROR("Failed to stop ACT URC");
return false;
}
if (!channel->cmd(at::factory(at::AT::SMS_URC_ON))) {
LOG_ERROR("Failed to stop SMS URC");
return false;
}
if (!channel->cmd(at::factory(at::AT::RING_URC_ON))) {
LOG_ERROR("Failed to stop RING URC");
return false;
}
}
return true;
}
auto ServiceCellular::logTetheringCalls() -> void
{
if (!tetheringCalllog.empty()) {
for (auto callRecord : tetheringCalllog) {
auto call = DBServiceAPI::CalllogAdd(this, callRecord);
if (call.ID == DB_ID_NONE) {
LOG_ERROR("CalllogAdd failed");
}
}
std::vector<utils::PhoneNumber::View> numbers;
for (auto calllogRecord : tetheringCalllog) {
numbers.push_back(calllogRecord.phoneNumber);
}
DBServiceAPI::GetQuery(
this,
db::Interface::Name::Notifications,
std::make_unique<db::query::notifications::MultipleIncrement>(NotificationsRecord::Key::Calls, numbers));
tetheringCalllog.clear();
}
}
bool ServiceCellular::areCallsFromFavouritesEnabled()
{
return utils::getNumericValue<bool>(
settings->getValue(settings::Offline::callsFromFavorites, settings::SettingsScope::Global));
}
TaskHandle_t ServiceCellular::getTaskHandle()
{
return xTaskGetCurrentTaskHandle();
}