241 lines
10 KiB
C++
241 lines
10 KiB
C++
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
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*
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* Copyright 2013 - 2021, nymea GmbH
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* Contact: contact@nymea.io
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*
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* This file is part of nymea.
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* This project including source code and documentation is protected by
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* copyright law, and remains the property of nymea GmbH. All rights, including
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* reproduction, publication, editing and translation, are reserved. The use of
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* this project is subject to the terms of a license agreement to be concluded
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* with nymea GmbH in accordance with the terms of use of nymea GmbH, available
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* under https://nymea.io/license
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*
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* GNU Lesser General Public License Usage
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* Alternatively, this project may be redistributed and/or modified under the
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* terms of the GNU Lesser General Public License as published by the Free
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* Software Foundation; version 3. This project is distributed in the hope that
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* it will be useful, but WITHOUT ANY WARRANTY; without even the implied
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* warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public License
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* along with this project. If not, see <https://www.gnu.org/licenses/>.
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*
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* For any further details and any questions please contact us under
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* contact@nymea.io or see our FAQ/Licensing Information on
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* https://nymea.io/license/faq
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*
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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#include "network/networkdevicediscovery.h"
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#include "integrationpluginmtec.h"
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#include "plugininfo.h"
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IntegrationPluginMTec::IntegrationPluginMTec()
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{
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}
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void IntegrationPluginMTec::discoverThings(ThingDiscoveryInfo *info)
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{
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if (!hardwareManager()->networkDeviceDiscovery()->available()) {
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qCWarning(dcMTec()) << "The network discovery is not available on this platform.";
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info->finish(Thing::ThingErrorUnsupportedFeature, QT_TR_NOOP("The network device discovery is not available."));
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return;
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}
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// Perform a network device discovery and filter for "go-eCharger" hosts
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NetworkDeviceDiscoveryReply *discoveryReply = hardwareManager()->networkDeviceDiscovery()->discover();
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connect(discoveryReply, &NetworkDeviceDiscoveryReply::finished, this, [=](){
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foreach (const NetworkDevice &networkDevice, discoveryReply->networkDevices()) {
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qCDebug(dcMTec()) << "Found" << networkDevice;
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QString title;
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if (networkDevice.hostName().isEmpty()) {
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title = networkDevice.address().toString();
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} else {
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title = networkDevice.hostName() + " (" + networkDevice.address().toString() + ")";
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}
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QString description;
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if (networkDevice.macAddressManufacturer().isEmpty()) {
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description = networkDevice.macAddress();
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} else {
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description = networkDevice.macAddress() + " (" + networkDevice.macAddressManufacturer() + ")";
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}
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ThingDescriptor descriptor(mtecThingClassId, title, description);
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ParamList params;
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params << Param(mtecThingIpAddressParamTypeId, networkDevice.address().toString());
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params << Param(mtecThingMacAddressParamTypeId, networkDevice.macAddress());
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descriptor.setParams(params);
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// Check if we already have set up this device
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Things existingThings = myThings().filterByParam(mtecThingMacAddressParamTypeId, networkDevice.macAddress());
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if (existingThings.count() == 1) {
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qCDebug(dcMTec()) << "This heat pump already exists in the system!" << networkDevice;
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descriptor.setThingId(existingThings.first()->id());
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}
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info->addThingDescriptor(descriptor);
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}
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info->finish(Thing::ThingErrorNoError);
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});
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}
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void IntegrationPluginMTec::setupThing(ThingSetupInfo *info)
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{
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Thing *thing = info->thing();
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qCDebug(dcMTec()) << "Setup" << thing;
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if (thing->thingClassId() == mtecThingClassId) {
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QHostAddress hostAddress = QHostAddress(thing->paramValue(mtecThingIpAddressParamTypeId).toString());
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if (hostAddress.isNull()) {
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info->finish(Thing::ThingErrorInvalidParameter, QT_TR_NOOP("No IP address given"));
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return;
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}
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qCDebug(dcMTec()) << "Using ip address" << hostAddress.toString();
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MTec *mtec = new MTec(hostAddress, this);
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connect(mtec, &MTec::connectedChanged, thing, [=](bool connected){
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qCDebug(dcMTec()) << thing << "Connected changed to" << connected;
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thing->setStateValue(mtecConnectedStateTypeId, connected);
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});
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connect(mtec, &MTec::waterTankTemperatureChanged, thing, [=](double waterTankTemperature){
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qCDebug(dcMTec()) << thing << "Water tank temperature" << waterTankTemperature << "°C";
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thing->setStateValue(mtecWaterTankTemperatureStateTypeId, waterTankTemperature);
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});
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connect(mtec, &MTec::bufferTankTemperatureChanged, thing, [=](double bufferTankTemperature){
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qCDebug(dcMTec()) << thing << "Buffer tank temperature" << bufferTankTemperature << "°C";
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thing->setStateValue(mtecBufferTankTemperatureStateTypeId, bufferTankTemperature);
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});
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connect(mtec, &MTec::totalAccumulatedElectricalEnergyChanged, thing, [=](double totalAccumulatedElectricalEnergy){
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qCDebug(dcMTec()) << thing << "Total accumulated energy" << totalAccumulatedElectricalEnergy << "kWh";
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thing->setStateValue(mtecTotalAccumulatedElectricalEnergyStateTypeId, totalAccumulatedElectricalEnergy);
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});
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connect(mtec, &MTec::heatPumpStateChanged, thing, [=](MTec::HeatpumpState heatPumpState){
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qCDebug(dcMTec()) << thing << "Heat pump state" << heatPumpState;
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switch (heatPumpState) {
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case MTec::HeatpumpStateStandby:
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thing->setStateValue(mtecHeatPumpStateStateTypeId, "Standby");
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break;
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case MTec::HeatpumpStatePreRun:
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thing->setStateValue(mtecHeatPumpStateStateTypeId, "Pre run");
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break;
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case MTec::HeatpumpStateAutomaticHeat:
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thing->setStateValue(mtecHeatPumpStateStateTypeId, "Automatic heat");
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break;
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case MTec::HeatpumpStateDefrost:
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thing->setStateValue(mtecHeatPumpStateStateTypeId, "Defrost");
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break;
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case MTec::HeatpumpStateAutomaticCool:
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thing->setStateValue(mtecHeatPumpStateStateTypeId, "Automatic cool");
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break;
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case MTec::HeatpumpStatePostRun:
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thing->setStateValue(mtecHeatPumpStateStateTypeId, "Post run");
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break;
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case MTec::HeatpumpStateSaftyShutdown:
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thing->setStateValue(mtecHeatPumpStateStateTypeId, "Safty shutdown");
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break;
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case MTec::HeatpumpStateError:
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thing->setStateValue(mtecHeatPumpStateStateTypeId, "Error");
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break;
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}
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});
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connect(mtec, &MTec::heatMeterPowerConsumptionChanged, thing, [=](double heatMeterPowerConsumption){
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qCDebug(dcMTec()) << thing << "Heat meter power consumption" << heatMeterPowerConsumption << "W";
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thing->setStateValue(mtecHeatMeterPowerConsumptionStateTypeId, heatMeterPowerConsumption);
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});
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connect(mtec, &MTec::energyMeterPowerConsumptionChanged, thing, [=](double energyMeterPowerConsumption){
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qCDebug(dcMTec()) << thing << "Energy meter power consumption" << energyMeterPowerConsumption << "W";
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thing->setStateValue(mtecEnergyMeterPowerConsumptionStateTypeId, energyMeterPowerConsumption);
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});
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connect(mtec, &MTec::actualExcessEnergySmartHomeChanged, thing, [=](double actualExcessEnergySmartHome){
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qCDebug(dcMTec()) << thing << "Smart home energy" << actualExcessEnergySmartHome << "W";
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thing->setStateValue(mtecSmartHomeEnergyStateTypeId, actualExcessEnergySmartHome);
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});
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connect(mtec, &MTec::actualOutdoorTemperatureChanged, thing, [=](double actualOutdoorTemperature){
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qCDebug(dcMTec()) << thing << "Outdoor temperature" << actualOutdoorTemperature << "°C";
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thing->setStateValue(mtecOutdoorTemperatureStateTypeId, actualOutdoorTemperature);
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});
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m_mtecConnections.insert(thing, mtec);
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// TODO: start timer and give 15 seconds until connected, since the controler is down for ~10 seconds after a disconnect
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if (!mtec->connectDevice()) {
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qCWarning(dcMTec()) << "Initial connect returned false. Lets wait 15 seconds until the connection can be established.";
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}
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info->finish(Thing::ThingErrorNoError);
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}
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}
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void IntegrationPluginMTec::postSetupThing(Thing *thing)
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{
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if (thing->thingClassId() == mtecThingClassId) {
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MTec *mtec = m_mtecConnections.value(thing);
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if (mtec) {
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update(thing);
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}
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if (!m_pluginTimer) {
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qCDebug(dcMTec()) << "Starting plugin timer...";
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m_pluginTimer = hardwareManager()->pluginTimerManager()->registerTimer(10);
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connect(m_pluginTimer, &PluginTimer::timeout, this, [this] {
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foreach (Thing *thing, myThings().filterByThingClassId(mtecThingClassId)) {
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update(thing);
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}
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});
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}
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}
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}
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void IntegrationPluginMTec::thingRemoved(Thing *thing)
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{
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if (m_mtecConnections.contains(thing)) {
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MTec *mtec = m_mtecConnections.take(thing);
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if (mtec) {
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mtec->disconnectDevice();
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mtec->deleteLater();
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}
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}
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if (myThings().isEmpty()) {
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hardwareManager()->pluginTimerManager()->unregisterTimer(m_pluginTimer);
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m_pluginTimer = nullptr;
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}
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}
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void IntegrationPluginMTec::executeAction(ThingActionInfo *info)
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{
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// Thing *thing = info->thing();
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// Action action = info->action();
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info->finish(Thing::ThingErrorNoError);
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}
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void IntegrationPluginMTec::update(Thing *thing)
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{
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if (thing->thingClassId() == mtecThingClassId) {
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qCDebug(dcMTec()) << "Updating thing" << thing;
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MTec *mtec = m_mtecConnections.value(thing);
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if (!mtec) return;
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mtec->updateValues();
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}
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}
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