571 lines
29 KiB
C++
571 lines
29 KiB
C++
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
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*
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* Copyright 2013 - 2020, 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 "integrationplugineq-3.h"
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#include "integrations/thing.h"
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#include "types/param.h"
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#include "plugininfo.h"
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#include "eqivabluetooth.h"
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#include <QDebug>
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IntegrationPluginEQ3::IntegrationPluginEQ3()
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{
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}
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IntegrationPluginEQ3::~IntegrationPluginEQ3()
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{
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hardwareManager()->pluginTimerManager()->unregisterTimer(m_pluginTimer);
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}
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void IntegrationPluginEQ3::init()
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{
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qCDebug(dcEQ3()) << "Initializing EQ-3 Plugin";
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m_pluginTimer = hardwareManager()->pluginTimerManager()->registerTimer(10);
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connect(m_pluginTimer, &PluginTimer::timeout, this, &IntegrationPluginEQ3::onPluginTimer);
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}
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void IntegrationPluginEQ3::discoverThings(ThingDiscoveryInfo *info)
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{
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ThingClassId deviceClassId = info->thingClassId();
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qCDebug(dcEQ3()) << "Discover devices called";
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if(deviceClassId == cubeThingClassId){
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MaxCubeDiscovery *cubeDiscovery = new MaxCubeDiscovery(this);
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connect(info, &QObject::destroyed, cubeDiscovery, &MaxCubeDiscovery::deleteLater);
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connect(cubeDiscovery, &MaxCubeDiscovery::cubesDetected, info, [this, info](const QList<MaxCubeDiscovery::CubeInfo> &cubeList){
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foreach (const MaxCubeDiscovery::CubeInfo &cube, cubeList) {
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ThingDescriptor descriptor(cubeThingClassId, "Max! Cube LAN Gateway", cube.serialNumber);
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ParamList params;
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params << Param(cubeThingHostParamTypeId, cube.hostAddress.toString());
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params << Param(cubeThingPortParamTypeId, cube.port);
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params << Param(cubeThingFirmwareParamTypeId, cube.firmware);
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params << Param(cubeThingSerialParamTypeId, cube.serialNumber);
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foreach (Thing *existingThing, myThings()) {
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if (existingThing->paramValue(cubeThingSerialParamTypeId).toString() == cube.serialNumber) {
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descriptor.setThingId(existingThing->id());
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break;
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}
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}
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descriptor.setParams(params);
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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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cubeDiscovery->detectCubes();
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return;
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}
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if (deviceClassId == eqivaBluetoothThingClassId) {
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EqivaBluetoothDiscovery *eqivaBluetoothDiscovery = new EqivaBluetoothDiscovery(hardwareManager()->bluetoothLowEnergyManager(), this);
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// Clean up the discovery when the DiscoveryInfo goes away...
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connect(info, &QObject::destroyed, eqivaBluetoothDiscovery, &EqivaBluetoothDiscovery::deleteLater);
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// Discovery result handler
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connect(eqivaBluetoothDiscovery, &EqivaBluetoothDiscovery::finished, info, [this, info](const QList<EqivaBluetoothDiscovery::DiscoveryResult> results){
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qCDebug(dcEQ3()) << "Discovery finished";
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foreach (const EqivaBluetoothDiscovery::DiscoveryResult &result, results) {
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qCDebug(dcEQ3()) << "Discovered EQ-3 device" << result.deviceInfo.address().toString();
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ThingDescriptor descriptor(eqivaBluetoothThingClassId, "Eqiva Bluetooth Thermostat", result.deviceInfo.address().toString() + " ( via " + result.adapter.address().toString() + ")");
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ParamList params;
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params << Param(eqivaBluetoothThingMacAddressParamTypeId, result.deviceInfo.address().toString());
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params << Param(eqivaBluetoothThingAdapterParamTypeId, result.adapter.address().toString());
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descriptor.setParams(params);
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Thing *existingThing = myThings().findByParams(params);
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if (existingThing) {
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descriptor.setThingId(existingThing->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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// start the discovery
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bool ret = eqivaBluetoothDiscovery->startDiscovery();
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if (!ret) {
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return info->finish(Thing::ThingErrorHardwareNotAvailable, QT_TR_NOOP("Bluetooth discovery failed. Is Bluetooth available and enabled?"));
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}
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return;
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}
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info->finish(Thing::ThingErrorThingClassNotFound);
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}
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void IntegrationPluginEQ3::startPairing(ThingPairingInfo *info)
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{
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qCDebug(dcEQ3()) << "Start pairing" << info->thingClassId();
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info->finish(Thing::ThingErrorNoError, QT_TR_NOOP("Press and hold the rotary button on the device to obtain the passkey."));
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}
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void IntegrationPluginEQ3::confirmPairing(ThingPairingInfo *info, const QString &user, const QString &secret)
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{
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qCDebug(dcEQ3()) << "confirm" << info->thingName() << secret << user;
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QBluetoothAddress device(info->params().paramValue(eqivaBluetoothThingMacAddressParamTypeId).toString());
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QBluetoothAddress localDevice(info->params().paramValue(eqivaBluetoothThingAdapterParamTypeId).toString());
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BluetoothPairingJob *job = hardwareManager()->bluetoothLowEnergyManager()->pairDevice(device, localDevice);
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if (job->isFinished() && !job->success()) {
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info->finish(Thing::ThingErrorHardwareFailure, QT_TR_NOOP("Unable to initiate pairing with Bluetooth device."));
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return;
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}
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connect(job, &BluetoothPairingJob::passKeyRequested, info, [secret, job](){
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qCDebug(dcEQ3()) << "Pin code requested.";
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job->passKeyEntered(secret);
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});
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connect(job, &BluetoothPairingJob::finished, info, [=](bool success){
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if (!success) {
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info->finish(Thing::ThingErrorHardwareFailure, QT_TR_NOOP("An error happened during Bluetooth pairing. Please try again."));
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} else {
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info->finish(Thing::ThingErrorNoError);
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}
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});
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}
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void IntegrationPluginEQ3::setupThing(ThingSetupInfo *info)
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{
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Thing *thing = info->thing();
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qCDebug(dcEQ3) << "Setup thing" << thing->params();
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if(thing->thingClassId() == cubeThingClassId){
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MaxCube *cube = new MaxCube(this,thing->paramValue(cubeThingSerialParamTypeId).toString(),QHostAddress(thing->paramValue(cubeThingHostParamTypeId).toString()),thing->paramValue(cubeThingPortParamTypeId).toInt());
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m_cubes.insert(cube,thing);
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connect(cube, &MaxCube::cubeConnectionStatusChanged, this, &IntegrationPluginEQ3::cubeConnectionStatusChanged);
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connect(cube, &MaxCube::cubeConfigReady, this, &IntegrationPluginEQ3::updateCubeConfig);
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connect(cube, &MaxCube::wallThermostatFound, this, &IntegrationPluginEQ3::wallThermostatFound);
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connect(cube, &MaxCube::wallThermostatDataUpdated, this, &IntegrationPluginEQ3::wallThermostatDataUpdated);
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connect(cube, &MaxCube::radiatorThermostatFound, this, &IntegrationPluginEQ3::radiatorThermostatFound);
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connect(cube, &MaxCube::radiatorThermostatDataUpdated, this, &IntegrationPluginEQ3::radiatorThermostatDataUpdated);
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cube->connectToCube();
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connect(cube, &MaxCube::cubeConnectionStatusChanged, info, [info](bool connected){
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if (connected) {
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info->finish(Thing::ThingErrorNoError);
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} else {
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info->finish(Thing::ThingErrorHardwareFailure);
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}
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});
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return;
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}
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if (thing->thingClassId() == eqivaBluetoothThingClassId) {
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EqivaBluetooth *eqivaDevice = new EqivaBluetooth(hardwareManager()->bluetoothLowEnergyManager(), QBluetoothAddress(thing->paramValue(eqivaBluetoothThingMacAddressParamTypeId).toString()), thing->name(), this);
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m_eqivaDevices.insert(thing, eqivaDevice);
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connect(thing, &Thing::nameChanged, eqivaDevice, [thing, eqivaDevice](){
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eqivaDevice->setName(thing->name());
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});
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// Connected state
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thing->setStateValue(eqivaBluetoothConnectedStateTypeId, eqivaDevice->available());
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connect(eqivaDevice, &EqivaBluetooth::availableChanged, thing, [thing, eqivaDevice](){
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thing->setStateValue(eqivaBluetoothConnectedStateTypeId, eqivaDevice->available());
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});
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// Power state
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thing->setStateValue(eqivaBluetoothHeatingOnStateTypeId, eqivaDevice->valveOpen() > 0);
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connect(eqivaDevice, &EqivaBluetooth::valveOpenChanged, thing, [thing, eqivaDevice](){
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thing->setStateValue(eqivaBluetoothHeatingOnStateTypeId, eqivaDevice->valveOpen() > 0);
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});
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// Boost state
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thing->setStateValue(eqivaBluetoothBoostStateTypeId, eqivaDevice->boostEnabled());
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connect(eqivaDevice, &EqivaBluetooth::boostEnabledChanged, thing, [thing, eqivaDevice](){
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thing->setStateValue(eqivaBluetoothBoostStateTypeId, eqivaDevice->boostEnabled());
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});
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// Lock state
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thing->setStateValue(eqivaBluetoothLockStateTypeId, eqivaDevice->locked());
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connect(eqivaDevice, &EqivaBluetooth::lockedChanged, thing, [thing, eqivaDevice](){
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thing->setStateValue(eqivaBluetoothLockStateTypeId, eqivaDevice->locked());
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});
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// Mode state
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thing->setStateValue(eqivaBluetoothModeStateTypeId, modeToString(eqivaDevice->mode()));
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connect(eqivaDevice, &EqivaBluetooth::modeChanged, thing, [this, thing, eqivaDevice](){
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thing->setStateValue(eqivaBluetoothModeStateTypeId, modeToString(eqivaDevice->mode()));
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});
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// Target temp state
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thing->setStateValue(eqivaBluetoothTargetTemperatureStateTypeId, eqivaDevice->targetTemperature());
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connect(eqivaDevice, &EqivaBluetooth::targetTemperatureChanged, thing, [thing, eqivaDevice](){
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thing->setStateValue(eqivaBluetoothTargetTemperatureStateTypeId, eqivaDevice->targetTemperature());
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});
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// Window open state
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thing->setStateValue(eqivaBluetoothWindowOpenDetectedStateTypeId, eqivaDevice->windowOpen());
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connect(eqivaDevice, &EqivaBluetooth::windowOpenChanged, thing, [thing, eqivaDevice](){
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thing->setStateValue(eqivaBluetoothWindowOpenDetectedStateTypeId, eqivaDevice->windowOpen());
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});
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// Valve open state
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thing->setStateValue(eqivaBluetoothValveOpenStateTypeId, eqivaDevice->valveOpen());
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connect(eqivaDevice, &EqivaBluetooth::valveOpenChanged, thing, [thing, eqivaDevice](){
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thing->setStateValue(eqivaBluetoothValveOpenStateTypeId, eqivaDevice->valveOpen());
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});
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// Battery critical state
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thing->setStateValue(eqivaBluetoothBatteryCriticalStateTypeId, eqivaDevice->batteryCritical());
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connect(eqivaDevice, &EqivaBluetooth::batteryCriticalChanged, thing, [thing, eqivaDevice](){
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thing->setStateValue(eqivaBluetoothBatteryCriticalStateTypeId, eqivaDevice->batteryCritical());
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});
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}
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info->finish(Thing::ThingErrorNoError);
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}
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void IntegrationPluginEQ3::thingRemoved(Thing *thing)
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{
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if (thing->thingClassId() == cubeThingClassId) {
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MaxCube *cube = m_cubes.key(thing);
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qCDebug(dcEQ3) << "Removing cube" << thing->name() << cube->serialNumber();
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cube->disconnectFromCube();
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m_cubes.remove(cube);
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cube->deleteLater();
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}
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if (thing->thingClassId() == eqivaBluetoothThingClassId) {
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qCDebug(dcEQ3) << "Removing Eqiva device" << thing->name();
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hardwareManager()->bluetoothLowEnergyManager()->unpairDevice(QBluetoothAddress(thing->paramValue(eqivaBluetoothThingMacAddressParamTypeId).toString()),
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QBluetoothAddress(thing->paramValue(eqivaBluetoothThingAdapterParamTypeId).toString()));
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m_eqivaDevices.take(thing)->deleteLater();
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}
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}
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QString IntegrationPluginEQ3::modeToString(EqivaBluetooth::Mode mode)
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{
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switch (mode) {
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case EqivaBluetooth::ModeAuto:
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return "Auto";
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case EqivaBluetooth::ModeManual:
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return "Manual";
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case EqivaBluetooth::ModeHoliday:
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return "Holiday";
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}
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Q_ASSERT_X(false, "ModeToString", "Unhandled mode");
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return QString();
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}
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EqivaBluetooth::Mode IntegrationPluginEQ3::stringToMode(const QString &string)
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{
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if (string == "Holiday") {
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return EqivaBluetooth::ModeHoliday;
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}
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if (string == "Manual") {
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return EqivaBluetooth::ModeManual;
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}
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if (string == "Auto") {
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return EqivaBluetooth::ModeAuto;
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}
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Q_ASSERT_X(false, "StringToMode", "Unhandled string:" + string.toUtf8());
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return EqivaBluetooth::ModeAuto;
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}
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void IntegrationPluginEQ3::executeAction(ThingActionInfo *info)
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{
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Action action = info->action();
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if(info->thing()->thingClassId() == wallThermostatThingClassId){
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Thing *thing = myThings().findById(info->thing()->parentId());
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MaxCube *cube = m_cubes.key(thing);
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QByteArray rfAddress = thing->paramValue(wallThermostatThingRfParamTypeId).toByteArray();
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int roomId = thing->paramValue(wallThermostatThingRoomParamTypeId).toInt();
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// FIXME: The MaxCube class needs a reworkto queue commands instead of overwriting each other's actionId
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int id = -1;
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if (action.actionTypeId() == wallThermostatTargetTemperatureActionTypeId){
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id = cube->setDeviceSetpointTemp(rfAddress, roomId, action.param(wallThermostatTargetTemperatureActionTargetTemperatureParamTypeId).value().toDouble());
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} else if (action.actionTypeId() == wallThermostatPowerActionTypeId) {
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id = cube->setDeviceSetpointTemp(rfAddress, roomId, action.param(wallThermostatPowerActionPowerParamTypeId).value().toBool() ? thing->stateValue(wallThermostatComfortTemperatureStateTypeId).toDouble() : 4.5);
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} else if (action.actionTypeId() == wallThermostatSetAutoModeActionTypeId){
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id = cube->setDeviceAutoMode(rfAddress, roomId);
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} else if (action.actionTypeId() == wallThermostatSetManualModeActionTypeId){
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id = cube->setDeviceManuelMode(rfAddress, roomId);
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} else if (action.actionTypeId() == wallThermostatSetEcoModeActionTypeId){
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id = cube->setDeviceEcoMode(rfAddress, roomId);
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} else if (action.actionTypeId() == wallThermostatDisplayCurrentTempActionTypeId){
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id = cube->displayCurrentTemperature(rfAddress, roomId, action.param(wallThermostatDisplayCurrentTempActionDisplayParamTypeId).value().toBool());
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}
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if (id == -1) {
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info->finish(Thing::ThingErrorHardwareFailure);
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return;
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}
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// Connect this info object to the next coming commandActionFinished
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connect(cube, &MaxCube::commandActionFinished, info, [info, id](bool success, int replyId){
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if (replyId == id) {
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info->finish(success ? Thing::ThingErrorNoError : Thing::ThingErrorHardwareFailure);
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}
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});
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return;
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}
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if (info->thing()->thingClassId() == radiatorThermostatThingClassId){
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Thing *thing = myThings().findById(info->thing()->parentId());
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MaxCube *cube = m_cubes.key(thing);
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QByteArray rfAddress = thing->paramValue(radiatorThermostatThingRfParamTypeId).toByteArray();
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int roomId = thing->paramValue(radiatorThermostatThingRoomParamTypeId).toInt();
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int id = -1;
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if (action.actionTypeId() == radiatorThermostatTargetTemperatureActionTypeId){
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id = cube->setDeviceSetpointTemp(rfAddress, roomId, action.param(radiatorThermostatTargetTemperatureActionTargetTemperatureParamTypeId).value().toDouble());
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} else if (action.actionTypeId() == radiatorThermostatPowerActionTypeId) {
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id = cube->setDeviceSetpointTemp(rfAddress, roomId, action.param(radiatorThermostatPowerActionPowerParamTypeId).value().toBool() ? thing->stateValue(radiatorThermostatComfortTempStateTypeId).toDouble() : 4.5);
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} else if (action.actionTypeId() == radiatorThermostatSetAutoModeActionTypeId){
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id = cube->setDeviceAutoMode(rfAddress, roomId);
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} else if (action.actionTypeId() == radiatorThermostatSetManualModeActionTypeId){
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id = cube->setDeviceManuelMode(rfAddress, roomId);
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} else if (action.actionTypeId() == radiatorThermostatSetEcoModeActionTypeId){
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id = cube->setDeviceEcoMode(rfAddress, roomId);
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}
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if (id == -1) {
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info->finish(Thing::ThingErrorHardwareFailure);
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return;
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}
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// Connect this info object to the next coming commandActionFinished
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connect(cube, &MaxCube::commandActionFinished, info, [info, id](bool success, int replyId){
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if (replyId == id) {
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info->finish(success ? Thing::ThingErrorNoError : Thing::ThingErrorHardwareFailure);
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}
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});
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return;
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}
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if (info->thing()->thingClassId() == eqivaBluetoothThingClassId) {
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Thing *thing = info->thing();
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int commandId;
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EqivaBluetooth *eqivaDevice = m_eqivaDevices.value(thing);
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if (action.actionTypeId() == eqivaBluetoothTargetTemperatureActionTypeId) {
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commandId = eqivaDevice->setTargetTemperature(action.param(eqivaBluetoothTargetTemperatureActionTargetTemperatureParamTypeId).value().toReal());
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} else if (action.actionTypeId() == eqivaBluetoothLockActionTypeId) {
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commandId = eqivaDevice->setLocked(action.param(eqivaBluetoothLockActionLockParamTypeId).value().toBool());
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} else if (action.actionTypeId() == eqivaBluetoothModeActionTypeId) {
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commandId = eqivaDevice->setMode(stringToMode(action.param(eqivaBluetoothModeActionModeParamTypeId).value().toString()));
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} else if (action.actionTypeId() == eqivaBluetoothBoostActionTypeId) {
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commandId = eqivaDevice->setBoostEnabled(action.param(eqivaBluetoothBoostActionBoostParamTypeId).value().toBool());
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} else {
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Q_ASSERT_X(false, "DevicePluginEQ3", "An action type has not been handled!");
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qCWarning(dcEQ3()) << "An action type has not been handled!";
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info->finish(Thing::ThingErrorActionTypeNotFound);
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return;
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}
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connect(eqivaDevice, &EqivaBluetooth::commandResult, info, [info, commandId](int commandIdResult, bool success){
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if (!success) {
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qCWarning(dcEQ3()) << "Error writing characteristic";
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}
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if (commandId == commandIdResult) {
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info->finish(success ? Thing::ThingErrorNoError : Thing::ThingErrorHardwareFailure);
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}
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});
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return;
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}
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}
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void IntegrationPluginEQ3::onPluginTimer()
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{
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foreach (MaxCube *cube, m_cubes.keys()){
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if(cube->isConnected() && cube->isInitialized()){
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cube->refresh();
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}
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}
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}
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void IntegrationPluginEQ3::cubeConnectionStatusChanged(const bool &connected)
|
|
{
|
|
if (connected) {
|
|
MaxCube *cube = static_cast<MaxCube*>(sender());
|
|
Thing *thing;
|
|
if (m_cubes.contains(cube)) {
|
|
thing = m_cubes.value(cube);
|
|
thing->setName("Max! Cube " + cube->serialNumber());
|
|
thing->setStateValue(cubeConnectedStateTypeId,true);
|
|
}
|
|
} else {
|
|
MaxCube *cube = static_cast<MaxCube*>(sender());
|
|
Thing *thing;
|
|
if (m_cubes.contains(cube)){
|
|
thing = m_cubes.value(cube);
|
|
thing->setStateValue(cubeConnectedStateTypeId,false);
|
|
}
|
|
}
|
|
}
|
|
|
|
void IntegrationPluginEQ3::wallThermostatFound()
|
|
{
|
|
MaxCube *cube = static_cast<MaxCube*>(sender());
|
|
|
|
QList<ThingDescriptor> descriptorList;
|
|
|
|
foreach (WallThermostat *wallThermostat, cube->wallThermostatList()) {
|
|
bool alreadyAdded = false;
|
|
foreach (Thing *thing, myThings().filterByThingClassId(wallThermostatThingClassId)){
|
|
if(wallThermostat->serialNumber() == thing->paramValue(wallThermostatThingSerialParamTypeId).toString()){
|
|
alreadyAdded = true;
|
|
break;
|
|
}
|
|
}
|
|
if(!alreadyAdded){
|
|
ThingDescriptor descriptor(wallThermostatThingClassId, wallThermostat->serialNumber());
|
|
descriptor.setParentId(m_cubes.value(cube)->id());
|
|
ParamList params;
|
|
params.append(Param(wallThermostatThingSerialParamTypeId, wallThermostat->serialNumber()));
|
|
params.append(Param(wallThermostatThingRfParamTypeId, wallThermostat->rfAddress()));
|
|
params.append(Param(wallThermostatThingRoomParamTypeId, wallThermostat->roomId()));
|
|
params.append(Param(wallThermostatThingRoomNameParamTypeId, wallThermostat->roomName()));
|
|
descriptor.setParams(params);
|
|
descriptorList.append(descriptor);
|
|
}
|
|
}
|
|
|
|
if(!descriptorList.isEmpty()){
|
|
emit autoThingsAppeared(descriptorList);
|
|
}
|
|
}
|
|
|
|
void IntegrationPluginEQ3::radiatorThermostatFound()
|
|
{
|
|
MaxCube *cube = static_cast<MaxCube*>(sender());
|
|
|
|
QList<ThingDescriptor> descriptorList;
|
|
|
|
foreach (RadiatorThermostat *radiatorThermostat, cube->radiatorThermostatList()) {
|
|
bool alreadyAdded = false;
|
|
foreach (Thing *thing, myThings().filterByThingClassId(radiatorThermostatThingClassId)){
|
|
if(radiatorThermostat->serialNumber() == thing->paramValue(radiatorThermostatThingSerialParamTypeId).toString()){
|
|
alreadyAdded = true;
|
|
break;
|
|
}
|
|
}
|
|
if(!alreadyAdded){
|
|
ThingDescriptor descriptor(radiatorThermostatThingClassId, "Max! Radiator Thermostat (" + radiatorThermostat->serialNumber() + ")");
|
|
descriptor.setParentId(m_cubes.value(cube)->id());
|
|
ParamList params;
|
|
params.append(Param(radiatorThermostatThingSerialParamTypeId, radiatorThermostat->serialNumber()));
|
|
params.append(Param(radiatorThermostatThingRfParamTypeId, radiatorThermostat->rfAddress()));
|
|
params.append(Param(radiatorThermostatThingRoomParamTypeId, radiatorThermostat->roomId()));
|
|
params.append(Param(radiatorThermostatThingRoomNameParamTypeId, radiatorThermostat->roomName()));
|
|
descriptor.setParams(params);
|
|
descriptorList.append(descriptor);
|
|
}
|
|
}
|
|
|
|
if(!descriptorList.isEmpty()){
|
|
emit autoThingsAppeared(descriptorList);
|
|
}
|
|
}
|
|
|
|
void IntegrationPluginEQ3::updateCubeConfig()
|
|
{
|
|
MaxCube *cube = static_cast<MaxCube*>(sender());
|
|
Thing *thing;
|
|
if (m_cubes.contains(cube)) {
|
|
thing = m_cubes.value(cube);
|
|
thing->setStateValue(cubePortalEnabledStateTypeId,cube->portalEnabeld());
|
|
return;
|
|
}
|
|
}
|
|
|
|
void IntegrationPluginEQ3::wallThermostatDataUpdated()
|
|
{
|
|
MaxCube *cube = static_cast<MaxCube*>(sender());
|
|
|
|
foreach (WallThermostat *wallThermostat, cube->wallThermostatList()) {
|
|
foreach (Thing *thing, myThings().filterByThingClassId(wallThermostatThingClassId)){
|
|
if(thing->paramValue(wallThermostatThingSerialParamTypeId).toString() == wallThermostat->serialNumber()){
|
|
thing->setStateValue(wallThermostatConnectedStateTypeId, wallThermostat->initialized() && wallThermostat->linkStatusOK());
|
|
thing->setStateValue(wallThermostatComfortTemperatureStateTypeId, wallThermostat->comfortTemp());
|
|
thing->setStateValue(wallThermostatEcoTempStateTypeId, wallThermostat->ecoTemp());
|
|
thing->setStateValue(wallThermostatMaxSetpointTempStateTypeId, wallThermostat->maxSetPointTemp());
|
|
thing->setStateValue(wallThermostatMinSetpointTempStateTypeId, wallThermostat->minSetPointTemp());
|
|
thing->setStateValue(wallThermostatErrorOccurredStateTypeId, wallThermostat->errorOccurred());
|
|
thing->setStateValue(wallThermostatInitializedStateTypeId, wallThermostat->initialized());
|
|
thing->setStateValue(wallThermostatBatteryCriticalStateTypeId, wallThermostat->batteryLow());
|
|
thing->setStateValue(wallThermostatPanelLockedStateTypeId, wallThermostat->panelLocked());
|
|
thing->setStateValue(wallThermostatGatewayKnownStateTypeId, wallThermostat->gatewayKnown());
|
|
thing->setStateValue(wallThermostatDtsActiveStateTypeId, wallThermostat->dtsActive());
|
|
thing->setStateValue(wallThermostatDeviceModeStateTypeId, wallThermostat->deviceMode());
|
|
thing->setStateValue(wallThermostatDeviceModeStringStateTypeId, wallThermostat->deviceModeString());
|
|
thing->setStateValue(wallThermostatTargetTemperatureStateTypeId, wallThermostat->setpointTemperature());
|
|
thing->setStateValue(wallThermostatPowerStateTypeId, wallThermostat->setpointTemperature() > 4.5);
|
|
thing->setStateValue(wallThermostatTemperatureStateTypeId, wallThermostat->currentTemperature());
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
void IntegrationPluginEQ3::radiatorThermostatDataUpdated()
|
|
{
|
|
MaxCube *cube = static_cast<MaxCube*>(sender());
|
|
|
|
foreach (RadiatorThermostat *radiatorThermostat, cube->radiatorThermostatList()) {
|
|
foreach (Thing *thing, myThings().filterByThingClassId(radiatorThermostatThingClassId)){
|
|
if(thing->paramValue(radiatorThermostatThingSerialParamTypeId).toString() == radiatorThermostat->serialNumber()){
|
|
thing->setStateValue(radiatorThermostatConnectedStateTypeId, radiatorThermostat->initialized() && radiatorThermostat->linkStatusOK());
|
|
thing->setStateValue(radiatorThermostatComfortTempStateTypeId, radiatorThermostat->comfortTemp());
|
|
thing->setStateValue(radiatorThermostatEcoTempStateTypeId, radiatorThermostat->ecoTemp());
|
|
thing->setStateValue(radiatorThermostatMaxSetpointTempStateTypeId, radiatorThermostat->maxSetPointTemp());
|
|
thing->setStateValue(radiatorThermostatMinSetpointTempStateTypeId, radiatorThermostat->minSetPointTemp());
|
|
thing->setStateValue(radiatorThermostatErrorOccurredStateTypeId, radiatorThermostat->errorOccurred());
|
|
thing->setStateValue(radiatorThermostatInitializedStateTypeId, radiatorThermostat->initialized());
|
|
thing->setStateValue(radiatorThermostatBatteryCriticalStateTypeId, radiatorThermostat->batteryLow());
|
|
thing->setStateValue(radiatorThermostatPanelLockedStateTypeId, radiatorThermostat->panelLocked());
|
|
thing->setStateValue(radiatorThermostatGatewayKnownStateTypeId, radiatorThermostat->gatewayKnown());
|
|
thing->setStateValue(radiatorThermostatDtsActiveStateTypeId, radiatorThermostat->dtsActive());
|
|
thing->setStateValue(radiatorThermostatDeviceModeStateTypeId, radiatorThermostat->deviceMode());
|
|
thing->setStateValue(radiatorThermostatDeviceModeStringStateTypeId, radiatorThermostat->deviceModeString());
|
|
thing->setStateValue(radiatorThermostatTargetTemperatureStateTypeId, radiatorThermostat->setpointTemperature());
|
|
thing->setStateValue(radiatorThermostatPowerStateTypeId, radiatorThermostat->setpointTemperature() > 4.5);
|
|
thing->setStateValue(radiatorThermostatOffsetTempStateTypeId, radiatorThermostat->offsetTemp());
|
|
thing->setStateValue(radiatorThermostatWindowOpenDurationStateTypeId, radiatorThermostat->windowOpenDuration());
|
|
thing->setStateValue(radiatorThermostatBoostValveValueStateTypeId, radiatorThermostat->boostValveValue());
|
|
thing->setStateValue(radiatorThermostatBoostDurationStateTypeId, radiatorThermostat->boostDuration());
|
|
thing->setStateValue(radiatorThermostatDiscalcWeekDayStateTypeId, radiatorThermostat->discalcingWeekDay());
|
|
thing->setStateValue(radiatorThermostatDiscalcTimeStateTypeId, radiatorThermostat->discalcingTime().toString("HH:mm"));
|
|
thing->setStateValue(radiatorThermostatValveMaximumSettingsStateTypeId, radiatorThermostat->valveMaximumSettings());
|
|
thing->setStateValue(radiatorThermostatValveOffsetStateTypeId, radiatorThermostat->valveOffset());
|
|
thing->setStateValue(radiatorThermostatValvePositionStateTypeId, radiatorThermostat->valvePosition());
|
|
}
|
|
}
|
|
}
|
|
}
|