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etm-powersync-plugins/philipshue/devicepluginphilipshue.cpp

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/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* *
* Copyright (C) 2014 Michael Zanetti <michael_zanetti@gmx.net> *
* Copyright (C) 2015 - 2019 Simon Stürz <simon.stuerz@guh.io> *
* Copyright (C) 2018 Michael Zanetti <michael.zanetti@guh.io> *
* *
* This file is part of nymea. *
* *
* This library is free software; you can redistribute it and/or *
* modify it under the terms of the GNU Lesser General Public *
* License as published by the Free Software Foundation; either *
* version 2.1 of the License, or (at your option) any later version. *
* *
* This library is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU *
* Lesser General Public License for more details. *
* *
* You should have received a copy of the GNU Lesser General Public *
* License along with this library; If not, see *
* <http://www.gnu.org/licenses/>. *
* *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*!
\page philipshue.html
\title Philips hue
\brief Plugin for the Philips Hue lighting system.
\ingroup plugins
\ingroup nymea-plugins
This plugin allows to interact with the \l{http://www2.meethue.com/}{Philips hue} bridge. Each light bulp connected to the bridge
will appear automatically in the system, once the bridge is added to nymea.
\chapter Plugin properties
Following JSON file contains the definition and the description of all available \l{DeviceClass}{DeviceClasses}
and \l{Vendor}{Vendors} of this \l{DevicePlugin}.
For more details how to read this JSON file please check out the documentation for \l{The plugin JSON File}.
\quotefile plugins/deviceplugins/philipshue/devicepluginphilipshue.json
*/
#include "devicepluginphilipshue.h"
#include "devicemanager.h"
#include "plugin/device.h"
#include "types/param.h"
#include "plugininfo.h"
#include "network/upnp/upnpdiscovery.h"
#include "network/upnp/upnpdiscoveryreply.h"
#include <QDebug>
#include <QColor>
#include <QDateTime>
#include <QStringList>
#include <QJsonDocument>
DevicePluginPhilipsHue::DevicePluginPhilipsHue()
{
}
DevicePluginPhilipsHue::~DevicePluginPhilipsHue()
{
hardwareManager()->pluginTimerManager()->unregisterTimer(m_pluginTimer1Sec);
hardwareManager()->pluginTimerManager()->unregisterTimer(m_pluginTimer5Sec);
hardwareManager()->pluginTimerManager()->unregisterTimer(m_pluginTimer15Sec);
}
void DevicePluginPhilipsHue::init()
{
m_pluginTimer1Sec = hardwareManager()->pluginTimerManager()->registerTimer(1);
connect(m_pluginTimer1Sec, &PluginTimer::timeout, this, [this]() {
// refresh sensors every second
if (m_remotes.isEmpty()) {
return;
}
foreach (HueBridge *bridge, m_bridges.keys()) {
refreshSensors(bridge);
}
});
m_pluginTimer5Sec = hardwareManager()->pluginTimerManager()->registerTimer(5);
connect(m_pluginTimer5Sec, &PluginTimer::timeout, this, [this]() {
// refresh lights every 5 seconds
foreach (HueBridge *bridge, m_bridges.keys()) {
refreshLights(bridge);
}
});
m_pluginTimer15Sec = hardwareManager()->pluginTimerManager()->registerTimer(15);
connect(m_pluginTimer15Sec, &PluginTimer::timeout, this, [this]() {
// refresh bridges every 15 seconds
foreach (Device *device, m_bridges.values()) {
refreshBridge(device);
}
});
}
DeviceManager::DeviceError DevicePluginPhilipsHue::discoverDevices(const DeviceClassId &deviceClassId, const ParamList &params)
{
Q_UNUSED(params)
Q_UNUSED(deviceClassId)
UpnpDiscoveryReply *reply = hardwareManager()->upnpDiscovery()->discoverDevices("libhue:idl");
connect(reply, &UpnpDiscoveryReply::finished, this, &DevicePluginPhilipsHue::onUpnpDiscoveryFinished);
return DeviceManager::DeviceErrorAsync;
}
DeviceManager::DeviceSetupStatus DevicePluginPhilipsHue::setupDevice(Device *device)
{
// Update the name on the bridge if the user changes the device name
connect(device, &Device::nameChanged, this, &DevicePluginPhilipsHue::onDeviceNameChanged);
// hue bridge
if (device->deviceClassId() == bridgeDeviceClassId) {
// unconfigured bridges (from pairing)
foreach (HueBridge *b, m_unconfiguredBridges) {
if (b->hostAddress().toString() == device->paramValue(bridgeDeviceHostParamTypeId).toString()) {
m_unconfiguredBridges.removeAll(b);
qCDebug(dcPhilipsHue) << "Setup unconfigured Hue Bridge" << b->name();
// Set data which was not known during discovery
device->setParamValue(bridgeDeviceApiKeyParamTypeId, b->apiKey());
device->setParamValue(bridgeDeviceZigbeeChannelParamTypeId, b->zigbeeChannel());
device->setParamValue(bridgeDeviceMacParamTypeId, b->macAddress());
m_bridges.insert(b, device);
device->setStateValue(bridgeConnectedStateTypeId, true);
discoverBridgeDevices(b);
return DeviceManager::DeviceSetupStatusSuccess;
}
}
// Loaded bridge
qCDebug(dcPhilipsHue) << "Setup Hue Bridge" << device->params();
HueBridge *bridge = new HueBridge(this);
bridge->setId(device->paramValue(bridgeDeviceIdParamTypeId).toString());
bridge->setApiKey(device->paramValue(bridgeDeviceApiKeyParamTypeId).toString());
bridge->setHostAddress(QHostAddress(device->paramValue(bridgeDeviceHostParamTypeId).toString()));
bridge->setMacAddress(device->paramValue(bridgeDeviceMacParamTypeId).toString());
bridge->setZigbeeChannel(device->paramValue(bridgeDeviceZigbeeChannelParamTypeId).toInt());
m_bridges.insert(bridge, device);
discoverBridgeDevices(bridge);
return DeviceManager::DeviceSetupStatusSuccess;
}
// Hue color light
if (device->deviceClassId() == colorLightDeviceClassId) {
qCDebug(dcPhilipsHue) << "Setup Hue color light" << device->params();
HueBridge *bridge = m_bridges.key(myDevices().findById(device->parentId()));
HueLight *hueLight = new HueLight(this);
hueLight->setHostAddress(bridge->hostAddress());
hueLight->setApiKey(bridge->apiKey());
hueLight->setId(device->paramValue(colorLightDeviceLightIdParamTypeId).toInt());
hueLight->setModelId(device->paramValue(colorLightDeviceModelIdParamTypeId).toString());
hueLight->setUuid(device->paramValue(colorLightDeviceUuidParamTypeId).toString());
hueLight->setType(device->paramValue(colorLightDeviceTypeParamTypeId).toString());
connect(hueLight, &HueLight::stateChanged, this, &DevicePluginPhilipsHue::lightStateChanged);
m_lights.insert(hueLight, device);
refreshLight(device);
return DeviceManager::DeviceSetupStatusSuccess;
}
// Hue color temperature light
if (device->deviceClassId() == colorTemperatureLightDeviceClassId) {
qCDebug(dcPhilipsHue) << "Setup Hue color temperature light" << device->params();
HueBridge *bridge = m_bridges.key(myDevices().findById(device->parentId()));
HueLight *hueLight = new HueLight(this);
hueLight->setHostAddress(bridge->hostAddress());
hueLight->setApiKey(bridge->apiKey());
hueLight->setId(device->paramValue(colorTemperatureLightDeviceLightIdParamTypeId).toInt());
hueLight->setModelId(device->paramValue(colorTemperatureLightDeviceModelIdParamTypeId).toString());
hueLight->setUuid(device->paramValue(colorTemperatureLightDeviceUuidParamTypeId).toString());
hueLight->setType(device->paramValue(colorTemperatureLightDeviceTypeParamTypeId).toString());
connect(hueLight, &HueLight::stateChanged, this, &DevicePluginPhilipsHue::lightStateChanged);
m_lights.insert(hueLight, device);
refreshLight(device);
return DeviceManager::DeviceSetupStatusSuccess;
}
// Hue white light
if (device->deviceClassId() == dimmableLightDeviceClassId) {
qCDebug(dcPhilipsHue) << "Setup Hue white light" << device->params();
HueBridge *bridge = m_bridges.key(myDevices().findById(device->parentId()));
HueLight *hueLight = new HueLight(this);
hueLight->setHostAddress(bridge->hostAddress());
hueLight->setApiKey(bridge->apiKey());
hueLight->setId(device->paramValue(dimmableLightDeviceLightIdParamTypeId).toInt());
hueLight->setModelId(device->paramValue(dimmableLightDeviceModelIdParamTypeId).toString());
hueLight->setUuid(device->paramValue(dimmableLightDeviceUuidParamTypeId).toString());
hueLight->setType(device->paramValue(dimmableLightDeviceTypeParamTypeId).toString());
connect(hueLight, &HueLight::stateChanged, this, &DevicePluginPhilipsHue::lightStateChanged);
m_lights.insert(hueLight, device);
refreshLight(device);
return DeviceManager::DeviceSetupStatusSuccess;
}
// Hue remote
if (device->deviceClassId() == remoteDeviceClassId) {
qCDebug(dcPhilipsHue) << "Setup Hue remote" << device->params() << device->deviceClassId();
HueBridge *bridge = m_bridges.key(myDevices().findById(device->parentId()));
HueRemote *hueRemote = new HueRemote(this);
hueRemote->setHostAddress(bridge->hostAddress());
hueRemote->setApiKey(bridge->apiKey());
hueRemote->setId(device->paramValue(remoteDeviceSensorIdParamTypeId).toInt());
hueRemote->setModelId(device->paramValue(remoteDeviceModelIdParamTypeId).toString());
hueRemote->setType(device->paramValue(remoteDeviceTypeParamTypeId).toString());
hueRemote->setUuid(device->paramValue(remoteDeviceUuidParamTypeId).toString());
connect(hueRemote, &HueRemote::stateChanged, this, &DevicePluginPhilipsHue::remoteStateChanged);
connect(hueRemote, &HueRemote::buttonPressed, this, &DevicePluginPhilipsHue::onRemoteButtonEvent);
m_remotes.insert(hueRemote, device);
return DeviceManager::DeviceSetupStatusSuccess;
}
// Hue tap
if (device->deviceClassId() == tapDeviceClassId) {
HueRemote *hueTap = new HueRemote(this);
hueTap->setName(device->name());
hueTap->setId(device->paramValue(tapDeviceSensorIdParamTypeId).toInt());
hueTap->setModelId(device->paramValue(tapDeviceModelIdParamTypeId).toString());
connect(hueTap, &HueRemote::stateChanged, this, &DevicePluginPhilipsHue::remoteStateChanged);
connect(hueTap, &HueRemote::buttonPressed, this, &DevicePluginPhilipsHue::onRemoteButtonEvent);
m_remotes.insert(hueTap, device);
return DeviceManager::DeviceSetupStatusSuccess;
}
// Hue Outdoor sensor
if (device->deviceClassId() == outdoorSensorDeviceClassId) {
qCDebug(dcPhilipsHue) << "Setup Hue Outdoor sensor" << device->params();
HueOutdoorSensor *outdoorSensor = new HueOutdoorSensor(this);
outdoorSensor->setUuid(device->paramValue(outdoorSensorDeviceUuidParamTypeId).toString());
outdoorSensor->setModelId(device->paramValue(outdoorSensorDeviceModelIdParamTypeId).toString());
outdoorSensor->setTemperatureSensorId(device->paramValue(outdoorSensorDeviceSensorIdTemperatureParamTypeId).toInt());
outdoorSensor->setTemperatureSensorUuid(device->paramValue(outdoorSensorDeviceSensorUuidTemperatureParamTypeId).toString());
outdoorSensor->setPresenceSensorId(device->paramValue(outdoorSensorDeviceSensorIdPresenceParamTypeId).toInt());
outdoorSensor->setPresenceSensorUuid(device->paramValue(outdoorSensorDeviceSensorUuidPresenceParamTypeId).toString());
outdoorSensor->setLightSensorId(device->paramValue(outdoorSensorDeviceSensorIdLightParamTypeId).toInt());
outdoorSensor->setLightSensorUuid(device->paramValue(outdoorSensorDeviceSensorUuidLightParamTypeId).toString());
connect(outdoorSensor, &HueOutdoorSensor::reachableChanged, this, &DevicePluginPhilipsHue::onOutdoorSensorReachableChanged);
connect(outdoorSensor, &HueOutdoorSensor::batteryLevelChanged, this, &DevicePluginPhilipsHue::onOutdoorSensorBatteryLevelChanged);
connect(outdoorSensor, &HueOutdoorSensor::temperatureChanged, this, &DevicePluginPhilipsHue::onOutdoorSensorTemperatureChanged);
connect(outdoorSensor, &HueOutdoorSensor::presenceChanged, this, &DevicePluginPhilipsHue::onOutdoorSensorPresenceChanged);
connect(outdoorSensor, &HueOutdoorSensor::lightIntensityChanged, this, &DevicePluginPhilipsHue::onOutdoorSensorLightIntensityChanged);
m_outdoorSensors.insert(outdoorSensor, device);
return DeviceManager::DeviceSetupStatusSuccess;
}
qCWarning(dcPhilipsHue()) << "Unhandled setupDevice call" << device->deviceClassId();
return DeviceManager::DeviceSetupStatusFailure;
}
void DevicePluginPhilipsHue::deviceRemoved(Device *device)
{
abortRequests(m_lightRefreshRequests, device);
abortRequests(m_setNameRequests, device);
abortRequests(m_bridgeRefreshRequests, device);
abortRequests(m_lightsRefreshRequests, device);
abortRequests(m_sensorsRefreshRequests, device);
abortRequests(m_bridgeLightsDiscoveryRequests, device);
abortRequests(m_bridgeSensorsDiscoveryRequests, device);
abortRequests(m_bridgeSearchDevicesRequests, device);
if (device->deviceClassId() == bridgeDeviceClassId) {
HueBridge *bridge = m_bridges.key(device);
m_bridges.remove(bridge);
bridge->deleteLater();
}
if (device->deviceClassId() == colorLightDeviceClassId
|| device->deviceClassId() == colorTemperatureLightDeviceClassId
|| device->deviceClassId() == dimmableLightDeviceClassId) {
HueLight *light = m_lights.key(device);
m_lights.remove(light);
light->deleteLater();
}
if (device->deviceClassId() == remoteDeviceClassId || device->deviceClassId() == tapDeviceClassId) {
HueRemote *remote = m_remotes.key(device);
m_remotes.remove(remote);
remote->deleteLater();
}
if (device->deviceClassId() == outdoorSensorDeviceClassId) {
HueOutdoorSensor *outdoorSensor = m_outdoorSensors.key(device);
m_outdoorSensors.remove(outdoorSensor);
outdoorSensor->deleteLater();
}
}
DeviceManager::DeviceSetupStatus DevicePluginPhilipsHue::confirmPairing(const PairingTransactionId &pairingTransactionId, const DeviceClassId &deviceClassId, const ParamList &params, const QString &secret)
{
Q_UNUSED(secret)
qCDebug(dcPhilipsHue()) << "Confirming pairing for transactionId" << pairingTransactionId;
if (deviceClassId != bridgeDeviceClassId)
return DeviceManager::DeviceSetupStatusFailure;
PairingInfo *pairingInfo = new PairingInfo(this);
pairingInfo->setPairingTransactionId(pairingTransactionId);
pairingInfo->setHost(QHostAddress(params.paramValue(bridgeDeviceHostParamTypeId).toString()));
QVariantMap deviceTypeParam;
deviceTypeParam.insert("devicetype", "nymea");
QJsonDocument jsonDoc = QJsonDocument::fromVariant(deviceTypeParam);
QNetworkRequest request(QUrl("http://" + pairingInfo->host().toString() + "/api"));
request.setHeader(QNetworkRequest::ContentTypeHeader, "application/json");
QNetworkReply *reply = hardwareManager()->networkManager()->post(request, jsonDoc.toJson());
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_pairingRequests.insert(reply, pairingInfo);
return DeviceManager::DeviceSetupStatusAsync;
}
void DevicePluginPhilipsHue::networkManagerReplyReady()
{
QNetworkReply *reply = static_cast<QNetworkReply *>(sender());
reply->deleteLater();
int status = reply->attribute(QNetworkRequest::HttpStatusCodeAttribute).toInt();
// qCDebug(dcPhilipsHue()) << "Hue reply:" << status << reply->error() << reply->errorString();
// create user finished
if (m_pairingRequests.contains(reply)) {
PairingInfo *pairingInfo = m_pairingRequests.take(reply);
// check HTTP status code
if (status != 200 || reply->error() != QNetworkReply::NoError) {
qCWarning(dcPhilipsHue) << "Request error:" << status << reply->errorString();
pairingInfo->deleteLater();
return;
}
processPairingResponse(pairingInfo, reply->readAll());
} else if (m_informationRequests.contains(reply)) {
PairingInfo *pairingInfo = m_informationRequests.take(reply);
// check HTTP status code
if (status != 200 || reply->error() != QNetworkReply::NoError) {
qCWarning(dcPhilipsHue) << "Request error:" << status << reply->errorString();
pairingInfo->deleteLater();
return;
}
processInformationResponse(pairingInfo, reply->readAll());
} else if (m_discoveryRequests.contains(reply)) {
m_discoveryRequests.removeAll(reply);
// check HTTP status code
if (status != 200 || reply->error() != QNetworkReply::NoError) {
qCWarning(dcPhilipsHue) << "N-UPNP discovery error:" << status << reply->errorString();
return;
}
processNUpnpResponse(reply->readAll());
} else if (m_bridgeLightsDiscoveryRequests.contains(reply)) {
Device *device = m_bridgeLightsDiscoveryRequests.take(reply);
// check HTTP status code
if (status != 200 || reply->error() != QNetworkReply::NoError) {
qCWarning(dcPhilipsHue) << "Bridge light discovery error:" << status << reply->errorString();
bridgeReachableChanged(device, false);
return;
}
processBridgeLightDiscoveryResponse(device, reply->readAll());
} else if (m_bridgeSensorsDiscoveryRequests.contains(reply)) {
Device *device = m_bridgeSensorsDiscoveryRequests.take(reply);
// check HTTP status code
if (status != 200 || reply->error() != QNetworkReply::NoError) {
qCWarning(dcPhilipsHue) << "Bridge sensor discovery error:" << status << reply->errorString();
bridgeReachableChanged(device, false);
return;
}
processBridgeSensorDiscoveryResponse(device, reply->readAll());
} else if (m_bridgeSearchDevicesRequests.contains(reply)) {
Device *device = m_bridgeSearchDevicesRequests.take(reply);
// check HTTP status code
if (status != 200 || reply->error() != QNetworkReply::NoError) {
qCWarning(dcPhilipsHue) << "Bridge search new devices error:" << status << reply->errorString();
bridgeReachableChanged(device, false);
return;
}
discoverBridgeDevices(m_bridges.key(device));
} else if (m_bridgeRefreshRequests.contains(reply)) {
Device *device = m_bridgeRefreshRequests.take(reply);
// check HTTP status code
if (status != 200 || reply->error() != QNetworkReply::NoError) {
if (device->stateValue(bridgeConnectedStateTypeId).toBool()) {
qCWarning(dcPhilipsHue) << "Refresh Hue Bridge request error:" << status << reply->errorString();
bridgeReachableChanged(device, false);
}
return;
}
processBridgeRefreshResponse(device, reply->readAll());
} else if (m_lightRefreshRequests.contains(reply)) {
Device *device = m_lightRefreshRequests.take(reply);
// check HTTP status code
if (status != 200 || reply->error() != QNetworkReply::NoError) {
qCWarning(dcPhilipsHue) << "Refresh Hue Light request error:" << status << reply->errorString();
bridgeReachableChanged(device, false);
return;
}
processLightRefreshResponse(device, reply->readAll());
} else if (m_lightsRefreshRequests.contains(reply)) {
Device *device = m_lightsRefreshRequests.take(reply);
// check HTTP status code
if (status != 200 || reply->error() != QNetworkReply::NoError) {
if (device->stateValue(bridgeConnectedStateTypeId).toBool()) {
qCWarning(dcPhilipsHue) << "Refresh Hue lights request error:" << status << reply->errorString();
bridgeReachableChanged(device, false);
}
return;
}
processLightsRefreshResponse(device, reply->readAll());
} else if (m_sensorsRefreshRequests.contains(reply)) {
Device *device = m_sensorsRefreshRequests.take(reply);
// check HTTP status code
if (status != 200 || reply->error() != QNetworkReply::NoError) {
if (device->stateValue(bridgeConnectedStateTypeId).toBool()) {
qCWarning(dcPhilipsHue) << "Refresh Hue sensors request error:" << status << reply->errorString();
bridgeReachableChanged(device, false);
}
return;
}
processSensorsRefreshResponse(device, reply->readAll());
} else if (m_asyncActions.contains(reply)) {
QPair<Device *, ActionId> actionInfo = m_asyncActions.take(reply);
// check HTTP status code
if (status != 200 || reply->error() != QNetworkReply::NoError) {
qCWarning(dcPhilipsHue) << "Execute Hue Light action request error:" << status << reply->errorString();
bridgeReachableChanged(actionInfo.first, false);
emit actionExecutionFinished(actionInfo.second, DeviceManager::DeviceErrorHardwareNotAvailable);
return;
}
processActionResponse(actionInfo.first, actionInfo.second, reply->readAll());
} else if (m_setNameRequests.contains(reply)) {
Device *device = m_setNameRequests.take(reply);
// check HTTP status code
if (status != 200 || reply->error() != QNetworkReply::NoError) {
qCWarning(dcPhilipsHue) << "Set name of Hue Light request error:" << status << reply->errorString();
bridgeReachableChanged(device, false);
return;
}
processSetNameResponse(device, reply->readAll());
} else {
qCWarning(dcPhilipsHue()) << "Unhandled bridge reply" << reply->error() << reply->readAll();
}
}
void DevicePluginPhilipsHue::onDeviceNameChanged()
{
Device *device = static_cast<Device*>(sender());
if (m_lights.values().contains(device)) {
setLightName(device);
}
if (m_remotes.values().contains(device)) {
setRemoteName(device);
}
}
DeviceManager::DeviceError DevicePluginPhilipsHue::executeAction(Device *device, const Action &action)
{
qCDebug(dcPhilipsHue) << "Execute action" << action.actionTypeId() << action.params();
// Color light
if (device->deviceClassId() == colorLightDeviceClassId) {
HueLight *light = m_lights.key(device);
if (!light->reachable()) {
qCWarning(dcPhilipsHue) << "Light" << light->name() << "not reachable";
return DeviceManager::DeviceErrorHardwareNotAvailable;
}
if (action.actionTypeId() == colorLightPowerActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = light->createSetPowerRequest(action.param(colorLightPowerActionPowerParamTypeId).value().toBool());
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
} else if (action.actionTypeId() == colorLightColorActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = light->createSetColorRequest(action.param(colorLightColorActionColorParamTypeId).value().value<QColor>());
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply,QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
} else if (action.actionTypeId() == colorLightBrightnessActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = light->createSetBrightnessRequest(percentageToBrightness(action.param(colorLightBrightnessActionBrightnessParamTypeId).value().toInt()));
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
} else if (action.actionTypeId() == colorLightEffectActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = light->createSetEffectRequest(action.param(colorLightEffectActionEffectParamTypeId).value().toString());
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
} else if (action.actionTypeId() == colorLightAlertActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = light->createFlashRequest(action.param(colorLightAlertActionAlertParamTypeId).value().toString());
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
} else if (action.actionTypeId() == colorLightColorTemperatureActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = light->createSetTemperatureRequest(action.param(colorLightColorTemperatureActionColorTemperatureParamTypeId).value().toInt());
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
}
return DeviceManager::DeviceErrorActionTypeNotFound;
}
// Color temperature light
if (device->deviceClassId() == colorTemperatureLightDeviceClassId) {
HueLight *light = m_lights.key(device);
if (!light->reachable()) {
qCWarning(dcPhilipsHue) << "Light" << light->name() << "not reachable";
return DeviceManager::DeviceErrorHardwareNotAvailable;
}
if (action.actionTypeId() == colorTemperatureLightPowerActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = light->createSetPowerRequest(action.param(colorTemperatureLightPowerActionPowerParamTypeId).value().toBool());
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
} else if (action.actionTypeId() == colorTemperatureLightBrightnessActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = light->createSetBrightnessRequest(percentageToBrightness(action.param(colorTemperatureLightBrightnessActionBrightnessParamTypeId).value().toInt()));
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
} else if (action.actionTypeId() == colorTemperatureLightAlertActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = light->createFlashRequest(action.param(colorTemperatureLightAlertActionAlertParamTypeId).value().toString());
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
} else if (action.actionTypeId() == colorTemperatureLightColorTemperatureActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = light->createSetTemperatureRequest(action.param(colorTemperatureLightColorTemperatureActionColorTemperatureParamTypeId).value().toInt());
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
}
return DeviceManager::DeviceErrorActionTypeNotFound;
}
// Dimmable light
if (device->deviceClassId() == dimmableLightDeviceClassId) {
HueLight *light = m_lights.key(device);
if (!light->reachable()) {
qCWarning(dcPhilipsHue) << "Light" << light->name() << "not reachable";
return DeviceManager::DeviceErrorHardwareNotAvailable;
}
if (action.actionTypeId() == dimmableLightPowerActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = light->createSetPowerRequest(action.param(dimmableLightPowerActionPowerParamTypeId).value().toBool());
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
} else if (action.actionTypeId() == dimmableLightBrightnessActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = light->createSetBrightnessRequest(percentageToBrightness(action.param(dimmableLightBrightnessActionBrightnessParamTypeId).value().toInt()));
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
} else if (action.actionTypeId() == dimmableLightAlertActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = light->createFlashRequest(action.param(dimmableLightAlertActionAlertParamTypeId).value().toString());
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
}
return DeviceManager::DeviceErrorActionTypeNotFound;
}
// Hue bridge
if (device->deviceClassId() == bridgeDeviceClassId) {
HueBridge *bridge = m_bridges.key(device);
if (!device->stateValue(bridgeConnectedStateTypeId).toBool()) {
qCWarning(dcPhilipsHue) << "Bridge" << bridge->hostAddress().toString() << "not reachable";
return DeviceManager::DeviceErrorHardwareNotAvailable;
}
if (action.actionTypeId() == bridgeSearchNewDevicesActionTypeId) {
searchNewDevices(bridge, action.param(bridgeSearchNewDevicesActionSerialParamTypeId).value().toString());
return DeviceManager::DeviceErrorNoError;
} else if (action.actionTypeId() == bridgeCheckForUpdatesActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = bridge->createCheckUpdatesRequest();
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
} else if (action.actionTypeId() == bridgeUpgradeActionTypeId) {
QPair<QNetworkRequest, QByteArray> request = bridge->createUpgradeRequest();
QNetworkReply *reply = hardwareManager()->networkManager()->put(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_asyncActions.insert(reply, QPair<Device *, ActionId>(device, action.id()));
return DeviceManager::DeviceErrorAsync;
}
return DeviceManager::DeviceErrorActionTypeNotFound;
}
return DeviceManager::DeviceErrorDeviceClassNotFound;
}
void DevicePluginPhilipsHue::lightStateChanged()
{
HueLight *light = static_cast<HueLight *>(sender());
Device *device = m_lights.value(light);
if (!device) {
qCWarning(dcPhilipsHue) << "Could not find device for light" << light->name();
return;
}
if (device->deviceClassId() == colorLightDeviceClassId) {
device->setStateValue(colorLightConnectedStateTypeId, light->reachable());
device->setStateValue(colorLightColorStateTypeId, QVariant::fromValue(light->color()));
device->setStateValue(colorLightPowerStateTypeId, light->power());
device->setStateValue(colorLightBrightnessStateTypeId, brightnessToPercentage(light->brightness()));
device->setStateValue(colorLightColorTemperatureStateTypeId, light->ct());
device->setStateValue(colorLightEffectStateTypeId, light->effect());
} else if (device->deviceClassId() == colorTemperatureLightDeviceClassId) {
device->setStateValue(colorTemperatureLightConnectedStateTypeId, light->reachable());
device->setStateValue(colorTemperatureLightPowerStateTypeId, light->power());
device->setStateValue(colorTemperatureLightBrightnessStateTypeId, brightnessToPercentage(light->brightness()));
device->setStateValue(colorTemperatureLightColorTemperatureStateTypeId, light->ct());
} else if (device->deviceClassId() == dimmableLightDeviceClassId) {
device->setStateValue(dimmableLightConnectedStateTypeId, light->reachable());
device->setStateValue(dimmableLightPowerStateTypeId, light->power());
device->setStateValue(dimmableLightBrightnessStateTypeId, brightnessToPercentage(light->brightness()));
}
}
void DevicePluginPhilipsHue::remoteStateChanged()
{
HueRemote *remote = static_cast<HueRemote *>(sender());
Device *device = m_remotes.value(remote);
if (!device) {
qCWarning(dcPhilipsHue) << "Could not find device for remote" << remote->name();
return;
}
if (device->deviceClassId() == tapDeviceClassId) {
device->setStateValue(tapConnectedStateTypeId, remote->reachable());
} else {
device->setStateValue(remoteConnectedStateTypeId, remote->reachable());
device->setStateValue(remoteBatteryLevelStateTypeId, remote->battery());
device->setStateValue(remoteBatteryCriticalStateTypeId, remote->battery() < 5);
}
}
void DevicePluginPhilipsHue::onRemoteButtonEvent(int buttonCode)
{
HueRemote *remote = static_cast<HueRemote *>(sender());
EventTypeId id;
Param param;
// TODO: Legacy events should be removed eventually
switch (buttonCode) {
case HueRemote::OnPressed:
param = Param(remotePressedEventButtonNameParamTypeId, "ON");
id = remotePressedEventTypeId;
break;
case HueRemote::OnLongPressed:
emitEvent(Event(remoteOnLongPressedEventTypeId, m_remotes.value(remote)->id()));
param = Param(remoteLongPressedEventButtonNameParamTypeId, "ON");
id = remoteLongPressedEventTypeId;
break;
case HueRemote::DimUpPressed:
emitEvent(Event(remoteDimUpPressedEventTypeId, m_remotes.value(remote)->id()));
param = Param(remotePressedEventButtonNameParamTypeId, "DIM UP");
id = remotePressedEventTypeId;
break;
case HueRemote::DimUpLongPressed:
emitEvent(Event(remoteDimUpLongPressedEventTypeId, m_remotes.value(remote)->id()));
param = Param(remoteLongPressedEventButtonNameParamTypeId, "DIM UP");
id = remoteLongPressedEventTypeId;
break;
case HueRemote::DimDownPressed:
emitEvent(Event(remoteDimDownPressedEventTypeId, m_remotes.value(remote)->id()));
param = Param(remotePressedEventButtonNameParamTypeId, "DIM DOWN");
id = remotePressedEventTypeId;
break;
case HueRemote::DimDownLongPressed:
emitEvent(Event(remoteDimDownLongPressedEventTypeId, m_remotes.value(remote)->id()));
param = Param(remoteLongPressedEventButtonNameParamTypeId, "DIM DOWN");
id = remoteLongPressedEventTypeId;
break;
case HueRemote::OffPressed:
emitEvent(Event(remoteOffPressedEventTypeId, m_remotes.value(remote)->id()));
param = Param(remotePressedEventButtonNameParamTypeId, "OFF");
id = remotePressedEventTypeId;
break;
case HueRemote::OffLongPressed:
emitEvent(Event(remoteOffLongPressedEventTypeId, m_remotes.value(remote)->id()));
param = Param(remoteLongPressedEventButtonNameParamTypeId, "OFF");
id = remoteLongPressedEventTypeId;
break;
case HueRemote::TapButton1Pressed:
param = Param(tapPressedEventButtonNameParamTypeId, "");
id = tapPressedEventTypeId;
break;
case HueRemote::TapButton2Pressed:
param = Param(tapPressedEventButtonNameParamTypeId, "••");
id = tapPressedEventTypeId;
break;
case HueRemote::TapButton3Pressed:
param = Param(tapPressedEventButtonNameParamTypeId, "•••");
id = tapPressedEventTypeId;
break;
case HueRemote::TapButton4Pressed:
param = Param(tapPressedEventButtonNameParamTypeId, "••••");
id = tapPressedEventTypeId;
break;
default:
break;
}
emitEvent(Event(id, m_remotes.value(remote)->id(), ParamList() << param));
}
void DevicePluginPhilipsHue::onOutdoorSensorReachableChanged(bool reachable)
{
HueOutdoorSensor *sensor = static_cast<HueOutdoorSensor *>(sender());
Device *sensorDevice = m_outdoorSensors.value(sensor);
sensorDevice->setStateValue(outdoorSensorConnectedStateTypeId, reachable);
}
void DevicePluginPhilipsHue::onOutdoorSensorBatteryLevelChanged(int batteryLevel)
{
HueOutdoorSensor *sensor = static_cast<HueOutdoorSensor *>(sender());
Device *sensorDevice = m_outdoorSensors.value(sensor);
sensorDevice->setStateValue(outdoorSensorBatteryLevelStateTypeId, batteryLevel);
sensorDevice->setStateValue(outdoorSensorBatteryCriticalStateTypeId, (batteryLevel < 5));
}
void DevicePluginPhilipsHue::onOutdoorSensorTemperatureChanged(double temperature)
{
HueOutdoorSensor *sensor = static_cast<HueOutdoorSensor *>(sender());
Device *sensorDevice = m_outdoorSensors.value(sensor);
sensorDevice->setStateValue(outdoorSensorTemperatureStateTypeId, temperature);
}
void DevicePluginPhilipsHue::onOutdoorSensorPresenceChanged(bool presence)
{
HueOutdoorSensor *sensor = static_cast<HueOutdoorSensor *>(sender());
Device *sensorDevice = m_outdoorSensors.value(sensor);
sensorDevice->setStateValue(outdoorSensorIsPresentStateTypeId, presence);
if (presence) sensorDevice->setStateValue(outdoorSensorLastSeenTimeStateTypeId, QDateTime::currentDateTime().toTime_t());
}
void DevicePluginPhilipsHue::onOutdoorSensorLightIntensityChanged(double lightIntensity)
{
HueOutdoorSensor *sensor = static_cast<HueOutdoorSensor *>(sender());
Device *sensorDevice = m_outdoorSensors.value(sensor);
sensorDevice->setStateValue(outdoorSensorLightIntensityStateTypeId, lightIntensity);
}
void DevicePluginPhilipsHue::onUpnpDiscoveryFinished()
{
qCDebug(dcPhilipsHue()) << "Upnp discovery finished";
UpnpDiscoveryReply *reply = static_cast<UpnpDiscoveryReply *>(sender());
if (reply->error() != UpnpDiscoveryReply::UpnpDiscoveryReplyErrorNoError) {
qCWarning(dcPhilipsHue()) << "Upnp discovery error" << reply->error();
}
reply->deleteLater();
if (reply->deviceDescriptors().isEmpty()) {
qCDebug(dcPhilipsHue) << "No UPnP device found. Try N-UPNP discovery.";
QNetworkRequest request(QUrl("https://www.meethue.com/api/nupnp"));
QNetworkReply *reply = hardwareManager()->networkManager()->get(request);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_discoveryRequests.append(reply);
return;
}
QList<DeviceDescriptor> deviceDescriptors;
foreach (const UpnpDeviceDescriptor &upnpDevice, reply->deviceDescriptors()) {
if (upnpDevice.modelDescription().contains("Philips")) {
DeviceDescriptor descriptor(bridgeDeviceClassId, "Philips Hue Bridge", upnpDevice.hostAddress().toString());
ParamList params;
QString bridgeId = upnpDevice.serialNumber().toLower();
foreach (Device *existingDevice, myDevices()) {
if (existingDevice->paramValue(bridgeDeviceIdParamTypeId).toString() == bridgeId) {
descriptor.setDeviceId(existingDevice->id());
break;
}
}
params.append(Param(bridgeDeviceHostParamTypeId, upnpDevice.hostAddress().toString()));
params.append(Param(bridgeDeviceIdParamTypeId, upnpDevice.serialNumber().toLower()));
// Not known yet...
params.append(Param(bridgeDeviceApiKeyParamTypeId, QString()));
params.append(Param(bridgeDeviceMacParamTypeId, QString()));
params.append(Param(bridgeDeviceZigbeeChannelParamTypeId, -1));
descriptor.setParams(params);
Device *dev = bridgeForBridgeId(upnpDevice.serialNumber().toLower());
if (dev) {
qCDebug(dcPhilipsHue()) << "Found already added Hue bridge:" << upnpDevice.serialNumber().toLower();
descriptor.setDeviceId(dev->id());
} else {
qCDebug(dcPhilipsHue()) << "Found new Hue bridge:" << upnpDevice.serialNumber().toLower();
}
deviceDescriptors.append(descriptor);
}
}
emit devicesDiscovered(bridgeDeviceClassId, deviceDescriptors);
}
void DevicePluginPhilipsHue::refreshLight(Device *device)
{
HueLight *light = m_lights.key(device);
QNetworkRequest request(QUrl("http://" + light->hostAddress().toString() + "/api/" + light->apiKey() + "/lights/" + QString::number(light->id())));
request.setHeader(QNetworkRequest::ContentTypeHeader, "application/json");
QNetworkReply *reply = hardwareManager()->networkManager()->get(request);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_lightRefreshRequests.insert(reply, device);
}
void DevicePluginPhilipsHue::refreshBridge(Device *device)
{
HueBridge *bridge = m_bridges.key(device);
// qCDebug(dcPhilipsHue()) << "refreshing bridge";
QNetworkRequest request(QUrl("http://" + bridge->hostAddress().toString() + "/api/" + bridge->apiKey() + "/config"));
request.setHeader(QNetworkRequest::ContentTypeHeader, "application/json");
QNetworkReply *reply = hardwareManager()->networkManager()->get(request);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_bridgeRefreshRequests.insert(reply, device);
}
void DevicePluginPhilipsHue::refreshLights(HueBridge *bridge)
{
Device *device = m_bridges.value(bridge);
// qCDebug(dcPhilipsHue()) << "refreshing lights";
QNetworkRequest request(QUrl("http://" + bridge->hostAddress().toString() + "/api/" + bridge->apiKey() + "/lights"));
request.setHeader(QNetworkRequest::ContentTypeHeader, "application/json");
QNetworkReply *reply = hardwareManager()->networkManager()->get(request);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_lightsRefreshRequests.insert(reply, device);
}
void DevicePluginPhilipsHue::refreshSensors(HueBridge *bridge)
{
Device *device = m_bridges.value(bridge);
// qCDebug(dcPhilipsHue()) << "refreshing sensors";
QNetworkRequest request(QUrl("http://" + bridge->hostAddress().toString() + "/api/" + bridge->apiKey() + "/sensors"));
request.setHeader(QNetworkRequest::ContentTypeHeader, "application/json");
QNetworkReply *reply = hardwareManager()->networkManager()->get(request);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_sensorsRefreshRequests.insert(reply, device);
}
void DevicePluginPhilipsHue::discoverBridgeDevices(HueBridge *bridge)
{
Device *device = m_bridges.value(bridge);
qCDebug(dcPhilipsHue) << "Discover bridge devices" << bridge->hostAddress();
QPair<QNetworkRequest, QByteArray> lightsRequest = bridge->createDiscoverLightsRequest();
QNetworkReply *lightsReply = hardwareManager()->networkManager()->get(lightsRequest.first);
connect(lightsReply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_bridgeLightsDiscoveryRequests.insert(lightsReply, device);
QPair<QNetworkRequest, QByteArray> sensorsRequest = bridge->createSearchSensorsRequest();
QNetworkReply *reply = hardwareManager()->networkManager()->get(sensorsRequest.first);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_bridgeSensorsDiscoveryRequests.insert(reply, device);
}
void DevicePluginPhilipsHue::searchNewDevices(HueBridge *bridge, const QString &serialNumber)
{
Device *device = m_bridges.value(bridge);
qCDebug(dcPhilipsHue) << "Discover bridge devices" << bridge->hostAddress();
QPair<QNetworkRequest, QByteArray> request = bridge->createSearchLightsRequest(serialNumber);
QNetworkReply *reply = hardwareManager()->networkManager()->post(request.first, request.second);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_bridgeSearchDevicesRequests.insert(reply, device);
}
void DevicePluginPhilipsHue::setLightName(Device *device)
{
HueLight *light = m_lights.key(device);
QVariantMap requestMap;
requestMap.insert("name", device->name());
QJsonDocument jsonDoc = QJsonDocument::fromVariant(requestMap);
QNetworkRequest request(QUrl("http://" + light->hostAddress().toString() + "/api/" + light->apiKey() +
"/lights/" + QString::number(light->id())));
request.setHeader(QNetworkRequest::ContentTypeHeader, "application/json");
QNetworkReply *reply = hardwareManager()->networkManager()->put(request,jsonDoc.toJson());
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_setNameRequests.insert(reply, device);
}
void DevicePluginPhilipsHue::setRemoteName(Device *device)
{
HueRemote *remote = m_remotes.key(device);
QVariantMap requestMap;
requestMap.insert("name", device->name());
QJsonDocument jsonDoc = QJsonDocument::fromVariant(requestMap);
QNetworkRequest request(QUrl("http://" + remote->hostAddress().toString() + "/api/" + remote->apiKey() +
"/sensors/" + QString::number(remote->id())));
request.setHeader(QNetworkRequest::ContentTypeHeader, "application/json");
QNetworkReply *reply = hardwareManager()->networkManager()->put(request,jsonDoc.toJson());
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_setNameRequests.insert(reply, device);
}
void DevicePluginPhilipsHue::processNUpnpResponse(const QByteArray &data)
{
QJsonParseError error;
QJsonDocument jsonDoc = QJsonDocument::fromJson(data, &error);
// Check JSON error
if (error.error != QJsonParseError::NoError) {
qCWarning(dcPhilipsHue) << "N-UPNP discovery JSON error in response" << error.errorString();
return;
}
QVariantList bridgeList = jsonDoc.toVariant().toList();
QList<DeviceDescriptor> deviceDescriptors;
foreach (const QVariant &bridgeVariant, bridgeList) {
QVariantMap bridgeMap = bridgeVariant.toMap();
DeviceDescriptor descriptor(bridgeDeviceClassId, "Philips Hue Bridge", bridgeMap.value("internalipaddress").toString());
ParamList params;
params.append(Param(bridgeDeviceHostParamTypeId, bridgeMap.value("internalipaddress").toString()));
params.append(Param(bridgeDeviceApiKeyParamTypeId, QString()));
params.append(Param(bridgeDeviceMacParamTypeId, QString()));
params.append(Param(bridgeDeviceIdParamTypeId, bridgeMap.value("internalipaddress").toString().toLower()));
params.append(Param(bridgeDeviceZigbeeChannelParamTypeId, -1));
descriptor.setParams(params);
deviceDescriptors.append(descriptor);
}
qCDebug(dcPhilipsHue) << "N-UPNP discover finished. Found" << deviceDescriptors.count() << "devices.";
emit devicesDiscovered(bridgeDeviceClassId, deviceDescriptors);
}
void DevicePluginPhilipsHue::processBridgeLightDiscoveryResponse(Device *device, const QByteArray &data)
{
QJsonParseError error;
QJsonDocument jsonDoc = QJsonDocument::fromJson(data, &error);
// Check JSON error
if (error.error != QJsonParseError::NoError) {
qCWarning(dcPhilipsHue) << "Bridge light discovery json error in response" << error.errorString();
return;
}
// Check response error
if (data.contains("error")) {
if (!jsonDoc.toVariant().toList().isEmpty()) {
qCWarning(dcPhilipsHue) << "Failed to discover Hue Bridge lights:" << jsonDoc.toVariant().toList().first().toMap().value("error").toMap().value("description").toString();
} else {
qCWarning(dcPhilipsHue) << "Failed to discover Hue Bridge lights: Invalid error message format";
}
return;
}
// Create Lights if not already added
QList<DeviceDescriptor> colorLightDescriptors;
QList<DeviceDescriptor> colorTemperatureLightDescriptors;
QList<DeviceDescriptor> dimmableLightDescriptors;
QVariantMap lightsMap = jsonDoc.toVariant().toMap();
foreach (QString lightId, lightsMap.keys()) {
QVariantMap lightMap = lightsMap.value(lightId).toMap();
QString uuid = lightMap.value("uniqueid").toString();
QString model = lightMap.value("modelid").toString();
if (lightAlreadyAdded(uuid))
continue;
if (lightMap.value("type").toString() == "Dimmable light") {
DeviceDescriptor descriptor(dimmableLightDeviceClassId, lightMap.value("name").toString(), "Philips Hue White Light", device->id());
ParamList params;
params.append(Param(dimmableLightDeviceModelIdParamTypeId, model));
params.append(Param(dimmableLightDeviceTypeParamTypeId, lightMap.value("type").toString()));
params.append(Param(dimmableLightDeviceUuidParamTypeId, uuid));
params.append(Param(dimmableLightDeviceLightIdParamTypeId, lightId));
descriptor.setParams(params);
dimmableLightDescriptors.append(descriptor);
qCDebug(dcPhilipsHue) << "Found new dimmable light" << lightMap.value("name").toString() << model;
} else if (lightMap.value("type").toString() == "Color temperature light") {
DeviceDescriptor descriptor(colorTemperatureLightDeviceClassId, lightMap.value("name").toString(), "Philips Hue Color Temperature Light", device->id());
ParamList params;
params.append(Param(colorTemperatureLightDeviceModelIdParamTypeId, model));
params.append(Param(colorTemperatureLightDeviceTypeParamTypeId, lightMap.value("type").toString()));
params.append(Param(colorTemperatureLightDeviceUuidParamTypeId, uuid));
params.append(Param(colorTemperatureLightDeviceLightIdParamTypeId, lightId));
descriptor.setParams(params);
colorTemperatureLightDescriptors.append(descriptor);
qCDebug(dcPhilipsHue) << "Found new color temperature light" << lightMap.value("name").toString() << model;
} else {
DeviceDescriptor descriptor(colorLightDeviceClassId, lightMap.value("name").toString(), "Philips Hue Color Light", device->id());
ParamList params;
params.append(Param(colorLightDeviceModelIdParamTypeId, model));
params.append(Param(colorLightDeviceTypeParamTypeId, lightMap.value("type").toString()));
params.append(Param(colorLightDeviceUuidParamTypeId, uuid));
params.append(Param(colorLightDeviceLightIdParamTypeId, lightId));
descriptor.setParams(params);
colorLightDescriptors.append(descriptor);
qCDebug(dcPhilipsHue) << "Found new color light" << lightMap.value("name").toString() << model;
}
}
if (!colorLightDescriptors.isEmpty())
emit autoDevicesAppeared(colorLightDeviceClassId, colorLightDescriptors);
if (!colorTemperatureLightDescriptors.isEmpty())
emit autoDevicesAppeared(colorTemperatureLightDeviceClassId, colorTemperatureLightDescriptors);
if (!dimmableLightDescriptors.isEmpty())
emit autoDevicesAppeared(dimmableLightDeviceClassId, dimmableLightDescriptors);
}
void DevicePluginPhilipsHue::processBridgeSensorDiscoveryResponse(Device *device, const QByteArray &data)
{
QJsonParseError error;
QJsonDocument jsonDoc = QJsonDocument::fromJson(data, &error);
// Check JSON error
if (error.error != QJsonParseError::NoError) {
qCWarning(dcPhilipsHue) << "Bridge sensor discovery json error in response" << error.errorString();
return;
}
// Check response error
if (data.contains("error")) {
if (!jsonDoc.toVariant().toList().isEmpty()) {
qCWarning(dcPhilipsHue) << "Failed to discover Hue Bridge sensors:" << jsonDoc.toVariant().toList().first().toMap().value("error").toMap().value("description").toString();
} else {
qCWarning(dcPhilipsHue) << "Failed to discover Hue Bridge sensors: Invalid error message format";
}
return;
}
// Create sensors if not already added
QVariantMap sensorsMap = jsonDoc.toVariant().toMap();
QHash<QString, HueOutdoorSensor *> outdoorSensors;
foreach (const QString &sensorId, sensorsMap.keys()) {
QVariantMap sensorMap = sensorsMap.value(sensorId).toMap();
QString uuid = sensorMap.value("uniqueid").toString();
QString model = sensorMap.value("modelid").toString();
if (sensorAlreadyAdded(uuid))
continue;
if (sensorMap.value("type").toString() == "ZLLSwitch") {
DeviceDescriptor descriptor(remoteDeviceClassId, sensorMap.value("name").toString(), "Philips Hue Remote", device->id());
ParamList params;
params.append(Param(remoteDeviceModelIdParamTypeId, model));
params.append(Param(remoteDeviceTypeParamTypeId, sensorMap.value("type").toString()));
params.append(Param(remoteDeviceUuidParamTypeId, uuid));
params.append(Param(remoteDeviceSensorIdParamTypeId, sensorId));
descriptor.setParams(params);
emit autoDevicesAppeared(remoteDeviceClassId, {descriptor});
qCDebug(dcPhilipsHue) << "Found new remote" << sensorMap.value("name").toString() << model;
} else if (sensorMap.value("type").toString() == "ZGPSwitch") {
DeviceDescriptor descriptor(tapDeviceClassId, sensorMap.value("name").toString(), "Philips Hue Tap", device->id());
ParamList params;
params.append(Param(tapDeviceUuidParamTypeId, uuid));
params.append(Param(tapDeviceModelIdParamTypeId, model));
params.append(Param(tapDeviceSensorIdParamTypeId, sensorId));
descriptor.setParams(params);
emit autoDevicesAppeared(tapDeviceClassId, {descriptor});
qCDebug(dcPhilipsHue()) << "Found hue tap:" << sensorMap << tapDeviceClassId;
} else if (model == "SML002") {
// Get the base uuid from this sensor
QString baseUuid = HueDevice::getBaseUuid(uuid);
// Temperature sensor
if (sensorMap.value("type").toString() == "ZLLTemperature") {
qCDebug(dcPhilipsHue()) << "Found temperature sensor from OurdoorSensor:" << baseUuid << sensorMap;
// Check if we haven outdoor sensor for this temperature sensor
if (outdoorSensors.keys().contains(baseUuid)) {
HueOutdoorSensor *outdoorSensor = outdoorSensors.value(baseUuid);
outdoorSensor->setTemperatureSensorUuid(uuid);
outdoorSensor->setTemperatureSensorId(sensorId.toInt());
} else {
// Create an outdoor sensor
HueOutdoorSensor *outdoorSensor = new HueOutdoorSensor(this);
outdoorSensor->setModelId(model);
outdoorSensor->setUuid(baseUuid);
outdoorSensor->setTemperatureSensorUuid(uuid);
outdoorSensor->setTemperatureSensorId(sensorId.toInt());
outdoorSensors.insert(baseUuid, outdoorSensor);
}
}
if (sensorMap.value("type").toString() == "ZLLPresence") {
qCDebug(dcPhilipsHue()) << "Found presence sensor from OurdoorSensor:" << baseUuid << sensorMap;
// Check if we haven outdoor sensor for this presence sensor
if (outdoorSensors.keys().contains(baseUuid)) {
HueOutdoorSensor *outdoorSensor = outdoorSensors.value(baseUuid);
outdoorSensor->setPresenceSensorUuid(uuid);
outdoorSensor->setPresenceSensorId(sensorId.toInt());
} else {
// Create an outdoor sensor
HueOutdoorSensor *outdoorSensor = new HueOutdoorSensor(this);
outdoorSensor->setUuid(baseUuid);
outdoorSensor->setPresenceSensorUuid(uuid);
outdoorSensor->setPresenceSensorId(sensorId.toInt());
outdoorSensors.insert(baseUuid, outdoorSensor);
}
}
if (sensorMap.value("type").toString() == "ZLLLightLevel") {
qCDebug(dcPhilipsHue()) << "Found light sensor from OurdoorSensor:" << sensorMap;
// Check if we haven outdoor sensor for this light sensor
if (outdoorSensors.keys().contains(baseUuid)) {
HueOutdoorSensor *outdoorSensor = outdoorSensors.value(baseUuid);
outdoorSensor->setLightSensorUuid(uuid);
outdoorSensor->setLightSensorId(sensorId.toInt());
} else {
// Create an outdoor sensor
HueOutdoorSensor *outdoorSensor = new HueOutdoorSensor(this);
outdoorSensor->setUuid(baseUuid);
outdoorSensor->setLightSensorUuid(uuid);
outdoorSensor->setLightSensorId(sensorId.toInt());
outdoorSensors.insert(baseUuid, outdoorSensor);
}
}
} else {
qCDebug(dcPhilipsHue()) << "Found unknown sensor:" << model;
}
}
// Create outdoor sensors if there are any new sensors found
foreach (HueOutdoorSensor *outdoorSensor, outdoorSensors.values()) {
QString baseUuid = outdoorSensors.key(outdoorSensor);
if (outdoorSensor->isValid()) {
DeviceDescriptor descriptor(outdoorSensorDeviceClassId, "Philips Hue Outdoor sensor", baseUuid, device->id());
ParamList params;
params.append(Param(outdoorSensorDeviceUuidParamTypeId, outdoorSensor->uuid()));
params.append(Param(outdoorSensorDeviceModelIdParamTypeId, outdoorSensor->modelId()));
params.append(Param(outdoorSensorDeviceSensorUuidTemperatureParamTypeId, outdoorSensor->temperatureSensorUuid()));
params.append(Param(outdoorSensorDeviceSensorIdTemperatureParamTypeId, outdoorSensor->temperatureSensorId()));
params.append(Param(outdoorSensorDeviceSensorUuidPresenceParamTypeId, outdoorSensor->presenceSensorUuid()));
params.append(Param(outdoorSensorDeviceSensorIdPresenceParamTypeId, outdoorSensor->presenceSensorId()));
params.append(Param(outdoorSensorDeviceSensorUuidLightParamTypeId, outdoorSensor->lightSensorUuid()));
params.append(Param(outdoorSensorDeviceSensorIdLightParamTypeId, outdoorSensor->lightSensorId()));
descriptor.setParams(params);
qCDebug(dcPhilipsHue()) << "Found new Outdoor sensor" << baseUuid << outdoorSensorDeviceClassId;
emit autoDevicesAppeared(outdoorSensorDeviceClassId, {descriptor});
}
// Clean up
outdoorSensors.remove(baseUuid);
outdoorSensor->deleteLater();
}
}
void DevicePluginPhilipsHue::processLightRefreshResponse(Device *device, const QByteArray &data)
{
QJsonParseError error;
QJsonDocument jsonDoc = QJsonDocument::fromJson(data, &error);
// check JSON error
if (error.error != QJsonParseError::NoError) {
qCWarning(dcPhilipsHue) << "Hue Bridge json error in response" << error.errorString();
return;
}
// check response error
if (data.contains("error")) {
if (!jsonDoc.toVariant().toList().isEmpty()) {
qCWarning(dcPhilipsHue) << "Failed to refresh Hue Light:" << jsonDoc.toVariant().toList().first().toMap().value("error").toMap().value("description").toString();
} else {
qCWarning(dcPhilipsHue) << "Failed to refresh Hue Light: Invalid error message format";
}
return;
}
HueLight *light = m_lights.key(device);
light->updateStates(jsonDoc.toVariant().toMap().value("state").toMap());
}
void DevicePluginPhilipsHue::processBridgeRefreshResponse(Device *device, const QByteArray &data)
{
QJsonParseError error;
QJsonDocument jsonDoc = QJsonDocument::fromJson(data, &error);
// check JSON error
if (error.error != QJsonParseError::NoError) {
qCWarning(dcPhilipsHue) << "Hue Bridge json error in response" << error.errorString();
return;
}
if (!jsonDoc.toVariant().toList().isEmpty()) {
qCWarning(dcPhilipsHue) << "Failed to refresh Hue Bridge:" << jsonDoc.toVariant().toList().first().toMap().value("error").toMap().value("description").toString();
bridgeReachableChanged(device, false);
return;
}
//qCDebug(dcPhilipsHue()) << "Bridge refresh response" << qUtf8Printable(jsonDoc.toJson(QJsonDocument::Indented));
QVariantMap configMap = jsonDoc.toVariant().toMap();
// mark bridge as reachable
bridgeReachableChanged(device, true);
device->setStateValue(bridgeApiVersionStateTypeId, configMap.value("apiversion").toString());
device->setStateValue(bridgeSoftwareVersionStateTypeId, configMap.value("swversion").toString());
int updateStatus = configMap.value("swupdate").toMap().value("updatestate").toInt();
switch (updateStatus) {
case 0:
device->setStateValue(bridgeUpdateStatusStateTypeId, "Up to date");
break;
case 1:
device->setStateValue(bridgeUpdateStatusStateTypeId, "Downloading updates");
break;
case 2:
device->setStateValue(bridgeUpdateStatusStateTypeId, "Updates ready to install");
break;
case 3:
device->setStateValue(bridgeUpdateStatusStateTypeId, "Installing updates");
break;
default:
break;
}
}
void DevicePluginPhilipsHue::processLightsRefreshResponse(Device *device, const QByteArray &data)
{
QJsonParseError error;
QJsonDocument jsonDoc = QJsonDocument::fromJson(data, &error);
// check JSON error
if (error.error != QJsonParseError::NoError) {
qCWarning(dcPhilipsHue) << "Hue Bridge json error in response" << error.errorString();
return;
}
// check response error
if (data.contains("error")) {
if (!jsonDoc.toVariant().toList().isEmpty()) {
qCWarning(dcPhilipsHue) << "Failed to refresh Hue Lights:" << jsonDoc.toVariant().toList().first().toMap().value("error").toMap().value("description").toString();
} else {
qCWarning(dcPhilipsHue) << "Failed to refresh Hue Lights: Invalid error message format";
}
return;
}
// Update light states
QVariantMap lightsMap = jsonDoc.toVariant().toMap();
foreach (const QString &lightId, lightsMap.keys()) {
QVariantMap lightMap = lightsMap.value(lightId).toMap();
// get the light of this bridge
foreach (HueLight *light, m_lights.keys()) {
if (light->id() == lightId.toInt() && m_lights.value(light)->parentId() == device->id()) {
light->updateStates(lightMap.value("state").toMap());
}
}
}
}
void DevicePluginPhilipsHue::processSensorsRefreshResponse(Device *device, const QByteArray &data)
{
QJsonParseError error;
QJsonDocument jsonDoc = QJsonDocument::fromJson(data, &error);
// check JSON error
if (error.error != QJsonParseError::NoError) {
qCWarning(dcPhilipsHue) << "Hue Bridge json error in response" << error.errorString();
return;
}
// check response error
if (!jsonDoc.toVariant().toList().isEmpty()) {
qCWarning(dcPhilipsHue) << "Failed to refresh Hue Sensors:" << jsonDoc.toVariant().toList().first().toMap().value("error").toMap().value("description").toString();
return;
}
// Update sensor states
QVariantMap sensorsMap = jsonDoc.toVariant().toMap();
foreach (const QString &sensorId, sensorsMap.keys()) {
QVariantMap sensorMap = sensorsMap.value(sensorId).toMap();
// Remotes
foreach (HueRemote *remote, m_remotes.keys()) {
if (remote->id() == sensorId.toInt() && m_remotes.value(remote)->parentId() == device->id()) {
remote->updateStates(sensorMap.value("state").toMap(), sensorMap.value("config").toMap());
}
}
// Outdoor sensors
foreach (HueOutdoorSensor *outdoorSensor, m_outdoorSensors.keys()) {
if (outdoorSensor->hasSensor(sensorId.toInt()) && m_outdoorSensors.value(outdoorSensor)->parentId() == device->id()) {
outdoorSensor->updateStates(sensorMap);
}
}
}
}
void DevicePluginPhilipsHue::processSetNameResponse(Device *device, const QByteArray &data)
{
QJsonParseError error;
QJsonDocument jsonDoc = QJsonDocument::fromJson(data, &error);
// check JSON error
if (error.error != QJsonParseError::NoError) {
qCWarning(dcPhilipsHue) << "Hue Bridge json error in response" << error.errorString();
emit deviceSetupFinished(device, DeviceManager::DeviceSetupStatusFailure);
return;
}
// check response error
if (data.contains("error")) {
if (!jsonDoc.toVariant().toList().isEmpty()) {
qCWarning(dcPhilipsHue) << "Failed to set name of Hue:" << jsonDoc.toVariant().toList().first().toMap().value("error").toMap().value("description").toString();
} else {
qCWarning(dcPhilipsHue) << "Failed to set name of Hue: Invalid error message format";
}
emit deviceSetupFinished(device, DeviceManager::DeviceSetupStatusFailure);
return;
}
if (device->deviceClassId() == colorLightDeviceClassId || device->deviceClassId() == dimmableLightDeviceClassId)
refreshLight(device);
}
void DevicePluginPhilipsHue::processPairingResponse(PairingInfo *pairingInfo, const QByteArray &data)
{
QJsonParseError error;
QJsonDocument jsonDoc = QJsonDocument::fromJson(data, &error);
// check JSON error
if (error.error != QJsonParseError::NoError) {
qCWarning(dcPhilipsHue) << "Hue Bridge json error in response" << error.errorString();
emit pairingFinished(pairingInfo->pairingTransactionId(), DeviceManager::DeviceSetupStatusFailure);
pairingInfo->deleteLater();
return;
}
// check response error
if (data.contains("error")) {
if (!jsonDoc.toVariant().toList().isEmpty()) {
qCWarning(dcPhilipsHue) << "Failed to pair Hue Bridge:" << jsonDoc.toVariant().toList().first().toMap().value("error").toMap().value("description").toString();
} else {
qCWarning(dcPhilipsHue) << "Failed to pair Hue Bridge: Invalid error message format";
}
emit pairingFinished(pairingInfo->pairingTransactionId(), DeviceManager::DeviceSetupStatusFailure);
pairingInfo->deleteLater();
return;
}
pairingInfo->setApiKey(jsonDoc.toVariant().toList().first().toMap().value("success").toMap().value("username").toString());
qCDebug(dcPhilipsHue) << "Got api key from bridge:" << pairingInfo->apiKey();
if (pairingInfo->apiKey().isEmpty()) {
qCWarning(dcPhilipsHue) << "Failed to pair Hue Bridge: did not get any key from the bridge";
emit pairingFinished(pairingInfo->pairingTransactionId(), DeviceManager::DeviceSetupStatusFailure);
pairingInfo->deleteLater();
return;
}
// Paired successfully, check bridge information
QNetworkRequest request(QUrl("http://" + pairingInfo->host().toString() + "/api/" + pairingInfo->apiKey() + "/config"));
request.setHeader(QNetworkRequest::ContentTypeHeader, "application/json");
QNetworkReply *reply = hardwareManager()->networkManager()->get(request);
connect(reply, &QNetworkReply::finished, this, &DevicePluginPhilipsHue::networkManagerReplyReady);
m_informationRequests.insert(reply, pairingInfo);
}
void DevicePluginPhilipsHue::processInformationResponse(PairingInfo *pairingInfo, const QByteArray &data)
{
QJsonParseError error;
QJsonDocument jsonDoc = QJsonDocument::fromJson(data, &error);
// check JSON error
if (error.error != QJsonParseError::NoError) {
qCWarning(dcPhilipsHue) << "Hue Bridge json error in response" << error.errorString();
emit pairingFinished(pairingInfo->pairingTransactionId(), DeviceManager::DeviceSetupStatusFailure);
pairingInfo->deleteLater();
return;
}
QVariantMap response = jsonDoc.toVariant().toMap();
// check response error
if (response.contains("error")) {
qCWarning(dcPhilipsHue) << "Failed to get information from Hue Bridge:" << response.value("error").toMap().value("description").toString();
emit pairingFinished(pairingInfo->pairingTransactionId(), DeviceManager::DeviceSetupStatusFailure);
pairingInfo->deleteLater();
return;
}
// create Bridge
HueBridge *bridge = new HueBridge(this);
bridge->setId(response.value("bridgeid").toString());
bridge->setApiKey(pairingInfo->apiKey());
bridge->setHostAddress(pairingInfo->host());
bridge->setApiVersion(response.value("apiversion").toString());
bridge->setSoftwareVersion(response.value("swversion").toString());
bridge->setMacAddress(response.value("mac").toString());
bridge->setName(response.value("name").toString());
bridge->setZigbeeChannel(response.value("zigbeechannel").toInt());
m_unconfiguredBridges.append(bridge);
emit pairingFinished(pairingInfo->pairingTransactionId(), DeviceManager::DeviceSetupStatusSuccess);
pairingInfo->deleteLater();
}
void DevicePluginPhilipsHue::processActionResponse(Device *device, const ActionId actionId, const QByteArray &data)
{
QJsonParseError error;
QJsonDocument jsonDoc = QJsonDocument::fromJson(data, &error);
// check JSON error
if (error.error != QJsonParseError::NoError) {
qCWarning(dcPhilipsHue) << "Hue Bridge json error in response" << error.errorString();
emit actionExecutionFinished(actionId, DeviceManager::DeviceErrorHardwareFailure);
return;
}
// check response error
if (data.contains("error")) {
if (!jsonDoc.toVariant().toList().isEmpty()) {
qCWarning(dcPhilipsHue) << "Failed to execute Hue action:" << jsonDoc.toJson(); //jsonDoc.toVariant().toList().first().toMap().value("error").toMap().value("description").toString();
} else {
qCWarning(dcPhilipsHue) << "Failed to execute Hue action: Invalid error message format";
}
emit actionExecutionFinished(actionId, DeviceManager::DeviceErrorHardwareFailure);
return;
}
if (device->deviceClassId() != bridgeDeviceClassId)
m_lights.key(device)->processActionResponse(jsonDoc.toVariant().toList());
emit actionExecutionFinished(actionId, DeviceManager::DeviceErrorNoError);
}
void DevicePluginPhilipsHue::bridgeReachableChanged(Device *device, const bool &reachable)
{
if (reachable) {
device->setStateValue(bridgeConnectedStateTypeId, true);
} else {
// mark bridge and corresponding hue devices unreachable
if (device->deviceClassId() == bridgeDeviceClassId) {
device->setStateValue(bridgeConnectedStateTypeId, false);
foreach (HueLight *light, m_lights.keys()) {
if (m_lights.value(light)->parentId() == device->id()) {
light->setReachable(false);
if (m_lights.value(light)->deviceClassId() == colorLightDeviceClassId) {
m_lights.value(light)->setStateValue(colorLightConnectedStateTypeId, false);
} else if (m_lights.value(light)->deviceClassId() == colorTemperatureLightDeviceClassId) {
m_lights.value(light)->setStateValue(colorTemperatureLightConnectedStateTypeId, false);
} else if (m_lights.value(light)->deviceClassId() == dimmableLightDeviceClassId) {
m_lights.value(light)->setStateValue(dimmableLightConnectedStateTypeId, false);
}
}
}
foreach (HueRemote *remote, m_remotes.keys()) {
if (m_remotes.value(remote)->parentId() == device->id()) {
remote->setReachable(false);
if (m_remotes.value(remote)->deviceClassId() == remoteDeviceClassId) {
m_remotes.value(remote)->setStateValue(remoteConnectedStateTypeId, false);
} else if (m_remotes.value(remote)->deviceClassId() == tapDeviceClassId) {
m_remotes.value(remote)->setStateValue(tapConnectedStateTypeId, false);
}
}
}
foreach (HueOutdoorSensor *outdoorSensor, m_outdoorSensors.keys()) {
if (m_outdoorSensors.value(outdoorSensor)->parentId() == device->id()) {
outdoorSensor->setReachable(false);
if (m_outdoorSensors.value(outdoorSensor)->deviceClassId() == outdoorSensorDeviceClassId) {
m_outdoorSensors.value(outdoorSensor)->setStateValue(outdoorSensorConnectedStateTypeId, false);
}
}
}
}
}
}
Device* DevicePluginPhilipsHue::bridgeForBridgeId(const QString &id)
{
foreach (Device *device, myDevices()) {
if (device->deviceClassId() == bridgeDeviceClassId) {
qCDebug(dcPhilipsHue()) << "Have bridge" << device->name() << device->paramValue(bridgeDeviceIdParamTypeId).toString().toLower() << id;
if (device->paramValue(bridgeDeviceIdParamTypeId).toString().toLower() == id) {
return device;
}
}
}
return nullptr;
}
bool DevicePluginPhilipsHue::lightAlreadyAdded(const QString &uuid)
{
foreach (Device *device, myDevices()) {
if (device->deviceClassId() == colorLightDeviceClassId) {
if (device->paramValue(colorLightDeviceUuidParamTypeId).toString() == uuid) {
return true;
}
} else if (device->deviceClassId() == dimmableLightDeviceClassId) {
if (device->paramValue(dimmableLightDeviceUuidParamTypeId).toString() == uuid) {
return true;
}
}
if (device->deviceClassId() == colorTemperatureLightDeviceClassId) {
if (device->paramValue(colorTemperatureLightDeviceUuidParamTypeId).toString() == uuid) {
return true;
}
}
}
return false;
}
bool DevicePluginPhilipsHue::sensorAlreadyAdded(const QString &uuid)
{
foreach (Device *device, myDevices()) {
// Hue remote
if (device->deviceClassId() == remoteDeviceClassId) {
if (device->paramValue(remoteDeviceUuidParamTypeId).toString() == uuid) {
return true;
}
}
// Hue tap
if (device->deviceClassId() == tapDeviceClassId) {
if (device->paramValue(tapDeviceUuidParamTypeId).toString() == uuid) {
return true;
}
}
// Outdoor sensor consits out of 3 sensors
if (device->deviceClassId() == outdoorSensorDeviceClassId) {
if (device->paramValue(outdoorSensorDeviceSensorUuidLightParamTypeId).toString() == uuid) {
return true;
} else if (device->paramValue(outdoorSensorDeviceSensorUuidPresenceParamTypeId).toString() == uuid) {
return true;
} else if (device->paramValue(outdoorSensorDeviceSensorUuidTemperatureParamTypeId).toString() == uuid) {
return true;
}
}
}
return false;
}
int DevicePluginPhilipsHue::brightnessToPercentage(int brightness)
{
return qRound((100.0 * brightness) / 255.0);
}
int DevicePluginPhilipsHue::percentageToBrightness(int percentage)
{
return qRound((255.0 * percentage) / 100.0);
}
void DevicePluginPhilipsHue::abortRequests(QHash<QNetworkReply *, Device *> requestList, Device *device)
{
foreach (QNetworkReply* reply, requestList.keys()) {
if (requestList.value(reply) == device) {
reply->abort();
}
}
}
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