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/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
*
*
* Copyright 2013 - 2020, nymea GmbH
* Contact: contact@nymea.io
* This file is part of nymea.
* This project including source code and documentation is protected by
* copyright law, and remains the property of nymea GmbH. All rights, including
* reproduction, publication, editing and translation, are reserved. The use of
* this project is subject to the terms of a license agreement to be concluded
* with nymea GmbH in accordance with the terms of use of nymea GmbH, available
* under https://nymea.io/license
*
* GNU Lesser General Public License Usage
* Alternatively, this project may be redistributed and/or modified under the
* terms of the GNU Lesser General Public License as published by the Free
* Software Foundation; version 3. This project 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 project. If not, see <https://www.gnu.org/licenses/>.
*
* For any further details and any questions please contact us under
* contact@nymea.io or see our FAQ/Licensing Information on
* https://nymea.io/license/faq
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#include "integrationpluginzigbeegenericlights.h"
#include "plugininfo.h"
#include "hardware/zigbee/zigbeehardwareresource.h"
#include <QDebug>
#include <zigbeeutils.h>
IntegrationPluginZigbeeGenericLights::IntegrationPluginZigbeeGenericLights()
{
// Common thing params map
m_ieeeAddressParamTypeIds[onOffLightThingClassId] = onOffLightThingIeeeAddressParamTypeId;
m_ieeeAddressParamTypeIds[dimmableLightThingClassId] = dimmableLightThingIeeeAddressParamTypeId;
m_ieeeAddressParamTypeIds[colorTemperatureLightThingClassId] = colorTemperatureLightThingIeeeAddressParamTypeId;
m_ieeeAddressParamTypeIds[colorLightThingClassId] = colorLightThingIeeeAddressParamTypeId;
m_networkUuidParamTypeIds[onOffLightThingClassId] = onOffLightThingNetworkUuidParamTypeId;
m_networkUuidParamTypeIds[dimmableLightThingClassId] = dimmableLightThingNetworkUuidParamTypeId;
m_networkUuidParamTypeIds[colorTemperatureLightThingClassId] = colorTemperatureLightThingNetworkUuidParamTypeId;
m_networkUuidParamTypeIds[colorLightThingClassId] = colorLightThingNetworkUuidParamTypeId;
m_endpointIdParamTypeIds[onOffLightThingClassId] = onOffLightThingEndpointIdParamTypeId;
m_endpointIdParamTypeIds[dimmableLightThingClassId] = dimmableLightThingEndpointIdParamTypeId;
m_endpointIdParamTypeIds[colorTemperatureLightThingClassId] = colorTemperatureLightThingEndpointIdParamTypeId;
m_endpointIdParamTypeIds[colorLightThingClassId] = colorLightThingEndpointIdParamTypeId;
m_manufacturerIdParamTypeIds[onOffLightThingClassId] = onOffLightThingManufacturerParamTypeId;
m_manufacturerIdParamTypeIds[dimmableLightThingClassId] = dimmableLightThingManufacturerParamTypeId;
m_manufacturerIdParamTypeIds[colorTemperatureLightThingClassId] = colorTemperatureLightThingManufacturerParamTypeId;
m_manufacturerIdParamTypeIds[colorLightThingClassId] = colorLightThingManufacturerParamTypeId;
m_modelIdParamTypeIds[onOffLightThingClassId] = onOffLightThingModelParamTypeId;
m_modelIdParamTypeIds[dimmableLightThingClassId] = dimmableLightThingModelParamTypeId;
m_modelIdParamTypeIds[colorTemperatureLightThingClassId] = colorTemperatureLightThingModelParamTypeId;
m_modelIdParamTypeIds[colorLightThingClassId] = colorLightThingModelParamTypeId;
// Common states map
m_connectedStateTypeIds[onOffLightThingClassId] = onOffLightConnectedStateTypeId;
m_connectedStateTypeIds[dimmableLightThingClassId] = dimmableLightConnectedStateTypeId;
m_connectedStateTypeIds[colorTemperatureLightThingClassId] = colorTemperatureLightConnectedStateTypeId;
m_connectedStateTypeIds[colorLightThingClassId] = colorLightConnectedStateTypeId;
m_signalStrengthStateTypeIds[onOffLightThingClassId] = onOffLightSignalStrengthStateTypeId;
m_signalStrengthStateTypeIds[dimmableLightThingClassId] = dimmableLightSignalStrengthStateTypeId;
m_signalStrengthStateTypeIds[colorTemperatureLightThingClassId] = colorTemperatureLightSignalStrengthStateTypeId;
m_signalStrengthStateTypeIds[colorLightThingClassId] = colorLightSignalStrengthStateTypeId;
m_versionStateTypeIds[onOffLightThingClassId] = onOffLightVersionStateTypeId;
m_versionStateTypeIds[dimmableLightThingClassId] = dimmableLightVersionStateTypeId;
m_versionStateTypeIds[colorTemperatureLightThingClassId] = colorTemperatureLightVersionStateTypeId;
m_versionStateTypeIds[colorLightThingClassId] = colorLightVersionStateTypeId;
}
QString IntegrationPluginZigbeeGenericLights::name() const
{
return "Generic lights";
}
bool IntegrationPluginZigbeeGenericLights::handleNode(ZigbeeNode *node, const QUuid &networkUuid)
{
bool handled = false;
foreach (ZigbeeNodeEndpoint *endpoint, node->endpoints()) {
if ((endpoint->profile() == Zigbee::ZigbeeProfile::ZigbeeProfileLightLink &&
endpoint->deviceId() == Zigbee::LightLinkDevice::LightLinkDeviceOnOffLight) ||
(endpoint->profile() == Zigbee::ZigbeeProfile::ZigbeeProfileHomeAutomation &&
endpoint->deviceId() == Zigbee::HomeAutomationDeviceOnOffLight)) {
qCDebug(dcZigbeeGenericLights()) << "Handling on/off light for" << node << endpoint;
createLightThing(onOffLightThingClassId, networkUuid, node, endpoint);
handled = true;
}
if ((endpoint->profile() == Zigbee::ZigbeeProfile::ZigbeeProfileLightLink &&
endpoint->deviceId() == Zigbee::LightLinkDevice::LightLinkDeviceDimmableLight) ||
(endpoint->profile() == Zigbee::ZigbeeProfile::ZigbeeProfileHomeAutomation &&
endpoint->deviceId() == Zigbee::HomeAutomationDeviceDimmableLight)) {
qCDebug(dcZigbeeGenericLights()) << "Handling dimmable light for" << node << endpoint;
createLightThing(dimmableLightThingClassId, networkUuid, node, endpoint);
handled = true;
}
if ((endpoint->profile() == Zigbee::ZigbeeProfileLightLink &&
endpoint->deviceId() == Zigbee::LightLinkDeviceColourTemperatureLight) ||
(endpoint->profile() == Zigbee::ZigbeeProfileHomeAutomation &&
endpoint->deviceId() == Zigbee::HomeAutomationDeviceColourTemperatureLight)) {
qCDebug(dcZigbeeGenericLights()) << "Handling color temperature light for" << node << endpoint;
createLightThing(colorTemperatureLightThingClassId, networkUuid, node, endpoint);
handled = true;
}
if ((endpoint->profile() == Zigbee::ZigbeeProfileLightLink && endpoint->deviceId() == Zigbee::LightLinkDeviceColourLight) ||
(endpoint->profile() == Zigbee::ZigbeeProfileLightLink && endpoint->deviceId() == Zigbee::LightLinkDeviceExtendedColourLight) ||
(endpoint->profile() == Zigbee::ZigbeeProfileHomeAutomation && endpoint->deviceId() == Zigbee::HomeAutomationDeviceExtendedColourLight)) {
qCDebug(dcZigbeeGenericLights()) << "Handling color light for" << node << endpoint;
createLightThing(colorLightThingClassId, networkUuid, node, endpoint);
handled = true;
}
}
return handled;
}
void IntegrationPluginZigbeeGenericLights::handleRemoveNode(ZigbeeNode *node, const QUuid &networkUuid)
{
Q_UNUSED(networkUuid)
if (m_thingNodes.values().contains(node)) {
Thing *thing = m_thingNodes.key(node);
qCDebug(dcZigbeeGenericLights()) << node << "for" << thing << "has left the network.";
m_thingNodes.remove(thing);
emit autoThingDisappeared(thing->id());
if (m_colorTemperatureRanges.contains(thing)) {
m_colorTemperatureRanges.remove(thing);
}
if (m_colorCapabilities.contains(thing)) {
m_colorCapabilities.remove(thing);
}
}
}
void IntegrationPluginZigbeeGenericLights::init()
{
hardwareManager()->zigbeeResource()->registerHandler(this, ZigbeeHardwareResource::HandlerTypeCatchAll);
}
void IntegrationPluginZigbeeGenericLights::setupThing(ThingSetupInfo *info)
{
Thing *thing = info->thing();
// Get the node for this thing
QUuid networkUuid = thing->paramValue(m_networkUuidParamTypeIds.value(thing->thingClassId())).toUuid();
ZigbeeAddress zigbeeAddress = ZigbeeAddress(thing->paramValue(m_ieeeAddressParamTypeIds.value(thing->thingClassId())).toString());
ZigbeeNode *node = hardwareManager()->zigbeeResource()->claimNode(this, networkUuid, zigbeeAddress);
if (!node) {
qCWarning(dcZigbeeGenericLights()) << "Zigbee node for" << info->thing()->name() << "not found.";
info->finish(Thing::ThingErrorHardwareNotAvailable);
return;
}
// Store the node thing association for removing
m_thingNodes.insert(thing, node);
// Get the endpoint for this thing
ZigbeeNodeEndpoint *endpoint = findEndpoint(thing);
if (!endpoint) {
qCWarning(dcZigbeeGenericLights()) << "Unable to get the endpoint from node" << node << "for" << thing;
info->finish(Thing::ThingErrorSetupFailed);
return;
}
// General thing setup
// Update connected state
thing->setStateValue(m_connectedStateTypeIds.value(thing->thingClassId()), node->reachable());
connect(node, &ZigbeeNode::reachableChanged, thing, [thing, this](bool reachable){
thing->setStateValue(m_connectedStateTypeIds.value(thing->thingClassId()), reachable);
});
// Update signal strength
thing->setStateValue(m_signalStrengthStateTypeIds.value(thing->thingClassId()), qRound(node->lqi() * 100.0 / 255.0));
connect(node, &ZigbeeNode::lqiChanged, thing, [this, thing](quint8 lqi){
uint signalStrength = qRound(lqi * 100.0 / 255.0);
qCDebug(dcZigbeeGenericLights()) << thing << "signal strength changed" << signalStrength << "%";
thing->setStateValue(m_signalStrengthStateTypeIds.value(thing->thingClassId()), signalStrength);
});
// Set the version
thing->setStateValue(m_versionStateTypeIds.value(thing->thingClassId()), endpoint->softwareBuildId());
// Thing specific setup
// On/Off light
if (thing->thingClassId() == onOffLightThingClassId) {
// Get the on/off cluster
ZigbeeClusterOnOff *onOffCluster = endpoint->inputCluster<ZigbeeClusterOnOff>(ZigbeeClusterLibrary::ClusterIdOnOff);
if (!onOffCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find on/off cluster for" << thing << "in" << node;
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
if (onOffCluster->hasAttribute(ZigbeeClusterOnOff::AttributeOnOff)) {
thing->setStateValue(onOffLightPowerStateTypeId, onOffCluster->power());
}
// Update the power state if the node power value changes
connect(onOffCluster, &ZigbeeClusterOnOff::powerChanged, thing, [thing](bool power){
qCDebug(dcZigbeeGenericLights()) << thing << "power state changed" << power;
thing->setStateValue(onOffLightPowerStateTypeId, power);
});
// Read the power state once the node gets reachable
connect(node, &ZigbeeNode::reachableChanged, thing, [thing, this](bool reachable){
if (reachable) {
readLightPowerState(thing);
}
});
}
// Dimmable light
if (thing->thingClassId() == dimmableLightThingClassId) {
// Get the on/off cluster
ZigbeeClusterOnOff *onOffCluster = endpoint->inputCluster<ZigbeeClusterOnOff>(ZigbeeClusterLibrary::ClusterIdOnOff);
if (!onOffCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find on/off cluster for" << thing << "in" << node;
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
// Only set the state if the cluster actually has the attribute
if (onOffCluster->hasAttribute(ZigbeeClusterOnOff::AttributeOnOff)) {
thing->setStateValue(dimmableLightPowerStateTypeId, onOffCluster->power());
}
// Update the power state if the node power value changes
connect(onOffCluster, &ZigbeeClusterOnOff::powerChanged, thing, [thing](bool power){
qCDebug(dcZigbeeGenericLights()) << thing << "power state changed" << power;
thing->setStateValue(dimmableLightPowerStateTypeId, power);
});
// Get the level cluster
ZigbeeClusterLevelControl *levelCluster = endpoint->inputCluster<ZigbeeClusterLevelControl>(ZigbeeClusterLibrary::ClusterIdLevelControl);
if (!levelCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find level cluster for" << thing << "in" << node;
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
// Only set the state if the cluster actually has the attribute
if (levelCluster->hasAttribute(ZigbeeClusterLevelControl::AttributeCurrentLevel)) {
int percentage = qRound(levelCluster->currentLevel() * 100.0 / 255.0);
thing->setStateValue(dimmableLightBrightnessStateTypeId, percentage);
}
connect(levelCluster, &ZigbeeClusterLevelControl::currentLevelChanged, thing, [thing](quint8 level){
int percentage = qRound(level * 100.0 / 255.0);
qCDebug(dcZigbeeGenericLights()) << thing << "level state changed" << level << percentage << "%";
thing->setStateValue(dimmableLightBrightnessStateTypeId, percentage);
});
// Read the states once the node gets reachable
connect(node, &ZigbeeNode::reachableChanged, thing, [thing, this](bool reachable){
if (reachable) {
readLightPowerState(thing);
readLightLevelState(thing);
}
});
}
// Color temperature light
if (thing->thingClassId() == colorTemperatureLightThingClassId) {
// Get the on/off cluster
ZigbeeClusterOnOff *onOffCluster = endpoint->inputCluster<ZigbeeClusterOnOff>(ZigbeeClusterLibrary::ClusterIdOnOff);
if (!onOffCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find on/off cluster for" << thing << "in" << node;
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
// Only set the state if the cluster actually has the attribute
if (onOffCluster->hasAttribute(ZigbeeClusterOnOff::AttributeOnOff)) {
thing->setStateValue(colorTemperatureLightPowerStateTypeId, onOffCluster->power());
}
// Update the power state if the node power value changes
connect(onOffCluster, &ZigbeeClusterOnOff::powerChanged, thing, [thing](bool power){
qCDebug(dcZigbeeGenericLights()) << thing << "power state changed" << power;
thing->setStateValue(colorTemperatureLightPowerStateTypeId, power);
});
// Get the level cluster
ZigbeeClusterLevelControl *levelCluster = endpoint->inputCluster<ZigbeeClusterLevelControl>(ZigbeeClusterLibrary::ClusterIdLevelControl);
if (!levelCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find level cluster for" << thing << "in" << node;
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
// Only set the state if the cluster actually has the attribute
if (levelCluster->hasAttribute(ZigbeeClusterLevelControl::AttributeCurrentLevel)) {
int percentage = qRound(levelCluster->currentLevel() * 100.0 / 255.0);
thing->setStateValue(colorTemperatureLightBrightnessStateTypeId, percentage);
}
connect(levelCluster, &ZigbeeClusterLevelControl::currentLevelChanged, thing, [thing](quint8 level){
int percentage = qRound(level * 100.0 / 255.0);
qCDebug(dcZigbeeGenericLights()) << thing << "level state changed" << level << percentage << "%";
thing->setStateValue(colorTemperatureLightBrightnessStateTypeId, percentage);
});
// Get color cluster
ZigbeeClusterColorControl *colorCluster = endpoint->inputCluster<ZigbeeClusterColorControl>(ZigbeeClusterLibrary::ClusterIdColorControl);
if (!colorCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find color cluster for" << thing << "in" << node;
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
// Only set the state if the cluster actually has the attribute
if (colorCluster->hasAttribute(ZigbeeClusterColorControl::AttributeColorTemperatureMireds)) {
int mappedValue = mapColorTemperatureToScaledValue(thing, colorCluster->colorTemperatureMireds());
thing->setStateValue(colorTemperatureLightColorTemperatureStateTypeId, mappedValue);
}
connect(colorCluster, &ZigbeeClusterColorControl::colorTemperatureMiredsChanged, thing, [this, thing](quint16 colorTemperatureMired){
qCDebug(dcZigbeeGenericLights()) << "Actual color temperature is" << colorTemperatureMired << "mireds";
int mappedValue = mapColorTemperatureToScaledValue(thing, colorTemperatureMired);
qCDebug(dcZigbeeGenericLights()) << "Mapped color temperature is" << mappedValue;
thing->setStateValue(colorTemperatureLightColorTemperatureStateTypeId, mappedValue);
});
// Read the states once the node gets reachable
connect(node, &ZigbeeNode::reachableChanged, thing, [thing, this](bool reachable){
if (reachable) {
readColorTemperatureRange(thing);
readLightPowerState(thing);
readLightLevelState(thing);
readLightColorTemperatureState(thing);
}
});
}
// Color temperature light
if (thing->thingClassId() == colorLightThingClassId) {
// Get the on/off cluster
ZigbeeClusterOnOff *onOffCluster = endpoint->inputCluster<ZigbeeClusterOnOff>(ZigbeeClusterLibrary::ClusterIdOnOff);
if (!onOffCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find on/off cluster for" << thing << "in" << node;
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
// Only set the state if the cluster actually has the attribute
if (onOffCluster->hasAttribute(ZigbeeClusterOnOff::AttributeOnOff)) {
thing->setStateValue(colorLightPowerStateTypeId, onOffCluster->power());
}
// Update the power state if the node power value changes
connect(onOffCluster, &ZigbeeClusterOnOff::powerChanged, thing, [thing](bool power){
qCDebug(dcZigbeeGenericLights()) << thing << "power state changed" << power;
thing->setStateValue(colorLightPowerStateTypeId, power);
});
// Get the level cluster
ZigbeeClusterLevelControl *levelCluster = endpoint->inputCluster<ZigbeeClusterLevelControl>(ZigbeeClusterLibrary::ClusterIdLevelControl);
if (!levelCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find level cluster for" << thing << "in" << node;
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
// Only set the state if the cluster actually has the attribute
if (levelCluster->hasAttribute(ZigbeeClusterLevelControl::AttributeCurrentLevel)) {
int percentage = qRound(levelCluster->currentLevel() * 100.0 / 255.0);
thing->setStateValue(colorLightBrightnessStateTypeId, percentage);
}
connect(levelCluster, &ZigbeeClusterLevelControl::currentLevelChanged, thing, [thing](quint8 level){
int percentage = qRound(level * 100.0 / 255.0);
qCDebug(dcZigbeeGenericLights()) << thing << "level state changed" << level << percentage << "%";
thing->setStateValue(colorLightBrightnessStateTypeId, percentage);
});
// Get color cluster
ZigbeeClusterColorControl *colorCluster = endpoint->inputCluster<ZigbeeClusterColorControl>(ZigbeeClusterLibrary::ClusterIdColorControl);
if (!colorCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find color cluster for" << thing << "in" << node;
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
// Only set the state if the cluster actually has the attribute
if (colorCluster->hasAttribute(ZigbeeClusterColorControl::AttributeColorTemperatureMireds)) {
int mappedValue = mapColorTemperatureToScaledValue(thing, colorCluster->colorTemperatureMireds());
thing->setStateValue(colorLightColorTemperatureStateTypeId, mappedValue);
}
connect(colorCluster, &ZigbeeClusterColorControl::colorTemperatureMiredsChanged, thing, [this, thing](quint16 colorTemperatureMired){
qCDebug(dcZigbeeGenericLights()) << "Actual color temperature is" << colorTemperatureMired << "mireds";
int mappedValue = mapColorTemperatureToScaledValue(thing, colorTemperatureMired);
qCDebug(dcZigbeeGenericLights()) << "Mapped color temperature is" << mappedValue;
thing->setStateValue(colorLightColorTemperatureStateTypeId, mappedValue);
});
// Read the states once the node gets reachable
connect(node, &ZigbeeNode::reachableChanged, thing, [thing, this](bool reachable){
if (reachable) {
// Note: this will also read the color temperature range if available
readColorCapabilities(thing);
readLightPowerState(thing);
readLightLevelState(thing);
readLightColorXYState(thing);
}
});
}
info->finish(Thing::ThingErrorNoError);
}
void IntegrationPluginZigbeeGenericLights::postSetupThing(Thing *thing)
{
if (thing->thingClassId() == onOffLightThingClassId) {
ZigbeeNode *node = m_thingNodes.value(thing);
if (node && node->reachable()) {
readLightPowerState(thing);
}
} else if (thing->thingClassId() == dimmableLightThingClassId) {
ZigbeeNode *node = m_thingNodes.value(thing);
if (node && node->reachable()) {
readLightPowerState(thing);
readLightLevelState(thing);
}
} else if (thing->thingClassId() == colorTemperatureLightThingClassId) {
ZigbeeNode *node = m_thingNodes.value(thing);
if (node && node->reachable()) {
readColorTemperatureRange(thing);
readLightPowerState(thing);
readLightLevelState(thing);
readLightColorTemperatureState(thing);
}
} else if (thing->thingClassId() == colorLightThingClassId) {
ZigbeeNode *node = m_thingNodes.value(thing);
if (node && node->reachable()) {
readColorCapabilities(thing);
readLightPowerState(thing);
readLightLevelState(thing);
readLightColorXYState(thing);
}
}
}
void IntegrationPluginZigbeeGenericLights::executeAction(ThingActionInfo *info)
{
if (!hardwareManager()->zigbeeResource()->available()) {
qCDebug(dcZigbeeGenericLights()) << "Failed to execute action" << info->thing() << info->action().actionTypeId().toString() << "because the hardware is not available.";
info->finish(Thing::ThingErrorHardwareNotAvailable);
return;
}
// Get the node
Thing *thing = info->thing();
ZigbeeNode *node = m_thingNodes.value(thing);
if (!node->reachable()) {
qCDebug(dcZigbeeGenericLights()) << "Failed to execute action" << info->thing() << info->action().actionTypeId().toString() << "because node seems not to be reachable.";
info->finish(Thing::ThingErrorHardwareNotAvailable);
return;
}
// Get the endpoint
ZigbeeNodeEndpoint *endpoint = findEndpoint(thing);
if (!endpoint) {
qCDebug(dcZigbeeGenericLights()) << "Failed to execute action" << info->thing() << info->action().actionTypeId().toString() << "because node endpoint could not be found.";
info->finish(Thing::ThingErrorHardwareNotAvailable);
return;
}
// On/Off light
if (thing->thingClassId() == onOffLightThingClassId) {
if (info->action().actionTypeId() == onOffLightAlertActionTypeId) {
executeAlertAction(info, endpoint);
return;
}
if (info->action().actionTypeId() == onOffLightPowerActionTypeId) {
// Get the on/off server cluster from the endpoint
bool power = info->action().param(onOffLightPowerActionPowerParamTypeId).value().toBool();
executePowerAction(info, endpoint, onOffLightPowerStateTypeId, power);
return;
}
}
// Dimmable light
if (thing->thingClassId() == dimmableLightThingClassId) {
if (info->action().actionTypeId() == dimmableLightAlertActionTypeId) {
executeAlertAction(info, endpoint);
return;
}
if (info->action().actionTypeId() == dimmableLightPowerActionTypeId) {
bool power = info->action().param(dimmableLightPowerActionPowerParamTypeId).value().toBool();
executePowerAction(info, endpoint, dimmableLightPowerStateTypeId, power);
return;
}
if (info->action().actionTypeId() == dimmableLightBrightnessActionTypeId) {
int brightness = info->action().param(dimmableLightBrightnessActionBrightnessParamTypeId).value().toInt();
quint8 level = static_cast<quint8>(qRound(255.0 * brightness / 100.0));
executeBrightnessAction(info, endpoint, dimmableLightPowerStateTypeId, dimmableLightBrightnessStateTypeId, brightness, level);
return;
}
}
// Color temperature light
if (thing->thingClassId() == colorTemperatureLightThingClassId) {
if (info->action().actionTypeId() == colorTemperatureLightAlertActionTypeId) {
executeAlertAction(info, endpoint);
return;
}
if (info->action().actionTypeId() == colorTemperatureLightPowerActionTypeId) {
bool power = info->action().param(colorTemperatureLightPowerActionPowerParamTypeId).value().toBool();
executePowerAction(info, endpoint, colorTemperatureLightPowerStateTypeId, power);
return;
}
if (info->action().actionTypeId() == colorTemperatureLightBrightnessActionTypeId) {
int brightness = info->action().param(colorTemperatureLightBrightnessActionBrightnessParamTypeId).value().toInt();
quint8 level = static_cast<quint8>(qRound(255.0 * brightness / 100.0));
executeBrightnessAction(info, endpoint, colorTemperatureLightPowerStateTypeId, colorTemperatureLightBrightnessStateTypeId, brightness, level);
return;
}
if (info->action().actionTypeId() == colorTemperatureLightColorTemperatureActionTypeId) {
int colorTemperatureScaled = info->action().param(colorTemperatureLightColorTemperatureActionColorTemperatureParamTypeId).value().toInt();
executeColorTemperatureAction(info, endpoint, colorTemperatureLightColorTemperatureStateTypeId, colorTemperatureScaled);
return;
}
}
// Color light
if (thing->thingClassId() == colorLightThingClassId) {
if (info->action().actionTypeId() == colorLightAlertActionTypeId) {
executeAlertAction(info, endpoint);
return;
}
if (info->action().actionTypeId() == colorLightPowerActionTypeId) {
bool power = info->action().param(colorLightPowerActionPowerParamTypeId).value().toBool();
executePowerAction(info, endpoint, colorLightPowerStateTypeId, power);
return;
}
if (info->action().actionTypeId() == colorLightBrightnessActionTypeId) {
int brightness = info->action().param(colorLightBrightnessActionBrightnessParamTypeId).value().toInt();
quint8 level = static_cast<quint8>(qRound(255.0 * brightness / 100.0));
executeBrightnessAction(info, endpoint, colorLightPowerStateTypeId, colorLightBrightnessStateTypeId, brightness, level);
return;
}
if (info->action().actionTypeId() == colorLightColorTemperatureActionTypeId) {
int colorTemperatureScaled = info->action().param(colorLightColorTemperatureActionColorTemperatureParamTypeId).value().toInt();
if (m_colorCapabilities[thing].testFlag(ZigbeeClusterColorControl::ColorCapabilityColorTemperature)) {
// Native color temperature available
executeColorTemperatureAction(info, endpoint, colorLightColorTemperatureStateTypeId, colorTemperatureScaled);
return;
}
// Note: there is no color temperature capability, we have to emulate the color using default min/max values
// Convert the scaled value into the min/max color temperature interval
quint16 colorTemperature = mapScaledValueToColorTemperature(thing, colorTemperatureScaled);
qCDebug(dcZigbeeGenericLights()) << "Mapping action value" << colorTemperatureScaled << "to the color temperature in the range of [" << m_colorTemperatureRanges[thing].minValue << "," << m_colorTemperatureRanges[thing].maxValue << "] -->" << colorTemperature << "mired";
// Note: the color temperature command/attribute is not supported. Using xy colors to interpolate the temperature colors
QColor temperatureColor = ZigbeeUtils::interpolateColorFromColorTemperature(colorTemperature, m_colorTemperatureRanges[thing].minValue, m_colorTemperatureRanges[thing].maxValue);
QPoint temperatureColorXyInt = ZigbeeUtils::convertColorToXYInt(temperatureColor);
qCDebug(dcZigbeeGenericLights()) << "Mapping interpolated value" << temperatureColor << "mired to the xy color" << temperatureColorXyInt;
// Set color
ZigbeeClusterColorControl *colorCluster = endpoint->inputCluster<ZigbeeClusterColorControl>(ZigbeeClusterLibrary::ClusterIdColorControl);
if (!colorCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find color control cluster for" << thing << "in" << m_thingNodes.value(thing);
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
ZigbeeClusterReply *reply = colorCluster->commandMoveToColor(temperatureColorXyInt.x(), temperatureColorXyInt.y(), 2);
connect(reply, &ZigbeeClusterReply::finished, info, [=](){
if (reply->error() != ZigbeeClusterReply::ErrorNoError) {
info->finish(Thing::ThingErrorHardwareFailure);
} else {
qCDebug(dcZigbeeGenericLights()) << "Set color temperature" << colorTemperature << "mired finished successfully" << "(scalled" << colorTemperatureScaled << ")";
thing->setStateValue(colorLightColorTemperatureStateTypeId, colorTemperatureScaled);
info->finish(Thing::ThingErrorNoError);
}
});
return;
}
if (info->action().actionTypeId() == colorLightColorActionTypeId) {
QColor color = info->action().param(colorLightColorActionColorParamTypeId).value().value<QColor>();
QPoint xyColorInt = ZigbeeUtils::convertColorToXYInt(color);
qCDebug(dcZigbeeGenericLights()) << "Set color" << color.toRgb() << xyColorInt;
executeColorAction(info, endpoint, colorLightColorStateTypeId, color);
return;
}
}
info->finish(Thing::ThingErrorUnsupportedFeature);
}
void IntegrationPluginZigbeeGenericLights::thingRemoved(Thing *thing)
{
ZigbeeNode *node = m_thingNodes.take(thing);
if (node) {
QUuid networkUuid = thing->paramValue(m_networkUuidParamTypeIds.value(thing->thingClassId())).toUuid();
hardwareManager()->zigbeeResource()->removeNodeFromNetwork(networkUuid, node);
}
if (m_colorTemperatureRanges.contains(thing)) {
m_colorTemperatureRanges.remove(thing);
}
if (m_colorCapabilities.contains(thing)) {
m_colorCapabilities.remove(thing);
}
}
ZigbeeNodeEndpoint *IntegrationPluginZigbeeGenericLights::findEndpoint(Thing *thing)
{
ZigbeeNode *node = m_thingNodes.value(thing);
if (!node) {
qCWarning(dcZigbeeGenericLights()) << "Could not find the node for" << thing;
return nullptr;
}
quint8 endpointId = thing->paramValue(m_endpointIdParamTypeIds.value(thing->thingClassId())).toUInt();
return node->getEndpoint(endpointId);
}
void IntegrationPluginZigbeeGenericLights::createLightThing(const ThingClassId &thingClassId, const QUuid &networkUuid, ZigbeeNode *node, ZigbeeNodeEndpoint *endpoint)
{
ThingDescriptor descriptor(thingClassId);
QString deviceClassName = supportedThings().findById(thingClassId).displayName();
descriptor.setTitle(QString("%1 (%2 - %3)").arg(deviceClassName).arg(endpoint->manufacturerName()).arg(endpoint->modelIdentifier()));
ParamList params;
params.append(Param(m_networkUuidParamTypeIds[thingClassId], networkUuid.toString()));
params.append(Param(m_ieeeAddressParamTypeIds[thingClassId], node->extendedAddress().toString()));
params.append(Param(m_endpointIdParamTypeIds[thingClassId], endpoint->endpointId()));
params.append(Param(m_modelIdParamTypeIds[thingClassId], endpoint->modelIdentifier()));
params.append(Param(m_manufacturerIdParamTypeIds[thingClassId], endpoint->manufacturerName()));
descriptor.setParams(params);
emit autoThingsAppeared({descriptor});
}
void IntegrationPluginZigbeeGenericLights::executeAlertAction(ThingActionInfo *info, ZigbeeNodeEndpoint *endpoint)
{
Thing *thing = info->thing();
ZigbeeClusterIdentify *identifyCluster = endpoint->inputCluster<ZigbeeClusterIdentify>(ZigbeeClusterLibrary::ClusterIdIdentify);
if (!identifyCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find identify cluster for" << thing << "in" << m_thingNodes.value(thing);
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
// Send the command trough the network
ZigbeeClusterReply *reply = identifyCluster->identify(2);
connect(reply, &ZigbeeClusterReply::finished, this, [reply, info](){
// Note: reply will be deleted automatically
if (reply->error() != ZigbeeClusterReply::ErrorNoError) {
info->finish(Thing::ThingErrorHardwareFailure);
} else {
info->finish(Thing::ThingErrorNoError);
}
});
}
void IntegrationPluginZigbeeGenericLights::executePowerAction(ThingActionInfo *info, ZigbeeNodeEndpoint *endpoint, const StateTypeId &powerStateTypeId, bool power)
{
Thing *thing = info->thing();
ZigbeeClusterOnOff *onOffCluster = endpoint->inputCluster<ZigbeeClusterOnOff>(ZigbeeClusterLibrary::ClusterIdOnOff);
if (!onOffCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find on/off cluster for" << thing << "in" << m_thingNodes.value(thing);
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
// Send the command trough the network
qCDebug(dcZigbeeGenericLights()) << "Set power for" << info->thing() << "to" << power;
ZigbeeClusterReply *reply = (power ? onOffCluster->commandOn() : onOffCluster->commandOff());
connect(reply, &ZigbeeClusterReply::finished, info, [=](){
// Note: reply will be deleted automatically
if (reply->error() != ZigbeeClusterReply::ErrorNoError) {
qCWarning(dcZigbeeGenericLights()) << "Failed to set power on" << thing << reply->error();
info->finish(Thing::ThingErrorHardwareFailure);
} else {
info->finish(Thing::ThingErrorNoError);
qCDebug(dcZigbeeGenericLights()) << "Set power finished successfully for" << thing;
thing->setStateValue(powerStateTypeId, power);
}
});
}
void IntegrationPluginZigbeeGenericLights::executeBrightnessAction(ThingActionInfo *info, ZigbeeNodeEndpoint *endpoint, const StateTypeId &powerStateTypeId, const StateTypeId &brightnessStateTypeId, int brightness, quint8 level)
{
Thing *thing = info->thing();
ZigbeeClusterLevelControl *levelCluster = endpoint->inputCluster<ZigbeeClusterLevelControl>(ZigbeeClusterLibrary::ClusterIdLevelControl);
if (!levelCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find level control cluster for" << thing << "in" << m_thingNodes.value(thing);
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
ZigbeeClusterReply *reply = levelCluster->commandMoveToLevelWithOnOff(level, 5);
connect(reply, &ZigbeeClusterReply::finished, info, [=](){
// Note: reply will be deleted automatically
if (reply->error() != ZigbeeClusterReply::ErrorNoError) {
info->finish(Thing::ThingErrorHardwareFailure);
} else {
info->finish(Thing::ThingErrorNoError);
thing->setStateValue(powerStateTypeId, (brightness > 0 ? true : false));
thing->setStateValue(brightnessStateTypeId, brightness);
}
});
}
void IntegrationPluginZigbeeGenericLights::executeColorTemperatureAction(ThingActionInfo *info, ZigbeeNodeEndpoint *endpoint, const StateTypeId &colorTemperatureStateTypeId, int colorTemperatureScaled)
{
Thing *thing = info->thing();
ZigbeeClusterColorControl *colorCluster = endpoint->inputCluster<ZigbeeClusterColorControl>(ZigbeeClusterLibrary::ClusterIdColorControl);
if (!colorCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find color control cluster for" << thing << "in" << m_thingNodes.value(thing);
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
// Scale the value to the actual color temperature of this lamp
quint16 colorTemperature = mapScaledValueToColorTemperature(thing, colorTemperatureScaled);
// Note: time unit is 1/10 s
ZigbeeClusterReply *reply = colorCluster->commandMoveToColorTemperature(colorTemperature, 5);
connect(reply, &ZigbeeClusterReply::finished, info, [=](){
// Note: reply will be deleted automatically
if (reply->error() != ZigbeeClusterReply::ErrorNoError) {
info->finish(Thing::ThingErrorHardwareFailure);
} else {
info->finish(Thing::ThingErrorNoError);
thing->setStateValue(colorTemperatureStateTypeId, colorTemperatureScaled);
}
});
}
void IntegrationPluginZigbeeGenericLights::executeColorAction(ThingActionInfo *info, ZigbeeNodeEndpoint *endpoint, const StateTypeId &colorStateTypeId, const QColor &color)
{
Thing *thing = info->thing();
ZigbeeClusterColorControl *colorCluster = endpoint->inputCluster<ZigbeeClusterColorControl>(ZigbeeClusterLibrary::ClusterIdColorControl);
if (!colorCluster) {
qCWarning(dcZigbeeGenericLights()) << "Could not find color control cluster for" << thing << "in" << m_thingNodes.value(thing);
info->finish(Thing::ThingErrorHardwareFailure);
return;
}
// Note: time unit is 1/10 s
QPoint colorXyInt = ZigbeeUtils::convertColorToXYInt(color);
ZigbeeClusterReply *reply = colorCluster->commandMoveToColor(colorXyInt.x(), colorXyInt.y(), 5);
connect(reply, &ZigbeeClusterReply::finished, info, [=](){
// Note: reply will be deleted automatically
if (reply->error() != ZigbeeClusterReply::ErrorNoError) {
info->finish(Thing::ThingErrorHardwareFailure);
} else {
info->finish(Thing::ThingErrorNoError);
thing->setStateValue(colorStateTypeId, color);
}
});
}
void IntegrationPluginZigbeeGenericLights::readLightPowerState(Thing *thing)
{
// Get the node
ZigbeeNode *node = m_thingNodes.value(thing);
if (!node->reachable())
return;
// Get the endpoint
ZigbeeNodeEndpoint *endpoint = findEndpoint(thing);
if (!endpoint)
return;
// Get the on/off server cluster from the endpoint
ZigbeeClusterOnOff *onOffCluster = endpoint->inputCluster<ZigbeeClusterOnOff>(ZigbeeClusterLibrary::ClusterIdOnOff);
if (!onOffCluster)
return;
qCDebug(dcZigbeeGenericLights()) << "Reading on/off power value for" << thing << "on" << node;
ZigbeeClusterReply *reply = onOffCluster->readAttributes({ZigbeeClusterOnOff::AttributeOnOff});
connect(reply, &ZigbeeClusterReply::finished, thing, [thing, reply](){
if (reply->error() != ZigbeeClusterReply::ErrorNoError) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read on/off cluster attribute from" << thing << reply->error();
return;
}
});
}
void IntegrationPluginZigbeeGenericLights::readLightLevelState(Thing *thing)
{
// Get the node
ZigbeeNode *node = m_thingNodes.value(thing);
if (!node->reachable())
return;
// Get the endpoint
ZigbeeNodeEndpoint *endpoint = findEndpoint(thing);
if (!endpoint)
return;
// Get the level server cluster from the endpoint
ZigbeeClusterLevelControl *levelCluster = endpoint->inputCluster<ZigbeeClusterLevelControl>(ZigbeeClusterLibrary::ClusterIdLevelControl);
if (!levelCluster)
return;
qCDebug(dcZigbeeGenericLights()) << "Reading level value for" << thing << "on" << node;
ZigbeeClusterReply *reply = levelCluster->readAttributes({ZigbeeClusterLevelControl::AttributeCurrentLevel});
connect(reply, &ZigbeeClusterReply::finished, thing, [thing, reply](){
if (reply->error() != ZigbeeClusterReply::ErrorNoError) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read level cluster attribute from" << thing << reply->error();
return;
}
});
}
void IntegrationPluginZigbeeGenericLights::readLightColorTemperatureState(Thing *thing)
{
ZigbeeNodeEndpoint *endpoint = findEndpoint(thing);
if (!endpoint) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read color temperature for" << thing << "because the node could not be found";
return;
}
// Get the color server cluster from the endpoint
ZigbeeClusterColorControl *colorCluster = endpoint->inputCluster<ZigbeeClusterColorControl>(ZigbeeClusterLibrary::ClusterIdColorControl);
if (!colorCluster) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read color temperature for" << thing << "because the color cluster could not be found on" << endpoint;
return;
}
ZigbeeClusterReply *reply = colorCluster->readAttributes({ZigbeeClusterColorControl::AttributeColorTemperatureMireds});
connect(reply, &ZigbeeClusterReply::finished, thing, [=](){
if (reply->error() != ZigbeeClusterReply::ErrorNoError) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read ColorControl cluster attribute color temperature" << reply->error();
return;
}
});
}
void IntegrationPluginZigbeeGenericLights::readLightColorXYState(Thing *thing)
{
ZigbeeNodeEndpoint *endpoint = findEndpoint(thing);
if (!endpoint) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read color xy for" << thing << "because the node could not be found";
return;
}
// Get the color server cluster from the endpoint
ZigbeeClusterColorControl *colorCluster = endpoint->inputCluster<ZigbeeClusterColorControl>(ZigbeeClusterLibrary::ClusterIdColorControl);
if (!colorCluster) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read color xy for" << thing << "because the color cluster could not be found on" << endpoint;
return;
}
ZigbeeClusterReply *reply = colorCluster->readAttributes({ZigbeeClusterColorControl::AttributeCurrentX, ZigbeeClusterColorControl::AttributeCurrentY});
connect(reply, &ZigbeeClusterReply::finished, thing, [=](){
if (reply->error() != ZigbeeClusterReply::ErrorNoError) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read ColorControl cluster attribute" << reply->error();
return;
}
// Note: the attribute gets updated internally and the state gets updated with the currentLevelChanged signal
qCDebug(dcZigbeeGenericLights()) << "Reading ColorControl cluster attribute color x and y finished successfully";
QList<ZigbeeClusterLibrary::ReadAttributeStatusRecord> attributeStatusRecords = ZigbeeClusterLibrary::parseAttributeStatusRecords(reply->responseFrame().payload);
if (attributeStatusRecords.count() != 2) {
qCWarning(dcZigbeeGenericLights()) << "Did not receive color x and y attribute values from" << thing;
return;
}
// Parse the attribute status records and calculate the color
quint16 currentX = 0; quint16 currentY = 0;
foreach (const ZigbeeClusterLibrary::ReadAttributeStatusRecord &attributeStatusRecord, attributeStatusRecords) {
qCDebug(dcZigbeeGenericLights()) << "Received read attribute status record" << thing << attributeStatusRecord;
if (attributeStatusRecord.attributeId == ZigbeeClusterColorControl::AttributeCurrentX) {
bool valueOk = false;
currentX = attributeStatusRecord.dataType.toUInt16(&valueOk);
if (!valueOk) {
qCWarning(dcZigbeeGenericLights()) << "Failed to convert color x attribute values from" << thing << attributeStatusRecord;
return;
}
continue;
}
if (attributeStatusRecord.attributeId == ZigbeeClusterColorControl::AttributeCurrentY) {
bool valueOk = false;
currentY = attributeStatusRecord.dataType.toUInt16(&valueOk);
if (!valueOk) {
qCWarning(dcZigbeeGenericLights()) << "Failed to convert color y attribute values from" << thing << attributeStatusRecord;
return;
}
continue;
}
}
// Set the current color
QColor color = ZigbeeUtils::convertXYToColor(currentX, currentY);
qCDebug(dcZigbeeGenericLights()) << "Current color" << color.toRgb() << QPoint(currentX, currentY);
thing->setStateValue(colorLightColorStateTypeId, color);
});
}
void IntegrationPluginZigbeeGenericLights::readColorCapabilities(Thing *thing)
{
ZigbeeNodeEndpoint *endpoint = findEndpoint(thing);
if (!endpoint) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read color capabilities for" << thing << "because the node could not be found";
return;
}
// Get the color server cluster from the endpoint
ZigbeeClusterColorControl *colorCluster = endpoint->inputCluster<ZigbeeClusterColorControl>(ZigbeeClusterLibrary::ClusterIdColorControl);
if (!colorCluster) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read color color capabilities for" << thing << "because the color cluster could not be found on" << endpoint;
return;
}
// Check if we know already the color capabilities for this lamp
if (colorCluster->hasAttribute(ZigbeeClusterColorControl::AttributeColorCapabilities)) {
m_colorCapabilities[thing] = colorCluster->colorCapabilities();
qCDebug(dcZigbeeGenericLights()) << "Found cached color capabilities for" << thing << colorCluster->colorCapabilities();
processColorCapabilities(thing);
return;
}
// We have to read the color capabilities
ZigbeeClusterReply *reply = colorCluster->readAttributes({ZigbeeClusterColorControl::AttributeColorCapabilities});
connect(reply, &ZigbeeClusterReply::finished, thing, [=](){
if (reply->error() != ZigbeeClusterReply::ErrorNoError) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read color capabilitie for" << thing << "because the node could not be found";
return;
}
m_colorCapabilities[thing] = colorCluster->colorCapabilities();
processColorCapabilities(thing);
});
}
void IntegrationPluginZigbeeGenericLights::processColorCapabilities(Thing *thing)
{
// Fetch all information required depending on the capabilities
qCDebug(dcZigbeeGenericLights()) << "Loading information depending on the lamp capabilities" << thing << m_colorCapabilities[thing];
if (m_colorCapabilities[thing].testFlag(ZigbeeClusterColorControl::ColorCapabilityColorTemperature)) {
qCDebug(dcZigbeeGenericLights()) << "The lamp is capable of native controlling the color temperature";
// Read min/max value, otherwise emulate the color temperature using the color map
readColorTemperatureRange(thing);
} else {
qCDebug(dcZigbeeGenericLights()) << "The lamp has no native color temperature capability, emulating them using color map.";
// TODO: continue with color fetching (xy, hsv, gamut values)
qCDebug(dcZigbeeGenericLights()) << "Lamp capabilities information complete";
}
}
void IntegrationPluginZigbeeGenericLights::readColorTemperatureRange(Thing *thing)
{
ZigbeeNodeEndpoint *endpoint = findEndpoint(thing);
if (!endpoint) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read color temperature range for" << thing << "because the node could not be found";
return;
}
// Get the color server cluster from the endpoint
ZigbeeClusterColorControl *colorCluster = endpoint->inputCluster<ZigbeeClusterColorControl>(ZigbeeClusterLibrary::ClusterIdColorControl);
if (!colorCluster) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read color temperature range for" << thing << "because the color cluster could not be found on" << endpoint;
return;
}
// Check if we can use the cached values from the database
if (readCachedColorTemperatureRange(thing, colorCluster)) {
qCDebug(dcZigbeeGenericLights()) << "Using cached color temperature mireds interval for mapping" << thing << "[" << m_colorTemperatureRanges[thing].minValue << "," << m_colorTemperatureRanges[thing].maxValue << "] mired";
return;
}
// Init with default values
m_colorTemperatureRanges[thing] = ColorTemperatureRange();
// We need to read them from the lamp
ZigbeeClusterReply *reply = colorCluster->readAttributes({ZigbeeClusterColorControl::AttributeColorTempPhysicalMinMireds, ZigbeeClusterColorControl::AttributeColorTempPhysicalMaxMireds});
connect(reply, &ZigbeeClusterReply::finished, thing, [=](){
if (reply->error() != ZigbeeClusterReply::ErrorNoError) {
qCWarning(dcZigbeeGenericLights()) << "Reading color temperature range attributes finished with error" << reply->error();
qCWarning(dcZigbeeGenericLights()) << "Failed to read color temperature min/max interval values. Using default values for" << thing << "[" << m_colorTemperatureRanges[thing].minValue << "," << m_colorTemperatureRanges[thing].maxValue << "] mired";
return;
}
QList<ZigbeeClusterLibrary::ReadAttributeStatusRecord> attributeStatusRecords = ZigbeeClusterLibrary::parseAttributeStatusRecords(reply->responseFrame().payload);
if (attributeStatusRecords.count() != 2) {
qCWarning(dcZigbeeGenericLights()) << "Did not receive temperature min/max interval values from" << thing;
qCWarning(dcZigbeeGenericLights()) << "Using default values for" << thing << "[" << m_colorTemperatureRanges[thing].minValue << "," << m_colorTemperatureRanges[thing].maxValue << "] mired" ;
return;
}
// Parse the attribute status records
foreach (const ZigbeeClusterLibrary::ReadAttributeStatusRecord &attributeStatusRecord, attributeStatusRecords) {
if (attributeStatusRecord.attributeId == ZigbeeClusterColorControl::AttributeColorTempPhysicalMinMireds) {
bool valueOk = false;
quint16 minMiredsValue = attributeStatusRecord.dataType.toUInt16(&valueOk);
if (!valueOk) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read color temperature min mireds attribute value and convert it" << attributeStatusRecord;
break;
}
m_colorTemperatureRanges[thing].minValue = minMiredsValue;
}
if (attributeStatusRecord.attributeId == ZigbeeClusterColorControl::AttributeColorTempPhysicalMaxMireds) {
bool valueOk = false;
quint16 maxMiredsValue = attributeStatusRecord.dataType.toUInt16(&valueOk);
if (!valueOk) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read color temperature max mireds attribute value and convert it" << attributeStatusRecord;
break;
}
m_colorTemperatureRanges[thing].maxValue = maxMiredsValue;
}
}
qCDebug(dcZigbeeGenericLights()) << "Using lamp specific color temperature mireds interval for mapping" << thing << "[" << m_colorTemperatureRanges[thing].minValue << "," << m_colorTemperatureRanges[thing].maxValue << "] mired";
});
}
bool IntegrationPluginZigbeeGenericLights::readCachedColorTemperatureRange(Thing *thing, ZigbeeClusterColorControl *colorCluster)
{
if (colorCluster->hasAttribute(ZigbeeClusterColorControl::AttributeColorTempPhysicalMinMireds) && colorCluster->hasAttribute(ZigbeeClusterColorControl::AttributeColorTempPhysicalMaxMireds)) {
ZigbeeClusterAttribute minMiredsAttribute = colorCluster->attribute(ZigbeeClusterColorControl::AttributeColorTempPhysicalMinMireds);
bool valueOk = false;
quint16 minMiredsValue = minMiredsAttribute.dataType().toUInt16(&valueOk);
if (!valueOk) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read color temperature min mireds attribute value and convert it" << minMiredsAttribute;
return false;
}
ZigbeeClusterAttribute maxMiredsAttribute = colorCluster->attribute(ZigbeeClusterColorControl::AttributeColorTempPhysicalMaxMireds);
quint16 maxMiredsValue = maxMiredsAttribute.dataType().toUInt16(&valueOk);
if (!valueOk) {
qCWarning(dcZigbeeGenericLights()) << "Failed to read color temperature max mireds attribute value and convert it" << maxMiredsAttribute;
return false;
}
ColorTemperatureRange range;
range.minValue = minMiredsValue;
range.maxValue = maxMiredsValue;
m_colorTemperatureRanges[thing] = range;
return true;
}
return false;
}
quint16 IntegrationPluginZigbeeGenericLights::mapScaledValueToColorTemperature(Thing *thing, int scaledColorTemperature)
{
// Make sure we have values to scale
if (!m_colorTemperatureRanges.contains(thing)) {
m_colorTemperatureRanges[thing] = ColorTemperatureRange();
}
double percentage = static_cast<double>((scaledColorTemperature - m_minScaleValue)) / (m_maxScaleValue - m_minScaleValue);
//qCDebug(dcZigbeeGenericLights()) << "Mapping color temperature value" << scaledColorTemperature << "between" << m_minScaleValue << m_maxScaleValue << "is" << percentage * 100 << "%";
double mappedValue = (m_colorTemperatureRanges[thing].maxValue - m_colorTemperatureRanges[thing].minValue) * percentage + m_colorTemperatureRanges[thing].minValue;
//qCDebug(dcZigbeeGenericLights()) << "Mapping color temperature value" << scaledColorTemperature << "is" << mappedValue << "mireds";
return static_cast<quint16>(qRound(mappedValue));
}
int IntegrationPluginZigbeeGenericLights::mapColorTemperatureToScaledValue(Thing *thing, quint16 colorTemperature)
{
// Make sure we have values to scale
if (!m_colorTemperatureRanges.contains(thing)) {
m_colorTemperatureRanges[thing] = ColorTemperatureRange();
}
double percentage = static_cast<double>((colorTemperature - m_colorTemperatureRanges[thing].minValue)) / (m_colorTemperatureRanges[thing].maxValue - m_colorTemperatureRanges[thing].minValue);
//qCDebug(dcZigbee()) << "Mapping color temperature value" << colorTemperature << "mirred" << m_minColorTemperature << m_maxColorTemperature << "is" << percentage * 100 << "%";
double mappedValue = (m_maxScaleValue - m_minScaleValue) * percentage + m_minScaleValue;
//qCDebug(dcZigbee()) << "Mapping color temperature value" << colorTemperature << "results into the scaled value of" << mappedValue;
return static_cast<int>(qRound(mappedValue));
}
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