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electrical_measurement.cpp
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electrical_measurement.cpp
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#include <math.h>
#include "de_web_plugin.h"
#include "de_web_plugin_private.h"
#include "device.h"
#include "device_descriptions.h"
#define ACTIVE_POWER 0x050B
#define RMS_VOLTAGE 0x0505
#define RMS_CURRENT 0x0508
#define APPARENT_POWER 0x050F
/*! Handle packets related to the ZCL electrical measurement cluster.
\param ind the APS level data indication containing the ZCL packet
\param zclFrame the actual ZCL frame which holds the electrical measurement cluster command or attribute
*/
void DeRestPluginPrivate::handleElectricalMeasurementClusterIndication(const deCONZ::ApsDataIndication &ind, const deCONZ::ZclFrame &zclFrame)
{
if (zclFrame.isDefaultResponse())
{
return;
}
Sensor *sensor = getSensorNodeForAddressAndEndpoint(ind.srcAddress(), ind.srcEndpoint(), QLatin1String("ZHAPower"));
if (!sensor)
{
DBG_Printf(DBG_INFO, "No power sensor found for 0x%016llX, endpoint: 0x%02X\n", ind.srcAddress().ext(), ind.srcEndpoint());
return;
}
QDataStream stream(zclFrame.payload());
stream.setByteOrder(QDataStream::LittleEndian);
bool isReadAttr = false;
bool isReporting = false;
if (zclFrame.isProfileWideCommand() && zclFrame.commandId() == deCONZ::ZclReadAttributesResponseId)
{
isReadAttr = true;
}
if (zclFrame.isProfileWideCommand() && zclFrame.commandId() == deCONZ::ZclReportAttributesId)
{
isReporting = true;
}
// Read ZCL reporting and ZCL Read Attributes Response
if (isReadAttr || isReporting)
{
const auto modelId = sensor->modelId();
const NodeValue::UpdateType updateType = isReadAttr ? NodeValue::UpdateByZclRead : NodeValue::UpdateByZclReport;
bool configUpdated = false;
bool stateUpdated = false;
while (!stream.atEnd())
{
quint16 attrId;
quint8 attrTypeId;
stream >> attrId;
if (isReadAttr)
{
quint8 status;
stream >> status; // Read Attribute Response status
if (status != deCONZ::ZclSuccessStatus)
{
continue;
}
}
stream >> attrTypeId;
deCONZ::ZclAttribute attr(attrId, attrTypeId, QLatin1String(""), deCONZ::ZclRead, false);
if (!attr.readFromStream(stream))
{
continue;
}
ResourceItem *item = nullptr;
switch (attrId)
{
case ACTIVE_POWER:
{
qint16 power = attr.numericValue().s16;
item = sensor->item(RStatePower);
if (item && power != -32768)
{
if (modelId == QLatin1String("SmartPlug") || // Heiman
modelId.startsWith(QLatin1String("SKHMP30")) || // GS smart plug
modelId.startsWith(QLatin1String("ROB_200")) || // ROBB Smarrt micro dimmer
modelId.startsWith(QLatin1String("Micro Smart Dimmer")) || // Sunricher Micro Smart Dimmer
modelId == QLatin1String("RICI01") || // LifeControl Smart Plug
modelId.startsWith(QLatin1String("outlet")) || // Samsung SmartThings IM6001-OTP/IM6001-OTP01
modelId == QLatin1String("3200-Sgb") || // Samsung/Centralite smart outlet
modelId == QLatin1String("3200-de") || // Samsung/Centralite smart outlet
modelId.startsWith(QLatin1String("lumi.switch.n0agl1")) || // Xiaomi Aqara Single Switch Module T1 (With Neutral)
modelId.startsWith(QLatin1String("lumi.switch.b1naus01"))) // Xiaomi ZB3.0 Smart Wall Switch
{
power = static_cast<qint16>(round((double)power / 10.0)); // 0.1W -> W
DDF_AnnoteZclParse(sensor, item, ind.srcEndpoint(), ind.clusterId(), attrId, "if (Attr.val != -32768) { Item.val = Math.round(Attr.val / 10); } ");
}
else if (modelId.startsWith(QLatin1String("Plug")) && sensor->manufacturer() == QLatin1String("OSRAM")) // OSRAM
{
power = power == 28000 ? 0 : power / 10;
DDF_AnnoteZclParse(sensor, item, ind.srcEndpoint(), ind.clusterId(), attrId, "if (Attr.val != -32768) { Item.val = Attr.val == 28000 ? 0: Attr.val / 10; } ");
}
else if (modelId.startsWith(QLatin1String("SZ-ESW01"))) // Sercomm / Telstra smart plug
{
power = static_cast<qint16>(round(((double)power * 128) / 1000.0));
DDF_AnnoteZclParse(sensor, item, ind.srcEndpoint(), ind.clusterId(), attrId, "if (Attr.val != -32768) { Item.val = Math.round(Attr.val * 128 / 1000); } ");
}
else if (modelId.startsWith(QLatin1String("lumi.relay.c2acn"))) // Xiaomi relay
{
continue; // Device seems to always report -1 via this cluster/attribute
}
else
{
DDF_AnnoteZclParse(sensor, item, ind.srcEndpoint(), ind.clusterId(), attrId, "if (Attr.val != -32768) { Item.val = Attr.val; } ");
}
if (!item->lastSet().isValid() || item->toNumber() != power)
{
item->setValue(power); // in W
enqueueEvent(Event(RSensors, RStatePower, sensor->id(), item));
}
}
sensor->setZclValue(updateType, ind.srcEndpoint(), ELECTRICAL_MEASUREMENT_CLUSTER_ID, attrId, attr.numericValue());
stateUpdated = true;
}
break;
case RMS_VOLTAGE:
{
quint16 voltage = attr.numericValue().u16;
item = sensor->item(RStateVoltage);
if (item && voltage != 65535)
{
if (modelId == QLatin1String("SmartPlug") || // Heiman
modelId.startsWith(QLatin1String("SMRZB-3")) || // Develco smart relay
modelId.startsWith(QLatin1String("SMRZB-1")) || // Develco smart cable
modelId.startsWith(QLatin1String("SKHMP30")) || // GS smart plug
modelId == QLatin1String("Smart16ARelay51AU") || // Aurora (Develco) smart plug
modelId == QLatin1String("PoP")) // Apex Smart Plug
{
voltage = static_cast<quint16>(round((double)voltage / 100.0)); // 0.01V -> V
DDF_AnnoteZclParse(sensor, item, ind.srcEndpoint(), ind.clusterId(), attrId, "if (Attr.val != 65535) { Item.val = Math.round(Attr.val / 100); } ");
}
else if (modelId == QLatin1String("RICI01") || // LifeControl Smart Plug
modelId.startsWith(QLatin1String("outlet")) || // Samsung SmartThings IM6001-OTP/IM6001-OTP01
modelId.startsWith(QLatin1String("ROB_200")) || // ROBB Smarrt micro dimmer
modelId.startsWith(QLatin1String("Micro Smart Dimmer")) || // Sunricher Micro Smart Dimmer
modelId.startsWith(QLatin1String("TH112"))) // Sinope Thermostats
{
voltage = static_cast<quint16>(round((double)voltage / 10.0)); // 0.1V -> V
DDF_AnnoteZclParse(sensor, item, ind.srcEndpoint(), ind.clusterId(), attrId, "if (Attr.val != 65535) { Item.val = Math.round(Attr.val / 10); } ");
}
else if (modelId.startsWith(QLatin1String("SZ-ESW01"))) // Sercomm / Telstra smart plug
{
voltage = static_cast<quint16>(round((double)voltage / 125.0)); // -> V
DDF_AnnoteZclParse(sensor, item, ind.srcEndpoint(), ind.clusterId(), attrId, "if (Attr.val != 65535) { Item.val = Math.round(Attr.val / 125); } ");
}
else
{
DDF_AnnoteZclParse(sensor, item, ind.srcEndpoint(), ind.clusterId(), attrId, "if (Attr.val != 65535) { Item.val = Attr.val; } ");
}
if (!item->lastSet().isValid() || item->toNumber() != voltage)
{
item->setValue(voltage); // in V
enqueueEvent(Event(RSensors, RStateVoltage, sensor->id(), item));
}
}
sensor->setZclValue(updateType, ind.srcEndpoint(), ELECTRICAL_MEASUREMENT_CLUSTER_ID, attrId, attr.numericValue());
stateUpdated = true;
}
break;
case RMS_CURRENT:
{
quint16 current = attr.numericValue().u16;
item = sensor->item(RStateCurrent);
if (item && current != 65535)
{
if (modelId.startsWith(QLatin1String("outlet")) || // Samsung SmartThings IM6001-OTP/IM6001-OTP01
modelId == QLatin1String("DoubleSocket50AU") || // Aurora
modelId == QLatin1String("Smart16ARelay51AU") || // Aurora (Develco) smart plug
modelId == QLatin1String("RICI01") || // LifeControl Smart Plug
modelId.startsWith(QLatin1String("SZ-ESW01")) || // Sercomm / Telstra smart plug
modelId == QLatin1String("TS0121") || // Tuya smart plug
modelId.startsWith(QLatin1String("ROB_200")) || // ROBB Smarrt micro dimmer
modelId.startsWith(QLatin1String("Micro Smart Dimmer")) || // Sunricher Micro Smart Dimmer
modelId == QLatin1String("SMRZB-1") || // Develco smart cable
modelId == QLatin1String("PoP") || // Apex Smart Plug
modelId == QLatin1String("TS011F")) // Tuya plugs
{
// already in mA
DDF_AnnoteZclParse(sensor, item, ind.srcEndpoint(), ind.clusterId(), attrId, "if (Attr.val != 65535) { Item.val = Attr.val; } ");
}
else if (modelId == QLatin1String("SmartPlug") || // Heiman
modelId.startsWith(QLatin1String("EMIZB-1")) || // Develco EMI
modelId.startsWith(QLatin1String("SKHMP30")) || // GS smart plug
modelId == QLatin1String("3200-Sgb") || // Samsung smart outlet
modelId == QLatin1String("3200-de") || // Samsung smart outlet
modelId.startsWith(QLatin1String("SPW35Z")) || // RT-RK OBLO SPW35ZD0 smart plug
modelId == QLatin1String("TH1300ZB")) // Sinope thermostat
{
current *= 10; // 0.01A -> mA
DDF_AnnoteZclParse(sensor, item, ind.srcEndpoint(), ind.clusterId(), attrId, "if (Attr.val != 65535) { Item.val = Attr.val * 10; } ");
}
else
{
current *= 1000; // A -> mA
DDF_AnnoteZclParse(sensor, item, ind.srcEndpoint(), ind.clusterId(), attrId, "if (Attr.val != 65535) { Item.val = Attr.val * 1000; } ");
}
if (!item->lastSet().isValid() || item->toNumber() != current)
{
item->setValue(current); // in mA
enqueueEvent(Event(RSensors, RStateCurrent, sensor->id(), item));
}
}
sensor->setZclValue(updateType, ind.srcEndpoint(), ELECTRICAL_MEASUREMENT_CLUSTER_ID, attrId, attr.numericValue());
stateUpdated = true;
}
break;
case APPARENT_POWER:
{
quint16 power = attr.numericValue().u16;
item = sensor->item(RStatePower);
if (item && power != 65535)
{
if (modelId == QLatin1String("TH1300ZB")) // Sinope thermostat
{
power = static_cast<quint16>(round((double)power / 1000.0)); // -> W
DDF_AnnoteZclParse(sensor, item, ind.srcEndpoint(), ind.clusterId(), attrId, "if (Attr.val != 65535) { Item.val = Math.round(Attr.val / 1000); } ");
}
else
{
DDF_AnnoteZclParse(sensor, item, ind.srcEndpoint(), ind.clusterId(), attrId, "if (Attr.val != 65535) { Item.val = Attr.val; } ");
}
if (!item->lastSet().isValid() || item->toNumber() != power)
{
item->setValue(power); // in W
enqueueEvent(Event(RSensors, RStatePower, sensor->id(), item));
}
}
sensor->setZclValue(updateType, ind.srcEndpoint(), ELECTRICAL_MEASUREMENT_CLUSTER_ID, attrId, attr.numericValue());
stateUpdated = true;
}
break;
default:
break;
}
}
if (stateUpdated)
{
sensor->updateStateTimestamp();
enqueueEvent(Event(RSensors, RStateLastUpdated, sensor->id()));
}
if (configUpdated || stateUpdated)
{
updateSensorEtag(&*sensor);
sensor->setNeedSaveDatabase(true);
queSaveDb(DB_SENSORS, DB_SHORT_SAVE_DELAY);
}
}
}