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/*
*
* Copyright (c) 2023 Project CHIP Authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <app-common/zap-generated/callback.h>
#include <app-common/zap-generated/ids/Attributes.h>
#include <app-common/zap-generated/ids/Clusters.h>
#include <app/util/config.h>
#include <lib/core/DataModelTypes.h>
#include <lib/core/TLVReader.h>
#include <map>
using namespace chip;
using namespace chip::app;
using namespace chip::app::DataModel;
using namespace chip::app::Clusters;
#if defined(MATTER_DM_PLUGIN_CARBON_MONOXIDE_CONCENTRATION_MEASUREMENT_SERVER) || \
defined(MATTER_DM_PLUGIN_CARBON_DIOXIDE_CONCENTRATION_MEASUREMENT_SERVER) || \
defined(MATTER_DM_PLUGIN_NITROGEN_DIOXIDE_CONCENTRATION_MEASUREMENT_SERVER) || \
defined(MATTER_DM_PLUGIN_OZONE_CONCENTRATION_MEASUREMENT_SERVER) || \
defined(MATTER_DM_PLUGIN_PM2__5_CONCENTRATION_MEASUREMENT_SERVER) || \
defined(MATTER_DM_PLUGIN_FORMALDEHYDE_CONCENTRATION_MEASUREMENT_SERVER) || \
defined(MATTER_DM_PLUGIN_PM1_CONCENTRATION_MEASUREMENT_SERVER) || \
defined(MATTER_DM_PLUGIN_PM10_CONCENTRATION_MEASUREMENT_SERVER) || \
defined(MATTER_DM_PLUGIN_TOTAL_VOLATILE_ORGANIC_COMPOUNDS_CONCENTRATION_MEASUREMENT_SERVER) || \
defined(MATTER_DM_PLUGIN_RADON_CONCENTRATION_MEASUREMENT_SERVER)
#include <app/clusters/concentration-measurement-server/concentration-measurement-server.h>
using namespace chip::app::Clusters::ConcentrationMeasurement;
static std::map<int, Instance<true, true, true, true, true, true> *> gCarbonMonoxideConcentrationMeasurementInstance{};
static std::map<int, Instance<true, true, true, true, true, true> *> gCarbonDioxideConcentrationMeasurementInstance{};
static std::map<int, Instance<true, true, true, true, true, true> *> gNitrogenDioxideConcentrationMeasurementInstance{};
static std::map<int, Instance<true, true, true, true, true, true> *> gOzoneConcentrationMeasurementInstance{};
static std::map<int, Instance<true, true, true, true, true, true> *> gPm25ConcentrationMeasurementInstance{};
static std::map<int, Instance<true, true, true, true, true, true> *> gFormaldehydeConcentrationMeasurementInstance{};
static std::map<int, Instance<true, true, true, true, true, true> *> gPm1ConcentrationMeasurementInstance{};
static std::map<int, Instance<true, true, true, true, true, true> *> gPm10ConcentrationMeasurementInstance{};
static std::map<int, Instance<true, true, true, true, true, true> *> gRadonConcentrationMeasurementInstance{};
static std::map<int, Instance<true, true, true, true, true, true> *>
gTotalVolatileOrganicCompoundsConcentrationMeasurementInstance{};
template <bool NumericMeasurementEnabled, bool LevelIndicationEnabled, bool MediumLevelEnabled, bool CriticalLevelEnabled,
bool PeakMeasurementEnabled, bool AverageMeasurementEnabled>
Protocols::InteractionModel::Status chefConcentrationMeasurementWriteCallback(
std::map<int,
Instance<NumericMeasurementEnabled, LevelIndicationEnabled, MediumLevelEnabled, CriticalLevelEnabled,
PeakMeasurementEnabled, LevelIndicationEnabled> *> & map,
AttributeId measuredValueId, chip::EndpointId endpoint, chip::ClusterId clusterId,
const EmberAfAttributeMetadata * attributeMetadata, uint8_t * buffer)
{
Protocols::InteractionModel::Status ret = Protocols::InteractionModel::Status::Success;
if (map.find(endpoint) == map.end())
{
ChipLogError(DeviceLayer, "Invalid Endpoind ID: %d", endpoint);
return Protocols::InteractionModel::Status::UnsupportedEndpoint;
}
Instance<NumericMeasurementEnabled, LevelIndicationEnabled, MediumLevelEnabled, CriticalLevelEnabled, PeakMeasurementEnabled,
LevelIndicationEnabled> * clusterInstance = map[endpoint];
AttributeId attributeId = attributeMetadata->attributeId;
if (attributeId == measuredValueId)
{
float newValue;
std::memcpy(&newValue, buffer, sizeof(float)); // Copy buffer content to float
CHIP_ERROR err = clusterInstance->SetMeasuredValue(MakeNullable(newValue));
if (CHIP_NO_ERROR == err)
{
ChipLogDetail(DeviceLayer, "Updated EP:%d, Cluster: 0x%04x MeasuredValue", endpoint, clusterId);
}
else
{
ret = Protocols::InteractionModel::Status::UnsupportedWrite;
ChipLogError(DeviceLayer, "Invalid Attribute Update status: %" CHIP_ERROR_FORMAT, err.Format());
}
}
else
{
ret = Protocols::InteractionModel::Status::UnsupportedAttribute;
ChipLogError(DeviceLayer, "Unsupported Attribute ID: %d", static_cast<int>(attributeId));
}
return ret;
}
Protocols::InteractionModel::Status chefConcentrationMeasurementWriteCallback(chip::EndpointId endpoint, chip::ClusterId clusterId,
const EmberAfAttributeMetadata * attributeMetadata,
uint8_t * buffer)
{
Protocols::InteractionModel::Status ret = Protocols::InteractionModel::Status::Success;
switch (clusterId)
{
case Clusters::CarbonMonoxideConcentrationMeasurement::Id:
ret = chefConcentrationMeasurementWriteCallback<true, true, true, true, true, true>(
gCarbonMonoxideConcentrationMeasurementInstance, CarbonMonoxideConcentrationMeasurement::Attributes::MeasuredValue::Id,
endpoint, clusterId, attributeMetadata, buffer);
break;
case Clusters::CarbonDioxideConcentrationMeasurement::Id:
ret = chefConcentrationMeasurementWriteCallback<true, true, true, true, true, true>(
gCarbonDioxideConcentrationMeasurementInstance, CarbonDioxideConcentrationMeasurement::Attributes::MeasuredValue::Id,
endpoint, clusterId, attributeMetadata, buffer);
break;
case Clusters::NitrogenDioxideConcentrationMeasurement::Id:
ret = chefConcentrationMeasurementWriteCallback<true, true, true, true, true, true>(
gNitrogenDioxideConcentrationMeasurementInstance,
NitrogenDioxideConcentrationMeasurement::Attributes::MeasuredValue::Id, endpoint, clusterId, attributeMetadata, buffer);
break;
case Clusters::OzoneConcentrationMeasurement::Id:
ret = chefConcentrationMeasurementWriteCallback<true, true, true, true, true, true>(
gOzoneConcentrationMeasurementInstance, OzoneConcentrationMeasurement::Attributes::MeasuredValue::Id, endpoint,
clusterId, attributeMetadata, buffer);
break;
case Clusters::Pm25ConcentrationMeasurement::Id:
ret = chefConcentrationMeasurementWriteCallback<true, true, true, true, true, true>(
gPm25ConcentrationMeasurementInstance, Pm25ConcentrationMeasurement::Attributes::MeasuredValue::Id, endpoint, clusterId,
attributeMetadata, buffer);
break;
case Clusters::FormaldehydeConcentrationMeasurement::Id:
ret = chefConcentrationMeasurementWriteCallback<true, true, true, true, true, true>(
gFormaldehydeConcentrationMeasurementInstance, FormaldehydeConcentrationMeasurement::Attributes::MeasuredValue::Id,
endpoint, clusterId, attributeMetadata, buffer);
break;
case Clusters::Pm1ConcentrationMeasurement::Id:
ret = chefConcentrationMeasurementWriteCallback<true, true, true, true, true, true>(
gPm1ConcentrationMeasurementInstance, Pm1ConcentrationMeasurement::Attributes::MeasuredValue::Id, endpoint, clusterId,
attributeMetadata, buffer);
break;
case Clusters::Pm10ConcentrationMeasurement::Id:
ret = chefConcentrationMeasurementWriteCallback<true, true, true, true, true, true>(
gPm10ConcentrationMeasurementInstance, Pm10ConcentrationMeasurement::Attributes::MeasuredValue::Id, endpoint, clusterId,
attributeMetadata, buffer);
break;
case Clusters::RadonConcentrationMeasurement::Id:
ret = chefConcentrationMeasurementWriteCallback<true, true, true, true, true, true>(
gRadonConcentrationMeasurementInstance, RadonConcentrationMeasurement::Attributes::MeasuredValue::Id, endpoint,
clusterId, attributeMetadata, buffer);
break;
case Clusters::TotalVolatileOrganicCompoundsConcentrationMeasurement::Id:
ret = chefConcentrationMeasurementWriteCallback<true, true, true, true, true, true>(
gTotalVolatileOrganicCompoundsConcentrationMeasurementInstance,
TotalVolatileOrganicCompoundsConcentrationMeasurement::Attributes::MeasuredValue::Id, endpoint, clusterId,
attributeMetadata, buffer);
break;
default:
break;
}
return ret;
}
Protocols::InteractionModel::Status chefConcentrationMeasurementReadCallback(chip::EndpointId endpoint, chip::ClusterId clusterId,
const EmberAfAttributeMetadata * attributeMetadata,
uint8_t * buffer, uint16_t maxReadLength)
{
Protocols::InteractionModel::Status ret = Protocols::InteractionModel::Status::Success;
return ret;
}
#endif
#ifdef MATTER_DM_PLUGIN_CARBON_MONOXIDE_CONCENTRATION_MEASUREMENT_SERVER
void emberAfCarbonMonoxideConcentrationMeasurementClusterInitCallback(EndpointId endpoint)
{
gCarbonMonoxideConcentrationMeasurementInstance[EndpointId(endpoint)] = new Instance<true, true, true, true, true, true>(
EndpointId(endpoint), CarbonMonoxideConcentrationMeasurement::Id, MeasurementMediumEnum::kAir, MeasurementUnitEnum::kPpm);
gCarbonMonoxideConcentrationMeasurementInstance[EndpointId(endpoint)]->Init();
gCarbonMonoxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMeasuredValue(MakeNullable(10.0f));
gCarbonMonoxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMinMeasuredValue(MakeNullable(1.0f));
gCarbonMonoxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMaxMeasuredValue(MakeNullable(1000.0f));
gCarbonMonoxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValue(MakeNullable(12.0f));
gCarbonMonoxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValueWindow(3600);
gCarbonMonoxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValue(MakeNullable(10.0f));
gCarbonMonoxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValueWindow(3600);
gCarbonMonoxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetUncertainty(1.0f);
gCarbonMonoxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetLevelValue(LevelValueEnum::kMedium);
}
#endif
#ifdef MATTER_DM_PLUGIN_CARBON_DIOXIDE_CONCENTRATION_MEASUREMENT_SERVER
void emberAfCarbonDioxideConcentrationMeasurementClusterInitCallback(EndpointId endpoint)
{
gCarbonDioxideConcentrationMeasurementInstance[EndpointId(endpoint)] = new Instance<true, true, true, true, true, true>(
EndpointId(endpoint), CarbonDioxideConcentrationMeasurement::Id, MeasurementMediumEnum::kAir, MeasurementUnitEnum::kPpm);
gCarbonDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->Init();
gCarbonDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMeasuredValue(MakeNullable(426.0f));
gCarbonDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMinMeasuredValue(MakeNullable(1.0f));
gCarbonDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMaxMeasuredValue(MakeNullable(1000.0f));
gCarbonDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValue(MakeNullable(523.0f));
gCarbonDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValueWindow(3600);
gCarbonDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValue(MakeNullable(421.0f));
gCarbonDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValueWindow(3600);
gCarbonDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetUncertainty(10.0f);
gCarbonDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetLevelValue(LevelValueEnum::kMedium);
}
#endif
#ifdef MATTER_DM_PLUGIN_NITROGEN_DIOXIDE_CONCENTRATION_MEASUREMENT_SERVER
void emberAfNitrogenDioxideConcentrationMeasurementClusterInitCallback(EndpointId endpoint)
{
gNitrogenDioxideConcentrationMeasurementInstance[EndpointId(endpoint)] = new Instance<true, true, true, true, true, true>(
EndpointId(endpoint), NitrogenDioxideConcentrationMeasurement::Id, MeasurementMediumEnum::kAir, MeasurementUnitEnum::kPpb);
gNitrogenDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->Init();
gNitrogenDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMeasuredValue(MakeNullable(70.0f));
gNitrogenDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMinMeasuredValue(MakeNullable(1.0f));
gNitrogenDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMaxMeasuredValue(MakeNullable(1000.0f));
gNitrogenDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValue(MakeNullable(138.0f));
gNitrogenDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValueWindow(3600);
gNitrogenDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValue(MakeNullable(97.5f));
gNitrogenDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValueWindow(3600);
gNitrogenDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetUncertainty(10.0f);
gNitrogenDioxideConcentrationMeasurementInstance[EndpointId(endpoint)]->SetLevelValue(LevelValueEnum::kMedium);
}
#endif
#ifdef MATTER_DM_PLUGIN_OZONE_CONCENTRATION_MEASUREMENT_SERVER
void emberAfOzoneConcentrationMeasurementClusterInitCallback(EndpointId endpoint)
{
gOzoneConcentrationMeasurementInstance[EndpointId(endpoint)] = new Instance<true, true, true, true, true, true>(
EndpointId(endpoint), OzoneConcentrationMeasurement::Id, MeasurementMediumEnum::kAir, MeasurementUnitEnum::kPpm);
gOzoneConcentrationMeasurementInstance[EndpointId(endpoint)]->Init();
gOzoneConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMeasuredValue(MakeNullable(60.0f));
gOzoneConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMinMeasuredValue(MakeNullable(1.0f));
gOzoneConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMaxMeasuredValue(MakeNullable(1000.0f));
gOzoneConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValue(MakeNullable(99.0f));
gOzoneConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValueWindow(3600);
gOzoneConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValue(MakeNullable(72.0f));
gOzoneConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValueWindow(3600);
gOzoneConcentrationMeasurementInstance[EndpointId(endpoint)]->SetUncertainty(10.0f);
gOzoneConcentrationMeasurementInstance[EndpointId(endpoint)]->SetLevelValue(LevelValueEnum::kMedium);
}
#endif
#ifdef MATTER_DM_PLUGIN_PM2__5_CONCENTRATION_MEASUREMENT_SERVER
void emberAfPm25ConcentrationMeasurementClusterInitCallback(EndpointId endpoint)
{
gPm25ConcentrationMeasurementInstance[EndpointId(endpoint)] = new Instance<true, true, true, true, true, true>(
EndpointId(endpoint), Pm25ConcentrationMeasurement::Id, MeasurementMediumEnum::kAir, MeasurementUnitEnum::kUgm3);
gPm25ConcentrationMeasurementInstance[EndpointId(endpoint)]->Init();
gPm25ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMeasuredValue(MakeNullable(35.0f));
gPm25ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMinMeasuredValue(MakeNullable(1.0f));
gPm25ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMaxMeasuredValue(MakeNullable(1000.0f));
gPm25ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValue(MakeNullable(50.0f));
gPm25ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValueWindow(3600);
gPm25ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValue(MakeNullable(43.0f));
gPm25ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValueWindow(3600);
gPm25ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetUncertainty(1.0f);
gPm25ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetLevelValue(LevelValueEnum::kMedium);
}
#endif
#ifdef MATTER_DM_PLUGIN_FORMALDEHYDE_CONCENTRATION_MEASUREMENT_SERVER
void emberAfFormaldehydeConcentrationMeasurementClusterInitCallback(EndpointId endpoint)
{
gFormaldehydeConcentrationMeasurementInstance[EndpointId(endpoint)] = new Instance<true, true, true, true, true, true>(
EndpointId(endpoint), FormaldehydeConcentrationMeasurement::Id, MeasurementMediumEnum::kAir, MeasurementUnitEnum::kMgm3);
gFormaldehydeConcentrationMeasurementInstance[EndpointId(endpoint)]->Init();
gFormaldehydeConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMeasuredValue(MakeNullable(40.0f));
gFormaldehydeConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMinMeasuredValue(MakeNullable(1.0f));
gFormaldehydeConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMaxMeasuredValue(MakeNullable(1000.0f));
gFormaldehydeConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValue(MakeNullable(88.0f));
gFormaldehydeConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValueWindow(7200);
gFormaldehydeConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValue(MakeNullable(40.0f));
gFormaldehydeConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValueWindow(7200);
gFormaldehydeConcentrationMeasurementInstance[EndpointId(endpoint)]->SetUncertainty(1.0f);
gFormaldehydeConcentrationMeasurementInstance[EndpointId(endpoint)]->SetLevelValue(LevelValueEnum::kMedium);
}
#endif
#ifdef MATTER_DM_PLUGIN_PM1_CONCENTRATION_MEASUREMENT_SERVER
void emberAfPm1ConcentrationMeasurementClusterInitCallback(EndpointId endpoint)
{
gPm1ConcentrationMeasurementInstance[EndpointId(endpoint)] = new Instance<true, true, true, true, true, true>(
EndpointId(endpoint), Pm1ConcentrationMeasurement::Id, MeasurementMediumEnum::kAir, MeasurementUnitEnum::kPpm);
gPm1ConcentrationMeasurementInstance[EndpointId(endpoint)]->Init();
gPm1ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMeasuredValue(MakeNullable(200.0f));
gPm1ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMinMeasuredValue(MakeNullable(1.0f));
gPm1ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMaxMeasuredValue(MakeNullable(1000.0f));
gPm1ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValue(MakeNullable(430.0f));
gPm1ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValueWindow(3600);
gPm1ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValue(MakeNullable(270.0f));
gPm1ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValueWindow(3600);
gPm1ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetUncertainty(10.0f);
gPm1ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetLevelValue(LevelValueEnum::kMedium);
}
#endif
#ifdef MATTER_DM_PLUGIN_PM10_CONCENTRATION_MEASUREMENT_SERVER
void emberAfPm10ConcentrationMeasurementClusterInitCallback(EndpointId endpoint)
{
gPm10ConcentrationMeasurementInstance[EndpointId(endpoint)] = new Instance<true, true, true, true, true, true>(
EndpointId(endpoint), Pm10ConcentrationMeasurement::Id, MeasurementMediumEnum::kAir, MeasurementUnitEnum::kPpm);
gPm10ConcentrationMeasurementInstance[EndpointId(endpoint)]->Init();
gPm10ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMeasuredValue(MakeNullable(50.0f));
gPm10ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMinMeasuredValue(MakeNullable(1.0f));
gPm10ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMaxMeasuredValue(MakeNullable(1000.0f));
gPm10ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValue(MakeNullable(81.0f));
gPm10ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValueWindow(3600);
gPm10ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValue(MakeNullable(67.0f));
gPm10ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValueWindow(3600);
gPm10ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetUncertainty(10.0f);
gPm10ConcentrationMeasurementInstance[EndpointId(endpoint)]->SetLevelValue(LevelValueEnum::kMedium);
}
#endif
#ifdef MATTER_DM_PLUGIN_RADON_CONCENTRATION_MEASUREMENT_SERVER
void emberAfRadonConcentrationMeasurementClusterInitCallback(EndpointId endpoint)
{
gRadonConcentrationMeasurementInstance[EndpointId(endpoint)] = new Instance<true, true, true, true, true, true>(
EndpointId(endpoint), RadonConcentrationMeasurement::Id, MeasurementMediumEnum::kAir, MeasurementUnitEnum::kPpm);
gRadonConcentrationMeasurementInstance[EndpointId(endpoint)]->Init();
gRadonConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMeasuredValue(MakeNullable(100.0f));
gRadonConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMinMeasuredValue(MakeNullable(1.0f));
gRadonConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMaxMeasuredValue(MakeNullable(1000.0f));
gRadonConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValue(MakeNullable(150.0f));
gRadonConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValueWindow(3600);
gRadonConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValue(MakeNullable(120.0f));
gRadonConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValueWindow(3600);
gRadonConcentrationMeasurementInstance[EndpointId(endpoint)]->SetUncertainty(1.0f);
gRadonConcentrationMeasurementInstance[EndpointId(endpoint)]->SetLevelValue(LevelValueEnum::kMedium);
}
#endif
#ifdef MATTER_DM_PLUGIN_TOTAL_VOLATILE_ORGANIC_COMPOUNDS_CONCENTRATION_MEASUREMENT_SERVER
void emberAfTotalVolatileOrganicCompoundsConcentrationMeasurementClusterInitCallback(EndpointId endpoint)
{
gTotalVolatileOrganicCompoundsConcentrationMeasurementInstance[EndpointId(endpoint)] =
new Instance<true, true, true, true, true, true>(EndpointId(endpoint),
TotalVolatileOrganicCompoundsConcentrationMeasurement::Id,
MeasurementMediumEnum::kAir, MeasurementUnitEnum::kPpb);
gTotalVolatileOrganicCompoundsConcentrationMeasurementInstance[EndpointId(endpoint)]->Init();
gTotalVolatileOrganicCompoundsConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMeasuredValue(MakeNullable(5.0f));
gTotalVolatileOrganicCompoundsConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMinMeasuredValue(MakeNullable(1.0f));
gTotalVolatileOrganicCompoundsConcentrationMeasurementInstance[EndpointId(endpoint)]->SetMaxMeasuredValue(MakeNullable(100.0f));
gTotalVolatileOrganicCompoundsConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValue(MakeNullable(8.0f));
gTotalVolatileOrganicCompoundsConcentrationMeasurementInstance[EndpointId(endpoint)]->SetPeakMeasuredValueWindow(3600);
gTotalVolatileOrganicCompoundsConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValue(
MakeNullable(2.0f));
gTotalVolatileOrganicCompoundsConcentrationMeasurementInstance[EndpointId(endpoint)]->SetAverageMeasuredValueWindow(3600);
gTotalVolatileOrganicCompoundsConcentrationMeasurementInstance[EndpointId(endpoint)]->SetUncertainty(1.0f);
gTotalVolatileOrganicCompoundsConcentrationMeasurementInstance[EndpointId(endpoint)]->SetLevelValue(LevelValueEnum::kLow);
}
#endif