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[luftdateninfo] Add internal sensor support (#10643) 

Signed-off-by: Bernd Weymann <bernd.weymann@gmail.com>
This commit is contained in:
Bernd Weymann 2021-05-13 16:26:17 +02:00 committed by GitHub
parent db05079e6f
commit bafa841390
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17 changed files with 256 additions and 78 deletions
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19
bundles/org.openhab.binding.luftdateninfo/README.md
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@ -1,7 +1,5 @@
# LuftdatenInfo Binding
<img align="right" src="./doc/logo-rund.png"/>
Binding for the Sensor Community [luftdaten.info](https://luftdaten.info/). The community provides instructions to build sensors on your own and they can be integrated into the database.
With this binding you can integrate your sensor, a sensor nearby or even any sensors you want into openHAB.
@ -21,10 +19,21 @@ There's no auto discovery. See Thing configuration how to setup a Sensor.
## Thing Configuration
Choose either a local IP address of your personal owned sensor _or_ a sensor id of an external one.
| Parameter | Description |
|-----------------|----------------------------------------------------------------------|
| ipAddress | Local IP address of your personal owned sensor |
| sensorid | Sensor ID obtained from https://deutschland.maps.sensor.community/ |
### Local Sensor
Please check in your browser if you can access your sensor with your local IP address.
![Luftdaten.info Logo](doc/local-sensor.png)
### External Sensor
Perform the following steps to get the appropriate Sensor ID
* Go to to [luftdaten.info map](https://deutschland.maps.sensor.community/)
@ -69,9 +78,9 @@ Perform the following steps to get the appropriate Sensor ID
luftdaten.things
```
Thing luftdateninfo:particulate:pm_sensor "PM Sensor" [ sensorid=28842]
Thing luftdateninfo:conditions:cond_sensor "Condition Sensor" [ sensorid=28843]
Thing luftdateninfo:noise:noise_sensor "Noise Sensor" [ sensorid=39745]
Thing luftdateninfo:particulate:pm_sensor "PM Sensor" [ ipAddress=192.168.178.50 ]
Thing luftdateninfo:conditions:cond_sensor "Condition Sensor" [ sensorid=28843 ]
Thing luftdateninfo:noise:noise_sensor "Noise Sensor" [ sensorid=39745 ]
```
### Items

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5
bundles/org.openhab.binding.luftdateninfo/src/main/java/org/openhab/binding/luftdateninfo/internal/LuftdatenInfoConfiguration.java
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@ -13,6 +13,7 @@
package org.openhab.binding.luftdateninfo.internal;
import org.eclipse.jdt.annotation.NonNullByDefault;
import org.openhab.binding.luftdateninfo.internal.utils.Constants;
/**
* The {@link LuftdatenInfoConfiguration} class contains fields mapping thing configuration parameters.
@ -22,5 +23,7 @@ import org.eclipse.jdt.annotation.NonNullByDefault;
@NonNullByDefault
public class LuftdatenInfoConfiguration {
public int sensorid = -1;
public int sensorid = Constants.UNDEF;
public String ipAddress = Constants.EMPTY;
}

8
bundles/org.openhab.binding.luftdateninfo/src/main/java/org/openhab/binding/luftdateninfo/internal/LuftdatenInfoHandlerFactory.java
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@ -48,13 +48,9 @@ public class LuftdatenInfoHandlerFactory extends BaseThingHandlerFactory {
@Override
public boolean supportsThingType(ThingTypeUID thingTypeUID) {
if (thingTypeUID.equals(LuftdatenInfoBindingConstants.THING_TYPE_PARTICULATE)
return (thingTypeUID.equals(LuftdatenInfoBindingConstants.THING_TYPE_PARTICULATE)
|| thingTypeUID.equals(LuftdatenInfoBindingConstants.THING_TYPE_CONDITIONS)
|| thingTypeUID.equals(LuftdatenInfoBindingConstants.THING_TYPE_NOISE)) {
return true;
} else {
return false;
}
|| thingTypeUID.equals(LuftdatenInfoBindingConstants.THING_TYPE_NOISE));
}
@Override

30
bundles/org.openhab.binding.luftdateninfo/src/main/java/org/openhab/binding/luftdateninfo/internal/handler/BaseSensorHandler.java
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@ -13,12 +13,14 @@
package org.openhab.binding.luftdateninfo.internal.handler;
import java.time.LocalDateTime;
import java.util.Optional;
import java.util.concurrent.ScheduledFuture;
import java.util.concurrent.TimeUnit;
import org.eclipse.jdt.annotation.NonNullByDefault;
import org.eclipse.jdt.annotation.Nullable;
import org.openhab.binding.luftdateninfo.internal.LuftdatenInfoConfiguration;
import org.openhab.binding.luftdateninfo.internal.utils.Constants;
import org.openhab.binding.luftdateninfo.internal.utils.DateTimeUtils;
import org.openhab.core.thing.ChannelUID;
import org.openhab.core.thing.Thing;
@ -48,9 +50,12 @@ public abstract class BaseSensorHandler extends BaseThingHandler {
protected ThingStatus myThingStatus = ThingStatus.UNKNOWN;
protected UpdateStatus lastUpdateStatus = UpdateStatus.UNKNOWN;
protected @Nullable ScheduledFuture<?> refreshJob;
private Optional<String> sensorUrl = Optional.empty();
private boolean firstUpdate = true;
public enum ConfigStatus {
OK,
INTERNAL_SENSOR_OK,
EXTERNAL_SENSOR_OK,
IS_NULL,
SENSOR_IS_NULL,
SENSOR_ID_NEGATIVE,
@ -88,6 +93,7 @@ public abstract class BaseSensorHandler extends BaseThingHandler {
@Override
public void initialize() {
firstUpdate = true;
lifecycleStatus = LifecycleStatus.INITIALIZING;
scheduler.execute(this::startUp);
}
@ -95,7 +101,7 @@ public abstract class BaseSensorHandler extends BaseThingHandler {
private void startUp() {
config = getConfigAs(LuftdatenInfoConfiguration.class);
configStatus = checkConfig(config);
if (configStatus == ConfigStatus.OK) {
if (configStatus == ConfigStatus.INTERNAL_SENSOR_OK || configStatus == ConfigStatus.EXTERNAL_SENSOR_OK) {
// start getting values
dataUpdate();
} else {
@ -135,11 +141,17 @@ public abstract class BaseSensorHandler extends BaseThingHandler {
*/
private ConfigStatus checkConfig(@Nullable LuftdatenInfoConfiguration c) {
if (c != null) {
if (c.ipAddress != null && !Constants.EMPTY.equals(c.ipAddress)) {
sensorUrl = Optional.of("http://" + c.ipAddress + "/data.json");
return ConfigStatus.INTERNAL_SENSOR_OK;
} else {
if (c.sensorid >= 0) {
return ConfigStatus.OK;
sensorUrl = Optional.of("http://data.sensor.community/airrohr/v1/sensor/" + c.sensorid + "/");
return ConfigStatus.EXTERNAL_SENSOR_OK;
} else {
return ConfigStatus.SENSOR_ID_NEGATIVE;
}
}
} else {
return ConfigStatus.IS_NULL;
}
@ -150,11 +162,21 @@ public abstract class BaseSensorHandler extends BaseThingHandler {
}
protected void dataUpdate() {
HTTPHandler.getHandler().request(config.sensorid, this);
if (sensorUrl.isPresent()) {
HTTPHandler.getHandler().request(sensorUrl.get(), this);
}
}
public void onResponse(String data) {
if (firstUpdate) {
logger.debug("{} delivers {}", sensorUrl.get(), data);
firstUpdate = false;
}
if (configStatus == ConfigStatus.INTERNAL_SENSOR_OK) {
lastUpdateStatus = updateChannels("[" + data + "]");
} else {
lastUpdateStatus = updateChannels(data);
}
statusUpdate(lastUpdateStatus, EMPTY);
}

24
bundles/org.openhab.binding.luftdateninfo/src/main/java/org/openhab/binding/luftdateninfo/internal/handler/ConditionHandler.java
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@ -13,7 +13,8 @@
package org.openhab.binding.luftdateninfo.internal.handler;
import static org.openhab.binding.luftdateninfo.internal.LuftdatenInfoBindingConstants.*;
import static org.openhab.binding.luftdateninfo.internal.handler.HTTPHandler.*;
import static org.openhab.binding.luftdateninfo.internal.utils.Constants.*;
import static org.openhab.core.library.unit.MetricPrefix.HECTO;
import java.util.List;
@ -38,11 +39,10 @@ import org.openhab.core.thing.Thing;
*/
@NonNullByDefault
public class ConditionHandler extends BaseSensorHandler {
protected QuantityType<Temperature> temperatureCache = QuantityType.valueOf(-1, SIUnits.CELSIUS);
protected QuantityType<Dimensionless> humidityCache = QuantityType.valueOf(-1, Units.PERCENT);
protected QuantityType<Pressure> pressureCache = QuantityType.valueOf(-1, SIUnits.PASCAL);
protected QuantityType<Pressure> pressureSeaCache = QuantityType.valueOf(-1, SIUnits.PASCAL);
protected QuantityType<Pressure> pressureCache = QuantityType.valueOf(-1, HECTO(SIUnits.PASCAL));
protected QuantityType<Pressure> pressureSeaCache = QuantityType.valueOf(-1, HECTO(SIUnits.PASCAL));
public ConditionHandler(Thing thing) {
super(thing);
@ -55,18 +55,22 @@ public class ConditionHandler extends BaseSensorHandler {
if (valueList != null) {
if (HTTPHandler.getHandler().isCondition(valueList)) {
valueList.forEach(v -> {
if (v.getValueType().equals(TEMPERATURE)) {
if (v.getValueType().endsWith(TEMPERATURE)) {
temperatureCache = QuantityType.valueOf(NumberUtils.round(v.getValue(), 1),
SIUnits.CELSIUS);
updateState(TEMPERATURE_CHANNEL, temperatureCache);
} else if (v.getValueType().equals(HUMIDITY)) {
} else if (v.getValueType().endsWith(HUMIDITY)) {
humidityCache = QuantityType.valueOf(NumberUtils.round(v.getValue(), 1), Units.PERCENT);
updateState(HUMIDITY_CHANNEL, humidityCache);
} else if (v.getValueType().equals(PRESSURE)) {
pressureCache = QuantityType.valueOf(NumberUtils.round(v.getValue(), 1), SIUnits.PASCAL);
} else if (v.getValueType().endsWith(PRESSURE)) {
pressureCache = QuantityType.valueOf(
NumberUtils.round(NumberUtils.convert(v.getValue()) / 100, 1),
HECTO(SIUnits.PASCAL));
updateState(PRESSURE_CHANNEL, pressureCache);
} else if (v.getValueType().equals(PRESSURE_SEALEVEL)) {
pressureSeaCache = QuantityType.valueOf(NumberUtils.round(v.getValue(), 1), SIUnits.PASCAL);
} else if (v.getValueType().endsWith(PRESSURE_SEALEVEL)) {
pressureSeaCache = QuantityType.valueOf(
NumberUtils.round(NumberUtils.convert(v.getValue()) / 100, 1),
HECTO(SIUnits.PASCAL));
updateState(PRESSURE_SEA_CHANNEL, pressureSeaCache);
}
});

28
bundles/org.openhab.binding.luftdateninfo/src/main/java/org/openhab/binding/luftdateninfo/internal/handler/HTTPHandler.java
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@ -12,6 +12,8 @@
*/
package org.openhab.binding.luftdateninfo.internal.handler;
import static org.openhab.binding.luftdateninfo.internal.utils.Constants.*;
import java.time.LocalDateTime;
import java.util.List;
import java.util.Objects;
@ -42,19 +44,6 @@ public class HTTPHandler {
private static final Gson GSON = new Gson();
private static final HTTPHandler HTTP_HANDLER = new HTTPHandler();
public static final String P1 = "P1";
public static final String P2 = "P2";
public static final String TEMPERATURE = "temperature";
public static final String HUMIDITY = "humidity";
public static final String PRESSURE = "pressure";
public static final String PRESSURE_SEALEVEL = "pressure_at_sealevel";
public static final String NOISE_EQ = "noise_LAeq";
public static final String NOISE_MIN = "noise_LA_min";
public static final String NOISE_MAX = "noise_LA_max";
private static String sensorUrl = "http://data.sensor.community/airrohr/v1/sensor/";
private static @Nullable HttpClient commonHttpClient;
public static void init(HttpClient httpClient) {
@ -65,12 +54,11 @@ public class HTTPHandler {
return HTTP_HANDLER;
}
public synchronized void request(int sensorId, BaseSensorHandler callback) {
public synchronized void request(String url, BaseSensorHandler callback) {
HttpClient localClient = commonHttpClient;
if (localClient == null) {
logger.warn("HTTP Client not initialized");
} else {
String url = sensorUrl + sensorId + "/";
Request req = localClient.newRequest(url);
req.timeout(15, TimeUnit.SECONDS).send(new BufferingResponseListener() {
@NonNullByDefault({})
@ -142,7 +130,7 @@ public class HTTPHandler {
if (valueList == null) {
return false;
}
return valueList.stream().map(v -> v.getValueType()).filter(t -> t.equals(P1) || t.equals(P2)).findAny()
return valueList.stream().map(v -> v.getValueType()).filter(t -> t.endsWith(P1) || t.endsWith(P2)).findAny()
.isPresent();
}
@ -150,9 +138,8 @@ public class HTTPHandler {
if (valueList == null) {
return false;
}
return valueList.stream().map(v -> v.getValueType()).filter(
t -> t.equals(TEMPERATURE) || t.equals(HUMIDITY) || t.equals(PRESSURE) || t.equals(PRESSURE_SEALEVEL))
.findAny().isPresent();
return valueList.stream().map(v -> v.getValueType()).filter(t -> t.equals(TEMPERATURE) || t.endsWith(HUMIDITY)
|| t.endsWith(PRESSURE) || t.endsWith(PRESSURE_SEALEVEL)).findAny().isPresent();
}
public boolean isNoise(@Nullable List<SensorDataValue> valueList) {
@ -160,6 +147,7 @@ public class HTTPHandler {
return false;
}
return valueList.stream().map(v -> v.getValueType())
.filter(t -> t.equals(NOISE_EQ) || t.equals(NOISE_MAX) || t.equals(NOISE_MIN)).findAny().isPresent();
.filter(t -> t.endsWith(NOISE_EQ) || t.endsWith(NOISE_MAX) || t.endsWith(NOISE_MIN)).findAny()
.isPresent();
}
}

8
bundles/org.openhab.binding.luftdateninfo/src/main/java/org/openhab/binding/luftdateninfo/internal/handler/NoiseHandler.java
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@ -13,7 +13,7 @@
package org.openhab.binding.luftdateninfo.internal.handler;
import static org.openhab.binding.luftdateninfo.internal.LuftdatenInfoBindingConstants.*;
import static org.openhab.binding.luftdateninfo.internal.handler.HTTPHandler.*;
import static org.openhab.binding.luftdateninfo.internal.utils.Constants.*;
import java.util.List;
@ -50,13 +50,13 @@ public class NoiseHandler extends BaseSensorHandler {
if (valueList != null) {
if (HTTPHandler.getHandler().isNoise(valueList)) {
valueList.forEach(v -> {
if (v.getValueType().equals(NOISE_EQ)) {
if (v.getValueType().endsWith(NOISE_EQ)) {
noiseEQCache = QuantityType.valueOf(NumberUtils.round(v.getValue(), 1), Units.DECIBEL);
updateState(NOISE_EQ_CHANNEL, noiseEQCache);
} else if (v.getValueType().equals(NOISE_MIN)) {
} else if (v.getValueType().endsWith(NOISE_MIN)) {
noiseMinCache = QuantityType.valueOf(NumberUtils.round(v.getValue(), 1), Units.DECIBEL);
updateState(NOISE_MIN_CHANNEL, noiseMinCache);
} else if (v.getValueType().equals(NOISE_MAX)) {
} else if (v.getValueType().endsWith(NOISE_MAX)) {
noiseMaxCache = QuantityType.valueOf(NumberUtils.round(v.getValue(), 1), Units.DECIBEL);
updateState(NOISE_MAX_CHANNEL, noiseMaxCache);
}

6
bundles/org.openhab.binding.luftdateninfo/src/main/java/org/openhab/binding/luftdateninfo/internal/handler/PMHandler.java
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@ -13,7 +13,7 @@
package org.openhab.binding.luftdateninfo.internal.handler;
import static org.openhab.binding.luftdateninfo.internal.LuftdatenInfoBindingConstants.*;
import static org.openhab.binding.luftdateninfo.internal.handler.HTTPHandler.*;
import static org.openhab.binding.luftdateninfo.internal.utils.Constants.*;
import java.util.List;
@ -49,11 +49,11 @@ public class PMHandler extends BaseSensorHandler {
if (valueList != null) {
if (HTTPHandler.getHandler().isParticulate(valueList)) {
valueList.forEach(v -> {
if (v.getValueType().equals(P1)) {
if (v.getValueType().endsWith(P1)) {
pm100Cache = QuantityType.valueOf(NumberUtils.round(v.getValue(), 1),
Units.MICROGRAM_PER_CUBICMETRE);
updateState(PM100_CHANNEL, pm100Cache);
} else if (v.getValueType().equals(P2)) {
} else if (v.getValueType().endsWith(P2)) {
pm25Cache = QuantityType.valueOf(NumberUtils.round(v.getValue(), 1),
Units.MICROGRAM_PER_CUBICMETRE);
updateState(PM25_CHANNEL, pm25Cache);

37
bundles/org.openhab.binding.luftdateninfo/src/main/java/org/openhab/binding/luftdateninfo/internal/utils/Constants.java Normal file
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@ -0,0 +1,37 @@
/**
* Copyright (c) 2010-2021 Contributors to the openHAB project
*
* See the NOTICE file(s) distributed with this work for additional
* information.
*
* This program and the accompanying materials are made available under the
* terms of the Eclipse Public License 2.0 which is available at
* http://www.eclipse.org/legal/epl-2.0
*
* SPDX-License-Identifier: EPL-2.0
*/
package org.openhab.binding.luftdateninfo.internal.utils;
import org.eclipse.jdt.annotation.NonNullByDefault;
/**
* The {@link Constants} Constants used in this binding
*
* @author Bernd Weymann - Initial contribution
*/
@NonNullByDefault
public class Constants {
public static final String EMPTY = "";
public static final String P1 = "P1";
public static final String P2 = "P2";
public static final String TEMPERATURE = "temperature";
public static final String HUMIDITY = "humidity";
public static final String PRESSURE = "pressure";
public static final String PRESSURE_SEALEVEL = "pressure_at_sealevel";
public static final String NOISE_EQ = "noise_LAeq";
public static final String NOISE_MIN = "noise_LA_min";
public static final String NOISE_MAX = "noise_LA_max";
public static final int UNDEF = -1;
}

42
bundles/org.openhab.binding.luftdateninfo/src/main/resources/OH-INF/thing/thing-types.xml
View File

@ -14,9 +14,14 @@
</channels>
<config-description>
<parameter name="sensorid" type="integer" required="true">
<label>Sensor ID</label>
<description>Sensor ID</description>
<parameter name="ipAddress" type="text">
<context>network-address</context>
<label>Internal IP Address</label>
<description>Local IP address of your personal owned sensor</description>
</parameter>
<parameter name="sensorid" type="integer">
<label>External Sensor ID</label>
<description>Sensor ID from https://deutschland.maps.sensor.community/</description>
</parameter>
</config-description>
</thing-type>
@ -33,9 +38,14 @@
</channels>
<config-description>
<parameter name="sensorid" type="integer" required="true">
<label>Sensor ID</label>
<description>Sensor ID</description>
<parameter name="ipAddress" type="text">
<context>network-address</context>
<label>Internal IP Address</label>
<description>Local IP address of your personal owned sensor</description>
</parameter>
<parameter name="sensorid" type="integer">
<label>External Sensor ID</label>
<description>Sensor ID from https://deutschland.maps.sensor.community/</description>
</parameter>
</config-description>
</thing-type>
@ -51,9 +61,14 @@
</channels>
<config-description>
<parameter name="sensorid" type="integer" required="true">
<label>Sensor ID</label>
<description>Sensor ID</description>
<parameter name="ipAddress" type="text">
<context>network-address</context>
<label>Internal IP Address</label>
<description>Local IP address of your personal owned sensor</description>
</parameter>
<parameter name="sensorid" type="integer">
<label>External Sensor ID</label>
<description>Sensor ID from https://deutschland.maps.sensor.community/</description>
</parameter>
</config-description>
</thing-type>
@ -61,44 +76,53 @@
<channel-type id="pm25-channel">
<item-type>Number:Density</item-type>
<label>Particulate Matter category 2.5</label>
<state pattern="%.1f %unit%" readOnly="true"/>
</channel-type>
<channel-type id="pm100-channel">
<item-type>Number:Density</item-type>
<label>Particulate Matter category 10.0</label>
<state pattern="%.1f %unit%" readOnly="true"/>
</channel-type>
<channel-type id="temp-channel">
<item-type>Number:Temperature</item-type>
<label>Temperature</label>
<description>Temperature from the selected Sensor ID</description>
<state pattern="%.1f %unit%" readOnly="true"/>
</channel-type>
<channel-type id="hum-channel">
<item-type>Number:Dimensionless</item-type>
<label>Humidity</label>
<description>Humidity from the selected Sensor ID</description>
<state pattern="%.1f %unit%" readOnly="true"/>
</channel-type>
<channel-type id="pressure-channel">
<item-type>Number:Pressure</item-type>
<label>Atmospheric Pressure</label>
<description>Atmospheric Pressure from the selected Sensor ID</description>
<state pattern="%.1f %unit%" readOnly="true"/>
</channel-type>
<channel-type id="pressure-sea-channel">
<item-type>Number:Pressure</item-type>
<label>Atmospheric Pressure Sea Level</label>
<description>Atmospheric Pressure at sea level from the selected Sensor ID</description>
<state pattern="%.1f %unit%" readOnly="true"/>
</channel-type>
<channel-type id="noise-eq-channel">
<item-type>Number:Dimensionless</item-type>
<label>Average Noise</label>
<description>Average noise level from the selected Sensor ID</description>
<state pattern="%.1f %unit%" readOnly="true"/>
</channel-type>
<channel-type id="noise-min-channel">
<item-type>Number:Dimensionless</item-type>
<label>Minimum Noise</label>
<description>Minimum noise level (last 2.5 minutes) from the selected Sensor ID</description>
<state pattern="%.1f %unit%" readOnly="true"/>
</channel-type>
<channel-type id="noise-max-channel">
<item-type>Number:Dimensionless</item-type>
<label>Maximum Noise</label>
<description>Maximum noise level (last 2.5 minutes) from the selected Sensor ID</description>
<state pattern="%.1f %unit%" readOnly="true"/>
</channel-type>
</thing:thing-descriptions>

35
bundles/org.openhab.binding.luftdateninfo/src/test/java/org/openhab/binding/luftdateninfo/internal/ConditionHandlerTest.java
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@ -13,6 +13,7 @@
package org.openhab.binding.luftdateninfo.internal;
import static org.junit.jupiter.api.Assertions.*;
import static org.openhab.core.library.unit.MetricPrefix.HECTO;
import java.util.HashMap;
@ -49,9 +50,9 @@ public class ConditionHandlerTest {
UpdateStatus result = condHandler.updateChannels(pmJson);
assertEquals(UpdateStatus.OK, result, "Valid update");
assertEquals(QuantityType.valueOf(22.7, SIUnits.CELSIUS), condHandler.getTemperature(), "Temperature");
assertEquals(QuantityType.valueOf(61.0, Units.PERCENT), condHandler.getHumidity(), "Humidity");
assertEquals(QuantityType.valueOf(-1, SIUnits.PASCAL), condHandler.getPressure(), "Pressure");
assertEquals(QuantityType.valueOf(-1, SIUnits.PASCAL), condHandler.getPressureSea(), "Pressure Sea");
assertEquals(QuantityType.valueOf(61., Units.PERCENT), condHandler.getHumidity(), "Humidity");
assertEquals(QuantityType.valueOf(-1, HECTO(SIUnits.PASCAL)), condHandler.getPressure(), "Pressure");
assertEquals(QuantityType.valueOf(-1, HECTO(SIUnits.PASCAL)), condHandler.getPressureSea(), "Pressure Sea");
} else {
assertTrue(false);
}
@ -73,8 +74,9 @@ public class ConditionHandlerTest {
assertEquals(UpdateStatus.OK, result, "Valid update");
assertEquals(QuantityType.valueOf(21.5, SIUnits.CELSIUS), condHandler.getTemperature(), "Temperature");
assertEquals(QuantityType.valueOf(58.5, Units.PERCENT), condHandler.getHumidity(), "Humidity");
assertEquals(QuantityType.valueOf(100200.0, SIUnits.PASCAL), condHandler.getPressure(), "Pressure");
assertEquals(QuantityType.valueOf(101968.7, SIUnits.PASCAL), condHandler.getPressureSea(), "Pressure Sea");
assertEquals(QuantityType.valueOf(1002.0, HECTO(SIUnits.PASCAL)), condHandler.getPressure(), "Pressure");
assertEquals(QuantityType.valueOf(1019.7, HECTO(SIUnits.PASCAL)), condHandler.getPressureSea(),
"Pressure Sea");
} else {
assertTrue(false);
}
@ -126,4 +128,27 @@ public class ConditionHandlerTest {
UpdateStatus result = condHandler.updateChannels(null);
assertEquals(UpdateStatus.CONNECTION_ERROR, result, "Valid update");
}
@Test
public void testInternalUpdate() {
ThingMock t = new ThingMock();
HashMap<String, Object> properties = new HashMap<String, Object>();
// String sensorid taken from thing-types.xml
properties.put("ipAddress", "192.168.178.1");
t.setConfiguration(properties);
ConditionHandlerExtension condHandler = new ConditionHandlerExtension(t);
String pmJson = FileReader.readFileInString("src/test/resources/internal-data.json");
if (pmJson != null) {
UpdateStatus result = condHandler.updateChannels("[" + pmJson + "]");
assertEquals(UpdateStatus.OK, result, "Valid update");
assertEquals(QuantityType.valueOf(17.6, SIUnits.CELSIUS), condHandler.getTemperature(), "Temperature");
assertEquals(QuantityType.valueOf(57.8, Units.PERCENT), condHandler.getHumidity(), "Humidity");
assertEquals(QuantityType.valueOf(986.8, HECTO(SIUnits.PASCAL)), condHandler.getPressure(), "Pressure");
assertEquals(QuantityType.valueOf(-1, HECTO(SIUnits.PASCAL)), condHandler.getPressureSea(), "Pressure Sea");
} else {
assertTrue(false);
}
}
}

8
bundles/org.openhab.binding.luftdateninfo/src/test/java/org/openhab/binding/luftdateninfo/internal/DTOTest.java
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@ -20,8 +20,8 @@ import org.eclipse.jdt.annotation.NonNullByDefault;
import org.junit.jupiter.api.Test;
import org.openhab.binding.luftdateninfo.internal.dto.SensorData;
import org.openhab.binding.luftdateninfo.internal.dto.SensorDataValue;
import org.openhab.binding.luftdateninfo.internal.handler.HTTPHandler;
import org.openhab.binding.luftdateninfo.internal.util.FileReader;
import org.openhab.binding.luftdateninfo.internal.utils.Constants;
import com.google.gson.Gson;
@ -44,16 +44,16 @@ public class DTOTest {
SensorData d = valueArray[0];
// Assure latest data is taken
String dateStr = d.getTimeStamp();
if (dateStr.equals("2020-06-09 06:38:08")) {
if ("2020-06-09 06:38:08".equals(dateStr)) {
// take newer one
d = valueArray[1];
}
List<SensorDataValue> sensorDataVaueList = d.getSensorDataValues();
assertNotNull(d);
sensorDataVaueList.forEach(v -> {
if (v.getValueType().equals(HTTPHandler.TEMPERATURE)) {
if (Constants.TEMPERATURE.equals(v.getValueType())) {
assertEquals("22.70", v.getValue(), "Temperature");
} else if (v.getValueType().equals(HTTPHandler.HUMIDITY)) {
} else if (Constants.HUMIDITY.equals(v.getValueType())) {
assertEquals("61.00", v.getValue(), "Humidity");
}
});

5
bundles/org.openhab.binding.luftdateninfo/src/test/java/org/openhab/binding/luftdateninfo/internal/HTTPHandlerValueTest.java
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@ -22,6 +22,7 @@ import org.junit.jupiter.api.Test;
import org.openhab.binding.luftdateninfo.internal.dto.SensorDataValue;
import org.openhab.binding.luftdateninfo.internal.handler.HTTPHandler;
import org.openhab.binding.luftdateninfo.internal.util.FileReader;
import org.openhab.binding.luftdateninfo.internal.utils.Constants;
/**
* The {@link HTTPHandlerValueTest} test values decoding of HTTPHandler
@ -61,9 +62,9 @@ public class HTTPHandlerValueTest {
}
private void testSensorValue(SensorDataValue s) {
if (s.getValueType().equals(HTTPHandler.TEMPERATURE)) {
if (s.getValueType().equals(Constants.TEMPERATURE)) {
assertEquals("22.70", s.getValue(), "Temperature resource 1");
} else if (s.getValueType().equals(HTTPHandler.HUMIDITY)) {
} else if (s.getValueType().equals(Constants.HUMIDITY)) {
assertEquals("61.00", s.getValue(), "Humidity resource 1");
} else {
assertTrue(false);

27
bundles/org.openhab.binding.luftdateninfo/src/test/java/org/openhab/binding/luftdateninfo/internal/PMHandlerTest.java
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@ -64,7 +64,7 @@ public class PMHandlerTest {
* Test if config status is 0 = CONFIG_OK for valid configuration. Take real int for comparison instead of
* BaseHandler constants - in case of change test needs to be adapted
*/
assertEquals(ConfigStatus.OK, pmHandler.getConfigStatus(), "Handler Configuration status");
assertEquals(ConfigStatus.EXTERNAL_SENSOR_OK, pmHandler.getConfigStatus(), "Handler Configuration status");
}
@Test
@ -161,11 +161,34 @@ public class PMHandlerTest {
HashMap<String, Object> properties = new HashMap<String, Object>();
// String sensorid taken from thing-types.xml
properties.put("sensorid", 12345);
properties.put("ipAdress", "192.168.178.1");
t.setConfiguration(properties);
PMHandlerExtension pmHandler = new PMHandlerExtension(t);
UpdateStatus result = pmHandler.updateChannels(null);
assertEquals(UpdateStatus.CONNECTION_ERROR, result, "Valid update");
}
@Test
public void testInternalPMSensor() {
ThingMock t = new ThingMock();
HashMap<String, Object> properties = new HashMap<String, Object>();
// String sensorid taken from thing-types.xml
properties.put("sensorid", 12345);
t.setConfiguration(properties);
PMHandlerExtension pmHandler = new PMHandlerExtension(t);
pmHandler.initialize();
String pmJson = FileReader.readFileInString("src/test/resources/internal-data.json");
if (pmJson != null) {
UpdateStatus result = pmHandler.updateChannels("[" + pmJson + "]");
assertEquals(UpdateStatus.OK, result, "Valid update");
assertEquals(QuantityType.valueOf(4.3, Units.MICROGRAM_PER_CUBICMETRE), pmHandler.getPM25Cache(), "PM25");
assertEquals(QuantityType.valueOf(10.5, Units.MICROGRAM_PER_CUBICMETRE), pmHandler.getPM100Cache(),
"PM100");
} else {
assertTrue(false);
}
}
}

46
bundles/org.openhab.binding.luftdateninfo/src/test/resources/internal-data.json Normal file
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@ -0,0 +1,46 @@
{
"software_version": "NRZ-2020-133",
"age": "112",
"sensordatavalues": [
{
"value_type": "SDS_P1",
"value": "10.52"
},
{
"value_type": "SDS_P2",
"value": "4.32"
},
{
"value_type": "BME280_temperature",
"value": "17.59"
},
{
"value_type": "BME280_pressure",
"value": "98680.28"
},
{
"value_type": "BME280_humidity",
"value": "57.78"
},
{
"value_type": "samples",
"value": "5070500"
},
{
"value_type": "min_micro",
"value": "28"
},
{
"value_type": "max_micro",
"value": "20091"
},
{
"value_type": "interval",
"value": "145000"
},
{
"value_type": "signal",
"value": "-81"
}
]
}