Example 1 with AnalogInput
use of com.automatak.dnp3.AnalogInput in project solarnetwork-node by SolarNetwork.
the class OutstationService method changeSetForDatumCapturedEvent.
private OutstationChangeSet changeSetForDatumCapturedEvent(final Datum datum, final Event event) {
Map<MeasurementType, List<MeasurementConfig>> map = measurementTypeMap(getMeasurementConfigs());
Map<ControlType, List<ControlConfig>> controlMap = controlTypeMap(getControlConfigs());
if (datum == null || ((map == null || map.isEmpty()) && (controlMap == null || controlMap.isEmpty()))) {
return null;
}
final String sourceId = datum.getSourceId();
final Instant timestamp = datum.getTimestamp();
if (timestamp == null) {
return null;
}
final long ts = timestamp.toEpochMilli();
final Map<String, ?> datumProps = datum.getSampleData();
OutstationChangeSet changes = null;
if (map != null) {
for (Map.Entry<MeasurementType, List<MeasurementConfig>> me : map.entrySet()) {
MeasurementType type = me.getKey();
List<MeasurementConfig> list = me.getValue();
for (ListIterator<MeasurementConfig> itr = list.listIterator(); itr.hasNext(); ) {
MeasurementConfig config = itr.next();
if (sourceId.equals(config.getSourceId())) {
Object propVal = datumProps.get(config.getPropertyName());
if (propVal != null) {
if (propVal instanceof Number) {
if (config.getUnitMultiplier() != null) {
propVal = applyUnitMultiplier((Number) propVal, config.getUnitMultiplier());
}
if (config.getDecimalScale() >= 0) {
propVal = applyDecimalScale((Number) propVal, config.getDecimalScale());
}
}
if (changes == null) {
changes = new OutstationChangeSet();
}
log.debug("Updating DNP3 {}[{}] from [{}].{} -> {}", type, itr.previousIndex(), sourceId, config.getPropertyName(), propVal);
switch(type) {
case AnalogInput:
if (propVal instanceof Number) {
changes.update(new AnalogInput(((Number) propVal).doubleValue(), (byte) AnalogQuality.ONLINE.toType(), ts), itr.previousIndex());
}
break;
case AnalogOutputStatus:
if (propVal instanceof Number) {
changes.update(new AnalogOutputStatus(((Number) propVal).doubleValue(), (byte) AnalogOutputStatusQuality.ONLINE.toType(), ts), itr.previousIndex());
}
break;
case BinaryInput:
changes.update(new BinaryInput(booleanPropertyValue(propVal), (byte) BinaryQuality.ONLINE.toType(), ts), itr.previousIndex());
break;
case BinaryOutputStatus:
changes.update(new BinaryOutputStatus(booleanPropertyValue(propVal), (byte) BinaryOutputStatusQuality.ONLINE.toType(), ts), itr.previousIndex());
break;
case Counter:
if (propVal instanceof Number) {
changes.update(new Counter(((Number) propVal).longValue(), (byte) CounterQuality.ONLINE.toType(), ts), itr.previousIndex());
}
break;
case DoubleBitBinaryInput:
changes.update(new DoubleBitBinaryInput(booleanPropertyValue(propVal) ? DoubleBit.DETERMINED_ON : DoubleBit.DETERMINED_OFF, (byte) DoubleBitBinaryQuality.ONLINE.toType(), ts), itr.previousIndex());
break;
case FrozenCounter:
if (propVal instanceof Number) {
changes.update(new FrozenCounter(((Number) propVal).longValue(), (byte) FrozenCounterQuality.ONLINE.toType(), ts), itr.previousIndex());
}
break;
}
}
}
}
}
if (controlMap != null) {
int analogStatusOffset = typeConfigCount(MeasurementType.AnalogOutputStatus, map);
int binaryStatusOffset = typeConfigCount(MeasurementType.BinaryOutputStatus, map);
for (Map.Entry<ControlType, List<ControlConfig>> me : controlMap.entrySet()) {
ControlType type = me.getKey();
List<ControlConfig> list = me.getValue();
for (ListIterator<ControlConfig> itr = list.listIterator(); itr.hasNext(); ) {
ControlConfig config = itr.next();
if (sourceId.equals(config.getControlId())) {
if (changes == null) {
changes = new OutstationChangeSet();
}
int index = (type == ControlType.Analog ? analogStatusOffset : binaryStatusOffset) + itr.previousIndex();
Object propVal = datumProps.get("value");
log.debug("Updating DNP3 control {}[{}] from [{}].value -> {}", type, index, sourceId, propVal);
switch(type) {
case Analog:
try {
Number n = null;
if (propVal instanceof Number) {
n = (Number) propVal;
} else {
n = new BigDecimal(propVal.toString());
}
changes.update(new AnalogOutputStatus(n.doubleValue(), (byte) AnalogOutputStatusQuality.ONLINE.toType(), ts), index);
} catch (NumberFormatException e) {
log.warn("Cannot convert control [{}] value [{}] to number: {}", sourceId, propVal, e.getMessage());
}
break;
case Binary:
changes.update(new BinaryOutputStatus(booleanPropertyValue(propVal), (byte) BinaryOutputStatusQuality.ONLINE.toType(), ts), index);
break;
}
}
}
}
}
}
return changes;
}
Also used :
AnalogInput(com.automatak.dnp3.AnalogInput)
Counter(com.automatak.dnp3.Counter)
FrozenCounter(com.automatak.dnp3.FrozenCounter)
DoubleBitBinaryInput(com.automatak.dnp3.DoubleBitBinaryInput)
MeasurementType(net.solarnetwork.node.io.dnp3.domain.MeasurementType)
List(java.util.List)
ArrayList(java.util.ArrayList)
BinaryOutputStatus(com.automatak.dnp3.BinaryOutputStatus)
MeasurementConfig(net.solarnetwork.node.io.dnp3.domain.MeasurementConfig)
BinaryInput(com.automatak.dnp3.BinaryInput)
DoubleBitBinaryInput(com.automatak.dnp3.DoubleBitBinaryInput)
ControlConfig(net.solarnetwork.node.io.dnp3.domain.ControlConfig)
Instant(java.time.Instant)
BigDecimal(java.math.BigDecimal)
OutstationChangeSet(com.automatak.dnp3.OutstationChangeSet)
FrozenCounter(com.automatak.dnp3.FrozenCounter)
ControlType(net.solarnetwork.node.io.dnp3.domain.ControlType)
Map(java.util.Map)
LinkedHashMap(java.util.LinkedHashMap)
AnalogOutputStatus(com.automatak.dnp3.AnalogOutputStatus)
Example 2 with AnalogInput
use of com.automatak.dnp3.AnalogInput in project solarnetwork-node by SolarNetwork.
the class OutstationService method createEventBufferConfig.
private EventBufferConfig createEventBufferConfig(Map<MeasurementType, List<MeasurementConfig>> configs, Map<ControlType, List<ControlConfig>> controlConfigs) {
EventBufferConfig config = EventBufferConfig.allTypes(0);
final int size = getEventBufferSize();
if (configs != null) {
for (Map.Entry<MeasurementType, List<MeasurementConfig>> me : configs.entrySet()) {
MeasurementType type = me.getKey();
List<MeasurementConfig> list = me.getValue();
if (type == null || list == null || list.isEmpty()) {
continue;
}
switch(type) {
case AnalogInput:
config.maxAnalogEvents = size;
break;
case AnalogOutputStatus:
config.maxAnalogOutputStatusEvents = size;
break;
case BinaryInput:
config.maxBinaryEvents = size;
break;
case BinaryOutputStatus:
config.maxBinaryOutputStatusEvents = size;
break;
case Counter:
config.maxCounterEvents = size;
break;
case DoubleBitBinaryInput:
config.maxDoubleBinaryEvents = size;
break;
case FrozenCounter:
config.maxFrozenCounterEvents = size;
break;
}
}
}
if (controlConfigs != null) {
for (Map.Entry<ControlType, List<ControlConfig>> me : controlConfigs.entrySet()) {
ControlType type = me.getKey();
List<ControlConfig> list = me.getValue();
if (type == null || list == null || list.isEmpty()) {
continue;
}
switch(type) {
case Analog:
config.maxAnalogOutputStatusEvents = size;
break;
case Binary:
config.maxBinaryOutputStatusEvents = size;
break;
}
}
}
return config;
}
Also used :
EventBufferConfig(com.automatak.dnp3.EventBufferConfig)
MeasurementConfig(net.solarnetwork.node.io.dnp3.domain.MeasurementConfig)
ControlConfig(net.solarnetwork.node.io.dnp3.domain.ControlConfig)
MeasurementType(net.solarnetwork.node.io.dnp3.domain.MeasurementType)
List(java.util.List)
ArrayList(java.util.ArrayList)
ControlType(net.solarnetwork.node.io.dnp3.domain.ControlType)
Map(java.util.Map)
LinkedHashMap(java.util.LinkedHashMap)
Example 3 with AnalogInput
use of com.automatak.dnp3.AnalogInput in project solarnetwork-node by SolarNetwork.
the class OutstationService method createDatabaseConfig.
private DatabaseConfig createDatabaseConfig(Map<MeasurementType, List<MeasurementConfig>> configs, Map<ControlType, List<ControlConfig>> controlConfigs) {
int analogCount = 0;
int aoStatusCount = 0;
int binaryCount = 0;
int boStatusCount = 0;
int counterCount = 0;
int doubleBinaryCount = 0;
int frozenCounterCount = 0;
StringBuilder infoBuf = new StringBuilder();
if (configs != null) {
for (Map.Entry<MeasurementType, List<MeasurementConfig>> me : configs.entrySet()) {
MeasurementType type = me.getKey();
List<MeasurementConfig> list = me.getValue();
if (type == null || list == null || list.isEmpty()) {
continue;
}
switch(type) {
case AnalogInput:
analogCount = list.size();
appendMeasurementInfos(infoBuf, type, list);
break;
case AnalogOutputStatus:
aoStatusCount = list.size();
break;
case BinaryInput:
binaryCount = list.size();
appendMeasurementInfos(infoBuf, type, list);
break;
case BinaryOutputStatus:
boStatusCount = list.size();
break;
case Counter:
counterCount = list.size();
appendMeasurementInfos(infoBuf, type, list);
break;
case DoubleBitBinaryInput:
doubleBinaryCount = list.size();
appendMeasurementInfos(infoBuf, type, list);
break;
case FrozenCounter:
frozenCounterCount = list.size();
appendMeasurementInfos(infoBuf, type, list);
break;
}
}
}
if (controlConfigs != null) {
for (Map.Entry<ControlType, List<ControlConfig>> me : controlConfigs.entrySet()) {
ControlType type = me.getKey();
List<ControlConfig> list = me.getValue();
if (type == null || list == null || list.isEmpty()) {
continue;
}
switch(type) {
case Analog:
appendControlInfos(infoBuf, type, list, aoStatusCount);
aoStatusCount += list.size();
break;
case Binary:
appendControlInfos(infoBuf, type, list, boStatusCount);
boStatusCount += list.size();
break;
}
}
}
log.info("DNP3 outstation [{}] database configured with following registers:\n{}", getUid(), infoBuf);
return new DatabaseConfig(binaryCount, doubleBinaryCount, analogCount, counterCount, frozenCounterCount, boStatusCount, aoStatusCount);
}
Also used :
MeasurementConfig(net.solarnetwork.node.io.dnp3.domain.MeasurementConfig)
ControlConfig(net.solarnetwork.node.io.dnp3.domain.ControlConfig)
MeasurementType(net.solarnetwork.node.io.dnp3.domain.MeasurementType)
List(java.util.List)
ArrayList(java.util.ArrayList)
ControlType(net.solarnetwork.node.io.dnp3.domain.ControlType)
Map(java.util.Map)
LinkedHashMap(java.util.LinkedHashMap)
DatabaseConfig(com.automatak.dnp3.DatabaseConfig)
Aggregations
ArrayList (java.util.ArrayList)3
LinkedHashMap (java.util.LinkedHashMap)3
List (java.util.List)3
Map (java.util.Map)3
ControlConfig (net.solarnetwork.node.io.dnp3.domain.ControlConfig)3
ControlType (net.solarnetwork.node.io.dnp3.domain.ControlType)3
MeasurementConfig (net.solarnetwork.node.io.dnp3.domain.MeasurementConfig)3
MeasurementType (net.solarnetwork.node.io.dnp3.domain.MeasurementType)3
AnalogInput (com.automatak.dnp3.AnalogInput)1
AnalogOutputStatus (com.automatak.dnp3.AnalogOutputStatus)1
BinaryInput (com.automatak.dnp3.BinaryInput)1
BinaryOutputStatus (com.automatak.dnp3.BinaryOutputStatus)1
Counter (com.automatak.dnp3.Counter)1
DatabaseConfig (com.automatak.dnp3.DatabaseConfig)1
DoubleBitBinaryInput (com.automatak.dnp3.DoubleBitBinaryInput)1
EventBufferConfig (com.automatak.dnp3.EventBufferConfig)1
FrozenCounter (com.automatak.dnp3.FrozenCounter)1
OutstationChangeSet (com.automatak.dnp3.OutstationChangeSet)1
BigDecimal (java.math.BigDecimal)1
Instant (java.time.Instant)1
