use of com.alliander.osgp.dto.valueobjects.RelayDataDto in project Protocol-Adapter-IEC61850 by OSGP.
the class Iec61850PowerUsageHistoryCommand method getPowerUsageHistoryDataFromRelay.
private List<PowerUsageDataDto> getPowerUsageHistoryDataFromRelay(final Iec61850Client iec61850Client, final DeviceConnection deviceConnection, final TimePeriodDto timePeriod, final DeviceOutputSetting deviceOutputSetting, final DeviceMessageLog deviceMessageLog) throws NodeReadException {
final List<PowerUsageDataDto> powerUsageHistoryDataFromRelay = new ArrayList<>();
final int relayIndex = deviceOutputSetting.getExternalId();
final LogicalNode logicalNode = LogicalNode.getSwitchComponentByIndex(deviceOutputSetting.getInternalId());
final NodeContainer onIntervalBuffer = deviceConnection.getFcModelNode(LogicalDevice.LIGHTING, logicalNode, DataAttribute.SWITCH_ON_INTERVAL_BUFFER, Fc.ST);
iec61850Client.readNodeDataValues(deviceConnection.getConnection().getClientAssociation(), onIntervalBuffer.getFcmodelNode());
final Short lastIndex = onIntervalBuffer.getUnsignedByte(SubDataAttribute.LAST_INDEX).getValue();
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.SWITCH_ON_INTERVAL_BUFFER, Fc.ST, SubDataAttribute.LAST_INDEX, lastIndex.toString());
/*
* Last index is the last index written in the 60-entry buffer. When the
* last buffer entry is written, the next entry will be placed at the
* first position in the buffer (cyclically). To preserve the order of
* entries written in the response, iteration starts with the next index
* (oldest entry) and loops from there.
*/
final int numberOfEntries = 60;
final int idxOldest = (lastIndex + 1) % numberOfEntries;
for (int i = 0; i < numberOfEntries; i++) {
final int bufferIndex = (idxOldest + i) % numberOfEntries;
final NodeContainer indexedItvNode = onIntervalBuffer.getChild(SubDataAttribute.INTERVAL.getDescription() + (bufferIndex + 1));
LOGGER.info("device: {}, itv{}: {}", deviceConnection.getDeviceIdentification(), bufferIndex + 1, indexedItvNode);
final Integer itvNode = indexedItvNode.getInteger(SubDataAttribute.INTERVAL).getValue();
LOGGER.info("device: {}, itv{}.itv: {}", deviceConnection.getDeviceIdentification(), bufferIndex + 1, itvNode);
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.SWITCH_ON_INTERVAL_BUFFER, Fc.ST, SubDataAttribute.INTERVAL, SubDataAttribute.INTERVAL, itvNode + "");
final DateTime date = new DateTime(indexedItvNode.getDate(SubDataAttribute.DAY));
LOGGER.info("device: {}, itv{}.day: {}", deviceConnection.getDeviceIdentification(), bufferIndex + 1, date);
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.SWITCH_ON_INTERVAL_BUFFER, Fc.ST, SubDataAttribute.INTERVAL, SubDataAttribute.DAY, itvNode + "");
final int totalMinutesOnForDate = itvNode;
final boolean includeEntryInResponse = this.timePeriodContainsDateTime(timePeriod, date, deviceConnection.getDeviceIdentification(), relayIndex, bufferIndex);
if (!includeEntryInResponse) {
continue;
}
// MeterType.AUX hard-coded (not supported).
final PowerUsageDataDto powerUsageData = new PowerUsageDataDto(date, MeterTypeDto.AUX, 0, 0);
final List<RelayDataDto> relayDataList = new ArrayList<>();
final RelayDataDto relayData = new RelayDataDto(relayIndex, totalMinutesOnForDate);
relayDataList.add(relayData);
final SsldDataDto ssldData = new SsldDataDto(0, 0, 0, 0, 0, 0, 0, 0, 0, relayDataList);
powerUsageData.setSsldData(ssldData);
powerUsageHistoryDataFromRelay.add(powerUsageData);
}
DeviceMessageLoggingService.logMessage(deviceMessageLog, deviceConnection.getDeviceIdentification(), deviceConnection.getOrganisationIdentification(), false);
return powerUsageHistoryDataFromRelay;
}
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