use of org.opensmartgridplatform.adapter.protocol.iec61850.infra.networking.helper.DeviceConnection in project open-smart-grid-platform by OSGP.
the class Iec61850MaximumActualPowerCommand method execute.
@Override
public MeasurementDto execute(final Iec61850Client client, final DeviceConnection connection, final LogicalDevice logicalDevice, final int logicalDeviceIndex) throws NodeException {
final NodeContainer containingNode = connection.getFcModelNode(logicalDevice, logicalDeviceIndex, LogicalNode.MEASUREMENT_ONE, DataAttribute.MAX_ACTUAL_POWER, Fc.MX);
client.readNodeDataValues(connection.getConnection().getClientAssociation(), containingNode.getFcmodelNode());
return this.translate(containingNode);
}
use of org.opensmartgridplatform.adapter.protocol.iec61850.infra.networking.helper.DeviceConnection in project open-smart-grid-platform by OSGP.
the class Iec61850EnableReportingCommand method enableBufferedReportingOnDeviceWithoutUsingSequenceNumber.
/**
* Enable reporting so the SSLD can send reports. This version of the function does not use the
* 'sequence number' to filter incoming reports. When using the {@link Iec61850ClearReportCommand}
* the 'sequence number' will always be reset to 0.
*
* @throws NodeException In case writing of data-attributes fails.
*/
public void enableBufferedReportingOnDeviceWithoutUsingSequenceNumber(final DeviceConnection deviceConnection) throws NodeException {
final NodeContainer reporting = deviceConnection.getFcModelNode(LogicalDevice.LIGHTING, LogicalNode.LOGICAL_NODE_ZERO, DataAttribute.REPORTING, Fc.BR);
final Iec61850ClientBaseEventListener reportListener = deviceConnection.getConnection().getIec61850ClientAssociation().getReportListener();
reportListener.setSqNum(0);
reporting.writeBoolean(SubDataAttribute.ENABLE_REPORTING, true);
LOGGER.info("Allowing device {} to send buffered reports containing events", deviceConnection.getDeviceIdentification());
}
use of org.opensmartgridplatform.adapter.protocol.iec61850.infra.networking.helper.DeviceConnection in project open-smart-grid-platform by OSGP.
the class Iec61850GetConfigurationCommand method getConfigurationFromDevice.
public ConfigurationDto getConfigurationFromDevice(final Iec61850Client iec61850Client, final DeviceConnection deviceConnection, final Ssld ssld, final Iec61850Mapper mapper) throws ProtocolAdapterException {
final Function<ConfigurationDto> function = new Function<ConfigurationDto>() {
@Override
public ConfigurationDto apply(final DeviceMessageLog deviceMessageLog) throws ProtocolAdapterException {
// Keeping the hardcoded values and values that aren't fetched
// from the device out of the Function.
final LinkTypeDto preferredLinkType = LinkTypeDto.ETHERNET;
// Map the relay configuration.
final List<RelayMapDto> relayMaps = new ArrayList<>();
for (final DeviceOutputSetting deviceOutputSetting : ssld.getOutputSettings()) {
Iec61850GetConfigurationCommand.this.checkRelayType(iec61850Client, deviceConnection, deviceOutputSetting, deviceMessageLog);
relayMaps.add(mapper.map(deviceOutputSetting, RelayMapDto.class));
}
// Sort the relay configuration on index.
Collections.sort(relayMaps, (o1, o2) -> o1.getIndex().compareTo(o2.getIndex()));
final RelayConfigurationDto relayConfiguration = new RelayConfigurationDto(relayMaps);
// PSLD specific => just sending null so it'll be ignored
final DaliConfigurationDto daliConfiguration = null;
// getting the software configuration values
LOGGER.info("Reading the software configuration values");
final NodeContainer softwareConfiguration = deviceConnection.getFcModelNode(LogicalDevice.LIGHTING, LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.SOFTWARE_CONFIGURATION, Fc.CF);
iec61850Client.readNodeDataValues(deviceConnection.getConnection().getClientAssociation(), softwareConfiguration.getFcmodelNode());
String lightTypeValue = softwareConfiguration.getString(SubDataAttribute.LIGHT_TYPE);
// Fix for Kaifa bug KI-31
if (lightTypeValue == null || lightTypeValue.isEmpty()) {
lightTypeValue = "RELAY";
}
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.SOFTWARE_CONFIGURATION, Fc.CF, SubDataAttribute.LIGHT_TYPE, lightTypeValue);
final LightTypeDto lightType = LightTypeDto.valueOf(lightTypeValue);
final short astroGateSunRiseOffset = softwareConfiguration.getShort(SubDataAttribute.ASTRONOMIC_SUNRISE_OFFSET).getValue();
final short astroGateSunSetOffset = softwareConfiguration.getShort(SubDataAttribute.ASTRONOMIC_SUNSET_OFFSET).getValue();
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.SOFTWARE_CONFIGURATION, Fc.CF, SubDataAttribute.ASTRONOMIC_SUNRISE_OFFSET, Short.toString(astroGateSunRiseOffset));
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.SOFTWARE_CONFIGURATION, Fc.CF, SubDataAttribute.ASTRONOMIC_SUNSET_OFFSET, Short.toString(astroGateSunSetOffset));
final ConfigurationDto configuration = ConfigurationDto.newBuilder().withLightType(lightType).withDaliConfiguration(daliConfiguration).withRelayConfiguration(relayConfiguration).withPreferredLinkType(preferredLinkType).build();
// getting the registration configuration values
LOGGER.info("Reading the registration configuration values");
final NodeContainer registration = deviceConnection.getFcModelNode(LogicalDevice.LIGHTING, LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.REGISTRATION, Fc.CF);
iec61850Client.readNodeDataValues(deviceConnection.getConnection().getClientAssociation(), registration.getFcmodelNode());
final String serverAddress = registration.getString(SubDataAttribute.SERVER_ADDRESS);
final int serverPort = registration.getInteger(SubDataAttribute.SERVER_PORT).getValue();
configuration.setOsgpIpAddress(serverAddress);
configuration.setOsgpPortNumber(serverPort);
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.REGISTRATION, Fc.CF, SubDataAttribute.SERVER_ADDRESS, serverAddress);
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.REGISTRATION, Fc.CF, SubDataAttribute.SERVER_PORT, Integer.toString(serverPort));
// getting the IP configuration values
LOGGER.info("Reading the IP configuration values");
final NodeContainer ipConfiguration = deviceConnection.getFcModelNode(LogicalDevice.LIGHTING, LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.IP_CONFIGURATION, Fc.CF);
iec61850Client.readNodeDataValues(deviceConnection.getConnection().getClientAssociation(), ipConfiguration.getFcmodelNode());
final String deviceFixedIpAddress = ipConfiguration.getString(SubDataAttribute.IP_ADDRESS);
final String deviceFixedIpNetmask = ipConfiguration.getString(SubDataAttribute.NETMASK);
final String deviceFixedIpGateway = ipConfiguration.getString(SubDataAttribute.GATEWAY);
final boolean isDhcpEnabled = ipConfiguration.getBoolean(SubDataAttribute.ENABLE_DHCP).getValue();
final DeviceFixedIpDto deviceFixedIp = new DeviceFixedIpDto(deviceFixedIpAddress, deviceFixedIpNetmask, deviceFixedIpGateway);
configuration.setDeviceFixedIp(deviceFixedIp);
configuration.setDhcpEnabled(isDhcpEnabled);
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.IP_CONFIGURATION, Fc.CF, SubDataAttribute.IP_ADDRESS, deviceFixedIpAddress);
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.IP_CONFIGURATION, Fc.CF, SubDataAttribute.NETMASK, deviceFixedIpNetmask);
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.IP_CONFIGURATION, Fc.CF, SubDataAttribute.GATEWAY, deviceFixedIpGateway);
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.IP_CONFIGURATION, Fc.CF, SubDataAttribute.ENABLE_DHCP, Boolean.toString(isDhcpEnabled));
// setting the software configuration values
configuration.setAstroGateSunRiseOffset((int) astroGateSunRiseOffset);
configuration.setAstroGateSunSetOffset((int) astroGateSunSetOffset);
// getting the clock configuration values
LOGGER.info("Reading the clock configuration values");
final NodeContainer clock = deviceConnection.getFcModelNode(LogicalDevice.LIGHTING, LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.CLOCK, Fc.CF);
iec61850Client.readNodeDataValues(deviceConnection.getConnection().getClientAssociation(), clock.getFcmodelNode());
final int timeSyncFrequency = clock.getUnsignedShort(SubDataAttribute.TIME_SYNC_FREQUENCY).getValue();
final boolean automaticSummerTimingEnabled = clock.getBoolean(SubDataAttribute.AUTOMATIC_SUMMER_TIMING_ENABLED).getValue();
final String summerTimeDetails = clock.getString(SubDataAttribute.SUMMER_TIME_DETAILS);
final String winterTimeDetails = clock.getString(SubDataAttribute.WINTER_TIME_DETAILS);
final String ntpHost = clock.getString(SubDataAttribute.NTP_HOST);
final boolean ntpEnabled = clock.getBoolean(SubDataAttribute.NTP_ENABLED).getValue();
final int ntpSyncInterval = clock.getUnsignedShort(SubDataAttribute.NTP_SYNC_INTERVAL).getValue();
configuration.setTimeSyncFrequency(timeSyncFrequency);
configuration.setAutomaticSummerTimingEnabled(automaticSummerTimingEnabled);
configuration.setSummerTimeDetails(new DaylightSavingTimeTransition(TIME_ZONE_AMSTERDAM, summerTimeDetails).getDateTimeForNextTransition().toDateTime(DateTimeZone.UTC));
configuration.setWinterTimeDetails(new DaylightSavingTimeTransition(TIME_ZONE_AMSTERDAM, winterTimeDetails).getDateTimeForNextTransition().toDateTime(DateTimeZone.UTC));
configuration.setNtpHost(ntpHost);
configuration.setNtpEnabled(ntpEnabled);
configuration.setNtpSyncInterval(ntpSyncInterval);
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.CLOCK, Fc.CF, SubDataAttribute.TIME_SYNC_FREQUENCY, Integer.toString(timeSyncFrequency));
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.CLOCK, Fc.CF, SubDataAttribute.AUTOMATIC_SUMMER_TIMING_ENABLED, Boolean.toString(automaticSummerTimingEnabled));
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.CLOCK, Fc.CF, SubDataAttribute.SUMMER_TIME_DETAILS, summerTimeDetails);
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.CLOCK, Fc.CF, SubDataAttribute.WINTER_TIME_DETAILS, winterTimeDetails);
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.CLOCK, Fc.CF, SubDataAttribute.NTP_HOST, ntpHost);
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.CLOCK, Fc.CF, SubDataAttribute.NTP_ENABLED, String.valueOf(ntpEnabled));
deviceMessageLog.addVariable(LogicalNode.STREET_LIGHT_CONFIGURATION, DataAttribute.CLOCK, Fc.CF, SubDataAttribute.NTP_SYNC_INTERVAL, String.valueOf(ntpSyncInterval));
Iec61850GetConfigurationCommand.this.loggingService.logMessage(deviceMessageLog, deviceConnection.getDeviceIdentification(), deviceConnection.getOrganisationIdentification(), false);
return configuration;
}
};
return iec61850Client.sendCommandWithRetry(function, "GetConfiguration", deviceConnection.getDeviceIdentification());
}
use of org.opensmartgridplatform.adapter.protocol.iec61850.infra.networking.helper.DeviceConnection in project open-smart-grid-platform by OSGP.
the class Iec61850HealthCommand method execute.
@Override
public MeasurementDto execute(final Iec61850Client client, final DeviceConnection connection, final LogicalDevice logicalDevice, final int logicalDeviceIndex) throws NodeException {
final NodeContainer containingNode = connection.getFcModelNode(logicalDevice, logicalDeviceIndex, LogicalNode.LOGICAL_NODE_ZERO, DataAttribute.HEALTH, Fc.ST);
client.readNodeDataValues(connection.getConnection().getClientAssociation(), containingNode.getFcmodelNode());
return this.translate(containingNode);
}
use of org.opensmartgridplatform.adapter.protocol.iec61850.infra.networking.helper.DeviceConnection in project open-smart-grid-platform by OSGP.
the class Iec61850LoadActualPowerCommand method execute.
@Override
public MeasurementDto execute(final Iec61850Client client, final DeviceConnection connection, final LogicalDevice logicalDevice, final int logicalDeviceIndex) throws NodeException {
final NodeContainer containingNode = connection.getFcModelNode(logicalDevice, logicalDeviceIndex, this.logicalNode, DataAttribute.ACTUAL_POWER, Fc.MX);
client.readNodeDataValues(connection.getConnection().getClientAssociation(), containingNode.getFcmodelNode());
return this.translate(containingNode);
}
Aggregations