use of org.projectfloodlight.openflow.protocol.OFPortDescPropOptical in project onos by opennetworkinglab.
the class OpenFlowDeviceProvider method buildPortStatistics.
private Collection<PortStatistics> buildPortStatistics(DeviceId deviceId, List<OFPortStatsEntry> entries) {
HashSet<PortStatistics> stats = Sets.newHashSet();
final Dpid dpid = dpid(deviceId.uri());
OpenFlowSwitch sw = controller.getSwitch(dpid);
for (OFPortStatsEntry entry : entries) {
try {
if (entry == null || entry.getPortNo() == null || entry.getPortNo().getPortNumber() < 0) {
continue;
}
DefaultAnnotations.Builder annotations = DefaultAnnotations.builder();
boolean propSupported = entry.getVersion().getWireVersion() >= OFVersion.OF_14.getWireVersion();
Optional<OFPortStatsPropOptical> optical = propSupported ? entry.getProperties().stream().filter(OFPortStatsPropOptical.class::isInstance).map(OFPortStatsPropOptical.class::cast).findAny() : Optional.empty();
if (optical.isPresent()) {
long flags = optical.get().getFlags();
boolean useFreq = false;
for (OFPortDesc pd : sw.getPorts()) {
if (pd.getPortNo().equals(entry.getPortNo())) {
for (OFPortDescProp prop : pd.getProperties()) {
if (prop instanceof OFPortDescPropOptical) {
OFPortDescPropOptical oprop = (OFPortDescPropOptical) prop;
long supported = oprop.getSupported();
int useFreqVal = OFOpticalPortFeaturesSerializerVer14.USE_FREQ_VAL;
if ((supported & useFreqVal) != 0) {
useFreq = true;
break;
}
}
}
}
}
int txTune = OFPortStatsOpticalFlagsSerializerVer14.TX_TUNE_VAL;
long txFreq = optical.get().getTxFreqLmda();
long txOffset = optical.get().getTxOffset();
long txGridSpan = optical.get().getTxGridSpan();
annotations.set(AK_TX_TUNE_FEATURE, ((flags & txTune) != 0) ? "enabled" : "disabled");
annotations.set(propertyFrequency ? AK_TX_FREQ_HZ : AK_TX_LMDA_NM, freqLmdaToAnnotation(txFreq, useFreq));
annotations.set(propertyFrequency ? AK_TX_OFFSET_HZ : AK_TX_OFFSET_LMDA_NM, freqLmdaToAnnotation(txOffset, useFreq));
annotations.set(propertyFrequency ? AK_TX_GRID_SPAN_HZ : AK_TX_GRID_SPAN_LMDA_NM, freqLmdaToAnnotation(txGridSpan, useFreq));
int rxTune = OFPortStatsOpticalFlagsSerializerVer14.RX_TUNE_VAL;
long rxFreq = optical.get().getRxFreqLmda();
long rxOffset = optical.get().getRxOffset();
long rxGridSpan = optical.get().getRxGridSpan();
annotations.set(AK_RX_TUNE_FEATURE, ((flags & rxTune) != 0) ? "enabled" : "disabled");
annotations.set(propertyFrequency ? AK_RX_FREQ_HZ : AK_RX_LMDA_NM, freqLmdaToAnnotation(rxFreq, useFreq));
annotations.set(propertyFrequency ? AK_RX_OFFSET_HZ : AK_RX_OFFSET_LMDA_NM, freqLmdaToAnnotation(rxOffset, useFreq));
annotations.set(propertyFrequency ? AK_RX_GRID_SPAN_HZ : AK_RX_GRID_SPAN_LMDA_NM, freqLmdaToAnnotation(rxGridSpan, useFreq));
int txPwrVal = OFPortStatsOpticalFlagsSerializerVer14.TX_PWR_VAL;
int txPwr = optical.get().getTxPwr();
annotations.set(AK_TX_PWR_FEATURE, ((flags & txPwrVal) != 0) ? "enabled" : "disabled");
annotations.set(AK_TX_PWR, Integer.toString(txPwr));
int rxPwrVal = OFPortStatsOpticalFlagsSerializerVer14.RX_PWR_VAL;
int rxPwr = optical.get().getRxPwr();
annotations.set(AK_RX_PWR_FEATURE, ((flags & rxPwrVal) != 0) ? "enabled" : "disabled");
annotations.set(AK_RX_PWR, Integer.toString(rxPwr));
int txBias = OFPortStatsOpticalFlagsSerializerVer14.TX_BIAS_VAL;
int biasCurrent = optical.get().getBiasCurrent();
annotations.set(AK_TX_BIAS_FEATURE, ((flags & txBias) != 0) ? "enabled" : "disabled");
annotations.set(AK_BIAS_CURRENT, Integer.toString(biasCurrent));
int txTemp = OFPortStatsOpticalFlagsSerializerVer14.TX_TEMP_VAL;
int temperature = optical.get().getTemperature();
annotations.set(AK_TX_TEMP_FEATURE, ((flags & txTemp) != 0) ? "enabled" : "disabled");
annotations.set(AK_TEMPERATURE, Integer.toString(temperature));
}
DefaultPortStatistics.Builder builder = DefaultPortStatistics.builder();
DefaultPortStatistics stat = builder.setDeviceId(deviceId).setPort(PortNumber.portNumber(entry.getPortNo().getPortNumber())).setPacketsReceived(entry.getRxPackets().getValue()).setPacketsSent(entry.getTxPackets().getValue()).setBytesReceived(entry.getRxBytes().getValue()).setBytesSent(entry.getTxBytes().getValue()).setPacketsRxDropped(entry.getRxDropped().getValue()).setPacketsTxDropped(entry.getTxDropped().getValue()).setPacketsRxErrors(entry.getRxErrors().getValue()).setPacketsTxErrors(entry.getTxErrors().getValue()).setDurationSec(entry.getVersion() == OFVersion.OF_10 ? 0 : entry.getDurationSec()).setDurationNano(entry.getVersion() == OFVersion.OF_10 ? 0 : entry.getDurationNsec()).setAnnotations(annotations.build()).build();
stats.add(stat);
} catch (Exception e) {
LOG.warn("Unable to process port stats", e);
}
}
return Collections.unmodifiableSet(stats);
}
use of org.projectfloodlight.openflow.protocol.OFPortDescPropOptical in project onos by opennetworkinglab.
the class OpenFlowLambdaQuery method queryLambdas.
@Override
public Set<OchSignal> queryLambdas(PortNumber port) {
Set<OchSignal> signals = new LinkedHashSet<>();
for (OFPortDesc pd : getPortDescs()) {
if (pd.getPortNo().getPortNumber() == port.toLong()) {
for (OFPortDescProp prop : pd.getProperties()) {
if (prop instanceof OFPortDescPropOptical) {
OFPortDescPropOptical oprop = (OFPortDescPropOptical) prop;
long txMin = oprop.getTxMinFreqLmda();
long txMax = oprop.getTxMaxFreqLmda();
long txGrid = oprop.getTxGridFreqLmda();
signals.addAll(signals(txMin, txMax, txGrid));
long rxMin = oprop.getRxMinFreqLmda();
long rxMax = oprop.getRxMaxFreqLmda();
long rxGrid = oprop.getRxGridFreqLmda();
signals.addAll(signals(rxMin, rxMax, rxGrid));
}
}
}
}
return signals;
}
use of org.projectfloodlight.openflow.protocol.OFPortDescPropOptical in project onos by opennetworkinglab.
the class OpenFlowPowerConfig method getTargetPowerRange.
@Override
public Optional<Range<Double>> getTargetPowerRange(PortNumber port, T component) {
for (OFPortDesc pd : getPortDescs()) {
if (pd.getPortNo().getPortNumber() == port.toLong()) {
for (OFPortDescProp prop : pd.getProperties()) {
if (prop instanceof OFPortDescPropOptical) {
OFPortDescPropOptical oprop = (OFPortDescPropOptical) prop;
double txMin = oprop.getTxPwrMin();
double txMax = oprop.getTxPwrMax();
return Optional.of(Range.closed(txMin, txMax));
}
}
}
}
return Optional.empty();
}
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