private PortDescription buildPortDescription(PortDescPropertyType ptype, OFObject port, OpenFlowOpticalSwitch opsw) { if (port instanceof OFPortOptical) { return buildPortDescription(ptype, (OFPortOptical) port, opsw); } return buildPortDescription(ptype, (OFExpPort) port); }
private PortDescription buildPortDescription(PortDescPropertyType ptype, OFObject port) { if (port instanceof OFPortOptical) { return buildPortDescription(ptype, (OFPortOptical) port); } return buildPortDescription(ptype, (OFExpPort) port); }
/** * Build a portDescription from a given a port description describing some * Optical port. * * @param ptype description property type. * @param port the port to build from. * @return portDescription for the port. */ private PortDescription buildPortDescription(PortDescPropertyType ptype, OFExpPort port) { PortNumber portNo = PortNumber.portNumber(port.getPortNo().getPortNumber()); boolean enabled = !port.getState().contains(OFPortState.LINK_DOWN) && !port.getConfig().contains(OFPortConfig.PORT_DOWN); SparseAnnotations annotations = makePortAnnotation(port.getName(), port.getHwAddr().toString()); OFExpPortDescPropOpticalTransport firstProp = port.getProperties().get(0); OFPortOpticalTransportSignalType sigType = firstProp.getPortSignalType(); PortDescription portDes = null; switch (sigType) { case OMSN: portDes = omsPortDescription(portNo, enabled, FREQ191_7, FREQ191_7.add(FREQ4_4), FREQ50, annotations); break; case OCH: OFExpPortOpticalTransportLayerEntry entry = firstProp.getFeatures().get(0).getValue().get(0); OFPortOpticalTransportLayerClass layerClass = entry.getLayerClass(); if (!OFPortOpticalTransportLayerClass.ODU.equals(layerClass)) { LOG.error("Unsupported layer Class {} ", layerClass); return null; } // convert to ONOS OduSignalType OduSignalType oduSignalType = OpenFlowDeviceValueMapper. lookupOduSignalType((byte) entry.getSignalType()); //OchSignal is needed for OchPortDescription constructor, //yet not relevant for tunable OCH port, creating with default parameters OchSignal signalId = new OchSignal(GridType.DWDM, ChannelSpacing.CHL_50GHZ, 1, 1); portDes = ochPortDescription(portNo, enabled, oduSignalType, true, signalId, annotations); break; case OTU2: case OTU4: entry = firstProp.getFeatures().get(0).getValue().get(0); layerClass = entry.getLayerClass(); if (!OFPortOpticalTransportLayerClass.ODU.equals(layerClass)) { LOG.error("Unsupported layer Class {} ", layerClass); return null; } // convert to ONOS OduSignalType OduSignalType oduSignalTypeOtuPort = OpenFlowDeviceValueMapper. lookupOduSignalType((byte) entry.getSignalType()); if (!matchingOtuPortSignalTypes(sigType, oduSignalTypeOtuPort)) { LOG.error("Wrong oduSignalType {} for OTU Port sigType {} ", oduSignalTypeOtuPort, sigType); return null; } OtuSignalType otuSignalType = ((sigType == OFPortOpticalTransportSignalType.OTU2) ? OtuSignalType.OTU2 : OtuSignalType.OTU4); portDes = otuPortDescription(portNo, enabled, otuSignalType, annotations); break; default: break; } return portDes; }
/** * Build a portDescription from a given a port description describing some * Optical port. * * @param ptype description property type. * @param port the port to build from. * @return portDescription for the port. */ private PortDescription buildPortDescription(PortDescPropertyType ptype, OFExpPort port) { PortNumber portNo = PortNumber.portNumber(port.getPortNo().getPortNumber()); boolean enabled = !port.getState().contains(OFPortState.LINK_DOWN) && !port.getConfig().contains(OFPortConfig.PORT_DOWN); boolean adminDown = port.getConfig().contains(OFPortConfig.PORT_DOWN); SparseAnnotations annotations = makePortAnnotation(port.getName(), port.getHwAddr().toString(), adminDown).build(); OFExpPortDescPropOpticalTransport firstProp = port.getProperties().get(0); OFPortOpticalTransportSignalType sigType = firstProp.getPortSignalType(); PortDescription portDes = null; switch (sigType) { case OMSN: portDes = omsPortDescription(portNo, enabled, FREQ191_7, FREQ191_7.add(FREQ4_4), FREQ50, annotations); break; case OCH: OFExpPortOpticalTransportLayerEntry entry = firstProp.getFeatures().get(0).getValue().get(0); OFPortOpticalTransportLayerClass layerClass = entry.getLayerClass(); if (!OFPortOpticalTransportLayerClass.ODU.equals(layerClass)) { LOG.error("Unsupported layer Class {} ", layerClass); return null; } // convert to ONOS OduSignalType OduSignalType oduSignalType = OpenFlowDeviceValueMapper. lookupOduSignalType((byte) entry.getSignalType()); //OchSignal is needed for OchPortDescription constructor, //yet not relevant for tunable OCH port, creating with default parameters OchSignal signalId = new OchSignal(GridType.DWDM, ChannelSpacing.CHL_50GHZ, 1, 1); portDes = ochPortDescription(portNo, enabled, oduSignalType, true, signalId, annotations); break; case OTU2: case OTU4: entry = firstProp.getFeatures().get(0).getValue().get(0); layerClass = entry.getLayerClass(); if (!OFPortOpticalTransportLayerClass.ODU.equals(layerClass)) { LOG.error("Unsupported layer Class {} ", layerClass); return null; } // convert to ONOS OduSignalType OduSignalType oduSignalTypeOtuPort = OpenFlowDeviceValueMapper. lookupOduSignalType((byte) entry.getSignalType()); if (!matchingOtuPortSignalTypes(sigType, oduSignalTypeOtuPort)) { LOG.error("Wrong oduSignalType {} for OTU Port sigType {} ", oduSignalTypeOtuPort, sigType); return null; } OtuSignalType otuSignalType = ((sigType == OFPortOpticalTransportSignalType.OTU2) ? OtuSignalType.OTU2 : OtuSignalType.OTU4); portDes = otuPortDescription(portNo, enabled, otuSignalType, annotations); break; default: break; } return portDes; }
