use of org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.interfaces.rev140508.interfaces.InterfaceKey in project netvirt by opendaylight.
the class ElanServiceProvider method deleteIetfInterface.
private void deleteIetfInterface(String interfaceName) {
InterfaceKey interfaceKey = new InterfaceKey(interfaceName);
InstanceIdentifier<Interface> interfaceInstanceIdentifier = InstanceIdentifier.builder(Interfaces.class).child(Interface.class, interfaceKey).build();
MDSALUtil.syncDelete(broker, LogicalDatastoreType.CONFIGURATION, interfaceInstanceIdentifier);
LOG.debug("Deleting IETF interface {}", interfaceName);
}
use of org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.interfaces.rev140508.interfaces.InterfaceKey in project netvirt by opendaylight.
the class ConfigurationClassifierImpl method buildEntries.
private Set<ClassifierRenderableEntry> buildEntries(String ruleName, @NonNull List<String> interfaces, @NonNull Matches matches, @NonNull RenderedServicePath rsp) {
String rspName = rsp.getName().getValue();
Long nsp = rsp.getPathId();
Short nsi = rsp.getStartingIndex();
Short nsl = rsp.getRenderedServicePathHop() == null ? null : (short) rsp.getRenderedServicePathHop().size();
if (nsp == null || nsi == null || nsl == null) {
LOG.warn("Ace {} RSP {} ignored: no valid NSI or NSP or length", ruleName, rspName);
return Collections.emptySet();
}
DpnIdType firstHopDpn = sfcProvider.getFirstHopIngressInterfaceFromRsp(rsp).flatMap(geniusProvider::getDpnIdFromInterfaceName).orElse(null);
if (firstHopDpn == null) {
LOG.warn("Ace {} RSP {} ignored: no valid first hop DPN", ruleName, rspName);
return Collections.emptySet();
}
String lastHopInterface = sfcProvider.getLastHopEgressInterfaceFromRsp(rsp).orElse(null);
if (lastHopInterface == null) {
LOG.warn("Ace {} RSP {} ignored: has no valid last hop interface", ruleName, rspName);
return Collections.emptySet();
}
DpnIdType lastHopDpn = geniusProvider.getDpnIdFromInterfaceName(lastHopInterface).orElse(null);
if (lastHopDpn == null) {
LOG.warn("Ace {} RSP {} ignored: has no valid last hop DPN", ruleName, rspName);
return Collections.emptySet();
}
Map<NodeId, List<InterfaceKey>> nodeToInterfaces = new HashMap<>();
for (String iface : interfaces) {
geniusProvider.getNodeIdFromLogicalInterface(iface).ifPresent(nodeId -> nodeToInterfaces.computeIfAbsent(nodeId, key -> new ArrayList<>()).add(new InterfaceKey(iface)));
}
LOG.trace("Ace {} RSP {}: got classifier nodes and interfaces: {}", ruleName, rspName, nodeToInterfaces);
String firstHopIp = geniusProvider.getIpFromDpnId(firstHopDpn).orElse(null);
Set<ClassifierRenderableEntry> entries = new HashSet<>();
nodeToInterfaces.forEach((nodeId, ifaces) -> {
// Get node info
DpnIdType nodeDpn = new DpnIdType(OpenFlow13Provider.getDpnIdFromNodeId(nodeId));
String nodeIp = geniusProvider.getIpFromDpnId(nodeDpn).orElse(LOCAL_HOST_IP);
if (firstHopIp == null && !nodeDpn.equals(firstHopDpn)) {
LOG.warn("Ace {} RSP {} classifier {} ignored: no IP to reach first hop DPN {}", ruleName, rspName, nodeId, firstHopDpn);
return;
}
// Add entries that are not based on ingress or egress interface
entries.add(ClassifierEntry.buildNodeEntry(nodeId));
entries.add(ClassifierEntry.buildPathEntry(nodeId, nsp, nsi, nsl, nodeDpn.equals(firstHopDpn) ? null : firstHopIp));
// Add entries based on ingress interface
ifaces.forEach(interfaceKey -> {
entries.add(ClassifierEntry.buildIngressEntry(interfaceKey));
entries.add(ClassifierEntry.buildMatchEntry(nodeId, geniusProvider.getNodeConnectorIdFromInterfaceName(interfaceKey.getName()).get(), matches, nsp, nsi));
});
// hand-off can happen through the dispatcher table
if (nodeDpn.equals(lastHopDpn)) {
entries.add(ClassifierEntry.buildIngressEntry(new InterfaceKey(lastHopInterface)));
}
// Egress services must bind to egress ports. Since we dont know before-hand what
// the egress ports will be, we will bind on all switch ports. If the packet
// doesnt have NSH, it will be returned to the the egress dispatcher table.
List<Interfaces> interfaceUuidStrList = geniusProvider.getInterfacesFromNode(nodeId);
interfaceUuidStrList.forEach(interfaceUuidStr -> {
InterfaceKey interfaceKey = new InterfaceKey(interfaceUuidStr.getInterfaceName());
Optional<String> remoteIp = geniusProvider.getRemoteIpAddress(interfaceUuidStr.getInterfaceName());
entries.add(ClassifierEntry.buildEgressEntry(interfaceKey, remoteIp.orElse(nodeIp)));
});
});
return entries;
}
use of org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.interfaces.rev140508.interfaces.InterfaceKey in project genius by opendaylight.
the class ItmUtils method buildLogicalTunnelInterface.
public static Interface buildLogicalTunnelInterface(BigInteger dpn, String ifName, String desc, boolean enabled) {
InterfaceBuilder builder = new InterfaceBuilder().setKey(new InterfaceKey(ifName)).setName(ifName).setDescription(desc).setEnabled(enabled).setType(Tunnel.class);
ParentRefs parentRefs = new ParentRefsBuilder().setDatapathNodeIdentifier(dpn).build();
builder.addAugmentation(ParentRefs.class, parentRefs);
IfTunnel tunnel = new IfTunnelBuilder().setTunnelDestination(IpAddressBuilder.getDefaultInstance(ITMConstants.DUMMY_IP_ADDRESS)).setTunnelSource(IpAddressBuilder.getDefaultInstance(ITMConstants.DUMMY_IP_ADDRESS)).setInternal(true).setMonitorEnabled(false).setTunnelInterfaceType(TunnelTypeLogicalGroup.class).setTunnelRemoteIpFlow(false).build();
builder.addAugmentation(IfTunnel.class, tunnel);
return builder.build();
}
use of org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.interfaces.rev140508.interfaces.InterfaceKey in project genius by opendaylight.
the class ItmUtils method buildHwTunnelInterface.
public static Interface buildHwTunnelInterface(String tunnelIfName, String desc, boolean enabled, String topoId, String nodeId, Class<? extends TunnelTypeBase> tunType, IpAddress srcIp, IpAddress destIp, IpAddress gwIp, Boolean monitorEnabled, Class<? extends TunnelMonitoringTypeBase> monitorProtocol, Integer monitorInterval) {
InterfaceBuilder builder = new InterfaceBuilder().setKey(new InterfaceKey(tunnelIfName)).setName(tunnelIfName).setDescription(desc).setEnabled(enabled).setType(Tunnel.class);
List<NodeIdentifier> nodeIds = new ArrayList<>();
NodeIdentifier hwNode = new NodeIdentifierBuilder().setKey(new NodeIdentifierKey(topoId)).setTopologyId(topoId).setNodeId(nodeId).build();
nodeIds.add(hwNode);
ParentRefs parent = new ParentRefsBuilder().setNodeIdentifier(nodeIds).build();
builder.addAugmentation(ParentRefs.class, parent);
IfTunnel tunnel = new IfTunnelBuilder().setTunnelDestination(destIp).setTunnelGateway(gwIp).setTunnelSource(srcIp).setMonitorEnabled(monitorEnabled == null || monitorEnabled).setMonitorProtocol(monitorProtocol == null ? ITMConstants.DEFAULT_MONITOR_PROTOCOL : monitorProtocol).setMonitorInterval(DEFAULT_MONITORING_INTERVAL).setTunnelInterfaceType(tunType).setInternal(false).build();
builder.addAugmentation(IfTunnel.class, tunnel);
LOG.trace("iftunnel {} built from hwvtep {} ", tunnel, nodeId);
return builder.build();
}
use of org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.interfaces.rev140508.interfaces.InterfaceKey in project genius by opendaylight.
the class ItmExternalTunnelAddWorker method wireUp.
// for tunnels from OVS
private boolean wireUp(BigInteger dpnId, String portname, Integer vlanId, IpAddress srcIp, Boolean remoteIpFlow, String dstNodeId, IpAddress dstIp, IpPrefix srcSubnet, IpAddress gwIp, IpPrefix dstSubnet, Class<? extends TunnelTypeBase> tunType, Boolean monitorEnabled, Integer monitorInterval, Class<? extends TunnelMonitoringTypeBase> monitorProtocol, WriteTransaction transaction) {
IpAddress gatewayIpObj = IpAddressBuilder.getDefaultInstance("0.0.0.0");
IpAddress gwyIpAddress = srcSubnet.equals(dstSubnet) ? gatewayIpObj : gwIp;
String parentIf = ItmUtils.getInterfaceName(dpnId, portname, vlanId);
String tunTypeStr = tunType.getName();
String tunnelIfName = ItmUtils.getTrunkInterfaceName(parentIf, new String(srcIp.getValue()), new String(dstIp.getValue()), tunTypeStr);
LOG.debug(" Creating ExternalTrunk Interface with parameters Name - {}, parent I/f name - {}, " + "source IP - {}, destination IP - {} gateway IP - {}", tunnelIfName, parentIf, srcIp, dstIp, gwyIpAddress);
Interface extTunnelIf = ItmUtils.buildTunnelInterface(dpnId, tunnelIfName, String.format("%s %s", tunType.getName(), "Trunk Interface"), true, tunType, srcIp, dstIp, gwyIpAddress, vlanId, false, monitorEnabled, monitorProtocol, monitorInterval, remoteIpFlow, null);
InstanceIdentifier<Interface> ifIID = InstanceIdentifier.builder(Interfaces.class).child(Interface.class, new InterfaceKey(tunnelIfName)).build();
LOG.trace(" Writing Trunk Interface to Config DS {}, {} ", ifIID, extTunnelIf);
transaction.merge(LogicalDatastoreType.CONFIGURATION, ifIID, extTunnelIf, true);
ItmUtils.ITM_CACHE.addInterface(extTunnelIf);
InstanceIdentifier<ExternalTunnel> path = InstanceIdentifier.create(ExternalTunnelList.class).child(ExternalTunnel.class, new ExternalTunnelKey(getExternalTunnelKey(dstNodeId), dpnId.toString(), tunType));
ExternalTunnel tnl = ItmUtils.buildExternalTunnel(dpnId.toString(), getExternalTunnelKey(dstNodeId), tunType, tunnelIfName);
transaction.merge(LogicalDatastoreType.CONFIGURATION, path, tnl, true);
ItmUtils.ITM_CACHE.addExternalTunnel(tnl);
return true;
}
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