/* * Copyright © 2020 Orange, Inc. and others. All rights reserved. * * This program and the accompanying materials are made available under the * terms of the Eclipse Public License v1.0 which accompanies this distribution, * and is available at http://www.eclipse.org/legal/epl-v10.html */ package org.opendaylight.transportpce.tapi.topology; import static org.hamcrest.CoreMatchers.containsString; import static org.hamcrest.CoreMatchers.either; import static org.hamcrest.CoreMatchers.hasItem; import static org.hamcrest.CoreMatchers.hasItems; import static org.hamcrest.MatcherAssert.assertThat; import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertNull; import static org.junit.Assert.fail; import com.google.common.util.concurrent.FluentFuture; import java.nio.charset.Charset; import java.util.ArrayList; import java.util.HashMap; import java.util.Iterator; import java.util.List; import java.util.Map; import java.util.Optional; import java.util.UUID; import java.util.concurrent.ExecutionException; import java.util.stream.Collectors; import org.eclipse.jdt.annotation.Nullable; import org.junit.BeforeClass; import org.junit.Test; import org.opendaylight.mdsal.binding.api.DataBroker; import org.opendaylight.mdsal.common.api.LogicalDatastoreType; import org.opendaylight.transportpce.common.InstanceIdentifiers; import org.opendaylight.transportpce.common.network.NetworkTransactionImpl; import org.opendaylight.transportpce.common.network.NetworkTransactionService; import org.opendaylight.transportpce.common.network.RequestProcessor; import org.opendaylight.transportpce.tapi.TapiStringConstants; import org.opendaylight.transportpce.tapi.utils.TapiLink; import org.opendaylight.transportpce.tapi.utils.TapiTopologyDataUtils; import org.opendaylight.transportpce.test.AbstractTest; import org.opendaylight.transportpce.test.utils.TopologyDataUtils; import org.opendaylight.yang.gen.v1.http.org.openroadm.common.network.rev200529.Link1; import org.opendaylight.yang.gen.v1.http.org.openroadm.common.network.rev200529.Link1Builder; import org.opendaylight.yang.gen.v1.http.org.openroadm.common.network.rev200529.TerminationPoint1; import org.opendaylight.yang.gen.v1.http.org.openroadm.common.network.rev200529.TerminationPoint1Builder; import org.opendaylight.yang.gen.v1.http.org.openroadm.common.state.types.rev191129.State; import org.opendaylight.yang.gen.v1.http.org.openroadm.equipment.states.types.rev191129.AdminStates; import org.opendaylight.yang.gen.v1.http.org.openroadm.network.types.rev200529.OpenroadmTpType; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.rev180226.NetworkId; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.rev180226.Networks; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.rev180226.NodeId; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.rev180226.networks.NetworkKey; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.rev180226.networks.network.Node; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.rev180226.networks.network.NodeBuilder; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.rev180226.networks.network.NodeKey; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.LinkId; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.Network1; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.Node1; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.TpId; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.networks.network.LinkKey; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.networks.network.node.TerminationPoint; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.networks.network.node.TerminationPointBuilder; import org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.networks.network.node.TerminationPointKey; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.AdministrativeState; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.CapacityUnit; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.ForwardingDirection; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.LayerProtocolName; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.LifecycleState; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.OperationalState; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.PortDirection; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.PortRole; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.TerminationDirection; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.TerminationState; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.Uuid; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.global._class.Name; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.global._class.NameKey; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.dsr.rev181210.DIGITALSIGNALTYPE100GigE; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.dsr.rev181210.DIGITALSIGNALTYPE10GigELAN; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.odu.rev181210.ODUTYPEODU2; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.odu.rev181210.ODUTYPEODU2E; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.odu.rev181210.ODUTYPEODU4; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.photonic.media.rev181210.PHOTONICLAYERQUALIFIEROMS; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.photonic.media.rev181210.PHOTONICLAYERQUALIFIEROTSi; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.ForwardingRule; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.RuleType; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.node.NodeRuleGroup; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.node.OwnedNodeEdgePoint; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.node.OwnedNodeEdgePointKey; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.node.edge.point.MappedServiceInterfacePointKey; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.node.rule.group.NodeEdgePoint; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.node.rule.group.Rule; import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.Link; import org.opendaylight.yangtools.yang.binding.InstanceIdentifier; import org.opendaylight.yangtools.yang.binding.KeyedInstanceIdentifier; import org.opendaylight.yangtools.yang.common.Uint64; import org.slf4j.Logger; import org.slf4j.LoggerFactory; public class ConvertORTopoToTapiTopoTest extends AbstractTest { private static final Logger LOG = LoggerFactory.getLogger(ConvertORTopoToTapiTopoTest.class); private static Node otnMuxA; private static Node otnMuxC; private static Node otnSwitch; private static Node tpdr100G; private static Map otnLinks; private static Uuid topologyUuid; private static NetworkTransactionService networkTransactionService; private static TapiLink tapiLink; private static DataBroker dataBroker = getDataBroker(); @BeforeClass public static void setUp() throws InterruptedException, ExecutionException { TopologyDataUtils.writeTopologyFromFileToDatastore(getDataStoreContextUtil(), TapiTopologyDataUtils.OPENROADM_TOPOLOGY_FILE, InstanceIdentifiers.OVERLAY_NETWORK_II); TopologyDataUtils.writeTopologyFromFileToDatastore(getDataStoreContextUtil(), TapiTopologyDataUtils.OTN_TOPOLOGY_FILE, InstanceIdentifiers.OTN_NETWORK_II); TopologyDataUtils.writePortmappingFromFileToDatastore(getDataStoreContextUtil(), TapiTopologyDataUtils.PORTMAPPING_FILE); KeyedInstanceIdentifier muxAIID = InstanceIdentifier.create(Networks.class) .child(org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.rev180226.networks.Network .class, new NetworkKey(new NetworkId("otn-topology"))) .child(Node.class, new NodeKey(new NodeId("SPDR-SA1-XPDR1"))); FluentFuture> muxAFuture = dataBroker.newReadOnlyTransaction() .read(LogicalDatastoreType.CONFIGURATION, muxAIID); KeyedInstanceIdentifier muxCIID = InstanceIdentifier.create(Networks.class) .child(org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.rev180226.networks.Network .class, new NetworkKey(new NetworkId("otn-topology"))) .child(Node.class, new NodeKey(new NodeId("SPDR-SC1-XPDR1"))); FluentFuture> muxCFuture = dataBroker.newReadOnlyTransaction() .read(LogicalDatastoreType.CONFIGURATION, muxCIID); KeyedInstanceIdentifier switchIID = InstanceIdentifier.create(Networks.class) .child(org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.rev180226.networks.Network .class, new NetworkKey(new NetworkId("otn-topology"))) .child(Node.class, new NodeKey(new NodeId("SPDR-SA1-XPDR2"))); FluentFuture> switchFuture = dataBroker.newReadOnlyTransaction() .read(LogicalDatastoreType.CONFIGURATION, switchIID); otnMuxA = muxAFuture.get().get(); otnMuxC = muxCFuture.get().get(); otnSwitch = switchFuture.get().get(); KeyedInstanceIdentifier tpdrIID = InstanceIdentifier.create(Networks.class) .child(org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.rev180226.networks.Network .class, new NetworkKey(new NetworkId("otn-topology"))) .child(Node.class, new NodeKey(new NodeId("XPDR-A1-XPDR1"))); FluentFuture> tpdrFuture = dataBroker.newReadOnlyTransaction() .read(LogicalDatastoreType.CONFIGURATION, tpdrIID); tpdr100G = tpdrFuture.get().get(); InstanceIdentifier linksIID = InstanceIdentifier.create(Networks.class) .child(org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.rev180226.networks.Network .class, new NetworkKey(new NetworkId("otn-topology"))) .augmentation(Network1.class); FluentFuture> linksFuture = dataBroker.newReadOnlyTransaction() .read(LogicalDatastoreType.CONFIGURATION, linksIID); otnLinks = linksFuture.get().get().getLink(); topologyUuid = new Uuid(UUID.nameUUIDFromBytes(TapiStringConstants.T0_MULTILAYER.getBytes( Charset.forName("UTF-8"))).toString()); networkTransactionService = new NetworkTransactionImpl( new RequestProcessor(getDataStoreContextUtil().getDataBroker())); tapiLink = new TapiLink(networkTransactionService); LOG.info("TEST SETUP READY"); } @Test public void convertNodeWhenNoStates() { Node tpdr = changeTerminationPointState(tpdr100G, "XPDR1-NETWORK1", null, null); List networkPortList = new ArrayList<>(); for (TerminationPoint tp : tpdr100G.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortList.add(tp.getTpId().getValue()); } } ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); tapiFactory.convertNode(tpdr, networkPortList); Uuid dsrNodeUuid = new Uuid(UUID.nameUUIDFromBytes("XPDR-A1-XPDR1+DSR".getBytes(Charset.forName("UTF-8"))) .toString()); org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.Node dsrNode = tapiFactory .getTapiNodes().get(new org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.NodeKey(dsrNodeUuid)); Uuid networkNepUuid = new Uuid( UUID.nameUUIDFromBytes(("XPDR-A1-XPDR1+iODU+XPDR1-NETWORK1").getBytes(Charset.forName("UTF-8"))) .toString()); OwnedNodeEdgePoint nepN = dsrNode.nonnullOwnedNodeEdgePoint().get(new OwnedNodeEdgePointKey(networkNepUuid)); assertNull("Administrative State should not be present", nepN.getAdministrativeState()); assertNull("Operational State should not be present", nepN.getOperationalState()); Uuid otsiNodeUuid = new Uuid(UUID.nameUUIDFromBytes("XPDR-A1-XPDR1+OTSi".getBytes(Charset.forName("UTF-8"))) .toString()); org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.Node otsiNode = tapiFactory .getTapiNodes().get(new org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.NodeKey(otsiNodeUuid)); Uuid enepUuid = new Uuid( UUID.nameUUIDFromBytes(("XPDR-A1-XPDR1+eOTSi+XPDR1-NETWORK1").getBytes(Charset.forName("UTF-8"))) .toString()); Uuid inepUuid = new Uuid( UUID.nameUUIDFromBytes(("XPDR-A1-XPDR1+iOTSi+XPDR1-NETWORK1").getBytes(Charset.forName("UTF-8"))) .toString()); OwnedNodeEdgePoint enep = otsiNode.nonnullOwnedNodeEdgePoint().get(new OwnedNodeEdgePointKey(enepUuid)); assertNull("Administrative State should not be present", enep.getAdministrativeState()); assertNull("Operational State should not be present", enep.getOperationalState()); OwnedNodeEdgePoint inep = otsiNode.nonnullOwnedNodeEdgePoint().get(new OwnedNodeEdgePointKey(inepUuid)); assertNull("Administrative State should not be present", inep.getAdministrativeState()); assertNull("Operational State should not be present", inep.getOperationalState()); } @Test public void convertNodeWhenBadStates1() { Node tpdr = changeTerminationPointState(tpdr100G, "XPDR1-NETWORK1", AdminStates.OutOfService, State.OutOfService); List networkPortList = new ArrayList<>(); for (TerminationPoint tp : tpdr100G.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortList.add(tp.getTpId().getValue()); } } ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); tapiFactory.convertNode(tpdr, networkPortList); Uuid dsrNodeUuid = new Uuid(UUID.nameUUIDFromBytes("XPDR-A1-XPDR1+DSR".getBytes(Charset.forName("UTF-8"))) .toString()); org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.Node dsrNode = tapiFactory .getTapiNodes().get(new org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.NodeKey(dsrNodeUuid)); Uuid networkNepUuid = new Uuid( UUID.nameUUIDFromBytes(("XPDR-A1-XPDR1+iODU+XPDR1-NETWORK1").getBytes(Charset.forName("UTF-8"))) .toString()); OwnedNodeEdgePoint nepN = dsrNode.nonnullOwnedNodeEdgePoint().get(new OwnedNodeEdgePointKey(networkNepUuid)); assertEquals("Administrative State should be Locked", AdministrativeState.LOCKED, nepN.getAdministrativeState()); assertEquals("Operational State should be Disabled", OperationalState.DISABLED, nepN.getOperationalState()); Uuid otsiNodeUuid = new Uuid(UUID.nameUUIDFromBytes("XPDR-A1-XPDR1+OTSi".getBytes(Charset.forName("UTF-8"))) .toString()); org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.Node otsiNode = tapiFactory .getTapiNodes().get(new org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.NodeKey(otsiNodeUuid)); Uuid enepUuid = new Uuid( UUID.nameUUIDFromBytes(("XPDR-A1-XPDR1+eOTSi+XPDR1-NETWORK1").getBytes(Charset.forName("UTF-8"))) .toString()); Uuid inepUuid = new Uuid( UUID.nameUUIDFromBytes(("XPDR-A1-XPDR1+iOTSi+XPDR1-NETWORK1").getBytes(Charset.forName("UTF-8"))) .toString()); OwnedNodeEdgePoint enep = otsiNode.nonnullOwnedNodeEdgePoint().get(new OwnedNodeEdgePointKey(enepUuid)); assertEquals("Administrative State should be Locked", AdministrativeState.LOCKED, enep.getAdministrativeState()); assertEquals("Operational State should be Disabled", OperationalState.DISABLED, enep.getOperationalState()); OwnedNodeEdgePoint inep = otsiNode.nonnullOwnedNodeEdgePoint().get(new OwnedNodeEdgePointKey(inepUuid)); assertEquals("Administrative State should be Locked", AdministrativeState.LOCKED, inep.getAdministrativeState()); assertEquals("Operational State should be Disabled", OperationalState.DISABLED, inep.getOperationalState()); } @Test public void convertNodeWhenBadStates2() { Node tpdr = changeTerminationPointState(tpdr100G, "XPDR1-NETWORK1", AdminStates.Maintenance, State.Degraded); List networkPortList = new ArrayList<>(); for (TerminationPoint tp : tpdr100G.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortList.add(tp.getTpId().getValue()); } } ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); tapiFactory.convertNode(tpdr, networkPortList); Uuid dsrNodeUuid = new Uuid(UUID.nameUUIDFromBytes("XPDR-A1-XPDR1+DSR".getBytes(Charset.forName("UTF-8"))) .toString()); org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.Node dsrNode = tapiFactory .getTapiNodes().get(new org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.NodeKey(dsrNodeUuid)); Uuid networkNepUuid = new Uuid( UUID.nameUUIDFromBytes(("XPDR-A1-XPDR1+iODU+XPDR1-NETWORK1").getBytes(Charset.forName("UTF-8"))) .toString()); OwnedNodeEdgePoint nepN = dsrNode.nonnullOwnedNodeEdgePoint().get(new OwnedNodeEdgePointKey(networkNepUuid)); assertEquals("Administrative State should be Locked", AdministrativeState.LOCKED, nepN.getAdministrativeState()); assertEquals("Operational State should be Disabled", OperationalState.DISABLED, nepN.getOperationalState()); Uuid otsiNodeUuid = new Uuid(UUID.nameUUIDFromBytes("XPDR-A1-XPDR1+OTSi".getBytes(Charset.forName("UTF-8"))) .toString()); org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.Node otsiNode = tapiFactory .getTapiNodes().get(new org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.NodeKey(otsiNodeUuid)); Uuid enepUuid = new Uuid( UUID.nameUUIDFromBytes(("XPDR-A1-XPDR1+eOTSi+XPDR1-NETWORK1").getBytes(Charset.forName("UTF-8"))) .toString()); Uuid inepUuid = new Uuid( UUID.nameUUIDFromBytes(("XPDR-A1-XPDR1+iOTSi+XPDR1-NETWORK1").getBytes(Charset.forName("UTF-8"))) .toString()); OwnedNodeEdgePoint enep = otsiNode.nonnullOwnedNodeEdgePoint().get(new OwnedNodeEdgePointKey(enepUuid)); assertEquals("Administrative State should be Locked", AdministrativeState.LOCKED, enep.getAdministrativeState()); assertEquals("Operational State should be Disabled", OperationalState.DISABLED, enep.getOperationalState()); OwnedNodeEdgePoint inep = otsiNode.nonnullOwnedNodeEdgePoint().get(new OwnedNodeEdgePointKey(inepUuid)); assertEquals("Administrative State should be Locked", AdministrativeState.LOCKED, inep.getAdministrativeState()); assertEquals("Operational State should be Disabled", OperationalState.DISABLED, inep.getOperationalState()); } @Test public void convertOtnLinkWhenNoState() { HashMap otnLinksAlt = new HashMap<>(otnLinks); org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.networks.network.Link link = changeOtnLinkState(otnLinks.get(new LinkKey( new LinkId("ODTU4-SPDR-SA1-XPDR1-XPDR1-NETWORK1toSPDR-SC1-XPDR1-XPDR1-NETWORK1"))), null, null); otnLinksAlt.replace(link.key(), link); ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); List networkPortListA = new ArrayList<>(); for (TerminationPoint tp : otnMuxA.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortListA.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxA, networkPortListA); List networkPortListC = new ArrayList<>(); for (TerminationPoint tp : otnMuxC.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortListC.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxC, networkPortListC); tapiFactory.convertLinks(otnLinksAlt); List tapiLinks = tapiFactory.getTapiLinks().values().stream() .sorted((l1, l2) -> l1.getUuid().getValue().compareTo(l2.getUuid().getValue())) .collect(Collectors.toList()); assertNull("Administrative State should not be present", tapiLinks.get(3).getAdministrativeState()); assertEquals("Administrative state should be UNLOCKED", AdministrativeState.UNLOCKED, tapiLinks.get(0).getAdministrativeState()); assertNull("Operational State should not be present", tapiLinks.get(3).getOperationalState()); assertEquals("Operational state should be ENABLED", OperationalState.ENABLED, tapiLinks.get(0).getOperationalState()); } @Test public void convertOtnLinkWhenNoStateOnOppositeLink() { HashMap otnLinksAlt = new HashMap<>(otnLinks); org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.networks.network.Link link = changeOtnLinkState(otnLinks.get(new LinkKey( new LinkId("ODTU4-SPDR-SC1-XPDR1-XPDR1-NETWORK1toSPDR-SA1-XPDR1-XPDR1-NETWORK1"))), null, null); otnLinksAlt.replace(link.key(), link); ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); List networkPortListA = new ArrayList<>(); for (TerminationPoint tp : otnMuxA.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortListA.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxA, networkPortListA); List networkPortListC = new ArrayList<>(); for (TerminationPoint tp : otnMuxC.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortListC.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxC, networkPortListC); tapiFactory.convertLinks(otnLinksAlt); List tapiLinks = tapiFactory.getTapiLinks().values().stream() .sorted((l1, l2) -> l1.getUuid().getValue().compareTo(l2.getUuid().getValue())) .collect(Collectors.toList()); assertNull("Administrative State should not be present", tapiLinks.get(3).getAdministrativeState()); assertEquals("Administrative state should be UNLOCKED", AdministrativeState.UNLOCKED, tapiLinks.get(0).getAdministrativeState()); assertNull("Operational State should not be present", tapiLinks.get(3).getOperationalState()); assertEquals("Operational state should be ENABLED", OperationalState.ENABLED, tapiLinks.get(0).getOperationalState()); } @Test public void convertOtnLinkWhenBadState1() { HashMap otnLinksAlt = new HashMap<>(otnLinks); org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.networks.network.Link link = changeOtnLinkState(otnLinks.get(new LinkKey( new LinkId("ODTU4-SPDR-SA1-XPDR1-XPDR1-NETWORK1toSPDR-SC1-XPDR1-XPDR1-NETWORK1"))), AdminStates.OutOfService, State.OutOfService); otnLinksAlt.replace(link.key(), link); ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); List networkPortListA = new ArrayList<>(); for (TerminationPoint tp : otnMuxA.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortListA.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxA, networkPortListA); List networkPortListC = new ArrayList<>(); for (TerminationPoint tp : otnMuxC.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortListC.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxC, networkPortListC); tapiFactory.convertLinks(otnLinksAlt); List tapiLinks = tapiFactory.getTapiLinks().values().stream() .sorted((l1, l2) -> l1.getUuid().getValue().compareTo(l2.getUuid().getValue())) .collect(Collectors.toList()); assertEquals("Administrative state should be LOCKED", AdministrativeState.LOCKED, tapiLinks.get(3).getAdministrativeState()); assertEquals("Administrative state should be UNLOCKED", AdministrativeState.UNLOCKED, tapiLinks.get(0).getAdministrativeState()); assertEquals("Operational state should be DISABLED", OperationalState.DISABLED, tapiLinks.get(3).getOperationalState()); assertEquals("Operational state should be ENABLED", OperationalState.ENABLED, tapiLinks.get(0).getOperationalState()); } @Test public void convertOtnLinkWhenBadState2() { HashMap otnLinksAlt = new HashMap<>(otnLinks); org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.networks.network.Link link = changeOtnLinkState(otnLinks.get(new LinkKey( new LinkId("ODTU4-SPDR-SA1-XPDR1-XPDR1-NETWORK1toSPDR-SC1-XPDR1-XPDR1-NETWORK1"))), AdminStates.Maintenance, State.Degraded); otnLinksAlt.replace(link.key(), link); ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); List networkPortListA = new ArrayList<>(); for (TerminationPoint tp : otnMuxA.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortListA.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxA, networkPortListA); List networkPortListC = new ArrayList<>(); for (TerminationPoint tp : otnMuxC.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortListC.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxC, networkPortListC); tapiFactory.convertLinks(otnLinksAlt); List tapiLinks = tapiFactory.getTapiLinks().values().stream() .sorted((l1, l2) -> l1.getUuid().getValue().compareTo(l2.getUuid().getValue())) .collect(Collectors.toList()); assertEquals("Administrative state should be LOCKED", AdministrativeState.LOCKED, tapiLinks.get(3).getAdministrativeState()); assertEquals("Administrative state should be UNLOCKED", AdministrativeState.UNLOCKED, tapiLinks.get(0).getAdministrativeState()); assertEquals("Operational state should be DISABLED", OperationalState.DISABLED, tapiLinks.get(3).getOperationalState()); assertEquals("Operational state should be ENABLED", OperationalState.ENABLED, tapiLinks.get(0).getOperationalState()); } @Test public void convertOtnLinkWhenBadStateOnOppositeLink() { HashMap otnLinksAlt = new HashMap<>(otnLinks); org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.networks.network.Link link = changeOtnLinkState(otnLinks.get(new LinkKey( new LinkId("ODTU4-SPDR-SC1-XPDR1-XPDR1-NETWORK1toSPDR-SA1-XPDR1-XPDR1-NETWORK1"))), AdminStates.OutOfService, State.OutOfService); otnLinksAlt.replace(link.key(), link); ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); List networkPortListA = new ArrayList<>(); for (TerminationPoint tp : otnMuxA.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortListA.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxA, networkPortListA); List networkPortListC = new ArrayList<>(); for (TerminationPoint tp : otnMuxC.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortListC.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxC, networkPortListC); tapiFactory.convertLinks(otnLinksAlt); List tapiLinks = tapiFactory.getTapiLinks().values().stream() .sorted((l1, l2) -> l1.getUuid().getValue().compareTo(l2.getUuid().getValue())) .collect(Collectors.toList()); assertEquals("Administrative state should be LOCKED", AdministrativeState.LOCKED, tapiLinks.get(3).getAdministrativeState()); assertEquals("Administrative state should be UNLOCKED", AdministrativeState.UNLOCKED, tapiLinks.get(0).getAdministrativeState()); assertEquals("Operational state should be DISABLED", OperationalState.DISABLED, tapiLinks.get(3).getOperationalState()); assertEquals("Operational state should be ENABLED", OperationalState.ENABLED, tapiLinks.get(0).getOperationalState()); } @Test public void convertNodeForTransponder100G() { ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); List networkPortList = new ArrayList<>(); for (TerminationPoint tp : tpdr100G.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortList.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(tpdr100G, networkPortList); List tapiNodes = tapiFactory.getTapiNodes().values().stream() .sorted((n1, n2) -> n1.getUuid().getValue().compareTo(n2.getUuid().getValue())) .collect(Collectors.toList()); assertEquals("Node list size should be 2", 2, tapiFactory.getTapiNodes().size()); assertEquals("Link list size should be 2", 2, tapiFactory.getTapiLinks().size()); Uuid dsrNodeUuid = new Uuid(UUID.nameUUIDFromBytes("XPDR-A1-XPDR1+DSR".getBytes(Charset.forName("UTF-8"))) .toString()); checkDsrNode(tapiNodes.get(1), dsrNodeUuid, "tpdr", "XPDR-A1-XPDR1+DSR"); Uuid otsiNodeUuid = new Uuid(UUID.nameUUIDFromBytes("XPDR-A1-XPDR1+OTSi".getBytes(Charset.forName("UTF-8"))) .toString()); checkOtsiNode(tapiNodes.get(0), otsiNodeUuid, "tpdr", "XPDR-A1-XPDR1+OTSi"); List tapiLinks = tapiFactory.getTapiLinks().values().stream() .sorted((l1, l2) -> l1.getUuid().getValue().compareTo(l2.getUuid().getValue())) .collect(Collectors.toList()); checkTransitionalLink(tapiLinks.get(1), dsrNodeUuid, otsiNodeUuid, "XPDR-A1-XPDR1+iODU+XPDR1-NETWORK1", "XPDR-A1-XPDR1+iOTSi+XPDR1-NETWORK1", "XPDR-A1-XPDR1"); } @Test public void convertNodeForOtnMuxponder() { ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); List networkPortList = new ArrayList<>(); for (TerminationPoint tp : otnMuxA.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortList.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxA, networkPortList); List tapiNodes = tapiFactory.getTapiNodes().values().stream() .sorted((n1, n2) -> n1.getUuid().getValue().compareTo(n2.getUuid().getValue())) .collect(Collectors.toList()); assertEquals("Node list size should be 2", 2, tapiFactory.getTapiNodes().size()); assertEquals("Link list size should be 1", 1, tapiFactory.getTapiLinks().size()); Uuid dsrNodeUuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+DSR".getBytes(Charset.forName("UTF-8"))) .toString()); checkDsrNode(tapiNodes.get(0), dsrNodeUuid, "mux", "SPDR-SA1-XPDR1+DSR"); Uuid otsiNodeUuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+OTSi".getBytes(Charset.forName("UTF-8"))) .toString()); checkOtsiNode(tapiNodes.get(1), otsiNodeUuid, "mux", "SPDR-SA1-XPDR1+OTSi"); List tapiLinks = tapiFactory.getTapiLinks().values().stream() .sorted((l1, l2) -> l1.getUuid().getValue().compareTo(l2.getUuid().getValue())) .collect(Collectors.toList()); checkTransitionalLink(tapiLinks.get(0), dsrNodeUuid, otsiNodeUuid, "SPDR-SA1-XPDR1+iODU+XPDR1-NETWORK1", "SPDR-SA1-XPDR1+iOTSi+XPDR1-NETWORK1", "SPDR-SA1-XPDR1"); } @Test public void convertNodeForOtnSwitch() { ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); List networkPortList = new ArrayList<>(); for (TerminationPoint tp : otnSwitch.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortList.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnSwitch, networkPortList); List tapiNodes = tapiFactory.getTapiNodes().values().stream() .sorted((n1, n2) -> n1.getUuid().getValue().compareTo(n2.getUuid().getValue())) .collect(Collectors.toList()); assertEquals("Node list size should be 2", 2, tapiFactory.getTapiNodes().size()); assertEquals("Link list size should be 4", 4, tapiFactory.getTapiLinks().size()); Uuid dsrNodeUuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR2+DSR".getBytes(Charset.forName("UTF-8"))) .toString()); checkDsrNode(tapiNodes.get(0), dsrNodeUuid, "switch", "SPDR-SA1-XPDR2+DSR"); Uuid otsiNodeUuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR2+OTSi".getBytes(Charset.forName("UTF-8"))) .toString()); checkOtsiNode(tapiNodes.get(1), otsiNodeUuid, "switch", "SPDR-SA1-XPDR2+OTSi"); List tapiLinks = tapiFactory.getTapiLinks().values().stream() .sorted((l1, l2) -> l1.getUuid().getValue().compareTo(l2.getUuid().getValue())) .collect(Collectors.toList()); checkTransitionalLink(tapiLinks.get(2), dsrNodeUuid, otsiNodeUuid, "SPDR-SA1-XPDR2+iODU+XPDR2-NETWORK4", "SPDR-SA1-XPDR2+iOTSi+XPDR2-NETWORK4", "SPDR-SA1-XPDR2"); } @Test public void convertOtnLink() { ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); List networkPortListA = new ArrayList<>(); for (TerminationPoint tp : otnMuxA.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortListA.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxA, networkPortListA); List networkPortListC = new ArrayList<>(); for (TerminationPoint tp : otnMuxC.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortListC.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxC, networkPortListC); tapiFactory.convertLinks(otnLinks); assertEquals("Link list size should be 4", 4, tapiFactory.getTapiLinks().size()); Uuid node1Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+DSR".getBytes(Charset.forName("UTF-8"))) .toString()); Uuid node2Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SC1-XPDR1+DSR".getBytes(Charset.forName("UTF-8"))) .toString()); Uuid node3Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+OTSi".getBytes(Charset.forName("UTF-8"))) .toString()); Uuid node4Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SC1-XPDR1+OTSi".getBytes(Charset.forName("UTF-8"))) .toString()); Uuid tp1Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+eODU+XPDR1-NETWORK1" .getBytes(Charset.forName("UTF-8"))).toString()); Uuid tp2Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SC1-XPDR1+eODU+XPDR1-NETWORK1" .getBytes(Charset.forName("UTF-8"))).toString()); Uuid tp3Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+iOTSi+XPDR1-NETWORK1" .getBytes(Charset.forName("UTF-8"))).toString()); Uuid tp4Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SC1-XPDR1+iOTSi+XPDR1-NETWORK1" .getBytes(Charset.forName("UTF-8"))).toString()); Uuid link1Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+eODU+XPDR1-NETWORK1toSPDR-SC1-XPDR1+eODU+XPDR1-NETWORK1" .getBytes(Charset.forName("UTF-8"))).toString()); Uuid link2Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+iOTSi+XPDR1-NETWORK1toSPDR-SC1-XPDR1+iOTSi+XPDR1-NETWORK1" .getBytes(Charset.forName("UTF-8"))).toString()); List links = tapiFactory.getTapiLinks().values().stream() .sorted((l1, l2) -> l1.getUuid().getValue().compareTo(l2.getUuid().getValue())) .collect(Collectors.toList()); checkOtnLink(links.get(3), node1Uuid, node2Uuid, tp1Uuid, tp2Uuid, link1Uuid, "SPDR-SA1-XPDR1+eODU+XPDR1-NETWORK1toSPDR-SC1-XPDR1+eODU+XPDR1-NETWORK1"); checkOtnLink(links.get(2), node3Uuid, node4Uuid, tp3Uuid, tp4Uuid, link2Uuid, "SPDR-SA1-XPDR1+iOTSi+XPDR1-NETWORK1toSPDR-SC1-XPDR1+iOTSi+XPDR1-NETWORK1"); } @Test public void convertRoadmInfrastructureWhenNoXponderAttached() { ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); tapiFactory.convertRoadmInfrastructure(); assertEquals("Node list size should be 1", 1, tapiFactory.getTapiNodes().size()); assertEquals("Link list size should be empty", 0, tapiFactory.getTapiLinks().size()); List tapiNodes = tapiFactory.getTapiNodes().values().stream().collect(Collectors.toList()); Uuid otsiNodeUuid = new Uuid(UUID.nameUUIDFromBytes("ROADM-infra".getBytes(Charset.forName("UTF-8"))) .toString()); checkOtsiNode(tapiNodes.get(0), otsiNodeUuid, "infra", "ROADM-infra"); } @Test public void convertRoadmInfrastructureWhenOtnMuxAttached() { ConvertORTopoToTapiTopo tapiFactory = new ConvertORTopoToTapiTopo(topologyUuid, tapiLink); List networkPortListA = new ArrayList<>(); for (TerminationPoint tp : otnMuxA.augmentation(Node1.class).getTerminationPoint().values()) { if (tp.augmentation(TerminationPoint1.class).getTpType().equals(OpenroadmTpType.XPONDERNETWORK)) { networkPortListA.add(tp.getTpId().getValue()); } } tapiFactory.convertNode(otnMuxA, networkPortListA); tapiFactory.convertRoadmInfrastructure(); assertEquals("Node list size should be 3", 3, tapiFactory.getTapiNodes().size()); assertEquals("Link list size should be 2", 2, tapiFactory.getTapiLinks().size()); List tapiNodes = tapiFactory.getTapiNodes().values().stream() .sorted((n1, n2) -> n1.getUuid().getValue().compareTo(n2.getUuid().getValue())) .collect(Collectors.toList()); Uuid otsiNodeUuid = new Uuid(UUID.nameUUIDFromBytes("ROADM-infra".getBytes(Charset.forName("UTF-8"))) .toString()); checkOtsiNode(tapiNodes.get(2), otsiNodeUuid, "infra", "ROADM-infra"); List links = tapiFactory.getTapiLinks().values().stream() .sorted((l1, l2) -> l1.getUuid().getValue().compareTo(l2.getUuid().getValue())) .collect(Collectors.toList()); Uuid node1Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+OTSi".getBytes(Charset.forName("UTF-8"))) .toString()); Uuid node2Uuid = new Uuid(UUID.nameUUIDFromBytes("ROADM-infra".getBytes(Charset.forName("UTF-8"))) .toString()); Uuid tp1Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+eOTSi+XPDR1-NETWORK1" .getBytes(Charset.forName("UTF-8"))).toString()); Uuid tp2Uuid = new Uuid(UUID.nameUUIDFromBytes(("roadm node+nep+1") .getBytes(Charset.forName("UTF-8"))).toString()); Uuid linkUuid = new Uuid(UUID.nameUUIDFromBytes( "SPDR-SA1-XPDR1+OTSi--SPDR-SA1-XPDR1+eOTSi+XPDR1-NETWORK1 and ROADM-infra--NodeEdgePoint_1" .getBytes(Charset.forName("UTF-8"))).toString()); checkOmsLink(links.get(1), node1Uuid, node2Uuid, tp1Uuid, tp2Uuid, linkUuid, "SPDR-SA1-XPDR1+OTSi--SPDR-SA1-XPDR1+eOTSi+XPDR1-NETWORK1 and ROADM-infra--NodeEdgePoint_1"); } private void checkDsrNode(org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.Node node, Uuid nodeUuid, String dsrNodeType, String nodeId) { assertEquals("incorrect node uuid", nodeUuid, node.getUuid()); assertEquals("incorrect node name", nodeId, node.getName().get(new NameKey("dsr/odu node name")).getValue()); assertEquals("administrative state should be UNLOCKED", AdministrativeState.UNLOCKED, node.getAdministrativeState()); assertEquals("life-cycle state should be INSTALLED", LifecycleState.INSTALLED, node.getLifecycleState()); assertEquals("operational state should be ENABLED", OperationalState.ENABLED, node.getOperationalState()); assertEquals("value-name should be 'dsr/odu node name'", "dsr/odu node name", node.nonnullName().values().stream().findFirst().get().getValueName()); assertEquals("dsr node should manage 2 protocol layers : dsr and odu", 2, node.getLayerProtocolName().size()); assertThat("dsr node should manage 2 protocol layers : dsr and odu", node.getLayerProtocolName(), hasItems(LayerProtocolName.DSR, LayerProtocolName.ODU)); List nepsN = node.nonnullOwnedNodeEdgePoint().values().stream() .filter(n -> n.getName().containsKey(new NameKey("iNodeEdgePoint_N"))) .sorted((nep1, nep2) -> nep1.getUuid().getValue().compareTo(nep2.getUuid().getValue())) .collect(Collectors.toList()); List nepsC; switch (dsrNodeType) { case "switch": nepsC = node.nonnullOwnedNodeEdgePoint().values().stream() .filter(n -> n.getName().containsKey(new NameKey("NodeEdgePoint_C"))) .sorted((nep1, nep2) -> nep1.getUuid().getValue().compareTo(nep2.getUuid().getValue())) .collect(Collectors.toList()); assertEquals("Switch-DSR node should have 4 NEPs network", 4, nepsN.size()); assertEquals("Switch-DSR node should have 4 NEPs client", 4, nepsC.size()); OwnedNodeEdgePoint nep1 = nepsC.get(2); Uuid client4NepUuid = new Uuid( UUID.nameUUIDFromBytes((nodeId.split("\\+")[0] + "+DSR+XPDR2-CLIENT4") .getBytes(Charset.forName("UTF-8"))).toString()); checkNepClient100GSwitch(nep1, client4NepUuid, "XPDR2-CLIENT4", "NodeEdgePoint_C", otnSwitch.getNodeId().getValue(), TapiStringConstants.DSR); OwnedNodeEdgePoint nep2 = nepsN.get(3); Uuid networkNepUuid = new Uuid( UUID.nameUUIDFromBytes((nodeId.split("\\+")[0] + "+iODU+XPDR2-NETWORK1") .getBytes(Charset.forName("UTF-8"))).toString()); checkNepNetworkODU4(nep2, networkNepUuid, "XPDR2-NETWORK1", "iNodeEdgePoint_N", otnSwitch.getNodeId().getValue(), TapiStringConstants.I_ODU); List nrgList = node.nonnullNodeRuleGroup().values().stream() .sorted((nrg1, nrg2) -> nrg1.getUuid().getValue().compareTo(nrg2.getUuid().getValue())) .collect(Collectors.toList()); checkNodeRuleGroupForSwitchDSR(nrgList, client4NepUuid, networkNepUuid, nodeUuid); break; case "mux": nepsC = node.nonnullOwnedNodeEdgePoint().values().stream() .filter(n -> n.getName().containsKey(new NameKey("NodeEdgePoint_C"))) .sorted((nep3, nep4) -> nep3.getUuid().getValue().compareTo(nep4.getUuid().getValue())) .collect(Collectors.toList()); assertEquals("Mux-DSR node should have 1 NEP network", 1, nepsN.size()); assertEquals("Mux-DSR node should have 4 NEPs client", 4, nepsC.size()); OwnedNodeEdgePoint nep3 = nepsC.get(2); Uuid client3NepUuid = new Uuid( UUID.nameUUIDFromBytes((nodeId.split("\\+")[0] + "+DSR+XPDR1-CLIENT3") .getBytes(Charset.forName("UTF-8"))).toString()); checkNepClient10G(nep3, client3NepUuid, "XPDR1-CLIENT3", "NodeEdgePoint_C", otnMuxA.getNodeId().getValue(), TapiStringConstants.DSR); OwnedNodeEdgePoint nep4 = nepsN.get(0); Uuid networkNepUuid2 = new Uuid( UUID.nameUUIDFromBytes((nodeId.split("\\+")[0] + "+iODU+XPDR1-NETWORK1") .getBytes(Charset.forName("UTF-8"))).toString()); checkNepNetworkODU4(nep4, networkNepUuid2, "XPDR1-NETWORK1", "iNodeEdgePoint_N", otnMuxA.getNodeId().getValue(), TapiStringConstants.I_ODU); List nrgList2 = node.nonnullNodeRuleGroup().values().stream() .sorted((nrg1, nrg2) -> nrg1.getUuid().getValue().compareTo(nrg2.getUuid().getValue())) .collect(Collectors.toList()); checkNodeRuleGroupForMuxDSR(nrgList2, client3NepUuid, networkNepUuid2, nodeUuid); break; case "tpdr": nepsC = node.nonnullOwnedNodeEdgePoint().values().stream() .filter(n -> n.getName().containsKey(new NameKey("100G-tpdr"))) .sorted((nep5, nep6) -> nep5.getUuid().getValue().compareTo(nep6.getUuid().getValue())) .collect(Collectors.toList()); assertEquals("Tpdr-DSR node should have 2 NEPs network", 2, nepsN.size()); assertEquals("Tpdr-DSR node should have 2 NEPs client", 2, nepsC.size()); OwnedNodeEdgePoint nep5 = nepsC.get(0); Uuid client1NepUuid = new Uuid( UUID.nameUUIDFromBytes((nodeId.split("\\+")[0] + "+DSR+XPDR1-CLIENT1") .getBytes(Charset.forName("UTF-8"))).toString()); checkNepClient100GTpdr(nep5, client1NepUuid, "XPDR1-CLIENT1", "100G-tpdr", tpdr100G.getNodeId().getValue(), TapiStringConstants.DSR); OwnedNodeEdgePoint nep6 = nepsN.get(1); Uuid networkNepUuid3 = new Uuid( UUID.nameUUIDFromBytes((nodeId.split("\\+")[0] + "+iODU+XPDR1-NETWORK1") .getBytes(Charset.forName("UTF-8"))).toString()); checkNepNetworkODU4(nep6, networkNepUuid3, "XPDR1-NETWORK1", "iNodeEdgePoint_N", tpdr100G.getNodeId().getValue(), TapiStringConstants.I_ODU); List nrgList3 = node.nonnullNodeRuleGroup().values().stream() .sorted((nrg1, nrg2) -> nrg1.getUuid().getValue().compareTo(nrg2.getUuid().getValue())) .collect(Collectors.toList()); checkNodeRuleGroupForTpdrDSR(nrgList3, client1NepUuid, networkNepUuid3, nodeUuid); break; default: fail(); break; } } private void checkOtsiNode( org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.topology.Node node, Uuid nodeUuid, String otsiNodeType, String nodeId) { assertEquals("incorrect node uuid", nodeUuid, node.getUuid()); assertEquals("incorrect node name", nodeId, node.getName().get(new NameKey("otsi node name")).getValue()); assertEquals("administrative state should be UNLOCKED", AdministrativeState.UNLOCKED, node.getAdministrativeState()); assertEquals("life-cycle state should be INSTALLED", LifecycleState.INSTALLED, node.getLifecycleState()); assertEquals("operational state should be ENABLED", OperationalState.ENABLED, node.getOperationalState()); assertEquals("value-name should be 'dsr/odu node name'", "otsi node name", node.nonnullName().values().stream().findFirst().get().getValueName()); assertEquals("otsi node should manage a single protocol layer : PHOTONIC_MEDIA", 1, node.getLayerProtocolName().size()); assertEquals("otsi node should manage a single protocol layer : PHOTONIC_MEDIA", LayerProtocolName.PHOTONICMEDIA, node.getLayerProtocolName().get(0)); List nepsI = node.nonnullOwnedNodeEdgePoint().values().stream() .filter(n -> n.getName().containsKey(new NameKey("iNodeEdgePoint"))) .sorted((nep1, nep2) -> nep1.getUuid().getValue().compareTo(nep2.getUuid().getValue())) .collect(Collectors.toList()); List nepsE = node.nonnullOwnedNodeEdgePoint().values().stream() .filter(n -> n.getName().containsKey(new NameKey("eNodeEdgePoint"))) .sorted((nep1, nep2) -> nep1.getUuid().getValue().compareTo(nep2.getUuid().getValue())) .collect(Collectors.toList()); switch (otsiNodeType) { case "switch": assertEquals("Switch-OTSi node should have 4 eNEPs", 4, nepsE.size()); assertEquals("Switch-OTSi node should have 4 iNEPs", 4, nepsI.size()); OwnedNodeEdgePoint nep1 = nepsI.get(1); Uuid inepUuid = new Uuid( UUID.nameUUIDFromBytes((nodeId.split("\\+")[0] + "+iOTSi+XPDR2-NETWORK2") .getBytes(Charset.forName("UTF-8"))).toString()); checkNepOtsiNode(nep1, inepUuid, "XPDR2-NETWORK2", "iNodeEdgePoint", otnSwitch.getNodeId().getValue(), TapiStringConstants.I_OTSI); OwnedNodeEdgePoint nep2 = nepsE.get(0); Uuid enepUuid = new Uuid( UUID.nameUUIDFromBytes((nodeId.split("\\+")[0] + "+eOTSi+XPDR2-NETWORK2") .getBytes(Charset.forName("UTF-8"))).toString()); checkNepOtsiNode(nep2, enepUuid, "XPDR2-NETWORK2", "eNodeEdgePoint", otnSwitch.getNodeId().getValue(), TapiStringConstants.E_OTSI); List nrgList = node.nonnullNodeRuleGroup().values().stream() .sorted((nrg1, nrg2) -> nrg1.getUuid().getValue().compareTo(nrg2.getUuid().getValue())) .collect(Collectors.toList()); checkNodeRuleGroupForSwitchOTSi(nrgList, enepUuid, inepUuid, nodeUuid); break; case "mux": assertEquals("Mux-OTSi node should have 1 eNEP", 1, nepsE.size()); assertEquals("Mux-OTSi node should have 1 iNEPs", 1, nepsI.size()); OwnedNodeEdgePoint nep3 = nepsE.get(0); Uuid enepUuid2 = new Uuid( UUID.nameUUIDFromBytes((nodeId.split("\\+")[0] + "+eOTSi+XPDR1-NETWORK1") .getBytes(Charset.forName("UTF-8"))).toString()); checkNepOtsiNode(nep3, enepUuid2, "XPDR1-NETWORK1", "eNodeEdgePoint", otnMuxA.getNodeId().getValue(), TapiStringConstants.E_OTSI); OwnedNodeEdgePoint nep4 = nepsI.get(0); Uuid inepUuid2 = new Uuid( UUID.nameUUIDFromBytes((nodeId.split("\\+")[0] + "+iOTSi+XPDR1-NETWORK1") .getBytes(Charset.forName("UTF-8"))).toString()); checkNepOtsiNode(nep4, inepUuid2, "XPDR1-NETWORK1", "iNodeEdgePoint", otnMuxA.getNodeId().getValue(), TapiStringConstants.I_OTSI); List nrgList2 = node.nonnullNodeRuleGroup().values().stream() .sorted((nrg1, nrg2) -> nrg1.getUuid().getValue().compareTo(nrg2.getUuid().getValue())) .collect(Collectors.toList()); checkNodeRuleGroupForMuxOTSi(nrgList2, enepUuid2, inepUuid2, nodeUuid); break; case "tpdr": assertEquals("Tpdr-OTSi node should have 2 eNEPs", 2, nepsE.size()); assertEquals("Tpdr-OTSi node should have 2 iNEPs", 2, nepsI.size()); OwnedNodeEdgePoint nep5 = nepsE.get(0); Uuid enepUuid3 = new Uuid( UUID.nameUUIDFromBytes((nodeId.split("\\+")[0] + "+eOTSi+XPDR1-NETWORK1") .getBytes(Charset.forName("UTF-8"))).toString()); checkNepOtsiNode(nep5, enepUuid3, "XPDR1-NETWORK1", "eNodeEdgePoint", tpdr100G.getNodeId().getValue(), TapiStringConstants.E_OTSI); OwnedNodeEdgePoint nep6 = nepsI.get(0); Uuid inepUuid3 = new Uuid( UUID.nameUUIDFromBytes((nodeId.split("\\+")[0] + "+iOTSi+XPDR1-NETWORK1") .getBytes(Charset.forName("UTF-8"))).toString()); checkNepOtsiNode(nep6, inepUuid3, "XPDR1-NETWORK1", "iNodeEdgePoint", tpdr100G.getNodeId().getValue(), TapiStringConstants.I_OTSI); List nrgList3 = node.nonnullNodeRuleGroup().values().stream() .sorted((nrg1, nrg2) -> nrg1.getUuid().getValue().compareTo(nrg2.getUuid().getValue())) .collect(Collectors.toList()); checkNodeRuleGroupForTpdrOTSi(nrgList3, enepUuid3, inepUuid3, nodeUuid); break; default: Iterator nepIterator = node.nonnullOwnedNodeEdgePoint().values().iterator(); int count = 1; while (nepIterator.hasNext()) { OwnedNodeEdgePoint nep = nepIterator.next(); Uuid nepUuid = new Uuid( UUID.nameUUIDFromBytes((String.join("+", "roadm node", "nep", String.valueOf(count))) .getBytes(Charset.forName("UTF-8"))).toString()); checkNepOtsiRdmNode(nep, nepUuid, new StringBuilder("NodeEdgePoint_").append(count).toString(), "NodeEdgePoint name"); count++; } List nrgList4 = node.nonnullNodeRuleGroup().values().stream() .sorted((nrg1, nrg2) -> nrg1.getUuid().getValue().compareTo(nrg2.getUuid().getValue())) .collect(Collectors.toList()); checkNodeRuleGroupForRdmInfra(nrgList4, count - 1); break; } } private void checkNepClient10G(OwnedNodeEdgePoint nep, Uuid nepUuid, String portName, String nepName, String nodeId, String extension) { assertEquals("bad uuid for " + portName, nepUuid, nep.getUuid()); List nameList = new ArrayList<>(nep.nonnullName().values()); Name name = nameList.get(0); assertEquals("value of client nep should be '" + portName + "'", String.join("+", nodeId, extension, portName), name.getValue()); assertEquals("value-name of client nep for '" + portName + "' should be '" + nepName + "'", nepName, name.getValueName()); assertEquals("Client nep should support 3 kind of cep", 3, nep.getSupportedCepLayerProtocolQualifier().size()); assertThat("client nep should support 3 kind of cep", nep.getSupportedCepLayerProtocolQualifier(), hasItems(ODUTYPEODU2.class, ODUTYPEODU2E.class, DIGITALSIGNALTYPE10GigELAN.class)); assertEquals("client nep should be of ETH protocol type", LayerProtocolName.ETH, nep.getLayerProtocolName()); checkCommonPartOfNep(nep, false); checkSIP(nep, portName, nodeId, extension); } private void checkNepNetworkODU4(OwnedNodeEdgePoint nep, Uuid nepUuid, String portName, String nepName, String nodeId, String extension) { assertEquals("bad uuid for " + portName, nepUuid, nep.getUuid()); List nameList = new ArrayList<>(nep.nonnullName().values()); Name name = nameList.get(0); assertEquals("value of network nep should be '" + portName + "'", String.join("+", nodeId, extension, portName), name.getValue()); assertEquals("value-name of network nep for '" + portName + "' should be '" + nepName + "'", nepName, name.getValueName()); assertEquals("Network nep should support 1 kind of cep", 1, nep.getSupportedCepLayerProtocolQualifier().size()); assertThat("network nep should support 1 kind of cep", nep.getSupportedCepLayerProtocolQualifier(), hasItem(ODUTYPEODU4.class)); assertEquals("network nep should be of ODU protocol type", LayerProtocolName.ODU, nep.getLayerProtocolName()); checkCommonPartOfNep(nep, false); checkSIP(nep, portName, nodeId, extension); } private void checkNodeRuleGroupForTpdrDSR(List nrgList, Uuid clientNepUuid, Uuid networkNepUuid, Uuid nodeUuid) { assertEquals("transponder DSR should contain 2 node rule group", 2, nrgList.size()); for (NodeRuleGroup nodeRuleGroup : nrgList) { assertEquals("each node-rule-group should contain 2 NEP for transponder DSR", 2, nodeRuleGroup.getNodeEdgePoint().size()); } List nodeEdgePointList = new ArrayList<>(nrgList.get(0).nonnullNodeEdgePoint().values()); assertThat("node-rule-group nb 1 should be between nep-client1 and nep-network1", nodeEdgePointList.get(0).getNodeEdgePointUuid().getValue(), either(containsString(networkNepUuid.getValue())).or(containsString(clientNepUuid.getValue()))); assertThat("node-rule-group nb 1 should be between nep-client1 and nep-network1", nodeEdgePointList.get(1).getNodeEdgePointUuid().getValue(), either(containsString(networkNepUuid.getValue())).or(containsString(clientNepUuid.getValue()))); assertEquals("node-rule-group nb 1 should be between nep-client1 and nep-network1 of the same node", nodeEdgePointList.get(0).getNodeUuid(), nodeUuid); assertEquals("node-rule-group nb 1 should be between nep-client1 and nep-network1 of the same node", nodeEdgePointList.get(1).getNodeUuid(), nodeUuid); List rule = new ArrayList<>(nrgList.get(1).nonnullRule().values()); assertEquals("node-rule-group nb 1 should contain a single rule", 1, rule.size()); assertEquals("local-id of the rule should be 'forward'", "forward", rule.get(0).getLocalId()); assertEquals("the forwarding rule should be 'MAYFORWARDACROSSGROUP'", ForwardingRule.MAYFORWARDACROSSGROUP, rule.get(0).getForwardingRule()); assertEquals("the rule type should be 'FORWARDING'", RuleType.FORWARDING, rule.get(0).getRuleType()); } private void checkNodeRuleGroupForMuxDSR(List nrgList, Uuid clientNepUuid, Uuid networkNepUuid, Uuid nodeUuid) { assertEquals("muxponder DSR should contain 4 node rule group", 4, nrgList.size()); for (NodeRuleGroup nodeRuleGroup : nrgList) { assertEquals("each node-rule-group should contain 2 NEP for muxponder DSR", 2, nodeRuleGroup.getNodeEdgePoint().size()); } List nodeEdgePointList = new ArrayList<>(nrgList.get(0).nonnullNodeEdgePoint().values()); assertThat("node-rule-group nb 2 should be between nep-client4 and nep-network1", nodeEdgePointList.get(1).getNodeEdgePointUuid().getValue(), either(containsString(networkNepUuid.getValue())).or(containsString(clientNepUuid.getValue()))); assertThat("node-rule-group nb 2 should be between nep-client4 and nep-network1", nodeEdgePointList.get(1).getNodeEdgePointUuid().getValue(), either(containsString(networkNepUuid.getValue())).or(containsString(clientNepUuid.getValue()))); assertEquals("node-rule-group nb 2 should be between nep-client4 and nep-network1 of the same node", nodeEdgePointList.get(0).getNodeUuid(), nodeUuid); assertEquals("node-rule-group nb 2 should be between nep-client4 and nep-network1 of the same node", nodeEdgePointList.get(1).getNodeUuid(), nodeUuid); List rule = new ArrayList<>(nrgList.get(1).nonnullRule().values()); assertEquals("node-rule-group nb 2 should contain a single rule", 1, rule.size()); assertEquals("local-id of the rule should be 'forward'", "forward", rule.get(0).getLocalId()); assertEquals("the forwarding rule should be 'MAYFORWARDACROSSGROUP'", ForwardingRule.MAYFORWARDACROSSGROUP, rule.get(0).getForwardingRule()); assertEquals("the rule type should be 'FORWARDING'", RuleType.FORWARDING, rule.get(0).getRuleType()); } private void checkNodeRuleGroupForSwitchDSR(List nrgList, Uuid clientNepUuid, Uuid networkNepUuid, Uuid nodeUuid) { assertEquals("Switch-DSR should contain a single node rule group", 1, nrgList.size()); assertEquals("Switch-DSR node-rule-group should contain 8 NEP", 8, nrgList.get(0).getNodeEdgePoint().size()); List nrg = nrgList.get(0).nonnullNodeEdgePoint().values().stream() .sorted((nrg1, nrg2) -> nrg1.getNodeEdgePointUuid().getValue() .compareTo(nrg2.getNodeEdgePointUuid().getValue())) .collect(Collectors.toList()); assertEquals("in the sorted node-rule-group, nep number 7 should be XPDR2-NETWORK1", networkNepUuid, nrg.get(6).getNodeEdgePointUuid()); assertEquals("in the sorted node-rule-group, nep number 6 should be XPDR2-CLIENT4", clientNepUuid, nrg.get(5).getNodeEdgePointUuid()); assertEquals("any item of the node-rule-group should have the same nodeUuid", nodeUuid, nrg.get(4).getNodeUuid()); assertEquals("any item of the node-rule-group should have the same nodeUuid", nodeUuid, nrg.get(3).getNodeUuid()); @Nullable List ruleList = new ArrayList<>(nrgList.get(0).nonnullRule().values()); assertEquals("node-rule-group should contain a single rule", 1, ruleList.size()); assertEquals("local-id of the rule should be 'forward'", "forward", ruleList.get(0).getLocalId()); assertEquals("the forwarding rule should be 'MAYFORWARDACROSSGROUP'", ForwardingRule.MAYFORWARDACROSSGROUP, ruleList.get(0).getForwardingRule()); assertEquals("the rule type should be 'FORWARDING'", RuleType.FORWARDING, ruleList.get(0).getRuleType()); } private void checkNodeRuleGroupForRdmInfra(List nrgList, int nbNeps) { assertEquals("RDM infra node - OTSi should contain a single node rule groups", 1, nrgList.size()); if (nbNeps > 0) { List nodeEdgePointList = new ArrayList<>(nrgList.get(0).getNodeEdgePoint().values()); assertEquals("RDM infra node -rule-group should contain " + nbNeps + " NEP", nbNeps, nodeEdgePointList.size()); } else { assertNull("RDM infra node -rule-group should contain no NEP", nrgList.get(0).getNodeEdgePoint()); } List ruleList = new ArrayList<>(nrgList.get(0).nonnullRule().values()); assertEquals("node-rule-group should contain a single rule", 1, ruleList.size()); assertEquals("local-id of the rule should be 'forward'", "forward", ruleList.get(0).getLocalId()); assertEquals("the forwarding rule should be 'MAYFORWARDACROSSGROUP'", ForwardingRule.MAYFORWARDACROSSGROUP, ruleList.get(0).getForwardingRule()); assertEquals("the rule type should be 'FORWARDING'", RuleType.FORWARDING, ruleList.get(0).getRuleType()); } private void checkNodeRuleGroupForTpdrOTSi(List nrgList, Uuid enepUuid, Uuid inepUuid, Uuid nodeUuid) { assertEquals("Tpdr-OTSi should contain two node rule groups", 2, nrgList.size()); List nodeEdgePointList = new ArrayList<>(nrgList.get(0).getNodeEdgePoint().values()); assertEquals("Tpdr-OTSi node-rule-group should contain 2 NEP", 2, nodeEdgePointList.size()); assertThat("Tpdr-OTSi node-rule-group should be between eNEP and iNEP of XPDR1-NETWORK1", nodeEdgePointList.get(0).getNodeEdgePointUuid().getValue(), either(containsString(enepUuid.getValue())).or(containsString(inepUuid.getValue()))); assertThat("Tpdr-OTSi node-rule-group should be between eNEP and iNEP of XPDR1-NETWORK1", nodeEdgePointList.get(1).getNodeEdgePointUuid().getValue(), either(containsString(enepUuid.getValue())).or(containsString(inepUuid.getValue()))); assertEquals("any item of the node-rule-group should have the same nodeUuid", nodeUuid, nodeEdgePointList.get(0).getNodeUuid()); assertEquals("any item of the node-rule-group should have the same nodeUuid", nodeUuid, nodeEdgePointList.get(1).getNodeUuid()); List ruleList = new ArrayList<>(nrgList.get(0).nonnullRule().values()); assertEquals("node-rule-group should contain a single rule", 1, ruleList.size()); assertEquals("local-id of the rule should be 'forward'", "forward", ruleList.get(0).getLocalId()); assertEquals("the forwarding rule should be 'MAYFORWARDACROSSGROUP'", ForwardingRule.MAYFORWARDACROSSGROUP, ruleList.get(0).getForwardingRule()); assertEquals("the rule type should be 'FORWARDING'", RuleType.FORWARDING, ruleList.get(0).getRuleType()); } private void checkNodeRuleGroupForMuxOTSi(List nrgList, Uuid enepUuid, Uuid inepUuid, Uuid nodeUuid) { assertEquals("Mux-OTSi should contain a single node rule group", 1, nrgList.size()); List nodeEdgePointList = new ArrayList<>(nrgList.get(0).getNodeEdgePoint().values()); assertEquals("Mux-OTSi node-rule-group should contain 2 NEP", 2, nodeEdgePointList.size()); assertThat("Mux-OTSi node-rule-group should be between eNEP and iNEP of XPDR1-NETWORK1", nodeEdgePointList.get(0).getNodeEdgePointUuid().getValue(), either(containsString(enepUuid.getValue())).or(containsString(inepUuid.getValue()))); assertThat("Mux-OTSi node-rule-group should be between eNEP and iNEP of XPDR1-NETWORK1", nodeEdgePointList.get(1).getNodeEdgePointUuid().getValue(), either(containsString(enepUuid.getValue())).or(containsString(inepUuid.getValue()))); assertEquals("any item of the node-rule-group should have the same nodeUuid", nodeUuid, nodeEdgePointList.get(0).getNodeUuid()); assertEquals("any item of the node-rule-group should have the same nodeUuid", nodeUuid, nodeEdgePointList.get(1).getNodeUuid()); List ruleList = new ArrayList<>(nrgList.get(0).nonnullRule().values()); assertEquals("node-rule-group should contain a single rule", 1, ruleList.size()); assertEquals("local-id of the rule should be 'forward'", "forward", ruleList.get(0).getLocalId()); assertEquals("the forwarding rule should be 'MAYFORWARDACROSSGROUP'", ForwardingRule.MAYFORWARDACROSSGROUP, ruleList.get(0).getForwardingRule()); assertEquals("the rule type should be 'FORWARDING'", RuleType.FORWARDING, ruleList.get(0).getRuleType()); } private void checkNodeRuleGroupForSwitchOTSi(List nrgList, Uuid enepUuid, Uuid inepUuid, Uuid nodeUuid) { assertEquals("Switch-OTSi should contain 4 node rule group", 4, nrgList.size()); for (NodeRuleGroup nodeRuleGroup : nrgList) { assertEquals("each node-rule-group should contain 2 NEP for Switch-OTSi", 2, nodeRuleGroup.getNodeEdgePoint().size()); } List nodeEdgePointList1 = new ArrayList<>(nrgList.get(3).nonnullNodeEdgePoint().values()); assertThat("Switch-OTSi node-rule-group nb 4 should be between eNEP and iNEP of XPDR2-NETWORK2", nodeEdgePointList1.get(0).getNodeEdgePointUuid().getValue(), either(containsString(enepUuid.getValue())).or(containsString(inepUuid.getValue()))); assertThat("Switch-OTSi node-rule-group nb 4 should be between eNEP and iNEP of XPDR2-NETWORK2", nodeEdgePointList1.get(1).getNodeEdgePointUuid().getValue(), either(containsString(enepUuid.getValue())).or(containsString(inepUuid.getValue()))); List nodeEdgePointList0 = new ArrayList<>(nrgList.get(0).getNodeEdgePoint().values()); assertEquals("any item of the node-rule-group should have the same nodeUuid", nodeUuid, nodeEdgePointList0.get(0).getNodeUuid()); assertEquals("any item of the node-rule-group should have the same nodeUuid", nodeUuid, nodeEdgePointList0.get(1).getNodeUuid()); List ruleList0 = new ArrayList<>(nrgList.get(0).nonnullRule().values()); assertEquals("node-rule-group should contain a single rule", 1, ruleList0.size()); assertEquals("local-id of the rule should be 'forward'", "forward", ruleList0.get(0).getLocalId()); assertEquals("the forwarding rule should be 'MAYFORWARDACROSSGROUP'", ForwardingRule.MAYFORWARDACROSSGROUP, ruleList0.get(0).getForwardingRule()); assertEquals("the rule type should be 'FORWARDING'", RuleType.FORWARDING, ruleList0.get(0).getRuleType()); } private void checkNepClient100GSwitch(OwnedNodeEdgePoint nep, Uuid nepUuid, String portName, String nepName, String nodeId, String extension) { assertEquals("bad uuid for " + portName, nepUuid, nep.getUuid()); List nameList = new ArrayList<>(nep.nonnullName().values()); assertEquals("value of client nep should be '" + portName + "'", String.join("+", nodeId, extension, portName), nameList.get(0).getValue()); assertEquals("value-name of client nep for '" + portName + "' should be '" + nepName + "'", nepName, nameList.get(0).getValueName()); assertEquals("Client nep should support 2 kind of cep", 2, nep.getSupportedCepLayerProtocolQualifier().size()); assertThat("client nep should support 2 kind of cep", nep.getSupportedCepLayerProtocolQualifier(), hasItems(ODUTYPEODU4.class, DIGITALSIGNALTYPE100GigE.class)); assertEquals("client nep should be of ETH protocol type", LayerProtocolName.ETH, nep.getLayerProtocolName()); checkCommonPartOfNep(nep, false); checkSIP(nep, portName, nodeId, extension); } private void checkNepClient100GTpdr(OwnedNodeEdgePoint nep, Uuid nepUuid, String portName, String nepName, String nodeId, String extension) { assertEquals("bad uuid for " + portName, nepUuid, nep.getUuid()); List nameList = new ArrayList<>(nep.nonnullName().values()); assertEquals("value of client nep should be '" + portName + "'", String.join("+", nodeId, extension, portName), nameList.get(0).getValue()); assertEquals("value-name of client nep for '" + portName + "' should be 100G-tpdr'", nepName, nameList.get(0).getValueName()); assertEquals("Client nep should support 1 kind of cep", 1, nep.getSupportedCepLayerProtocolQualifier().size()); assertThat("client nep should support 2 kind of cep", nep.getSupportedCepLayerProtocolQualifier(), hasItems(DIGITALSIGNALTYPE100GigE.class)); assertEquals("client nep should be of ETH protocol type", LayerProtocolName.ETH, nep.getLayerProtocolName()); checkCommonPartOfNep(nep, false); checkSIP(nep, portName, nodeId, extension); } private void checkNepOtsiNode(OwnedNodeEdgePoint nep, Uuid nepUuid, String portName, String nepName, String nodeId, String extension) { assertEquals("bad uuid for " + portName, nepUuid, nep.getUuid()); List nameList = new ArrayList<>(nep.nonnullName().values()); assertEquals("value of OTSi nep should be '" + portName + "'", String.join("+", nodeId, extension, portName), nameList.get(0).getValue()); assertEquals("value-name of OTSi nep should be '" + nepName + "'", nepName, nameList.get(0).getValueName()); assertEquals("OTSi nep should support 2 kind of cep", 2, nep.getSupportedCepLayerProtocolQualifier().size()); assertThat("OTSi nep should support 2 kind of cep", nep.getSupportedCepLayerProtocolQualifier(), hasItems(PHOTONICLAYERQUALIFIEROMS.class, PHOTONICLAYERQUALIFIEROTSi.class)); assertEquals("OTSi nep should be of PHOTONIC_MEDIA protocol type", LayerProtocolName.PHOTONICMEDIA, nep.getLayerProtocolName()); assertEquals("OTSi nep should support one SIP", 1, nep.getMappedServiceInterfacePoint().size()); checkCommonPartOfNep(nep, false); checkSIP(nep, portName, nodeId, extension); } private void checkSIP(OwnedNodeEdgePoint nep, String portName, String nodeId, String extension) { Uuid sipUuid = new Uuid(UUID.nameUUIDFromBytes((String.join("+", "SIP", nodeId, extension, portName)) .getBytes(Charset.forName("UTF-8"))).toString()); assertEquals("service-interface-point-uuid of network nep for '" + portName + "' should be '" + String.join("+", "SIP", portName) + "'", sipUuid, nep.getMappedServiceInterfacePoint() .get(new MappedServiceInterfacePointKey(sipUuid)).getServiceInterfacePointUuid()); } private void checkNepOtsiRdmNode(OwnedNodeEdgePoint nep, Uuid nepUuid, String portName, String nepName) { assertEquals("bad uuid for " + portName, nepUuid, nep.getUuid()); List nameList = new ArrayList<>(nep.nonnullName().values()); assertEquals("value of OTSi nep should be '" + portName + "'", portName, nameList.get(0).getValue()); assertEquals("value-name of OTSi nep should be '" + nepName + "'", nepName, nameList.get(0).getValueName()); assertEquals("OTSi nep of RDM infra node should support only 1 kind of cep", 1, nep.getSupportedCepLayerProtocolQualifier().size()); assertThat("OTSi nep should support 2 kind of cep", nep.getSupportedCepLayerProtocolQualifier(), hasItems(PHOTONICLAYERQUALIFIEROMS.class)); assertEquals("OTSi nep should be of PHOTONIC_MEDIA protocol type", LayerProtocolName.PHOTONICMEDIA, nep.getLayerProtocolName()); assertEquals("OTSi nep of RDM infra should support no SIP", 0, nep.nonnullMappedServiceInterfacePoint().size()); checkCommonPartOfNep(nep, true); } private void checkCommonPartOfNep(OwnedNodeEdgePoint nep, boolean isRdm) { assertEquals("link port direction should be DIRECTIONAL", PortDirection.BIDIRECTIONAL, nep.getLinkPortDirection()); assertEquals("administrative state should be UNLOCKED", AdministrativeState.UNLOCKED, nep.getAdministrativeState()); assertEquals("termination state should be TERMINATED BIDIRECTIONAL", TerminationState.TERMINATEDBIDIRECTIONAL, nep.getTerminationState()); assertEquals("life-cycle state should be INSTALLED", LifecycleState.INSTALLED, nep.getLifecycleState()); if (!isRdm) { assertEquals("client nep should support 1 SIP", 1, nep.getMappedServiceInterfacePoint().size()); } assertEquals("termination direction should be BIDIRECTIONAL", TerminationDirection.BIDIRECTIONAL, nep.getTerminationDirection()); assertEquals("operational state of client nep should be ENABLED", OperationalState.ENABLED, nep.getOperationalState()); assertEquals("link-port-role of client nep should be SYMMETRIC", PortRole.SYMMETRIC, nep.getLinkPortRole()); } private void checkTransitionalLink(Link link, Uuid node1Uuid, Uuid node2Uuid, String tp1, String tp2, String ietfNodeId) { Uuid linkUuid = new Uuid(UUID.nameUUIDFromBytes((tp1 + "to" + tp2) .getBytes(Charset.forName("UTF-8"))).toString()); assertEquals("bad uuid for link between DSR node " + tp1 + " and iOTSI port " + tp2, linkUuid, link.getUuid()); assertEquals("Available capacity unit should be GBPS", CapacityUnit.GBPS, link.getAvailableCapacity().getTotalSize().getUnit()); assertEquals("Available capacity -total size value should be 100", Uint64.valueOf(100), link.getAvailableCapacity().getTotalSize().getValue()); assertEquals("transitional link should be between 2 nodes of protocol layers ODU and PHOTONIC_MEDIA", 2, link.getTransitionedLayerProtocolName().size()); assertThat("transitional link should be between 2 nodes of protocol layers ODU and PHOTONIC_MEDIA", link.getTransitionedLayerProtocolName(), hasItems(LayerProtocolName.ODU.getName(), LayerProtocolName.PHOTONICMEDIA.getName())); assertEquals("transitional link should be BIDIRECTIONAL", ForwardingDirection.BIDIRECTIONAL, link.getDirection()); List nodeEdgePointList = new ArrayList<>(link.nonnullNodeEdgePoint().values()); assertEquals("topology uuid should be the same for the two termination point of the link", topologyUuid, nodeEdgePointList.get(0).getTopologyUuid()); assertEquals("topology uuid should be the same for the two termination point of the link", topologyUuid, nodeEdgePointList.get(1).getTopologyUuid()); assertThat("transitional links should terminate on DSR node and Photonic node", nodeEdgePointList.get(0).getNodeUuid().getValue(), either(containsString(node1Uuid.getValue())).or(containsString(node2Uuid.getValue()))); assertThat("transitional links should terminate on DSR node and Photonic node", nodeEdgePointList.get(1).getNodeUuid().getValue(), either(containsString(node1Uuid.getValue())).or(containsString(node2Uuid.getValue()))); Uuid nep1Uuid = new Uuid(UUID.nameUUIDFromBytes(tp1.getBytes(Charset.forName("UTF-8"))).toString()); Uuid nep2Uuid = new Uuid(UUID.nameUUIDFromBytes(tp2.getBytes(Charset.forName("UTF-8"))).toString()); assertThat("transitional links should terminate on " + tp1 + " and " + tp2 + " neps", nodeEdgePointList.get(0).getNodeEdgePointUuid().getValue(), either(containsString(nep1Uuid.getValue())).or(containsString(nep2Uuid.getValue()))); assertThat("transitional links should terminate on DSR node and Photonic node", nodeEdgePointList.get(1).getNodeEdgePointUuid().getValue(), either(containsString(nep1Uuid.getValue())).or(containsString(nep2Uuid.getValue()))); } private void checkOtnLink(Link link, Uuid node1Uuid, Uuid node2Uuid, Uuid tp1Uuid, Uuid tp2Uuid, Uuid linkUuid, String linkName) { assertEquals("bad name for the link", linkName, link.getName().get(new NameKey("otn link name")).getValue()); assertEquals("bad uuid for link", linkUuid, link.getUuid()); assertEquals("Available capacity unit should be MBPS", CapacityUnit.GBPS, link.getAvailableCapacity().getTotalSize().getUnit()); String prefix = linkName.split("-")[0]; if ("OTU4".equals(prefix)) { assertEquals("Available capacity -total size value should be 0", Uint64.valueOf(0), link.getAvailableCapacity().getTotalSize().getValue()); } else if ("ODTU4".equals(prefix)) { assertEquals("Available capacity -total size value should be 100 000", Uint64.valueOf(100000), link.getAvailableCapacity().getTotalSize().getValue()); } assertEquals("Total capacity unit should be GBPS", CapacityUnit.GBPS, link.getTotalPotentialCapacity().getTotalSize().getUnit()); assertEquals("Total capacity -total size value should be 100", Uint64.valueOf(100), link.getTotalPotentialCapacity().getTotalSize().getValue()); if ("OTU4".equals(prefix)) { assertEquals("otn link should be between 2 nodes of protocol layers PHOTONIC_MEDIA", LayerProtocolName.PHOTONICMEDIA.getName(), link.getLayerProtocolName().get(0).getName()); } else if ("ODTU4".equals(prefix)) { assertEquals("otn link should be between 2 nodes of protocol layers ODU", LayerProtocolName.ODU.getName(), link.getLayerProtocolName().get(0).getName()); } assertEquals("otn tapi link should be BIDIRECTIONAL", ForwardingDirection.BIDIRECTIONAL, link.getDirection()); List nodeEdgePointList = new ArrayList<>(link.nonnullNodeEdgePoint().values()); assertEquals("topology uuid should be the same for the two termination point of the link", topologyUuid, nodeEdgePointList.get(0).getTopologyUuid()); assertEquals("topology uuid should be the same for the two termination point of the link", topologyUuid, nodeEdgePointList.get(1).getTopologyUuid()); assertThat("otn links should terminate on two distinct nodes", nodeEdgePointList.get(0).getNodeUuid().getValue(), either(containsString(node1Uuid.getValue())).or(containsString(node2Uuid.getValue()))); assertThat("otn links should terminate on two distinct nodes", nodeEdgePointList.get(1).getNodeUuid().getValue(), either(containsString(node1Uuid.getValue())).or(containsString(node2Uuid.getValue()))); assertThat("otn links should terminate on two distinct tps", nodeEdgePointList.get(0).getNodeEdgePointUuid().getValue(), either(containsString(tp1Uuid.getValue())).or(containsString(tp2Uuid.getValue()))); assertThat("otn links should terminate on two distinct tps", nodeEdgePointList.get(1).getNodeEdgePointUuid().getValue(), either(containsString(tp1Uuid.getValue())).or(containsString(tp2Uuid.getValue()))); assertEquals("operational state should be ENABLED", OperationalState.ENABLED, link.getOperationalState()); assertEquals("administrative state should be UNLOCKED", AdministrativeState.UNLOCKED, link.getAdministrativeState()); } private void checkOmsLink(Link link, Uuid node1Uuid, Uuid node2Uuid, Uuid tp1Uuid, Uuid tp2Uuid, Uuid linkUuid, String linkName) { assertEquals("bad name for the link", linkName, link.getName().get(new NameKey("OMS link name")).getValue()); assertEquals("bad uuid for link", linkUuid, link.getUuid()); assertEquals("oms link should be between 2 nodes of protocol layers PHOTONIC_MEDIA", LayerProtocolName.PHOTONICMEDIA.getName(), link.getLayerProtocolName().get(0).getName()); assertEquals("otn tapi link should be BIDIRECTIONAL", ForwardingDirection.BIDIRECTIONAL, link.getDirection()); List nodeEdgePointList = new ArrayList<>(link.nonnullNodeEdgePoint().values()); assertEquals("oms link should be between 2 neps",2 , nodeEdgePointList.size()); assertEquals("topology uuid should be the same for the two termination point of the link", topologyUuid, nodeEdgePointList.get(0).getTopologyUuid()); assertEquals("topology uuid should be the same for the two termination point of the link", topologyUuid, nodeEdgePointList.get(1).getTopologyUuid()); assertThat("oms links should terminate on two distinct nodes", nodeEdgePointList.get(0).getNodeUuid().getValue(), either(containsString(node1Uuid.getValue())).or(containsString(node2Uuid.getValue()))); assertThat("oms links should terminate on two distinct nodes", nodeEdgePointList.get(1).getNodeUuid().getValue(), either(containsString(node1Uuid.getValue())).or(containsString(node2Uuid.getValue()))); assertThat("oms links should terminate on two distinct tps", nodeEdgePointList.get(0).getNodeEdgePointUuid().getValue(), either(containsString(tp1Uuid.getValue())).or(containsString(tp2Uuid.getValue()))); assertThat("oms links should terminate on two distinct tps", nodeEdgePointList.get(1).getNodeEdgePointUuid().getValue(), either(containsString(tp1Uuid.getValue())).or(containsString(tp2Uuid.getValue()))); } private Node changeTerminationPointState(Node initialNode, String tpid, AdminStates admin, State oper) { org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.Node1Builder tpdr1Bldr = new org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.Node1Builder( initialNode.augmentation(Node1.class)); Map tps = new HashMap<>(tpdr1Bldr.getTerminationPoint()); TerminationPointBuilder tpBldr = new TerminationPointBuilder( tps.get(new TerminationPointKey(new TpId(tpid)))); TerminationPoint1Builder tp1Bldr = new TerminationPoint1Builder(tpBldr.augmentation(TerminationPoint1.class)); tp1Bldr.setAdministrativeState(admin) .setOperationalState(oper); tpBldr.addAugmentation(tp1Bldr.build()); tps.replace(tpBldr.key(), tpBldr.build()); tpdr1Bldr.setTerminationPoint(tps); return new NodeBuilder(initialNode).addAugmentation(tpdr1Bldr.build()).build(); } private org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.networks.network .Link changeOtnLinkState( org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.networks.network .Link initiallink, AdminStates admin, State oper) { org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.networks.network .LinkBuilder linkBldr = new org.opendaylight.yang.gen.v1.urn.ietf.params.xml.ns.yang.ietf.network.topology.rev180226.networks.network .LinkBuilder(initiallink); Link1Builder link1Bldr = new Link1Builder(linkBldr.augmentation(Link1.class)); link1Bldr.setAdministrativeState(admin) .setOperationalState(oper); linkBldr.addAugmentation(link1Bldr.build()); return linkBldr.build(); } }