import com.google.common.util.concurrent.ListenableFuture;
import com.google.common.util.concurrent.ListeningExecutorService;
import com.google.common.util.concurrent.MoreExecutors;
+import java.nio.charset.Charset;
import java.nio.charset.StandardCharsets;
import java.util.ArrayList;
import java.util.HashMap;
import org.eclipse.jdt.annotation.Nullable;
import org.junit.jupiter.api.BeforeAll;
import org.junit.jupiter.api.Test;
+import org.junit.jupiter.api.extension.ExtendWith;
+import org.mockito.Mock;
+import org.mockito.junit.jupiter.MockitoExtension;
+import org.opendaylight.mdsal.binding.api.RpcService;
import org.opendaylight.transportpce.common.InstanceIdentifiers;
import org.opendaylight.transportpce.common.network.NetworkTransactionImpl;
import org.opendaylight.transportpce.common.network.NetworkTransactionService;
import org.opendaylight.transportpce.servicehandler.service.ServiceDataStoreOperationsImpl;
import org.opendaylight.transportpce.tapi.TapiStringConstants;
import org.opendaylight.transportpce.tapi.connectivity.ConnectivityUtils;
+import org.opendaylight.transportpce.tapi.impl.rpc.GetLinkDetailsImpl;
+import org.opendaylight.transportpce.tapi.impl.rpc.GetNodeDetailsImpl;
+import org.opendaylight.transportpce.tapi.impl.rpc.GetNodeEdgePointDetailsImpl;
+import org.opendaylight.transportpce.tapi.impl.rpc.GetServiceInterfacePointDetailsImpl;
+import org.opendaylight.transportpce.tapi.impl.rpc.GetServiceInterfacePointListImpl;
+import org.opendaylight.transportpce.tapi.impl.rpc.GetTopologyDetailsImpl;
import org.opendaylight.transportpce.tapi.utils.TapiContext;
import org.opendaylight.transportpce.tapi.utils.TapiInitialORMapping;
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.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.GetServiceInterfacePointDetailsInput;
-import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.GetServiceInterfacePointDetailsOutput;
-import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.GetServiceInterfacePointListInput;
-import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.GetServiceInterfacePointListOutput;
-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.OperationalState;
-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.get.service._interface.point.list.output.Sip;
-import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev181210.get.service._interface.point.list.output.SipKey;
-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.topology.rev181210.ForwardingRule;
-import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.GetLinkDetailsInput;
-import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.GetLinkDetailsOutput;
-import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.GetNodeDetailsInput;
-import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.GetNodeDetailsOutput;
-import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.GetNodeEdgePointDetailsInput;
-import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.GetNodeEdgePointDetailsOutput;
-import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.GetTopologyDetailsInput;
-import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.GetTopologyDetailsOutput;
-import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.Node;
-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.get.topology.details.output.Topology;
-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.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.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.AdministrativeState;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.CAPACITYUNITGBPS;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.ForwardingDirection;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.GetServiceInterfacePointDetailsInput;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.GetServiceInterfacePointDetailsOutput;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.GetServiceInterfacePointListInput;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.GetServiceInterfacePointListOutput;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.LayerProtocolName;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.OperationalState;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.Uuid;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.get.service._interface.point.list.output.Sip;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.get.service._interface.point.list.output.SipKey;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.global._class.Name;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.common.rev221121.global._class.NameKey;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.FORWARDINGRULEMAYFORWARDACROSSGROUP;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.GetLinkDetailsInput;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.GetLinkDetailsOutput;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.GetNodeDetailsInput;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.GetNodeDetailsOutput;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.GetNodeEdgePointDetailsInput;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.GetNodeEdgePointDetailsOutput;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.GetTopologyDetailsInput;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.GetTopologyDetailsOutput;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.Node;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.RuleType;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.get.topology.details.output.Topology;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.node.NodeRuleGroup;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.node.OwnedNodeEdgePoint;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.node.rule.group.NodeEdgePoint;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.node.rule.group.Rule;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.topology.Link;
+import org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.topology.LinkKey;
+import org.opendaylight.yangtools.yang.common.Decimal64;
import org.opendaylight.yangtools.yang.common.RpcResult;
import org.opendaylight.yangtools.yang.common.Uint64;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
+@ExtendWith(MockitoExtension.class)
public class TapiTopologyImplTest extends AbstractTest {
private static final Logger LOG = LoggerFactory.getLogger(TapiTopologyImplTest.class);
+ @Mock
+ private RpcService rpcService;
private static ListeningExecutorService executorService;
private static CountDownLatch endSignal;
private static final int NUM_THREADS = 3;
}
@Test
- void getTopologyDetailsForTransponder100GTopologyWhenSuccessful()
- throws ExecutionException, InterruptedException {
- GetTopologyDetailsInput input = TapiTopologyDataUtils.buildGetTopologyDetailsInput(
- TapiStringConstants.TPDR_100G);
- TapiTopologyImpl tapiTopoImpl = new TapiTopologyImpl(getDataBroker(), tapiContext, topologyUtils, tapiLink);
- ListenableFuture<RpcResult<GetTopologyDetailsOutput>> result = tapiTopoImpl.getTopologyDetails(input);
- result.addListener(new Runnable() {
- @Override
- public void run() {
- endSignal.countDown();
- }
- }, executorService);
- endSignal.await();
+ void getTopologyDetailsForTransponder100GTopologyWhenSuccessful() throws ExecutionException, InterruptedException {
+ Uuid topologyUuid = new Uuid(UUID.nameUUIDFromBytes(TapiStringConstants.TPDR_100G.getBytes(
+ Charset.forName("UTF-8"))).toString());
+ LOG.info("TPDR100GUuid = {}", topologyUuid);
+ GetTopologyDetailsInput input = TapiTopologyDataUtils.buildGetTopologyDetailsInput(topologyUuid);
+// TapiTopologyImpl tapiTopoImpl = new TapiTopologyImpl(networkTransactionService, tapiContext, topologyUtils,
+// tapiLink);
+ ListenableFuture<RpcResult<GetTopologyDetailsOutput>> result = new GetTopologyDetailsImpl(tapiContext,
+ topologyUtils, tapiLink, networkTransactionService)
+ .invoke(input);
+ LOG.info("RESULT of getTopoDetailsTopo/name = {}", result.get().getResult().getTopology().getName().toString());
RpcResult<GetTopologyDetailsOutput> rpcResult = result.get();
@Nullable
Topology topology = rpcResult.getResult().getTopology();
List<Rule> ruleList = new ArrayList<>(nrgList.get(0).nonnullRule().values());
assertEquals(1, ruleList.size(), "node-rule-group should contain a single rule");
assertEquals("forward", ruleList.get(0).getLocalId(), "local-id of the rule should be 'forward'");
- assertEquals(ForwardingRule.MAYFORWARDACROSSGROUP, ruleList.get(0).getForwardingRule(),
+ assertEquals(FORWARDINGRULEMAYFORWARDACROSSGROUP.VALUE, ruleList.get(0).getForwardingRule(),
"the forwarding rule should be 'MAYFORWARDACROSSGROUP'");
- assertEquals(RuleType.FORWARDING, ruleList.get(0).getRuleType(), "the rule type should be 'FORWARDING'");
+ assertEquals(RuleType.FORWARDING, ruleList.get(0).getRuleType().iterator().next(),
+ "the rule type should be 'FORWARDING'");
}
@Test
- void getTopologyDetailsForOtnTopologyWithOtnLinksWhenSuccessful()
- throws ExecutionException, InterruptedException {
- GetTopologyDetailsInput input = TapiTopologyDataUtils.buildGetTopologyDetailsInput(
- TapiStringConstants.T0_MULTILAYER);
- TapiTopologyImpl tapiTopoImpl = new TapiTopologyImpl(getDataBroker(), tapiContext, topologyUtils, tapiLink);
- ListenableFuture<RpcResult<GetTopologyDetailsOutput>> result = tapiTopoImpl.getTopologyDetails(input);
- result.addListener(new Runnable() {
- @Override
- public void run() {
- endSignal.countDown();
- }
- }, executorService);
- endSignal.await();
+ void getTopologyDetailsForOtnTopologyWithOtnLinksWhenSuccessful() throws ExecutionException, InterruptedException {
+ Uuid topologyUuid = new Uuid(UUID.nameUUIDFromBytes(TapiStringConstants.T0_MULTILAYER.getBytes(
+ Charset.forName("UTF-8"))).toString());
+ LOG.info("T0MultilayerUuid = {}", topologyUuid);
+ GetTopologyDetailsInput input = TapiTopologyDataUtils.buildGetTopologyDetailsInput(topologyUuid);
+ ListenableFuture<RpcResult<GetTopologyDetailsOutput>> result = new GetTopologyDetailsImpl(tapiContext,
+ topologyUtils, tapiLink, networkTransactionService)
+ .invoke(input);
RpcResult<GetTopologyDetailsOutput> rpcResult = result.get();
@Nullable
Topology topology = rpcResult.getResult().getTopology();
assertNotNull(topology, "Topology should not be null");
- assertEquals(13, topology.getNode().size(), "Node list size should be 13");
+ for (Map.Entry<
+ org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.topology.NodeKey,
+ org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.topology.Node> entry :
+ topology.getNode().entrySet()) {
+ LOG.debug("NODESDETECTED = {}",entry.getValue().getName().toString());
+ }
+ assertEquals(7, topology.getNode().size(), "Node list size should be 7");
long nb1 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
.filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
- .equals("XPDR-A1-XPDR1+DSR"))
+ .equals("XPDR-A1-XPDR1+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("100G-tpdr"))))
.count();
long nb2 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
.filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
- .equals("SPDR-SA1-XPDR1+DSR"))
+ .equals("SPDR-SA1-XPDR1+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("NodeEdgePoint_C"))))
.count();
long nb3 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
.filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
- .equals("SPDR-SA1-XPDR1+DSR"))
+ .equals("SPDR-SA1-XPDR1+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("iNodeEdgePoint_N"))))
.count();
long nb4 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
.filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
- .equals("SPDR-SA1-XPDR2+DSR"))
+ .equals("SPDR-SA1-XPDR2+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("NodeEdgePoint_C"))))
.count();
long nb5 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
.filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
- .equals("SPDR-SA1-XPDR2+DSR"))
+ .equals("SPDR-SA1-XPDR2+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("iNodeEdgePoint_N"))))
.count();
assertEquals(2, nb5, "SPDR-SA1-XPDR2 (switch) should have 2 network neps");
- assertEquals(18, topology.getLink().size(), "Link list size should be 18");
+ long nb7 = topology.getNode().values().stream()
+ .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA)
+ && node.getLayerProtocolName().contains(LayerProtocolName.DSR))
+ .filter(node -> node.getName().get(new NameKey("otsi node name")).getValue()
+ .equals("XPDR-A1-XPDR1+XPONDER"))
+ .flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
+ .filter(nep -> nep.getName().containsKey(new NameKey("eNodeEdgePoint"))))
+ .count();
+ assertEquals(1, nb7, "XPDR-A1-XPDR1 should only have 1 OTSI network nep");
+ long nb8 = topology.getNode().values().stream()
+ .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA)
+ && node.getLayerProtocolName().contains(LayerProtocolName.DSR))
+ .filter(node -> node.getName().get(new NameKey("otsi node name")).getValue()
+ .equals("SPDR-SA1-XPDR1+XPONDER"))
+ .flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
+ .filter(nep -> nep.getName().containsKey(new NameKey("eNodeEdgePoint"))))
+ .count();
+ assertEquals(1, nb8, "SPDR-SA1-XPDR1 (mux) should have a single OTSI network nep");
+ long nb9 = topology.getNode().values().stream()
+ .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA)
+ && node.getLayerProtocolName().contains(LayerProtocolName.DSR))
+ .filter(node -> node.getName().get(new NameKey("otsi node name")).getValue()
+ .equals("SPDR-SA1-XPDR2+XPONDER"))
+ .flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
+ .filter(nep -> nep.getName().containsKey(new NameKey("eNodeEdgePoint"))))
+ .count();
+ assertEquals(2, nb9, "SPDR-SA1-XPDR2 (switch) should have 2 OTSI network nep");
+
+ assertEquals(10, topology.getLink().size(), "Link list size should be 10, no more transitionnal links");
Uuid topoUuid = new Uuid(UUID.nameUUIDFromBytes("T0 - Multi-layer topology".getBytes()).toString());
assertEquals(topoUuid, topology.getUuid(), "incorrect topology uuid");
assertEquals(
long nbPhotonicNodes = topology.nonnullNode().values().stream()
.filter(n -> n.getName().containsKey(new NameKey("otsi node name"))).count();
assertEquals(6, nbDsrOduNodes, "Node list should contain 6 DSR-ODU nodes");
- assertEquals(7, nbPhotonicNodes, "Node list should contain 7 Photonics nodes");
- long nbTransititionalLinks = topology.getLink().values().stream()
- .filter(l -> l.getName().containsKey(new NameKey("transitional link name"))).count();
- long nbOmsLinks = topology.getLink().values().stream()
- .filter(l -> l.getName().containsKey(new NameKey("OMS link name"))).count();
+ assertEquals(7, nbPhotonicNodes, "Node list should contain 7 Photonics node");
+ long nbOtsLinks = topology.getLink().values().stream()
+ .filter(l -> l.getName().containsKey(new NameKey("OTS link name"))).count();
long nbOtnLinks = topology.getLink().values().stream()
.filter(l -> l.getName().containsKey(new NameKey("otn link name"))).count();
- assertEquals(8, nbTransititionalLinks, "Link list should contain 8 transitional links");
- assertEquals(8, nbOmsLinks, "Link list should contain 8 transitional links");
+ assertEquals(8, nbOtsLinks, "Link list should contain 8 OTS links");
assertEquals(2, nbOtnLinks, "Link list should contain 2 OTN links");
- Uuid node1Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+DSR".getBytes(StandardCharsets.UTF_8))
+ Uuid node1Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+XPONDER".getBytes(StandardCharsets.UTF_8))
.toString());
- Uuid node2Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SC1-XPDR1+DSR".getBytes(StandardCharsets.UTF_8))
+ Uuid node2Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SC1-XPDR1+XPONDER".getBytes(StandardCharsets.UTF_8))
.toString());
- Uuid node3Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+OTSi".getBytes(StandardCharsets.UTF_8))
+ Uuid node3Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+XPONDER".getBytes(StandardCharsets.UTF_8))
.toString());
- Uuid node4Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SC1-XPDR1+OTSi".getBytes(StandardCharsets.UTF_8))
+ Uuid node4Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SC1-XPDR1+XPONDER".getBytes(StandardCharsets.UTF_8))
.toString());
Uuid tp1Uuid = new Uuid(UUID.nameUUIDFromBytes("SPDR-SA1-XPDR1+eODU+XPDR1-NETWORK1"
.getBytes(StandardCharsets.UTF_8)).toString());
"SPDR-SA1-XPDR1+iOTSi+XPDR1-NETWORK1toSPDR-SC1-XPDR1+iOTSi+XPDR1-NETWORK1");
checkOtnLink(links.get(1), topoUuid, node1Uuid, node2Uuid, tp1Uuid, tp2Uuid, link2Uuid,
"SPDR-SA1-XPDR1+eODU+XPDR1-NETWORK1toSPDR-SC1-XPDR1+eODU+XPDR1-NETWORK1");
+
}
@Test
void getTopologyDetailsForFullTapiTopologyWithLinksWhenSuccessful()
throws ExecutionException, InterruptedException {
- GetTopologyDetailsInput input = TapiTopologyDataUtils.buildGetTopologyDetailsInput(
- TapiStringConstants.T0_FULL_MULTILAYER);
- TapiTopologyImpl tapiTopoImpl = new TapiTopologyImpl(getDataBroker(), tapiContext, topologyUtils, tapiLink);
- ListenableFuture<RpcResult<GetTopologyDetailsOutput>> result = tapiTopoImpl.getTopologyDetails(input);
- result.addListener(new Runnable() {
- @Override
- public void run() {
- endSignal.countDown();
- }
- }, executorService);
- endSignal.await();
+ Uuid topologyUuid = new Uuid(UUID.nameUUIDFromBytes(TapiStringConstants.T0_FULL_MULTILAYER.getBytes(
+ Charset.forName("UTF-8"))).toString());
+ LOG.info("T0FullMultilayerUuid = {}", topologyUuid);
+ GetTopologyDetailsInput input = TapiTopologyDataUtils.buildGetTopologyDetailsInput(topologyUuid);
+ ListenableFuture<RpcResult<GetTopologyDetailsOutput>> result = new GetTopologyDetailsImpl(tapiContext,
+ topologyUtils, tapiLink, networkTransactionService)
+ .invoke(input);
RpcResult<GetTopologyDetailsOutput> rpcResult = result.get();
@Nullable
Topology topology = rpcResult.getResult().getTopology();
assertNotNull(topology, "Topology should not be null");
- // 2 Nodes per Xpdr/Spdr node (DSR-ODU & PHOT) + 1 Node per Roadm
- assertEquals(18, topology.getNode().size(), "Node list size should be 18");
+ // 2 Nodes per Xpdr/Spdr node (DSR-ODU & PHOT) + 3 Node per Roadm
+ assertEquals(10, topology.getNode().size(), "Node list size should be 10");
+ List<Map<NameKey, Name>> nodeNames = topology.getNode().values().stream()
+ .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA))
+ .map(Node::getName).collect(Collectors.toList());
+ LOG.info("TopologyNodes = {}", nodeNames.toString());
+ Node nodeTsp = topology.getNode().values().stream()
+ .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("XPDR-A1-XPDR1+XPONDER"))
+ .findAny().orElseThrow();
+ LOG.debug("XPDRA1 NEPs = {}", nodeTsp.getOwnedNodeEdgePoint().toString());
long nb1 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("XPDR-A1-XPDR1+DSR"))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("XPDR-A1-XPDR1+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("100G-tpdr"))))
.count();
// 2 client ports in configuration -> removed the checkTp so we have 2 NEPs
- assertEquals(2, nb1, "XPDR-A1-XPDR1+DSR should only have two client neps");
+ assertEquals(2, nb1, "XPDR-A1-XPDR1+XPONDER should only have two client neps");
long inb1 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("XPDR-A1-XPDR1+DSR"))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("XPDR-A1-XPDR1+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("iNodeEdgePoint_N"))))
.count();
- assertEquals(2, inb1, "XPDR-A1-XPDR1+DSR should only have two internal network neps");
+ assertEquals(2, inb1, "XPDR-A1-XPDR1+XPONDER should only have two internal network neps");
long enb1 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("XPDR-A1-XPDR1+DSR"))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("XPDR-A1-XPDR1+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("eNodeEdgePoint_N"))))
.count();
- assertEquals(2, enb1, "XPDR-A1-XPDR1+DSR should only have two external network neps");
+ assertEquals(2, enb1, "XPDR-A1-XPDR1+XPONDER should only have two external network neps");
long nb2 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("SPDR-SA1-XPDR1+DSR"))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("SPDR-SA1-XPDR1+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("NodeEdgePoint_C"))))
.count();
- assertEquals(4, nb2, "SPDR-SA1-XPDR1+DSR (mux) should have 4 client neps");
+ assertEquals(4, nb2, "SPDR-SA1-XPDR1+XPONDER (mux) should have 4 client neps");
long inb3 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("SPDR-SA1-XPDR1+DSR"))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("SPDR-SA1-XPDR1+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("iNodeEdgePoint_N"))))
.count();
- assertEquals(1, inb3, "SPDR-SA1-XPDR1+DSR (mux) should have a single internal network nep");
+ assertEquals(1, inb3, "SPDR-SA1-XPDR1+XPONDER (mux) should have a single internal network nep");
long enb3 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("SPDR-SA1-XPDR1+DSR"))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("SPDR-SA1-XPDR1+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("eNodeEdgePoint_N"))))
.count();
- assertEquals(4, enb3, "SPDR-SA1-XPDR1+DSR (mux) should have 4 external network nep");
+ assertEquals(4, enb3, "SPDR-SA1-XPDR1+XPONDER (mux) should have 4 external network nep");
long nb4 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("SPDR-SA1-XPDR2+DSR"))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("SPDR-SA1-XPDR2+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("NodeEdgePoint_C"))))
.count();
- assertEquals(4, nb4, "SPDR-SA1-XPDR2+DSR (switch) should have 4 client neps");
+ assertEquals(4, nb4, "SPDR-SA1-XPDR2+XPONDER (switch) should have 4 client neps");
long inb5 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("SPDR-SA1-XPDR2+DSR"))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("SPDR-SA1-XPDR2+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("iNodeEdgePoint_N"))))
.count();
- assertEquals(4, inb5, "SPDR-SA1-XPDR2+DSR (switch) should have 4 internal network neps");
+ assertEquals(4, inb5, "SPDR-SA1-XPDR2+XPONDER (switch) should have 4 internal network neps");
long enb5 = topology.getNode().values().stream()
.filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("SPDR-SA1-XPDR2+DSR"))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("SPDR-SA1-XPDR1+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("eNodeEdgePoint_N"))))
.count();
- assertEquals(4, enb5, "SPDR-SA1-XPDR2+DSR (switch) should have 4 external network neps");
+ assertEquals(4, enb5, "SPDR-SA1-XPDR2+XPONDER (switch) should have 4 external network neps");
- // Now lets check for the Photonic media nodes (same nodes as for DSR + 1 Roadm node)
- nb1 = topology.getNode().values().stream()
- .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("XPDR-A1-XPDR1+OTSi"))
- .flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
- .filter(nep -> nep.getName().containsKey(new NameKey("iNodeEdgePoint"))))
- .count();
- // 2 client ports in configuration -> removed the checkTp so we have 2 NEPs
- assertEquals(2, nb1, "XPDR-A1-XPDR1+OTSi should only have two internal network neps");
inb1 = topology.getNode().values().stream()
- .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("XPDR-A1-XPDR1+OTSi"))
+ .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("XPDR-A1-XPDR1+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
- .filter(nep -> nep.getName().containsKey(new NameKey("eNodeEdgePoint"))))
+ .filter(nep -> nep.getName().containsKey(new NameKey("eNodeEdgePoint_N"))))
.count();
- assertEquals(2, inb1, "XPDR-A1-XPDR1+OTSi should only have two external network neps");
+ assertEquals(2, inb1, "XPDR-A1-XPDR1+XPONDER should only have two external network neps");
enb1 = topology.getNode().values().stream()
- .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("XPDR-A1-XPDR1+OTSi"))
- .flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
- .filter(nep -> nep.getName().containsKey(new NameKey("PhotMedNodeEdgePoint"))))
- .count();
- assertEquals(2, enb1, "XPDR-A1-XPDR1+OTSi should only have two photonic network neps");
- nb2 = topology.getNode().values().stream()
- .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("SPDR-SA1-XPDR1+OTSi"))
+ .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("XPDR-A1-XPDR1+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
- .filter(nep -> nep.getName().containsKey(new NameKey("iNodeEdgePoint"))))
+ .filter(nep -> nep.getName().containsKey(new NameKey("iNodeEdgePoint_N"))))
.count();
- assertEquals(1, nb2, "SPDR-SA1-XPDR1+OTSi (mux) should have a single internal network nep");
+ assertEquals(2, enb1, "XPDR-A1-XPDR1+XPONDER should only have two photonic network neps");
inb3 = topology.getNode().values().stream()
- .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("SPDR-SA1-XPDR1+OTSi"))
+ .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("SPDR-SA1-XPDR1+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("eNodeEdgePoint"))))
.count();
- assertEquals(1, inb3, "SPDR-SA1-XPDR1+OTSi (mux) should have a single external network nep");
- enb3 = topology.getNode().values().stream()
- .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("SPDR-SA1-XPDR1+OTSi"))
- .flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
- .filter(nep -> nep.getName().containsKey(new NameKey("PhotMedNodeEdgePoint"))))
- .count();
- assertEquals(1, enb3, "SPDR-SA1-XPDR1+OTSi (mux) should have a single photonic network nep");
- nb4 = topology.getNode().values().stream()
- .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("SPDR-SA1-XPDR2+OTSi"))
- .flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
- .filter(nep -> nep.getName().containsKey(new NameKey("iNodeEdgePoint"))))
- .count();
- assertEquals(4, nb4, "SPDR-SA1-XPDR2+OTSi (switch) should have 4 internal network neps");
+ assertEquals(1, inb3, "SPDR-SA1-XPDR1+XPONDER (mux) should have a single external network nep");
inb5 = topology.getNode().values().stream()
- .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("SPDR-SA1-XPDR2+OTSi"))
+ .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.DSR))
+ .filter(node -> node.getName().get(new NameKey("dsr/odu node name")).getValue()
+ .equals("SPDR-SA1-XPDR2+XPONDER"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
.filter(nep -> nep.getName().containsKey(new NameKey("eNodeEdgePoint"))))
.count();
- assertEquals(4, inb5, "SPDR-SA1-XPDR2+OTSi (switch) should have 4 external network neps");
- enb5 = topology.getNode().values().stream()
- .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue()
- .equals("SPDR-SA1-XPDR2+OTSi"))
- .flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
- .filter(nep -> nep.getName().containsKey(new NameKey("PhotMedNodeEdgePoint"))))
- .count();
- assertEquals(4, enb5, "SPDR-SA1-XPDR2+OTSi (switch) should have 4 photonic network neps");
- // We should have 3 neps per DEGREE-TTP port and 3 neps per SRG-PP port
+ assertEquals(4, inb5, "SPDR-SA1-XPDR2+XPONDER (switch) should have 4 external network neps");
long inb6 = topology.getNode().values().stream()
- .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue().equals(
- "ROADM-A1+PHOTONIC_MEDIA"))
+ .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA)
+ && !node.getLayerProtocolName().contains(LayerProtocolName.DSR))
+ .filter(node -> node.getName().get(new NameKey("roadm node name")).getValue()
+ .equals("ROADM-A1+PHOTONIC_MEDIA"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
- .filter(nep -> nep.getName().values().stream().findFirst().orElseThrow().getValue().contains("DEG")))
+ .filter(nep -> nep.getName().values().stream().findAny().orElseThrow().getValue().contains("DEG")))
.count();
- assertEquals(6, inb6, "ROADM-A1+PHOTONIC_MEDIA (DEGREE) should have 6 network neps");
+ assertEquals(4, inb6, "ROADM-A1+PHOTONIC_MEDIA (DEGREE) should have 4 network neps");
long enb6 = topology.getNode().values().stream()
- .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA))
- .filter(node -> node.getName().values().stream().findFirst().orElseThrow().getValue().equals(
- "ROADM-A1+PHOTONIC_MEDIA"))
+ .filter(node -> node.getLayerProtocolName().contains(LayerProtocolName.PHOTONICMEDIA)
+ && !node.getLayerProtocolName().contains(LayerProtocolName.DSR))
+ .filter(node -> node.getName().get(new NameKey("roadm node name")).getValue()
+ .equals("ROADM-A1+PHOTONIC_MEDIA"))
.flatMap(node -> node.getOwnedNodeEdgePoint().values().stream()
- .filter(nep -> nep.getName().values().stream().findFirst().orElseThrow().getValue().contains("SRG")))
+ .filter(nep -> nep.getName().values().stream().findAny().orElseThrow().getValue().contains("SRG")))
.count();
- assertEquals(24, enb6, "ROADM-A1+PHOTONIC_MEDIA (SRG) should have 24 network neps");
+ assertEquals(8, enb6, "ROADM-A1+PHOTONIC_MEDIA (SRG) should have 8 network neps (OTS)");
// Links in openroadm topology which include Roadm-to-Roadm and Xpdr-to-Roadm (ortopo / 2)
- // + transitional links -> 1 per network port of Xpdr + OTN links / 2
- assertEquals(25, topology.getLink().size(), "Link list size should be 25");
+ // + transitional links -> 0 per network port of Xpdr + OTN links / 2
+ List<String> linkList = new ArrayList<>();
+ for (Map.Entry<LinkKey, Link> entry : topology.getLink().entrySet()) {
+ linkList.add(entry.getValue().getName().entrySet().iterator().next().getValue().toString());
+ }
+ assertEquals(9, topology.getLink().size(), "Link list size should be 8 XPDR To SRG and 1 DEG2A-DEG1C");
Uuid topoUuid = new Uuid(UUID.nameUUIDFromBytes("T0 - Full Multi-layer topology".getBytes()).toString());
assertEquals(topoUuid, topology.getUuid(), "incorrect topology uuid");
assertEquals(
assertEquals(8, nbDsrOduNodes, "Node list should contain 8 DSR-ODU nodes");
// We need to add the Roadms as Photonic nodes. Instead of 1 node as roadm infra we have 2 roadm nodes
assertEquals(8, nbPhotonicNodes, "Node list should contain 8 Photonics nodes");
- long nbTransititionalLinks = topology.getLink().values().stream()
- .filter(l -> l.getName().containsKey(new NameKey("transitional link name"))).count();
// Roadm-to-Roadm
long nbOmsLinks = topology.getLink().values().stream()
.filter(l -> l.getName().containsKey(new NameKey("OMS link name"))).count();
// Xpdr-to-Roadm
long nbOmsLinks1 = topology.getLink().values().stream()
.filter(l -> l.getName().containsKey(new NameKey("XPDR-RDM link name"))).count();
- // 1 transitional link per NETWORK port
- assertEquals(16, nbTransititionalLinks, "Link list should contain 16 transitional links");
// 1 OMS per ROADM-to-ROADM link + Existing XPDR-tp-ROADM link in openroadm topology
assertEquals(9, nbOmsLinks + nbOmsLinks1, "Link list should contain 9 OMS links");
}
@Test
- void getNodeAndNepsDetailsWhenSuccessful()
- throws ExecutionException, InterruptedException {
- GetTopologyDetailsInput input = TapiTopologyDataUtils.buildGetTopologyDetailsInput(
- TapiStringConstants.T0_FULL_MULTILAYER);
- TapiTopologyImpl tapiTopoImpl = new TapiTopologyImpl(getDataBroker(), tapiContext, topologyUtils, tapiLink);
- ListenableFuture<RpcResult<GetTopologyDetailsOutput>> result = tapiTopoImpl.getTopologyDetails(input);
- result.addListener(new Runnable() {
- @Override
- public void run() {
- endSignal.countDown();
- }
- }, executorService);
- endSignal.await();
+ void getNodeAndNepsDetailsWhenSuccessful() throws ExecutionException, InterruptedException {
+ Uuid topologyUuid = new Uuid(UUID.nameUUIDFromBytes(TapiStringConstants.T0_FULL_MULTILAYER.getBytes(
+ Charset.forName("UTF-8"))).toString());
+ GetTopologyDetailsInput input = TapiTopologyDataUtils.buildGetTopologyDetailsInput(topologyUuid);
+ ListenableFuture<RpcResult<GetTopologyDetailsOutput>> result = new GetTopologyDetailsImpl(tapiContext,
+ topologyUtils, tapiLink, networkTransactionService)
+ .invoke(input);
RpcResult<GetTopologyDetailsOutput> rpcResult = result.get();
@Nullable
Topology topology = rpcResult.getResult().getTopology();
for (Node node:topology.getNode().values()) {
- String nodeName = node.getName().values().stream().findFirst().orElseThrow().getValue();
- GetNodeDetailsInput input1 = TapiTopologyDataUtils.buildGetNodeDetailsInput(
- TapiStringConstants.T0_FULL_MULTILAYER, nodeName);
- ListenableFuture<RpcResult<GetNodeDetailsOutput>> result1 = tapiTopoImpl.getNodeDetails(input1);
- result.addListener(new Runnable() {
- @Override
- public void run() {
- endSignal.countDown();
- }
- }, executorService);
- endSignal.await();
+ Uuid nodeUuid = node.getUuid();
+ GetNodeDetailsInput input1 = TapiTopologyDataUtils.buildGetNodeDetailsInput(topologyUuid, nodeUuid);
+ ListenableFuture<RpcResult<GetNodeDetailsOutput>> result1 = new GetNodeDetailsImpl(tapiContext)
+ .invoke(input1);
RpcResult<GetNodeDetailsOutput> rpcResult1 = result1.get();
@Nullable
Node node1 = rpcResult1.getResult().getNode();
assertNotNull(node1, "Node should not be null");
for (OwnedNodeEdgePoint onep:node1.getOwnedNodeEdgePoint().values()) {
- String onepName = onep.getName().values().stream().findFirst().orElseThrow().getValue();
+ Uuid onepUuid = onep.getUuid();
GetNodeEdgePointDetailsInput input2 = TapiTopologyDataUtils.buildGetNodeEdgePointDetailsInput(
- TapiStringConstants.T0_FULL_MULTILAYER, nodeName, onepName);
- ListenableFuture<RpcResult<GetNodeEdgePointDetailsOutput>> result2
- = tapiTopoImpl.getNodeEdgePointDetails(input2);
- result.addListener(new Runnable() {
- @Override
- public void run() {
- endSignal.countDown();
- }
- }, executorService);
- endSignal.await();
+ topologyUuid, nodeUuid, onepUuid);
+ ListenableFuture<RpcResult<GetNodeEdgePointDetailsOutput>> result2 =
+ new GetNodeEdgePointDetailsImpl(tapiContext).invoke(input2);
RpcResult<GetNodeEdgePointDetailsOutput> rpcResult2 = result2.get();
org.opendaylight.yang.gen.v1
- .urn.onf.otcc.yang.tapi.topology.rev181210.get.node.edge.point.details.output.NodeEdgePoint
+ .urn.onf.otcc.yang.tapi.topology.rev221121.get.node.edge.point.details.output.NodeEdgePoint
onep1 = rpcResult2.getResult().getNodeEdgePoint();
assertNotNull(onep1, "Node Edge Point should not be null");
}
}
@Test
- void getLinkDetailsWhenSuccessful()
- throws ExecutionException, InterruptedException {
- GetTopologyDetailsInput input = TapiTopologyDataUtils.buildGetTopologyDetailsInput(
- TapiStringConstants.T0_FULL_MULTILAYER);
- TapiTopologyImpl tapiTopoImpl = new TapiTopologyImpl(getDataBroker(), tapiContext, topologyUtils, tapiLink);
- ListenableFuture<RpcResult<GetTopologyDetailsOutput>> result = tapiTopoImpl.getTopologyDetails(input);
- result.addListener(new Runnable() {
- @Override
- public void run() {
- endSignal.countDown();
- }
- }, executorService);
- endSignal.await();
+ void getLinkDetailsWhenSuccessful() throws ExecutionException, InterruptedException {
+ Uuid topologyUuid = new Uuid(UUID.nameUUIDFromBytes(TapiStringConstants.T0_FULL_MULTILAYER.getBytes(
+ Charset.forName("UTF-8"))).toString());
+ GetTopologyDetailsInput input = TapiTopologyDataUtils.buildGetTopologyDetailsInput(topologyUuid);
+ ListenableFuture<RpcResult<GetTopologyDetailsOutput>> result = new GetTopologyDetailsImpl(tapiContext,
+ topologyUtils, tapiLink, networkTransactionService)
+ .invoke(input);
RpcResult<GetTopologyDetailsOutput> rpcResult = result.get();
@Nullable
Topology topology = rpcResult.getResult().getTopology();
for (Link link:topology.getLink().values()) {
- String linkName = link.getName().values().stream().findFirst().orElseThrow().getValue();
+ Uuid linkUuid = link.getUuid();
GetLinkDetailsInput input1 = TapiTopologyDataUtils.buildGetLinkDetailsInput(
- TapiStringConstants.T0_FULL_MULTILAYER, linkName);
- ListenableFuture<RpcResult<GetLinkDetailsOutput>> result1 = tapiTopoImpl.getLinkDetails(input1);
- result.addListener(new Runnable() {
- @Override
- public void run() {
- endSignal.countDown();
- }
- }, executorService);
- endSignal.await();
+ topologyUuid, linkUuid);
+ ListenableFuture<RpcResult<GetLinkDetailsOutput>> result1 = new GetLinkDetailsImpl(tapiContext)
+ .invoke(input1);
RpcResult<GetLinkDetailsOutput> rpcResult1 = result1.get();
- org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210.get.link.details.output.Link link1
+ org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121.get.link.details.output.Link link1
= rpcResult1.getResult().getLink();
assertNotNull(link1, "Link should not be null");
}
}
@Test
- void getSipDetailsWhenSuccessful()
- throws ExecutionException, InterruptedException {
+ void getSipDetailsWhenSuccessful() throws ExecutionException, InterruptedException {
GetServiceInterfacePointListInput input = TapiTopologyDataUtils.buildServiceInterfacePointListInput();
- TapiTopologyImpl tapiTopoImpl = new TapiTopologyImpl(getDataBroker(), tapiContext, topologyUtils, tapiLink);
- ListenableFuture<RpcResult<GetServiceInterfacePointListOutput>> result = tapiTopoImpl
- .getServiceInterfacePointList(input);
- result.addListener(new Runnable() {
- @Override
- public void run() {
- endSignal.countDown();
- }
- }, executorService);
- endSignal.await();
+ ListenableFuture<RpcResult<GetServiceInterfacePointListOutput>> result =
+ new GetServiceInterfacePointListImpl(tapiContext).invoke(input);
RpcResult<GetServiceInterfacePointListOutput> rpcResult = result.get();
Map<SipKey, Sip> sipMap = rpcResult.getResult().getSip();
for (Sip sip:sipMap.values()) {
Uuid sipUuid = sip.getUuid();
GetServiceInterfacePointDetailsInput input1 = TapiTopologyDataUtils
.buildGetServiceInterfacePointDetailsInput(sipUuid);
- ListenableFuture<RpcResult<GetServiceInterfacePointDetailsOutput>> result1
- = tapiTopoImpl.getServiceInterfacePointDetails(input1);
- result.addListener(new Runnable() {
- @Override
- public void run() {
- endSignal.countDown();
- }
- }, executorService);
- endSignal.await();
+ ListenableFuture<RpcResult<GetServiceInterfacePointDetailsOutput>> result1 =
+ new GetServiceInterfacePointDetailsImpl(tapiContext).invoke(input1);
RpcResult<GetServiceInterfacePointDetailsOutput> rpcResult1 = result1.get();
org.opendaylight.yang.gen.v1
- .urn.onf.otcc.yang.tapi.common.rev181210.get.service._interface.point.details.output.Sip sip1
+ .urn.onf.otcc.yang.tapi.common.rev221121.get.service._interface.point.details.output.Sip sip1
= rpcResult1.getResult().getSip();
assertNotNull(sip1, "Sip should not be null");
}
Uuid linkUuid, String linkName) {
assertEquals(linkName, link.getName().get(new NameKey("otn link name")).getValue(), "bad name for the link");
assertEquals(linkUuid, link.getUuid(), "bad uuid for link");
- assertEquals(CapacityUnit.GBPS, link.getAvailableCapacity().getTotalSize().getUnit(),
+ assertEquals(CAPACITYUNITGBPS.VALUE, link.getAvailableCapacity().getTotalSize().getUnit(),
"Available capacity unit should be MBPS");
String prefix = linkName.split("-")[0];
if ("OTU4".equals(prefix)) {
assertEquals(Uint64.valueOf(100000), link.getAvailableCapacity().getTotalSize().getValue(),
"Available capacity -total size value should be 100 000");
}
- assertEquals(CapacityUnit.GBPS, link.getTotalPotentialCapacity().getTotalSize().getUnit(),
+ assertEquals(CAPACITYUNITGBPS.VALUE, link.getTotalPotentialCapacity().getTotalSize().getUnit(),
"Total capacity unit should be GBPS");
- assertEquals(Uint64.valueOf(100), link.getTotalPotentialCapacity().getTotalSize().getValue(),
+ assertEquals(Decimal64.valueOf("100"), link.getTotalPotentialCapacity().getTotalSize().getValue(),
"Total capacity -total size value should be 100");
if ("OTU4".equals(prefix)) {
assertEquals("otn link should be between 2 nodes of protocol layers PHOTONIC_MEDIA",
}
assertEquals(ForwardingDirection.BIDIRECTIONAL, link.getDirection(),
"transitional link should be BIDIRECTIONAL");
- List<org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev181210
+ List<org.opendaylight.yang.gen.v1.urn.onf.otcc.yang.tapi.topology.rev221121
.link.NodeEdgePoint> nodeEdgePointList = new ArrayList<>(link.nonnullNodeEdgePoint().values());
assertEquals(topoUuid, nodeEdgePointList.get(0).getTopologyUuid(),
"topology uuid should be the same for the two termination point of the link");