/** * ============LICENSE_START======================================================= * org.onap.aai * ================================================================================ * Copyright © 2017 AT&T Intellectual Property. All rights reserved. * ================================================================================ * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ============LICENSE_END========================================================= * * ECOMP is a trademark and service mark of AT&T Intellectual Property. */ package org.onap.aai.rest.search; import java.util.Map; import org.apache.tinkerpop.gremlin.process.traversal.dsl.graph.GraphTraversal; import org.apache.tinkerpop.gremlin.process.traversal.dsl.graph.GraphTraversalSource; import org.apache.tinkerpop.gremlin.structure.T; import org.apache.tinkerpop.gremlin.structure.Vertex; import org.junit.Test; import org.onap.aai.exceptions.AAIException; import org.onap.aai.serialization.db.exceptions.NoEdgeRuleFoundException; public class GFPVnfDataTest extends QueryTest { public GFPVnfDataTest() throws AAIException, NoEdgeRuleFoundException { super(); } @Test public void run() { super.run(); } @Override protected void createGraph() throws AAIException, NoEdgeRuleFoundException { //set up test graph Vertex genericvnf = graph.addVertex(T.label, "generic-vnf", T.id, "1", "aai-node-type", "generic-vnf", "vnf-id", "vnfid0","vnf-name", "vnf-name-1", "nf-type", "sample-nf-type"); Vertex linterface = graph.addVertex(T.label, "l-interface", T.id, "2", "aai-node-type", "l-interface", "l-interface-id", "l-interface-id0", "l-interface-name", "l-interface-name0"); Vertex l3inter1ipv4addresslist = graph.addVertex(T.label, "interface-ipv4-address-list", T.id, "3", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "l3-interface-ipv4-address-0"); Vertex l3inter1ipv6addresslist = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "4", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "l3-interface-ipv6-address-0"); Vertex vlan = graph.addVertex(T.label, "vlan", T.id, "5", "aai-node-type", "vlan","vlan-interface", "vlan1"); Vertex vnfImage = graph.addVertex(T.label, "vnf-image", T.id, "6", "aai-node-type", "vnf-image", "vnf-image-uuid", "vnf1imageuuid"); Vertex networkProfile = graph.addVertex(T.label, "network-profile", T.id, "7","aai-node-type", "network-profile","nm-profile-name", "nm-profile-name-1"); Vertex lagint = graph.addVertex(T.label, "lag-interface", T.id, "8", "aai-node-type", "lag-interface","interface-name", "lagint1"); Vertex lagint0 = graph.addVertex(T.label, "lag-interface", T.id, "11", "aai-node-type", "lag-interface","interface-name", "lagint31"); Vertex linterface0 = graph.addVertex(T.label, "l-interface", T.id, "12", "aai-node-type", "l-interface", "l-interface-id", "l-interface-id30", "l-interface-name", "l-interface-name30"); Vertex vlan0 = graph.addVertex(T.label, "vlan", T.id, "13", "aai-node-type", "vlan","vlan-interface", "vlan31"); Vertex l3inter1ipv4addresslist0 = graph.addVertex(T.label, "interface-ipv4-address-list", T.id, "14", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "l3-interface-ipv4-address-30"); Vertex l3inter1ipv6addresslist0 = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "15", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "l3-interface-ipv6-address-30"); Vertex genericvnf1 = graph.addVertex(T.label, "generic-vnf", T.id, "10", "aai-node-type", "generic-vnf", "vnf-id", "vnfid10","vnf-name", "vnf-name-11", "nf-type", "sample-nf-type11"); Vertex linterface1 = graph.addVertex(T.label, "l-interface", T.id, "20", "aai-node-type", "l-interface", "l-interface-id", "l-interface-id10", "l-interface-name", "l-interface-name10"); Vertex l3inter1ipv4addresslist1 = graph.addVertex(T.label, "interface-ipv4-address-list", T.id, "30", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "l3-interface-ipv4-address-10"); Vertex l3inter1ipv6addresslist1 = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "40", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "l3-interface-ipv6-address-10"); Vertex vlan1 = graph.addVertex(T.label, "vlan", T.id, "50", "aai-node-type", "vlan","vlan-interface", "vlan11"); Vertex vnfImage1 = graph.addVertex(T.label, "vnf-image", T.id, "60", "aai-node-type", "vnf-image", "vnf-image-uuid", "vnf1imageuuid11"); Vertex networkProfile1 = graph.addVertex(T.label, "network-profile", T.id, "70","aai-node-type", "network-profile","nm-profile-name", "nm-profile-name-11"); Vertex lagint1 = graph.addVertex(T.label, "lag-interface", T.id, "80", "aai-node-type", "lag-interface","interface-name", "lagint11"); Vertex lagint2 = graph.addVertex(T.label, "lag-interface", T.id, "21", "aai-node-type", "lag-interface","interface-name", "lagint312"); Vertex linterface2 = graph.addVertex(T.label, "l-interface", T.id, "22", "aai-node-type", "l-interface", "l-interface-id", "l-interface-id30", "l-interface-name", "l-interface-name302"); Vertex vlan2 = graph.addVertex(T.label, "vlan", T.id, "23", "aai-node-type", "vlan","vlan-interface", "vlan312"); Vertex l3inter1ipv4addresslist2 = graph.addVertex(T.label, "interface-ipv4-address-list", T.id, "24", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "l3-interface-ipv4-address-302"); Vertex l3inter1ipv6addresslist2 = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "25", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "l3-interface-ipv6-address-302"); GraphTraversalSource g = graph.traversal(); rules.addTreeEdge(g, genericvnf, linterface); rules.addTreeEdge(g, l3inter1ipv4addresslist, linterface); rules.addTreeEdge(g, l3inter1ipv6addresslist, linterface); rules.addTreeEdge(g, linterface,vlan); rules.addTreeEdge(g, l3inter1ipv4addresslist, vlan); rules.addTreeEdge(g, l3inter1ipv6addresslist, vlan); rules.addTreeEdge(g, genericvnf, lagint0); rules.addTreeEdge(g, lagint0,linterface0); rules.addTreeEdge(g, linterface0,vlan0); rules.addTreeEdge(g, l3inter1ipv4addresslist0, linterface0); rules.addTreeEdge(g, l3inter1ipv6addresslist0, linterface0); rules.addEdge(g, genericvnf, vnfImage); rules.addEdge(g, genericvnf, networkProfile); //false rules.addTreeEdge(g, genericvnf1, linterface1); rules.addTreeEdge(g, l3inter1ipv4addresslist1, linterface1); rules.addTreeEdge(g, l3inter1ipv6addresslist1, linterface1); rules.addTreeEdge(g, linterface1,vlan1); rules.addTreeEdge(g, l3inter1ipv4addresslist1, vlan1); rules.addTreeEdge(g, l3inter1ipv6addresslist1, vlan1); rules.addTreeEdge(g, genericvnf1, lagint2); rules.addTreeEdge(g, linterface2,lagint2); rules.addTreeEdge(g, linterface2,vlan2); rules.addTreeEdge(g, l3inter1ipv4addresslist2, linterface2); rules.addTreeEdge(g, l3inter1ipv6addresslist2, linterface2); rules.addEdge(g, genericvnf1, vnfImage1); rules.addEdge(g, genericvnf1, networkProfile1); expectedResult.add(genericvnf); expectedResult.add(l3inter1ipv4addresslist); expectedResult.add(l3inter1ipv6addresslist); expectedResult.add(vlan); expectedResult.add(linterface0); expectedResult.add(vnfImage); expectedResult.add(networkProfile); } @Override protected String getQueryName() { return "gfp-vnf-data"; } @Override protected void addStartNode(GraphTraversal g) { g.has("aai-node-type", "generic-vnf").has("vnf-name", "vnf-name-1").has("vnf-id", "vnfid0"); } @Override protected void addParam(Map params) { return; } }