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/**
* ============LICENSE_START=======================================================
* org.onap.aai
* ================================================================================
* Copyright © 2017-2018 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=========================================================
*/
package org.onap.aai.rest.search;
import static org.junit.Assert.*;
import java.util.ArrayList;
import java.util.Collection;
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.process.traversal.step.util.Tree;
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 GetServiceTopologyTest extends TreeQueryTest {
public GetServiceTopologyTest() throws AAIException, NoEdgeRuleFoundException {
super();
}
@Override
protected void createGraph() throws AAIException, NoEdgeRuleFoundException {
//Set up the test graph
Vertex customer = graph.addVertex(T.label, "customer", T.id, "1", "aai-node-type", "customer", "global-customer-id", "customer-id-1", "subscriber-name", "customer-name1", "subscriber-type", "customer-type1");
Vertex serviceSubscription = graph.addVertex(T.label, "service-subscription", T.id, "2", "aai-node-type", "service-subscription", "service-type", "service-subcription-1");
Vertex serviceInstanceOne = graph.addVertex(T.label, "service-instance", T.id, "3", "aai-node-type", "service-instance", "service-instance-id", "service-instance-id-1", "service-instance-name", "service-instance-name-1");
Vertex genericVnfOne = graph.addVertex(T.label, "generic-vnf", T.id, "4", "aai-node-type", "generic-vnf", "vnf-name", "vnf-name", "vnf-type", "test", "vnf-id", "vnf-test=1");
Vertex lInterfaceOne = graph.addVertex(T.label, "l-interface", T.id, "5", "aai-node-type", "l-interface", "interface-name", "test-l-interface-one");
Vertex l3Ipv4AddressListOne = graph.addVertex(T.label, "l3-interface-ipv4-address-list", T.id, "6", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "test1");
Vertex l3Ipv6AddressListOne = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "7", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "test2");
Vertex vlanOne = graph.addVertex(T.label, "vlan", T.id, "8", "aai-node-type", "vlan", "vlan-interface", "test-vlan-one");
Vertex l3Ipv4AddressListTwo = graph.addVertex(T.label, "l3-interface-ipv4-address-list", T.id, "9", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "test3");
Vertex l3Ipv6AddressListTwo = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "10", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "test4");
Vertex vserverOne = graph.addVertex(T.label, "vserver", T.id, "11", "aai-node-type", "vserver", "vserver-id-one", "test-vserver", "vserver-selflink", "test", "vserver-name", "test-vserver");
Vertex lInterfaceTwo = graph.addVertex(T.label, "l-interface", T.id, "12", "aai-node-type", "l-interface", "interface-name", "test-l-interface-two");
Vertex l3Ipv4AddressListThree = graph.addVertex(T.label, "l3-interface-ipv4-address-list", T.id, "13", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "test5");
Vertex l3Ipv6AddressListThree = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "14", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "test6");
Vertex vlanTwo = graph.addVertex(T.label, "vlan", T.id, "15", "aai-node-type", "vlan", "vlan-interface", "test-vlan-two");
Vertex l3Ipv4AddressListFour = graph.addVertex(T.label, "l3-interface-ipv4-address-list", T.id, "16", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "test7");
Vertex l3Ipv6AddressListFour = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "17", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "test8");
Vertex pserver = graph.addVertex(T.label, "pserver", T.id, "18", "aai-node-type", "pserver", "hostname", "test-pserver");
Vertex complex = graph.addVertex(T.label, "complex", T.id, "19", "aai-node-type", "complex", "physical-location-id", "test-complex");
Vertex allottedResource = graph.addVertex(T.label, "allotted-resource", T.id, "20", "aai-node-type", "allotted-resource", "id", "test-resource");
Vertex serviceInstanceTwo = graph.addVertex(T.label, "service-instance", T.id, "21", "aai-node-type", "service-instance", "service-instance-id", "service-instance-id-2", "service-instance-name", "service-instance-name-1");
Vertex genericVnfTwo = graph.addVertex(T.label, "generic-vnf", T.id, "22", "aai-node-type", "generic-vnf", "vnf-name", "vnf-name", "vnf-type", "test", "vnf-id", "vnf-test-2");
Vertex lInterfaceThree = graph.addVertex(T.label, "l-interface", T.id, "23", "aai-node-type", "l-interface", "interface-name", "test-l-interface-three");
Vertex l3Ipv4AddressListFive = graph.addVertex(T.label, "l3-interface-ipv4-address-list", T.id, "24", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "test9");
Vertex l3Ipv6AddressListFive = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "25", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "test10");
Vertex vlanThree = graph.addVertex(T.label, "vlan", T.id, "26", "aai-node-type", "vlan", "vlan-interface", "test-vlan-three");
Vertex l3Ipv4AddressListSix = graph.addVertex(T.label, "l3-interface-ipv4-address-list", T.id, "27", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "test11");
Vertex l3Ipv6AddressListSix = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "28", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "test12");
Vertex vserverTwo = graph.addVertex(T.label, "vserver", T.id, "29", "aai-node-type", "vserver", "vserver-id", "test-vserver", "vserver-selflink", "test", "vserver-name", "test-vserver=two");
Vertex lInterfaceFour = graph.addVertex(T.label, "l-interface", T.id, "30", "aai-node-type", "l-interface", "interface-name", "test-l-interface-four");
Vertex l3Ipv4AddressListSeven = graph.addVertex(T.label, "l3-interface-ipv4-address-list", T.id, "31", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "test13");
Vertex l3Ipv6AddressListSeven = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "32", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "test14");
Vertex vlanFour = graph.addVertex(T.label, "vlan", T.id, "33", "aai-node-type", "vlan", "vlan-interface", "test-vlan-four");
Vertex l3Ipv4AddressListEight = graph.addVertex(T.label, "l3-interface-ipv4-address-list", T.id, "34", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "test15");
Vertex l3Ipv6AddressListEight = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "35", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "test16");
GraphTraversalSource g = graph.traversal();
rules.addTreeEdge(g, customer, serviceSubscription);
rules.addTreeEdge(g, serviceSubscription, serviceInstanceOne);
rules.addEdge(g, serviceInstanceOne, genericVnfOne);
rules.addTreeEdge(g, genericVnfOne, lInterfaceOne);
rules.addTreeEdge(g, lInterfaceOne, l3Ipv4AddressListOne);
rules.addTreeEdge(g, lInterfaceOne, l3Ipv6AddressListOne);
rules.addTreeEdge(g, lInterfaceOne, vlanOne);
rules.addTreeEdge(g, vlanOne, l3Ipv4AddressListTwo);
rules.addTreeEdge(g, vlanOne, l3Ipv6AddressListTwo);
rules.addEdge(g, genericVnfOne, vserverOne);
rules.addTreeEdge(g, vserverOne, lInterfaceTwo);
rules.addTreeEdge(g, lInterfaceTwo, l3Ipv4AddressListThree);
rules.addTreeEdge(g, lInterfaceTwo, l3Ipv6AddressListThree);
rules.addTreeEdge(g, lInterfaceTwo, vlanTwo);
rules.addTreeEdge(g, vlanTwo, l3Ipv4AddressListFour);
rules.addTreeEdge(g, vlanTwo, l3Ipv6AddressListFour);
rules.addEdge(g, vserverOne, pserver);
rules.addEdge(g, pserver, complex);
rules.addEdge(g, serviceInstanceOne, allottedResource);
rules.addTreeEdge(g, allottedResource, serviceInstanceTwo);
rules.addEdge(g, serviceInstanceTwo, genericVnfTwo);
rules.addTreeEdge(g, genericVnfTwo, lInterfaceThree);
rules.addTreeEdge(g, lInterfaceThree, l3Ipv4AddressListFive);
rules.addTreeEdge(g, lInterfaceThree, l3Ipv6AddressListFive);
rules.addTreeEdge(g, lInterfaceThree, vlanThree);
rules.addTreeEdge(g, vlanThree, l3Ipv4AddressListSix);
rules.addTreeEdge(g, vlanThree, l3Ipv6AddressListSix);
rules.addEdge(g, genericVnfTwo, vserverTwo);
rules.addTreeEdge(g, vserverTwo, lInterfaceFour);
rules.addTreeEdge(g, lInterfaceFour, l3Ipv4AddressListSeven);
rules.addTreeEdge(g, lInterfaceFour, l3Ipv6AddressListSeven);
rules.addTreeEdge(g, lInterfaceFour, vlanFour);
rules.addTreeEdge(g, vlanFour, l3Ipv4AddressListEight);
rules.addTreeEdge(g, vlanFour, l3Ipv6AddressListEight);
expectedResult.add(serviceInstanceOne);
expectedResult.add(genericVnfOne);
expectedResult.add(lInterfaceOne);
expectedResult.add(l3Ipv4AddressListOne);
expectedResult.add(l3Ipv6AddressListOne);
expectedResult.add(vlanOne);
expectedResult.add(l3Ipv4AddressListTwo);
expectedResult.add(l3Ipv6AddressListTwo);
expectedResult.add(vserverOne);
expectedResult.add(lInterfaceTwo);
expectedResult.add(l3Ipv4AddressListThree);
expectedResult.add(l3Ipv6AddressListThree);
expectedResult.add(vlanTwo);
expectedResult.add(l3Ipv4AddressListFour);
expectedResult.add(l3Ipv6AddressListFour);
expectedResult.add(pserver);
expectedResult.add(complex);
expectedResult.add(allottedResource);
expectedResult.add(serviceInstanceTwo);
expectedResult.add(genericVnfTwo);
expectedResult.add(lInterfaceThree);
expectedResult.add(l3Ipv4AddressListFive);
expectedResult.add(l3Ipv6AddressListFive);
expectedResult.add(vlanThree);
expectedResult.add(l3Ipv4AddressListSix);
expectedResult.add(l3Ipv6AddressListSix);
expectedResult.add(vserverTwo);
expectedResult.add(lInterfaceFour);
expectedResult.add(l3Ipv4AddressListSeven);
expectedResult.add(l3Ipv6AddressListSeven);
expectedResult.add(vlanFour);
expectedResult.add(l3Ipv4AddressListEight);
expectedResult.add(l3Ipv6AddressListEight);
}
@Test
public void run() {
super.run();
Tree tree = treeList.get(0);
ArrayList<Vertex> actualResult = new ArrayList<Vertex>();
int i = 1;
do {
actualResult.addAll(tree.getObjectsAtDepth(i));
i++;
} while(!tree.getObjectsAtDepth(i).isEmpty());
assertEquals("result has expected number of values", actualResult.size(), expectedResult.size());
int size = actualResult.size() == expectedResult.size() ? expectedResult.size() : 0;
for(i = 0; i < size; i++) {
assertTrue("result has node " + expectedResult.get(i), actualResult.contains(expectedResult.get(i)));
}
}
@Override
protected String getQueryName() {
return "getServiceTopology";
}
@Override
protected void addStartNode(GraphTraversal<Vertex, Vertex> g) {
g.has("aai-node-type", "service-instance").has("service-instance-id", "service-instance-id-1");
}
@Override
protected void addParam(Map<String, Object> params) {
return;
}
}
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