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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 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 TopologyDetailFromVnfQueryTest extends QueryTest {
public TopologyDetailFromVnfQueryTest() throws AAIException, NoEdgeRuleFoundException {
super();
}
@Test
public void run() {
super.run();
}
@Override
protected void createGraph() throws AAIException, NoEdgeRuleFoundException {
Vertex gnvf1 = graph.addVertex(T.label, "generic-vnf", T.id, "1", "aai-node-type", "generic-vnf", "vnf-id", "vnfuuid", "vnf-name", "vnf-name-1", "service-id", "service-id-1");
Vertex gnvf2 = graph.addVertex(T.label, "generic-vnf", T.id, "2", "aai-node-type", "generic-vnf", "vnf-id", "vnf-id-2", "vnf-name", "vnf-name-2", "service-id", "service-id-wrong");
Vertex vserver1 = graph.addVertex(T.label, "vserver", T.id, "3", "aai-node-type", "vserver", "vserver-id", "vserver-id-1", "vserver-name", "vserver-name-1", "vserver-selflink", "vserver-selflink-1");
Vertex vserver2 = graph.addVertex(T.label, "vserver", T.id, "4", "aai-node-type", "vserver", "vserver-id", "vserver-id-2", "vserver-name", "vserver-name-2", "vserver-selflink", "vserver-selflink-2");
Vertex vnfc1 = graph.addVertex(T.label, "vnfc", T.id, "5", "aai-node-type", "vnfc", "vnfc-name", "vnfc-name-1", "nfc-naming-code", "nfc-naming-code-1");
Vertex vnfc2 = graph.addVertex(T.label, "vnfc", T.id, "6", "aai-node-type", "vnfc", "vnfc-name", "vnfc-name-2", "nfc-naming-code", "nfc-naming-code-2");
Vertex tenant1 = graph.addVertex(T.label, "tenant-id", T.id, "7", "aai-node-type", "tenant", "tenant-id", "TenantID", "tenant-name", "TenantName");
Vertex tenant2 = graph.addVertex(T.label, "tenant-id", T.id, "8", "aai-node-type", "tenant", "tenant-id", "TenantID2", "tenant-name", "TenantName2");
Vertex flavor1 = graph.addVertex(T.label, "flavor", T.id, "9", "aai-node-type", "flavor", "flavor-id", "flavor-id-1", "flavor-name", "flavor-name-1", "flavor-selflink", "flavor-selflink-1");
Vertex image1 = graph.addVertex(T.label, "image", T.id, "10", "aai-node-type", "image", "image-id", "image-id-1", "image-name", "image-name-1", "image-os-distro", "image-os-distro-1", "image-os-version", "image-os-version-1");
Vertex flavor2 = graph.addVertex(T.label, "flavor", T.id, "11", "aai-node-type", "flavor", "flavor-id", "flavor-id-2", "flavor-name", "flavor-name-2", "flavor-selflink", "flavor-selflink-2");
Vertex image2 = graph.addVertex(T.label, "image", T.id, "12", "aai-node-type", "image", "image-id", "image-id-2", "image-name", "image-name-2", "image-os-distro", "image-os-distro-2", "image-os-version", "image-os-version-2");
Vertex linter1 = graph.addVertex(T.label, "l-interface", T.id, "13", "aai-node-type", "l-interface", "l-interface-id", "l-interface-id-1", "l-interface-name", "l-interface-name1");
Vertex linter2 = graph.addVertex(T.label, "l-interface", T.id, "14", "aai-node-type", "l-interface", "l-interface-id", "l-interface-id-2", "l-interface-name", "l-interface-name2");
Vertex l3inter1ipv4addresslist = graph.addVertex(T.label, "interface-ipv4-address-list", T.id, "15", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "l3-interface-ipv4-address-1");
Vertex l3inter1ipv4addresslist2 = graph.addVertex(T.label, "interface-ipv4-address-list", T.id, "16", "aai-node-type", "l3-interface-ipv4-address-list", "l3-interface-ipv4-address", "l3-interface-ipv4-address-2");
Vertex l3inter1ipv6addresslist = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "17", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "l3-interface-ipv6-address-1");
Vertex l3inter1ipv6addresslist2 = graph.addVertex(T.label, "l3-interface-ipv6-address-list", T.id, "18", "aai-node-type", "l3-interface-ipv6-address-list", "l3-interface-ipv6-address", "l3-interface-ipv6-address-2");
Vertex cloudRegion1 = graph.addVertex(T.label, "cloud-region", T.id, "19", "aai-node-type", "cloud-region", "cloud-owner", "CloudOwner1", "cloud-region-id", "CloudRegionId1");
Vertex cloudRegion2 = graph.addVertex(T.label, "cloud-region", T.id, "20", "aai-node-type", "cloud-region", "cloud-owner", "CloudOwner2", "cloud-region-id", "CloudRegionId2");
Vertex availibityzone1 = graph.addVertex(T.label, "availability-zone", T.id, "21", "aai-node-type", "availability-zone", "availability-zone-name", "az-name-1", "hypervisor-type", "hypervisortype-1");
Vertex pserver1 = graph.addVertex(T.label, "pserver", T.id, "22", "aai-node-type", "pserver", "pserver-id", "PserverID1", "hostname", "PserverHostName1");
Vertex pserver2 = graph.addVertex(T.label, "pserver", T.id, "23", "aai-node-type", "pserver", "pserver-id", "PserverID2", "hostname", "PserverHostName2"); //false
Vertex serviceinstance1 = graph.addVertex(T.label, "service-instance", T.id, "24", "aai-node-type", "service-instance", "service-instance-id", "service-instance-id-1", "service-instance-name", "service-instance-name-1");
Vertex serviceinstance2 = graph.addVertex(T.label, "service-instance", T.id, "25", "aai-node-type", "service-instance", "service-instance-id", "servInstId-2", "service-type", "servType-2", "service-role", "servRole-2");
Vertex vfmodule1 = graph.addVertex(T.label, "vf-module", T.id, "26", "aai-node-type", "vf-module", "vf-module-id", "vf-module-id-1", "vf-module-name", "vf-module-name1");
Vertex vfmodule2 = graph.addVertex(T.label, "vf-module", T.id, "27", "aai-node-type", "vf-module", "vf-module-id", "vf-module-id-2", "vf-module-name", "vf-module-name2");
Vertex volumegroup1 = graph.addVertex(T.label, "volume-group", T.id, "28", "aai-node-type", "volume-group", "volume-group-id", "volume-group-id-1", "volume-group-name", "volume-group-name1");
Vertex volumegroup2 = graph.addVertex(T.label, "volume-group", T.id, "29", "aai-node-type", "volume-group", "volume-group-id", "volume-group-id-2", "volume-group-name", "volume-group-name2");
Vertex complex = graph.addVertex(T.label, "complex", T.id, "30", "aai-node-type", "complex");
GraphTraversalSource g = graph.traversal();//true
rules.addEdge(g, gnvf1, vserver1);//true
rules.addEdge(g, vserver1, vnfc1);//true
rules.addEdge(g, vserver2, vnfc1);//true
rules.addTreeEdge(g, vserver1, tenant1);//true
rules.addTreeEdge(g, tenant1, cloudRegion1);//true
rules.addTreeEdge(g, cloudRegion1,availibityzone1 );//true
rules.addEdge(g, vserver1, image1);//true
rules.addEdge(g, vserver1, flavor1);//true
rules.addEdge(g, vserver1, pserver1);//true
rules.addEdge(g, vserver2, image1);
rules.addEdge(g, vserver2, flavor1);
rules.addEdge(g, pserver1, complex);//true
rules.addTreeEdge(g, vserver1, linter1);//true
rules.addTreeEdge(g, linter1, l3inter1ipv4addresslist);//true
rules.addTreeEdge(g, linter1, l3inter1ipv6addresslist);//true
rules.addEdge(g, gnvf1, serviceinstance1);//true
rules.addTreeEdge(g, gnvf1, vfmodule1);//true
rules.addEdge(g, vfmodule1, volumegroup1);
//---------------------------------------------------
//rules.addTreeEdge(g, vserver1, tenant2);//false
//rules.addTreeEdge(g, vserver2, linter1);//false
//rules.addEdge(g, vserver1, vnfc2);//false
expectedResult.add(gnvf1);
expectedResult.add(vnfc1);
expectedResult.add(vserver1);
expectedResult.add(tenant1);
expectedResult.add(cloudRegion1);
expectedResult.add(image1);
expectedResult.add(flavor1);
expectedResult.add(pserver1);
expectedResult.add(complex);
expectedResult.add(serviceinstance1);
expectedResult.add(availibityzone1);
expectedResult.add(volumegroup1);
expectedResult.add(linter1);
expectedResult.add(l3inter1ipv4addresslist);
expectedResult.add(l3inter1ipv6addresslist);
}
@Override
protected String getQueryName() {
return "topology-detail-fromVnf";
}
@Override
protected void addStartNode(GraphTraversal<Vertex, Vertex> g) {
g.has("vnf-id", "vnfuuid");
}
@Override
protected void addParam(Map<String, Object> params) {
//return;
params.put("serviceId", "service-id-1");
}
}
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