| /* |
| * Copyright 2016-present Open Networking Laboratory |
| * |
| * 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. |
| */ |
| |
| package org.onosproject.net.intent.impl.compiler; |
| |
| import com.google.common.collect.ImmutableSet; |
| import org.junit.After; |
| import org.junit.Before; |
| import org.junit.Test; |
| import org.onlab.packet.Ethernet; |
| import org.onlab.packet.MplsLabel; |
| import org.onlab.packet.VlanId; |
| import org.onosproject.cfg.ComponentConfigAdapter; |
| import org.onosproject.core.CoreService; |
| import org.onosproject.net.FilteredConnectPoint; |
| import org.onosproject.net.flow.DefaultTrafficSelector; |
| import org.onosproject.net.flow.DefaultTrafficTreatment; |
| import org.onosproject.net.flow.FlowRule; |
| import org.onosproject.net.flow.criteria.MplsCriterion; |
| import org.onosproject.net.flow.criteria.VlanIdCriterion; |
| import org.onosproject.net.intent.FlowRuleIntent; |
| import org.onosproject.net.intent.Intent; |
| import org.onosproject.net.intent.IntentExtensionService; |
| import org.onosproject.net.intent.LinkCollectionIntent; |
| import org.onosproject.net.resource.MockResourceService; |
| |
| import java.util.Collection; |
| import java.util.Collections; |
| import java.util.List; |
| import java.util.stream.Collectors; |
| |
| import static org.easymock.EasyMock.*; |
| import static org.hamcrest.MatcherAssert.assertThat; |
| import static org.hamcrest.Matchers.hasSize; |
| import static org.hamcrest.core.Is.is; |
| import static org.onlab.packet.EthType.EtherType.IPV4; |
| import static org.onosproject.net.NetTestTools.*; |
| import static org.onosproject.net.flow.criteria.Criterion.Type.*; |
| import static org.onosproject.net.flow.instructions.L2ModificationInstruction.ModEtherInstruction; |
| |
| /** |
| * This set of tests are meant to test the encapsulation |
| * in the LinkCollectionIntent. |
| */ |
| public class LinkCollectionOptimizationTest extends AbstractLinkCollectionTest { |
| |
| @Before |
| public void setUp() { |
| sut = new LinkCollectionIntentCompiler(); |
| coreService = createMock(CoreService.class); |
| expect(coreService.registerApplication("org.onosproject.net.intent")) |
| .andReturn(appId); |
| sut.coreService = coreService; |
| |
| Intent.bindIdGenerator(idGenerator); |
| |
| intentExtensionService = createMock(IntentExtensionService.class); |
| intentExtensionService.registerCompiler(LinkCollectionIntent.class, sut); |
| intentExtensionService.unregisterCompiler(LinkCollectionIntent.class); |
| |
| registrator = new IntentConfigurableRegistrator(); |
| registrator.extensionService = intentExtensionService; |
| registrator.cfgService = new ComponentConfigAdapter(); |
| registrator.activate(); |
| |
| sut.registrator = registrator; |
| sut.resourceService = new MockResourceService(); |
| |
| /* |
| * We activate the optimizations. |
| */ |
| LinkCollectionCompiler.optimize = true; |
| LinkCollectionCompiler.copyTtl = true; |
| |
| replay(coreService, intentExtensionService); |
| } |
| |
| @After |
| public void tearDown() { |
| Intent.unbindIdGenerator(idGenerator); |
| } |
| |
| /** |
| * We test the proper optimization of sp2mp with dec tll |
| * and dec mpls ttl. |
| */ |
| @Test |
| public void testDecTtlOptimization() { |
| |
| intent = LinkCollectionIntent.builder() |
| .appId(APP_ID) |
| .selector(selector) |
| .treatment(decTllTreatment) |
| .links(linksForSp2Mp) |
| .filteredIngressPoints(ImmutableSet.of(new FilteredConnectPoint(d3p10))) |
| .filteredEgressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p10), |
| new FilteredConnectPoint(d1p11), |
| new FilteredConnectPoint(d2p10) |
| )) |
| .applyTreatmentOnEgress(true) |
| .build(); |
| |
| sut.activate(); |
| |
| List<Intent> compiled = sut.compile(intent, Collections.emptyList()); |
| assertThat(compiled, hasSize(1)); |
| |
| Collection<FlowRule> rules = ((FlowRuleIntent) compiled.get(0)).flowRules(); |
| assertThat(rules, hasSize(3)); |
| |
| Collection<FlowRule> rulesS3 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d3p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS3, hasSize(1)); |
| FlowRule ruleS3 = rulesS3.iterator().next(); |
| assertThat(ruleS3.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d3p10.port()) |
| .build() |
| )); |
| assertThat(ruleS3.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setOutput(d3p0.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS2 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d2p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS2, hasSize(1)); |
| FlowRule ruleS2 = rulesS2.iterator().next(); |
| assertThat(ruleS2.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d2p1.port()) |
| .build() |
| )); |
| assertThat(ruleS2.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setOutput(d2p0.port()) |
| .decMplsTtl() |
| .decNwTtl() |
| .setOutput(d2p10.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS1 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d1p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS1, hasSize(1)); |
| FlowRule ruleS1 = rulesS1.iterator().next(); |
| assertThat(ruleS1.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d1p0.port()) |
| .build() |
| )); |
| assertThat(ruleS1.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .decMplsTtl() |
| .decNwTtl() |
| .setOutput(d1p10.port()) |
| .setOutput(d1p11.port()) |
| .build() |
| )); |
| |
| sut.deactivate(); |
| |
| } |
| |
| /** |
| * We test the proper optimization of sp2mp with VLAN |
| * ingress point and different egress points: 1) it is |
| * a simple ingress point; 2) it is a vlan ingress point; |
| * 3) It is a simple ingress point. 1) and 2) share the same |
| * egress switch. The outcomes of the test are the re-ordering |
| * of the actions and the proper optimization of the chain. |
| */ |
| @Test |
| public void testVlanOrder() { |
| |
| intent = LinkCollectionIntent.builder() |
| .appId(APP_ID) |
| .selector(selector) |
| .treatment(treatment) |
| .links(linksForSp2Mp) |
| .applyTreatmentOnEgress(true) |
| .filteredIngressPoints(ImmutableSet.of(new FilteredConnectPoint(d3p10, vlan100Selector))) |
| .filteredEgressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p10), |
| new FilteredConnectPoint(d1p11, vlan200Selector), |
| new FilteredConnectPoint(d2p10) |
| )) |
| .build(); |
| |
| sut.activate(); |
| |
| List<Intent> compiled = sut.compile(intent, Collections.emptyList()); |
| assertThat(compiled, hasSize(1)); |
| |
| Collection<FlowRule> rules = ((FlowRuleIntent) compiled.get(0)).flowRules(); |
| assertThat(rules, hasSize(3)); |
| |
| Collection<FlowRule> rulesS3 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d3p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS3, hasSize(1)); |
| FlowRule ruleS3 = rulesS3.iterator().next(); |
| assertThat(ruleS3.selector(), is( |
| DefaultTrafficSelector |
| .builder(vlan100Selector) |
| .matchInPort(d3p10.port()) |
| .build() |
| )); |
| assertThat(ruleS3.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setOutput(d3p0.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS2 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d2p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS2, hasSize(1)); |
| FlowRule ruleS2 = rulesS2.iterator().next(); |
| assertThat(ruleS2.selector(), is( |
| DefaultTrafficSelector |
| .builder(vlan100Selector) |
| .matchInPort(d2p1.port()) |
| .build() |
| )); |
| assertThat(ruleS2.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setOutput(d2p0.port()) |
| .popVlan() |
| .setOutput(d2p10.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS1 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d1p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS1, hasSize(1)); |
| FlowRule ruleS1 = rulesS1.iterator().next(); |
| assertThat(ruleS1.selector(), is( |
| DefaultTrafficSelector |
| .builder(vlan100Selector) |
| .matchInPort(d1p0.port()) |
| .build() |
| )); |
| assertThat(ruleS1.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setVlanId(((VlanIdCriterion) vlan200Selector.getCriterion(VLAN_VID)).vlanId()) |
| .setOutput(d1p11.port()) |
| .popVlan() |
| .setOutput(d1p10.port()) |
| .build() |
| )); |
| |
| sut.deactivate(); |
| |
| } |
| |
| /** |
| * We test the proper optimization of sp2mp with MPLS |
| * ingress point and different egress points: 1) it is |
| * a vlan ingress point; 2) it is a mpls ingress point; |
| * 3) It is a simple ingress point. 1) and 2) share the same |
| * egress switch. The outcomes of the test are the re-ordering |
| * of the actions and the proper optimization of the chain. |
| */ |
| @Test |
| public void testMplsOrder() { |
| |
| intent = LinkCollectionIntent.builder() |
| .appId(APP_ID) |
| .selector(selector) |
| .treatment(treatment) |
| .links(linksForSp2Mp) |
| .applyTreatmentOnEgress(true) |
| .filteredIngressPoints(ImmutableSet.of(new FilteredConnectPoint(d3p10, mpls100Selector))) |
| .filteredEgressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p10, vlan100Selector), |
| new FilteredConnectPoint(d1p11, mpls200Selector), |
| new FilteredConnectPoint(d2p10) |
| )) |
| .build(); |
| |
| sut.activate(); |
| |
| List<Intent> compiled = sut.compile(intent, Collections.emptyList()); |
| assertThat(compiled, hasSize(1)); |
| |
| Collection<FlowRule> rules = ((FlowRuleIntent) compiled.get(0)).flowRules(); |
| assertThat(rules, hasSize(3)); |
| |
| Collection<FlowRule> rulesS3 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d3p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS3, hasSize(1)); |
| FlowRule ruleS3 = rulesS3.iterator().next(); |
| assertThat(ruleS3.selector(), is( |
| DefaultTrafficSelector |
| .builder(mpls100Selector) |
| .matchInPort(d3p10.port()) |
| .build() |
| )); |
| assertThat(ruleS3.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setOutput(d3p0.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS2 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d2p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS2, hasSize(1)); |
| FlowRule ruleS2 = rulesS2.iterator().next(); |
| assertThat(ruleS2.selector(), is( |
| DefaultTrafficSelector |
| .builder(mpls100Selector) |
| .matchInPort(d2p1.port()) |
| .build() |
| )); |
| assertThat(ruleS2.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setOutput(d2p0.port()) |
| .copyTtlIn() |
| .popMpls(IPV4.ethType()) |
| .setOutput(d2p10.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS1 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d1p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS1, hasSize(1)); |
| FlowRule ruleS1 = rulesS1.iterator().next(); |
| assertThat(ruleS1.selector(), is( |
| DefaultTrafficSelector |
| .builder(mpls100Selector) |
| .matchInPort(d1p0.port()) |
| .build() |
| )); |
| assertThat(ruleS1.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setMpls(((MplsCriterion) mpls200Selector.getCriterion(MPLS_LABEL)).label()) |
| .setOutput(d1p11.port()) |
| .copyTtlIn() |
| .popMpls(IPV4.ethType()) |
| .pushVlan() |
| .setVlanId(((VlanIdCriterion) vlan100Selector.getCriterion(VLAN_VID)).vlanId()) |
| .setOutput(d1p10.port()) |
| .build() |
| )); |
| |
| sut.deactivate(); |
| |
| } |
| |
| /** |
| * We test the proper optimization of sp2mp with untagged |
| * ingress point and different egress points: 1) it is |
| * a vlan ingress point; 2) it is a mpls ingress point; |
| * 3) It is a simple ingress point. 1) and 2) share the same |
| * egress switch. The outcomes of the test are the re-ordering |
| * of the actions and the proper optimization of the chain. |
| */ |
| @Test |
| public void testUntaggedOrder() { |
| |
| intent = LinkCollectionIntent.builder() |
| .appId(APP_ID) |
| .selector(selector) |
| .treatment(treatment) |
| .links(linksForSp2Mp) |
| .applyTreatmentOnEgress(true) |
| .filteredIngressPoints(ImmutableSet.of(new FilteredConnectPoint(d3p10))) |
| .filteredEgressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p10, vlan100Selector), |
| new FilteredConnectPoint(d1p11, mpls200Selector), |
| new FilteredConnectPoint(d1p12), |
| new FilteredConnectPoint(d2p10) |
| )) |
| .build(); |
| |
| sut.activate(); |
| |
| List<Intent> compiled = sut.compile(intent, Collections.emptyList()); |
| assertThat(compiled, hasSize(1)); |
| |
| Collection<FlowRule> rules = ((FlowRuleIntent) compiled.get(0)).flowRules(); |
| assertThat(rules, hasSize(3)); |
| |
| Collection<FlowRule> rulesS3 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d3p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS3, hasSize(1)); |
| FlowRule ruleS3 = rulesS3.iterator().next(); |
| assertThat(ruleS3.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d3p10.port()) |
| .build() |
| )); |
| assertThat(ruleS3.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setOutput(d3p0.port()) |
| .build() |
| )); |
| |
| |
| Collection<FlowRule> rulesS2 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d2p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS2, hasSize(1)); |
| FlowRule ruleS2 = rulesS2.iterator().next(); |
| assertThat(ruleS2.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d2p1.port()) |
| .build() |
| )); |
| assertThat(ruleS2.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setOutput(d2p0.port()) |
| .setOutput(d2p10.port()) |
| .build() |
| )); |
| |
| |
| Collection<FlowRule> rulesS1 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d1p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS1, hasSize(1)); |
| FlowRule ruleS1 = rulesS1.iterator().next(); |
| assertThat(ruleS1.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d1p0.port()) |
| .build() |
| )); |
| assertThat(ruleS1.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setOutput(d1p12.port()) |
| .pushVlan() |
| .setVlanId(((VlanIdCriterion) vlan100Selector.getCriterion(VLAN_VID)).vlanId()) |
| .setOutput(d1p10.port()) |
| .popVlan() |
| .pushMpls() |
| .copyTtlOut() |
| .setMpls(((MplsCriterion) mpls200Selector.getCriterion(MPLS_LABEL)).label()) |
| .setOutput(d1p11.port()) |
| .build() |
| )); |
| |
| sut.deactivate(); |
| |
| } |
| |
| /** |
| * We test the proper optimization of sp2mp with VLAN ingress point, |
| * simple egress point, non trivial intent treatment and non trivial |
| * intent selector. The outcomes of the test are the proper optimization |
| * of the actions. It is expected that the actions related to the intent |
| * treatment and intent selector are not optimized. The optimization is |
| * performed only on the dec ttl actions and on the actions which create |
| * traffic slices. The rationale is that in the intent treatment we expect |
| * actions like set something so it is fine to perform them several times. |
| */ |
| @Test |
| public void testPoPVlanOptimization() { |
| |
| intent = LinkCollectionIntent.builder() |
| .appId(APP_ID) |
| .selector(ipPrefixSelector) |
| .treatment(ethDstTreatment) |
| .links(linksForSp2Mp) |
| .applyTreatmentOnEgress(true) |
| .filteredIngressPoints(ImmutableSet.of(new FilteredConnectPoint(d3p10, vlan100Selector))) |
| .filteredEgressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p10), |
| new FilteredConnectPoint(d1p11), |
| new FilteredConnectPoint(d1p12), |
| new FilteredConnectPoint(d2p10) |
| )) |
| .build(); |
| |
| sut.activate(); |
| |
| List<Intent> compiled = sut.compile(intent, Collections.emptyList()); |
| assertThat(compiled, hasSize(1)); |
| |
| Collection<FlowRule> rules = ((FlowRuleIntent) compiled.get(0)).flowRules(); |
| assertThat(rules, hasSize(3)); |
| |
| Collection<FlowRule> rulesS3 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d3p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS3, hasSize(1)); |
| FlowRule ruleS3 = rulesS3.iterator().next(); |
| assertThat(ruleS3.selector(), is( |
| DefaultTrafficSelector |
| .builder(ipPrefixSelector) |
| .matchVlanId(((VlanIdCriterion) vlan100Selector.getCriterion(VLAN_VID)).vlanId()) |
| .matchInPort(d3p10.port()) |
| .build() |
| )); |
| assertThat(ruleS3.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setOutput(d3p0.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS2 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d2p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS2, hasSize(1)); |
| FlowRule ruleS2 = rulesS2.iterator().next(); |
| assertThat(ruleS2.selector(), is( |
| DefaultTrafficSelector |
| .builder(ipPrefixSelector) |
| .matchInPort(d2p1.port()) |
| .matchVlanId(((VlanIdCriterion) vlan100Selector.getCriterion(VLAN_VID)).vlanId()) |
| .build() |
| )); |
| assertThat(ruleS2.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setOutput(d2p0.port()) |
| .setEthDst(((ModEtherInstruction) ethDstTreatment |
| .allInstructions() |
| .stream() |
| .filter(instruction -> instruction instanceof ModEtherInstruction) |
| .findFirst().get()).mac()) |
| .popVlan() |
| .setOutput(d2p10.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS1 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d1p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS1, hasSize(1)); |
| FlowRule ruleS1 = rulesS1.iterator().next(); |
| assertThat(ruleS1.selector(), is( |
| DefaultTrafficSelector |
| .builder(ipPrefixSelector) |
| .matchInPort(d1p0.port()) |
| .matchVlanId(((VlanIdCriterion) vlan100Selector.getCriterion(VLAN_VID)).vlanId()) |
| .build() |
| )); |
| assertThat(ruleS1.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setEthDst(((ModEtherInstruction) ethDstTreatment |
| .allInstructions() |
| .stream() |
| .filter(instruction -> instruction instanceof ModEtherInstruction) |
| .findFirst().get()).mac()) |
| .popVlan() |
| .setOutput(d1p12.port()) |
| .setEthDst(((ModEtherInstruction) ethDstTreatment |
| .allInstructions() |
| .stream() |
| .filter(instruction -> instruction instanceof ModEtherInstruction) |
| .findFirst().get()).mac()) |
| .setOutput(d1p10.port()) |
| .setEthDst(((ModEtherInstruction) ethDstTreatment |
| .allInstructions() |
| .stream() |
| .filter(instruction -> instruction instanceof ModEtherInstruction) |
| .findFirst().get()).mac()) |
| .setOutput(d1p11.port()) |
| .build() |
| )); |
| |
| sut.deactivate(); |
| |
| } |
| |
| /** |
| * We test the proper optimization of sp2mp with the VLAN |
| * encapsulation and trivial selector. |
| */ |
| @Test |
| public void testOptimizationMplsEncapTrivialSelectors() { |
| |
| intent = LinkCollectionIntent.builder() |
| .appId(APP_ID) |
| .selector(selector) |
| .treatment(treatment) |
| .constraints(constraintsForMPLS) |
| .links(linksForSp2Mp) |
| .filteredIngressPoints(ImmutableSet.of(new FilteredConnectPoint(d3p10))) |
| .filteredEgressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p10), |
| new FilteredConnectPoint(d1p11), |
| new FilteredConnectPoint(d2p10) |
| )) |
| .build(); |
| |
| sut.activate(); |
| /* |
| * We use the FIRST_FIT to simplify tests. |
| */ |
| LinkCollectionCompiler.labelAllocator.setLabelSelection(LABEL_SELECTION); |
| |
| List<Intent> compiled = sut.compile(intent, Collections.emptyList()); |
| assertThat(compiled, hasSize(1)); |
| |
| Collection<FlowRule> rules = ((FlowRuleIntent) compiled.get(0)).flowRules(); |
| assertThat(rules, hasSize(3)); |
| |
| Collection<FlowRule> rulesS3 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d3p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS3, hasSize(1)); |
| FlowRule ruleS3 = rulesS3.iterator().next(); |
| assertThat(ruleS3.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d3p10.port()) |
| .build() |
| )); |
| assertThat(ruleS3.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .pushMpls() |
| .copyTtlOut() |
| .setMpls(MplsLabel.mplsLabel(LABEL)) |
| .setOutput(d3p0.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS2 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d2p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS2, hasSize(1)); |
| FlowRule ruleS2 = rulesS2.iterator().next(); |
| assertThat(ruleS2.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d2p1.port()) |
| .matchMplsLabel(MplsLabel.mplsLabel((LABEL))) |
| .matchEthType(Ethernet.MPLS_UNICAST) |
| .build() |
| )); |
| assertThat(ruleS2.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setMpls(MplsLabel.mplsLabel(LABEL)) |
| .setOutput(d2p0.port()) |
| .copyTtlIn() |
| .popMpls(IPV4.ethType()) |
| .setOutput(d2p10.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS1 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d1p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS1, hasSize(1)); |
| FlowRule ruleS1 = rulesS1.iterator().next(); |
| assertThat(ruleS1.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d1p0.port()) |
| .matchMplsLabel(MplsLabel.mplsLabel((LABEL))) |
| .matchEthType(Ethernet.MPLS_UNICAST) |
| .build() |
| )); |
| assertThat(ruleS1.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .copyTtlIn() |
| .popMpls(IPV4.ethType()) |
| .setOutput(d1p10.port()) |
| .setOutput(d1p11.port()) |
| .build() |
| )); |
| |
| sut.deactivate(); |
| |
| } |
| |
| /** |
| * We test the proper optimization of sp2mp with the VLAN |
| * encapsulation, filtered selectors. |
| */ |
| @Test |
| public void testOptimizationVlanEncapMplsSelectors() { |
| |
| intent = LinkCollectionIntent.builder() |
| .appId(APP_ID) |
| .selector(selector) |
| .treatment(treatment) |
| .constraints(constraintsForVlan) |
| .links(linksForSp2Mp) |
| .filteredIngressPoints(ImmutableSet.of(new FilteredConnectPoint(d3p10, mpls80Selector))) |
| .filteredEgressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p10, mpls100Selector), |
| new FilteredConnectPoint(d1p11, mpls200Selector), |
| new FilteredConnectPoint(d2p10, mpls69Selector) |
| )) |
| .build(); |
| |
| sut.activate(); |
| /* |
| * We use the FIRST_FIT to simplify tests. |
| */ |
| LinkCollectionCompiler.labelAllocator.setLabelSelection(LABEL_SELECTION); |
| |
| List<Intent> compiled = sut.compile(intent, Collections.emptyList()); |
| assertThat(compiled, hasSize(1)); |
| |
| Collection<FlowRule> rules = ((FlowRuleIntent) compiled.get(0)).flowRules(); |
| assertThat(rules, hasSize(3)); |
| |
| Collection<FlowRule> rulesS3 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d3p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS3, hasSize(1)); |
| FlowRule ruleS3 = rulesS3.iterator().next(); |
| assertThat(ruleS3.selector(), is( |
| DefaultTrafficSelector |
| .builder(mpls80Selector) |
| .matchInPort(d3p10.port()) |
| .build() |
| )); |
| assertThat(ruleS3.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .copyTtlIn() |
| .popMpls(IPV4.ethType()) |
| .pushVlan() |
| .setVlanId(VlanId.vlanId(LABEL)) |
| .setOutput(d3p0.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS2 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d2p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS2, hasSize(1)); |
| FlowRule ruleS2 = rulesS2.iterator().next(); |
| assertThat(ruleS2.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d2p1.port()) |
| .matchVlanId(VlanId.vlanId(LABEL)) |
| .build() |
| )); |
| assertThat(ruleS2.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setVlanId(VlanId.vlanId(LABEL)) |
| .setOutput(d2p0.port()) |
| .popVlan() |
| .pushMpls() |
| .copyTtlOut() |
| .setMpls(((MplsCriterion) mpls69Selector.getCriterion(MPLS_LABEL)).label()) |
| .setOutput(d2p10.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS1 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d1p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS1, hasSize(1)); |
| FlowRule ruleS1 = rulesS1.iterator().next(); |
| assertThat(ruleS1.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d1p0.port()) |
| .matchVlanId(VlanId.vlanId(LABEL)) |
| .build() |
| )); |
| assertThat(ruleS1.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .popVlan() |
| .pushMpls() |
| .copyTtlOut() |
| .setMpls(((MplsCriterion) mpls100Selector.getCriterion(MPLS_LABEL)).label()) |
| .setOutput(d1p10.port()) |
| .setMpls(((MplsCriterion) mpls200Selector.getCriterion(MPLS_LABEL)).label()) |
| .setOutput(d1p11.port()) |
| .build() |
| )); |
| |
| sut.deactivate(); |
| |
| } |
| |
| /** |
| * We test the proper optimization of sp2mp with the MPLS |
| * encapsulation, filtered selectors, intent selector, and |
| * intent treatment. |
| */ |
| @Test |
| public void testOptimizationMplsEncapNonTrivial() { |
| |
| intent = LinkCollectionIntent.builder() |
| .appId(APP_ID) |
| .selector(ipPrefixSelector) |
| .treatment(ethDstTreatment) |
| .constraints(constraintsForMPLS) |
| .links(linksForSp2Mp) |
| .filteredIngressPoints(ImmutableSet.of(new FilteredConnectPoint(d3p10, vlan69Selector))) |
| .filteredEgressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p10, vlan100Selector), |
| new FilteredConnectPoint(d1p11, vlan200Selector), |
| new FilteredConnectPoint(d2p10, vlan300Selector) |
| )) |
| .build(); |
| |
| sut.activate(); |
| /* |
| * We use the FIRST_FIT to simplify tests. |
| */ |
| LinkCollectionCompiler.labelAllocator.setLabelSelection(LABEL_SELECTION); |
| |
| List<Intent> compiled = sut.compile(intent, Collections.emptyList()); |
| assertThat(compiled, hasSize(1)); |
| |
| Collection<FlowRule> rules = ((FlowRuleIntent) compiled.get(0)).flowRules(); |
| assertThat(rules, hasSize(3)); |
| |
| Collection<FlowRule> rulesS3 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d3p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS3, hasSize(1)); |
| FlowRule ruleS3 = rulesS3.iterator().next(); |
| assertThat(ruleS3.selector(), is( |
| DefaultTrafficSelector |
| .builder(ipPrefixSelector) |
| .matchInPort(d3p10.port()) |
| .matchVlanId(((VlanIdCriterion) vlan69Selector.getCriterion(VLAN_VID)).vlanId()) |
| .build() |
| )); |
| assertThat(ruleS3.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .popVlan() |
| .pushMpls() |
| .copyTtlOut() |
| .setMpls(MplsLabel.mplsLabel(LABEL)) |
| .setOutput(d3p0.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS2 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d2p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS2, hasSize(1)); |
| FlowRule ruleS2 = rulesS2.iterator().next(); |
| assertThat(ruleS2.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d2p1.port()) |
| .matchMplsLabel(MplsLabel.mplsLabel(LABEL)) |
| .matchEthType(Ethernet.MPLS_UNICAST) |
| .build() |
| )); |
| assertThat(ruleS2.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setMpls(MplsLabel.mplsLabel(LABEL)) |
| .setOutput(d2p0.port()) |
| .setEthDst(((ModEtherInstruction) ethDstTreatment |
| .allInstructions() |
| .stream() |
| .filter(instruction -> instruction instanceof ModEtherInstruction) |
| .findFirst().get()).mac()) |
| .copyTtlIn() |
| .popMpls(IPV4.ethType()) |
| .pushVlan() |
| .setVlanId(((VlanIdCriterion) vlan300Selector.getCriterion(VLAN_VID)).vlanId()) |
| .setOutput(d2p10.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS1 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d1p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS1, hasSize(1)); |
| FlowRule ruleS1 = rulesS1.iterator().next(); |
| assertThat(ruleS1.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d1p0.port()) |
| .matchMplsLabel(MplsLabel.mplsLabel(LABEL)) |
| .matchEthType(Ethernet.MPLS_UNICAST) |
| .build() |
| )); |
| assertThat(ruleS1.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setEthDst(((ModEtherInstruction) ethDstTreatment |
| .allInstructions() |
| .stream() |
| .filter(instruction -> instruction instanceof ModEtherInstruction) |
| .findFirst().get()).mac()) |
| .copyTtlIn() |
| .popMpls(IPV4.ethType()) |
| .pushVlan() |
| .setVlanId(((VlanIdCriterion) vlan100Selector.getCriterion(VLAN_VID)).vlanId()) |
| .setOutput(d1p10.port()) |
| .setEthDst(((ModEtherInstruction) ethDstTreatment |
| .allInstructions() |
| .stream() |
| .filter(instruction -> instruction instanceof ModEtherInstruction) |
| .findFirst().get()).mac()) |
| .setVlanId(((VlanIdCriterion) vlan200Selector.getCriterion(VLAN_VID)).vlanId()) |
| .setOutput(d1p11.port()) |
| .build() |
| )); |
| |
| sut.deactivate(); |
| |
| } |
| |
| /** |
| * We test the proper compilation of sp2mp with the VLAN |
| * encapsulation and filtered selectors of different type. |
| */ |
| @Test |
| public void testOptimizationVlanEncapDifferentSelectors() { |
| |
| intent = LinkCollectionIntent.builder() |
| .appId(APP_ID) |
| .selector(selector) |
| .treatment(treatment) |
| .constraints(constraintsForVlan) |
| .links(linksForSp2Mp) |
| .filteredIngressPoints(ImmutableSet.of(new FilteredConnectPoint(d3p10, vlan69Selector))) |
| .filteredEgressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p10, mpls100Selector), |
| new FilteredConnectPoint(d1p11, vlan200Selector), |
| new FilteredConnectPoint(d1p12), |
| new FilteredConnectPoint(d2p10, mpls200Selector) |
| )) |
| .build(); |
| |
| sut.activate(); |
| /* |
| * We use the FIRST_FIT to simplify tests. |
| */ |
| LinkCollectionCompiler.labelAllocator.setLabelSelection(LABEL_SELECTION); |
| |
| List<Intent> compiled = sut.compile(intent, Collections.emptyList()); |
| assertThat(compiled, hasSize(1)); |
| |
| Collection<FlowRule> rules = ((FlowRuleIntent) compiled.get(0)).flowRules(); |
| assertThat(rules, hasSize(3)); |
| |
| Collection<FlowRule> rulesS3 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d3p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS3, hasSize(1)); |
| FlowRule ruleS3 = rulesS3.iterator().next(); |
| assertThat(ruleS3.selector(), is( |
| DefaultTrafficSelector |
| .builder(vlan69Selector) |
| .matchInPort(d3p10.port()) |
| .build() |
| )); |
| assertThat(ruleS3.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setVlanId(VlanId.vlanId(LABEL)) |
| .setOutput(d3p0.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS2 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d2p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS2, hasSize(1)); |
| FlowRule ruleS2 = rulesS2.iterator().next(); |
| assertThat(ruleS2.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d2p1.port()) |
| .matchVlanId(VlanId.vlanId(LABEL)) |
| .build() |
| )); |
| assertThat(ruleS2.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setVlanId(VlanId.vlanId(LABEL)) |
| .setOutput(d2p0.port()) |
| .popVlan() |
| .pushMpls() |
| .copyTtlOut() |
| .setMpls(((MplsCriterion) mpls200Selector.getCriterion(MPLS_LABEL)).label()) |
| .setOutput(d2p10.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS1 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d1p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS1, hasSize(1)); |
| FlowRule ruleS1 = rulesS1.iterator().next(); |
| assertThat(ruleS1.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d1p0.port()) |
| .matchVlanId(VlanId.vlanId(LABEL)) |
| .build() |
| )); |
| assertThat(ruleS1.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setVlanId(((VlanIdCriterion) vlan200Selector.getCriterion(VLAN_VID)).vlanId()) |
| .setOutput(d1p11.port()) |
| .popVlan() |
| .setOutput(d1p12.port()) |
| .pushMpls() |
| .copyTtlOut() |
| .setMpls(((MplsCriterion) mpls100Selector.getCriterion(MPLS_LABEL)).label()) |
| .setOutput(d1p10.port()) |
| .build() |
| )); |
| |
| sut.deactivate(); |
| |
| } |
| |
| /** |
| * We test the proper optimization of sp2mp with trivial selector, |
| * trivial treatment, vlan encapsulation and co-located |
| * ingress/egress points. |
| */ |
| @Test |
| public void testOptimizationCoLocatedPointsTrivialForSp() { |
| |
| intent = LinkCollectionIntent.builder() |
| .appId(APP_ID) |
| .selector(selector) |
| .treatment(treatment) |
| .applyTreatmentOnEgress(true) |
| .links(linksForSp2MpCoLoc) |
| .constraints(constraintsForVlan) |
| .filteredIngressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p10) |
| )) |
| .filteredEgressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p11), |
| new FilteredConnectPoint(d2p10), |
| new FilteredConnectPoint(d3p10) |
| )) |
| .build(); |
| |
| sut.activate(); |
| |
| /* |
| * We use the FIRST_FIT to simplify tests. |
| */ |
| LinkCollectionCompiler.labelAllocator.setLabelSelection(LABEL_SELECTION); |
| |
| List<Intent> compiled = sut.compile(intent, Collections.emptyList()); |
| assertThat(compiled, hasSize(1)); |
| |
| Collection<FlowRule> rules = ((FlowRuleIntent) compiled.get(0)).flowRules(); |
| assertThat(rules, hasSize(3)); |
| |
| Collection<FlowRule> rulesS1 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d1p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS1, hasSize(1)); |
| |
| FlowRule ruleS1 = rulesS1.iterator().next(); |
| assertThat(ruleS1.selector(), is( |
| DefaultTrafficSelector |
| .builder(selector) |
| .matchInPort(d1p10.port()) |
| .build() |
| )); |
| assertThat(ruleS1.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .pushVlan() |
| .setVlanId(VlanId.vlanId(LABEL)) |
| .setOutput(d1p0.port()) |
| .popVlan() |
| .setOutput(d1p11.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS2 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d2p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS2, hasSize(1)); |
| |
| FlowRule ruleS2 = rulesS2.iterator().next(); |
| assertThat(ruleS2.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d2p0.port()) |
| .matchVlanId(VlanId.vlanId(LABEL)) |
| .build() |
| )); |
| assertThat(ruleS2.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setVlanId(VlanId.vlanId(LABEL)) |
| .setOutput(d2p1.port()) |
| .popVlan() |
| .setOutput(d2p10.port()) |
| .build() |
| )); |
| |
| Collection<FlowRule> rulesS3 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d3p1.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS3, hasSize(1)); |
| |
| FlowRule ruleS3 = rulesS3.iterator().next(); |
| assertThat(ruleS3.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d3p0.port()) |
| .matchVlanId(VlanId.vlanId(LABEL)) |
| .build() |
| )); |
| assertThat(ruleS3.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .popVlan() |
| .setOutput(d3p10.port()) |
| .build() |
| )); |
| |
| sut.deactivate(); |
| |
| } |
| |
| /** |
| * We test the proper optimization of sp2mp with trivial selector, |
| * trivial treatment, mpls encapsulation and co-located |
| * filtered ingress/egress points. |
| */ |
| @Test |
| public void testCoLocatedFilteredPointsTrivialForSp() { |
| |
| intent = LinkCollectionIntent.builder() |
| .appId(APP_ID) |
| .selector(selector) |
| .treatment(treatment) |
| .applyTreatmentOnEgress(true) |
| .links(linksForSp2MpCoLoc) |
| .constraints(constraintsForMPLS) |
| .filteredIngressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p10, vlan100Selector) |
| )) |
| .filteredEgressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p11, vlan200Selector), |
| new FilteredConnectPoint(d2p10, vlan300Selector), |
| new FilteredConnectPoint(d3p10, vlan69Selector) |
| )) |
| .build(); |
| |
| sut.activate(); |
| |
| /* |
| * We use the FIRST_FIT to simplify tests. |
| */ |
| LinkCollectionCompiler.labelAllocator.setLabelSelection(LABEL_SELECTION); |
| |
| List<Intent> compiled = sut.compile(intent, Collections.emptyList()); |
| assertThat(compiled, hasSize(1)); |
| |
| Collection<FlowRule> rules = ((FlowRuleIntent) compiled.get(0)).flowRules(); |
| assertThat(rules, hasSize(3)); |
| |
| Collection<FlowRule> rulesS1 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d1p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS1, hasSize(1)); |
| |
| FlowRule ruleS1 = rulesS1.iterator().next(); |
| assertThat(ruleS1.selector(), is( |
| DefaultTrafficSelector |
| .builder(vlan100Selector) |
| .matchInPort(d1p10.port()) |
| .build() |
| )); |
| assertThat(ruleS1.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .popVlan() |
| .pushMpls() |
| .copyTtlOut() |
| .setMpls(MplsLabel.mplsLabel(LABEL)) |
| .setOutput(d1p0.port()) |
| .copyTtlIn() |
| .popMpls(IPV4.ethType()) |
| .pushVlan() |
| .setVlanId(((VlanIdCriterion) vlan200Selector.getCriterion(VLAN_VID)).vlanId()) |
| .setOutput(d1p11.port()) |
| .build() |
| )); |
| |
| |
| Collection<FlowRule> rulesS2 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d2p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS2, hasSize(1)); |
| |
| FlowRule ruleS2 = rulesS2.iterator().next(); |
| assertThat(ruleS2.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d2p0.port()) |
| .matchEthType(Ethernet.MPLS_UNICAST) |
| .matchMplsLabel(MplsLabel.mplsLabel(LABEL)) |
| .build() |
| )); |
| assertThat(ruleS2.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setMpls(MplsLabel.mplsLabel(LABEL)) |
| .setOutput(d2p1.port()) |
| .copyTtlIn() |
| .popMpls(IPV4.ethType()) |
| .pushVlan() |
| .setVlanId(((VlanIdCriterion) vlan300Selector.getCriterion(VLAN_VID)).vlanId()) |
| .setOutput(d2p10.port()) |
| .build() |
| )); |
| |
| |
| Collection<FlowRule> rulesS3 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d3p1.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS3, hasSize(1)); |
| |
| FlowRule ruleS3 = rulesS3.iterator().next(); |
| assertThat(ruleS3.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d3p0.port()) |
| .matchEthType(Ethernet.MPLS_UNICAST) |
| .matchMplsLabel(MplsLabel.mplsLabel(LABEL)) |
| .build() |
| )); |
| assertThat(ruleS3.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .copyTtlIn() |
| .popMpls(IPV4.ethType()) |
| .pushVlan() |
| .setVlanId(((VlanIdCriterion) vlan69Selector.getCriterion(VLAN_VID)).vlanId()) |
| .setOutput(d3p10.port()) |
| .build() |
| )); |
| |
| sut.deactivate(); |
| |
| } |
| |
| /** |
| * We test the proper optimization of sp2mp with trivial selector, |
| * trivial treatment, vlan encapsulation and co-located |
| * different filtered ingress/egress points. |
| */ |
| @Test |
| public void testCoLocatedDifferentFilteredPointsTrivialForSp() { |
| |
| intent = LinkCollectionIntent.builder() |
| .appId(APP_ID) |
| .selector(selector) |
| .treatment(treatment) |
| .applyTreatmentOnEgress(true) |
| .links(linksForSp2MpCoLoc) |
| .constraints(constraintsForVlan) |
| .filteredIngressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p10, vlan100Selector) |
| )) |
| .filteredEgressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p11, mpls100Selector), |
| new FilteredConnectPoint(d2p10, vlan200Selector), |
| new FilteredConnectPoint(d3p10, mpls200Selector) |
| )) |
| .build(); |
| |
| sut.activate(); |
| |
| /* |
| * We use the FIRST_FIT to simplify tests. |
| */ |
| LinkCollectionCompiler.labelAllocator.setLabelSelection(LABEL_SELECTION); |
| |
| List<Intent> compiled = sut.compile(intent, Collections.emptyList()); |
| assertThat(compiled, hasSize(1)); |
| |
| Collection<FlowRule> rules = ((FlowRuleIntent) compiled.get(0)).flowRules(); |
| assertThat(rules, hasSize(3)); |
| |
| Collection<FlowRule> rulesS1 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d1p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS1, hasSize(1)); |
| |
| FlowRule ruleS1 = rulesS1.iterator().next(); |
| assertThat(ruleS1.selector(), is( |
| DefaultTrafficSelector |
| .builder(vlan100Selector) |
| .matchInPort(d1p10.port()) |
| .build() |
| )); |
| assertThat(ruleS1.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setVlanId(VlanId.vlanId(LABEL)) |
| .setOutput(d1p0.port()) |
| .popVlan() |
| .pushMpls() |
| .copyTtlOut() |
| .setMpls(((MplsCriterion) mpls100Selector.getCriterion(MPLS_LABEL)).label()) |
| .setOutput(d1p11.port()) |
| .build() |
| )); |
| |
| |
| Collection<FlowRule> rulesS2 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d2p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS2, hasSize(1)); |
| |
| FlowRule ruleS2 = rulesS2.iterator().next(); |
| assertThat(ruleS2.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d2p0.port()) |
| .matchVlanId(VlanId.vlanId(LABEL)) |
| .build() |
| )); |
| assertThat(ruleS2.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setVlanId(VlanId.vlanId(LABEL)) |
| .setOutput(d2p1.port()) |
| .setVlanId(((VlanIdCriterion) vlan200Selector.getCriterion(VLAN_VID)).vlanId()) |
| .setOutput(d2p10.port()) |
| .build() |
| )); |
| |
| |
| Collection<FlowRule> rulesS3 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d3p1.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS3, hasSize(1)); |
| |
| FlowRule ruleS3 = rulesS3.iterator().next(); |
| assertThat(ruleS3.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchVlanId(VlanId.vlanId(LABEL)) |
| .matchInPort(d3p0.port()) |
| .build() |
| )); |
| assertThat(ruleS3.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .popVlan() |
| .pushMpls() |
| .copyTtlOut() |
| .setMpls(((MplsCriterion) mpls200Selector.getCriterion(MPLS_LABEL)).label()) |
| .setOutput(d3p10.port()) |
| .build() |
| )); |
| |
| sut.deactivate(); |
| |
| } |
| |
| /** |
| * We test the proper optimization of sp2mp with selector, |
| * treatment, mpls encapsulation and co-located |
| * different filtered ingress/egress points. |
| */ |
| @Test |
| public void testCoLocatedDifferentFilteredPointsNonTrivialForSp() { |
| |
| intent = LinkCollectionIntent.builder() |
| .appId(APP_ID) |
| .selector(ipPrefixSelector) |
| .treatment(ethDstTreatment) |
| .applyTreatmentOnEgress(true) |
| .links(linksForSp2MpCoLoc) |
| .constraints(constraintsForMPLS) |
| .filteredIngressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p10, vlan100Selector) |
| )) |
| .filteredEgressPoints(ImmutableSet.of( |
| new FilteredConnectPoint(d1p11, mpls100Selector), |
| new FilteredConnectPoint(d2p10, vlan200Selector), |
| new FilteredConnectPoint(d3p10, mpls200Selector) |
| )) |
| .build(); |
| |
| sut.activate(); |
| |
| /* |
| * We use the FIRST_FIT to simplify tests. |
| */ |
| LinkCollectionCompiler.labelAllocator.setLabelSelection(LABEL_SELECTION); |
| |
| List<Intent> compiled = sut.compile(intent, Collections.emptyList()); |
| assertThat(compiled, hasSize(1)); |
| |
| Collection<FlowRule> rules = ((FlowRuleIntent) compiled.get(0)).flowRules(); |
| assertThat(rules, hasSize(3)); |
| |
| Collection<FlowRule> rulesS1 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d1p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS1, hasSize(1)); |
| |
| FlowRule ruleS1 = rulesS1.iterator().next(); |
| assertThat(ruleS1.selector(), is( |
| DefaultTrafficSelector |
| .builder(ipPrefixSelector) |
| .matchInPort(d1p10.port()) |
| .matchVlanId(((VlanIdCriterion) vlan100Selector.getCriterion(VLAN_VID)).vlanId()) |
| .build() |
| )); |
| assertThat(ruleS1.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .popVlan() |
| .pushMpls() |
| .copyTtlOut() |
| .setMpls(MplsLabel.mplsLabel(LABEL)) |
| .setOutput(d1p0.port()) |
| .setEthDst(((ModEtherInstruction) ethDstTreatment |
| .allInstructions() |
| .stream() |
| .filter(instruction -> instruction instanceof ModEtherInstruction) |
| .findFirst().get()).mac()) |
| .setMpls(((MplsCriterion) mpls100Selector.getCriterion(MPLS_LABEL)).label()) |
| .setOutput(d1p11.port()) |
| .build() |
| )); |
| |
| |
| Collection<FlowRule> rulesS2 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d2p0.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS2, hasSize(1)); |
| |
| FlowRule ruleS2 = rulesS2.iterator().next(); |
| assertThat(ruleS2.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchInPort(d2p0.port()) |
| .matchEthType(Ethernet.MPLS_UNICAST) |
| .matchMplsLabel(MplsLabel.mplsLabel(LABEL)) |
| .build() |
| )); |
| assertThat(ruleS2.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setMpls(MplsLabel.mplsLabel(LABEL)) |
| .setOutput(d2p1.port()) |
| .setEthDst(((ModEtherInstruction) ethDstTreatment |
| .allInstructions() |
| .stream() |
| .filter(instruction -> instruction instanceof ModEtherInstruction) |
| .findFirst().get()).mac()) |
| .copyTtlIn() |
| .popMpls(IPV4.ethType()) |
| .pushVlan() |
| .setVlanId(((VlanIdCriterion) vlan200Selector.getCriterion(VLAN_VID)).vlanId()) |
| .setOutput(d2p10.port()) |
| .build() |
| )); |
| |
| |
| Collection<FlowRule> rulesS3 = rules.stream() |
| .filter(rule -> rule.deviceId().equals(d3p1.deviceId())) |
| .collect(Collectors.toSet()); |
| assertThat(rulesS3, hasSize(1)); |
| |
| FlowRule ruleS3 = rulesS3.iterator().next(); |
| assertThat(ruleS3.selector(), is( |
| DefaultTrafficSelector |
| .builder() |
| .matchEthType(Ethernet.MPLS_UNICAST) |
| .matchMplsLabel(MplsLabel.mplsLabel(LABEL)) |
| .matchInPort(d3p0.port()) |
| .build() |
| )); |
| assertThat(ruleS3.treatment(), is( |
| DefaultTrafficTreatment |
| .builder() |
| .setEthDst(((ModEtherInstruction) ethDstTreatment |
| .allInstructions() |
| .stream() |
| .filter(instruction -> instruction instanceof ModEtherInstruction) |
| .findFirst().get()).mac()) |
| .setMpls(((MplsCriterion) mpls200Selector.getCriterion(MPLS_LABEL)).label()) |
| .setOutput(d3p10.port()) |
| .build() |
| )); |
| |
| sut.deactivate(); |
| |
| } |
| |
| } |