use of io.strimzi.operator.common.operator.resource.ConfigMapOperator in project strimzi by strimzi.
the class KafkaStatusTest method testKafkaListenerNodePortAddressSameNode.
@Test
public void testKafkaListenerNodePortAddressSameNode(VertxTestContext context) throws ParseException {
Kafka kafka = new KafkaBuilder(getKafkaCrd()).editOrNewSpec().editOrNewKafka().withListeners(new GenericKafkaListenerBuilder().withName("external").withPort(9094).withType(KafkaListenerType.NODEPORT).withTls(true).build()).endKafka().endSpec().build();
KafkaCluster kafkaCluster = KafkaCluster.fromCrd(Reconciliation.DUMMY_RECONCILIATION, kafka, VERSIONS);
ResourceOperatorSupplier supplier = ResourceUtils.supplierWithMocks(false);
// Mock the CRD Operator for Kafka resources
CrdOperator mockKafkaOps = supplier.kafkaOperator;
when(mockKafkaOps.getAsync(eq(namespace), eq(clusterName))).thenReturn(Future.succeededFuture(kafka));
when(mockKafkaOps.get(eq(namespace), eq(clusterName))).thenReturn(kafka);
ArgumentCaptor<Kafka> kafkaCaptor = ArgumentCaptor.forClass(Kafka.class);
when(mockKafkaOps.updateStatusAsync(any(), kafkaCaptor.capture())).thenReturn(Future.succeededFuture());
// Mock the KafkaSetOperator
StatefulSetOperator mockStsOps = supplier.stsOperations;
when(mockStsOps.getAsync(eq(namespace), eq(KafkaCluster.kafkaClusterName(clusterName)))).thenReturn(Future.succeededFuture(kafkaCluster.generateStatefulSet(false, null, null, null)));
// Mock the StrimziPodSet operator
CrdOperator<KubernetesClient, StrimziPodSet, StrimziPodSetList> mockPodSetOps = supplier.strimziPodSetOperator;
when(mockPodSetOps.getAsync(any(), any())).thenReturn(Future.succeededFuture(null));
// Mock the ConfigMapOperator
ConfigMapOperator mockCmOps = supplier.configMapOperations;
when(mockCmOps.getAsync(eq(namespace), eq(clusterName))).thenReturn(Future.succeededFuture(kafkaCluster.generateMetricsAndLogConfigMap(new MetricsAndLogging(null, null))));
// Mock Pods Operator
Pod pod0 = new PodBuilder().withNewMetadata().withName(clusterName + "-kafka-" + 0).endMetadata().withNewStatus().withHostIP("10.0.0.1").endStatus().build();
Pod pod1 = new PodBuilder().withNewMetadata().withName(clusterName + "-kafka-" + 1).endMetadata().withNewStatus().withHostIP("10.0.0.1").endStatus().build();
Pod pod2 = new PodBuilder().withNewMetadata().withName(clusterName + "-kafka-" + 2).endMetadata().withNewStatus().withHostIP("10.0.0.1").endStatus().build();
List<Pod> pods = new ArrayList<>();
pods.add(pod0);
pods.add(pod1);
pods.add(pod2);
PodOperator mockPodOps = supplier.podOperations;
when(mockPodOps.listAsync(eq(namespace), any(Labels.class))).thenReturn(Future.succeededFuture(pods));
// Mock Node operator
NodeOperator mockNodeOps = supplier.nodeOperator;
when(mockNodeOps.listAsync(any(Labels.class))).thenReturn(Future.succeededFuture(getClusterNodes()));
MockNodePortStatusKafkaAssemblyOperator kao = new MockNodePortStatusKafkaAssemblyOperator(vertx, new PlatformFeaturesAvailability(false, kubernetesVersion), certManager, passwordGenerator, supplier, config);
Checkpoint async = context.checkpoint();
kao.reconcile(new Reconciliation("test-trigger", Kafka.RESOURCE_KIND, namespace, clusterName)).onComplete(res -> {
assertThat(res.succeeded(), is(true));
assertThat(kafkaCaptor.getValue(), is(notNullValue()));
assertThat(kafkaCaptor.getValue().getStatus(), is(notNullValue()));
KafkaStatus status = kafkaCaptor.getValue().getStatus();
assertThat(status.getListeners().size(), is(1));
assertThat(status.getListeners().get(0).getType(), is("external"));
assertThat(status.getListeners().get(0).getName(), is("external"));
List<ListenerAddress> addresses = status.getListeners().get(0).getAddresses();
assertThat(addresses.size(), is(1));
List<ListenerAddress> expected = new ArrayList<>();
expected.add(new ListenerAddressBuilder().withHost("50.35.18.119").withPort(31234).build());
async.flag();
});
}
use of io.strimzi.operator.common.operator.resource.ConfigMapOperator in project strimzi by strimzi.
the class KafkaRebalanceStateMachineTest method checkTransition.
/**
* Checks the expected transition between two states of the Kafka Rebalance operator.
*
* @param vertx The vertx test instance.
* @param context The test context instance.
* @param currentState The current state of the resource before being passed to computeNextStatus.
* @param nextState The expected state of the resouce after computeNextStatus has been called.
* @param initialAnnotation The initial annotation attached to the Kafka Rebalance resource. For example none or refresh.
* @param kcRebalance The Kafka Rebalance instance that will be returned by the resourceSupplier.
* @return A future for the {@link KafkaRebalanceStatus} returned by the {@link KafkaRebalanceAssemblyOperator#computeNextStatus} method
*/
private Future<KafkaRebalanceStatus> checkTransition(Vertx vertx, VertxTestContext context, KafkaRebalanceState currentState, KafkaRebalanceState nextState, KafkaRebalanceAnnotation initialAnnotation, KafkaRebalance kcRebalance) {
CruiseControlApi client = new CruiseControlApiImpl(vertx, HTTP_DEFAULT_IDLE_TIMEOUT_SECONDS, MockCruiseControl.CC_SECRET, MockCruiseControl.CC_API_SECRET, true, true);
ResourceOperatorSupplier supplier = ResourceUtils.supplierWithMocks(true);
ConfigMapOperator mockCmOps = supplier.configMapOperations;
PlatformFeaturesAvailability pfa = new PlatformFeaturesAvailability(true, kubernetesVersion);
KafkaRebalanceAssemblyOperator kcrao = new KafkaRebalanceAssemblyOperator(vertx, pfa, supplier, ResourceUtils.dummyClusterOperatorConfig()) {
@Override
public String cruiseControlHost(String clusterName, String clusterNamespace) {
return HOST;
}
};
Reconciliation recon = new Reconciliation("test-trigger", KafkaRebalance.RESOURCE_KIND, CLUSTER_NAMESPACE, RESOURCE_NAME);
RebalanceOptions.RebalanceOptionsBuilder rbOptions = new RebalanceOptions.RebalanceOptionsBuilder();
if (kcRebalance.getSpec() != null) {
if (kcRebalance.getSpec().getGoals() != null) {
rbOptions.withGoals(kcRebalance.getSpec().getGoals());
}
if (kcRebalance.getSpec().isSkipHardGoalCheck()) {
rbOptions.withSkipHardGoalCheck();
}
}
CrdOperator<KubernetesClient, KafkaRebalance, KafkaRebalanceList> mockRebalanceOps = supplier.kafkaRebalanceOperator;
when(mockCmOps.getAsync(CLUSTER_NAMESPACE, RESOURCE_NAME)).thenReturn(Future.succeededFuture(new ConfigMap()));
when(mockRebalanceOps.get(CLUSTER_NAMESPACE, RESOURCE_NAME)).thenReturn(kcRebalance);
when(mockRebalanceOps.getAsync(CLUSTER_NAMESPACE, RESOURCE_NAME)).thenReturn(Future.succeededFuture(kcRebalance));
return kcrao.computeNextStatus(recon, HOST, client, kcRebalance, currentState, initialAnnotation, rbOptions).compose(result -> {
context.verify(() -> {
assertThat(result.getStatus().getConditions(), StateMatchers.hasStateInConditions(nextState));
});
return Future.succeededFuture(result.getStatus());
});
}
use of io.strimzi.operator.common.operator.resource.ConfigMapOperator in project strimzi-kafka-operator by strimzi.
the class KafkaAssemblyOperatorTest method updateCluster.
private void updateCluster(VertxTestContext context, Kafka originalAssembly, Kafka updatedAssembly) {
KafkaCluster originalKafkaCluster = KafkaCluster.fromCrd(Reconciliation.DUMMY_RECONCILIATION, originalAssembly, VERSIONS);
KafkaCluster updatedKafkaCluster = KafkaCluster.fromCrd(Reconciliation.DUMMY_RECONCILIATION, updatedAssembly, VERSIONS);
ZookeeperCluster originalZookeeperCluster = ZookeeperCluster.fromCrd(Reconciliation.DUMMY_RECONCILIATION, originalAssembly, VERSIONS);
ZookeeperCluster updatedZookeeperCluster = ZookeeperCluster.fromCrd(Reconciliation.DUMMY_RECONCILIATION, updatedAssembly, VERSIONS);
EntityOperator originalEntityOperator = EntityOperator.fromCrd(new Reconciliation("test", originalAssembly.getKind(), originalAssembly.getMetadata().getNamespace(), originalAssembly.getMetadata().getName()), originalAssembly, VERSIONS);
KafkaExporter originalKafkaExporter = KafkaExporter.fromCrd(new Reconciliation("test", originalAssembly.getKind(), originalAssembly.getMetadata().getNamespace(), originalAssembly.getMetadata().getName()), originalAssembly, VERSIONS);
CruiseControl originalCruiseControl = CruiseControl.fromCrd(Reconciliation.DUMMY_RECONCILIATION, originalAssembly, VERSIONS, updatedKafkaCluster.getStorage());
// create CM, Service, headless service, statefulset and so on
ResourceOperatorSupplier supplier = ResourceUtils.supplierWithMocks(openShift);
ClusterOperatorConfig config = ResourceUtils.dummyClusterOperatorConfig(VERSIONS);
var mockKafkaOps = supplier.kafkaOperator;
ConfigMapOperator mockCmOps = supplier.configMapOperations;
ServiceOperator mockServiceOps = supplier.serviceOperations;
StatefulSetOperator mockStsOps = supplier.stsOperations;
PvcOperator mockPvcOps = supplier.pvcOperations;
PodOperator mockPodOps = supplier.podOperations;
DeploymentOperator mockDepOps = supplier.deploymentOperations;
SecretOperator mockSecretOps = supplier.secretOperations;
NetworkPolicyOperator mockPolicyOps = supplier.networkPolicyOperator;
PodDisruptionBudgetOperator mockPdbOps = supplier.podDisruptionBudgetOperator;
NodeOperator mockNodeOps = supplier.nodeOperator;
IngressOperator mockIngressOps = supplier.ingressOperations;
RouteOperator mockRouteOps = supplier.routeOperations;
var mockPodSetOps = supplier.strimziPodSetOperator;
String clusterName = updatedAssembly.getMetadata().getName();
String clusterNamespace = updatedAssembly.getMetadata().getNamespace();
Map<String, PersistentVolumeClaim> zkPvcs = createPvcs(clusterNamespace, originalZookeeperCluster.getStorage(), originalZookeeperCluster.getReplicas(), (replica, storageId) -> AbstractModel.VOLUME_NAME + "-" + ZookeeperCluster.zookeeperPodName(clusterName, replica));
zkPvcs.putAll(createPvcs(clusterNamespace, updatedZookeeperCluster.getStorage(), updatedZookeeperCluster.getReplicas(), (replica, storageId) -> AbstractModel.VOLUME_NAME + "-" + ZookeeperCluster.zookeeperPodName(clusterName, replica)));
Map<String, PersistentVolumeClaim> kafkaPvcs = createPvcs(clusterNamespace, originalKafkaCluster.getStorage(), originalKafkaCluster.getReplicas(), (replica, storageId) -> {
String name = VolumeUtils.createVolumePrefix(storageId, false);
return name + "-" + KafkaCluster.kafkaPodName(clusterName, replica);
});
kafkaPvcs.putAll(createPvcs(clusterNamespace, updatedKafkaCluster.getStorage(), updatedKafkaCluster.getReplicas(), (replica, storageId) -> {
String name = VolumeUtils.createVolumePrefix(storageId, false);
return name + "-" + KafkaCluster.kafkaPodName(clusterName, replica);
}));
when(mockPvcOps.get(eq(clusterNamespace), ArgumentMatchers.startsWith("data-"))).thenAnswer(invocation -> {
String pvcName = invocation.getArgument(1);
if (pvcName.contains(originalZookeeperCluster.getName())) {
return zkPvcs.get(pvcName);
} else if (pvcName.contains(originalKafkaCluster.getName())) {
return kafkaPvcs.get(pvcName);
}
return null;
});
when(mockPvcOps.getAsync(eq(clusterNamespace), ArgumentMatchers.startsWith("data-"))).thenAnswer(invocation -> {
String pvcName = invocation.getArgument(1);
if (pvcName.contains(originalZookeeperCluster.getName())) {
return Future.succeededFuture(zkPvcs.get(pvcName));
} else if (pvcName.contains(originalKafkaCluster.getName())) {
return Future.succeededFuture(kafkaPvcs.get(pvcName));
}
return Future.succeededFuture(null);
});
when(mockPvcOps.listAsync(eq(clusterNamespace), ArgumentMatchers.any(Labels.class))).thenAnswer(invocation -> {
Labels labels = invocation.getArgument(1);
if (labels.toMap().get(Labels.STRIMZI_NAME_LABEL).contains("kafka")) {
return Future.succeededFuture(new ArrayList<>(kafkaPvcs.values()));
} else if (labels.toMap().get(Labels.STRIMZI_NAME_LABEL).contains("zookeeper")) {
return Future.succeededFuture(new ArrayList<>(zkPvcs.values()));
}
return Future.succeededFuture(Collections.EMPTY_LIST);
});
when(mockPvcOps.reconcile(any(), anyString(), anyString(), any())).thenReturn(Future.succeededFuture());
// Mock CM get
when(mockKafkaOps.get(clusterNamespace, clusterName)).thenReturn(updatedAssembly);
when(mockKafkaOps.getAsync(eq(clusterNamespace), eq(clusterName))).thenReturn(Future.succeededFuture(updatedAssembly));
when(mockKafkaOps.updateStatusAsync(any(), any(Kafka.class))).thenReturn(Future.succeededFuture());
when(mockPodSetOps.reconcile(any(), any(), any(), any())).thenReturn(Future.succeededFuture(ReconcileResult.created(new StrimziPodSet())));
when(mockPodSetOps.getAsync(any(), any())).thenReturn(Future.succeededFuture(null));
ConfigMap metricsCm = new ConfigMapBuilder().withNewMetadata().withName("metrics-cm").endMetadata().withData(singletonMap("metrics-config.yml", "")).build();
ConfigMap metricsAndLoggingCm = originalKafkaCluster.generateAncillaryConfigMap(new MetricsAndLogging(metricsCm, null), emptySet(), emptySet(), false);
when(mockCmOps.get(clusterNamespace, KafkaCluster.metricAndLogConfigsName(clusterName))).thenReturn(metricsAndLoggingCm);
when(mockCmOps.getAsync(clusterNamespace, KafkaCluster.metricAndLogConfigsName(clusterName))).thenReturn(Future.succeededFuture(metricsAndLoggingCm));
ConfigMap zkMetricsCm = new ConfigMapBuilder().withNewMetadata().withName(ZookeeperCluster.zookeeperMetricAndLogConfigsName(clusterName)).withNamespace(clusterNamespace).endMetadata().withData(singletonMap(AbstractModel.ANCILLARY_CM_KEY_METRICS, TestUtils.toYamlString(METRICS_CONFIG))).build();
when(mockCmOps.get(clusterNamespace, ZookeeperCluster.zookeeperMetricAndLogConfigsName(clusterName))).thenReturn(zkMetricsCm);
ConfigMap logCm = new ConfigMapBuilder().withNewMetadata().withName(KafkaCluster.metricAndLogConfigsName(clusterName)).withNamespace(clusterNamespace).endMetadata().withData(singletonMap(AbstractModel.ANCILLARY_CM_KEY_LOG_CONFIG, updatedKafkaCluster.parseLogging(LOG_KAFKA_CONFIG, null))).build();
when(mockCmOps.get(clusterNamespace, KafkaCluster.metricAndLogConfigsName(clusterName))).thenReturn(logCm);
ConfigMap zklogsCm = new ConfigMapBuilder().withNewMetadata().withName(ZookeeperCluster.zookeeperMetricAndLogConfigsName(clusterName)).withNamespace(clusterNamespace).endMetadata().withData(singletonMap(AbstractModel.ANCILLARY_CM_KEY_LOG_CONFIG, updatedZookeeperCluster.parseLogging(LOG_ZOOKEEPER_CONFIG, null))).build();
when(mockCmOps.get(clusterNamespace, ZookeeperCluster.zookeeperMetricAndLogConfigsName(clusterName))).thenReturn(zklogsCm);
when(mockCmOps.getAsync(clusterNamespace, metricsCMName)).thenReturn(Future.succeededFuture(metricsCM));
when(mockCmOps.getAsync(clusterNamespace, differentMetricsCMName)).thenReturn(Future.succeededFuture(metricsCM));
// Mock pod ops
when(mockPodOps.readiness(any(), anyString(), anyString(), anyLong(), anyLong())).thenReturn(Future.succeededFuture());
when(mockPodOps.listAsync(anyString(), any(Labels.class))).thenReturn(Future.succeededFuture(emptyList()));
// Mock node ops
when(mockNodeOps.listAsync(any(Labels.class))).thenReturn(Future.succeededFuture(emptyList()));
// Mock Service gets
Set<Service> expectedServices = new HashSet<>();
expectedServices.add(updatedKafkaCluster.generateService());
expectedServices.add(updatedKafkaCluster.generateHeadlessService());
expectedServices.addAll(updatedKafkaCluster.generateExternalBootstrapServices());
int replicas = updatedKafkaCluster.getReplicas();
for (int i = 0; i < replicas; i++) {
expectedServices.addAll(updatedKafkaCluster.generateExternalServices(i));
}
Map<String, Service> expectedServicesMap = expectedServices.stream().collect(Collectors.toMap(s -> s.getMetadata().getName(), s -> s));
when(mockServiceOps.endpointReadiness(any(), eq(clusterNamespace), any(), anyLong(), anyLong())).thenReturn(Future.succeededFuture());
when(mockServiceOps.get(eq(clusterNamespace), anyString())).thenAnswer(i -> Future.succeededFuture(expectedServicesMap.get(i.<String>getArgument(1))));
when(mockServiceOps.getAsync(eq(clusterNamespace), anyString())).thenAnswer(i -> {
Service svc = expectedServicesMap.get(i.<String>getArgument(1));
if (svc != null && "NodePort".equals(svc.getSpec().getType())) {
svc.getSpec().getPorts().get(0).setNodePort(32000);
}
return Future.succeededFuture(svc);
});
when(mockServiceOps.listAsync(eq(clusterNamespace), any(Labels.class))).thenReturn(Future.succeededFuture(asList(originalKafkaCluster.generateService(), originalKafkaCluster.generateHeadlessService())));
when(mockServiceOps.hasNodePort(any(), eq(clusterNamespace), any(), anyLong(), anyLong())).thenReturn(Future.succeededFuture());
// Ingress mocks
when(mockIngressOps.listAsync(eq(clusterNamespace), any(Labels.class))).thenReturn(Future.succeededFuture(emptyList()));
// Route Mocks
if (openShift) {
Set<Route> expectedRoutes = new HashSet<>(originalKafkaCluster.generateExternalBootstrapRoutes());
for (int i = 0; i < replicas; i++) {
expectedRoutes.addAll(originalKafkaCluster.generateExternalRoutes(i));
}
Map<String, Route> expectedRoutesMap = expectedRoutes.stream().collect(Collectors.toMap(s -> s.getMetadata().getName(), s -> s));
when(mockRouteOps.get(eq(clusterNamespace), anyString())).thenAnswer(i -> Future.succeededFuture(expectedRoutesMap.get(i.<String>getArgument(1))));
when(mockRouteOps.getAsync(eq(clusterNamespace), anyString())).thenAnswer(i -> {
Route rt = expectedRoutesMap.get(i.<String>getArgument(1));
if (rt != null) {
RouteStatus st = new RouteStatusBuilder().withIngress(new RouteIngressBuilder().withHost("host").build()).build();
rt.setStatus(st);
}
return Future.succeededFuture(rt);
});
when(mockRouteOps.listAsync(eq(clusterNamespace), any(Labels.class))).thenReturn(Future.succeededFuture(emptyList()));
when(mockRouteOps.hasAddress(any(), eq(clusterNamespace), any(), anyLong(), anyLong())).thenReturn(Future.succeededFuture());
}
// Mock Secret gets
when(mockSecretOps.list(anyString(), any())).thenReturn(emptyList());
when(mockSecretOps.getAsync(clusterNamespace, KafkaCluster.jmxSecretName(clusterName))).thenReturn(Future.succeededFuture(originalKafkaCluster.generateJmxSecret()));
when(mockSecretOps.getAsync(clusterNamespace, ZookeeperCluster.jmxSecretName(clusterName))).thenReturn(Future.succeededFuture(originalZookeeperCluster.generateJmxSecret()));
when(mockSecretOps.getAsync(clusterNamespace, ZookeeperCluster.nodesSecretName(clusterName))).thenReturn(Future.succeededFuture());
when(mockSecretOps.getAsync(clusterNamespace, KafkaCluster.brokersSecretName(clusterName))).thenReturn(Future.succeededFuture());
when(mockSecretOps.getAsync(clusterNamespace, EntityTopicOperator.secretName(clusterName))).thenReturn(Future.succeededFuture());
when(mockSecretOps.getAsync(clusterNamespace, KafkaExporter.secretName(clusterName))).thenReturn(Future.succeededFuture());
when(mockSecretOps.getAsync(clusterNamespace, KafkaResources.clusterCaCertificateSecretName(clusterName))).thenReturn(Future.succeededFuture(new Secret()));
when(mockSecretOps.getAsync(clusterNamespace, ClusterOperator.secretName(clusterName))).thenReturn(Future.succeededFuture(new Secret()));
when(mockSecretOps.getAsync(clusterNamespace, CruiseControl.secretName(clusterName))).thenReturn(Future.succeededFuture());
// Mock NetworkPolicy get
when(mockPolicyOps.get(clusterNamespace, KafkaCluster.networkPolicyName(clusterName))).thenReturn(originalKafkaCluster.generateNetworkPolicy(null, null));
when(mockPolicyOps.get(clusterNamespace, ZookeeperCluster.policyName(clusterName))).thenReturn(originalZookeeperCluster.generateNetworkPolicy(null, null));
// Mock PodDisruptionBudget get
when(mockPdbOps.get(clusterNamespace, KafkaCluster.kafkaClusterName(clusterName))).thenReturn(originalKafkaCluster.generatePodDisruptionBudget());
when(mockPdbOps.get(clusterNamespace, ZookeeperCluster.zookeeperClusterName(clusterName))).thenReturn(originalZookeeperCluster.generatePodDisruptionBudget());
// Mock StatefulSet get
when(mockStsOps.get(eq(clusterNamespace), eq(KafkaCluster.kafkaClusterName(clusterName)))).thenReturn(originalKafkaCluster.generateStatefulSet(openShift, null, null, null));
when(mockStsOps.get(eq(clusterNamespace), eq(ZookeeperCluster.zookeeperClusterName(clusterName)))).thenReturn(originalZookeeperCluster.generateStatefulSet(openShift, null, null));
// Mock Deployment get
if (originalEntityOperator != null) {
when(mockDepOps.get(clusterNamespace, EntityOperator.entityOperatorName(clusterName))).thenReturn(originalEntityOperator.generateDeployment(true, Map.of(), null, null));
when(mockDepOps.getAsync(clusterNamespace, EntityOperator.entityOperatorName(clusterName))).thenReturn(Future.succeededFuture(originalEntityOperator.generateDeployment(true, Map.of(), null, null)));
when(mockDepOps.waitForObserved(any(), anyString(), anyString(), anyLong(), anyLong())).thenReturn(Future.succeededFuture());
when(mockDepOps.readiness(any(), anyString(), anyString(), anyLong(), anyLong())).thenReturn(Future.succeededFuture());
}
if (originalCruiseControl != null) {
when(mockDepOps.get(clusterNamespace, CruiseControl.cruiseControlName(clusterName))).thenReturn(originalCruiseControl.generateDeployment(true, Map.of(), null, null));
when(mockDepOps.getAsync(clusterNamespace, EntityOperator.entityOperatorName(clusterName))).thenReturn(Future.succeededFuture(originalCruiseControl.generateDeployment(true, Map.of(), null, null)));
when(mockDepOps.waitForObserved(any(), anyString(), anyString(), anyLong(), anyLong())).thenReturn(Future.succeededFuture());
when(mockDepOps.readiness(any(), anyString(), anyString(), anyLong(), anyLong())).thenReturn(Future.succeededFuture());
}
if (metrics) {
when(mockDepOps.get(clusterNamespace, KafkaExporter.kafkaExporterName(clusterName))).thenReturn(originalKafkaExporter.generateDeployment(true, null, null));
when(mockDepOps.getAsync(clusterNamespace, KafkaExporter.kafkaExporterName(clusterName))).thenReturn(Future.succeededFuture(originalKafkaExporter.generateDeployment(true, null, null)));
when(mockDepOps.waitForObserved(any(), anyString(), anyString(), anyLong(), anyLong())).thenReturn(Future.succeededFuture());
when(mockDepOps.readiness(any(), anyString(), anyString(), anyLong(), anyLong())).thenReturn(Future.succeededFuture());
}
// Mock CM patch
Set<String> metricsCms = set();
doAnswer(invocation -> {
metricsCms.add(invocation.getArgument(1));
return Future.succeededFuture();
}).when(mockCmOps).reconcile(any(), eq(clusterNamespace), any(), any());
Set<String> logCms = set();
doAnswer(invocation -> {
logCms.add(invocation.getArgument(1));
return Future.succeededFuture();
}).when(mockCmOps).reconcile(any(), eq(clusterNamespace), any(), any());
// Mock Service patch (both service and headless service
ArgumentCaptor<String> patchedServicesCaptor = ArgumentCaptor.forClass(String.class);
when(mockServiceOps.reconcile(any(), eq(clusterNamespace), patchedServicesCaptor.capture(), any())).thenReturn(Future.succeededFuture());
// Mock Secrets patch
when(mockSecretOps.reconcile(any(), eq(clusterNamespace), any(), any())).thenReturn(Future.succeededFuture());
// Mock NetworkPolicy patch
when(mockPolicyOps.reconcile(any(), eq(clusterNamespace), any(), any())).thenReturn(Future.succeededFuture());
// Mock PodDisruptionBudget patch
when(mockPdbOps.reconcile(any(), eq(clusterNamespace), any(), any())).thenReturn(Future.succeededFuture());
// Mock StatefulSet patch
when(mockStsOps.reconcile(any(), eq(clusterNamespace), eq(ZookeeperCluster.zookeeperClusterName(clusterName)), any())).thenAnswer(invocation -> {
StatefulSet sts = invocation.getArgument(3);
return Future.succeededFuture(ReconcileResult.patched(sts));
});
when(mockStsOps.reconcile(any(), eq(clusterNamespace), eq(KafkaCluster.kafkaClusterName(clusterName)), any())).thenAnswer(invocation -> {
StatefulSet sts = invocation.getArgument(3);
return Future.succeededFuture(ReconcileResult.patched(sts));
});
when(mockStsOps.getAsync(eq(clusterNamespace), eq(ZookeeperCluster.zookeeperClusterName(clusterName)))).thenReturn(Future.succeededFuture(originalZookeeperCluster.generateStatefulSet(openShift, null, null)));
when(mockStsOps.getAsync(eq(clusterNamespace), eq(KafkaCluster.kafkaClusterName(clusterName)))).thenReturn(Future.succeededFuture());
// Mock StatefulSet scaleUp
// ArgumentCaptor<String> scaledUpCaptor = ArgumentCaptor.forClass(String.class);
when(mockStsOps.scaleUp(any(), anyString(), anyString(), anyInt())).thenReturn(Future.succeededFuture(42));
// Mock StatefulSet scaleDown
// ArgumentCaptor<String> scaledDownCaptor = ArgumentCaptor.forClass(String.class);
when(mockStsOps.scaleDown(any(), anyString(), anyString(), anyInt())).thenReturn(Future.succeededFuture(42));
// Mock Deployment patch
ArgumentCaptor<String> depCaptor = ArgumentCaptor.forClass(String.class);
when(mockDepOps.reconcile(any(), anyString(), depCaptor.capture(), any())).thenReturn(Future.succeededFuture());
KafkaAssemblyOperator ops = new KafkaAssemblyOperator(vertx, new PlatformFeaturesAvailability(openShift, kubernetesVersion), certManager, passwordGenerator, supplier, config);
// Now try to update a KafkaCluster based on this CM
Checkpoint async = context.checkpoint();
ops.createOrUpdate(new Reconciliation("test-trigger", Kafka.RESOURCE_KIND, clusterNamespace, clusterName), updatedAssembly).onComplete(context.succeeding(v -> context.verify(() -> {
// rolling restart
Set<String> expectedRollingRestarts = set();
if (StatefulSetOperator.needsRollingUpdate(Reconciliation.DUMMY_RECONCILIATION, new StatefulSetDiff(Reconciliation.DUMMY_RECONCILIATION, originalKafkaCluster.generateStatefulSet(openShift, null, null, null), updatedKafkaCluster.generateStatefulSet(openShift, null, null, null)))) {
expectedRollingRestarts.add(originalKafkaCluster.getName());
}
if (StatefulSetOperator.needsRollingUpdate(Reconciliation.DUMMY_RECONCILIATION, new StatefulSetDiff(Reconciliation.DUMMY_RECONCILIATION, originalZookeeperCluster.generateStatefulSet(openShift, null, null), updatedZookeeperCluster.generateStatefulSet(openShift, null, null)))) {
expectedRollingRestarts.add(originalZookeeperCluster.getName());
}
// Check that ZK scale-up happens when it should
boolean zkScaledUp = updatedAssembly.getSpec().getZookeeper().getReplicas() > originalAssembly.getSpec().getZookeeper().getReplicas();
verify(mockStsOps, times(zkScaledUp ? 1 : 0)).scaleUp(any(), eq(clusterNamespace), eq(ZookeeperCluster.zookeeperClusterName(clusterName)), anyInt());
// No metrics config => no CMs created
verify(mockCmOps, never()).createOrUpdate(any(), any());
async.flag();
})));
}
use of io.strimzi.operator.common.operator.resource.ConfigMapOperator in project strimzi-kafka-operator by strimzi.
the class KafkaRebalanceStateMachineTest method checkTransition.
/**
* Checks the expected transition between two states of the Kafka Rebalance operator.
*
* @param vertx The vertx test instance.
* @param context The test context instance.
* @param currentState The current state of the resource before being passed to computeNextStatus.
* @param nextState The expected state of the resouce after computeNextStatus has been called.
* @param initialAnnotation The initial annotation attached to the Kafka Rebalance resource. For example none or refresh.
* @param kcRebalance The Kafka Rebalance instance that will be returned by the resourceSupplier.
* @return A future for the {@link KafkaRebalanceStatus} returned by the {@link KafkaRebalanceAssemblyOperator#computeNextStatus} method
*/
private Future<KafkaRebalanceStatus> checkTransition(Vertx vertx, VertxTestContext context, KafkaRebalanceState currentState, KafkaRebalanceState nextState, KafkaRebalanceAnnotation initialAnnotation, KafkaRebalance kcRebalance) {
CruiseControlApi client = new CruiseControlApiImpl(vertx, HTTP_DEFAULT_IDLE_TIMEOUT_SECONDS, MockCruiseControl.CC_SECRET, MockCruiseControl.CC_API_SECRET, true, true);
ResourceOperatorSupplier supplier = ResourceUtils.supplierWithMocks(true);
ConfigMapOperator mockCmOps = supplier.configMapOperations;
PlatformFeaturesAvailability pfa = new PlatformFeaturesAvailability(true, kubernetesVersion);
KafkaRebalanceAssemblyOperator kcrao = new KafkaRebalanceAssemblyOperator(vertx, pfa, supplier, ResourceUtils.dummyClusterOperatorConfig()) {
@Override
public String cruiseControlHost(String clusterName, String clusterNamespace) {
return HOST;
}
};
Reconciliation recon = new Reconciliation("test-trigger", KafkaRebalance.RESOURCE_KIND, CLUSTER_NAMESPACE, RESOURCE_NAME);
RebalanceOptions.RebalanceOptionsBuilder rbOptions = new RebalanceOptions.RebalanceOptionsBuilder();
if (kcRebalance.getSpec() != null) {
if (kcRebalance.getSpec().getGoals() != null) {
rbOptions.withGoals(kcRebalance.getSpec().getGoals());
}
if (kcRebalance.getSpec().isSkipHardGoalCheck()) {
rbOptions.withSkipHardGoalCheck();
}
}
CrdOperator<KubernetesClient, KafkaRebalance, KafkaRebalanceList> mockRebalanceOps = supplier.kafkaRebalanceOperator;
when(mockCmOps.getAsync(CLUSTER_NAMESPACE, RESOURCE_NAME)).thenReturn(Future.succeededFuture(new ConfigMap()));
when(mockRebalanceOps.get(CLUSTER_NAMESPACE, RESOURCE_NAME)).thenReturn(kcRebalance);
when(mockRebalanceOps.getAsync(CLUSTER_NAMESPACE, RESOURCE_NAME)).thenReturn(Future.succeededFuture(kcRebalance));
return kcrao.computeNextStatus(recon, HOST, client, kcRebalance, currentState, initialAnnotation, rbOptions).compose(result -> {
context.verify(() -> {
assertThat(result.getStatus().getConditions(), StateMatchers.hasStateInConditions(nextState));
});
return Future.succeededFuture(result.getStatus());
});
}
use of io.strimzi.operator.common.operator.resource.ConfigMapOperator in project strimzi-kafka-operator by strimzi.
the class KafkaStatusTest method testKafkaListenerNodePortAddressInStatus.
@Test
public void testKafkaListenerNodePortAddressInStatus(VertxTestContext context) throws ParseException {
Kafka kafka = new KafkaBuilder(getKafkaCrd()).editOrNewSpec().editOrNewKafka().withListeners(new GenericKafkaListenerBuilder().withName("external").withPort(9094).withType(KafkaListenerType.NODEPORT).withTls(true).build()).endKafka().endSpec().build();
KafkaCluster kafkaCluster = KafkaCluster.fromCrd(Reconciliation.DUMMY_RECONCILIATION, kafka, VERSIONS);
ResourceOperatorSupplier supplier = ResourceUtils.supplierWithMocks(false);
// Mock the CRD Operator for Kafka resources
CrdOperator mockKafkaOps = supplier.kafkaOperator;
when(mockKafkaOps.getAsync(eq(namespace), eq(clusterName))).thenReturn(Future.succeededFuture(kafka));
when(mockKafkaOps.get(eq(namespace), eq(clusterName))).thenReturn(kafka);
ArgumentCaptor<Kafka> kafkaCaptor = ArgumentCaptor.forClass(Kafka.class);
when(mockKafkaOps.updateStatusAsync(any(), kafkaCaptor.capture())).thenReturn(Future.succeededFuture());
// Mock the KafkaSetOperator
StatefulSetOperator mockStsOps = supplier.stsOperations;
when(mockStsOps.getAsync(eq(namespace), eq(KafkaCluster.kafkaClusterName(clusterName)))).thenReturn(Future.succeededFuture(kafkaCluster.generateStatefulSet(false, null, null, null)));
// Mock the StrimziPodSet operator
CrdOperator<KubernetesClient, StrimziPodSet, StrimziPodSetList> mockPodSetOps = supplier.strimziPodSetOperator;
when(mockPodSetOps.getAsync(any(), any())).thenReturn(Future.succeededFuture(null));
// Mock the ConfigMapOperator
ConfigMapOperator mockCmOps = supplier.configMapOperations;
when(mockCmOps.getAsync(eq(namespace), eq(clusterName))).thenReturn(Future.succeededFuture(kafkaCluster.generateMetricsAndLogConfigMap(new MetricsAndLogging(null, null))));
// Mock Pods Operator
Pod pod0 = new PodBuilder().withNewMetadata().withName(clusterName + "-kafka-" + 0).endMetadata().withNewStatus().withHostIP("10.0.0.1").endStatus().build();
Pod pod1 = new PodBuilder().withNewMetadata().withName(clusterName + "-kafka-" + 1).endMetadata().withNewStatus().withHostIP("10.0.0.25").endStatus().build();
Pod pod2 = new PodBuilder().withNewMetadata().withName(clusterName + "-kafka-" + 2).endMetadata().withNewStatus().withHostIP("10.0.0.13").endStatus().build();
List<Pod> pods = new ArrayList<>();
pods.add(pod0);
pods.add(pod1);
pods.add(pod2);
PodOperator mockPodOps = supplier.podOperations;
when(mockPodOps.listAsync(eq(namespace), any(Labels.class))).thenReturn(Future.succeededFuture(pods));
// Mock Node operator
NodeOperator mockNodeOps = supplier.nodeOperator;
when(mockNodeOps.listAsync(any(Labels.class))).thenReturn(Future.succeededFuture(getClusterNodes()));
MockNodePortStatusKafkaAssemblyOperator kao = new MockNodePortStatusKafkaAssemblyOperator(vertx, new PlatformFeaturesAvailability(false, kubernetesVersion), certManager, passwordGenerator, supplier, config);
Checkpoint async = context.checkpoint();
kao.reconcile(new Reconciliation("test-trigger", Kafka.RESOURCE_KIND, namespace, clusterName)).onComplete(res -> {
assertThat(res.succeeded(), is(true));
assertThat(kafkaCaptor.getValue(), is(notNullValue()));
assertThat(kafkaCaptor.getValue().getStatus(), is(notNullValue()));
KafkaStatus status = kafkaCaptor.getValue().getStatus();
assertThat(status.getListeners().size(), is(1));
assertThat(status.getListeners().get(0).getType(), is("external"));
assertThat(status.getListeners().get(0).getName(), is("external"));
List<ListenerAddress> addresses = status.getListeners().get(0).getAddresses();
assertThat(addresses.size(), is(3));
List<ListenerAddress> expected = new ArrayList<>();
expected.add(new ListenerAddressBuilder().withHost("50.35.18.119").withPort(31234).build());
expected.add(new ListenerAddressBuilder().withHost("55.36.78.115").withPort(31234).build());
expected.add(new ListenerAddressBuilder().withHost("5.124.16.8").withPort(31234).build());
async.flag();
});
}
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