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* regarding copyright ownership. The ASF licenses this file
* to you 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
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* KIND, either express or implied. See the License for the
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package org.apache.brooklyn.entity.software.base.test.autoscaling;
import static org.testng.Assert.assertEquals;
import java.util.Map;
import java.util.Set;
import org.apache.brooklyn.api.entity.Entity;
import org.apache.brooklyn.api.entity.EntitySpec;
import org.apache.brooklyn.api.location.Location;
import org.apache.brooklyn.api.policy.PolicySpec;
import org.apache.brooklyn.api.sensor.AttributeSensor;
import org.apache.brooklyn.core.entity.BrooklynConfigKeys;
import org.apache.brooklyn.core.entity.trait.Resizable;
import org.apache.brooklyn.core.mgmt.internal.CollectionChangeListener;
import org.apache.brooklyn.core.sensor.Sensors;
import org.apache.brooklyn.core.test.BrooklynAppUnitTestSupport;
import org.apache.brooklyn.core.test.entity.TestCluster;
import org.apache.brooklyn.entity.group.DynamicCluster;
import org.apache.brooklyn.entity.software.base.EmptySoftwareProcess;
import org.apache.brooklyn.policy.autoscaling.AutoScalerPolicy;
import org.apache.brooklyn.test.Asserts;
import org.apache.brooklyn.util.collections.CollectionFunctionals;
import org.apache.brooklyn.util.time.Duration;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.testng.annotations.BeforeMethod;
import org.testng.annotations.Test;
import com.google.common.base.Predicates;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.Sets;
public class AutoScalerPolicyNoMoreMachinesTest extends BrooklynAppUnitTestSupport {
@SuppressWarnings("unused")
private static final Logger log = LoggerFactory.getLogger(AutoScalerPolicyNoMoreMachinesTest.class);
private static long SHORT_WAIT_MS = 250;
DynamicCluster cluster;
Location loc;
AutoScalerPolicy policy;
Set<Entity> entitiesAdded;
Set<Entity> entitiesRemoved;
@BeforeMethod(alwaysRun=true)
public void setUp() throws Exception {
super.setUp();
cluster = app.createAndManageChild(EntitySpec.create(DynamicCluster.class)
.configure(TestCluster.INITIAL_SIZE, 0)
.configure(DynamicCluster.MEMBER_SPEC, EntitySpec.create(EmptySoftwareProcess.class)
.configure(BrooklynConfigKeys.SKIP_ON_BOX_BASE_DIR_RESOLUTION, true)));
loc = mgmt.getLocationRegistry().resolve("byon(hosts='1.1.1.1,1.1.1.2')");
app.start(ImmutableList.of(loc));
entitiesAdded = Sets.newLinkedHashSet();
entitiesRemoved = Sets.newLinkedHashSet();
mgmt.addEntitySetListener(new CollectionChangeListener<Entity>() {
@Override public void onItemAdded(Entity item) { addToSetAndNotify(entitiesAdded, item); }
@Override public void onItemRemoved(Entity item) { addToSetAndNotify(entitiesRemoved, item); }});
}
private static <T> void addToSetAndNotify(Set<T> items, T item) {
synchronized (items) {
items.add(item);
items.notifyAll();
}
}
@Test
public void testResizeDirectly() throws Exception {
assertSize(0);
cluster.resize(2);
assertSize(2);
// Won't get a location to successfully resize (byon location only has 2 machines);
// so still left with 2 members (failed node not quarantined, because exception well understood)
try {
cluster.resize(3);
Asserts.shouldHaveFailedPreviously();
} catch (Exception e) {
Asserts.expectedFailureOfType(e, Resizable.InsufficientCapacityException.class);
}
assertSize(2, 0, 1);
// Resize down; will delete one of our nodes
cluster.resize(1);
assertSize(1, 0, 2);
// Resize back up to 2 should be allowed
cluster.resize(2);
assertSize(2, 0, 2);
}
@Test
public void testPoolHotSensorResizingBeyondMaxMachines() throws Exception {
cluster.resize(1);
policy = cluster.policies().add(PolicySpec.create(AutoScalerPolicy.class)
.configure(AutoScalerPolicy.MIN_PERIOD_BETWEEN_EXECS, Duration.millis(10)));
// Single node trying to handle a load of 21; too high, so will add one more node
cluster.sensors().emit(AutoScalerPolicy.DEFAULT_POOL_HOT_SENSOR, message(21L, 10L, 20L));
assertSizeEventually(2);
// Two nodes handing an aggregated load of 41; too high for 2 nodes so tries to scale to 3.
// But byon location only has 2 nodes so will fail.
cluster.sensors().emit(AutoScalerPolicy.DEFAULT_POOL_HOT_SENSOR, message(21L, 10L, 20L));
assertSizeEventually(2, 0, 1);
// Should not repeatedly retry
assertSizeContinually(2, 0, 1);
// If there is another indication of too much load, should not retry yet again.
cluster.sensors().emit(AutoScalerPolicy.DEFAULT_POOL_HOT_SENSOR, message(42L, 10L, 20L));
assertSizeContinually(2, 0, 1);
}
@Test
public void testMetricResizingBeyondMaxMachines() throws Exception {
AttributeSensor<Integer> metric = Sensors.newIntegerSensor("test.aggregatedLoad");
cluster.resize(1);
policy = cluster.policies().add(PolicySpec.create(AutoScalerPolicy.class)
.configure(AutoScalerPolicy.METRIC, metric)
.configure(AutoScalerPolicy.METRIC_LOWER_BOUND, 10)
.configure(AutoScalerPolicy.METRIC_UPPER_BOUND, 20)
.configure(AutoScalerPolicy.MIN_PERIOD_BETWEEN_EXECS, Duration.millis(10)));
// Single node trying to handle a load of 21; too high, so will add one more node.
// That takes the load back to within acceptable limits
cluster.sensors().set(metric, 21);
assertSizeEventually(2);
cluster.sensors().set(metric, 19);
// With two nodes, load is now too high, so will try (and fail) to add one more node.
// Trigger another attempt to resize.
// Any nodes that fail with NoMachinesAvailableException will be immediately deleted.
cluster.sensors().set(metric, 22);
assertSizeEventually(2, 0, 1);
assertSizeContinually(2, 0, 1);
// Metric is re-published; should not keep retrying
cluster.sensors().set(metric, 21);
assertSizeContinually(2, 0, 1);
}
protected Map<String, Object> message(double currentWorkrate, double lowThreshold, double highThreshold) {
return message(cluster.getCurrentSize(), currentWorkrate, lowThreshold, highThreshold);
}
protected Map<String, Object> message(int currentSize, double currentWorkrate, double lowThreshold, double highThreshold) {
return ImmutableMap.<String,Object>of(
AutoScalerPolicy.POOL_CURRENT_SIZE_KEY, currentSize,
AutoScalerPolicy.POOL_CURRENT_WORKRATE_KEY, currentWorkrate,
AutoScalerPolicy.POOL_LOW_THRESHOLD_KEY, lowThreshold,
AutoScalerPolicy.POOL_HIGH_THRESHOLD_KEY, highThreshold);
}
protected void assertSize(Integer targetSize) {
assertSize(targetSize, 0);
}
protected void assertSize(int targetSize, int quarantineSize, final int deletedSize) {
assertSize(targetSize, quarantineSize);
Asserts.eventuallyOnNotify(entitiesRemoved, CollectionFunctionals.sizeEquals(deletedSize));
}
protected void assertSize(int targetSize, int quarantineSize) {
assertEquals(cluster.getCurrentSize(), (Integer) targetSize, "cluster.currentSize");
assertEquals(cluster.getMembers().size(), targetSize, "cluster.members.size");
assertEquals(cluster.sensors().get(DynamicCluster.QUARANTINE_GROUP).getMembers().size(), quarantineSize, "cluster.quarantine.size");
assertEquals(mgmt.getEntityManager().findEntities(Predicates.instanceOf(EmptySoftwareProcess.class)).size(), targetSize + quarantineSize, "instanceCount(EmptySoftwareProcess)");
}
protected void assertSizeEventually(int targetSize) {
assertSizeEventually(targetSize, 0, 0);
}
protected void assertSizeEventually(final int targetSize, final int quarantineSize, final int deletedSize) {
Asserts.succeedsEventually(new Runnable() {
public void run() {
assertSize(targetSize, quarantineSize);
assertEquals(entitiesRemoved.size(), deletedSize, "removed="+entitiesRemoved);
}});
}
protected void assertSizeContinually(final int targetSize, final int quarantineSize, final int deletedSize) {
Asserts.succeedsContinually(ImmutableMap.of("timeout", SHORT_WAIT_MS), new Runnable() {
public void run() {
assertSize(targetSize, quarantineSize);
assertEquals(entitiesRemoved.size(), deletedSize, "removed="+entitiesRemoved);
}});
}
}