Issues 364 and #365: destroyNode cleans up incidental resources

This commit is contained in:
Aled Sage 2012-02-04 14:50:50 +00:00
parent ae1effd748
commit ab568f0a09
7 changed files with 182 additions and 62 deletions

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@ -109,20 +109,20 @@ public class EC2ComputeService extends BaseComputeService {
this.securityGroupMap = securityGroupMap;
}
/**
* @throws IllegalStateException If the security group was in use
*/
@VisibleForTesting
void deleteSecurityGroup(String region, String group) {
checkNotEmpty(region, "region");
checkNotEmpty(group, "group");
String groupName = String.format("jclouds#%s#%s", group, region);
if (ec2Client.getSecurityGroupServices().describeSecurityGroupsInRegion(region, groupName).size() > 0) {
logger.debug(">> deleting securityGroup(%s)", groupName);
try {
ec2Client.getSecurityGroupServices().deleteSecurityGroupInRegion(region, groupName);
// TODO: test this clear happens
securityGroupMap.invalidate(new RegionNameAndIngressRules(region, groupName, null, false));
logger.debug("<< deleted securityGroup(%s)", groupName);
} catch (IllegalStateException e) {
logger.debug("<< inUse securityGroup(%s)", groupName);
}
ec2Client.getSecurityGroupServices().deleteSecurityGroupInRegion(region, groupName);
// TODO: test this clear happens
securityGroupMap.invalidate(new RegionNameAndIngressRules(region, groupName, null, false));
logger.debug("<< deleted securityGroup(%s)", groupName);
}
}
@ -180,26 +180,36 @@ public class EC2ComputeService extends BaseComputeService {
}
/**
* like {@link BaseComputeService#destroyNodesMatching} except that this will
* clean implicit keypairs and security groups.
* Cleans implicit keypairs and security groups.
*/
@Override
public Set<? extends NodeMetadata> destroyNodesMatching(Predicate<NodeMetadata> filter) {
Set<? extends NodeMetadata> deadOnes = super.destroyNodesMatching(filter);
protected void cleanUpIncidentalResourcesOfDeadNodes(Set<? extends NodeMetadata> deadNodes) {
Builder<String, String> regionGroups = ImmutableMultimap.<String, String> builder();
for (NodeMetadata nodeMetadata : deadOnes) {
for (NodeMetadata nodeMetadata : deadNodes) {
if (nodeMetadata.getGroup() != null)
regionGroups.put(AWSUtils.parseHandle(nodeMetadata.getId())[0], nodeMetadata.getGroup());
}
}
for (Entry<String, String> regionGroup : regionGroups.build().entries()) {
cleanUpIncidentalResources(regionGroup);
cleanUpIncidentalResources(regionGroup.getKey(), regionGroup.getValue());
}
return deadOnes;
}
protected void cleanUpIncidentalResources(Entry<String, String> regionGroup) {
deleteKeyPair(regionGroup.getKey(), regionGroup.getValue());
deleteSecurityGroup(regionGroup.getKey(), regionGroup.getValue());
protected void cleanUpIncidentalResources(String region, String group){
// For issue #445, tries to delete security groups first: ec2 throws exception if in use, but
// deleting a key pair does not.
// This is "belt-and-braces" because deleteKeyPair also does extractIdsFromInstances & usingKeyPairAndNotDead
// for us to check if any instances are using the key-pair before we delete it.
// There is (probably?) still a race if someone is creating instances at the same time as deleting them:
// we may delete the key-pair just when the node-being-created was about to rely on the incidental
// resources existing.
try {
logger.debug(">> deleting incidentalResources(%s @ %s)", region, group);
deleteSecurityGroup(region, group);
deleteKeyPair(region, group); // not executed if securityGroup was in use
logger.debug("<< deleted incidentalResources(%s @ %s)", region, group);
} catch (IllegalStateException e) {
logger.debug("<< inUse incidentalResources(%s @ %s)", region, group);
}
}
/**

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@ -302,6 +302,11 @@ public class EC2ComputeServiceLiveTest extends BaseComputeServiceLiveTest {
}
}
/**
* Gets the instance with the given ID from the default region
*
* @throws NoSuchElementException If no instance with that id exists, or the instance is in a different region
*/
protected RunningInstance getInstance(InstanceClient instanceClient, String id) {
RunningInstance instance = Iterables.getOnlyElement(Iterables.getOnlyElement(instanceClient
.describeInstancesInRegion(null, id)));

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@ -87,14 +87,11 @@ public class TerremarkVCloudComputeService extends BaseComputeService {
}
/**
* like {@link BaseComputeService#destroyNodesMatching} except that this will
* clean implicit keypairs.
* Cleans implicit keypairs.
*/
@Override
public Set<? extends NodeMetadata> destroyNodesMatching(Predicate<NodeMetadata> filter) {
Set<? extends NodeMetadata> deadOnes = super.destroyNodesMatching(filter);
cleanupOrphanKeys.execute(deadOnes);
return deadOnes;
protected void cleanUpIncidentalResourcesOfDeadNodes(Set<? extends NodeMetadata> deadNodes) {
cleanupOrphanKeys.execute(deadNodes);
}
/**

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@ -32,6 +32,7 @@ import static org.jclouds.compute.predicates.NodePredicates.all;
import static org.jclouds.concurrent.FutureIterables.awaitCompletion;
import static org.jclouds.concurrent.FutureIterables.transformParallel;
import java.util.Collections;
import java.util.Map;
import java.util.NoSuchElementException;
import java.util.Set;
@ -225,6 +226,45 @@ public class BaseComputeService implements ComputeService {
*/
@Override
public void destroyNode(final String id) {
NodeMetadata destroyedNode = doDestroyNode(id);
cleanUpIncidentalResourcesOfDeadNodes(Collections.singleton(destroyedNode));
}
/**
* {@inheritDoc}
*/
@Override
public Set<? extends NodeMetadata> destroyNodesMatching(Predicate<NodeMetadata> filter) {
logger.debug(">> destroying nodes matching(%s)", filter);
Set<NodeMetadata> set = newLinkedHashSet(transformParallel(nodesMatchingFilterAndNotTerminated(filter),
new Function<NodeMetadata, Future<NodeMetadata>>() {
// TODO make an async interface instead of re-wrapping
@Override
public Future<NodeMetadata> apply(final NodeMetadata from) {
return executor.submit(new Callable<NodeMetadata>() {
@Override
public NodeMetadata call() throws Exception {
doDestroyNode(from.getId());
return from;
}
@Override
public String toString() {
return "destroyNode(" + from.getId() + ")";
}
});
}
}, executor, null, logger, "destroyNodesMatching(" + filter + ")"));
logger.debug("<< destroyed(%d)", set.size());
cleanUpIncidentalResourcesOfDeadNodes(set);
return set;
}
protected NodeMetadata doDestroyNode(final String id) {
checkNotNull(id, "id");
logger.debug(">> destroying node(%s)", id);
final AtomicReference<NodeMetadata> node = new AtomicReference<NodeMetadata>();
@ -244,42 +284,16 @@ public class BaseComputeService implements ComputeService {
}
}, timeouts.nodeRunning, 1000, TimeUnit.MILLISECONDS);
boolean successful = tester.apply(id) && (node.get() == null || nodeTerminated.apply(node.get()));
if (successful)
credentialStore.remove("node#" + id);
logger.debug("<< destroyed node(%s) success(%s)", id, successful);
return node.get();
}
/**
* {@inheritDoc}
*/
@Override
public Set<? extends NodeMetadata> destroyNodesMatching(Predicate<NodeMetadata> filter) {
logger.debug(">> destroying nodes matching(%s)", filter);
Set<NodeMetadata> set = newLinkedHashSet(transformParallel(nodesMatchingFilterAndNotTerminated(filter),
new Function<NodeMetadata, Future<NodeMetadata>>() {
// TODO make an async interface instead of re-wrapping
@Override
public Future<NodeMetadata> apply(final NodeMetadata from) {
return executor.submit(new Callable<NodeMetadata>() {
@Override
public NodeMetadata call() throws Exception {
destroyNode(from.getId());
return from;
}
@Override
public String toString() {
return "destroyNode(" + from.getId() + ")";
}
});
}
}, executor, null, logger, "destroyNodesMatching(" + filter + ")"));
logger.debug("<< destroyed(%d)", set.size());
return set;
protected void cleanUpIncidentalResourcesOfDeadNodes(Set<? extends NodeMetadata> deadNodes) {
// no-op; to be overridden
}
Iterable<? extends NodeMetadata> nodesMatchingFilterAndNotTerminated(Predicate<NodeMetadata> filter) {

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@ -204,9 +204,9 @@ public class AWSEC2ComputeService extends EC2ComputeService {
}
@Override
protected void cleanUpIncidentalResources(Entry<String, String> regionTag) {
super.cleanUpIncidentalResources(regionTag);
deletePlacementGroup(regionTag.getKey(), regionTag.getValue());
protected void cleanUpIncidentalResources(String region, String group) {
super.cleanUpIncidentalResources(region, group);
deletePlacementGroup(region, group);
}
/**

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@ -24,7 +24,9 @@ import static org.jclouds.compute.domain.OsFamily.AMZN_LINUX;
import static org.jclouds.compute.options.RunScriptOptions.Builder.runAsRoot;
import static org.jclouds.ec2.util.IpPermissions.permit;
import static org.testng.Assert.assertEquals;
import static org.testng.Assert.assertNotNull;
import java.util.Collections;
import java.util.Date;
import java.util.Set;
import java.util.concurrent.TimeUnit;
@ -52,14 +54,18 @@ import org.jclouds.ec2.domain.SecurityGroup;
import org.jclouds.ec2.services.InstanceClient;
import org.jclouds.ec2.services.KeyPairClient;
import org.jclouds.logging.log4j.config.Log4JLoggingModule;
import org.jclouds.predicates.RetryablePredicate;
import org.jclouds.rest.RestContext;
import org.jclouds.rest.RestContextFactory;
import org.jclouds.scriptbuilder.domain.Statements;
import org.testng.annotations.Test;
import com.google.common.base.Predicate;
import com.google.common.base.Stopwatch;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.ImmutableSortedSet;
import com.google.common.collect.Iterables;
import com.google.common.util.concurrent.ListenableFuture;
import com.google.inject.Module;
@ -198,4 +204,90 @@ public class AWSEC2ComputeServiceLiveTest extends EC2ComputeServiceLiveTest {
}
}
@Test
public void testIncidentalResourcesGetCleanedUpAfterInstanceIsDestroyed() throws Exception {
AWSSecurityGroupClient securityGroupClient = AWSEC2Client.class.cast(context.getProviderSpecificContext().getApi())
.getSecurityGroupServices();
KeyPairClient keyPairClient = EC2Client.class.cast(context.getProviderSpecificContext().getApi())
.getKeyPairServices();
InstanceClient instanceClient = EC2Client.class.cast(context.getProviderSpecificContext().getApi())
.getInstanceServices();
String group = this.group + "incidental";
String region = null;
try {
// Create two instances
// TODO set spotPrice(0.3f) ?
Template template = client.templateBuilder().build();
Set<? extends NodeMetadata> nodes = client.createNodesInGroup(group, 2, template);
NodeMetadata first = Iterables.get(nodes, 0);
NodeMetadata second = Iterables.get(nodes, 1);
String instanceId1 = Iterables.get(nodes, 0).getProviderId();
String instanceId2 = Iterables.get(nodes, 1).getProviderId();
AWSRunningInstance instance1 = AWSRunningInstance.class.cast(getInstance(instanceClient, instanceId1));
AWSRunningInstance instance2 = AWSRunningInstance.class.cast(getInstance(instanceClient, instanceId2));
// Assert the two instances are in the same groups
region = instance1.getRegion();
String expectedSecurityGroupName = "jclouds#" + group + "#" + region;
assertEquals(instance1.getRegion(), region);
assertNotNull(instance1.getKeyName());
assertEquals(instance1.getRegion(), instance2.getRegion(), "Nodes are not in the same region");
assertEquals(instance1.getKeyName(), instance2.getKeyName(), "Nodes do not have same key-pair name");
assertEquals(instance1.getGroupIds(), instance2.getGroupIds(), "Nodes are not in the same group");
assertEquals(instance1.getGroupIds(), ImmutableSet.of(expectedSecurityGroupName), "Nodes are not in the expected security group");
// Assert a single key-pair and security group has been created
String expectedKeyPairName = instance1.getKeyName();
Set<SecurityGroup> securityGroups = securityGroupClient.describeSecurityGroupsInRegion(region, expectedSecurityGroupName);
Set<KeyPair> keyPairs = keyPairClient.describeKeyPairsInRegion(region, expectedKeyPairName);
assertEquals(securityGroups.size(), 1);
assertEquals(Iterables.get(securityGroups, 0).getName(), expectedSecurityGroupName);
assertEquals(keyPairs.size(), 1);
assertEquals(Iterables.get(keyPairs, 0).getKeyName(), expectedKeyPairName);
// Destroy the first node; the key-pair and security-group should still remain
client.destroyNode(first.getId());
Set<SecurityGroup> securityGroupsAfterDestroyFirst = securityGroupClient.describeSecurityGroupsInRegion(region, expectedSecurityGroupName);
Set<KeyPair> keyPairsAfterDestroyFirst = keyPairClient.describeKeyPairsInRegion(region, expectedKeyPairName);
assertEquals(securityGroupsAfterDestroyFirst, securityGroups);
assertEquals(keyPairsAfterDestroyFirst, keyPairs);
// Destroy the second node; the key-pair and security-group should be automatically deleted
// It can take some time after destroyNode returns for the securityGroup and keyPair to be completely removed.
// Therefore try repeatedly.
client.destroyNode(second.getId());
final int TIMEOUT_MS = 30*1000;
boolean firstAttempt = true;
boolean done;
Set<SecurityGroup> securityGroupsAfterDestroyAll;
Set<KeyPair> keyPairsAfterDestroyAll;
Stopwatch stopwatch = new Stopwatch();
stopwatch.start();
do {
if (!firstAttempt) Thread.sleep(1000);
firstAttempt = false;
securityGroupsAfterDestroyAll = securityGroupClient.describeSecurityGroupsInRegion(region, expectedSecurityGroupName);
keyPairsAfterDestroyAll = keyPairClient.describeKeyPairsInRegion(region, expectedKeyPairName);
done = securityGroupsAfterDestroyAll.isEmpty() && keyPairsAfterDestroyAll.isEmpty();
} while (!done && stopwatch.elapsedMillis() < TIMEOUT_MS);
assertEquals(securityGroupsAfterDestroyAll, Collections.emptySet());
assertEquals(keyPairsAfterDestroyAll, Collections.emptySet());
} finally {
client.destroyNodesMatching(NodePredicates.inGroup(group));
if (region != null) cleanupExtendedStuffInRegion(region, securityGroupClient, keyPairClient, group);
}
}
}

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@ -95,9 +95,11 @@ public class LibvirtComputeService extends BaseComputeService {
}
@Override
public void destroyNode(String id) {
super.destroyNode(id);
// eliminateDomain(id);
protected void cleanUpIncidentalResourcesOfDeadNodes(Set<? extends NodeMetadata> deadNodes) {
// TODO Was previously commented out in overridden destroyNode; refactored to here but left commented out
// for (NodeMetadata deadNode : deadNodes) {
// eliminateDomain(deadNode.getId());
// }
}
private void eliminateDomain(String id) {