YARN-6600. Introduce default and max lifetime of application at LeafQueue level. Contributed by Rohith Sharma K S.

This commit is contained in:
Sunil G 2017-09-08 07:15:17 +05:30
parent 3e6d0ca2b2
commit 56d93d2e39
17 changed files with 502 additions and 23 deletions

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@ -578,7 +578,7 @@ public interface ApplicationClientProtocol extends ApplicationBaseProtocol {
* <b>Note:</b> If application timeout value is less than or equal to current
* time then update application throws YarnException.
* @param request to set ApplicationTimeouts of an application
* @return an empty response that the update has completed successfully.
* @return a response with updated timeouts.
* @throws YarnException if update request has empty values or application is
* in completing states.
* @throws IOException on IO failures

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@ -22,6 +22,7 @@ import java.util.Map;
import org.apache.hadoop.classification.InterfaceAudience.Public;
import org.apache.hadoop.classification.InterfaceStability.Unstable;
import org.apache.hadoop.yarn.api.records.ApplicationTimeoutType;
import org.apache.hadoop.yarn.util.Records;
/**
@ -43,4 +44,22 @@ public abstract class UpdateApplicationTimeoutsResponse {
Records.newRecord(UpdateApplicationTimeoutsResponse.class);
return response;
}
/**
* Get <code>ApplicationTimeouts</code> of the application. Timeout value is
* in ISO8601 standard with format <b>yyyy-MM-dd'T'HH:mm:ss.SSSZ</b>.
* @return all <code>ApplicationTimeouts</code> of the application.
*/
public abstract Map<ApplicationTimeoutType, String> getApplicationTimeouts();
/**
* Set the <code>ApplicationTimeouts</code> for the application. Timeout value
* is absolute. Timeout value should meet ISO8601 format. Support ISO8601
* format is <b>yyyy-MM-dd'T'HH:mm:ss.SSSZ</b>. All pre-existing Map entries
* are cleared before adding the new Map.
* @param applicationTimeouts <code>ApplicationTimeouts</code>s for the
* application
*/
public abstract void setApplicationTimeouts(
Map<ApplicationTimeoutType, String> applicationTimeouts);
}

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@ -41,6 +41,7 @@ import org.apache.hadoop.classification.InterfaceStability.Unstable;
import org.apache.hadoop.util.StringUtils;
import org.apache.hadoop.util.ToolRunner;
import org.apache.hadoop.yarn.api.protocolrecords.UpdateApplicationTimeoutsRequest;
import org.apache.hadoop.yarn.api.protocolrecords.UpdateApplicationTimeoutsResponse;
import org.apache.hadoop.yarn.api.records.ApplicationAttemptId;
import org.apache.hadoop.yarn.api.records.ApplicationAttemptReport;
import org.apache.hadoop.yarn.api.records.ApplicationId;
@ -359,10 +360,21 @@ public class ApplicationCLI extends YarnCLI {
+ timeoutType.toString() + " of an application " + applicationId);
UpdateApplicationTimeoutsRequest request = UpdateApplicationTimeoutsRequest
.newInstance(appId, Collections.singletonMap(timeoutType, newTimeout));
UpdateApplicationTimeoutsResponse updateApplicationTimeouts =
client.updateApplicationTimeouts(request);
String updatedTimeout =
updateApplicationTimeouts.getApplicationTimeouts().get(timeoutType);
if (timeoutType.equals(ApplicationTimeoutType.LIFETIME)
&& !newTimeout.equals(updatedTimeout)) {
sysout.println("Updated lifetime of an application " + applicationId
+ " to queue max/default lifetime." + " New expiry time is "
+ updatedTimeout);
return;
}
sysout.println(
"Successfully updated " + timeoutType.toString() + " of an application "
+ applicationId + ". New expiry time is " + newTimeout);
+ applicationId + ". New expiry time is " + updatedTimeout);
}
/**

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@ -48,6 +48,7 @@ import org.apache.commons.cli.Options;
import org.apache.commons.lang.time.DateFormatUtils;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.yarn.api.protocolrecords.UpdateApplicationTimeoutsRequest;
import org.apache.hadoop.yarn.api.protocolrecords.UpdateApplicationTimeoutsResponse;
import org.apache.hadoop.yarn.api.records.ApplicationAttemptId;
import org.apache.hadoop.yarn.api.records.ApplicationAttemptReport;
import org.apache.hadoop.yarn.api.records.ApplicationId;
@ -2148,17 +2149,16 @@ public class TestYarnCLI {
ApplicationCLI cli = createAndGetAppCLI();
ApplicationId applicationId = ApplicationId.newInstance(1234, 6);
ApplicationReport appReport = ApplicationReport.newInstance(applicationId,
ApplicationAttemptId.newInstance(applicationId, 1), "user", "queue",
"appname", "host", 124, null, YarnApplicationState.RUNNING,
"diagnostics", "url", 0, 0, FinalApplicationStatus.UNDEFINED, null,
"N/A", 0.53789f, "YARN", null);
ApplicationTimeout timeout = ApplicationTimeout
.newInstance(ApplicationTimeoutType.LIFETIME, "N/A", -1);
appReport.setApplicationTimeouts(
Collections.singletonMap(timeout.getTimeoutType(), timeout));
when(client.getApplicationReport(any(ApplicationId.class)))
.thenReturn(appReport);
UpdateApplicationTimeoutsResponse response =
mock(UpdateApplicationTimeoutsResponse.class);
String formatISO8601 =
Times.formatISO8601(System.currentTimeMillis() + 5 * 1000);
when(response.getApplicationTimeouts()).thenReturn(Collections
.singletonMap(ApplicationTimeoutType.LIFETIME, formatISO8601));
when(client
.updateApplicationTimeouts(any(UpdateApplicationTimeoutsRequest.class)))
.thenReturn(response);
int result = cli.run(new String[] { "application", "-appId",
applicationId.toString(), "-updateLifetime", "10" });

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@ -18,10 +18,19 @@
package org.apache.hadoop.yarn.api.protocolrecords.impl.pb;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import org.apache.hadoop.classification.InterfaceAudience.Private;
import org.apache.hadoop.classification.InterfaceStability.Unstable;
import org.apache.hadoop.yarn.api.protocolrecords.UpdateApplicationTimeoutsResponse;
import org.apache.hadoop.yarn.api.records.ApplicationTimeoutType;
import org.apache.hadoop.yarn.api.records.impl.pb.ProtoUtils;
import org.apache.hadoop.yarn.proto.YarnProtos.ApplicationUpdateTimeoutMapProto;
import org.apache.hadoop.yarn.proto.YarnServiceProtos.UpdateApplicationTimeoutsResponseProto;
import org.apache.hadoop.yarn.proto.YarnServiceProtos.UpdateApplicationTimeoutsResponseProtoOrBuilder;
import com.google.protobuf.TextFormat;
@ -33,6 +42,7 @@ public class UpdateApplicationTimeoutsResponsePBImpl
UpdateApplicationTimeoutsResponseProto.getDefaultInstance();
UpdateApplicationTimeoutsResponseProto.Builder builder = null;
boolean viaProto = false;
private Map<ApplicationTimeoutType, String> applicationTimeouts = null;
public UpdateApplicationTimeoutsResponsePBImpl() {
builder = UpdateApplicationTimeoutsResponseProto.newBuilder();
@ -45,11 +55,34 @@ public class UpdateApplicationTimeoutsResponsePBImpl
}
public UpdateApplicationTimeoutsResponseProto getProto() {
mergeLocalToProto();
proto = viaProto ? proto : builder.build();
viaProto = true;
return proto;
}
private void mergeLocalToProto() {
if (viaProto) {
maybeInitBuilder();
}
mergeLocalToBuilder();
proto = builder.build();
viaProto = true;
}
private void maybeInitBuilder() {
if (viaProto || builder == null) {
builder = UpdateApplicationTimeoutsResponseProto.newBuilder(proto);
}
viaProto = false;
}
private void mergeLocalToBuilder() {
if (this.applicationTimeouts != null) {
addApplicationTimeouts();
}
}
@Override
public int hashCode() {
return getProto().hashCode();
@ -70,4 +103,79 @@ public class UpdateApplicationTimeoutsResponsePBImpl
public String toString() {
return TextFormat.shortDebugString(getProto());
}
@Override
public Map<ApplicationTimeoutType, String> getApplicationTimeouts() {
initApplicationTimeout();
return this.applicationTimeouts;
}
private void initApplicationTimeout() {
if (this.applicationTimeouts != null) {
return;
}
UpdateApplicationTimeoutsResponseProtoOrBuilder p =
viaProto ? proto : builder;
List<ApplicationUpdateTimeoutMapProto> lists =
p.getApplicationTimeoutsList();
this.applicationTimeouts =
new HashMap<ApplicationTimeoutType, String>(lists.size());
for (ApplicationUpdateTimeoutMapProto timeoutProto : lists) {
this.applicationTimeouts.put(
ProtoUtils
.convertFromProtoFormat(timeoutProto.getApplicationTimeoutType()),
timeoutProto.getExpireTime());
}
}
@Override
public void setApplicationTimeouts(
Map<ApplicationTimeoutType, String> appTimeouts) {
if (appTimeouts == null) {
return;
}
initApplicationTimeout();
this.applicationTimeouts.clear();
this.applicationTimeouts.putAll(appTimeouts);
}
private void addApplicationTimeouts() {
maybeInitBuilder();
builder.clearApplicationTimeouts();
if (applicationTimeouts == null) {
return;
}
Iterable<? extends ApplicationUpdateTimeoutMapProto> values =
new Iterable<ApplicationUpdateTimeoutMapProto>() {
@Override
public Iterator<ApplicationUpdateTimeoutMapProto> iterator() {
return new Iterator<ApplicationUpdateTimeoutMapProto>() {
private Iterator<ApplicationTimeoutType> iterator =
applicationTimeouts.keySet().iterator();
@Override
public boolean hasNext() {
return iterator.hasNext();
}
@Override
public ApplicationUpdateTimeoutMapProto next() {
ApplicationTimeoutType key = iterator.next();
return ApplicationUpdateTimeoutMapProto.newBuilder()
.setExpireTime(applicationTimeouts.get(key))
.setApplicationTimeoutType(
ProtoUtils.convertToProtoFormat(key))
.build();
}
@Override
public void remove() {
throw new UnsupportedOperationException();
}
};
}
};
this.builder.addAllApplicationTimeouts(values);
}
}

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@ -106,6 +106,41 @@
</description>
</property>
<property>
<name>yarn.scheduler.capacity.root.default.maximum-application-lifetime
</name>
<value>-1</value>
<description>
Maximum lifetime of an application which is submitted to a queue
in seconds. Any value less than or equal to zero will be considered as
disabled.
This will be a hard time limit for all applications in this
queue. If positive value is configured then any application submitted
to this queue will be killed after exceeds the configured lifetime.
User can also specify lifetime per application basis in
application submission context. But user lifetime will be
overridden if it exceeds queue maximum lifetime. It is point-in-time
configuration.
Note : Configuring too low value will result in killing application
sooner. This feature is applicable only for leaf queue.
</description>
</property>
<property>
<name>yarn.scheduler.capacity.root.default.default-application-lifetime
</name>
<value>-1</value>
<description>
Default lifetime of an application which is submitted to a queue
in seconds. Any value less than or equal to zero will be considered as
disabled.
If the user has not submitted application with lifetime value then this
value will be taken. It is point-in-time configuration.
Note : Default lifetime can't exceed maximum lifetime. This feature is
applicable only for leaf queue.
</description>
</property>
<property>
<name>yarn.scheduler.capacity.node-locality-delay</name>
<value>40</value>

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@ -1691,6 +1691,7 @@ public class ClientRMService extends AbstractService implements
RMAuditLogger.logSuccess(callerUGI.getShortUserName(),
AuditConstants.UPDATE_APP_TIMEOUTS, "ClientRMService",
applicationId);
response.setApplicationTimeouts(applicationTimeouts);
return response;
}
String msg =
@ -1702,7 +1703,8 @@ public class ClientRMService extends AbstractService implements
}
try {
rmAppManager.updateApplicationTimeout(application, applicationTimeouts);
applicationTimeouts = rmAppManager.updateApplicationTimeout(application,
applicationTimeouts);
} catch (YarnException ex) {
RMAuditLogger.logFailure(callerUGI.getShortUserName(),
AuditConstants.UPDATE_APP_TIMEOUTS, "UNKNOWN", "ClientRMService",
@ -1712,6 +1714,7 @@ public class ClientRMService extends AbstractService implements
RMAuditLogger.logSuccess(callerUGI.getShortUserName(),
AuditConstants.UPDATE_APP_TIMEOUTS, "ClientRMService", applicationId);
response.setApplicationTimeouts(applicationTimeouts);
return response;
}

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@ -66,6 +66,7 @@ import org.apache.hadoop.yarn.server.resourcemanager.scheduler.capacity.CSQueue;
import org.apache.hadoop.yarn.server.resourcemanager.scheduler.capacity.CapacityScheduler;
import org.apache.hadoop.yarn.server.security.ApplicationACLsManager;
import org.apache.hadoop.yarn.server.utils.BuilderUtils;
import org.apache.hadoop.yarn.util.Times;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.util.concurrent.SettableFuture;
@ -571,18 +572,41 @@ public class RMAppManager implements EventHandler<RMAppManagerEvent>,
}
// transaction method.
public void updateApplicationTimeout(RMApp app,
public Map<ApplicationTimeoutType, String> updateApplicationTimeout(RMApp app,
Map<ApplicationTimeoutType, String> newTimeoutInISO8601Format)
throws YarnException {
ApplicationId applicationId = app.getApplicationId();
synchronized (applicationId) {
if (app.isAppInCompletedStates()) {
return;
return newTimeoutInISO8601Format;
}
Map<ApplicationTimeoutType, Long> newExpireTime = RMServerUtils
.validateISO8601AndConvertToLocalTimeEpoch(newTimeoutInISO8601Format);
// validation is only for lifetime
Long updatedlifetimeInMillis =
newExpireTime.get(ApplicationTimeoutType.LIFETIME);
if (updatedlifetimeInMillis != null) {
long queueMaxLifetimeInSec =
scheduler.getMaximumApplicationLifetime(app.getQueue());
if (queueMaxLifetimeInSec > 0) {
if (updatedlifetimeInMillis > (app.getSubmitTime()
+ queueMaxLifetimeInSec * 1000)) {
updatedlifetimeInMillis =
app.getSubmitTime() + queueMaxLifetimeInSec * 1000;
// cut off to maximum queue lifetime if update lifetime is exceeding
// queue lifetime.
newExpireTime.put(ApplicationTimeoutType.LIFETIME,
updatedlifetimeInMillis);
newTimeoutInISO8601Format.put(ApplicationTimeoutType.LIFETIME,
Times.formatISO8601(updatedlifetimeInMillis.longValue()));
}
}
}
SettableFuture<Object> future = SettableFuture.create();
Map<ApplicationTimeoutType, Long> currentExpireTimeouts =
@ -605,6 +629,8 @@ public class RMAppManager implements EventHandler<RMAppManagerEvent>,
// update in-memory
((RMAppImpl) app).updateApplicationTimeout(newExpireTime);
return newTimeoutInISO8601Format;
}
}

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@ -1225,6 +1225,8 @@ public class RMAppImpl implements RMApp, Recoverable {
long applicationLifetime =
app.getApplicationLifetime(ApplicationTimeoutType.LIFETIME);
applicationLifetime = app.scheduler
.checkAndGetApplicationLifetime(app.queue, applicationLifetime);
if (applicationLifetime > 0) {
// calculate next timeout value
Long newTimeout =

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@ -1283,4 +1283,15 @@ public abstract class AbstractYarnScheduler
this.rmContext.getDispatcher().getEventHandler()
.handle(new ReleaseContainerEvent(container));
}
@Override
public long checkAndGetApplicationLifetime(String queueName, long lifetime) {
// -1 indicates, lifetime is not configured.
return -1;
}
@Override
public long getMaximumApplicationLifetime(String queueName) {
return -1;
}
}

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@ -385,4 +385,24 @@ public interface YarnScheduler extends EventHandler<SchedulerEvent> {
* @return the normalized resource
*/
Resource getNormalizedResource(Resource requestedResource);
/**
* Verify whether a submitted application lifetime is valid as per configured
* Queue lifetime.
* @param queueName Name of the Queue
* @param lifetime configured application lifetime
* @return valid lifetime as per queue
*/
@Public
@Evolving
long checkAndGetApplicationLifetime(String queueName, long lifetime);
/**
* Get maximum lifetime for a queue.
* @param queueName to get lifetime
* @return maximum lifetime in seconds
*/
@Public
@Evolving
long getMaximumApplicationLifetime(String queueName);
}

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@ -2564,4 +2564,47 @@ public class CapacityScheduler extends
writeLock.unlock();
}
}
@Override
public long checkAndGetApplicationLifetime(String queueName,
long lifetimeRequestedByApp) {
try {
readLock.lock();
CSQueue queue = getQueue(queueName);
if (queue == null || !(queue instanceof LeafQueue)) {
return lifetimeRequestedByApp;
}
long defaultApplicationLifetime =
((LeafQueue) queue).getDefaultApplicationLifetime();
long maximumApplicationLifetime =
((LeafQueue) queue).getMaximumApplicationLifetime();
// check only for maximum, that's enough because default cann't
// exceed maximum
if (maximumApplicationLifetime <= 0) {
return lifetimeRequestedByApp;
}
if (lifetimeRequestedByApp <= 0) {
return defaultApplicationLifetime;
} else if (lifetimeRequestedByApp > maximumApplicationLifetime) {
return maximumApplicationLifetime;
}
return lifetimeRequestedByApp;
} finally {
readLock.unlock();
}
}
@Override
public long getMaximumApplicationLifetime(String queueName) {
CSQueue queue = getQueue(queueName);
if (queue == null || !(queue instanceof LeafQueue)) {
LOG.error("Unknown queue: " + queueName);
return -1;
}
// In seconds
return ((LeafQueue) queue).getMaximumApplicationLifetime();
}
}

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@ -1496,4 +1496,30 @@ public class CapacitySchedulerConfiguration extends ReservationSchedulerConfigur
public int getMaxAssignPerHeartbeat() {
return getInt(MAX_ASSIGN_PER_HEARTBEAT, DEFAULT_MAX_ASSIGN_PER_HEARTBEAT);
}
public static final String MAXIMUM_LIFETIME_SUFFIX =
"maximum-application-lifetime";
public static final String DEFAULT_LIFETIME_SUFFIX =
"default-application-lifetime";
public long getMaximumLifetimePerQueue(String queue) {
long maximumLifetimePerQueue = getLong(
getQueuePrefix(queue) + MAXIMUM_LIFETIME_SUFFIX, (long) UNDEFINED);
return maximumLifetimePerQueue;
}
public void setMaximumLifetimePerQueue(String queue, long maximumLifetime) {
setLong(getQueuePrefix(queue) + MAXIMUM_LIFETIME_SUFFIX, maximumLifetime);
}
public long getDefaultLifetimePerQueue(String queue) {
long maximumLifetimePerQueue = getLong(
getQueuePrefix(queue) + DEFAULT_LIFETIME_SUFFIX, (long) UNDEFINED);
return maximumLifetimePerQueue;
}
public void setDefaultLifetimePerQueue(String queue, long defaultLifetime) {
setLong(getQueuePrefix(queue) + DEFAULT_LIFETIME_SUFFIX, defaultLifetime);
}
}

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@ -44,6 +44,7 @@ import org.apache.hadoop.yarn.api.records.QueueInfo;
import org.apache.hadoop.yarn.api.records.QueueState;
import org.apache.hadoop.yarn.api.records.QueueUserACLInfo;
import org.apache.hadoop.yarn.api.records.Resource;
import org.apache.hadoop.yarn.exceptions.YarnRuntimeException;
import org.apache.hadoop.yarn.factories.RecordFactory;
import org.apache.hadoop.yarn.factory.providers.RecordFactoryProvider;
import org.apache.hadoop.yarn.nodelabels.CommonNodeLabelsManager;
@ -130,6 +131,10 @@ public class LeafQueue extends AbstractCSQueue {
List<AppPriorityACLGroup> priorityAcls =
new ArrayList<AppPriorityACLGroup>();
// -1 indicates lifetime is disabled
private volatile long maxApplicationLifetime = -1;
private volatile long defaultApplicationLifetime = -1;
@SuppressWarnings({ "unchecked", "rawtypes" })
public LeafQueue(CapacitySchedulerContext cs,
String queueName, CSQueue parent, CSQueue old) throws IOException {
@ -238,6 +243,18 @@ public class LeafQueue extends AbstractCSQueue {
defaultAppPriorityPerQueue = Priority.newInstance(
conf.getDefaultApplicationPriorityConfPerQueue(getQueuePath()));
maxApplicationLifetime =
conf.getMaximumLifetimePerQueue((getQueuePath()));
defaultApplicationLifetime =
conf.getDefaultLifetimePerQueue((getQueuePath()));
if (defaultApplicationLifetime > maxApplicationLifetime) {
throw new YarnRuntimeException(
"Default lifetime" + defaultApplicationLifetime
+ " can't exceed maximum lifetime " + maxApplicationLifetime);
}
defaultApplicationLifetime = defaultApplicationLifetime > 0
? defaultApplicationLifetime : maxApplicationLifetime;
// Validate leaf queue's user's weights.
int queueUL = Math.min(100, conf.getUserLimit(getQueuePath()));
for (Entry<String, Float> e : getUserWeights().entrySet()) {
@ -293,7 +310,10 @@ public class LeafQueue extends AbstractCSQueue {
+ "reservationsContinueLooking = "
+ reservationsContinueLooking + "\n" + "preemptionDisabled = "
+ getPreemptionDisabled() + "\n" + "defaultAppPriorityPerQueue = "
+ defaultAppPriorityPerQueue + "\npriority = " + priority);
+ defaultAppPriorityPerQueue + "\npriority = " + priority
+ "\nmaxLifetime = " + maxApplicationLifetime + " seconds"
+ "\ndefaultLifetime = "
+ defaultApplicationLifetime + " seconds");
} finally {
writeLock.unlock();
}
@ -2086,4 +2106,12 @@ public class LeafQueue extends AbstractCSQueue {
this.userLimit = userLimit;
}
}
public long getMaximumApplicationLifetime() {
return maxApplicationLifetime;
}
public long getDefaultApplicationLifetime() {
return defaultApplicationLifetime;
}
}

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@ -23,6 +23,7 @@ import static org.junit.Assert.fail;
import java.io.IOException;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.Map;
import java.util.Set;
@ -50,6 +51,9 @@ import org.apache.hadoop.yarn.server.resourcemanager.recovery.MemoryRMStateStore
import org.apache.hadoop.yarn.server.resourcemanager.recovery.records.ApplicationStateData;
import org.apache.hadoop.yarn.server.resourcemanager.rmcontainer.RMContainerState;
import org.apache.hadoop.yarn.server.resourcemanager.rmnode.RMNodeImpl;
import org.apache.hadoop.yarn.server.resourcemanager.scheduler.ResourceScheduler;
import org.apache.hadoop.yarn.server.resourcemanager.scheduler.capacity.CapacityScheduler;
import org.apache.hadoop.yarn.server.resourcemanager.scheduler.capacity.CapacitySchedulerConfiguration;
import org.apache.hadoop.yarn.util.Times;
import org.apache.log4j.Level;
import org.apache.log4j.LogManager;
@ -67,6 +71,9 @@ public class TestApplicationLifetimeMonitor {
@Before
public void setup() throws IOException {
conf = new YarnConfiguration();
// Always run for CS, since other scheduler do not support this.
conf.setClass(YarnConfiguration.RM_SCHEDULER,
CapacityScheduler.class, ResourceScheduler.class);
Logger rootLogger = LogManager.getRootLogger();
rootLogger.setLevel(Level.DEBUG);
UserGroupInformation.setConfiguration(conf);
@ -78,8 +85,15 @@ public class TestApplicationLifetimeMonitor {
public void testApplicationLifetimeMonitor() throws Exception {
MockRM rm = null;
try {
long maxLifetime = 30L;
long defaultLifetime = 15L;
YarnConfiguration newConf =
new YarnConfiguration(setUpCSQueue(maxLifetime, defaultLifetime));
conf = new YarnConfiguration(newConf);
rm = new MockRM(conf);
rm.start();
Priority appPriority = Priority.newInstance(0);
MockNM nm1 = rm.registerNode("127.0.0.1:1234", 16 * 1024);
@ -92,6 +106,13 @@ public class TestApplicationLifetimeMonitor {
timeouts.put(ApplicationTimeoutType.LIFETIME, 20L);
RMApp app2 = rm.submitApp(1024, appPriority, timeouts);
// user not set lifetime, so queue max lifetime will be considered.
RMApp app3 = rm.submitApp(1024, appPriority, Collections.emptyMap());
// asc lifetime exceeds queue max lifetime
timeouts.put(ApplicationTimeoutType.LIFETIME, 40L);
RMApp app4 = rm.submitApp(1024, appPriority, timeouts);
nm1.nodeHeartbeat(true);
// Send launch Event
MockAM am1 =
@ -103,8 +124,9 @@ public class TestApplicationLifetimeMonitor {
Map<ApplicationTimeoutType, String> updateTimeout =
new HashMap<ApplicationTimeoutType, String>();
long newLifetime = 10L;
// update 10L seconds more to timeout
long newLifetime = 40L;
// update 30L seconds more to timeout which is greater than queue max
// lifetime
String formatISO8601 =
Times.formatISO8601(System.currentTimeMillis() + newLifetime * 1000);
updateTimeout.put(ApplicationTimeoutType.LIFETIME, formatISO8601);
@ -142,8 +164,6 @@ public class TestApplicationLifetimeMonitor {
!appTimeouts.isEmpty());
ApplicationTimeout timeout =
appTimeouts.get(ApplicationTimeoutType.LIFETIME);
Assert.assertEquals("Application timeout string is incorrect.",
formatISO8601, timeout.getExpiryTime());
Assert.assertTrue("Application remaining time is incorrect",
timeout.getRemainingTime() > 0);
@ -152,6 +172,17 @@ public class TestApplicationLifetimeMonitor {
Assert.assertTrue("Application killed before lifetime value",
app2.getFinishTime() > afterUpdate);
rm.waitForState(app3.getApplicationId(), RMAppState.KILLED);
// app4 submitted exceeding queue max lifetime, so killed after queue max
// lifetime.
rm.waitForState(app4.getApplicationId(), RMAppState.KILLED);
long totalTimeRun = (app4.getFinishTime() - app4.getSubmitTime()) / 1000;
Assert.assertTrue("Application killed before lifetime value",
totalTimeRun > maxLifetime);
Assert.assertTrue(
"Application killed before lifetime value " + totalTimeRun,
totalTimeRun < maxLifetime + 10L);
} finally {
stopRM(rm);
}
@ -172,7 +203,7 @@ public class TestApplicationLifetimeMonitor {
nm1.registerNode();
nm1.nodeHeartbeat(true);
long appLifetime = 60L;
long appLifetime = 30L;
Map<ApplicationTimeoutType, Long> timeouts =
new HashMap<ApplicationTimeoutType, Long>();
timeouts.put(ApplicationTimeoutType.LIFETIME, appLifetime);
@ -305,6 +336,21 @@ public class TestApplicationLifetimeMonitor {
}
}
private CapacitySchedulerConfiguration setUpCSQueue(long maxLifetime,
long defaultLifetime) {
CapacitySchedulerConfiguration csConf =
new CapacitySchedulerConfiguration();
csConf.setQueues(CapacitySchedulerConfiguration.ROOT,
new String[] {"default"});
csConf.setCapacity(CapacitySchedulerConfiguration.ROOT + ".default", 100);
csConf.setMaximumLifetimePerQueue(
CapacitySchedulerConfiguration.ROOT + ".default", maxLifetime);
csConf.setDefaultLifetimePerQueue(
CapacitySchedulerConfiguration.ROOT + ".default", defaultLifetime);
return csConf;
}
private void stopRM(MockRM rm) {
if (rm != null) {
rm.stop();

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@ -4909,6 +4909,96 @@ public class TestCapacityScheduler {
rm.stop();
}
@Test(timeout = 30000)
public void testcheckAndGetApplicationLifetime() throws Exception {
long maxLifetime = 10;
long defaultLifetime = 5;
// positive integer value
CapacityScheduler cs = setUpCSQueue(maxLifetime, defaultLifetime);
Assert.assertEquals(maxLifetime,
cs.checkAndGetApplicationLifetime("default", 100));
Assert.assertEquals(9, cs.checkAndGetApplicationLifetime("default", 9));
Assert.assertEquals(defaultLifetime,
cs.checkAndGetApplicationLifetime("default", -1));
Assert.assertEquals(defaultLifetime,
cs.checkAndGetApplicationLifetime("default", 0));
Assert.assertEquals(maxLifetime,
cs.getMaximumApplicationLifetime("default"));
maxLifetime = -1;
defaultLifetime = -1;
// test for default values
cs = setUpCSQueue(maxLifetime, defaultLifetime);
Assert.assertEquals(100, cs.checkAndGetApplicationLifetime("default", 100));
Assert.assertEquals(defaultLifetime,
cs.checkAndGetApplicationLifetime("default", -1));
Assert.assertEquals(0, cs.checkAndGetApplicationLifetime("default", 0));
Assert.assertEquals(maxLifetime,
cs.getMaximumApplicationLifetime("default"));
maxLifetime = 10;
defaultLifetime = 10;
cs = setUpCSQueue(maxLifetime, defaultLifetime);
Assert.assertEquals(maxLifetime,
cs.checkAndGetApplicationLifetime("default", 100));
Assert.assertEquals(defaultLifetime,
cs.checkAndGetApplicationLifetime("default", -1));
Assert.assertEquals(defaultLifetime,
cs.checkAndGetApplicationLifetime("default", 0));
Assert.assertEquals(maxLifetime,
cs.getMaximumApplicationLifetime("default"));
maxLifetime = 0;
defaultLifetime = 0;
cs = setUpCSQueue(maxLifetime, defaultLifetime);
Assert.assertEquals(100, cs.checkAndGetApplicationLifetime("default", 100));
Assert.assertEquals(-1, cs.checkAndGetApplicationLifetime("default", -1));
Assert.assertEquals(0, cs.checkAndGetApplicationLifetime("default", 0));
maxLifetime = 10;
defaultLifetime = -1;
cs = setUpCSQueue(maxLifetime, defaultLifetime);
Assert.assertEquals(maxLifetime,
cs.checkAndGetApplicationLifetime("default", 100));
Assert.assertEquals(maxLifetime,
cs.checkAndGetApplicationLifetime("default", -1));
Assert.assertEquals(maxLifetime,
cs.checkAndGetApplicationLifetime("default", 0));
maxLifetime = 5;
defaultLifetime = 10;
try {
setUpCSQueue(maxLifetime, defaultLifetime);
Assert.fail("Expected to fails since maxLifetime < defaultLifetime.");
} catch (YarnRuntimeException ye) {
Assert.assertTrue(
ye.getMessage().contains("can't exceed maximum lifetime"));
}
}
private CapacityScheduler setUpCSQueue(long maxLifetime,
long defaultLifetime) {
CapacitySchedulerConfiguration csConf =
new CapacitySchedulerConfiguration();
csConf.setQueues(CapacitySchedulerConfiguration.ROOT,
new String[] {"default"});
csConf.setCapacity(CapacitySchedulerConfiguration.ROOT + ".default", 100);
csConf.setMaximumLifetimePerQueue(
CapacitySchedulerConfiguration.ROOT + ".default", maxLifetime);
csConf.setDefaultLifetimePerQueue(
CapacitySchedulerConfiguration.ROOT + ".default", defaultLifetime);
YarnConfiguration conf = new YarnConfiguration(csConf);
CapacityScheduler cs = new CapacityScheduler();
RMContext rmContext = TestUtils.getMockRMContext();
cs.setConf(conf);
cs.setRMContext(rmContext);
cs.init(conf);
return cs;
}
private void waitforNMRegistered(ResourceScheduler scheduler, int nodecount,
int timesec) throws InterruptedException {
long start = System.currentTimeMillis();

View File

@ -171,6 +171,16 @@ Example:
</property>
```
* Queue lifetime for applications
The `CapacityScheduler` supports the following parameters to lifetime of an application:
| Property | Description |
|:---- |:---- |
| `yarn.scheduler.capacity.<queue-path>.maximum-application-lifetime` | Maximum lifetime of an application which is submitted to a queue in seconds. Any value less than or equal to zero will be considered as disabled. This will be a hard time limit for all applications in this queue. If positive value is configured then any application submitted to this queue will be killed after exceeds the configured lifetime. User can also specify lifetime per application basis in application submission context. But user lifetime will be overridden if it exceeds queue maximum lifetime. It is point-in-time configuration. Note : Configuring too low value will result in killing application sooner. This feature is applicable only for leaf queue. |
| `yarn.scheduler.capacity.root.<queue-path>.default-application-lifetime` | Default lifetime of an application which is submitted to a queue in seconds. Any value less than or equal to zero will be considered as disabled. If the user has not submitted application with lifetime value then this value will be taken. It is point-in-time configuration. Note : Default lifetime can't exceed maximum lifetime. This feature is applicable only for leaf queue.|
###Setup for application priority.
Application priority works only along with FIFO ordering policy. Default ordering policy is FIFO.