YARN-3632. Ordering policy should be allowed to reorder an application when demand changes. Contributed by Craig Welch
(cherry picked from commit 10732d515f
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@ -398,6 +398,9 @@ Release 2.8.0 - UNRELEASED
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YARN-3707. RM Web UI queue filter doesn't work. (Wangda Tan via jianhe)
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YARN-3632. Ordering policy should be allowed to reorder an application when
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demand changes. (Craig Welch via jianhe)
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Release 2.7.1 - UNRELEASED
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INCOMPATIBLE CHANGES
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@ -128,11 +128,14 @@ public class AppSchedulingInfo {
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*
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* @param requests resources to be acquired
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* @param recoverPreemptedRequest recover Resource Request on preemption
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* @return true if any resource was updated, false else
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*/
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synchronized public void updateResourceRequests(
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synchronized public boolean updateResourceRequests(
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List<ResourceRequest> requests, boolean recoverPreemptedRequest) {
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QueueMetrics metrics = queue.getMetrics();
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boolean anyResourcesUpdated = false;
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// Update resource requests
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for (ResourceRequest request : requests) {
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Priority priority = request.getPriority();
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@ -146,6 +149,7 @@ public class AppSchedulingInfo {
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+ request);
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}
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updatePendingResources = true;
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anyResourcesUpdated = true;
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// Premature optimization?
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// Assumes that we won't see more than one priority request updated
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@ -209,6 +213,7 @@ public class AppSchedulingInfo {
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}
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}
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}
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return anyResourcesUpdated;
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}
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/**
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@ -284,11 +284,12 @@ public class SchedulerApplicationAttempt implements SchedulableEntity {
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return queue;
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}
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public synchronized void updateResourceRequests(
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public synchronized boolean updateResourceRequests(
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List<ResourceRequest> requests) {
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if (!isStopped) {
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appSchedulingInfo.updateResourceRequests(requests, false);
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return appSchedulingInfo.updateResourceRequests(requests, false);
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}
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return false;
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}
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public synchronized void recoverResourceRequests(
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@ -895,6 +895,10 @@ public class CapacityScheduler extends
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// Release containers
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releaseContainers(release, application);
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Allocation allocation;
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LeafQueue updateDemandForQueue = null;
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synchronized (application) {
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// make sure we aren't stopping/removing the application
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@ -915,7 +919,9 @@ public class CapacityScheduler extends
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application.showRequests();
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// Update application requests
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application.updateResourceRequests(ask);
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if (application.updateResourceRequests(ask)) {
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updateDemandForQueue = (LeafQueue) application.getQueue();
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}
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LOG.debug("allocate: post-update");
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application.showRequests();
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@ -929,9 +935,16 @@ public class CapacityScheduler extends
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application.updateBlacklist(blacklistAdditions, blacklistRemovals);
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return application.getAllocation(getResourceCalculator(),
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allocation = application.getAllocation(getResourceCalculator(),
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clusterResource, getMinimumResourceCapability());
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}
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if (updateDemandForQueue != null) {
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updateDemandForQueue.getOrderingPolicy().demandUpdated(application);
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}
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return allocation;
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}
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@Override
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@ -37,6 +37,7 @@ public abstract class AbstractComparatorOrderingPolicy<S extends SchedulableEnti
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protected TreeSet<S> schedulableEntities;
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protected Comparator<SchedulableEntity> comparator;
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protected Map<String, S> entitiesToReorder = new HashMap<String, S>();
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public AbstractComparatorOrderingPolicy() { }
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@ -47,11 +48,13 @@ public abstract class AbstractComparatorOrderingPolicy<S extends SchedulableEnti
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@Override
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public Iterator<S> getAssignmentIterator() {
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reorderScheduleEntities();
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return schedulableEntities.iterator();
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}
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@Override
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public Iterator<S> getPreemptionIterator() {
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reorderScheduleEntities();
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return schedulableEntities.descendingIterator();
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}
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@ -68,6 +71,22 @@ public abstract class AbstractComparatorOrderingPolicy<S extends SchedulableEnti
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schedulableEntities.add(schedulableEntity);
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}
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protected void reorderScheduleEntities() {
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synchronized (entitiesToReorder) {
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for (Map.Entry<String, S> entry :
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entitiesToReorder.entrySet()) {
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reorderSchedulableEntity(entry.getValue());
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}
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entitiesToReorder.clear();
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}
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}
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protected void entityRequiresReordering(S schedulableEntity) {
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synchronized (entitiesToReorder) {
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entitiesToReorder.put(schedulableEntity.getId(), schedulableEntity);
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}
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}
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@VisibleForTesting
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public Comparator<SchedulableEntity> getComparator() {
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return comparator;
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@ -80,6 +99,9 @@ public abstract class AbstractComparatorOrderingPolicy<S extends SchedulableEnti
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@Override
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public boolean removeSchedulableEntity(S s) {
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synchronized (entitiesToReorder) {
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entitiesToReorder.remove(s.getId());
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}
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return schedulableEntities.remove(s);
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}
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@ -104,6 +126,9 @@ public abstract class AbstractComparatorOrderingPolicy<S extends SchedulableEnti
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public abstract void containerReleased(S schedulableEntity,
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RMContainer r);
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@Override
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public abstract void demandUpdated(S schedulableEntity);
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@Override
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public abstract String getInfo();
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@ -96,13 +96,20 @@ public class FairOrderingPolicy<S extends SchedulableEntity> extends AbstractCom
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@Override
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public void containerAllocated(S schedulableEntity,
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RMContainer r) {
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reorderSchedulableEntity(schedulableEntity);
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entityRequiresReordering(schedulableEntity);
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}
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@Override
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public void containerReleased(S schedulableEntity,
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RMContainer r) {
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reorderSchedulableEntity(schedulableEntity);
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entityRequiresReordering(schedulableEntity);
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}
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@Override
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public void demandUpdated(S schedulableEntity) {
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if (sizeBasedWeight) {
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entityRequiresReordering(schedulableEntity);
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}
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}
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@Override
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@ -47,6 +47,10 @@ public class FifoOrderingPolicy<S extends SchedulableEntity> extends AbstractCom
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RMContainer r) {
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}
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@Override
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public void demandUpdated(S schedulableEntity) {
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}
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@Override
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public String getInfo() {
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return "FifoOrderingPolicy";
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@ -101,6 +101,11 @@ public interface OrderingPolicy<S extends SchedulableEntity> {
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public void containerReleased(S schedulableEntity,
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RMContainer r);
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/**
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* Demand Updated for the passed schedulableEntity, reorder if needed.
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*/
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void demandUpdated(S schedulableEntity);
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/**
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* Display information regarding configuration & status
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*/
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@ -72,6 +72,8 @@ import org.apache.hadoop.yarn.conf.YarnConfiguration;
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import org.apache.hadoop.yarn.event.AsyncDispatcher;
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import org.apache.hadoop.yarn.exceptions.YarnException;
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import org.apache.hadoop.yarn.exceptions.YarnRuntimeException;
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import org.apache.hadoop.yarn.factories.RecordFactory;
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import org.apache.hadoop.yarn.factory.providers.RecordFactoryProvider;
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import org.apache.hadoop.yarn.ipc.YarnRPC;
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import org.apache.hadoop.yarn.nodelabels.RMNodeLabel;
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import org.apache.hadoop.yarn.server.api.protocolrecords.UpdateNodeResourceRequest;
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@ -126,6 +128,7 @@ import org.apache.hadoop.yarn.server.resourcemanager.webapp.dao.CapacitySchedule
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import org.apache.hadoop.yarn.server.resourcemanager.webapp.dao.CapacitySchedulerLeafQueueInfo;
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import org.apache.hadoop.yarn.server.resourcemanager.webapp.dao.CapacitySchedulerQueueInfo;
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import org.apache.hadoop.yarn.server.resourcemanager.webapp.dao.CapacitySchedulerQueueInfoList;
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import org.apache.hadoop.yarn.server.resourcemanager.scheduler.policy.FairOrderingPolicy;
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import org.apache.hadoop.yarn.server.utils.BuilderUtils;
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import org.apache.hadoop.yarn.util.resource.DominantResourceCalculator;
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import org.apache.hadoop.yarn.util.resource.Resources;
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@ -676,6 +679,118 @@ public class TestCapacityScheduler {
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rm.stop();
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}
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@Test
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public void testAllocateReorder() throws Exception {
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//Confirm that allocation (resource request) alone will trigger a change in
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//application ordering where appropriate
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Configuration conf = new Configuration();
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conf.setClass(YarnConfiguration.RM_SCHEDULER, CapacityScheduler.class,
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ResourceScheduler.class);
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MockRM rm = new MockRM(conf);
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rm.start();
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CapacityScheduler cs = (CapacityScheduler) rm.getResourceScheduler();
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LeafQueue q = (LeafQueue) cs.getQueue("default");
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Assert.assertNotNull(q);
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FairOrderingPolicy fop = new FairOrderingPolicy();
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fop.setSizeBasedWeight(true);
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q.setOrderingPolicy(fop);
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String host = "127.0.0.1";
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RMNode node =
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MockNodes.newNodeInfo(0, MockNodes.newResource(4 * GB), 1, host);
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cs.handle(new NodeAddedSchedulerEvent(node));
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//add app begin
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ApplicationId appId1 = BuilderUtils.newApplicationId(100, 1);
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ApplicationAttemptId appAttemptId1 = BuilderUtils.newApplicationAttemptId(
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appId1, 1);
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RMAppAttemptMetrics attemptMetric1 =
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new RMAppAttemptMetrics(appAttemptId1, rm.getRMContext());
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RMAppImpl app1 = mock(RMAppImpl.class);
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when(app1.getApplicationId()).thenReturn(appId1);
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RMAppAttemptImpl attempt1 = mock(RMAppAttemptImpl.class);
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when(attempt1.getAppAttemptId()).thenReturn(appAttemptId1);
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when(attempt1.getRMAppAttemptMetrics()).thenReturn(attemptMetric1);
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when(app1.getCurrentAppAttempt()).thenReturn(attempt1);
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rm.getRMContext().getRMApps().put(appId1, app1);
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SchedulerEvent addAppEvent1 =
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new AppAddedSchedulerEvent(appId1, "default", "user");
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cs.handle(addAppEvent1);
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SchedulerEvent addAttemptEvent1 =
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new AppAttemptAddedSchedulerEvent(appAttemptId1, false);
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cs.handle(addAttemptEvent1);
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//add app end
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//add app begin
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ApplicationId appId2 = BuilderUtils.newApplicationId(100, 2);
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ApplicationAttemptId appAttemptId2 = BuilderUtils.newApplicationAttemptId(
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appId2, 1);
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RMAppAttemptMetrics attemptMetric2 =
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new RMAppAttemptMetrics(appAttemptId2, rm.getRMContext());
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RMAppImpl app2 = mock(RMAppImpl.class);
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when(app2.getApplicationId()).thenReturn(appId2);
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RMAppAttemptImpl attempt2 = mock(RMAppAttemptImpl.class);
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when(attempt2.getAppAttemptId()).thenReturn(appAttemptId2);
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when(attempt2.getRMAppAttemptMetrics()).thenReturn(attemptMetric2);
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when(app2.getCurrentAppAttempt()).thenReturn(attempt2);
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rm.getRMContext().getRMApps().put(appId2, app2);
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SchedulerEvent addAppEvent2 =
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new AppAddedSchedulerEvent(appId2, "default", "user");
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cs.handle(addAppEvent2);
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SchedulerEvent addAttemptEvent2 =
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new AppAttemptAddedSchedulerEvent(appAttemptId2, false);
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cs.handle(addAttemptEvent2);
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//add app end
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RecordFactory recordFactory =
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RecordFactoryProvider.getRecordFactory(null);
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Priority priority = TestUtils.createMockPriority(1);
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ResourceRequest r1 = TestUtils.createResourceRequest(ResourceRequest.ANY, 1*GB, 1, true, priority, recordFactory);
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//This will allocate for app1
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cs.allocate(appAttemptId1,
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Collections.<ResourceRequest>singletonList(r1),
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Collections.<ContainerId>emptyList(),
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null, null);
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//And this will result in container assignment for app1
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CapacityScheduler.schedule(cs);
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//Verify that app1 is still first in assignment order
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//This happens because app2 has no demand/a magnitude of NaN, which
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//results in app1 and app2 being equal in the fairness comparison and
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//failling back to fifo (start) ordering
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assertEquals(q.getOrderingPolicy().getAssignmentIterator().next().getId(),
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appId1.toString());
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//Now, allocate for app2 (this would be the first/AM allocation)
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ResourceRequest r2 = TestUtils.createResourceRequest(ResourceRequest.ANY, 1*GB, 1, true, priority, recordFactory);
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cs.allocate(appAttemptId2,
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Collections.<ResourceRequest>singletonList(r2),
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Collections.<ContainerId>emptyList(),
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null, null);
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//In this case we do not perform container assignment because we want to
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//verify re-ordering based on the allocation alone
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//Now, the first app for assignment is app2
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assertEquals(q.getOrderingPolicy().getAssignmentIterator().next().getId(),
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appId2.toString());
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rm.stop();
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}
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@Test
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public void testResourceOverCommit() throws Exception {
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Configuration conf = new Configuration();
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