YARN-10178: Global Scheduler async thread crash caused by 'Comparison method violates its general contract. Contributed by Andras Gyori (gandras) and Qi Zhu (zhuqi).
(cherry picked from commit e2d6fd075d
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@ -28,12 +28,11 @@
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.CapacitySchedulerConfiguration;
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import org.apache.hadoop.yarn.util.resource.Resources;
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import java.util.ArrayList;
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import java.util.Collections;
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import java.util.Comparator;
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import java.util.Iterator;
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import java.util.List;
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import java.util.function.Supplier;
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import java.util.stream.Collectors;
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/**
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* For two queues with the same priority:
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@ -101,19 +100,21 @@ public static int compare(double relativeAssigned1, double relativeAssigned2,
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/**
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* Comparator that both looks at priority and utilization
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*/
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private class PriorityQueueComparator implements Comparator<CSQueue> {
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private class PriorityQueueComparator
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implements Comparator<PriorityQueueResourcesForSorting> {
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@Override
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public int compare(CSQueue q1, CSQueue q2) {
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public int compare(PriorityQueueResourcesForSorting q1Sort,
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PriorityQueueResourcesForSorting q2Sort) {
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String p = partitionToLookAt.get();
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int rc = compareQueueAccessToPartition(q1, q2, p);
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int rc = compareQueueAccessToPartition(q1Sort.queue, q2Sort.queue, p);
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if (0 != rc) {
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return rc;
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}
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float q1AbsCapacity = q1.getQueueCapacities().getAbsoluteCapacity(p);
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float q2AbsCapacity = q2.getQueueCapacities().getAbsoluteCapacity(p);
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float q1AbsCapacity = q1Sort.absoluteCapacity;
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float q2AbsCapacity = q2Sort.absoluteCapacity;
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//If q1's abs capacity > 0 and q2 is 0, then prioritize q1
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if (Float.compare(q1AbsCapacity, 0f) > 0 && Float.compare(q2AbsCapacity,
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@ -127,28 +128,33 @@ public int compare(CSQueue q1, CSQueue q2) {
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q2AbsCapacity, 0f) == 0) {
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// both q1 has 0 and q2 has 0 capacity, then fall back to using
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// priority, abs used capacity to prioritize
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float used1 = q1.getQueueCapacities().getAbsoluteUsedCapacity(p);
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float used2 = q2.getQueueCapacities().getAbsoluteUsedCapacity(p);
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float used1 = q1Sort.absoluteUsedCapacity;
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float used2 = q2Sort.absoluteUsedCapacity;
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return compare(q1, q2, used1, used2, p);
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return compare(q1Sort, q2Sort, used1, used2,
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q1Sort.queue.getPriority().
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getPriority(), q2Sort.queue.getPriority().getPriority());
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} else{
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// both q1 has positive abs capacity and q2 has positive abs
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// capacity
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float used1 = q1.getQueueCapacities().getUsedCapacity(p);
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float used2 = q2.getQueueCapacities().getUsedCapacity(p);
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float used1 = q1Sort.usedCapacity;
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float used2 = q2Sort.usedCapacity;
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return compare(q1, q2, used1, used2, p);
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return compare(q1Sort, q2Sort, used1, used2,
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q1Sort.queue.getPriority().getPriority(),
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q2Sort.queue.getPriority().getPriority());
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}
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}
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private int compare(CSQueue q1, CSQueue q2, float q1Used, float q2Used,
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String partition) {
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private int compare(PriorityQueueResourcesForSorting q1Sort,
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PriorityQueueResourcesForSorting q2Sort, float q1Used,
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float q2Used, int q1Prior, int q2Prior) {
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int p1 = 0;
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int p2 = 0;
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if (respectPriority) {
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p1 = q1.getPriority().getPriority();
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p2 = q2.getPriority().getPriority();
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p1 = q1Prior;
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p2 = q2Prior;
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}
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int rc = PriorityUtilizationQueueOrderingPolicy.compare(q1Used, q2Used,
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@ -158,16 +164,16 @@ private int compare(CSQueue q1, CSQueue q2, float q1Used, float q2Used,
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// capacity goes first
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if (0 == rc) {
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Resource minEffRes1 =
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q1.getQueueResourceQuotas().getConfiguredMinResource(partition);
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q1Sort.configuredMinResource;
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Resource minEffRes2 =
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q2.getQueueResourceQuotas().getConfiguredMinResource(partition);
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q2Sort.configuredMinResource;
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if (!minEffRes1.equals(Resources.none()) && !minEffRes2.equals(
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Resources.none())) {
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return minEffRes2.compareTo(minEffRes1);
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}
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float abs1 = q1.getQueueCapacities().getAbsoluteCapacity(partition);
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float abs2 = q2.getQueueCapacities().getAbsoluteCapacity(partition);
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float abs1 = q1Sort.absoluteCapacity;
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float abs2 = q2Sort.absoluteCapacity;
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return Float.compare(abs2, abs1);
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}
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@ -203,6 +209,37 @@ private int compareQueueAccessToPartition(CSQueue q1, CSQueue q2,
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}
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}
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/**
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* A simple storage class to represent a snapshot of a queue.
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*/
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public static class PriorityQueueResourcesForSorting {
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private final float absoluteUsedCapacity;
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private final float usedCapacity;
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private final Resource configuredMinResource;
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private final float absoluteCapacity;
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private final CSQueue queue;
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PriorityQueueResourcesForSorting(CSQueue queue) {
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this.queue = queue;
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this.absoluteUsedCapacity =
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queue.getQueueCapacities().
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getAbsoluteUsedCapacity(partitionToLookAt.get());
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this.usedCapacity =
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queue.getQueueCapacities().
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getUsedCapacity(partitionToLookAt.get());
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this.absoluteCapacity =
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queue.getQueueCapacities().
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getAbsoluteCapacity(partitionToLookAt.get());
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this.configuredMinResource =
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queue.getQueueResourceQuotas().
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getConfiguredMinResource(partitionToLookAt.get());
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}
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public CSQueue getQueue() {
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return queue;
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}
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}
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public PriorityUtilizationQueueOrderingPolicy(boolean respectPriority) {
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this.respectPriority = respectPriority;
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}
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@ -214,12 +251,14 @@ public void setQueues(List<CSQueue> queues) {
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@Override
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public Iterator<CSQueue> getAssignmentIterator(String partition) {
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// Since partitionToLookAt is a thread local variable, and every time we
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// copy and sort queues, so it's safe for multi-threading environment.
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// partitionToLookAt is a thread local variable, therefore it is safe to mutate it.
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PriorityUtilizationQueueOrderingPolicy.partitionToLookAt.set(partition);
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List<CSQueue> sortedQueue = new ArrayList<>(queues);
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Collections.sort(sortedQueue, new PriorityQueueComparator());
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return sortedQueue.iterator();
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// Sort the snapshot of the queues in order to avoid breaking the prerequisites of TimSort.
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// See YARN-10178 for details.
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return queues.stream().map(PriorityQueueResourcesForSorting::new).sorted(
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new PriorityQueueComparator()).map(PriorityQueueResourcesForSorting::getQueue).collect(
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Collectors.toList()).iterator();
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}
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@Override
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