YARN-3849. Too much of preemption activity causing continuos killing of containers across queues. (Sunil G via wangda)
(cherry picked from commit 1df39c1efc
)
This commit is contained in:
parent
37a93c2d78
commit
c36090fd3f
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@ -565,6 +565,9 @@ Release 2.8.0 - UNRELEASED
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YARN-3888. ApplicationMaster link is broken in RM WebUI when appstate is NEW.
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(Bibin A Chundatt via xgong)
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YARN-3849. Too much of preemption activity causing continuos killing of
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containers across queues. (Sunil G via wangda)
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Release 2.7.2 - UNRELEASED
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INCOMPATIBLE CHANGES
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@ -840,12 +840,12 @@ public class ProportionalCapacityPreemptionPolicy implements SchedulingEditPolic
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synchronized (curQueue) {
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String queueName = curQueue.getQueueName();
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QueueCapacities qc = curQueue.getQueueCapacities();
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float absUsed = qc.getAbsoluteUsedCapacity(partitionToLookAt);
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float absCap = qc.getAbsoluteCapacity(partitionToLookAt);
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float absMaxCap = qc.getAbsoluteMaximumCapacity(partitionToLookAt);
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boolean preemptionDisabled = curQueue.getPreemptionDisabled();
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Resource current = Resources.multiply(partitionResource, absUsed);
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Resource current = curQueue.getQueueResourceUsage().getUsed(
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partitionToLookAt);
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Resource guaranteed = Resources.multiply(partitionResource, absCap);
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Resource maxCapacity = Resources.multiply(partitionResource, absMaxCap);
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@ -81,7 +81,9 @@ import org.apache.hadoop.yarn.server.resourcemanager.scheduler.event.SchedulerEv
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import org.apache.hadoop.yarn.server.resourcemanager.scheduler.policy.OrderingPolicy;
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import org.apache.hadoop.yarn.util.Clock;
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import org.apache.hadoop.yarn.util.resource.DefaultResourceCalculator;
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import org.apache.hadoop.yarn.util.resource.DominantResourceCalculator;
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import org.apache.hadoop.yarn.util.resource.ResourceCalculator;
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import org.apache.hadoop.yarn.util.resource.Resources;
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import org.junit.Before;
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import org.junit.Rule;
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import org.junit.Test;
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@ -372,7 +374,7 @@ public class TestProportionalCapacityPreemptionPolicy {
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appA.getApplicationId(), appA.getAttemptId());
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assertTrue("appA should be running on queueB",
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mCS.getAppsInQueue("queueB").contains(expectedAttemptOnQueueB));
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verify(mDisp, times(9)).handle(argThat(new IsPreemptionRequestFor(appA)));
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verify(mDisp, times(10)).handle(argThat(new IsPreemptionRequestFor(appA)));
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// Need to call setup() again to reset mDisp
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setup();
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@ -395,7 +397,7 @@ public class TestProportionalCapacityPreemptionPolicy {
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// Resources should have come from queueE (appC) and neither of queueA's
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// children.
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verify(mDisp, never()).handle(argThat(new IsPreemptionRequestFor(appA)));
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verify(mDisp, times(9)).handle(argThat(new IsPreemptionRequestFor(appC)));
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verify(mDisp, times(10)).handle(argThat(new IsPreemptionRequestFor(appC)));
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}
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@Test
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@ -470,8 +472,8 @@ public class TestProportionalCapacityPreemptionPolicy {
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// With all queues preemptable, resources should be taken from queueC(appA)
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// and queueD(appB). Resources taken more from queueD(appB) than
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// queueC(appA) because it's over its capacity by a larger percentage.
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verify(mDisp, times(16)).handle(argThat(new IsPreemptionRequestFor(appA)));
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verify(mDisp, times(182)).handle(argThat(new IsPreemptionRequestFor(appB)));
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verify(mDisp, times(17)).handle(argThat(new IsPreemptionRequestFor(appA)));
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verify(mDisp, times(183)).handle(argThat(new IsPreemptionRequestFor(appB)));
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// Turn off preemption for queueA and it's children. queueF(appC)'s request
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// should starve.
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@ -635,7 +637,7 @@ public class TestProportionalCapacityPreemptionPolicy {
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policy.editSchedule();
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// verify capacity taken from A1, not B1 despite B1 being far over
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// its absolute guaranteed capacity
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verify(mDisp, times(9)).handle(argThat(new IsPreemptionRequestFor(appA)));
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verify(mDisp, times(10)).handle(argThat(new IsPreemptionRequestFor(appA)));
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}
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@Test
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@ -676,7 +678,7 @@ public class TestProportionalCapacityPreemptionPolicy {
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// we verify both that C has priority on B and D (has it has >0 guarantees)
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// and that B and D are force to share their over capacity fairly (as they
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// are both zero-guarantees) hence D sees some of its containers preempted
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verify(mDisp, times(14)).handle(argThat(new IsPreemptionRequestFor(appC)));
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verify(mDisp, times(15)).handle(argThat(new IsPreemptionRequestFor(appC)));
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}
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@ -703,8 +705,8 @@ public class TestProportionalCapacityPreemptionPolicy {
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// XXX note: compensating for rounding error in Resources.multiplyTo
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// which is likely triggered since we use small numbers for readability
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verify(mDisp, times(7)).handle(argThat(new IsPreemptionRequestFor(appA)));
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verify(mDisp, times(5)).handle(argThat(new IsPreemptionRequestFor(appE)));
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verify(mDisp, times(9)).handle(argThat(new IsPreemptionRequestFor(appA)));
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verify(mDisp, times(6)).handle(argThat(new IsPreemptionRequestFor(appE)));
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}
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@Test
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@ -868,6 +870,34 @@ public class TestProportionalCapacityPreemptionPolicy {
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setAMContainer = false;
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}
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@Test
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public void testPreemptionWithVCoreResource() {
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int[][] qData = new int[][]{
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// / A B
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{100, 100, 100}, // maxcap
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{5, 1, 1}, // apps
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{2, 0, 0}, // subqueues
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};
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// Resources can be set like memory:vcores
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String[][] resData = new String[][]{
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// / A B
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{"100:100", "50:50", "50:50"}, // abs
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{"10:100", "10:100", "0"}, // used
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{"70:20", "70:20", "10:100"}, // pending
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{"0", "0", "0"}, // reserved
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{"-1", "1:10", "1:10"}, // req granularity
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};
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// Passing last param as TRUE to use DominantResourceCalculator
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ProportionalCapacityPreemptionPolicy policy = buildPolicy(qData, resData,
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true);
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policy.editSchedule();
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// 5 containers will be preempted here
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verify(mDisp, times(5)).handle(argThat(new IsPreemptionRequestFor(appA)));
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}
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static class IsPreemptionRequestFor
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extends ArgumentMatcher<ContainerPreemptEvent> {
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private final ApplicationAttemptId appAttId;
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@ -892,13 +922,40 @@ public class TestProportionalCapacityPreemptionPolicy {
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}
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ProportionalCapacityPreemptionPolicy buildPolicy(int[][] qData) {
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ProportionalCapacityPreemptionPolicy policy =
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new ProportionalCapacityPreemptionPolicy(conf, rmContext, mCS, mClock);
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ProportionalCapacityPreemptionPolicy policy = new ProportionalCapacityPreemptionPolicy(
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conf, rmContext, mCS, mClock);
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clusterResources = Resource.newInstance(
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leafAbsCapacities(qData[0], qData[7]), 0);
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ParentQueue mRoot = buildMockRootQueue(rand, qData);
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when(mCS.getRootQueue()).thenReturn(mRoot);
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clusterResources =
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Resource.newInstance(leafAbsCapacities(qData[0], qData[7]), 0);
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setResourceAndNodeDetails();
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return policy;
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}
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ProportionalCapacityPreemptionPolicy buildPolicy(int[][] qData,
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String[][] resData) {
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return buildPolicy(qData, resData, false);
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}
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ProportionalCapacityPreemptionPolicy buildPolicy(int[][] qData,
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String[][] resData, boolean useDominantResourceCalculator) {
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if (useDominantResourceCalculator) {
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when(mCS.getResourceCalculator()).thenReturn(
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new DominantResourceCalculator());
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}
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ProportionalCapacityPreemptionPolicy policy =
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new ProportionalCapacityPreemptionPolicy(conf, rmContext, mCS, mClock);
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clusterResources = leafAbsCapacities(parseResourceDetails(resData[0]),
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qData[2]);
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ParentQueue mRoot = buildMockRootQueue(rand, resData, qData);
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when(mCS.getRootQueue()).thenReturn(mRoot);
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setResourceAndNodeDetails();
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return policy;
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}
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private void setResourceAndNodeDetails() {
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when(mCS.getClusterResource()).thenReturn(clusterResources);
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when(lm.getResourceByLabel(anyString(), any(Resource.class))).thenReturn(
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clusterResources);
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@ -906,35 +963,78 @@ public class TestProportionalCapacityPreemptionPolicy {
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SchedulerNode mNode = mock(SchedulerNode.class);
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when(mNode.getPartition()).thenReturn(RMNodeLabelsManager.NO_LABEL);
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when(mCS.getSchedulerNode(any(NodeId.class))).thenReturn(mNode);
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return policy;
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}
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ParentQueue buildMockRootQueue(Random r, int[]... queueData) {
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int[] abs = queueData[0];
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Resource[] abs = generateResourceList(queueData[0]);
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Resource[] used = generateResourceList(queueData[2]);
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Resource[] pending = generateResourceList(queueData[3]);
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Resource[] reserved = generateResourceList(queueData[4]);
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Resource[] gran = generateResourceList(queueData[6]);
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int[] maxCap = queueData[1];
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int[] used = queueData[2];
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int[] pending = queueData[3];
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int[] reserved = queueData[4];
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int[] apps = queueData[5];
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int[] gran = queueData[6];
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int[] queues = queueData[7];
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return mockNested(abs, maxCap, used, pending, reserved, apps, gran, queues);
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}
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ParentQueue mockNested(int[] abs, int[] maxCap, int[] used,
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int[] pending, int[] reserved, int[] apps, int[] gran, int[] queues) {
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float tot = leafAbsCapacities(abs, queues);
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ParentQueue buildMockRootQueue(Random r, String[][] resData,
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int[]... queueData) {
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Resource[] abs = parseResourceDetails(resData[0]);
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Resource[] used = parseResourceDetails(resData[1]);
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Resource[] pending = parseResourceDetails(resData[2]);
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Resource[] reserved = parseResourceDetails(resData[3]);
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Resource[] gran = parseResourceDetails(resData[4]);
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int[] maxCap = queueData[0];
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int[] apps = queueData[1];
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int[] queues = queueData[2];
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return mockNested(abs, maxCap, used, pending, reserved, apps, gran, queues);
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}
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Resource[] parseResourceDetails(String[] resData) {
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List<Resource> resourceList = new ArrayList<Resource>();
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for (int i = 0; i < resData.length; i++) {
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String[] resource = resData[i].split(":");
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if (resource.length == 1) {
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resourceList.add(Resource.newInstance(Integer.valueOf(resource[0]), 0));
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} else {
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resourceList.add(Resource.newInstance(Integer.valueOf(resource[0]),
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Integer.valueOf(resource[1])));
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}
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}
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return resourceList.toArray(new Resource[resourceList.size()]);
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}
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Resource[] generateResourceList(int[] qData) {
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List<Resource> resourceList = new ArrayList<Resource>();
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for (int i = 0; i < qData.length; i++) {
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resourceList.add(Resource.newInstance(qData[i], 0));
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}
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return resourceList.toArray(new Resource[resourceList.size()]);
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}
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ParentQueue mockNested(Resource[] abs, int[] maxCap, Resource[] used,
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Resource[] pending, Resource[] reserved, int[] apps, Resource[] gran,
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int[] queues) {
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ResourceCalculator rc = mCS.getResourceCalculator();
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Resource tot = leafAbsCapacities(abs, queues);
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Deque<ParentQueue> pqs = new LinkedList<ParentQueue>();
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ParentQueue root = mockParentQueue(null, queues[0], pqs);
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ResourceUsage resUsage = new ResourceUsage();
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resUsage.setUsed(used[0]);
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when(root.getQueueName()).thenReturn(CapacitySchedulerConfiguration.ROOT);
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when(root.getAbsoluteUsedCapacity()).thenReturn(used[0] / tot);
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when(root.getAbsoluteCapacity()).thenReturn(abs[0] / tot);
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when(root.getAbsoluteMaximumCapacity()).thenReturn(maxCap[0] / tot);
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when(root.getAbsoluteUsedCapacity()).thenReturn(
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Resources.divide(rc, tot, used[0], tot));
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when(root.getAbsoluteCapacity()).thenReturn(
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Resources.divide(rc, tot, abs[0], tot));
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when(root.getAbsoluteMaximumCapacity()).thenReturn(
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maxCap[0] / (float) tot.getMemory());
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when(root.getQueueResourceUsage()).thenReturn(resUsage);
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QueueCapacities rootQc = new QueueCapacities(true);
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rootQc.setAbsoluteUsedCapacity(used[0] / tot);
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rootQc.setAbsoluteCapacity(abs[0] / tot);
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rootQc.setAbsoluteMaximumCapacity(maxCap[0] / tot);
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rootQc.setAbsoluteUsedCapacity(Resources.divide(rc, tot, used[0], tot));
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rootQc.setAbsoluteCapacity(Resources.divide(rc, tot, abs[0], tot));
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rootQc.setAbsoluteMaximumCapacity(maxCap[0] / (float) tot.getMemory());
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when(root.getQueueCapacities()).thenReturn(rootQc);
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when(root.getQueuePath()).thenReturn(CapacitySchedulerConfiguration.ROOT);
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boolean preemptionDisabled = mockPreemptionStatus("root");
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@ -943,28 +1043,35 @@ public class TestProportionalCapacityPreemptionPolicy {
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for (int i = 1; i < queues.length; ++i) {
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final CSQueue q;
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final ParentQueue p = pqs.removeLast();
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final String queueName = "queue" + ((char)('A' + i - 1));
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final String queueName = "queue" + ((char) ('A' + i - 1));
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if (queues[i] > 0) {
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q = mockParentQueue(p, queues[i], pqs);
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ResourceUsage resUsagePerQueue = new ResourceUsage();
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resUsagePerQueue.setUsed(used[i]);
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when(q.getQueueResourceUsage()).thenReturn(resUsagePerQueue);
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} else {
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q = mockLeafQueue(p, tot, i, abs, used, pending, reserved, apps, gran);
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}
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when(q.getParent()).thenReturn(p);
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when(q.getQueueName()).thenReturn(queueName);
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when(q.getAbsoluteUsedCapacity()).thenReturn(used[i] / tot);
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when(q.getAbsoluteCapacity()).thenReturn(abs[i] / tot);
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when(q.getAbsoluteMaximumCapacity()).thenReturn(maxCap[i] / tot);
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when(q.getAbsoluteUsedCapacity()).thenReturn(
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Resources.divide(rc, tot, used[i], tot));
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when(q.getAbsoluteCapacity()).thenReturn(
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Resources.divide(rc, tot, abs[i], tot));
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when(q.getAbsoluteMaximumCapacity()).thenReturn(
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maxCap[i] / (float) tot.getMemory());
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// We need to make these fields to QueueCapacities
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QueueCapacities qc = new QueueCapacities(false);
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qc.setAbsoluteUsedCapacity(used[i] / tot);
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qc.setAbsoluteCapacity(abs[i] / tot);
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qc.setAbsoluteMaximumCapacity(maxCap[i] / tot);
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qc.setAbsoluteUsedCapacity(Resources.divide(rc, tot, used[i], tot));
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qc.setAbsoluteCapacity(Resources.divide(rc, tot, abs[i], tot));
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qc.setAbsoluteMaximumCapacity(maxCap[i] / (float) tot.getMemory());
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when(q.getQueueCapacities()).thenReturn(qc);
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String parentPathName = p.getQueuePath();
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parentPathName = (parentPathName == null) ? "root" : parentPathName;
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String queuePathName = (parentPathName+"."+queueName).replace("/","root");
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String queuePathName = (parentPathName + "." + queueName).replace("/",
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"root");
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when(q.getQueuePath()).thenReturn(queuePathName);
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preemptionDisabled = mockPreemptionStatus(queuePathName);
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when(q.getPreemptionDisabled()).thenReturn(preemptionDisabled);
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@ -1004,16 +1111,18 @@ public class TestProportionalCapacityPreemptionPolicy {
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}
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@SuppressWarnings("rawtypes")
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LeafQueue mockLeafQueue(ParentQueue p, float tot, int i, int[] abs,
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int[] used, int[] pending, int[] reserved, int[] apps, int[] gran) {
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LeafQueue mockLeafQueue(ParentQueue p, Resource tot, int i, Resource[] abs,
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Resource[] used, Resource[] pending, Resource[] reserved, int[] apps,
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Resource[] gran) {
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LeafQueue lq = mock(LeafQueue.class);
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ResourceCalculator rc = mCS.getResourceCalculator();
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List<ApplicationAttemptId> appAttemptIdList =
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new ArrayList<ApplicationAttemptId>();
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when(lq.getTotalResourcePending()).thenReturn(
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Resource.newInstance(pending[i], 0));
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when(lq.getTotalResourcePending()).thenReturn(pending[i]);
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// need to set pending resource in resource usage as well
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ResourceUsage ru = new ResourceUsage();
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ru.setPending(Resource.newInstance(pending[i], 0));
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ru.setPending(pending[i]);
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ru.setUsed(used[i]);
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when(lq.getQueueResourceUsage()).thenReturn(ru);
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// consider moving where CapacityScheduler::comparator accessible
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final NavigableSet<FiCaSchedulerApp> qApps = new TreeSet<FiCaSchedulerApp>(
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@ -1026,9 +1135,9 @@ public class TestProportionalCapacityPreemptionPolicy {
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});
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// applications are added in global L->R order in queues
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if (apps[i] != 0) {
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int aUsed = used[i] / apps[i];
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int aPending = pending[i] / apps[i];
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int aReserve = reserved[i] / apps[i];
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Resource aUsed = Resources.divideAndCeil(rc, used[i], apps[i]);
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Resource aPending = Resources.divideAndCeil(rc, pending[i], apps[i]);
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Resource aReserve = Resources.divideAndCeil(rc, reserved[i], apps[i]);
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for (int a = 0; a < apps[i]; ++a) {
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FiCaSchedulerApp mockFiCaApp =
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mockApp(i, appAlloc, aUsed, aPending, aReserve, gran[i]);
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@ -1055,9 +1164,10 @@ public class TestProportionalCapacityPreemptionPolicy {
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return lq;
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}
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FiCaSchedulerApp mockApp(int qid, int id, int used, int pending, int reserved,
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int gran) {
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FiCaSchedulerApp mockApp(int qid, int id, Resource used, Resource pending,
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Resource reserved, Resource gran) {
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FiCaSchedulerApp app = mock(FiCaSchedulerApp.class);
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ResourceCalculator rc = mCS.getResourceCalculator();
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ApplicationId appId = ApplicationId.newInstance(TS, id);
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ApplicationAttemptId appAttId = ApplicationAttemptId.newInstance(appId, 0);
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@ -1065,30 +1175,35 @@ public class TestProportionalCapacityPreemptionPolicy {
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when(app.getApplicationAttemptId()).thenReturn(appAttId);
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int cAlloc = 0;
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Resource unit = Resource.newInstance(gran, 0);
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Resource unit = gran;
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List<RMContainer> cReserved = new ArrayList<RMContainer>();
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for (int i = 0; i < reserved; i += gran) {
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cReserved.add(mockContainer(appAttId, cAlloc, unit, priority.CONTAINER
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.getValue()));
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Resource resIter = Resource.newInstance(0, 0);
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for (; Resources.lessThan(rc, clusterResources, resIter, reserved); Resources
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.addTo(resIter, gran)) {
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cReserved.add(mockContainer(appAttId, cAlloc, unit,
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priority.CONTAINER.getValue()));
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++cAlloc;
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}
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when(app.getReservedContainers()).thenReturn(cReserved);
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List<RMContainer> cLive = new ArrayList<RMContainer>();
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for (int i = 0; i < used; i += gran) {
|
||||
if(setAMContainer && i == 0){
|
||||
cLive.add(mockContainer(appAttId, cAlloc, unit, priority.AMCONTAINER
|
||||
.getValue()));
|
||||
}else if(setLabeledContainer && i ==1){
|
||||
Resource usedIter = Resource.newInstance(0, 0);
|
||||
int i = 0;
|
||||
for (; Resources.lessThan(rc, clusterResources, usedIter, used); Resources
|
||||
.addTo(usedIter, gran)) {
|
||||
if (setAMContainer && i == 0) {
|
||||
cLive.add(mockContainer(appAttId, cAlloc, unit,
|
||||
priority.AMCONTAINER.getValue()));
|
||||
} else if (setLabeledContainer && i == 1) {
|
||||
cLive.add(mockContainer(appAttId, cAlloc, unit,
|
||||
priority.LABELEDCONTAINER.getValue()));
|
||||
++used;
|
||||
}
|
||||
else{
|
||||
cLive.add(mockContainer(appAttId, cAlloc, unit, priority.CONTAINER
|
||||
.getValue()));
|
||||
Resources.addTo(used, Resource.newInstance(1, 1));
|
||||
} else {
|
||||
cLive.add(mockContainer(appAttId, cAlloc, unit,
|
||||
priority.CONTAINER.getValue()));
|
||||
}
|
||||
++cAlloc;
|
||||
++i;
|
||||
}
|
||||
when(app.getLiveContainers()).thenReturn(cLive);
|
||||
return app;
|
||||
|
@ -1124,6 +1239,16 @@ public class TestProportionalCapacityPreemptionPolicy {
|
|||
return ret;
|
||||
}
|
||||
|
||||
static Resource leafAbsCapacities(Resource[] abs, int[] subqueues) {
|
||||
Resource ret = Resource.newInstance(0, 0);
|
||||
for (int i = 0; i < abs.length; ++i) {
|
||||
if (0 == subqueues[i]) {
|
||||
Resources.addTo(ret, abs[i]);
|
||||
}
|
||||
}
|
||||
return ret;
|
||||
}
|
||||
|
||||
void printString(CSQueue nq, String indent) {
|
||||
if (nq instanceof ParentQueue) {
|
||||
System.out.println(indent + nq.getQueueName()
|
||||
|
|
|
@ -70,6 +70,7 @@ import org.apache.hadoop.yarn.server.resourcemanager.scheduler.event.SchedulerEv
|
|||
import org.apache.hadoop.yarn.server.resourcemanager.scheduler.policy.OrderingPolicy;
|
||||
import org.apache.hadoop.yarn.util.Clock;
|
||||
import org.apache.hadoop.yarn.util.resource.DefaultResourceCalculator;
|
||||
import org.apache.hadoop.yarn.util.resource.DominantResourceCalculator;
|
||||
import org.apache.hadoop.yarn.util.resource.ResourceCalculator;
|
||||
import org.apache.hadoop.yarn.util.resource.Resources;
|
||||
import org.junit.Assert;
|
||||
|
@ -771,6 +772,60 @@ public class TestProportionalCapacityPreemptionPolicyForNodePartitions {
|
|||
argThat(new IsPreemptionRequestFor(getAppAttemptId(2))));
|
||||
}
|
||||
|
||||
@Test
|
||||
public void testNodePartitionPreemptionWithVCoreResource() throws IOException {
|
||||
/**
|
||||
* Queue structure is:
|
||||
*
|
||||
* <pre>
|
||||
* root
|
||||
* / \
|
||||
* a b
|
||||
* </pre>
|
||||
*
|
||||
* Both a/b can access x, and guaranteed capacity of them is 50:50. Two
|
||||
* nodes, n1 has 100 x, n2 has 100 NO_LABEL 4 applications in the cluster,
|
||||
* app1/app2 in a, and app3/app4 in b. app1 uses 80 x, app2 uses 20
|
||||
* NO_LABEL, app3 uses 20 x, app4 uses 80 NO_LABEL. Both a/b have 50 pending
|
||||
* resource for x and NO_LABEL
|
||||
*
|
||||
* After preemption, it should preempt 30 from app1, and 30 from app4.
|
||||
*/
|
||||
String labelsConfig = "=100:200,true;" + // default partition
|
||||
"x=100:200,true"; // partition=x
|
||||
String nodesConfig = "n1=x;" + // n1 has partition=x
|
||||
"n2="; // n2 is default partition
|
||||
String queuesConfig =
|
||||
// guaranteed,max,used,pending
|
||||
"root(=[100:200 100:200 100:200 100:200],x=[100:200 100:200 100:200 100:200]);"
|
||||
+ // root
|
||||
"-a(=[50:100 100:200 20:40 50:100],x=[50:100 100:200 80:160 50:100]);" + // a
|
||||
"-b(=[50:100 100:200 80:160 50:100],x=[50:100 100:200 20:40 50:100])"; // b
|
||||
String appsConfig =
|
||||
// queueName\t(priority,resource,host,expression,#repeat,reserved)
|
||||
"a\t" // app1 in a
|
||||
+ "(1,1:2,n1,x,80,false);" + // 80 * x in n1
|
||||
"a\t" // app2 in a
|
||||
+ "(1,1:2,n2,,20,false);" + // 20 default in n2
|
||||
"b\t" // app3 in b
|
||||
+ "(1,1:2,n1,x,20,false);" + // 20 * x in n1
|
||||
"b\t" // app4 in b
|
||||
+ "(1,1:2,n2,,80,false)"; // 80 default in n2
|
||||
|
||||
buildEnv(labelsConfig, nodesConfig, queuesConfig, appsConfig, true);
|
||||
policy.editSchedule();
|
||||
|
||||
// 30 preempted from app1, 30 preempted from app4, and nothing preempted
|
||||
// from app2/app3
|
||||
verify(mDisp, times(30)).handle(
|
||||
argThat(new IsPreemptionRequestFor(getAppAttemptId(1))));
|
||||
verify(mDisp, times(30)).handle(
|
||||
argThat(new IsPreemptionRequestFor(getAppAttemptId(4))));
|
||||
verify(mDisp, never()).handle(
|
||||
argThat(new IsPreemptionRequestFor(getAppAttemptId(2))));
|
||||
verify(mDisp, never()).handle(
|
||||
argThat(new IsPreemptionRequestFor(getAppAttemptId(3))));
|
||||
}
|
||||
|
||||
private ApplicationAttemptId getAppAttemptId(int id) {
|
||||
ApplicationId appId = ApplicationId.newInstance(0L, id);
|
||||
|
@ -821,6 +876,16 @@ public class TestProportionalCapacityPreemptionPolicyForNodePartitions {
|
|||
|
||||
private void buildEnv(String labelsConfig, String nodesConfig,
|
||||
String queuesConfig, String appsConfig) throws IOException {
|
||||
buildEnv(labelsConfig, nodesConfig, queuesConfig, appsConfig, false);
|
||||
}
|
||||
|
||||
private void buildEnv(String labelsConfig, String nodesConfig,
|
||||
String queuesConfig, String appsConfig,
|
||||
boolean useDominantResourceCalculator) throws IOException {
|
||||
if (useDominantResourceCalculator) {
|
||||
when(cs.getResourceCalculator()).thenReturn(
|
||||
new DominantResourceCalculator());
|
||||
}
|
||||
mockNodeLabelsManager(labelsConfig);
|
||||
mockSchedulerNodes(nodesConfig);
|
||||
for (NodeId nodeId : nodeIdToSchedulerNodes.keySet()) {
|
||||
|
@ -832,7 +897,8 @@ public class TestProportionalCapacityPreemptionPolicyForNodePartitions {
|
|||
when(cs.getClusterResource()).thenReturn(clusterResource);
|
||||
mockApplications(appsConfig);
|
||||
|
||||
policy = new ProportionalCapacityPreemptionPolicy(conf, rmContext, cs, mClock);
|
||||
policy = new ProportionalCapacityPreemptionPolicy(conf, rmContext, cs,
|
||||
mClock);
|
||||
}
|
||||
|
||||
private void mockContainers(String containersConfig, ApplicationAttemptId attemptId,
|
||||
|
@ -868,7 +934,7 @@ public class TestProportionalCapacityPreemptionPolicyForNodePartitions {
|
|||
+ "(priority,resource,host,expression,repeat,reserved)");
|
||||
}
|
||||
Priority pri = Priority.newInstance(Integer.valueOf(values[0]));
|
||||
Resource res = Resources.createResource(Integer.valueOf(values[1]));
|
||||
Resource res = parseResourceFromString(values[1]);
|
||||
NodeId host = NodeId.newInstance(values[2], 1);
|
||||
String exp = values[3];
|
||||
int repeat = Integer.valueOf(values[4]);
|
||||
|
@ -1002,11 +1068,10 @@ public class TestProportionalCapacityPreemptionPolicyForNodePartitions {
|
|||
clusterResource = Resources.createResource(0);
|
||||
for (String p : partitionConfigArr) {
|
||||
String partitionName = p.substring(0, p.indexOf("="));
|
||||
int totalResource =
|
||||
Integer.valueOf(p.substring(p.indexOf("=") + 1, p.indexOf(",")));
|
||||
Resource res = parseResourceFromString(p.substring(p.indexOf("=") + 1,
|
||||
p.indexOf(",")));
|
||||
boolean exclusivity =
|
||||
Boolean.valueOf(p.substring(p.indexOf(",") + 1, p.length()));
|
||||
Resource res = Resources.createResource(totalResource);
|
||||
when(nlm.getResourceByLabel(eq(partitionName), any(Resource.class)))
|
||||
.thenReturn(res);
|
||||
when(nlm.isExclusiveNodeLabel(eq(partitionName))).thenReturn(exclusivity);
|
||||
|
@ -1022,6 +1087,18 @@ public class TestProportionalCapacityPreemptionPolicyForNodePartitions {
|
|||
partitionToResource.keySet());
|
||||
}
|
||||
|
||||
private Resource parseResourceFromString(String p) {
|
||||
String[] resource = p.split(":");
|
||||
Resource res = Resources.createResource(0);
|
||||
if (resource.length == 1) {
|
||||
res = Resources.createResource(Integer.valueOf(resource[0]));
|
||||
} else {
|
||||
res = Resources.createResource(Integer.valueOf(resource[0]),
|
||||
Integer.valueOf(resource[1]));
|
||||
}
|
||||
return res;
|
||||
}
|
||||
|
||||
/**
|
||||
* Format is:
|
||||
* <pre>
|
||||
|
@ -1120,23 +1197,22 @@ public class TestProportionalCapacityPreemptionPolicyForNodePartitions {
|
|||
// Add a small epsilon to capacities to avoid truncate when doing
|
||||
// Resources.multiply
|
||||
float epsilon = 1e-6f;
|
||||
float absGuaranteed =
|
||||
Integer.valueOf(values[0].trim())
|
||||
/ (float) (partitionToResource.get(partitionName).getMemory())
|
||||
Resource totResoucePerPartition = partitionToResource.get(partitionName);
|
||||
float absGuaranteed = Resources.divide(rc, totResoucePerPartition,
|
||||
parseResourceFromString(values[0].trim()), totResoucePerPartition)
|
||||
+ epsilon;
|
||||
float absMax =
|
||||
Integer.valueOf(values[1].trim())
|
||||
/ (float) (partitionToResource.get(partitionName).getMemory())
|
||||
float absMax = Resources.divide(rc, totResoucePerPartition,
|
||||
parseResourceFromString(values[1].trim()), totResoucePerPartition)
|
||||
+ epsilon;
|
||||
float absUsed =
|
||||
Integer.valueOf(values[2].trim())
|
||||
/ (float) (partitionToResource.get(partitionName).getMemory())
|
||||
float absUsed = Resources.divide(rc, totResoucePerPartition,
|
||||
parseResourceFromString(values[2].trim()), totResoucePerPartition)
|
||||
+ epsilon;
|
||||
Resource pending = Resources.createResource(Integer.valueOf(values[3].trim()));
|
||||
Resource pending = parseResourceFromString(values[3].trim());
|
||||
qc.setAbsoluteCapacity(partitionName, absGuaranteed);
|
||||
qc.setAbsoluteMaximumCapacity(partitionName, absMax);
|
||||
qc.setAbsoluteUsedCapacity(partitionName, absUsed);
|
||||
ru.setPending(partitionName, pending);
|
||||
ru.setUsed(partitionName, parseResourceFromString(values[2].trim()));
|
||||
LOG.debug("Setup queue=" + queueName + " partition=" + partitionName
|
||||
+ " [abs_guaranteed=" + absGuaranteed + ",abs_max=" + absMax
|
||||
+ ",abs_used" + absUsed + ",pending_resource=" + pending + "]");
|
||||
|
|
Loading…
Reference in New Issue