YARN-11702: Fix Yarn over allocating containers (#6990) Contributed by Syed Shameerur Rahman.
Reviewed-by: Akira Ajisaka <aajisaka@apache.org> Signed-off-by: Shilun Fan <slfan1989@apache.org>
This commit is contained in:
parent
e602c601dd
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21ec686be3
@ -1537,6 +1537,17 @@ public static boolean isAclEnabled(Configuration conf) {
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public static final int DEFAULT_RM_MAX_LOG_AGGREGATION_DIAGNOSTICS_IN_MEMORY =
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10;
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/**
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* The configuration key for enabling or disabling the auto-correction of container allocation.
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*/
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public static final String RM_SCHEDULER_AUTOCORRECT_CONTAINER_ALLOCATION = RM_PREFIX
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+ "scheduler.autocorrect.container.allocation";
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/**
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* Default value: {@value}.
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*/
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public static final boolean DEFAULT_RM_SCHEDULER_AUTOCORRECT_CONTAINER_ALLOCATION = false;
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/** Whether to enable log aggregation */
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public static final String LOG_AGGREGATION_ENABLED = YARN_PREFIX
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+ "log-aggregation-enable";
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@ -182,6 +182,21 @@
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<name>yarn.resourcemanager.principal</name>
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</property>
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<property>
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<description>
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This configuration key enables or disables the auto-correction of container allocation in
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YARN. Due to the asynchronous nature of container request and allocation, YARN may sometimes
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over-allocate more containers than requested. The auto-correction feature addresses this by
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automatically adjusting the number of requested containers based on those already allocated,
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preventing extra containers from being allocated.
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While the extra allocated containers will be released by the client within a few seconds,
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this may not be a concern in normal circumstances. However, if the user is worried about
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resource contention due to over-allocation, enabling this feature can help avoid such cases.
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</description>
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<name>yarn.resourcemanager.scheduler.autocorrect.container.allocation</name>
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<value>false</value>
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</property>
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<property>
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<description>The address of the scheduler interface.</description>
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<name>yarn.resourcemanager.scheduler.address</name>
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@ -22,8 +22,10 @@
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import java.util.ArrayList;
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import java.util.Arrays;
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import java.util.Collection;
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import java.util.Collections;
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import java.util.EnumSet;
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import java.util.HashMap;
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import java.util.List;
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import java.util.Map;
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import java.util.Set;
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@ -34,6 +36,10 @@
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import com.google.gson.Gson;
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import com.google.gson.reflect.TypeToken;
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import org.apache.commons.lang3.builder.EqualsBuilder;
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import org.apache.commons.lang3.builder.HashCodeBuilder;
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import org.apache.hadoop.yarn.server.resourcemanager.rmcontainer.RMContainerState;
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import org.apache.hadoop.yarn.server.resourcemanager.scheduler.capacity.CSQueue;
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import org.slf4j.Logger;
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import org.slf4j.LoggerFactory;
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@ -151,6 +157,7 @@ public abstract class AbstractYarnScheduler
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Thread updateThread;
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private final Object updateThreadMonitor = new Object();
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private Timer releaseCache;
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private boolean autoCorrectContainerAllocation;
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/*
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* All schedulers which are inheriting AbstractYarnScheduler should use
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@ -212,6 +219,9 @@ public void serviceInit(Configuration conf) throws Exception {
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conf.getLong(YarnConfiguration.RM_NM_HEARTBEAT_INTERVAL_MS,
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YarnConfiguration.DEFAULT_RM_NM_HEARTBEAT_INTERVAL_MS);
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skipNodeInterval = YarnConfiguration.getSkipNodeInterval(conf);
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autoCorrectContainerAllocation =
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conf.getBoolean(YarnConfiguration.RM_SCHEDULER_AUTOCORRECT_CONTAINER_ALLOCATION,
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YarnConfiguration.DEFAULT_RM_SCHEDULER_AUTOCORRECT_CONTAINER_ALLOCATION);
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long configuredMaximumAllocationWaitTime =
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conf.getLong(YarnConfiguration.RM_WORK_PRESERVING_RECOVERY_SCHEDULING_WAIT_MS,
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YarnConfiguration.DEFAULT_RM_WORK_PRESERVING_RECOVERY_SCHEDULING_WAIT_MS);
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@ -624,6 +634,106 @@ public void recoverContainersOnNode(List<NMContainerStatus> containerReports,
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}
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}
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/**
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* Autocorrect container resourceRequests by decrementing the number of newly allocated containers
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* from the current container request. This also updates the newlyAllocatedContainers to be within
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* the limits of the current container resourceRequests.
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* ResourceRequests locality/resourceName is not considered while autocorrecting the container
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* request, hence when there are two types of resourceRequest which is same except for the
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* locality/resourceName, it is counted as same {@link ContainerObjectType} and the container
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* ask and number of newly allocated container is decremented accordingly.
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* For example when a client requests for 4 containers with locality/resourceName
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* as "node1", AMRMClientaugments the resourceRequest into two
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* where R1(numContainer=4,locality=*) and R2(numContainer=4,locality=node1),
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* if Yarn allocated 6 containers previously, it will release 2 containers as well as
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* update the container ask to 0.
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*
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* If there is a client which directly calls Yarn (without AMRMClient) with
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* two where R1(numContainer=4,locality=*) and R2(numContainer=4,locality=node1)
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* the autocorrection may not work as expected. The use case of such client is very rare.
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*
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* <p>
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* This method is called from {@link AbstractYarnScheduler#allocate} method. It is package private
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* to be used within the scheduler package only.
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* @param resourceRequests List of resources to be allocated
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* @param application ApplicationAttempt
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*/
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@VisibleForTesting
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protected void autoCorrectContainerAllocation(List<ResourceRequest> resourceRequests,
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SchedulerApplicationAttempt application) {
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// if there is no resourceRequests for containers or no newly allocated container from
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// the previous request there is nothing to do.
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if (!autoCorrectContainerAllocation || resourceRequests.isEmpty() ||
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application.newlyAllocatedContainers.isEmpty()) {
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return;
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}
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// iterate newlyAllocatedContainers and form a mapping of container type
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// and number of its occurrence.
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Map<ContainerObjectType, List<RMContainer>> allocatedContainerMap = new HashMap<>();
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for (RMContainer rmContainer : application.newlyAllocatedContainers) {
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Container container = rmContainer.getContainer();
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ContainerObjectType containerObjectType = new ContainerObjectType(
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container.getAllocationRequestId(), container.getPriority(),
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container.getExecutionType(), container.getResource());
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allocatedContainerMap.computeIfAbsent(containerObjectType,
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k -> new ArrayList<>()).add(rmContainer);
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}
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Map<ContainerObjectType, Integer> extraContainerAllocatedMap = new HashMap<>();
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// iterate through resourceRequests and update the request by
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// decrementing the already allocated containers.
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for (ResourceRequest request : resourceRequests) {
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ContainerObjectType containerObjectType =
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new ContainerObjectType(request.getAllocationRequestId(),
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request.getPriority(), request.getExecutionTypeRequest().getExecutionType(),
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request.getCapability());
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int numContainerAllocated = allocatedContainerMap.getOrDefault(containerObjectType,
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Collections.emptyList()).size();
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if (numContainerAllocated > 0) {
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int numContainerAsk = request.getNumContainers();
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int updatedContainerRequest = numContainerAsk - numContainerAllocated;
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if (updatedContainerRequest < 0) {
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// add an entry to extra allocated map
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extraContainerAllocatedMap.put(containerObjectType, Math.abs(updatedContainerRequest));
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LOG.debug("{} container of the resource type: {} will be released",
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Math.abs(updatedContainerRequest), request);
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// if newlyAllocatedContainer count is more than the current container
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// resourceRequests, reset it to 0.
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updatedContainerRequest = 0;
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}
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// update the request
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LOG.debug("Updating container resourceRequests from {} to {} for the resource type: {}",
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numContainerAsk, updatedContainerRequest, request);
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request.setNumContainers(updatedContainerRequest);
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}
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}
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// Iterate over the entries in extraContainerAllocatedMap
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for (Map.Entry<ContainerObjectType, Integer> entry : extraContainerAllocatedMap.entrySet()) {
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ContainerObjectType containerObjectType = entry.getKey();
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int extraContainers = entry.getValue();
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// Get the list of allocated containers for the current ContainerObjectType
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List<RMContainer> allocatedContainers = allocatedContainerMap.get(containerObjectType);
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if (allocatedContainers != null) {
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for (RMContainer rmContainer : allocatedContainers) {
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if (extraContainers > 0) {
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// Change the state of the container from ALLOCATED to EXPIRED since it is not required.
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LOG.debug("Removing extra container:{}", rmContainer.getContainer());
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completedContainer(rmContainer, SchedulerUtils.createAbnormalContainerStatus(
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rmContainer.getContainerId(), SchedulerUtils.EXPIRED_CONTAINER),
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RMContainerEventType.EXPIRE);
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application.newlyAllocatedContainers.remove(rmContainer);
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extraContainers--;
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}
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}
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}
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}
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}
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private RMContainer recoverAndCreateContainer(NMContainerStatus status,
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RMNode node, String queueName) {
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Container container =
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@ -658,6 +768,14 @@ private void recoverResourceRequestForContainer(RMContainer rmContainer) {
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return;
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}
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// when auto correct container allocation is enabled, there can be a case when extra containers
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// go to expired state from allocated state. When such scenario happens do not re-attempt the
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// container request since this is expected.
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if (autoCorrectContainerAllocation &&
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RMContainerState.EXPIRED.equals(rmContainer.getState())) {
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return;
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}
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// Add resource request back to Scheduler ApplicationAttempt.
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// We lookup the application-attempt here again using
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@ -1678,4 +1796,77 @@ private List<ApplicationAttemptId> getAppsFromQueue(String queueName)
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}
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return apps;
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}
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/**
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* ContainerObjectType is a container object with the following properties.
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* Namely allocationId, priority, executionType and resourceType.
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*/
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protected class ContainerObjectType extends Object {
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private final long allocationId;
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private final Priority priority;
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private final ExecutionType executionType;
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private final Resource resource;
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public ContainerObjectType(long allocationId, Priority priority,
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ExecutionType executionType, Resource resource) {
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this.allocationId = allocationId;
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this.priority = priority;
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this.executionType = executionType;
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this.resource = resource;
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}
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public long getAllocationId() {
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return allocationId;
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}
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public Priority getPriority() {
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return priority;
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}
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public ExecutionType getExecutionType() {
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return executionType;
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}
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public Resource getResource() {
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return resource;
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}
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@Override
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public int hashCode() {
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return new HashCodeBuilder(17, 37)
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.append(allocationId)
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.append(priority)
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.append(executionType)
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.append(resource)
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.toHashCode();
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}
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@Override
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public boolean equals(Object obj) {
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if (obj == null) {
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return false;
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}
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if (obj.getClass() != this.getClass()) {
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return false;
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}
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ContainerObjectType other = (ContainerObjectType) obj;
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return new EqualsBuilder()
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.append(allocationId, other.getAllocationId())
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.append(priority, other.getPriority())
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.append(executionType, other.getExecutionType())
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.append(resource, other.getResource())
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.isEquals();
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}
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@Override
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public String toString() {
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return "{ContainerObjectType: "
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+ ", Priority: " + getPriority()
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+ ", Allocation Id: " + getAllocationId()
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+ ", Execution Type: " + getExecutionType()
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+ ", Resource: " + getResource()
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+ "}";
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}
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}
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}
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@ -862,7 +862,8 @@ protected synchronized void addToUpdateContainerErrors(
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updateContainerErrors.add(error);
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}
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protected synchronized void addToNewlyAllocatedContainers(
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@VisibleForTesting
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public synchronized void addToNewlyAllocatedContainers(
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SchedulerNode node, RMContainer rmContainer) {
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ContainerId matchedContainerId =
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getUpdateContext().matchContainerToOutstandingIncreaseReq(
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@ -1363,6 +1363,10 @@ public Allocation allocate(ApplicationAttemptId applicationAttemptId,
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application.showRequests();
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}
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// update the current container ask by considering the already allocated
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// containers from previous allocation request and return updatedNewlyAllocatedContainers.
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autoCorrectContainerAllocation(ask, application);
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// Update application requests
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if (application.updateResourceRequests(ask) || application
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.updateSchedulingRequests(schedulingRequests)) {
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@ -943,6 +943,11 @@ public Allocation allocate(ApplicationAttemptId appAttemptId,
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}
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application.showRequests();
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// update the current container ask by considering the already allocated containers
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// from previous allocation request as well as populate the updatedNewlyAllocatedContainers
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// list according the to the current ask.
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autoCorrectContainerAllocation(ask, application);
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// Update application requests
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application.updateResourceRequests(ask);
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@ -19,6 +19,7 @@
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package org.apache.hadoop.yarn.server.resourcemanager.scheduler;
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import static org.apache.hadoop.yarn.server.resourcemanager.MockNM.createMockNodeStatus;
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import static org.apache.hadoop.yarn.server.resourcemanager.scheduler.capacity.TestUtils.createResourceRequest;
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import static org.junit.Assert.assertEquals;
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import static org.mockito.Mockito.mock;
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import static org.mockito.Mockito.when;
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@ -65,17 +66,24 @@
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import org.apache.hadoop.yarn.server.resourcemanager.ResourceManager;
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import org.apache.hadoop.yarn.server.resourcemanager.ResourceTrackerService;
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import org.apache.hadoop.yarn.server.resourcemanager.nodelabels.RMNodeLabelsManager;
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import org.apache.hadoop.yarn.server.resourcemanager.placement.ApplicationPlacementContext;
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import org.apache.hadoop.yarn.server.resourcemanager.recovery.MemoryRMStateStore;
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import org.apache.hadoop.yarn.server.resourcemanager.rmapp.MockRMApp;
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import org.apache.hadoop.yarn.server.resourcemanager.rmapp.RMApp;
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import org.apache.hadoop.yarn.server.resourcemanager.rmapp.RMAppImpl;
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import org.apache.hadoop.yarn.server.resourcemanager.rmapp.RMAppState;
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import org.apache.hadoop.yarn.server.resourcemanager.rmapp.attempt.RMAppAttempt;
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import org.apache.hadoop.yarn.server.resourcemanager.rmapp.attempt.RMAppAttemptImpl;
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import org.apache.hadoop.yarn.server.resourcemanager.rmapp.attempt.RMAppAttemptMetrics;
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import org.apache.hadoop.yarn.server.resourcemanager.rmcontainer.RMContainer;
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import org.apache.hadoop.yarn.server.resourcemanager.rmcontainer.RMContainerImpl;
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import org.apache.hadoop.yarn.server.resourcemanager.rmcontainer.RMContainerState;
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import org.apache.hadoop.yarn.server.resourcemanager.rmnode.RMNode;
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import org.apache.hadoop.yarn.server.resourcemanager.rmnode.RMNodeEventType;
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import org.apache.hadoop.yarn.server.resourcemanager.scheduler.capacity.CapacityScheduler;
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import org.apache.hadoop.yarn.server.resourcemanager.scheduler.common.fica.FiCaSchedulerApp;
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import org.apache.hadoop.yarn.server.resourcemanager.scheduler.event.AppAddedSchedulerEvent;
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import org.apache.hadoop.yarn.server.resourcemanager.scheduler.event.AppAttemptAddedSchedulerEvent;
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import org.apache.hadoop.yarn.server.resourcemanager.scheduler.event.NodeAddedSchedulerEvent;
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import org.apache.hadoop.yarn.server.resourcemanager.scheduler.event.NodeRemovedSchedulerEvent;
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import org.apache.hadoop.yarn.server.resourcemanager.scheduler.event.SchedulerEvent;
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@ -83,6 +91,7 @@
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import org.apache.hadoop.yarn.server.resourcemanager.security.NMTokenSecretManagerInRM;
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import org.apache.hadoop.yarn.server.resourcemanager.security.RMContainerTokenSecretManager;
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import org.apache.hadoop.yarn.server.scheduler.SchedulerRequestKey;
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import org.apache.hadoop.yarn.server.utils.BuilderUtils;
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import org.apache.hadoop.yarn.util.resource.Resources;
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import org.junit.Assert;
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@ -268,6 +277,352 @@ private void testMaximumAllocationVCoresHelper(
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Assert.assertEquals(0, scheduler.getNumClusterNodes());
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}
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/**
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* Test for testing autocorrect container allocation feature.
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*/
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@Test
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public void testAutoCorrectContainerAllocation() {
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Configuration conf = new Configuration(getConf());
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conf.setBoolean(YarnConfiguration.RM_SCHEDULER_AUTOCORRECT_CONTAINER_ALLOCATION, true);
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conf.setBoolean("yarn.scheduler.capacity.root.auto-create-child-queue.enabled",
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true);
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MockRM rm = new MockRM(conf);
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rm.start();
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AbstractYarnScheduler scheduler = (AbstractYarnScheduler) rm.getResourceScheduler();
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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 * 1024), 1, host);
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scheduler.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 appAttemptId = BuilderUtils.newApplicationAttemptId(
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appId1, 1);
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RMAppAttemptMetrics attemptMetric1 =
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new RMAppAttemptMetrics(appAttemptId, 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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Container container = mock(Container.class);
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when(attempt1.getMasterContainer()).thenReturn(container);
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ApplicationSubmissionContext submissionContext = mock(
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ApplicationSubmissionContext.class);
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when(attempt1.getSubmissionContext()).thenReturn(submissionContext);
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when(attempt1.getAppAttemptId()).thenReturn(appAttemptId);
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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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ApplicationPlacementContext apc = new ApplicationPlacementContext("user",
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"root");
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SchedulerEvent addAppEvent1 =
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new AppAddedSchedulerEvent(appId1, "user", "user", apc);
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scheduler.handle(addAppEvent1);
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SchedulerEvent addAttemptEvent1 =
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new AppAttemptAddedSchedulerEvent(appAttemptId, false);
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scheduler.handle(addAttemptEvent1);
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SchedulerApplicationAttempt application = scheduler.getApplicationAttempt(appAttemptId);
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SchedulerNode schedulerNode = scheduler.getSchedulerNode(node.getNodeID());
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Priority priority = Priority.newInstance(0);
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NodeId nodeId = NodeId.newInstance("foo.bar.org", 1234);
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// test different container ask and newly allocated container.
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testContainerAskAndNewlyAllocatedContainerZero(scheduler, application, priority);
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testContainerAskAndNewlyAllocatedContainerOne(scheduler, application, schedulerNode,
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nodeId, priority, app1.getCurrentAppAttempt().getAppAttemptId());
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testContainerAskZeroAndNewlyAllocatedContainerOne(scheduler, application, schedulerNode,
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nodeId, priority, app1.getCurrentAppAttempt().getAppAttemptId());
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testContainerAskFourAndNewlyAllocatedContainerEight(scheduler, application, schedulerNode,
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nodeId, priority, app1.getCurrentAppAttempt().getAppAttemptId());
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||||
testContainerAskFourAndNewlyAllocatedContainerSix(scheduler, application, schedulerNode,
|
||||
nodeId, priority, app1.getCurrentAppAttempt().getAppAttemptId());
|
||||
}
|
||||
|
||||
/**
|
||||
* Creates a mock instance of {@link RMContainer} with the specified parameters.
|
||||
*
|
||||
* @param containerId The ID of the container
|
||||
* @param nodeId The NodeId of the node where the container is allocated
|
||||
* @param appAttemptId The ApplicationAttemptId of the application attempt
|
||||
* @param allocationId The allocation ID of the container
|
||||
* @param memory The amount of memory (in MB) requested for the container
|
||||
* @param priority The priority of the container request
|
||||
* @param executionType The execution type of the container request
|
||||
* @return A mock instance of RMContainer with the specified parameters
|
||||
*/
|
||||
private RMContainer createMockRMContainer(int containerId, NodeId nodeId,
|
||||
ApplicationAttemptId appAttemptId, long allocationId, int memory,
|
||||
Priority priority, ExecutionType executionType) {
|
||||
// Create a mock instance of Container
|
||||
Container container = mock(Container.class);
|
||||
|
||||
// Mock the Container instance with the specified parameters
|
||||
when(container.getResource()).thenReturn(Resource.newInstance(memory, 1));
|
||||
when(container.getPriority()).thenReturn(priority);
|
||||
when(container.getId()).thenReturn(ContainerId.newContainerId(appAttemptId, containerId));
|
||||
when(container.getNodeId()).thenReturn(nodeId);
|
||||
when(container.getAllocationRequestId()).thenReturn(allocationId);
|
||||
when(container.getExecutionType()).thenReturn(executionType);
|
||||
when(container.getContainerToken()).thenReturn(Token.newInstance(new byte[0], "kind",
|
||||
new byte[0], "service"));
|
||||
|
||||
// Create a mock instance of RMContainerImpl
|
||||
RMContainer rmContainer = mock(RMContainerImpl.class);
|
||||
|
||||
// Set up the behavior of the mock RMContainer
|
||||
when(rmContainer.getContainer()).thenReturn(container);
|
||||
when(rmContainer.getContainerId()).thenReturn(
|
||||
ContainerId.newContainerId(appAttemptId, containerId));
|
||||
|
||||
return rmContainer;
|
||||
}
|
||||
|
||||
/**
|
||||
* Tests the behavior when the container ask is 1 and there are no newly allocated containers.
|
||||
*
|
||||
* @param scheduler The AbstractYarnScheduler instance to test.
|
||||
* @param application The SchedulerApplicationAttempt instance representing the application.
|
||||
* @param priority The priority of the resource request.
|
||||
*/
|
||||
private void testContainerAskAndNewlyAllocatedContainerZero(AbstractYarnScheduler scheduler,
|
||||
SchedulerApplicationAttempt application, Priority priority) {
|
||||
// Create a resource request with 1 container, 1024 MB memory, and GUARANTEED execution type
|
||||
ResourceRequest resourceRequest = createResourceRequest(1024, 1, 1,
|
||||
priority, 0,
|
||||
ExecutionTypeRequest.newInstance(ExecutionType.GUARANTEED), ResourceRequest.ANY);
|
||||
|
||||
// Create a list with the resource request
|
||||
List<ResourceRequest> containerAsk = new ArrayList<>();
|
||||
containerAsk.add(resourceRequest);
|
||||
|
||||
// Call the autoCorrectContainerAllocation method
|
||||
scheduler.autoCorrectContainerAllocation(containerAsk, application);
|
||||
|
||||
// Assert that the container ask remains unchanged (1 container)
|
||||
assertEquals(1, containerAsk.get(0).getNumContainers());
|
||||
|
||||
// Assert that there are no newly allocated containers
|
||||
assertEquals(0, application.pullNewlyAllocatedContainers().size());
|
||||
}
|
||||
|
||||
/**
|
||||
* Tests the behavior when the container ask is 1 and there is one newly allocated container.
|
||||
*
|
||||
* @param scheduler The AbstractYarnScheduler instance to test
|
||||
* @param application The SchedulerApplicationAttempt instance representing the application
|
||||
* @param schedulerNode The SchedulerNode instance representing the node
|
||||
* @param nodeId The NodeId of the node
|
||||
* @param priority The priority of the resource request
|
||||
* @param appAttemptId The ApplicationAttemptId of the application attempt
|
||||
*/
|
||||
private void testContainerAskAndNewlyAllocatedContainerOne(AbstractYarnScheduler scheduler,
|
||||
SchedulerApplicationAttempt application,
|
||||
SchedulerNode schedulerNode, NodeId nodeId,
|
||||
Priority priority, ApplicationAttemptId appAttemptId) {
|
||||
// Create a resource request with 1 container, 1024 MB memory, and GUARANTEED execution type
|
||||
ResourceRequest resourceRequest = createResourceRequest(1024, 1, 1,
|
||||
priority, 0L, ExecutionTypeRequest.newInstance(ExecutionType.GUARANTEED),
|
||||
ResourceRequest.ANY);
|
||||
List<ResourceRequest> containerAsk = new ArrayList<>();
|
||||
containerAsk.add(resourceRequest);
|
||||
|
||||
// Create an RMContainer with the specified parameters
|
||||
RMContainer rmContainer = createMockRMContainer(1, nodeId, appAttemptId,
|
||||
0L, 1024, priority, ExecutionType.GUARANTEED);
|
||||
|
||||
// Add the RMContainer to the newly allocated containers of the application
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer);
|
||||
|
||||
// Call the autoCorrectContainerAllocation method
|
||||
scheduler.autoCorrectContainerAllocation(containerAsk, application);
|
||||
|
||||
// Assert that the container ask is updated to 0
|
||||
assertEquals(0, containerAsk.get(0).getNumContainers());
|
||||
|
||||
// Assert that there is one newly allocated container
|
||||
assertEquals(1, application.pullNewlyAllocatedContainers().size());
|
||||
}
|
||||
|
||||
/**
|
||||
* Tests the behavior when the container ask is 0 and there is one newly allocated container.
|
||||
*
|
||||
* @param scheduler The AbstractYarnScheduler instance to test
|
||||
* @param application The SchedulerApplicationAttempt instance representing the application
|
||||
* @param schedulerNode The SchedulerNode instance representing the node
|
||||
* @param nodeId The NodeId of the node
|
||||
* @param priority The priority of the resource request
|
||||
* @param appAttemptId The ApplicationAttemptId of the application attempt
|
||||
*/
|
||||
private void testContainerAskZeroAndNewlyAllocatedContainerOne(AbstractYarnScheduler scheduler,
|
||||
SchedulerApplicationAttempt application, SchedulerNode schedulerNode, NodeId nodeId,
|
||||
Priority priority, ApplicationAttemptId appAttemptId) {
|
||||
// Create a resource request with 0 containers, 1024 MB memory, and GUARANTEED execution type
|
||||
ResourceRequest resourceRequest = createResourceRequest(1024, 1,
|
||||
0, priority, 0L,
|
||||
ExecutionTypeRequest.newInstance(ExecutionType.GUARANTEED), ResourceRequest.ANY);
|
||||
List<ResourceRequest> containerAsk = new ArrayList<>();
|
||||
containerAsk.add(resourceRequest);
|
||||
|
||||
// Create an RMContainer with the specified parameters
|
||||
RMContainer rmContainer1 = createMockRMContainer(1, nodeId, appAttemptId,
|
||||
0L, 1024, priority, ExecutionType.GUARANTEED);
|
||||
|
||||
// Add the RMContainer to the newly allocated containers of the application
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer1);
|
||||
|
||||
// Call the autoCorrectContainerAllocation method
|
||||
scheduler.autoCorrectContainerAllocation(containerAsk, application);
|
||||
|
||||
// Assert that the container ask remains 0
|
||||
assertEquals(0, resourceRequest.getNumContainers());
|
||||
|
||||
// Assert that there are no newly allocated containers
|
||||
assertEquals(0, application.pullNewlyAllocatedContainers().size());
|
||||
}
|
||||
|
||||
/**
|
||||
* Tests the behavior when the container ask consists of four unique resource requests
|
||||
* and there are eight newly allocated containers (two containers for each resource request type).
|
||||
*
|
||||
* @param scheduler The AbstractYarnScheduler instance to test
|
||||
* @param application The SchedulerApplicationAttempt instance representing the application
|
||||
* @param schedulerNode The SchedulerNode instance representing the node
|
||||
* @param nodeId The NodeId of the node
|
||||
* @param priority The priority of the resource requests
|
||||
* @param appAttemptId The ApplicationAttemptId of the application attempt
|
||||
*/
|
||||
private void testContainerAskFourAndNewlyAllocatedContainerEight(AbstractYarnScheduler scheduler,
|
||||
SchedulerApplicationAttempt application, SchedulerNode schedulerNode,
|
||||
NodeId nodeId, Priority priority, ApplicationAttemptId appAttemptId) {
|
||||
// Create four unique resource requests
|
||||
ResourceRequest resourceRequest1 = createResourceRequest(1024, 1, 1,
|
||||
priority, 0L,
|
||||
ExecutionTypeRequest.newInstance(ExecutionType.GUARANTEED), ResourceRequest.ANY);
|
||||
ResourceRequest resourceRequest2 = createResourceRequest(2048, 1, 1,
|
||||
priority, 0L,
|
||||
ExecutionTypeRequest.newInstance(ExecutionType.GUARANTEED), ResourceRequest.ANY);
|
||||
ResourceRequest resourceRequest3 = createResourceRequest(1024, 1, 1,
|
||||
priority, 1L,
|
||||
ExecutionTypeRequest.newInstance(ExecutionType.GUARANTEED), ResourceRequest.ANY);
|
||||
ResourceRequest resourceRequest4 = createResourceRequest(1024, 1, 1,
|
||||
priority, 0L,
|
||||
ExecutionTypeRequest.newInstance(ExecutionType.OPPORTUNISTIC), ResourceRequest.ANY);
|
||||
|
||||
// Add the resource requests to a list
|
||||
List<ResourceRequest> ask4 = new ArrayList<>();
|
||||
ask4.add(resourceRequest1);
|
||||
ask4.add(resourceRequest2);
|
||||
ask4.add(resourceRequest3);
|
||||
ask4.add(resourceRequest4);
|
||||
|
||||
// Create eight RMContainers (two for each resource request type)
|
||||
RMContainer rmContainer1 = createMockRMContainer(1, nodeId, appAttemptId,
|
||||
0L, 1024, priority, ExecutionType.GUARANTEED);
|
||||
RMContainer rmContainer2 = createMockRMContainer(2, nodeId, appAttemptId,
|
||||
0L, 1024, priority, ExecutionType.GUARANTEED);
|
||||
RMContainer rmContainer3 = createMockRMContainer(3, nodeId, appAttemptId,
|
||||
0L, 2048, priority, ExecutionType.GUARANTEED);
|
||||
RMContainer rmContainer4 = createMockRMContainer(4, nodeId, appAttemptId,
|
||||
0L, 2048, priority, ExecutionType.GUARANTEED);
|
||||
RMContainer rmContainer5 = createMockRMContainer(5, nodeId, appAttemptId,
|
||||
1L, 1024, priority, ExecutionType.GUARANTEED);
|
||||
RMContainer rmContainer6 = createMockRMContainer(6, nodeId, appAttemptId,
|
||||
1L, 1024, priority, ExecutionType.GUARANTEED);
|
||||
RMContainer rmContainer7 = createMockRMContainer(7, nodeId, appAttemptId,
|
||||
0L, 1024, priority, ExecutionType.OPPORTUNISTIC);
|
||||
RMContainer rmContainer8 = createMockRMContainer(8, nodeId, appAttemptId,
|
||||
0L, 1024, priority, ExecutionType.OPPORTUNISTIC);
|
||||
|
||||
// Add the RMContainers to the newly allocated containers of the application
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer1);
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer2);
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer3);
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer4);
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer5);
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer6);
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer7);
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer8);
|
||||
|
||||
// Call the autoCorrectContainerAllocation method
|
||||
scheduler.autoCorrectContainerAllocation(ask4, application);
|
||||
|
||||
// Assert that all resource requests have 0 containers
|
||||
for (ResourceRequest rr : ask4) {
|
||||
assertEquals(0, rr.getNumContainers());
|
||||
}
|
||||
|
||||
// Assert that there are four newly allocated containers
|
||||
assertEquals(4, application.pullNewlyAllocatedContainers().size());
|
||||
}
|
||||
|
||||
/**
|
||||
* Tests the behavior when the container ask consists of two resource requests.
|
||||
* i.e one for any host and one for a specific host ,
|
||||
* each requesting four containers, and there are six newly allocated containers.
|
||||
*
|
||||
* @param scheduler The AbstractYarnScheduler instance to test
|
||||
* @param application The SchedulerApplicationAttempt instance representing the application
|
||||
* @param schedulerNode The SchedulerNode instance representing the node
|
||||
* @param nodeId The NodeId of the node
|
||||
* @param priority The priority of the resource requests
|
||||
* @param appAttemptId The ApplicationAttemptId of the application attempt
|
||||
*/
|
||||
private void testContainerAskFourAndNewlyAllocatedContainerSix(AbstractYarnScheduler scheduler,
|
||||
SchedulerApplicationAttempt application, SchedulerNode schedulerNode,
|
||||
NodeId nodeId, Priority priority, ApplicationAttemptId appAttemptId) {
|
||||
// Create a resource request for any host, requesting 4 containers
|
||||
ResourceRequest resourceRequest1 = createResourceRequest(1024, 1, 4,
|
||||
priority, 0L,
|
||||
ExecutionTypeRequest.newInstance(ExecutionType.GUARANTEED), ResourceRequest.ANY);
|
||||
|
||||
// Create a resource request for a specific host, requesting 4 containers
|
||||
ResourceRequest resourceRequest2 = createResourceRequest(1024, 1, 4,
|
||||
priority, 0L,
|
||||
ExecutionTypeRequest.newInstance(ExecutionType.GUARANTEED), nodeId.getHost());
|
||||
|
||||
// Add the resource requests to a list
|
||||
List<ResourceRequest> containerAsk = new ArrayList<>();
|
||||
containerAsk.add(resourceRequest1);
|
||||
containerAsk.add(resourceRequest2);
|
||||
|
||||
// Create six RMContainers with the specified parameters
|
||||
RMContainer rmContainer1 = createMockRMContainer(1, nodeId, appAttemptId,
|
||||
0L, 1024, priority, ExecutionType.GUARANTEED);
|
||||
RMContainer rmContainer2 = createMockRMContainer(2, nodeId, appAttemptId,
|
||||
0L, 1024, priority, ExecutionType.GUARANTEED);
|
||||
RMContainer rmContainer3 = createMockRMContainer(3, nodeId, appAttemptId,
|
||||
0L, 1024, priority, ExecutionType.GUARANTEED);
|
||||
RMContainer rmContainer4 = createMockRMContainer(4, nodeId, appAttemptId,
|
||||
0L, 1024, priority, ExecutionType.GUARANTEED);
|
||||
RMContainer rmContainer5 = createMockRMContainer(5, nodeId, appAttemptId,
|
||||
0L, 1024, priority, ExecutionType.GUARANTEED);
|
||||
RMContainer rmContainer6 = createMockRMContainer(6, nodeId, appAttemptId,
|
||||
0L, 1024, priority, ExecutionType.GUARANTEED);
|
||||
|
||||
// Add the RMContainers to the newly allocated containers of the application
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer1);
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer2);
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer3);
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer4);
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer5);
|
||||
application.addToNewlyAllocatedContainers(schedulerNode, rmContainer6);
|
||||
|
||||
// Call the autoCorrectContainerAllocation method
|
||||
scheduler.autoCorrectContainerAllocation(containerAsk, application);
|
||||
|
||||
// Assert that all resource requests have 0 containers
|
||||
for (ResourceRequest resourceRequest : containerAsk) {
|
||||
assertEquals(0, resourceRequest.getNumContainers());
|
||||
}
|
||||
|
||||
// Assert that there are four newly allocated containers
|
||||
assertEquals(4, application.pullNewlyAllocatedContainers().size());
|
||||
}
|
||||
|
||||
@Test
|
||||
public void testUpdateMaxAllocationUsesTotal() throws IOException {
|
||||
final int configuredMaxVCores = 20;
|
||||
|
@ -196,6 +196,20 @@ public static ResourceRequest createResourceRequest(String resourceName,
|
||||
return request;
|
||||
}
|
||||
|
||||
public static ResourceRequest createResourceRequest(int memory, int vcores, int numContainers,
|
||||
Priority priority, long allocationId, ExecutionTypeRequest type, String resourceName) {
|
||||
ResourceRequest request =
|
||||
recordFactory.newRecordInstance(ResourceRequest.class);
|
||||
Resource capability = Resources.createResource(memory, vcores);
|
||||
request.setNumContainers(numContainers);
|
||||
request.setCapability(capability);
|
||||
request.setPriority(priority);
|
||||
request.setAllocationRequestId(allocationId);
|
||||
request.setExecutionTypeRequest(type);
|
||||
request.setResourceName(resourceName);
|
||||
return request;
|
||||
}
|
||||
|
||||
public static ResourceRequest createResourceRequest(
|
||||
String resourceName, int memory, int numContainers, boolean relaxLocality,
|
||||
Priority priority,
|
||||
|
Loading…
Reference in New Issue
Block a user