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<a href="../../hadoop-project-dist/hadoop-hdfs/SLGUserGuide.html">Synthetic Load Generator</a>
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<a href="../../hadoop-project-dist/hadoop-hdfs/HdfsProvidedStorage.html">Provided Storage</a>
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<h5>MapReduce</h5>
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<a href="../../hadoop-mapreduce-client/hadoop-mapreduce-client-core/MapReduceTutorial.html">Tutorial</a>
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<a href="../../hadoop-mapreduce-client/hadoop-mapreduce-client-core/MapredCommands.html">Commands Reference</a>
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<a href="../../hadoop-mapreduce-client/hadoop-mapreduce-client-core/MapReduce_Compatibility_Hadoop1_Hadoop2.html">Compatibility with 1.x</a>
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<a href="../../hadoop-mapreduce-client/hadoop-mapreduce-client-core/EncryptedShuffle.html">Encrypted Shuffle</a>
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<a href="../../hadoop-mapreduce-client/hadoop-mapreduce-client-core/PluggableShuffleAndPluggableSort.html">Pluggable Shuffle/Sort</a>
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<a href="../../hadoop-mapreduce-client/hadoop-mapreduce-client-core/DistributedCacheDeploy.html">Distributed Cache Deploy</a>
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<a href="../../hadoop-mapreduce-client/hadoop-mapreduce-client-core/SharedCacheSupport.html">Support for YARN Shared Cache</a>
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</ul>
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<h5>MapReduce REST APIs</h5>
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<ul>
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<a href="../../hadoop-mapreduce-client/hadoop-mapreduce-client-core/MapredAppMasterRest.html">MR Application Master</a>
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<a href="../../hadoop-mapreduce-client/hadoop-mapreduce-client-hs/HistoryServerRest.html">MR History Server</a>
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<h5>YARN</h5>
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<ul>
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<a href="../../hadoop-yarn/hadoop-yarn-site/YARN.html">Architecture</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/YarnCommands.html">Commands Reference</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/CapacityScheduler.html">Capacity Scheduler</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/FairScheduler.html">Fair Scheduler</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/ResourceManagerRestart.html">ResourceManager Restart</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/ResourceManagerHA.html">ResourceManager HA</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/ResourceModel.html">Resource Model</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/NodeLabel.html">Node Labels</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/NodeAttributes.html">Node Attributes</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/WebApplicationProxy.html">Web Application Proxy</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/TimelineServer.html">Timeline Server</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/TimelineServiceV2.html">Timeline Service V.2</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/WritingYarnApplications.html">Writing YARN Applications</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/YarnApplicationSecurity.html">YARN Application Security</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/NodeManager.html">NodeManager</a>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/DockerContainers.html">Running Applications in Docker Containers</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/RuncContainers.html">Running Applications in runC Containers</a>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/NodeManagerCgroups.html">Using CGroups</a>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/SecureContainer.html">Secure Containers</a>
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</li>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/ReservationSystem.html">Reservation System</a>
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<a href="../../hadoop-yarn/hadoop-yarn-site/GracefulDecommission.html">Graceful Decommission</a>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/OpportunisticContainers.html">Opportunistic Containers</a>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/Federation.html">YARN Federation</a>
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</li>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/SharedCache.html">Shared Cache</a>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/UsingGpus.html">Using GPU</a>
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</li>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/UsingFPGA.html">Using FPGA</a>
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</li>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/PlacementConstraints.html">Placement Constraints</a>
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</li>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/YarnUI2.html">YARN UI2</a>
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</li>
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</ul>
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<h5>YARN REST APIs</h5>
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<ul>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/WebServicesIntro.html">Introduction</a>
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</li>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/ResourceManagerRest.html">Resource Manager</a>
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</li>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/NodeManagerRest.html">Node Manager</a>
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</li>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/TimelineServer.html#Timeline_Server_REST_API_v1">Timeline Server</a>
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</li>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/TimelineServiceV2.html#Timeline_Service_v.2_REST_API">Timeline Service V.2</a>
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</li>
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</ul>
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<h5>YARN Service</h5>
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<ul>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/yarn-service/Overview.html">Overview</a>
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</li>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/yarn-service/QuickStart.html">QuickStart</a>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/yarn-service/Concepts.html">Concepts</a>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/yarn-service/YarnServiceAPI.html">Yarn Service API</a>
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</li>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/yarn-service/ServiceDiscovery.html">Service Discovery</a>
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</li>
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<li class="none">
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<a href="../../hadoop-yarn/hadoop-yarn-site/yarn-service/SystemServices.html">System Services</a>
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</li>
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</ul>
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<h5>Hadoop Compatible File Systems</h5>
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<ul>
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<li class="none">
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<a href="../../hadoop-aliyun/tools/hadoop-aliyun/index.html">Aliyun OSS</a>
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</li>
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<li class="none">
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<a href="../../hadoop-aws/tools/hadoop-aws/index.html">Amazon S3</a>
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</li>
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<li class="none">
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<a href="../../hadoop-azure/index.html">Azure Blob Storage</a>
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</li>
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<li class="none">
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<a href="../../hadoop-azure-datalake/index.html">Azure Data Lake Storage</a>
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</li>
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<li class="none">
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<a href="../../hadoop-cos/cloud-storage/index.html">Tencent COS</a>
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</li>
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<li class="none">
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<a href="../../hadoop-huaweicloud/cloud-storage/index.html">Huaweicloud OBS</a>
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</li>
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</ul>
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<!---
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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Unless required by applicable law or agreed to in writing, software
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See the License for the specific language governing permissions and
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limitations under the License. See accompanying LICENSE file.
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<h1>HDFS High Availability Using the Quorum Journal Manager</h1>
|
|
<ul>
|
|
<li><a href="#Purpose">Purpose</a></li>
|
|
<li><a href="#Note:_Using_the_Quorum_Journal_Manager_or_Conventional_Shared_Storage">Note: Using the Quorum Journal Manager or Conventional Shared Storage</a></li>
|
|
<li><a href="#Background">Background</a></li>
|
|
<li><a href="#Architecture">Architecture</a></li>
|
|
<li><a href="#Hardware_resources">Hardware resources</a></li>
|
|
<li><a href="#Deployment">Deployment</a>
|
|
<ul>
|
|
<li><a href="#Configuration_overview">Configuration overview</a></li>
|
|
<li><a href="#Configuration_details">Configuration details</a></li>
|
|
<li><a href="#Deployment_details">Deployment details</a></li>
|
|
<li><a href="#Administrative_commands">Administrative commands</a></li>
|
|
<li><a href="#Load_Balancer_Setup">Load Balancer Setup</a></li>
|
|
<li><a href="#In-Progress_Edit_Log_Tailing">In-Progress Edit Log Tailing</a></li></ul></li>
|
|
<li><a href="#Automatic_Failover">Automatic Failover</a>
|
|
<ul>
|
|
<li><a href="#Introduction">Introduction</a></li>
|
|
<li><a href="#Components">Components</a></li>
|
|
<li><a href="#Deploying_ZooKeeper">Deploying ZooKeeper</a></li>
|
|
<li><a href="#Before_you_begin">Before you begin</a></li>
|
|
<li><a href="#Configuring_automatic_failover">Configuring automatic failover</a></li>
|
|
<li><a href="#Initializing_HA_state_in_ZooKeeper">Initializing HA state in ZooKeeper</a></li>
|
|
<li><a href="#Starting_the_cluster_with_start-dfs.sh">Starting the cluster with start-dfs.sh</a></li>
|
|
<li><a href="#Starting_the_cluster_manually">Starting the cluster manually</a></li>
|
|
<li><a href="#Securing_access_to_ZooKeeper">Securing access to ZooKeeper</a></li>
|
|
<li><a href="#Verifying_automatic_failover">Verifying automatic failover</a></li></ul></li>
|
|
<li><a href="#Automatic_Failover_FAQ">Automatic Failover FAQ</a></li>
|
|
<li><a href="#HDFS_Upgrade.2FFinalization.2FRollback_with_HA_Enabled">HDFS Upgrade/Finalization/Rollback with HA Enabled</a></li></ul>
|
|
<section>
|
|
<h2><a name="Purpose"></a>Purpose</h2>
|
|
<p>This guide provides an overview of the HDFS High Availability (HA) feature and how to configure and manage an HA HDFS cluster, using the Quorum Journal Manager (QJM) feature.</p>
|
|
<p>This document assumes that the reader has a general understanding of general components and node types in an HDFS cluster. Please refer to the HDFS Architecture guide for details.</p></section><section>
|
|
<h2><a name="Note:_Using_the_Quorum_Journal_Manager_or_Conventional_Shared_Storage"></a>Note: Using the Quorum Journal Manager or Conventional Shared Storage</h2>
|
|
<p>This guide discusses how to configure and use HDFS HA using the Quorum Journal Manager (QJM) to share edit logs between the Active and Standby NameNodes. For information on how to configure HDFS HA using NFS for shared storage instead of the QJM, please see <a href="./HDFSHighAvailabilityWithNFS.html">this alternative guide.</a>. For information on how to configure HDFS HA with Observer NameNode, please see <a href="./ObserverNameNode.html">this guide</a></p></section><section>
|
|
<h2><a name="Background"></a>Background</h2>
|
|
<p>Prior to Hadoop 2.0.0, the NameNode was a single point of failure (SPOF) in an HDFS cluster. Each cluster had a single NameNode, and if that machine or process became unavailable, the cluster as a whole would be unavailable until the NameNode was either restarted or brought up on a separate machine.</p>
|
|
<p>This impacted the total availability of the HDFS cluster in two major ways:</p>
|
|
<ul>
|
|
|
|
<li>
|
|
|
|
<p>In the case of an unplanned event such as a machine crash, the cluster would be unavailable until an operator restarted the NameNode.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p>Planned maintenance events such as software or hardware upgrades on the NameNode machine would result in windows of cluster downtime.</p>
|
|
</li>
|
|
</ul>
|
|
<p>The HDFS High Availability feature addresses the above problems by providing the option of running two (and as of 3.0.0 more than two) redundant NameNodes in the same cluster in an Active/Passive configuration with a hot standby. This allows a fast failover to a new NameNode in the case that a machine crashes, or a graceful administrator-initiated failover for the purpose of planned maintenance.</p></section><section>
|
|
<h2><a name="Architecture"></a>Architecture</h2>
|
|
<p>In a typical HA cluster, two or more separate machines are configured as NameNodes. At any point in time, exactly one of the NameNodes is in an <i>Active</i> state, and the others are in a <i>Standby</i> state. The Active NameNode is responsible for all client operations in the cluster, while the Standbys are simply acting as workers, maintaining enough state to provide a fast failover if necessary.</p>
|
|
<p>In order for the Standby node to keep its state synchronized with the Active node, both nodes communicate with a group of separate daemons called “JournalNodes” (JNs). When any namespace modification is performed by the Active node, it durably logs a record of the modification to a majority of these JNs. The Standby node is capable of reading the edits from the JNs, and is constantly watching them for changes to the edit log. As the Standby Node sees the edits, it applies them to its own namespace. In the event of a failover, the Standby will ensure that it has read all of the edits from the JournalNodes before promoting itself to the Active state. This ensures that the namespace state is fully synchronized before a failover occurs.</p>
|
|
<p>In order to provide a fast failover, it is also necessary that the Standby node have up-to-date information regarding the location of blocks in the cluster. In order to achieve this, the DataNodes are configured with the location of all NameNodes, and send block location information and heartbeats to all.</p>
|
|
<p>It is vital for the correct operation of an HA cluster that only one of the NameNodes be Active at a time. Otherwise, the namespace state would quickly diverge between the two, risking data loss or other incorrect results. In order to ensure this property and prevent the so-called “split-brain scenario,” the JournalNodes will only ever allow a single NameNode to be a writer at a time. During a failover, the NameNode which is to become active will simply take over the role of writing to the JournalNodes, which will effectively prevent the other NameNode from continuing in the Active state, allowing the new Active to safely proceed with failover.</p></section><section>
|
|
<h2><a name="Hardware_resources"></a>Hardware resources</h2>
|
|
<p>In order to deploy an HA cluster, you should prepare the following:</p>
|
|
<ul>
|
|
|
|
<li>
|
|
|
|
<p><b>NameNode machines</b> - the machines on which you run the Active and Standby NameNodes should have equivalent hardware to each other, and equivalent hardware to what would be used in a non-HA cluster.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>JournalNode machines</b> - the machines on which you run the JournalNodes. The JournalNode daemon is relatively lightweight, so these daemons may reasonably be collocated on machines with other Hadoop daemons, for example NameNodes, the JobTracker, or the YARN ResourceManager. <b>Note:</b> There must be at least 3 JournalNode daemons, since edit log modifications must be written to a majority of JNs. This will allow the system to tolerate the failure of a single machine. You may also run more than 3 JournalNodes, but in order to actually increase the number of failures the system can tolerate, you should run an odd number of JNs, (i.e. 3, 5, 7, etc.). Note that when running with N JournalNodes, the system can tolerate at most (N - 1) / 2 failures and continue to function normally.</p>
|
|
</li>
|
|
</ul>
|
|
<p>Note that, in an HA cluster, the Standby NameNodes also performs checkpoints of the namespace state, and thus it is not necessary to run a Secondary NameNode, CheckpointNode, or BackupNode in an HA cluster. In fact, to do so would be an error. This also allows one who is reconfiguring a non-HA-enabled HDFS cluster to be HA-enabled to reuse the hardware which they had previously dedicated to the Secondary NameNode.</p></section><section>
|
|
<h2><a name="Deployment"></a>Deployment</h2><section>
|
|
<h3><a name="Configuration_overview"></a>Configuration overview</h3>
|
|
<p>Similar to Federation configuration, HA configuration is backward compatible and allows existing single NameNode configurations to work without change. The new configuration is designed such that all the nodes in the cluster may have the same configuration without the need for deploying different configuration files to different machines based on the type of the node.</p>
|
|
<p>Like HDFS Federation, HA clusters reuse the <code>nameservice ID</code> to identify a single HDFS instance that may in fact consist of multiple HA NameNodes. In addition, a new abstraction called <code>NameNode ID</code> is added with HA. Each distinct NameNode in the cluster has a different NameNode ID to distinguish it. To support a single configuration file for all of the NameNodes, the relevant configuration parameters are suffixed with the <b>nameservice ID</b> as well as the <b>NameNode ID</b>.</p></section><section>
|
|
<h3><a name="Configuration_details"></a>Configuration details</h3>
|
|
<p>To configure HA NameNodes, you must add several configuration options to your <b>hdfs-site.xml</b> configuration file.</p>
|
|
<p>The order in which you set these configurations is unimportant, but the values you choose for <b>dfs.nameservices</b> and <b>dfs.ha.namenodes.[nameservice ID]</b> will determine the keys of those that follow. Thus, you should decide on these values before setting the rest of the configuration options.</p>
|
|
<ul>
|
|
|
|
<li>
|
|
|
|
<p><b>dfs.nameservices</b> - the logical name for this new nameservice</p>
|
|
<p>Choose a logical name for this nameservice, for example “mycluster”, and use this logical name for the value of this config option. The name you choose is arbitrary. It will be used both for configuration and as the authority component of absolute HDFS paths in the cluster.</p>
|
|
<p><b>Note:</b> If you are also using HDFS Federation, this configuration setting should also include the list of other nameservices, HA or otherwise, as a comma-separated list.</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre><property>
|
|
<name>dfs.nameservices</name>
|
|
<value>mycluster</value>
|
|
</property>
|
|
</pre></div></div>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>dfs.ha.namenodes.[nameservice ID]</b> - unique identifiers for each NameNode in the nameservice</p>
|
|
<p>Configure with a list of comma-separated NameNode IDs. This will be used by DataNodes to determine all the NameNodes in the cluster. For example, if you used “mycluster” as the nameservice ID previously, and you wanted to use “nn1”, “nn2” and “nn3” as the individual IDs of the NameNodes, you would configure this as such:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre><property>
|
|
<name>dfs.ha.namenodes.mycluster</name>
|
|
<value>nn1,nn2, nn3</value>
|
|
</property>
|
|
</pre></div></div>
|
|
|
|
<p><b>Note:</b> The minimum number of NameNodes for HA is two, but you can configure more. Its suggested to not exceed 5 - with a recommended 3 NameNodes - due to communication overheads.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>dfs.namenode.rpc-address.[nameservice ID].[name node ID]</b> - the fully-qualified RPC address for each NameNode to listen on</p>
|
|
<p>For both of the previously-configured NameNode IDs, set the full address and IPC port of the NameNode processs. Note that this results in two separate configuration options. For example:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre><property>
|
|
<name>dfs.namenode.rpc-address.mycluster.nn1</name>
|
|
<value>machine1.example.com:8020</value>
|
|
</property>
|
|
<property>
|
|
<name>dfs.namenode.rpc-address.mycluster.nn2</name>
|
|
<value>machine2.example.com:8020</value>
|
|
</property>
|
|
<property>
|
|
<name>dfs.namenode.rpc-address.mycluster.nn3</name>
|
|
<value>machine3.example.com:8020</value>
|
|
</property>
|
|
</pre></div></div>
|
|
|
|
<p><b>Note:</b> You may similarly configure the “<b>servicerpc-address</b>” setting if you so desire.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>dfs.namenode.http-address.[nameservice ID].[name node ID]</b> - the fully-qualified HTTP address for each NameNode to listen on</p>
|
|
<p>Similarly to <i>rpc-address</i> above, set the addresses for both NameNodes’ HTTP servers to listen on. For example:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre><property>
|
|
<name>dfs.namenode.http-address.mycluster.nn1</name>
|
|
<value>machine1.example.com:9870</value>
|
|
</property>
|
|
<property>
|
|
<name>dfs.namenode.http-address.mycluster.nn2</name>
|
|
<value>machine2.example.com:9870</value>
|
|
</property>
|
|
<property>
|
|
<name>dfs.namenode.http-address.mycluster.nn3</name>
|
|
<value>machine3.example.com:9870</value>
|
|
</property>
|
|
</pre></div></div>
|
|
|
|
<p><b>Note:</b> If you have Hadoop’s security features enabled, you should also set the <i>https-address</i> similarly for each NameNode.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>dfs.namenode.shared.edits.dir</b> - the URI which identifies the group of JNs where the NameNodes will write/read edits</p>
|
|
<p>This is where one configures the addresses of the JournalNodes which provide the shared edits storage, written to by the Active nameNode and read by the Standby NameNode to stay up-to-date with all the file system changes the Active NameNode makes. Though you must specify several JournalNode addresses, <b>you should only configure one of these URIs.</b> The URI should be of the form: <code>qjournal://*host1:port1*;*host2:port2*;*host3:port3*/*journalId*</code>. The Journal ID is a unique identifier for this nameservice, which allows a single set of JournalNodes to provide storage for multiple federated namesystems. Though not a requirement, it’s a good idea to reuse the nameservice ID for the journal identifier.</p>
|
|
<p>For example, if the JournalNodes for this cluster were running on the machines “node1.example.com”, “node2.example.com”, and “node3.example.com” and the nameservice ID were “mycluster”, you would use the following as the value for this setting (the default port for the JournalNode is 8485):</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre><property>
|
|
<name>dfs.namenode.shared.edits.dir</name>
|
|
<value>qjournal://node1.example.com:8485;node2.example.com:8485;node3.example.com:8485/mycluster</value>
|
|
</property>
|
|
</pre></div></div>
|
|
|
|
<p>You can also configure journal nodes by setting up dns round-robin record to avoid hardcoded names:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre><property>
|
|
<name>dfs.namenode.edits.qjournals.resolution-enabled</name>
|
|
<value>true</value>
|
|
</property>
|
|
</pre></div></div>
|
|
|
|
<p>This will require you to configure multiple IPs behind one dns record on the host level, for example round robin DNS.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>dfs.client.failover.proxy.provider.[nameservice ID]</b> - the Java class that HDFS clients use to contact the Active NameNode</p>
|
|
<p>Configure the name of the Java class which will be used by the HDFS Client to determine which NameNode is the current Active, and therefore which NameNode is currently serving client requests. The two implementations which currently ship with Hadoop are the <b>ConfiguredFailoverProxyProvider</b> and the <b>RequestHedgingProxyProvider</b> (which, for the first call, concurrently invokes all namenodes to determine the active one, and on subsequent requests, invokes the active namenode until a fail-over happens), so use one of these unless you are using a custom proxy provider. For example:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre><property>
|
|
<name>dfs.client.failover.proxy.provider.mycluster</name>
|
|
<value>org.apache.hadoop.hdfs.server.namenode.ha.ConfiguredFailoverProxyProvider</value>
|
|
</property>
|
|
</pre></div></div>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>dfs.ha.fencing.methods</b> - a list of scripts or Java classes which will be used to fence the Active NameNode during a failover</p>
|
|
<p>It is desirable for correctness of the system that only one NameNode be in the Active state at any given time. <b>Importantly, when using the Quorum Journal Manager, only one NameNode will ever be allowed to write to the JournalNodes, so there is no potential for corrupting the file system metadata from a split-brain scenario.</b> However, when a failover occurs, it is still possible that the previous Active NameNode could serve read requests to clients, which may be out of date until that NameNode shuts down when trying to write to the JournalNodes. For this reason, it is still desirable to configure some fencing methods even when using the Quorum Journal Manager. However, to improve the availability of the system in the event the fencing mechanisms fail, it is advisable to configure a fencing method which is guaranteed to return success as the last fencing method in the list. Note that if you choose to use no actual fencing methods, you still must configure something for this setting, for example “<code>shell(/bin/true)</code>”.</p>
|
|
<p>The fencing methods used during a failover are configured as a carriage-return-separated list, which will be attempted in order until one indicates that fencing has succeeded. There are three methods which ship with Hadoop: <i>shell</i>, <i>sshfence</i> and <i>powershell</i>. For information on implementing your own custom fencing method, see the <i>org.apache.hadoop.ha.NodeFencer</i> class.</p><hr />
|
|
<p><b>sshfence</b> - SSH to the Active NameNode and kill the process</p>
|
|
<p>The <i>sshfence</i> option SSHes to the target node and uses <i>fuser</i> to kill the process listening on the service’s TCP port. In order for this fencing option to work, it must be able to SSH to the target node without providing a passphrase. Thus, one must also configure the <b>dfs.ha.fencing.ssh.private-key-files</b> option, which is a comma-separated list of SSH private key files. For example:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre> <property>
|
|
<name>dfs.ha.fencing.methods</name>
|
|
<value>sshfence</value>
|
|
</property>
|
|
|
|
<property>
|
|
<name>dfs.ha.fencing.ssh.private-key-files</name>
|
|
<value>/home/exampleuser/.ssh/id_rsa</value>
|
|
</property>
|
|
</pre></div></div>
|
|
|
|
<p>Optionally, one may configure a non-standard username or port to perform the SSH. One may also configure a timeout, in milliseconds, for the SSH, after which this fencing method will be considered to have failed. It may be configured like so:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre> <property>
|
|
<name>dfs.ha.fencing.methods</name>
|
|
<value>sshfence([[username][:port]])</value>
|
|
</property>
|
|
<property>
|
|
<name>dfs.ha.fencing.ssh.connect-timeout</name>
|
|
<value>30000</value>
|
|
</property>
|
|
</pre></div></div>
|
|
<hr />
|
|
<p><b>shell</b> - run an arbitrary shell command to fence the Active NameNode</p>
|
|
<p>The <i>shell</i> fencing method runs an arbitrary shell command. It may be configured like so:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre> <property>
|
|
<name>dfs.ha.fencing.methods</name>
|
|
<value>shell(/path/to/my/script.sh arg1 arg2 ...)</value>
|
|
</property>
|
|
</pre></div></div>
|
|
|
|
<p>The string between ‘(’ and ‘)’ is passed directly to a bash shell and may not include any closing parentheses.</p>
|
|
<p>The shell command will be run with an environment set up to contain all of the current Hadoop configuration variables, with the ‘_’ character replacing any ‘.’ characters in the configuration keys. The configuration used has already had any namenode-specific configurations promoted to their generic forms – for example <b>dfs_namenode_rpc-address</b> will contain the RPC address of the target node, even though the configuration may specify that variable as <b>dfs.namenode.rpc-address.ns1.nn1</b>.</p>
|
|
<p>Additionally, the following variables referring to the target node to be fenced are also available:</p>
|
|
<table border="0" class="bodyTable">
|
|
<thead>
|
|
|
|
<tr class="a">
|
|
<th align="left"> </th>
|
|
<th align="left"> </th></tr>
|
|
</thead><tbody>
|
|
|
|
<tr class="b">
|
|
<td align="left"> $target_host </td>
|
|
<td align="left"> hostname of the node to be fenced </td></tr>
|
|
<tr class="a">
|
|
<td align="left"> $target_port </td>
|
|
<td align="left"> IPC port of the node to be fenced </td></tr>
|
|
<tr class="b">
|
|
<td align="left"> $target_address </td>
|
|
<td align="left"> the above two, combined as host:port </td></tr>
|
|
<tr class="a">
|
|
<td align="left"> $target_nameserviceid </td>
|
|
<td align="left"> the nameservice ID of the NN to be fenced </td></tr>
|
|
<tr class="b">
|
|
<td align="left"> $target_namenodeid </td>
|
|
<td align="left"> the namenode ID of the NN to be fenced </td></tr>
|
|
</tbody>
|
|
</table>
|
|
<p>These environment variables may also be used as substitutions in the shell command itself. For example:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre> <property>
|
|
<name>dfs.ha.fencing.methods</name>
|
|
<value>shell(/path/to/my/script.sh --nameservice=$target_nameserviceid $target_host:$target_port)</value>
|
|
</property>
|
|
</pre></div></div>
|
|
|
|
<p>If the shell command returns an exit code of 0, the fencing is determined to be successful. If it returns any other exit code, the fencing was not successful and the next fencing method in the list will be attempted.</p>
|
|
<p><b>Note:</b> This fencing method does not implement any timeout. If timeouts are necessary, they should be implemented in the shell script itself (eg by forking a subshell to kill its parent in some number of seconds).</p><hr />
|
|
<p><b>powershell</b> - use PowerShell to remotely connect to a machine and kill the required process</p>
|
|
<p>The <i>powershell</i> fencing method uses PowerShell command. It may be configured like so:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre> <property>
|
|
<name>dfs.ha.fencing.methods</name>
|
|
<value>powershell(NameNode)</value>
|
|
</property>
|
|
</pre></div></div>
|
|
|
|
<p>The argument passed to this fencer should be a unique string in the “CommandLine” attribute for the “java.exe” process. For example, the full path for the Namenode: “org.apache.hadoop.hdfs.server.namenode.NameNode”. The administrator can also shorten the name to “Namenode” if it’s unique.</p>
|
|
<p><b>Note:</b> This only works in Windows.</p><hr />
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>fs.defaultFS</b> - the default path prefix used by the Hadoop FS client when none is given</p>
|
|
<p>Optionally, you may now configure the default path for Hadoop clients to use the new HA-enabled logical URI. If you used “mycluster” as the nameservice ID earlier, this will be the value of the authority portion of all of your HDFS paths. This may be configured like so, in your <b>core-site.xml</b> file:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre><property>
|
|
<name>fs.defaultFS</name>
|
|
<value>hdfs://mycluster</value>
|
|
</property>
|
|
</pre></div></div>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>dfs.journalnode.edits.dir</b> - the path where the JournalNode daemon will store its local state</p>
|
|
<p>This is the absolute path on the JournalNode machines where the edits and other local state used by the JNs will be stored. You may only use a single path for this configuration. Redundancy for this data is provided by running multiple separate JournalNodes, or by configuring this directory on a locally-attached RAID array. For example:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre><property>
|
|
<name>dfs.journalnode.edits.dir</name>
|
|
<value>/path/to/journal/node/local/data</value>
|
|
</property>
|
|
</pre></div></div>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>dfs.ha.nn.not-become-active-in-safemode</b> - if prevent safe mode namenodes to become active or observer</p>
|
|
<p>Whether allow namenode to become active when it is in safemode, when it is set to true, namenode in safemode will report SERVICE_UNHEALTHY to ZKFC if auto failover is on, or will throw exception to fail the transition to active if auto failover is off. If you transition namenode to observer state when it is in safemode, when this configuration is set to true, namenode will throw exception to fail the transition to observer. For example:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre><property>
|
|
<name>dfs.ha.nn.not-become-active-in-safemode</name>
|
|
<value>true</value>
|
|
</property>
|
|
</pre></div></div>
|
|
</li>
|
|
</ul></section><section>
|
|
<h3><a name="Deployment_details"></a>Deployment details</h3>
|
|
<p>After all of the necessary configuration options have been set, you must start the JournalNode daemons on the set of machines where they will run. This can be done by running the command “<i>hdfs --daemon start journalnode</i>” and waiting for the daemon to start on each of the relevant machines.</p>
|
|
<p>Once the JournalNodes have been started, one must initially synchronize the two HA NameNodes’ on-disk metadata.</p>
|
|
<ul>
|
|
|
|
<li>
|
|
|
|
<p>If you are setting up a fresh HDFS cluster, you should first run the format command (<i>hdfs namenode -format</i>) on one of NameNodes.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p>If you have already formatted the NameNode, or are converting a non-HA-enabled cluster to be HA-enabled, you should now copy over the contents of your NameNode metadata directories to the other, unformatted NameNode(s) by running the command “<i>hdfs namenode -bootstrapStandby</i>” on the unformatted NameNode(s). Running this command will also ensure that the JournalNodes (as configured by <b>dfs.namenode.shared.edits.dir</b>) contain sufficient edits transactions to be able to start both NameNodes.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p>If you are converting a non-HA NameNode to be HA, you should run the command “<i>hdfs namenode -initializeSharedEdits</i>”, which will initialize the JournalNodes with the edits data from the local NameNode edits directories.</p>
|
|
</li>
|
|
</ul>
|
|
<p>At this point you may start all your HA NameNodes as you normally would start a NameNode.</p>
|
|
<p>You can visit each of the NameNodes’ web pages separately by browsing to their configured HTTP addresses. You should notice that next to the configured address will be the HA state of the NameNode (either “standby” or “active”.) Whenever an HA NameNode starts, it is initially in the Standby state.</p></section><section>
|
|
<h3><a name="Administrative_commands"></a>Administrative commands</h3>
|
|
<p>Now that your HA NameNodes are configured and started, you will have access to some additional commands to administer your HA HDFS cluster. Specifically, you should familiarize yourself with all of the subcommands of the “<i>hdfs haadmin</i>” command. Running this command without any additional arguments will display the following usage information:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre>Usage: haadmin
|
|
[-transitionToActive <serviceId>]
|
|
[-transitionToStandby <serviceId>]
|
|
[-failover [--forcefence] [--forceactive] <serviceId> <serviceId>]
|
|
[-getServiceState <serviceId>]
|
|
[-getAllServiceState]
|
|
[-checkHealth <serviceId>]
|
|
[-help <command>]
|
|
</pre></div></div>
|
|
|
|
<p>This guide describes high-level uses of each of these subcommands. For specific usage information of each subcommand, you should run “<i>hdfs haadmin -help <command</i>>”.</p>
|
|
<ul>
|
|
|
|
<li>
|
|
|
|
<p><b>transitionToActive</b> and <b>transitionToStandby</b> - transition the state of the given NameNode to Active or Standby</p>
|
|
<p>These subcommands cause a given NameNode to transition to the Active or Standby state, respectively. <b>These commands do not attempt to perform any fencing, and thus should rarely be used.</b> Instead, one should almost always prefer to use the “<i>hdfs haadmin -failover</i>” subcommand.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>failover</b> - initiate a failover between two NameNodes</p>
|
|
<p>This subcommand causes a failover from the first provided NameNode to the second. If the first NameNode is in the Standby state, this command simply transitions the second to the Active state without error. If the first NameNode is in the Active state, an attempt will be made to gracefully transition it to the Standby state. If this fails, the fencing methods (as configured by <b>dfs.ha.fencing.methods</b>) will be attempted in order until one succeeds. Only after this process will the second NameNode be transitioned to the Active state. If no fencing method succeeds, the second NameNode will not be transitioned to the Active state, and an error will be returned.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>getServiceState</b> - determine whether the given NameNode is Active or Standby</p>
|
|
<p>Connect to the provided NameNode to determine its current state, printing either “standby” or “active” to STDOUT appropriately. This subcommand might be used by cron jobs or monitoring scripts which need to behave differently based on whether the NameNode is currently Active or Standby.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>getAllServiceState</b> - returns the state of all the NameNodes</p>
|
|
<p>Connect to the configured NameNodes to determine the current state, print either “standby” or “active” to STDOUT appropriately.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>checkHealth</b> - check the health of the given NameNode</p>
|
|
<p>Connect to the provided NameNode to check its health. The NameNode is capable of performing some diagnostics on itself, including checking if internal services are running as expected. This command will return 0 if the NameNode is healthy, non-zero otherwise. One might use this command for monitoring purposes.</p>
|
|
<p><b>Note:</b> This is not yet implemented, and at present will always return success, unless the given NameNode is completely down.</p>
|
|
</li>
|
|
</ul></section><section>
|
|
<h3><a name="Load_Balancer_Setup"></a>Load Balancer Setup</h3>
|
|
<p>If you are running a set of NameNodes behind a Load Balancer (e.g. <a class="externalLink" href="https://docs.microsoft.com/en-us/azure/load-balancer/load-balancer-custom-probe-overview">Azure</a> or <a class="externalLink" href="https://docs.aws.amazon.com/elasticloadbalancing/latest/classic/elb-healthchecks.html">AWS</a> ) and would like the Load Balancer to point to the active NN, you can use the /isActive HTTP endpoint as a health probe. <a class="externalLink" href="http://NN_HOSTNAME/isActive">http://NN_HOSTNAME/isActive</a> will return a 200 status code response if the NN is in Active HA State, 405 otherwise.</p></section><section>
|
|
<h3><a name="In-Progress_Edit_Log_Tailing"></a>In-Progress Edit Log Tailing</h3>
|
|
<p>Under the default settings, the Standby NameNode will only apply edits that are present in an edit log segments which has been finalized. If it is desirable to have a Standby NameNode which has more up-to-date namespace information, it is possible to enable tailing of in-progress edit segments. This setting will attempt to fetch edits from an in-memory cache on the JournalNodes and can reduce the lag time before a transaction is applied on the Standby NameNode to the order of milliseconds. If an edit cannot be served from the cache, the Standby will still be able to retrieve it, but the lag time will be much longer. The relevant configurations are:</p>
|
|
<ul>
|
|
|
|
<li>
|
|
|
|
<p><b>dfs.ha.tail-edits.in-progress</b> - Whether or not to enable tailing on in-progress edits logs. This will also enable the in-memory edit cache on the JournalNodes. Disabled by default.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>dfs.journalnode.edit-cache-size.bytes</b> - The size of the in-memory cache of edits on the JournalNode. Edits take around 200 bytes each in a typical environment, so, for example, the default of 1048576 (1MB) can hold around 5000 transactions. It is recommended to monitor the JournalNode metrics RpcRequestCacheMissAmountNumMisses and RpcRequestCacheMissAmountAvgTxns, which respectively count the number of requests unable to be served by the cache, and the extra number of transactions which would have needed to have been in the cache for the request to succeed. For example, if a request attempted to fetch edits starting at transaction ID 10, but the oldest data in the cache was at transaction ID 20, a value of 10 would be added to the average.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>dfs.journalnode.edit-cache-size.fraction</b> - This fraction refers to the proportion of the maximum memory of the JVM. Used to calculate the size of the edits cache that is kept in the JournalNode’s memory. This config is an alternative to the dfs.journalnode.edit-cache-size.bytes. And it is used to serve edits for tailing via the RPC-based mechanism, and is only enabled when dfs.ha.tail-edits.in-progress is true. Transactions range in size but are around 200 bytes on average, so the default of 1MB can store around 5000 transactions. So we can configure a reasonable value based on the maximum memory. The recommended value is less than 0.9. If we set dfs.journalnode.edit-cache-size.bytes, this parameter will not take effect.</p>
|
|
</li>
|
|
</ul>
|
|
<p>This feature is primarily useful in conjunction with the Standby/Observer Read feature. Using this feature, read requests can be serviced from non-active NameNodes; thus tailing in-progress edits provides these nodes with the ability to serve requests with data which is much more fresh. See the Apache JIRA ticket HDFS-12943 for more information on this feature.</p></section></section><section>
|
|
<h2><a name="Automatic_Failover"></a>Automatic Failover</h2><section>
|
|
<h3><a name="Introduction"></a>Introduction</h3>
|
|
<p>The above sections describe how to configure manual failover. In that mode, the system will not automatically trigger a failover from the active to the standby NameNode, even if the active node has failed. This section describes how to configure and deploy automatic failover.</p></section><section>
|
|
<h3><a name="Components"></a>Components</h3>
|
|
<p>Automatic failover adds two new components to an HDFS deployment: a ZooKeeper quorum, and the ZKFailoverController process (abbreviated as ZKFC).</p>
|
|
<p>Apache ZooKeeper is a highly available service for maintaining small amounts of coordination data, notifying clients of changes in that data, and monitoring clients for failures. The implementation of automatic HDFS failover relies on ZooKeeper for the following things:</p>
|
|
<ul>
|
|
|
|
<li>
|
|
|
|
<p><b>Failure detection</b> - each of the NameNode machines in the cluster maintains a persistent session in ZooKeeper. If the machine crashes, the ZooKeeper session will expire, notifying the other NameNode(s) that a failover should be triggered.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>Active NameNode election</b> - ZooKeeper provides a simple mechanism to exclusively elect a node as active. If the current active NameNode crashes, another node may take a special exclusive lock in ZooKeeper indicating that it should become the next active.</p>
|
|
</li>
|
|
</ul>
|
|
<p>The ZKFailoverController (ZKFC) is a new component which is a ZooKeeper client which also monitors and manages the state of the NameNode. Each of the machines which runs a NameNode also runs a ZKFC, and that ZKFC is responsible for:</p>
|
|
<ul>
|
|
|
|
<li>
|
|
|
|
<p><b>Health monitoring</b> - the ZKFC pings its local NameNode on a periodic basis with a health-check command. So long as the NameNode responds in a timely fashion with a healthy status, the ZKFC considers the node healthy. If the node has crashed, frozen, or otherwise entered an unhealthy state, the health monitor will mark it as unhealthy.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>ZooKeeper session management</b> - when the local NameNode is healthy, the ZKFC holds a session open in ZooKeeper. If the local NameNode is active, it also holds a special “lock” znode. This lock uses ZooKeeper’s support for “ephemeral” nodes; if the session expires, the lock node will be automatically deleted.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>ZooKeeper-based election</b> - if the local NameNode is healthy, and the ZKFC sees that no other node currently holds the lock znode, it will itself try to acquire the lock. If it succeeds, then it has “won the election”, and is responsible for running a failover to make its local NameNode active. The failover process is similar to the manual failover described above: first, the previous active is fenced if necessary, and then the local NameNode transitions to active state.</p>
|
|
</li>
|
|
</ul>
|
|
<p>For more details on the design of automatic failover, refer to the design document attached to HDFS-2185 on the Apache HDFS JIRA.</p></section><section>
|
|
<h3><a name="Deploying_ZooKeeper"></a>Deploying ZooKeeper</h3>
|
|
<p>In a typical deployment, ZooKeeper daemons are configured to run on three or five nodes. Since ZooKeeper itself has light resource requirements, it is acceptable to collocate the ZooKeeper nodes on the same hardware as the HDFS NameNode and Standby Node. Many operators choose to deploy the third ZooKeeper process on the same node as the YARN ResourceManager. It is advisable to configure the ZooKeeper nodes to store their data on separate disk drives from the HDFS metadata for best performance and isolation.</p>
|
|
<p>The setup of ZooKeeper is out of scope for this document. We will assume that you have set up a ZooKeeper cluster running on three or more nodes, and have verified its correct operation by connecting using the ZK CLI.</p></section><section>
|
|
<h3><a name="Before_you_begin"></a>Before you begin</h3>
|
|
<p>Before you begin configuring automatic failover, you should shut down your cluster. It is not currently possible to transition from a manual failover setup to an automatic failover setup while the cluster is running.</p></section><section>
|
|
<h3><a name="Configuring_automatic_failover"></a>Configuring automatic failover</h3>
|
|
<p>The configuration of automatic failover requires the addition of two new parameters to your configuration. In your <code>hdfs-site.xml</code> file, add:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre> <property>
|
|
<name>dfs.ha.automatic-failover.enabled</name>
|
|
<value>true</value>
|
|
</property>
|
|
</pre></div></div>
|
|
|
|
<p>This specifies that the cluster should be set up for automatic failover. In your <code>core-site.xml</code> file, add:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre> <property>
|
|
<name>ha.zookeeper.quorum</name>
|
|
<value>zk1.example.com:2181,zk2.example.com:2181,zk3.example.com:2181</value>
|
|
</property>
|
|
</pre></div></div>
|
|
|
|
<p>This lists the host-port pairs running the ZooKeeper service.</p>
|
|
<p>As with the parameters described earlier in the document, these settings may be configured on a per-nameservice basis by suffixing the configuration key with the nameservice ID. For example, in a cluster with federation enabled, you can explicitly enable automatic failover for only one of the nameservices by setting <code>dfs.ha.automatic-failover.enabled.my-nameservice-id</code>.</p>
|
|
<p>There are also several other configuration parameters which may be set to control the behavior of automatic failover; however, they are not necessary for most installations. Please refer to the configuration key specific documentation for details.</p></section><section>
|
|
<h3><a name="Initializing_HA_state_in_ZooKeeper"></a>Initializing HA state in ZooKeeper</h3>
|
|
<p>After the configuration keys have been added, the next step is to initialize required state in ZooKeeper. You can do so by running the following command from one of the NameNode hosts.</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre>[hdfs]$ $HADOOP_HOME/bin/hdfs zkfc -formatZK
|
|
</pre></div></div>
|
|
|
|
<p>This will create a znode in ZooKeeper inside of which the automatic failover system stores its data.</p></section><section>
|
|
<h3><a name="Starting_the_cluster_with_start-dfs.sh"></a>Starting the cluster with <code>start-dfs.sh</code></h3>
|
|
<p>Since automatic failover has been enabled in the configuration, the <code>start-dfs.sh</code> script will now automatically start a ZKFC daemon on any machine that runs a NameNode. When the ZKFCs start, they will automatically select one of the NameNodes to become active.</p></section><section>
|
|
<h3><a name="Starting_the_cluster_manually"></a>Starting the cluster manually</h3>
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<p>If you manually manage the services on your cluster, you will need to manually start the <code>zkfc</code> daemon on each of the machines that runs a NameNode. You can start the daemon by running:</p>
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<div class="source">
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<div class="source">
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<pre>[hdfs]$ $HADOOP_HOME/bin/hdfs --daemon start zkfc
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</pre></div></div>
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</section><section>
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<h3><a name="Securing_access_to_ZooKeeper"></a>Securing access to ZooKeeper</h3>
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|
<p>If you are running a secure cluster, you will likely want to ensure that the information stored in ZooKeeper is also secured. This prevents malicious clients from modifying the metadata in ZooKeeper or potentially triggering a false failover.</p>
|
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<p>In order to secure the information in ZooKeeper, first add the following to your <code>core-site.xml</code> file:</p>
|
|
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<div class="source">
|
|
<div class="source">
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|
<pre> <property>
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|
<name>ha.zookeeper.auth</name>
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|
<value>@/path/to/zk-auth.txt</value>
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</property>
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<property>
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<name>ha.zookeeper.acl</name>
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<value>@/path/to/zk-acl.txt</value>
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</property>
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</pre></div></div>
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|
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<p>Please note the ‘@’ character in these values – this specifies that the configurations are not inline, but rather point to a file on disk. The authentication info may also be read via a CredentialProvider (pls see the CredentialProviderAPI Guide in the hadoop-common project).</p>
|
|
<p>The first configured file specifies a list of ZooKeeper authentications, in the same format as used by the ZK CLI. For example, you may specify something like:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
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<pre>digest:hdfs-zkfcs:mypassword
|
|
</pre></div></div>
|
|
|
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<p>…where <code>hdfs-zkfcs</code> is a unique username for ZooKeeper, and <code>mypassword</code> is some unique string used as a password.</p>
|
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<p>Next, generate a ZooKeeper ACL that corresponds to this authentication, using a command like the following:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre>[hdfs]$ java -cp $ZK_HOME/lib/*:$ZK_HOME/zookeeper-3.4.2.jar org.apache.zookeeper.server.auth.DigestAuthenticationProvider hdfs-zkfcs:mypassword
|
|
output: hdfs-zkfcs:mypassword->hdfs-zkfcs:P/OQvnYyU/nF/mGYvB/xurX8dYs=
|
|
</pre></div></div>
|
|
|
|
<p>Copy and paste the section of this output after the ‘->’ string into the file <code>zk-acls.txt</code>, prefixed by the string “<code>digest:</code>”. For example:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre>digest:hdfs-zkfcs:vlUvLnd8MlacsE80rDuu6ONESbM=:rwcda
|
|
</pre></div></div>
|
|
|
|
<p>In order for these ACLs to take effect, you should then rerun the <code>zkfc -formatZK</code> command as described above.</p>
|
|
<p>After doing so, you may verify the ACLs from the ZK CLI as follows:</p>
|
|
|
|
<div class="source">
|
|
<div class="source">
|
|
<pre>[zk: localhost:2181(CONNECTED) 1] getAcl /hadoop-ha
|
|
'digest,'hdfs-zkfcs:vlUvLnd8MlacsE80rDuu6ONESbM=
|
|
: cdrwa
|
|
</pre></div></div>
|
|
</section><section>
|
|
<h3><a name="Verifying_automatic_failover"></a>Verifying automatic failover</h3>
|
|
<p>Once automatic failover has been set up, you should test its operation. To do so, first locate the active NameNode. You can tell which node is active by visiting the NameNode web interfaces – each node reports its HA state at the top of the page.</p>
|
|
<p>Once you have located your active NameNode, you may cause a failure on that node. For example, you can use <code>kill -9 <pid of NN</code>> to simulate a JVM crash. Or, you could power cycle the machine or unplug its network interface to simulate a different kind of outage. After triggering the outage you wish to test, the other NameNode should automatically become active within several seconds. The amount of time required to detect a failure and trigger a fail-over depends on the configuration of <code>ha.zookeeper.session-timeout.ms</code>, but defaults to 5 seconds.</p>
|
|
<p>If the test does not succeed, you may have a misconfiguration. Check the logs for the <code>zkfc</code> daemons as well as the NameNode daemons in order to further diagnose the issue.</p></section></section><section>
|
|
<h2><a name="Automatic_Failover_FAQ"></a>Automatic Failover FAQ</h2>
|
|
<ul>
|
|
|
|
<li>
|
|
|
|
<p><b>Is it important that I start the ZKFC and NameNode daemons in any particular order?</b></p>
|
|
<p>No. On any given node you may start the ZKFC before or after its corresponding NameNode.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>What additional monitoring should I put in place?</b></p>
|
|
<p>You should add monitoring on each host that runs a NameNode to ensure that the ZKFC remains running. In some types of ZooKeeper failures, for example, the ZKFC may unexpectedly exit, and should be restarted to ensure that the system is ready for automatic failover.</p>
|
|
<p>Additionally, you should monitor each of the servers in the ZooKeeper quorum. If ZooKeeper crashes, then automatic failover will not function.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>What happens if ZooKeeper goes down?</b></p>
|
|
<p>If the ZooKeeper cluster crashes, no automatic failovers will be triggered. However, HDFS will continue to run without any impact. When ZooKeeper is restarted, HDFS will reconnect with no issues.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>Can I designate one of my NameNodes as primary/preferred?</b></p>
|
|
<p>No. Currently, this is not supported. Whichever NameNode is started first will become active. You may choose to start the cluster in a specific order such that your preferred node starts first.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p><b>How can I initiate a manual failover when automatic failover is configured?</b></p>
|
|
<p>Even if automatic failover is configured, you may initiate a manual failover using the same <code>hdfs haadmin</code> command. It will perform a coordinated failover.</p>
|
|
</li>
|
|
</ul></section><section>
|
|
<h2><a name="HDFS_Upgrade.2FFinalization.2FRollback_with_HA_Enabled"></a>HDFS Upgrade/Finalization/Rollback with HA Enabled</h2>
|
|
<p>When moving between versions of HDFS, sometimes the newer software can simply be installed and the cluster restarted. Sometimes, however, upgrading the version of HDFS you’re running may require changing on-disk data. In this case, one must use the HDFS Upgrade/Finalize/Rollback facility after installing the new software. This process is made more complex in an HA environment, since the on-disk metadata that the NN relies upon is by definition distributed, both on the two HA NNs in the pair, and on the JournalNodes in the case that QJM is being used for the shared edits storage. This documentation section describes the procedure to use the HDFS Upgrade/Finalize/Rollback facility in an HA setup.</p>
|
|
<p><b>To perform an HA upgrade</b>, the operator must do the following:</p>
|
|
<ol style="list-style-type: decimal">
|
|
|
|
<li>
|
|
|
|
<p>Shut down all of the NNs as normal, and install the newer software.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p>Start up all of the JNs. Note that it is <b>critical</b> that all the JNs be running when performing the upgrade, rollback, or finalization operations. If any of the JNs are down at the time of running any of these operations, the operation will fail.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p>Start one of the NNs with the <code>'-upgrade'</code> flag.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p>On start, this NN will not enter the standby state as usual in an HA setup. Rather, this NN will immediately enter the active state, perform an upgrade of its local storage dirs, and also perform an upgrade of the shared edit log.</p>
|
|
</li>
|
|
<li>
|
|
|
|
<p>At this point the other NN in the HA pair will be out of sync with the upgraded NN. In order to bring it back in sync and once again have a highly available setup, you should re-bootstrap this NameNode by running the NN with the <code>'-bootstrapStandby'</code> flag. It is an error to start this second NN with the <code>'-upgrade'</code> flag.</p>
|
|
</li>
|
|
</ol>
|
|
<p>Note that if at any time you want to restart the NameNodes before finalizing or rolling back the upgrade, you should start the NNs as normal, i.e. without any special startup flag.</p>
|
|
<p><b>To query status of upgrade</b>, the operator will use the <code>`hdfs dfsadmin -upgrade query'</code> command while atleast one of the NNs is running. The command will return whether the NN upgrade process is finalized or not, for each NN.</p>
|
|
<p><b>To finalize an HA upgrade</b>, the operator will use the <code>`hdfs dfsadmin -finalizeUpgrade'</code> command while the NNs are running and one of them is active. The active NN at the time this happens will perform the finalization of the shared log, and the NN whose local storage directories contain the previous FS state will delete its local state.</p>
|
|
<p><b>To perform a rollback</b> of an upgrade, both NNs should first be shut down. The operator should run the roll back command on the NN where they initiated the upgrade procedure, which will perform the rollback on the local dirs there, as well as on the shared log, either NFS or on the JNs. Afterward, this NN should be started and the operator should run <code>`-bootstrapStandby'</code> on the other NN to bring the two NNs in sync with this rolled-back file system state.</p></section>
|
|
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