| /** |
| * Licensed to the Apache Software Foundation (ASF) under one |
| * or more contributor license agreements. See the NOTICE file |
| * distributed with this work for additional information |
| * regarding copyright ownership. The ASF licenses this file |
| * to you under the Apache License, Version 2.0 (the |
| * "License"); you may not use this file except in compliance |
| * with the License. You may obtain a copy of the License at |
| * |
| * http://www.apache.org/licenses/LICENSE-2.0 |
| * |
| * Unless required by applicable law or agreed to in writing, software |
| * distributed under the License is distributed on an "AS IS" BASIS, |
| * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| * See the License for the specific language governing permissions and |
| * limitations under the License. |
| */ |
| package org.apache.hadoop.hdfs.server.blockmanagement; |
| |
| import java.io.IOException; |
| import java.util.ArrayList; |
| import java.util.Arrays; |
| import java.util.HashMap; |
| import java.util.List; |
| |
| import junit.framework.TestCase; |
| |
| import org.apache.hadoop.conf.Configuration; |
| import org.apache.hadoop.fs.FileSystem; |
| import org.apache.hadoop.hdfs.DFSConfigKeys; |
| import org.apache.hadoop.hdfs.DFSTestUtil; |
| import org.apache.hadoop.hdfs.HdfsConfiguration; |
| import org.apache.hadoop.hdfs.protocol.DatanodeID; |
| import org.apache.hadoop.hdfs.protocol.HdfsConstants; |
| import org.apache.hadoop.hdfs.server.namenode.NameNode; |
| import org.apache.hadoop.net.NetworkTopology; |
| import org.apache.hadoop.net.Node; |
| |
| public class TestReplicationPolicy extends TestCase { |
| private static final int BLOCK_SIZE = 1024; |
| private static final int NUM_OF_DATANODES = 6; |
| private static final Configuration CONF = new HdfsConfiguration(); |
| private static final NetworkTopology cluster; |
| private static final NameNode namenode; |
| private static final BlockPlacementPolicy replicator; |
| private static final String filename = "/dummyfile.txt"; |
| private static final DatanodeDescriptor dataNodes[] = |
| new DatanodeDescriptor[] { |
| new DatanodeDescriptor(new DatanodeID("h1:5020"), "/d1/r1"), |
| new DatanodeDescriptor(new DatanodeID("h2:5020"), "/d1/r1"), |
| new DatanodeDescriptor(new DatanodeID("h3:5020"), "/d1/r2"), |
| new DatanodeDescriptor(new DatanodeID("h4:5020"), "/d1/r2"), |
| new DatanodeDescriptor(new DatanodeID("h5:5020"), "/d2/r3"), |
| new DatanodeDescriptor(new DatanodeID("h6:5020"), "/d2/r3") |
| }; |
| |
| private final static DatanodeDescriptor NODE = |
| new DatanodeDescriptor(new DatanodeID("h7:5020"), "/d2/r4"); |
| |
| static { |
| try { |
| FileSystem.setDefaultUri(CONF, "hdfs://localhost:0"); |
| CONF.set(DFSConfigKeys.DFS_NAMENODE_HTTP_ADDRESS_KEY, "0.0.0.0:0"); |
| DFSTestUtil.formatNameNode(CONF); |
| namenode = new NameNode(CONF); |
| } catch (IOException e) { |
| e.printStackTrace(); |
| throw (RuntimeException)new RuntimeException().initCause(e); |
| } |
| final BlockManager bm = namenode.getNamesystem().getBlockManager(); |
| replicator = bm.getBlockPlacementPolicy(); |
| cluster = bm.getDatanodeManager().getNetworkTopology(); |
| // construct network topology |
| for(int i=0; i<NUM_OF_DATANODES; i++) { |
| cluster.add(dataNodes[i]); |
| } |
| for(int i=0; i<NUM_OF_DATANODES; i++) { |
| dataNodes[i].updateHeartbeat( |
| 2*HdfsConstants.MIN_BLOCKS_FOR_WRITE*BLOCK_SIZE, 0L, |
| 2*HdfsConstants.MIN_BLOCKS_FOR_WRITE*BLOCK_SIZE, 0L, 0, 0); |
| } |
| } |
| |
| /** |
| * In this testcase, client is dataNodes[0]. So the 1st replica should be |
| * placed on dataNodes[0], the 2nd replica should be placed on |
| * different rack and third should be placed on different node |
| * of rack chosen for 2nd node. |
| * The only excpetion is when the <i>numOfReplicas</i> is 2, |
| * the 1st is on dataNodes[0] and the 2nd is on a different rack. |
| * @throws Exception |
| */ |
| public void testChooseTarget1() throws Exception { |
| dataNodes[0].updateHeartbeat( |
| 2*HdfsConstants.MIN_BLOCKS_FOR_WRITE*BLOCK_SIZE, 0L, |
| HdfsConstants.MIN_BLOCKS_FOR_WRITE*BLOCK_SIZE, 0L, 4, 0); // overloaded |
| |
| DatanodeDescriptor[] targets; |
| targets = replicator.chooseTarget(filename, |
| 0, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 0); |
| |
| targets = replicator.chooseTarget(filename, |
| 1, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 1); |
| assertEquals(targets[0], dataNodes[0]); |
| |
| targets = replicator.chooseTarget(filename, |
| 2, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 2); |
| assertEquals(targets[0], dataNodes[0]); |
| assertFalse(cluster.isOnSameRack(targets[0], targets[1])); |
| |
| targets = replicator.chooseTarget(filename, |
| 3, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 3); |
| assertEquals(targets[0], dataNodes[0]); |
| assertFalse(cluster.isOnSameRack(targets[0], targets[1])); |
| assertTrue(cluster.isOnSameRack(targets[1], targets[2])); |
| |
| targets = replicator.chooseTarget(filename, |
| 4, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 4); |
| assertEquals(targets[0], dataNodes[0]); |
| assertTrue(cluster.isOnSameRack(targets[1], targets[2]) || |
| cluster.isOnSameRack(targets[2], targets[3])); |
| assertFalse(cluster.isOnSameRack(targets[0], targets[2])); |
| |
| dataNodes[0].updateHeartbeat( |
| 2*HdfsConstants.MIN_BLOCKS_FOR_WRITE*BLOCK_SIZE, 0L, |
| HdfsConstants.MIN_BLOCKS_FOR_WRITE*BLOCK_SIZE, 0L, 0, 0); |
| } |
| |
| private static DatanodeDescriptor[] chooseTarget( |
| BlockPlacementPolicyDefault policy, |
| int numOfReplicas, |
| DatanodeDescriptor writer, |
| List<DatanodeDescriptor> chosenNodes, |
| HashMap<Node, Node> excludedNodes, |
| long blocksize) { |
| return policy.chooseTarget(numOfReplicas, writer, chosenNodes, false, |
| excludedNodes, blocksize); |
| } |
| |
| /** |
| * In this testcase, client is dataNodes[0], but the dataNodes[1] is |
| * not allowed to be chosen. So the 1st replica should be |
| * placed on dataNodes[0], the 2nd replica should be placed on a different |
| * rack, the 3rd should be on same rack as the 2nd replica, and the rest |
| * should be placed on a third rack. |
| * @throws Exception |
| */ |
| public void testChooseTarget2() throws Exception { |
| HashMap<Node, Node> excludedNodes; |
| DatanodeDescriptor[] targets; |
| BlockPlacementPolicyDefault repl = (BlockPlacementPolicyDefault)replicator; |
| List<DatanodeDescriptor> chosenNodes = new ArrayList<DatanodeDescriptor>(); |
| |
| excludedNodes = new HashMap<Node, Node>(); |
| excludedNodes.put(dataNodes[1], dataNodes[1]); |
| targets = chooseTarget(repl, 0, dataNodes[0], chosenNodes, excludedNodes, |
| BLOCK_SIZE); |
| assertEquals(targets.length, 0); |
| |
| excludedNodes.clear(); |
| chosenNodes.clear(); |
| excludedNodes.put(dataNodes[1], dataNodes[1]); |
| targets = chooseTarget(repl, 1, dataNodes[0], chosenNodes, excludedNodes, |
| BLOCK_SIZE); |
| assertEquals(targets.length, 1); |
| assertEquals(targets[0], dataNodes[0]); |
| |
| excludedNodes.clear(); |
| chosenNodes.clear(); |
| excludedNodes.put(dataNodes[1], dataNodes[1]); |
| targets = chooseTarget(repl, 2, dataNodes[0], chosenNodes, excludedNodes, |
| BLOCK_SIZE); |
| assertEquals(targets.length, 2); |
| assertEquals(targets[0], dataNodes[0]); |
| assertFalse(cluster.isOnSameRack(targets[0], targets[1])); |
| |
| excludedNodes.clear(); |
| chosenNodes.clear(); |
| excludedNodes.put(dataNodes[1], dataNodes[1]); |
| targets = chooseTarget(repl, 3, dataNodes[0], chosenNodes, excludedNodes, |
| BLOCK_SIZE); |
| assertEquals(targets.length, 3); |
| assertEquals(targets[0], dataNodes[0]); |
| assertFalse(cluster.isOnSameRack(targets[0], targets[1])); |
| assertTrue(cluster.isOnSameRack(targets[1], targets[2])); |
| |
| excludedNodes.clear(); |
| chosenNodes.clear(); |
| excludedNodes.put(dataNodes[1], dataNodes[1]); |
| targets = chooseTarget(repl, 4, dataNodes[0], chosenNodes, excludedNodes, |
| BLOCK_SIZE); |
| assertEquals(targets.length, 4); |
| assertEquals(targets[0], dataNodes[0]); |
| for(int i=1; i<4; i++) { |
| assertFalse(cluster.isOnSameRack(targets[0], targets[i])); |
| } |
| assertTrue(cluster.isOnSameRack(targets[1], targets[2]) || |
| cluster.isOnSameRack(targets[2], targets[3])); |
| assertFalse(cluster.isOnSameRack(targets[1], targets[3])); |
| |
| excludedNodes.clear(); |
| chosenNodes.clear(); |
| excludedNodes.put(dataNodes[1], dataNodes[1]); |
| chosenNodes.add(dataNodes[2]); |
| targets = repl.chooseTarget(1, dataNodes[0], chosenNodes, true, |
| excludedNodes, BLOCK_SIZE); |
| System.out.println("targets=" + Arrays.asList(targets)); |
| assertEquals(2, targets.length); |
| //make sure that the chosen node is in the target. |
| int i = 0; |
| for(; i < targets.length && !dataNodes[2].equals(targets[i]); i++); |
| assertTrue(i < targets.length); |
| } |
| |
| /** |
| * In this testcase, client is dataNodes[0], but dataNodes[0] is not qualified |
| * to be chosen. So the 1st replica should be placed on dataNodes[1], |
| * the 2nd replica should be placed on a different rack, |
| * the 3rd replica should be placed on the same rack as the 2nd replica, |
| * and the rest should be placed on the third rack. |
| * @throws Exception |
| */ |
| public void testChooseTarget3() throws Exception { |
| // make data node 0 to be not qualified to choose |
| dataNodes[0].updateHeartbeat( |
| 2*HdfsConstants.MIN_BLOCKS_FOR_WRITE*BLOCK_SIZE, 0L, |
| (HdfsConstants.MIN_BLOCKS_FOR_WRITE-1)*BLOCK_SIZE, 0L, 0, 0); // no space |
| |
| DatanodeDescriptor[] targets; |
| targets = replicator.chooseTarget(filename, |
| 0, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 0); |
| |
| targets = replicator.chooseTarget(filename, |
| 1, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 1); |
| assertEquals(targets[0], dataNodes[1]); |
| |
| targets = replicator.chooseTarget(filename, |
| 2, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 2); |
| assertEquals(targets[0], dataNodes[1]); |
| assertFalse(cluster.isOnSameRack(targets[0], targets[1])); |
| |
| targets = replicator.chooseTarget(filename, |
| 3, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 3); |
| assertEquals(targets[0], dataNodes[1]); |
| assertTrue(cluster.isOnSameRack(targets[1], targets[2])); |
| assertFalse(cluster.isOnSameRack(targets[0], targets[1])); |
| |
| targets = replicator.chooseTarget(filename, |
| 4, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 4); |
| assertEquals(targets[0], dataNodes[1]); |
| for(int i=1; i<4; i++) { |
| assertFalse(cluster.isOnSameRack(targets[0], targets[i])); |
| } |
| assertTrue(cluster.isOnSameRack(targets[1], targets[2]) || |
| cluster.isOnSameRack(targets[2], targets[3])); |
| assertFalse(cluster.isOnSameRack(targets[1], targets[3])); |
| |
| dataNodes[0].updateHeartbeat( |
| 2*HdfsConstants.MIN_BLOCKS_FOR_WRITE*BLOCK_SIZE, 0L, |
| HdfsConstants.MIN_BLOCKS_FOR_WRITE*BLOCK_SIZE, 0L, 0, 0); |
| } |
| |
| /** |
| * In this testcase, client is dataNodes[0], but none of the nodes on rack 1 |
| * is qualified to be chosen. So the 1st replica should be placed on either |
| * rack 2 or rack 3. |
| * the 2nd replica should be placed on a different rack, |
| * the 3rd replica should be placed on the same rack as the 1st replica, |
| * @throws Exception |
| */ |
| public void testChoooseTarget4() throws Exception { |
| // make data node 0 & 1 to be not qualified to choose: not enough disk space |
| for(int i=0; i<2; i++) { |
| dataNodes[i].updateHeartbeat( |
| 2*HdfsConstants.MIN_BLOCKS_FOR_WRITE*BLOCK_SIZE, 0L, |
| (HdfsConstants.MIN_BLOCKS_FOR_WRITE-1)*BLOCK_SIZE, 0L, 0, 0); |
| } |
| |
| DatanodeDescriptor[] targets; |
| targets = replicator.chooseTarget(filename, |
| 0, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 0); |
| |
| targets = replicator.chooseTarget(filename, |
| 1, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 1); |
| assertFalse(cluster.isOnSameRack(targets[0], dataNodes[0])); |
| |
| targets = replicator.chooseTarget(filename, |
| 2, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 2); |
| assertFalse(cluster.isOnSameRack(targets[0], dataNodes[0])); |
| assertFalse(cluster.isOnSameRack(targets[0], targets[1])); |
| |
| targets = replicator.chooseTarget(filename, |
| 3, dataNodes[0], BLOCK_SIZE); |
| assertEquals(targets.length, 3); |
| for(int i=0; i<3; i++) { |
| assertFalse(cluster.isOnSameRack(targets[i], dataNodes[0])); |
| } |
| assertTrue(cluster.isOnSameRack(targets[0], targets[1]) || |
| cluster.isOnSameRack(targets[1], targets[2])); |
| assertFalse(cluster.isOnSameRack(targets[0], targets[2])); |
| |
| for(int i=0; i<2; i++) { |
| dataNodes[i].updateHeartbeat( |
| 2*HdfsConstants.MIN_BLOCKS_FOR_WRITE*BLOCK_SIZE, 0L, |
| HdfsConstants.MIN_BLOCKS_FOR_WRITE*BLOCK_SIZE, 0L, 0, 0); |
| } |
| } |
| /** |
| * In this testcase, client is is a node outside of file system. |
| * So the 1st replica can be placed on any node. |
| * the 2nd replica should be placed on a different rack, |
| * the 3rd replica should be placed on the same rack as the 2nd replica, |
| * @throws Exception |
| */ |
| public void testChooseTarget5() throws Exception { |
| DatanodeDescriptor[] targets; |
| targets = replicator.chooseTarget(filename, |
| 0, NODE, BLOCK_SIZE); |
| assertEquals(targets.length, 0); |
| |
| targets = replicator.chooseTarget(filename, |
| 1, NODE, BLOCK_SIZE); |
| assertEquals(targets.length, 1); |
| |
| targets = replicator.chooseTarget(filename, |
| 2, NODE, BLOCK_SIZE); |
| assertEquals(targets.length, 2); |
| assertFalse(cluster.isOnSameRack(targets[0], targets[1])); |
| |
| targets = replicator.chooseTarget(filename, |
| 3, NODE, BLOCK_SIZE); |
| assertEquals(targets.length, 3); |
| assertTrue(cluster.isOnSameRack(targets[1], targets[2])); |
| assertFalse(cluster.isOnSameRack(targets[0], targets[1])); |
| } |
| |
| /** |
| * This testcase tests re-replication, when dataNodes[0] is already chosen. |
| * So the 1st replica can be placed on random rack. |
| * the 2nd replica should be placed on different node by same rack as |
| * the 1st replica. The 3rd replica can be placed randomly. |
| * @throws Exception |
| */ |
| public void testRereplicate1() throws Exception { |
| List<DatanodeDescriptor> chosenNodes = new ArrayList<DatanodeDescriptor>(); |
| chosenNodes.add(dataNodes[0]); |
| DatanodeDescriptor[] targets; |
| |
| targets = replicator.chooseTarget(filename, |
| 0, dataNodes[0], chosenNodes, BLOCK_SIZE); |
| assertEquals(targets.length, 0); |
| |
| targets = replicator.chooseTarget(filename, |
| 1, dataNodes[0], chosenNodes, BLOCK_SIZE); |
| assertEquals(targets.length, 1); |
| assertFalse(cluster.isOnSameRack(dataNodes[0], targets[0])); |
| |
| targets = replicator.chooseTarget(filename, |
| 2, dataNodes[0], chosenNodes, BLOCK_SIZE); |
| assertEquals(targets.length, 2); |
| assertTrue(cluster.isOnSameRack(dataNodes[0], targets[0])); |
| assertFalse(cluster.isOnSameRack(targets[0], targets[1])); |
| |
| targets = replicator.chooseTarget(filename, |
| 3, dataNodes[0], chosenNodes, BLOCK_SIZE); |
| assertEquals(targets.length, 3); |
| assertTrue(cluster.isOnSameRack(dataNodes[0], targets[0])); |
| assertFalse(cluster.isOnSameRack(targets[0], targets[2])); |
| } |
| |
| /** |
| * This testcase tests re-replication, |
| * when dataNodes[0] and dataNodes[1] are already chosen. |
| * So the 1st replica should be placed on a different rack than rack 1. |
| * the rest replicas can be placed randomly, |
| * @throws Exception |
| */ |
| public void testRereplicate2() throws Exception { |
| List<DatanodeDescriptor> chosenNodes = new ArrayList<DatanodeDescriptor>(); |
| chosenNodes.add(dataNodes[0]); |
| chosenNodes.add(dataNodes[1]); |
| |
| DatanodeDescriptor[] targets; |
| targets = replicator.chooseTarget(filename, |
| 0, dataNodes[0], chosenNodes, BLOCK_SIZE); |
| assertEquals(targets.length, 0); |
| |
| targets = replicator.chooseTarget(filename, |
| 1, dataNodes[0], chosenNodes, BLOCK_SIZE); |
| assertEquals(targets.length, 1); |
| assertFalse(cluster.isOnSameRack(dataNodes[0], targets[0])); |
| |
| targets = replicator.chooseTarget(filename, |
| 2, dataNodes[0], chosenNodes, BLOCK_SIZE); |
| assertEquals(targets.length, 2); |
| assertFalse(cluster.isOnSameRack(dataNodes[0], targets[0])); |
| assertFalse(cluster.isOnSameRack(dataNodes[0], targets[1])); |
| } |
| |
| /** |
| * This testcase tests re-replication, |
| * when dataNodes[0] and dataNodes[2] are already chosen. |
| * So the 1st replica should be placed on the rack that the writer resides. |
| * the rest replicas can be placed randomly, |
| * @throws Exception |
| */ |
| public void testRereplicate3() throws Exception { |
| List<DatanodeDescriptor> chosenNodes = new ArrayList<DatanodeDescriptor>(); |
| chosenNodes.add(dataNodes[0]); |
| chosenNodes.add(dataNodes[2]); |
| |
| DatanodeDescriptor[] targets; |
| targets = replicator.chooseTarget(filename, |
| 0, dataNodes[0], chosenNodes, BLOCK_SIZE); |
| assertEquals(targets.length, 0); |
| |
| targets = replicator.chooseTarget(filename, |
| 1, dataNodes[0], chosenNodes, BLOCK_SIZE); |
| assertEquals(targets.length, 1); |
| assertTrue(cluster.isOnSameRack(dataNodes[0], targets[0])); |
| assertFalse(cluster.isOnSameRack(dataNodes[2], targets[0])); |
| |
| targets = replicator.chooseTarget(filename, |
| 1, dataNodes[2], chosenNodes, BLOCK_SIZE); |
| assertEquals(targets.length, 1); |
| assertTrue(cluster.isOnSameRack(dataNodes[2], targets[0])); |
| assertFalse(cluster.isOnSameRack(dataNodes[0], targets[0])); |
| |
| targets = replicator.chooseTarget(filename, |
| 2, dataNodes[0], chosenNodes, BLOCK_SIZE); |
| assertEquals(targets.length, 2); |
| assertTrue(cluster.isOnSameRack(dataNodes[0], targets[0])); |
| |
| targets = replicator.chooseTarget(filename, |
| 2, dataNodes[2], chosenNodes, BLOCK_SIZE); |
| assertEquals(targets.length, 2); |
| assertTrue(cluster.isOnSameRack(dataNodes[2], targets[0])); |
| } |
| |
| } |