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/**
 * 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.namenode;

import java.io.IOException;
import java.util.ArrayList;
import java.util.List;

import org.apache.hadoop.hdfs.protocol.Block;
import org.apache.hadoop.hdfs.server.common.HdfsConstants.BlockUCState;
import org.apache.hadoop.hdfs.server.common.HdfsConstants.ReplicaState;

/**
 * Represents a block that is currently being constructed.
* This is usually the last block of a file opened for write or append. */ class BlockInfoUnderConstruction extends BlockInfo { /** Block state. See {@link BlockUCState} */ private BlockUCState blockUCState; /** * Block replicas as assigned when the block was allocated. * This defines the pipeline order. */ private List replicas; /** A data-node responsible for block recovery. */ private int primaryNodeIndex = -1; /** * The new generation stamp, which this block will have * after the recovery succeeds. Also used as a recovery id to identify * the right recovery if any of the abandoned recoveries re-appear. */ private long blockRecoveryId = 0; /** * ReplicaUnderConstruction contains information about replicas while * they are under construction. * The GS, the length and the state of the replica is as reported by * the data-node. * It is not guaranteed, but expected, that data-nodes actually have * corresponding replicas. */ static class ReplicaUnderConstruction extends Block { private DatanodeDescriptor expectedLocation; private ReplicaState state; ReplicaUnderConstruction(Block block, DatanodeDescriptor target, ReplicaState state) { super(block); this.expectedLocation = target; this.state = state; } /** * Expected block replica location as assigned when the block was allocated. * This defines the pipeline order. * It is not guaranteed, but expected, that the data-node actually has * the replica. */ DatanodeDescriptor getExpectedLocation() { return expectedLocation; } /** * Get replica state as reported by the data-node. */ ReplicaState getState() { return state; } /** * Set replica state. */ void setState(ReplicaState s) { state = s; } /** * Is data-node the replica belongs to alive. */ boolean isAlive() { return expectedLocation.isAlive; } @Override // Block public int hashCode() { return super.hashCode(); } @Override // Block public boolean equals(Object obj) { // Sufficient to rely on super's implementation return (this == obj) || super.equals(obj); } /** {@inheritDoc} */ @Override public String toString() { final StringBuilder b = new StringBuilder(getClass().getSimpleName()); b.append("[") .append(expectedLocation) .append("|") .append(state) .append("]"); return b.toString(); } } /** * Create block and set its state to * {@link BlockUCState#UNDER_CONSTRUCTION}. */ BlockInfoUnderConstruction(Block blk, int replication) { this(blk, replication, BlockUCState.UNDER_CONSTRUCTION, null); } BlockInfoUnderConstruction(Block blk, int replication, BlockUCState state, DatanodeDescriptor[] targets) { super(blk, replication); assert getBlockUCState() != BlockUCState.COMPLETE : "BlockInfoUnderConstruction cannot be in COMPLETE state"; this.blockUCState = state; setExpectedLocations(targets); } /** * Convert an under construction block to a complete block. * * @return BlockInfo - a complete block. * @throws IOException if the state of the block * (the generation stamp and the length) has not been committed by * the client or it does not have at least a minimal number of replicas * reported from data-nodes. */ BlockInfo convertToCompleteBlock() throws IOException { assert getBlockUCState() != BlockUCState.COMPLETE : "Trying to convert a COMPLETE block"; if(getBlockUCState() != BlockUCState.COMMITTED) throw new IOException( "Cannot complete block: block has not been COMMITTED by the client"); return new BlockInfo(this); } void setExpectedLocations(DatanodeDescriptor[] targets) { int numLocations = targets == null ? 0 : targets.length; this.replicas = new ArrayList(numLocations); for(int i = 0; i < numLocations; i++) replicas.add( new ReplicaUnderConstruction(this, targets[i], ReplicaState.RBW)); } /** * Create array of expected replica locations * (as has been assigned by chooseTargets()). */ DatanodeDescriptor[] getExpectedLocations() { int numLocations = replicas == null ? 0 : replicas.size(); DatanodeDescriptor[] locations = new DatanodeDescriptor[numLocations]; for(int i = 0; i < numLocations; i++) locations[i] = replicas.get(i).getExpectedLocation(); return locations; } int getNumExpectedLocations() { return replicas == null ? 0 : replicas.size(); } /** * Return the state of the block under construction. * @see BlockUCState */ @Override // BlockInfo BlockUCState getBlockUCState() { return blockUCState; } void setBlockUCState(BlockUCState s) { blockUCState = s; } long getBlockRecoveryId() { return blockRecoveryId; } /** * Commit block's length and generation stamp as reported by the client. * Set block state to {@link BlockUCState#COMMITTED}. * @param block - contains client reported block length and generation * @throws IOException if block ids are inconsistent. */ void commitBlock(Block block) throws IOException { if(getBlockId() != block.getBlockId()) throw new IOException("Trying to commit inconsistent block: id = " + block.getBlockId() + ", expected id = " + getBlockId()); blockUCState = BlockUCState.COMMITTED; this.set(getBlockId(), block.getNumBytes(), block.getGenerationStamp()); } /** * Initialize lease recovery for this block. * Find the first alive data-node starting from the previous primary and * make it primary. */ void initializeBlockRecovery(long recoveryId) { setBlockUCState(BlockUCState.UNDER_RECOVERY); blockRecoveryId = recoveryId; if (replicas.size() == 0) { NameNode.stateChangeLog.warn("BLOCK*" + " INodeFileUnderConstruction.initLeaseRecovery:" + " No blocks found, lease removed."); } int previous = primaryNodeIndex; for(int i = 1; i <= replicas.size(); i++) { int j = (previous + i)%replicas.size(); if (replicas.get(j).isAlive()) { primaryNodeIndex = j; DatanodeDescriptor primary = replicas.get(j).getExpectedLocation(); primary.addBlockToBeRecovered(this); NameNode.stateChangeLog.info("BLOCK* " + this + " recovery started, primary=" + primary); return; } } } void addReplicaIfNotPresent(DatanodeDescriptor dn, Block block, ReplicaState rState) { for(ReplicaUnderConstruction r : replicas) if(r.getExpectedLocation() == dn) return; replicas.add(new ReplicaUnderConstruction(block, dn, rState)); } @Override // BlockInfo // BlockInfoUnderConstruction participates in maps the same way as BlockInfo public int hashCode() { return super.hashCode(); } @Override // BlockInfo public boolean equals(Object obj) { // Sufficient to rely on super's implementation return (this == obj) || super.equals(obj); } /** {@inheritDoc} */ @Override public String toString() { final StringBuilder b = new StringBuilder(super.toString()); b.append("{blockUCState=").append(blockUCState) .append(", primaryNodeIndex=").append(primaryNodeIndex) .append(", replicas=").append(replicas) .append("}"); return b.toString(); } }




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