branch-0.23.1/hadoop-hdfs-project/hadoop-hdfs/src/main/java/org/apache/hadoop/hdfs/server/blockmanagement/DatanodeDescriptor.java - hadoop - Git at Google

 /**
  * 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.DataInput;
 import java.io.IOException;
 import java.util.ArrayList;
 import java.util.Collection;
 import java.util.Iterator;
 import java.util.LinkedList;
 import java.util.List;
 import java.util.Queue;
 import java.util.Set;
 import java.util.TreeSet;

 import org.apache.hadoop.classification.InterfaceAudience;
 import org.apache.hadoop.classification.InterfaceStability;
 import org.apache.hadoop.hdfs.DeprecatedUTF8;
 import org.apache.hadoop.hdfs.protocol.Block;
 import org.apache.hadoop.hdfs.protocol.DatanodeID;
 import org.apache.hadoop.hdfs.protocol.DatanodeInfo;
 import org.apache.hadoop.io.Text;
 import org.apache.hadoop.io.WritableUtils;

 /**************************************************
  * DatanodeDescriptor tracks stats on a given DataNode, such as
  * available storage capacity, last update time, etc., and maintains a
  * set of blocks stored on the datanode.
  *
  * This data structure is internal to the namenode. It is *not* sent
  * over-the-wire to the Client or the Datanodes. Neither is it stored
  * persistently in the fsImage.
  **************************************************/
 @InterfaceAudience.Private
 public class DatanodeDescriptor extends DatanodeInfo {

   // Stores status of decommissioning.
   // If node is not decommissioning, do not use this object for anything.
   public DecommissioningStatus decommissioningStatus = new DecommissioningStatus();

   /** Block and targets pair */
   @InterfaceAudience.Private
   @InterfaceStability.Evolving
   public static class BlockTargetPair {
     public final Block block;
     public final DatanodeDescriptor[] targets;

     BlockTargetPair(Block block, DatanodeDescriptor[] targets) {
       this.block = block;
       this.targets = targets;
     }
   }

   /** A BlockTargetPair queue. */
   private static class BlockQueue<E> {
     private final Queue<E> blockq = new LinkedList<E>();

     /** Size of the queue */
     synchronized int size() {return blockq.size();}

     /** Enqueue */
     synchronized boolean offer(E e) {
       return blockq.offer(e);
     }

     /** Dequeue */
     synchronized List<E> poll(int numBlocks) {
       if (numBlocks <= 0 || blockq.isEmpty()) {
         return null;
       }

       List<E> results = new ArrayList<E>();
       for(; !blockq.isEmpty() && numBlocks > 0; numBlocks--) {
         results.add(blockq.poll());
       }
       return results;
     }

     /**
      * Returns <tt>true</tt> if the queue contains the specified element.
      */
     boolean contains(E e) {
       return blockq.contains(e);
     }
   }

   private volatile BlockInfo blockList = null;
   private int numBlocks = 0;
   // isAlive == heartbeats.contains(this)
   // This is an optimization, because contains takes O(n) time on Arraylist
   public boolean isAlive = false;
   public boolean needKeyUpdate = false;

   // A system administrator can tune the balancer bandwidth parameter
   // (dfs.balance.bandwidthPerSec) dynamically by calling
   // "dfsadmin -setBalanacerBandwidth <newbandwidth>", at which point the
   // following 'bandwidth' variable gets updated with the new value for each
   // node. Once the heartbeat command is issued to update the value on the
   // specified datanode, this value will be set back to 0.
   private long bandwidth;

   /** A queue of blocks to be replicated by this datanode */
   private BlockQueue<BlockTargetPair> replicateBlocks = new BlockQueue<BlockTargetPair>();
   /** A queue of blocks to be recovered by this datanode */
   private BlockQueue<BlockInfoUnderConstruction> recoverBlocks =
                                 new BlockQueue<BlockInfoUnderConstruction>();
   /** A set of blocks to be invalidated by this datanode */
   private Set<Block> invalidateBlocks = new TreeSet<Block>();

   /* Variables for maintaining number of blocks scheduled to be written to
    * this datanode. This count is approximate and might be slightly bigger
    * in case of errors (e.g. datanode does not report if an error occurs
    * while writing the block).
    */
   private int currApproxBlocksScheduled = 0;
   private int prevApproxBlocksScheduled = 0;
   private long lastBlocksScheduledRollTime = 0;
   private static final int BLOCKS_SCHEDULED_ROLL_INTERVAL = 600*1000; //10min
   private int volumeFailures = 0;
   /**
    * When set to true, the node is not in include list and is not allowed
    * to communicate with the namenode
    */
   private boolean disallowed = false;

   /** Default constructor */
   public DatanodeDescriptor() {}

   /** DatanodeDescriptor constructor
    * @param nodeID id of the data node
    */
   public DatanodeDescriptor(DatanodeID nodeID) {
     this(nodeID, 0L, 0L, 0L, 0L, 0, 0);
   }

   /** DatanodeDescriptor constructor
    *
    * @param nodeID id of the data node
    * @param networkLocation location of the data node in network
    */
   public DatanodeDescriptor(DatanodeID nodeID,
                             String networkLocation) {
     this(nodeID, networkLocation, null);
   }

   /** DatanodeDescriptor constructor
    *
    * @param nodeID id of the data node
    * @param networkLocation location of the data node in network
    * @param hostName it could be different from host specified for DatanodeID
    */
   public DatanodeDescriptor(DatanodeID nodeID,
                             String networkLocation,
                             String hostName) {
     this(nodeID, networkLocation, hostName, 0L, 0L, 0L, 0L, 0, 0);
   }

   /** DatanodeDescriptor constructor
    *
    * @param nodeID id of the data node
    * @param capacity capacity of the data node
    * @param dfsUsed space used by the data node
    * @param remaining remaining capacity of the data node
    * @param bpused space used by the block pool corresponding to this namenode
    * @param xceiverCount # of data transfers at the data node
    */
   public DatanodeDescriptor(DatanodeID nodeID,
                             long capacity,
                             long dfsUsed,
                             long remaining,
                             long bpused,
                             int xceiverCount,
                             int failedVolumes) {
     super(nodeID);
     updateHeartbeat(capacity, dfsUsed, remaining, bpused, xceiverCount,
         failedVolumes);
   }

   /** DatanodeDescriptor constructor
    *
    * @param nodeID id of the data node
    * @param networkLocation location of the data node in network
    * @param capacity capacity of the data node, including space used by non-dfs
    * @param dfsUsed the used space by dfs datanode
    * @param remaining remaining capacity of the data node
    * @param bpused space used by the block pool corresponding to this namenode
    * @param xceiverCount # of data transfers at the data node
    */
   public DatanodeDescriptor(DatanodeID nodeID,
                             String networkLocation,
                             String hostName,
                             long capacity,
                             long dfsUsed,
                             long remaining,
                             long bpused,
                             int xceiverCount,
                             int failedVolumes) {
     super(nodeID, networkLocation, hostName);
     updateHeartbeat(capacity, dfsUsed, remaining, bpused, xceiverCount,
         failedVolumes);
   }

   /**
    * Add datanode to the block.
    * Add block to the head of the list of blocks belonging to the data-node.
    */
   public boolean addBlock(BlockInfo b) {
     if(!b.addNode(this))
       return false;
     // add to the head of the data-node list
     blockList = b.listInsert(blockList, this);
     numBlocks++;
     return true;
   }

   /**
    * Remove block from the list of blocks belonging to the data-node.
    * Remove datanode from the block.
    */
   public boolean removeBlock(BlockInfo b) {
     blockList = b.listRemove(blockList, this);
     if ( b.removeNode(this) ) {
       numBlocks--;
       return true;
     } else {
       return false;
     }
   }

   /**
    * Move block to the head of the list of blocks belonging to the data-node.
    */
   void moveBlockToHead(BlockInfo b) {
     blockList = b.listRemove(blockList, this);
     blockList = b.listInsert(blockList, this);
   }

   /**
    * Replace specified old block with a new one in the DataNodeDescriptor.
    *
    * @param oldBlock - block to be replaced
    * @param newBlock - a replacement block
    * @return the new block
    */
   public BlockInfo replaceBlock(BlockInfo oldBlock, BlockInfo newBlock) {
     boolean done = removeBlock(oldBlock);
     assert done : "Old block should belong to the data-node when replacing";
     done = addBlock(newBlock);
     assert done : "New block should not belong to the data-node when replacing";
     return newBlock;
   }

   public void resetBlocks() {
     this.capacity = 0;
     this.remaining = 0;
     this.blockPoolUsed = 0;
     this.dfsUsed = 0;
     this.xceiverCount = 0;
     this.blockList = null;
     this.invalidateBlocks.clear();
     this.volumeFailures = 0;
   }

   public int numBlocks() {
     return numBlocks;
   }

   /**
    * Updates stats from datanode heartbeat.
    */
   public void updateHeartbeat(long capacity, long dfsUsed, long remaining,
       long blockPoolUsed, int xceiverCount, int volFailures) {
     this.capacity = capacity;
     this.dfsUsed = dfsUsed;
     this.remaining = remaining;
     this.blockPoolUsed = blockPoolUsed;
     this.lastUpdate = System.currentTimeMillis();
     this.xceiverCount = xceiverCount;
     this.volumeFailures = volFailures;
     rollBlocksScheduled(lastUpdate);
   }

   /**
    * Iterates over the list of blocks belonging to the datanode.
    */
   public static class BlockIterator implements Iterator<BlockInfo> {
     private BlockInfo current;
     private DatanodeDescriptor node;

     BlockIterator(BlockInfo head, DatanodeDescriptor dn) {
       this.current = head;
       this.node = dn;
     }

     public boolean hasNext() {
       return current != null;
     }

     public BlockInfo next() {
       BlockInfo res = current;
       current = current.getNext(current.findDatanode(node));
       return res;
     }

     public void remove()  {
       throw new UnsupportedOperationException("Sorry. can't remove.");
     }
   }

   public Iterator<BlockInfo> getBlockIterator() {
     return new BlockIterator(this.blockList, this);
   }

   /**
    * Store block replication work.
    */
   void addBlockToBeReplicated(Block block, DatanodeDescriptor[] targets) {
     assert(block != null && targets != null && targets.length > 0);
     replicateBlocks.offer(new BlockTargetPair(block, targets));
   }

   /**
    * Store block recovery work.
    */
   void addBlockToBeRecovered(BlockInfoUnderConstruction block) {
     if(recoverBlocks.contains(block)) {
       // this prevents adding the same block twice to the recovery queue
       BlockManager.LOG.info("Block " + block +
                             " is already in the recovery queue.");
       return;
     }
     recoverBlocks.offer(block);
   }

   /**
    * Store block invalidation work.
    */
   void addBlocksToBeInvalidated(List<Block> blocklist) {
     assert(blocklist != null && blocklist.size() > 0);
     synchronized (invalidateBlocks) {
       for(Block blk : blocklist) {
         invalidateBlocks.add(blk);
       }
     }
   }

   /**
    * The number of work items that are pending to be replicated
    */
   int getNumberOfBlocksToBeReplicated() {
     return replicateBlocks.size();
   }

   /**
    * The number of block invalidation items that are pending to
    * be sent to the datanode
    */
   int getNumberOfBlocksToBeInvalidated() {
     synchronized (invalidateBlocks) {
       return invalidateBlocks.size();
     }
   }

   public List<BlockTargetPair> getReplicationCommand(int maxTransfers) {
     return replicateBlocks.poll(maxTransfers);
   }

   public BlockInfoUnderConstruction[] getLeaseRecoveryCommand(int maxTransfers) {
     List<BlockInfoUnderConstruction> blocks = recoverBlocks.poll(maxTransfers);
     if(blocks == null)
       return null;
     return blocks.toArray(new BlockInfoUnderConstruction[blocks.size()]);
   }

   /**
    * Remove the specified number of blocks to be invalidated
    */
   public Block[] getInvalidateBlocks(int maxblocks) {
     return getBlockArray(invalidateBlocks, maxblocks);
   }

   static private Block[] getBlockArray(Collection<Block> blocks, int max) {
     Block[] blockarray = null;
     synchronized(blocks) {
       int available = blocks.size();
       int n = available;
       if (max > 0 && n > 0) {
         if (max < n) {
           n = max;
         }
         // allocate the properly sized block array ...
         blockarray = new Block[n];

         // iterate tree collecting n blocks...
         Iterator<Block> e = blocks.iterator();
         int blockCount = 0;

         while (blockCount < n && e.hasNext()) {
           // insert into array ...
           blockarray[blockCount++] = e.next();

           // remove from tree via iterator, if we are removing
           // less than total available blocks
           if (n < available){
             e.remove();
           }
         }
         assert(blockarray.length == n);

         // now if the number of blocks removed equals available blocks,
         // them remove all blocks in one fell swoop via clear
         if (n == available) {
           blocks.clear();
         }
       }
     }
     return blockarray;
   }

   /** Serialization for FSEditLog */
   public void readFieldsFromFSEditLog(DataInput in) throws IOException {
     this.name = DeprecatedUTF8.readString(in);
     this.storageID = DeprecatedUTF8.readString(in);
     this.infoPort = in.readShort() & 0x0000ffff;

     this.capacity = in.readLong();
     this.dfsUsed = in.readLong();
     this.remaining = in.readLong();
     this.blockPoolUsed = in.readLong();
     this.lastUpdate = in.readLong();
     this.xceiverCount = in.readInt();
     this.location = Text.readString(in);
     this.hostName = Text.readString(in);
     setAdminState(WritableUtils.readEnum(in, AdminStates.class));
   }

   /**
    * @return Approximate number of blocks currently scheduled to be written
    * to this datanode.
    */
   public int getBlocksScheduled() {
     return currApproxBlocksScheduled + prevApproxBlocksScheduled;
   }

   /**
    * Increments counter for number of blocks scheduled.
    */
   public void incBlocksScheduled() {
     currApproxBlocksScheduled++;
   }

   /**
    * Decrements counter for number of blocks scheduled.
    */
   void decBlocksScheduled() {
     if (prevApproxBlocksScheduled > 0) {
       prevApproxBlocksScheduled--;
     } else if (currApproxBlocksScheduled > 0) {
       currApproxBlocksScheduled--;
     }
     // its ok if both counters are zero.
   }

   /**
    * Adjusts curr and prev number of blocks scheduled every few minutes.
    */
   private void rollBlocksScheduled(long now) {
     if ((now - lastBlocksScheduledRollTime) >
         BLOCKS_SCHEDULED_ROLL_INTERVAL) {
       prevApproxBlocksScheduled = currApproxBlocksScheduled;
       currApproxBlocksScheduled = 0;
       lastBlocksScheduledRollTime = now;
     }
   }

   @Override
   public int hashCode() {
     // Super implementation is sufficient
     return super.hashCode();
   }

   @Override
   public boolean equals(Object obj) {
     // Sufficient to use super equality as datanodes are uniquely identified
     // by DatanodeID
     return (this == obj) || super.equals(obj);
   }

   /** Decommissioning status */
   public class DecommissioningStatus {
     private int underReplicatedBlocks;
     private int decommissionOnlyReplicas;
     private int underReplicatedInOpenFiles;
     private long startTime;

     synchronized void set(int underRep,
         int onlyRep, int underConstruction) {
       if (isDecommissionInProgress() == false) {
         return;
       }
       underReplicatedBlocks = underRep;
       decommissionOnlyReplicas = onlyRep;
       underReplicatedInOpenFiles = underConstruction;
     }

     /** @return the number of under-replicated blocks */
     public synchronized int getUnderReplicatedBlocks() {
       if (isDecommissionInProgress() == false) {
         return 0;
       }
       return underReplicatedBlocks;
     }
     /** @return the number of decommission-only replicas */
     public synchronized int getDecommissionOnlyReplicas() {
       if (isDecommissionInProgress() == false) {
         return 0;
       }
       return decommissionOnlyReplicas;
     }
     /** @return the number of under-replicated blocks in open files */
     public synchronized int getUnderReplicatedInOpenFiles() {
       if (isDecommissionInProgress() == false) {
         return 0;
       }
       return underReplicatedInOpenFiles;
     }
     /** Set start time */
     public synchronized void setStartTime(long time) {
       startTime = time;
     }
     /** @return start time */
     public synchronized long getStartTime() {
       if (isDecommissionInProgress() == false) {
         return 0;
       }
       return startTime;
     }
   }  // End of class DecommissioningStatus

   /**
    * Set the flag to indicate if this datanode is disallowed from communicating
    * with the namenode.
    */
   public void setDisallowed(boolean flag) {
     disallowed = flag;
   }
   /** Is the datanode disallowed from communicating with the namenode? */
   public boolean isDisallowed() {
     return disallowed;
   }

   /**
    * @return number of failed volumes in the datanode.
    */
   public int getVolumeFailures() {
     return volumeFailures;
   }

   /**
    * @param nodeReg DatanodeID to update registration for.
    */
   public void updateRegInfo(DatanodeID nodeReg) {
     super.updateRegInfo(nodeReg);
   }

   /**
    * @return Blanacer bandwidth in bytes per second for this datanode.
    */
   public long getBalancerBandwidth() {
     return this.bandwidth;
   }

   /**
    * @param bandwidth Blanacer bandwidth in bytes per second for this datanode.
    */
   public void setBalancerBandwidth(long bandwidth) {
     this.bandwidth = bandwidth;
   }


 }
	/**
	* 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.DataInput;
	import java.io.IOException;
	import java.util.ArrayList;
	import java.util.Collection;
	import java.util.Iterator;
	import java.util.LinkedList;
	import java.util.List;
	import java.util.Queue;
	import java.util.Set;
	import java.util.TreeSet;

	import org.apache.hadoop.classification.InterfaceAudience;
	import org.apache.hadoop.classification.InterfaceStability;
	import org.apache.hadoop.hdfs.DeprecatedUTF8;
	import org.apache.hadoop.hdfs.protocol.Block;
	import org.apache.hadoop.hdfs.protocol.DatanodeID;
	import org.apache.hadoop.hdfs.protocol.DatanodeInfo;
	import org.apache.hadoop.io.Text;
	import org.apache.hadoop.io.WritableUtils;

	/**************************************************
	* DatanodeDescriptor tracks stats on a given DataNode, such as
	* available storage capacity, last update time, etc., and maintains a
	* set of blocks stored on the datanode.
	*
	* This data structure is internal to the namenode. It is not sent
	* over-the-wire to the Client or the Datanodes. Neither is it stored
	* persistently in the fsImage.
	**************************************************/
	@InterfaceAudience.Private
	public class DatanodeDescriptor extends DatanodeInfo {

	// Stores status of decommissioning.
	// If node is not decommissioning, do not use this object for anything.
	public DecommissioningStatus decommissioningStatus = new DecommissioningStatus();

	/** Block and targets pair */
	@InterfaceAudience.Private
	@InterfaceStability.Evolving
	public static class BlockTargetPair {
	public final Block block;
	public final DatanodeDescriptor[] targets;

	BlockTargetPair(Block block, DatanodeDescriptor[] targets) {
	this.block = block;
	this.targets = targets;
	}
	}

	/** A BlockTargetPair queue. */
	private static class BlockQueue<E> {
	private final Queue<E> blockq = new LinkedList<E>();

	/** Size of the queue */
	synchronized int size() {return blockq.size();}

	/** Enqueue */
	synchronized boolean offer(E e) {
	return blockq.offer(e);
	}

	/** Dequeue */
	synchronized List<E> poll(int numBlocks) {
	if (numBlocks <= 0 \|\| blockq.isEmpty()) {
	return null;
	}

	List<E> results = new ArrayList<E>();
	for(; !blockq.isEmpty() && numBlocks > 0; numBlocks--) {
	results.add(blockq.poll());
	}
	return results;
	}

	/**
	* Returns <tt>true</tt> if the queue contains the specified element.
	*/
	boolean contains(E e) {
	return blockq.contains(e);
	}
	}

	private volatile BlockInfo blockList = null;
	private int numBlocks = 0;
	// isAlive == heartbeats.contains(this)
	// This is an optimization, because contains takes O(n) time on Arraylist
	public boolean isAlive = false;
	public boolean needKeyUpdate = false;

	// A system administrator can tune the balancer bandwidth parameter
	// (dfs.balance.bandwidthPerSec) dynamically by calling
	// "dfsadmin -setBalanacerBandwidth <newbandwidth>", at which point the
	// following 'bandwidth' variable gets updated with the new value for each
	// node. Once the heartbeat command is issued to update the value on the
	// specified datanode, this value will be set back to 0.
	private long bandwidth;

	/** A queue of blocks to be replicated by this datanode */
	private BlockQueue<BlockTargetPair> replicateBlocks = new BlockQueue<BlockTargetPair>();
	/** A queue of blocks to be recovered by this datanode */
	private BlockQueue<BlockInfoUnderConstruction> recoverBlocks =
	new BlockQueue<BlockInfoUnderConstruction>();
	/** A set of blocks to be invalidated by this datanode */
	private Set<Block> invalidateBlocks = new TreeSet<Block>();

	/* Variables for maintaining number of blocks scheduled to be written to
	* this datanode. This count is approximate and might be slightly bigger
	* in case of errors (e.g. datanode does not report if an error occurs
	* while writing the block).
	*/
	private int currApproxBlocksScheduled = 0;
	private int prevApproxBlocksScheduled = 0;
	private long lastBlocksScheduledRollTime = 0;
	private static final int BLOCKS_SCHEDULED_ROLL_INTERVAL = 600*1000; //10min
	private int volumeFailures = 0;
	/**
	* When set to true, the node is not in include list and is not allowed
	* to communicate with the namenode
	*/
	private boolean disallowed = false;

	/** Default constructor */
	public DatanodeDescriptor() {}

	/** DatanodeDescriptor constructor
	* @param nodeID id of the data node
	*/
	public DatanodeDescriptor(DatanodeID nodeID) {
	this(nodeID, 0L, 0L, 0L, 0L, 0, 0);
	}

	/** DatanodeDescriptor constructor
	*
	* @param nodeID id of the data node
	* @param networkLocation location of the data node in network
	*/
	public DatanodeDescriptor(DatanodeID nodeID,
	String networkLocation) {
	this(nodeID, networkLocation, null);
	}

	/** DatanodeDescriptor constructor
	*
	* @param nodeID id of the data node
	* @param networkLocation location of the data node in network
	* @param hostName it could be different from host specified for DatanodeID
	*/
	public DatanodeDescriptor(DatanodeID nodeID,
	String networkLocation,
	String hostName) {
	this(nodeID, networkLocation, hostName, 0L, 0L, 0L, 0L, 0, 0);
	}

	/** DatanodeDescriptor constructor
	*
	* @param nodeID id of the data node
	* @param capacity capacity of the data node
	* @param dfsUsed space used by the data node
	* @param remaining remaining capacity of the data node
	* @param bpused space used by the block pool corresponding to this namenode
	* @param xceiverCount # of data transfers at the data node
	*/
	public DatanodeDescriptor(DatanodeID nodeID,
	long capacity,
	long dfsUsed,
	long remaining,
	long bpused,
	int xceiverCount,
	int failedVolumes) {
	super(nodeID);
	updateHeartbeat(capacity, dfsUsed, remaining, bpused, xceiverCount,
	failedVolumes);
	}

	/** DatanodeDescriptor constructor
	*
	* @param nodeID id of the data node
	* @param networkLocation location of the data node in network
	* @param capacity capacity of the data node, including space used by non-dfs
	* @param dfsUsed the used space by dfs datanode
	* @param remaining remaining capacity of the data node
	* @param bpused space used by the block pool corresponding to this namenode
	* @param xceiverCount # of data transfers at the data node
	*/
	public DatanodeDescriptor(DatanodeID nodeID,
	String networkLocation,
	String hostName,
	long capacity,
	long dfsUsed,
	long remaining,
	long bpused,
	int xceiverCount,
	int failedVolumes) {
	super(nodeID, networkLocation, hostName);
	updateHeartbeat(capacity, dfsUsed, remaining, bpused, xceiverCount,
	failedVolumes);
	}

	/**
	* Add datanode to the block.
	* Add block to the head of the list of blocks belonging to the data-node.
	*/
	public boolean addBlock(BlockInfo b) {
	if(!b.addNode(this))
	return false;
	// add to the head of the data-node list
	blockList = b.listInsert(blockList, this);
	numBlocks++;
	return true;
	}

	/**
	* Remove block from the list of blocks belonging to the data-node.
	* Remove datanode from the block.
	*/
	public boolean removeBlock(BlockInfo b) {
	blockList = b.listRemove(blockList, this);
	if ( b.removeNode(this) ) {
	numBlocks--;
	return true;
	} else {
	return false;
	}
	}

	/**
	* Move block to the head of the list of blocks belonging to the data-node.
	*/
	void moveBlockToHead(BlockInfo b) {
	blockList = b.listRemove(blockList, this);
	blockList = b.listInsert(blockList, this);
	}

	/**
	* Replace specified old block with a new one in the DataNodeDescriptor.
	*
	* @param oldBlock - block to be replaced
	* @param newBlock - a replacement block
	* @return the new block
	*/
	public BlockInfo replaceBlock(BlockInfo oldBlock, BlockInfo newBlock) {
	boolean done = removeBlock(oldBlock);
	assert done : "Old block should belong to the data-node when replacing";
	done = addBlock(newBlock);
	assert done : "New block should not belong to the data-node when replacing";
	return newBlock;
	}

	public void resetBlocks() {
	this.capacity = 0;
	this.remaining = 0;
	this.blockPoolUsed = 0;
	this.dfsUsed = 0;
	this.xceiverCount = 0;
	this.blockList = null;
	this.invalidateBlocks.clear();
	this.volumeFailures = 0;
	}

	public int numBlocks() {
	return numBlocks;
	}

	/**
	* Updates stats from datanode heartbeat.
	*/
	public void updateHeartbeat(long capacity, long dfsUsed, long remaining,
	long blockPoolUsed, int xceiverCount, int volFailures) {
	this.capacity = capacity;
	this.dfsUsed = dfsUsed;
	this.remaining = remaining;
	this.blockPoolUsed = blockPoolUsed;
	this.lastUpdate = System.currentTimeMillis();
	this.xceiverCount = xceiverCount;
	this.volumeFailures = volFailures;
	rollBlocksScheduled(lastUpdate);
	}

	/**
	* Iterates over the list of blocks belonging to the datanode.
	*/
	public static class BlockIterator implements Iterator<BlockInfo> {
	private BlockInfo current;
	private DatanodeDescriptor node;

	BlockIterator(BlockInfo head, DatanodeDescriptor dn) {
	this.current = head;
	this.node = dn;
	}

	public boolean hasNext() {
	return current != null;
	}

	public BlockInfo next() {
	BlockInfo res = current;
	current = current.getNext(current.findDatanode(node));
	return res;
	}

	public void remove() {
	throw new UnsupportedOperationException("Sorry. can't remove.");
	}
	}

	public Iterator<BlockInfo> getBlockIterator() {
	return new BlockIterator(this.blockList, this);
	}

	/**
	* Store block replication work.
	*/
	void addBlockToBeReplicated(Block block, DatanodeDescriptor[] targets) {
	assert(block != null && targets != null && targets.length > 0);
	replicateBlocks.offer(new BlockTargetPair(block, targets));
	}

	/**
	* Store block recovery work.
	*/
	void addBlockToBeRecovered(BlockInfoUnderConstruction block) {
	if(recoverBlocks.contains(block)) {
	// this prevents adding the same block twice to the recovery queue
	BlockManager.LOG.info("Block " + block +
	" is already in the recovery queue.");
	return;
	}
	recoverBlocks.offer(block);
	}

	/**
	* Store block invalidation work.
	*/
	void addBlocksToBeInvalidated(List<Block> blocklist) {
	assert(blocklist != null && blocklist.size() > 0);
	synchronized (invalidateBlocks) {
	for(Block blk : blocklist) {
	invalidateBlocks.add(blk);
	}
	}
	}

	/**
	* The number of work items that are pending to be replicated
	*/
	int getNumberOfBlocksToBeReplicated() {
	return replicateBlocks.size();
	}

	/**
	* The number of block invalidation items that are pending to
	* be sent to the datanode
	*/
	int getNumberOfBlocksToBeInvalidated() {
	synchronized (invalidateBlocks) {
	return invalidateBlocks.size();
	}
	}

	public List<BlockTargetPair> getReplicationCommand(int maxTransfers) {
	return replicateBlocks.poll(maxTransfers);
	}

	public BlockInfoUnderConstruction[] getLeaseRecoveryCommand(int maxTransfers) {
	List<BlockInfoUnderConstruction> blocks = recoverBlocks.poll(maxTransfers);
	if(blocks == null)
	return null;
	return blocks.toArray(new BlockInfoUnderConstruction[blocks.size()]);
	}

	/**
	* Remove the specified number of blocks to be invalidated
	*/
	public Block[] getInvalidateBlocks(int maxblocks) {
	return getBlockArray(invalidateBlocks, maxblocks);
	}

	static private Block[] getBlockArray(Collection<Block> blocks, int max) {
	Block[] blockarray = null;
	synchronized(blocks) {
	int available = blocks.size();
	int n = available;
	if (max > 0 && n > 0) {
	if (max < n) {
	n = max;
	}
	// allocate the properly sized block array ...
	blockarray = new Block[n];

	// iterate tree collecting n blocks...
	Iterator<Block> e = blocks.iterator();
	int blockCount = 0;

	while (blockCount < n && e.hasNext()) {
	// insert into array ...
	blockarray[blockCount++] = e.next();

	// remove from tree via iterator, if we are removing
	// less than total available blocks
	if (n < available){
	e.remove();
	}
	}
	assert(blockarray.length == n);

	// now if the number of blocks removed equals available blocks,
	// them remove all blocks in one fell swoop via clear
	if (n == available) {
	blocks.clear();
	}
	}
	}
	return blockarray;
	}

	/** Serialization for FSEditLog */
	public void readFieldsFromFSEditLog(DataInput in) throws IOException {
	this.name = DeprecatedUTF8.readString(in);
	this.storageID = DeprecatedUTF8.readString(in);
	this.infoPort = in.readShort() & 0x0000ffff;

	this.capacity = in.readLong();
	this.dfsUsed = in.readLong();
	this.remaining = in.readLong();
	this.blockPoolUsed = in.readLong();
	this.lastUpdate = in.readLong();
	this.xceiverCount = in.readInt();
	this.location = Text.readString(in);
	this.hostName = Text.readString(in);
	setAdminState(WritableUtils.readEnum(in, AdminStates.class));
	}

	/**
	* @return Approximate number of blocks currently scheduled to be written
	* to this datanode.
	*/
	public int getBlocksScheduled() {
	return currApproxBlocksScheduled + prevApproxBlocksScheduled;
	}

	/**
	* Increments counter for number of blocks scheduled.
	*/
	public void incBlocksScheduled() {
	currApproxBlocksScheduled++;
	}

	/**
	* Decrements counter for number of blocks scheduled.
	*/
	void decBlocksScheduled() {
	if (prevApproxBlocksScheduled > 0) {
	prevApproxBlocksScheduled--;
	} else if (currApproxBlocksScheduled > 0) {
	currApproxBlocksScheduled--;
	}
	// its ok if both counters are zero.
	}

	/**
	* Adjusts curr and prev number of blocks scheduled every few minutes.
	*/
	private void rollBlocksScheduled(long now) {
	if ((now - lastBlocksScheduledRollTime) >
	BLOCKS_SCHEDULED_ROLL_INTERVAL) {
	prevApproxBlocksScheduled = currApproxBlocksScheduled;
	currApproxBlocksScheduled = 0;
	lastBlocksScheduledRollTime = now;
	}
	}

	@Override
	public int hashCode() {
	// Super implementation is sufficient
	return super.hashCode();
	}

	@Override
	public boolean equals(Object obj) {
	// Sufficient to use super equality as datanodes are uniquely identified
	// by DatanodeID
	return (this == obj) \|\| super.equals(obj);
	}

	/** Decommissioning status */
	public class DecommissioningStatus {
	private int underReplicatedBlocks;
	private int decommissionOnlyReplicas;
	private int underReplicatedInOpenFiles;
	private long startTime;

	synchronized void set(int underRep,
	int onlyRep, int underConstruction) {
	if (isDecommissionInProgress() == false) {
	return;
	}
	underReplicatedBlocks = underRep;
	decommissionOnlyReplicas = onlyRep;
	underReplicatedInOpenFiles = underConstruction;
	}

	/** @return the number of under-replicated blocks */
	public synchronized int getUnderReplicatedBlocks() {
	if (isDecommissionInProgress() == false) {
	return 0;
	}
	return underReplicatedBlocks;
	}
	/** @return the number of decommission-only replicas */
	public synchronized int getDecommissionOnlyReplicas() {
	if (isDecommissionInProgress() == false) {
	return 0;
	}
	return decommissionOnlyReplicas;
	}
	/** @return the number of under-replicated blocks in open files */
	public synchronized int getUnderReplicatedInOpenFiles() {
	if (isDecommissionInProgress() == false) {
	return 0;
	}
	return underReplicatedInOpenFiles;
	}
	/** Set start time */
	public synchronized void setStartTime(long time) {
	startTime = time;
	}
	/** @return start time */
	public synchronized long getStartTime() {
	if (isDecommissionInProgress() == false) {
	return 0;
	}
	return startTime;
	}
	} // End of class DecommissioningStatus

	/**
	* Set the flag to indicate if this datanode is disallowed from communicating
	* with the namenode.
	*/
	public void setDisallowed(boolean flag) {
	disallowed = flag;
	}
	/** Is the datanode disallowed from communicating with the namenode? */
	public boolean isDisallowed() {
	return disallowed;
	}

	/**
	* @return number of failed volumes in the datanode.
	*/
	public int getVolumeFailures() {
	return volumeFailures;
	}

	/**
	* @param nodeReg DatanodeID to update registration for.
	*/
	public void updateRegInfo(DatanodeID nodeReg) {
	super.updateRegInfo(nodeReg);
	}

	/**
	* @return Blanacer bandwidth in bytes per second for this datanode.
	*/
	public long getBalancerBandwidth() {
	return this.bandwidth;
	}

	/**
	* @param bandwidth Blanacer bandwidth in bytes per second for this datanode.
	*/
	public void setBalancerBandwidth(long bandwidth) {
	this.bandwidth = bandwidth;
	}


	}