org.apache.hadoop.ipc.chinamobile.Server.java Source code

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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.ipc.chinamobile;

import java.io.IOException;
import java.io.DataInputStream;
import java.io.DataOutputStream;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;

import java.nio.ByteBuffer;
import java.nio.channels.CancelledKeyException;
import java.nio.channels.ClosedChannelException;
import java.nio.channels.ReadableByteChannel;
import java.nio.channels.SelectionKey;
import java.nio.channels.Selector;
import java.nio.channels.ServerSocketChannel;
import java.nio.channels.SocketChannel;
import java.nio.channels.WritableByteChannel;

import java.net.BindException;
import java.net.InetAddress;
import java.net.InetSocketAddress;
import java.net.ServerSocket;
import java.net.Socket;
import java.net.SocketException;
import java.net.UnknownHostException;

import java.security.PrivilegedActionException;
import java.security.PrivilegedExceptionAction;
import java.util.ArrayList;
import java.util.Collections;
import java.util.LinkedList;
import java.util.List;
import java.util.Iterator;
import java.util.Map;
import java.util.Random;
import java.util.concurrent.BlockingQueue;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.LinkedBlockingQueue;

import javax.security.auth.Subject;

import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.security.SecurityUtil;
import org.apache.hadoop.io.Writable;
import org.apache.hadoop.io.WritableUtils;
import org.apache.hadoop.util.ReflectionUtils;
import org.apache.hadoop.util.StringUtils;
import org.apache.hadoop.ipc.chinamobile.metrics.RpcMetrics;
import org.apache.hadoop.security.authorize.AuthorizationException;

/** An abstract IPC service.  IPC calls take a single {@link Writable} as a
 * parameter, and return a {@link Writable} as their value.  A service runs on
 * a port and is defined by a parameter class and a value class.
 * 
 * @see Client
 */
public abstract class Server {

    /**
     * The first four bytes of Hadoop RPC connections
     */
    public static final ByteBuffer HEADER = ByteBuffer.wrap("hrpc".getBytes());

    // 1 : Introduce ping and server does not throw away RPCs
    // 3 : Introduce the protocol into the RPC connection header
    public static final byte CURRENT_VERSION = 3;

    /**
     * How many calls/handler are allowed in the queue.
     */
    private static final int MAX_QUEUE_SIZE_PER_HANDLER = 100;

    public static final Log LOG = LogFactory.getLog(Server.class);

    private static final ThreadLocal<Server> SERVER = new ThreadLocal<Server>();

    private static final Map<String, Class<?>> PROTOCOL_CACHE = new ConcurrentHashMap<String, Class<?>>();

    public static Class<?> getProtocolClass(String protocolName, Configuration conf) throws ClassNotFoundException {
        Class<?> protocol = PROTOCOL_CACHE.get(protocolName);
        if (protocol == null) {
            protocol = conf.getClassByName(protocolName);
            PROTOCOL_CACHE.put(protocolName, protocol);
        }
        return protocol;
    }

    /** Returns the server instance called under or null.  May be called under
     * {@link #call(Writable, long)} implementations, and under {@link Writable}
     * methods of paramters and return values.  Permits applications to access
     * the server context.*/
    public static Server get() {
        return SERVER.get();
    }

    /** This is set to Call object before Handler invokes an RPC and reset
     * after the call returns.
     */
    private static final ThreadLocal<Call> CurCall = new ThreadLocal<Call>();

    /** Returns the remote side ip address when invoked inside an RPC 
     *  Returns null incase of an error.
     */
    public static InetAddress getRemoteIp() {
        Call call = CurCall.get();
        if (call != null) {
            return call.connection.socket.getInetAddress();
        }
        return null;
    }

    /** Returns remote address as a string when invoked inside an RPC.
     *  Returns null in case of an error.
     */
    public static String getRemoteAddress() {
        InetAddress addr = getRemoteIp();
        return (addr == null) ? null : addr.getHostAddress();
    }

    private String bindAddress;
    private int port; // port we listen on
    private int handlerCount; // number of handler threads
    private Class<? extends Writable> paramClass; // class of call parameters
    private int maxIdleTime; // the maximum idle time after 
                             // which a client may be disconnected
    private int thresholdIdleConnections; // the number of idle connections
                                          // after which we will start
                                          // cleaning up idle 
                                          // connections
    int maxConnectionsToNuke; // the max number of 
                              // connections to nuke
                              //during a cleanup

    protected RpcMetrics rpcMetrics;

    private Configuration conf;

    private int maxQueueSize;
    private int socketSendBufferSize;
    private final boolean tcpNoDelay; // if T then disable Nagle's Algorithm

    volatile private boolean running = true; // true while server runs
    private BlockingQueue<Call> callQueue; // queued calls

    private List<Connection> connectionList = Collections.synchronizedList(new LinkedList<Connection>());
    //maintain a list
    //of client connections
    private Listener listener = null;
    private Responder responder = null;
    private int numConnections = 0;
    private Handler[] handlers = null;

    /**
     * A convenience method to bind to a given address and report 
     * better exceptions if the address is not a valid host.
     * @param socket the socket to bind
     * @param address the address to bind to
     * @param backlog the number of connections allowed in the queue
     * @throws BindException if the address can't be bound
     * @throws UnknownHostException if the address isn't a valid host name
     * @throws IOException other random errors from bind
     */
    public static void bind(ServerSocket socket, InetSocketAddress address, int backlog) throws IOException {
        try {
            socket.bind(address, backlog);
        } catch (BindException e) {
            BindException bindException = new BindException(
                    "Problem binding to " + address + " : " + e.getMessage());
            bindException.initCause(e);
            throw bindException;
        } catch (SocketException e) {
            // If they try to bind to a different host's address, give a better
            // error message.
            if ("Unresolved address".equals(e.getMessage())) {
                throw new UnknownHostException("Invalid hostname for server: " + address.getHostName());
            } else {
                throw e;
            }
        }
    }

    /** A call queued for handling. */
    private static class Call {
        private int id; // the client's call id
        private Writable param; // the parameter passed
        private Connection connection; // connection to client
        private long timestamp; // the time received when response is null
                                // the time served when response is not null
        private ByteBuffer response; // the response for this call

        public Call(int id, Writable param, Connection connection) {
            this.id = id;
            this.param = param;
            this.connection = connection;
            this.timestamp = System.currentTimeMillis();
            this.response = null;
        }

        @Override
        public String toString() {
            return param.toString() + " from " + connection.toString();
        }

        public void setResponse(ByteBuffer response) {
            this.response = response;
        }
    }

    /** Listens on the socket. Creates jobs for the handler threads*/
    private class Listener extends Thread {

        private ServerSocketChannel acceptChannel = null; //the accept channel
        private Selector selector = null; //the selector that we use for the server
        private InetSocketAddress address; //the address we bind at
        private Random rand = new Random();
        private long lastCleanupRunTime = 0; //the last time when a cleanup connec-
                                             //-tion (for idle connections) ran
        private long cleanupInterval = 10000; //the minimum interval between 
                                              //two cleanup runs
        private int backlogLength = conf.getInt("ipc.server.listen.queue.size", 128);

        public Listener() throws IOException {
            address = new InetSocketAddress(bindAddress, port);
            // Create a new server socket and set to non blocking mode
            acceptChannel = ServerSocketChannel.open();
            acceptChannel.configureBlocking(false);

            // Bind the server socket to the local host and port
            bind(acceptChannel.socket(), address, backlogLength);
            port = acceptChannel.socket().getLocalPort(); //Could be an ephemeral port
            // create a selector;
            selector = Selector.open();

            // Register accepts on the server socket with the selector.
            acceptChannel.register(selector, SelectionKey.OP_ACCEPT);
            this.setName("IPC Server listener on " + port);
            this.setDaemon(true);
        }

        /** cleanup connections from connectionList. Choose a random range
         * to scan and also have a limit on the number of the connections
         * that will be cleanedup per run. The criteria for cleanup is the time
         * for which the connection was idle. If 'force' is true then all 
         * connections will be looked at for the cleanup.
         */
        private void cleanupConnections(boolean force) {
            if (force || numConnections > thresholdIdleConnections) {
                long currentTime = System.currentTimeMillis();
                if (!force && (currentTime - lastCleanupRunTime) < cleanupInterval) {
                    return;
                }
                int start = 0;
                int end = numConnections - 1;
                if (!force) {
                    start = rand.nextInt() % numConnections;
                    end = rand.nextInt() % numConnections;
                    int temp;
                    if (end < start) {
                        temp = start;
                        start = end;
                        end = temp;
                    }
                }
                int i = start;
                int numNuked = 0;
                while (i <= end) {
                    Connection c;
                    synchronized (connectionList) {
                        try {
                            c = connectionList.get(i);
                        } catch (Exception e) {
                            return;
                        }
                    }
                    if (c.timedOut(currentTime)) {
                        if (LOG.isDebugEnabled())
                            LOG.debug(getName() + ": disconnecting client " + c.getHostAddress());
                        closeConnection(c);
                        numNuked++;
                        end--;
                        c = null;
                        if (!force && numNuked == maxConnectionsToNuke)
                            break;
                    } else
                        i++;
                }
                lastCleanupRunTime = System.currentTimeMillis();
            }
        }

        @Override
        public void run() {
            LOG.info(getName() + ": starting");
            SERVER.set(Server.this);
            while (running) {
                SelectionKey key = null;
                try {
                    selector.select();
                    Iterator<SelectionKey> iter = selector.selectedKeys().iterator();
                    while (iter.hasNext()) {
                        key = iter.next();
                        iter.remove();
                        try {
                            if (key.isValid()) {
                                if (key.isAcceptable())
                                    doAccept(key);
                                else if (key.isReadable())
                                    doRead(key);
                            }
                        } catch (IOException e) {
                        }
                        key = null;
                    }
                } catch (OutOfMemoryError e) {
                    // we can run out of memory if we have too many threads
                    // log the event and sleep for a minute and give 
                    // some thread(s) a chance to finish
                    LOG.warn("Out of Memory in server select", e);
                    closeCurrentConnection(key, e);
                    cleanupConnections(true);
                    try {
                        Thread.sleep(60000);
                    } catch (Exception ie) {
                    }
                } catch (InterruptedException e) {
                    if (running) { // unexpected -- log it
                        LOG.info(getName() + " caught: " + StringUtils.stringifyException(e));
                    }
                } catch (Exception e) {
                    closeCurrentConnection(key, e);
                }
                cleanupConnections(false);
            }
            LOG.info("Stopping " + this.getName());

            synchronized (this) {
                try {
                    acceptChannel.close();
                    selector.close();
                } catch (IOException e) {
                }

                selector = null;
                acceptChannel = null;

                // clean up all connections
                while (!connectionList.isEmpty()) {
                    closeConnection(connectionList.remove(0));
                }
            }
        }

        private void closeCurrentConnection(SelectionKey key, Throwable e) {
            if (key != null) {
                Connection c = (Connection) key.attachment();
                if (c != null) {
                    if (LOG.isDebugEnabled())
                        LOG.debug(getName() + ": disconnecting client " + c.getHostAddress());
                    closeConnection(c);
                    c = null;
                }
            }
        }

        InetSocketAddress getAddress() {
            return (InetSocketAddress) acceptChannel.socket().getLocalSocketAddress();
        }

        void doAccept(SelectionKey key) throws IOException, OutOfMemoryError {
            Connection c = null;
            ServerSocketChannel server = (ServerSocketChannel) key.channel();
            // accept up to 10 connections
            for (int i = 0; i < 10; i++) {
                SocketChannel channel = server.accept();
                if (channel == null)
                    return;

                channel.configureBlocking(false);
                channel.socket().setTcpNoDelay(tcpNoDelay);
                SelectionKey readKey = channel.register(selector, SelectionKey.OP_READ);
                c = new Connection(readKey, channel, System.currentTimeMillis());
                readKey.attach(c);
                synchronized (connectionList) {
                    connectionList.add(numConnections, c);
                    numConnections++;
                }
                if (LOG.isDebugEnabled())
                    LOG.debug("Server connection from " + c.toString() + "; # active connections: " + numConnections
                            + "; # queued calls: " + callQueue.size());
            }
        }

        void doRead(SelectionKey key) throws InterruptedException {
            int count = 0;
            Connection c = (Connection) key.attachment();
            if (c == null) {
                return;
            }
            c.setLastContact(System.currentTimeMillis());

            try {
                count = c.readAndProcess();
            } catch (InterruptedException ieo) {
                LOG.info(getName() + ": readAndProcess caught InterruptedException", ieo);
                throw ieo;
            } catch (Exception e) {
                LOG.info(getName() + ": readAndProcess threw exception " + e + ". Count of bytes read: " + count,
                        e);
                count = -1; //so that the (count < 0) block is executed
            }
            if (count < 0) {
                if (LOG.isDebugEnabled())
                    LOG.debug(getName() + ": disconnecting client " + c.getHostAddress()
                            + ". Number of active connections: " + numConnections);
                closeConnection(c);
                c = null;
            } else {
                c.setLastContact(System.currentTimeMillis());
            }
        }

        synchronized void doStop() {
            if (selector != null) {
                selector.wakeup();
                Thread.yield();
            }
            if (acceptChannel != null) {
                try {
                    acceptChannel.socket().close();
                } catch (IOException e) {
                    LOG.info(getName() + ":Exception in closing listener socket. " + e);
                }
            }
        }
    }

    // Sends responses of RPC back to clients.
    private class Responder extends Thread {
        private Selector writeSelector;
        private int pending; // connections waiting to register

        final static int PURGE_INTERVAL = 900000; // 15mins

        Responder() throws IOException {
            this.setName("IPC Server Responder");
            this.setDaemon(true);
            writeSelector = Selector.open(); // create a selector
            pending = 0;
        }

        @Override
        public void run() {
            LOG.info(getName() + ": starting");
            SERVER.set(Server.this);
            long lastPurgeTime = 0; // last check for old calls.

            while (running) {
                try {
                    waitPending(); // If a channel is being registered, wait.
                    writeSelector.select(PURGE_INTERVAL);
                    Iterator<SelectionKey> iter = writeSelector.selectedKeys().iterator();
                    while (iter.hasNext()) {
                        SelectionKey key = iter.next();
                        iter.remove();
                        try {
                            if (key.isValid() && key.isWritable()) {
                                doAsyncWrite(key);
                            }
                        } catch (IOException e) {
                            LOG.info(getName() + ": doAsyncWrite threw exception " + e);
                        }
                    }
                    long now = System.currentTimeMillis();
                    if (now < lastPurgeTime + PURGE_INTERVAL) {
                        continue;
                    }
                    lastPurgeTime = now;
                    //
                    // If there were some calls that have not been sent out for a
                    // long time, discard them.
                    //
                    LOG.debug("Checking for old call responses.");
                    ArrayList<Call> calls;

                    // get the list of channels from list of keys.
                    synchronized (writeSelector.keys()) {
                        calls = new ArrayList<Call>(writeSelector.keys().size());
                        iter = writeSelector.keys().iterator();
                        while (iter.hasNext()) {
                            SelectionKey key = iter.next();
                            Call call = (Call) key.attachment();
                            if (call != null && key.channel() == call.connection.channel) {
                                calls.add(call);
                            }
                        }
                    }

                    for (Call call : calls) {
                        try {
                            doPurge(call, now);
                        } catch (IOException e) {
                            LOG.warn("Error in purging old calls " + e);
                        }
                    }
                } catch (OutOfMemoryError e) {
                    //
                    // we can run out of memory if we have too many threads
                    // log the event and sleep for a minute and give
                    // some thread(s) a chance to finish
                    //
                    LOG.warn("Out of Memory in server select", e);
                    try {
                        Thread.sleep(60000);
                    } catch (Exception ie) {
                    }
                } catch (Exception e) {
                    LOG.warn("Exception in Responder " + StringUtils.stringifyException(e));
                }
            }
            LOG.info("Stopping " + this.getName());
        }

        private void doAsyncWrite(SelectionKey key) throws IOException {
            Call call = (Call) key.attachment();
            if (call == null) {
                return;
            }
            if (key.channel() != call.connection.channel) {
                throw new IOException("doAsyncWrite: bad channel");
            }

            synchronized (call.connection.responseQueue) {
                if (processResponse(call.connection.responseQueue, false)) {
                    try {
                        key.interestOps(0);
                    } catch (CancelledKeyException e) {
                        /* The Listener/reader might have closed the socket.
                         * We don't explicitly cancel the key, so not sure if this will
                         * ever fire.
                         * This warning could be removed.
                         */
                        LOG.warn("Exception while changing ops : " + e);
                    }
                }
            }
        }

        //
        // Remove calls that have been pending in the responseQueue 
        // for a long time.
        //
        private void doPurge(Call call, long now) throws IOException {
            LinkedList<Call> responseQueue = call.connection.responseQueue;
            synchronized (responseQueue) {
                Iterator<Call> iter = responseQueue.listIterator(0);
                while (iter.hasNext()) {
                    call = iter.next();
                    if (now > call.timestamp + PURGE_INTERVAL) {
                        closeConnection(call.connection);
                        break;
                    }
                }
            }
        }

        // Processes one response. Returns true if there are no more pending
        // data for this channel.
        //
        private boolean processResponse(LinkedList<Call> responseQueue, boolean inHandler) throws IOException {
            boolean error = true;
            boolean done = false; // there is more data for this channel.
            int numElements = 0;
            Call call = null;
            try {
                synchronized (responseQueue) {
                    //
                    // If there are no items for this channel, then we are done
                    //
                    numElements = responseQueue.size();
                    if (numElements == 0) {
                        error = false;
                        return true; // no more data for this channel.
                    }
                    //
                    // Extract the first call
                    //
                    call = responseQueue.removeFirst();
                    SocketChannel channel = call.connection.channel;
                    if (LOG.isDebugEnabled()) {
                        LOG.debug(getName() + ": responding to #" + call.id + " from " + call.connection);
                    }
                    //
                    // Send as much data as we can in the non-blocking fashion
                    //
                    int numBytes = channelWrite(channel, call.response);
                    if (numBytes < 0) {
                        return true;
                    }
                    if (!call.response.hasRemaining()) {
                        call.connection.decRpcCount();
                        if (numElements == 1) { // last call fully processes.
                            done = true; // no more data for this channel.
                        } else {
                            done = false; // more calls pending to be sent.
                        }
                        if (LOG.isDebugEnabled()) {
                            LOG.debug(getName() + ": responding to #" + call.id + " from " + call.connection
                                    + " Wrote " + numBytes + " bytes.");
                        }
                    } else {
                        //
                        // If we were unable to write the entire response out, then 
                        // insert in Selector queue. 
                        //
                        call.connection.responseQueue.addFirst(call);

                        if (inHandler) {
                            // set the serve time when the response has to be sent later
                            call.timestamp = System.currentTimeMillis();

                            incPending();
                            try {
                                // Wakeup the thread blocked on select, only then can the call 
                                // to channel.register() complete.
                                writeSelector.wakeup();
                                channel.register(writeSelector, SelectionKey.OP_WRITE, call);
                            } catch (ClosedChannelException e) {
                                //Its ok. channel might be closed else where.
                                done = true;
                            } finally {
                                decPending();
                            }
                        }
                        if (LOG.isDebugEnabled()) {
                            LOG.debug(getName() + ": responding to #" + call.id + " from " + call.connection
                                    + " Wrote partial " + numBytes + " bytes.");
                        }
                    }
                    error = false; // everything went off well
                }
            } finally {
                if (error && call != null) {
                    LOG.warn(getName() + ", call " + call + ": output error");
                    done = true; // error. no more data for this channel.
                    closeConnection(call.connection);
                }
            }
            return done;
        }

        //
        // Enqueue a response from the application.
        //
        void doRespond(Call call) throws IOException {
            synchronized (call.connection.responseQueue) {
                call.connection.responseQueue.addLast(call);
                if (call.connection.responseQueue.size() == 1) {
                    processResponse(call.connection.responseQueue, true);
                }
            }
        }

        private synchronized void incPending() { // call waiting to be enqueued.
            pending++;
        }

        private synchronized void decPending() { // call done enqueueing.
            pending--;
            notify();
        }

        private synchronized void waitPending() throws InterruptedException {
            while (pending > 0) {
                wait();
            }
        }
    }

    /** Reads calls from a connection and queues them for handling. */
    private class Connection {
        private boolean versionRead = false; //if initial signature and
                                             //version are read
        private boolean headerRead = false; //if the connection header that
                                            //follows version is read.

        private SocketChannel channel;
        private ByteBuffer data;
        private ByteBuffer dataLengthBuffer;
        private LinkedList<Call> responseQueue;
        private volatile int rpcCount = 0; // number of outstanding rpcs
        private long lastContact;
        private int dataLength;
        private Socket socket;
        // Cache the remote host & port info so that even if the socket is 
        // disconnected, we can say where it used to connect to.
        private String hostAddress;
        private int remotePort;

        ConnectionHeader header = new ConnectionHeader();
        Class<?> protocol;

        Subject user = null;

        // Fake 'call' for failed authorization response
        private final int AUTHROIZATION_FAILED_CALLID = -1;
        private final Call authFailedCall = new Call(AUTHROIZATION_FAILED_CALLID, null, null);
        private ByteArrayOutputStream authFailedResponse = new ByteArrayOutputStream();

        public Connection(SelectionKey key, SocketChannel channel, long lastContact) {
            this.channel = channel;
            this.lastContact = lastContact;
            this.data = null;
            this.dataLengthBuffer = ByteBuffer.allocate(4);
            this.socket = channel.socket();
            InetAddress addr = socket.getInetAddress();
            if (addr == null) {
                this.hostAddress = "*Unknown*";
            } else {
                this.hostAddress = addr.getHostAddress();
            }
            this.remotePort = socket.getPort();
            this.responseQueue = new LinkedList<Call>();
            if (socketSendBufferSize != 0) {
                try {
                    socket.setSendBufferSize(socketSendBufferSize);
                } catch (IOException e) {
                    LOG.warn("Connection: unable to set socket send buffer size to " + socketSendBufferSize);
                }
            }
        }

        @Override
        public String toString() {
            return getHostAddress() + ":" + remotePort;
        }

        public String getHostAddress() {
            return hostAddress;
        }

        public void setLastContact(long lastContact) {
            this.lastContact = lastContact;
        }

        public long getLastContact() {
            return lastContact;
        }

        /* Return true if the connection has no outstanding rpc */
        private boolean isIdle() {
            return rpcCount == 0;
        }

        /* Decrement the outstanding RPC count */
        private void decRpcCount() {
            rpcCount--;
        }

        /* Increment the outstanding RPC count */
        private void incRpcCount() {
            rpcCount++;
        }

        private boolean timedOut(long currentTime) {
            if (isIdle() && currentTime - lastContact > maxIdleTime)
                return true;
            return false;
        }

        public int readAndProcess() throws IOException, InterruptedException {
            while (true) {
                /* Read at most one RPC. If the header is not read completely yet
                 * then iterate until we read first RPC or until there is no data left.
                 */
                int count = -1;
                if (dataLengthBuffer.remaining() > 0) {
                    count = channelRead(channel, dataLengthBuffer);
                    if (count < 0 || dataLengthBuffer.remaining() > 0)
                        return count;
                }

                if (!versionRead) {
                    //Every connection is expected to send the header.
                    ByteBuffer versionBuffer = ByteBuffer.allocate(1);
                    count = channelRead(channel, versionBuffer);
                    if (count <= 0) {
                        return count;
                    }
                    int version = versionBuffer.get(0);

                    dataLengthBuffer.flip();
                    if (!HEADER.equals(dataLengthBuffer) || version != CURRENT_VERSION) {
                        //Warning is ok since this is not supposed to happen.
                        LOG.warn("Incorrect header or version mismatch from " + hostAddress + ":" + remotePort
                                + " got version " + version + " expected version " + CURRENT_VERSION);
                        return -1;
                    }
                    dataLengthBuffer.clear();
                    versionRead = true;
                    continue;
                }

                if (data == null) {
                    dataLengthBuffer.flip();
                    dataLength = dataLengthBuffer.getInt();

                    if (dataLength == Client.PING_CALL_ID) {
                        dataLengthBuffer.clear();
                        return 0; //ping message
                    }
                    data = ByteBuffer.allocate(dataLength);
                    incRpcCount(); // Increment the rpc count
                }

                count = channelRead(channel, data);

                if (data.remaining() == 0) {
                    dataLengthBuffer.clear();
                    data.flip();
                    if (headerRead) {
                        processData();
                        data = null;
                        return count;
                    } else {
                        processHeader();
                        headerRead = true;
                        data = null;

                        // Authorize the connection
                        try {
                            authorize(user, header);

                            if (LOG.isDebugEnabled()) {
                                LOG.debug("Successfully authorized " + header);
                            }
                        } catch (AuthorizationException ae) {
                            authFailedCall.connection = this;
                            setupResponse(authFailedResponse, authFailedCall, Status.FATAL, null,
                                    ae.getClass().getName(), ae.getMessage());
                            responder.doRespond(authFailedCall);

                            // Close this connection
                            return -1;
                        }

                        continue;
                    }
                }
                return count;
            }
        }

        /// Reads the connection header following version
        private void processHeader() throws IOException {
            DataInputStream in = new DataInputStream(new ByteArrayInputStream(data.array()));
            header.readFields(in);
            try {
                String protocolClassName = header.getProtocol();
                if (protocolClassName != null) {
                    protocol = getProtocolClass(header.getProtocol(), conf);
                }
            } catch (ClassNotFoundException cnfe) {
                throw new IOException("Unknown protocol: " + header.getProtocol());
            }

            // TODO: Get the user name from the GSS API for Kerberbos-based security
            // Create the user subject
            user = SecurityUtil.getSubject(header.getUgi());
        }

        private void processData() throws IOException, InterruptedException {
            DataInputStream dis = new DataInputStream(new ByteArrayInputStream(data.array()));
            int id = dis.readInt(); // try to read an id

            if (LOG.isDebugEnabled())
                LOG.debug(" got #" + id);

            Writable param = ReflectionUtils.newInstance(paramClass, conf); // read param
            param.readFields(dis);

            Call call = new Call(id, param, this);
            callQueue.put(call); // queue the call; maybe blocked here
        }

        private synchronized void close() throws IOException {
            data = null;
            dataLengthBuffer = null;
            if (!channel.isOpen())
                return;
            try {
                socket.shutdownOutput();
            } catch (Exception e) {
            }
            if (channel.isOpen()) {
                try {
                    channel.close();
                } catch (Exception e) {
                }
            }
            try {
                socket.close();
            } catch (Exception e) {
            }
        }
    }

    /** Handles queued calls . */
    private class Handler extends Thread {
        public Handler(int instanceNumber) {
            this.setDaemon(true);
            this.setName("IPC Server handler " + instanceNumber + " on " + port);
        }

        @Override
        public void run() {
            LOG.info(getName() + ": starting");
            SERVER.set(Server.this);
            ByteArrayOutputStream buf = new ByteArrayOutputStream(10240);
            while (running) {
                try {
                    final Call call = callQueue.take(); // pop the queue; maybe blocked here

                    if (LOG.isDebugEnabled())
                        LOG.debug(getName() + ": has #" + call.id + " from " + call.connection);

                    String errorClass = null;
                    String error = null;
                    Writable value = null;

                    CurCall.set(call);
                    try {
                        // Make the call as the user via Subject.doAs, thus associating
                        // the call with the Subject
                        value = Subject.doAs(call.connection.user, new PrivilegedExceptionAction<Writable>() {
                            @Override
                            public Writable run() throws Exception {
                                // make the call
                                return call(call.connection.protocol, call.param, call.timestamp);

                            }
                        });

                    } catch (PrivilegedActionException pae) {
                        Exception e = pae.getException();
                        LOG.info(getName() + ", call " + call + ": error: " + e, e);
                        errorClass = e.getClass().getName();
                        error = StringUtils.stringifyException(e);
                    } catch (Throwable e) {
                        LOG.info(getName() + ", call " + call + ": error: " + e, e);
                        errorClass = e.getClass().getName();
                        error = StringUtils.stringifyException(e);
                    }
                    CurCall.set(null);

                    setupResponse(buf, call, (error == null) ? Status.SUCCESS : Status.ERROR, value, errorClass,
                            error);
                    responder.doRespond(call);
                } catch (InterruptedException e) {
                    if (running) { // unexpected -- log it
                        LOG.info(getName() + " caught: " + StringUtils.stringifyException(e));
                    }
                } catch (Exception e) {
                    LOG.info(getName() + " caught: " + StringUtils.stringifyException(e));
                }
            }
            LOG.info(getName() + ": exiting");
        }

    }

    protected Server(String bindAddress, int port, Class<? extends Writable> paramClass, int handlerCount,
            Configuration conf) throws IOException {
        this(bindAddress, port, paramClass, handlerCount, conf, Integer.toString(port));
    }

    /** Constructs a server listening on the named port and address.  Parameters passed must
     * be of the named class.  The <code>handlerCount</handlerCount> determines
     * the number of handler threads that will be used to process calls.
     * 
     */
    protected Server(String bindAddress, int port, Class<? extends Writable> paramClass, int handlerCount,
            Configuration conf, String serverName) throws IOException {
        this.bindAddress = bindAddress;
        this.conf = conf;
        this.port = port;
        this.paramClass = paramClass;
        this.handlerCount = handlerCount;
        this.socketSendBufferSize = 0;
        this.maxQueueSize = handlerCount * MAX_QUEUE_SIZE_PER_HANDLER;
        this.callQueue = new LinkedBlockingQueue<Call>(maxQueueSize);
        this.maxIdleTime = 2 * conf.getInt("ipc.client.connection.maxidletime", 1000);
        this.maxConnectionsToNuke = conf.getInt("ipc.client.kill.max", 10);
        this.thresholdIdleConnections = conf.getInt("ipc.client.idlethreshold", 4000);

        // Start the listener here and let it bind to the port
        listener = new Listener();
        this.port = listener.getAddress().getPort();
        this.rpcMetrics = new RpcMetrics(serverName, Integer.toString(this.port), this);
        this.tcpNoDelay = conf.getBoolean("ipc.server.tcpnodelay", false);

        // Create the responder here
        responder = new Responder();
    }

    private void closeConnection(Connection connection) {
        synchronized (connectionList) {
            if (connectionList.remove(connection))
                numConnections--;
        }
        try {
            connection.close();
        } catch (IOException e) {
        }
    }

    /**
     * Setup response for the IPC Call.
     * 
     * @param response buffer to serialize the response into
     * @param call {@link Call} to which we are setting up the response
     * @param status {@link Status} of the IPC call
     * @param rv return value for the IPC Call, if the call was successful
     * @param errorClass error class, if the the call failed
     * @param error error message, if the call failed
     * @throws IOException
     */
    private void setupResponse(ByteArrayOutputStream response, Call call, Status status, Writable rv,
            String errorClass, String error) throws IOException {
        response.reset();
        DataOutputStream out = new DataOutputStream(response);
        out.writeInt(call.id); // write call id
        out.writeInt(status.state); // write status

        if (status == Status.SUCCESS) {
            rv.write(out);
        } else {
            WritableUtils.writeString(out, errorClass);
            WritableUtils.writeString(out, error);
        }
        call.setResponse(ByteBuffer.wrap(response.toByteArray()));
    }

    Configuration getConf() {
        return conf;
    }

    /** Sets the socket buffer size used for responding to RPCs */
    public void setSocketSendBufSize(int size) {
        this.socketSendBufferSize = size;
    }

    /** Starts the service.  Must be called before any calls will be handled. */
    public synchronized void start() throws IOException {
        responder.start();
        listener.start();
        handlers = new Handler[handlerCount];

        for (int i = 0; i < handlerCount; i++) {
            handlers[i] = new Handler(i);
            handlers[i].start();
        }
    }

    /** Stops the service.  No new calls will be handled after this is called. */
    public synchronized void stop() {
        LOG.info("Stopping server on " + port);
        running = false;
        if (handlers != null) {
            for (int i = 0; i < handlerCount; i++) {
                if (handlers[i] != null) {
                    handlers[i].interrupt();
                }
            }
        }
        listener.interrupt();
        listener.doStop();
        responder.interrupt();
        notifyAll();
        if (this.rpcMetrics != null) {
            this.rpcMetrics.shutdown();
        }
    }

    /** Wait for the server to be stopped.
     * Does not wait for all subthreads to finish.
     *  See {@link #stop()}.
     */
    public synchronized void join() throws InterruptedException {
        while (running) {
            wait();
        }
    }

    /**
     * Return the socket (ip+port) on which the RPC server is listening to.
     * @return the socket (ip+port) on which the RPC server is listening to.
     */
    public synchronized InetSocketAddress getListenerAddress() {
        return listener.getAddress();
    }

    /** 
     * Called for each call. 
     * @deprecated Use {@link #call(Class, Writable, long)} instead
     */
    @Deprecated
    public Writable call(Writable param, long receiveTime) throws IOException {
        return call(null, param, receiveTime);
    }

    /** Called for each call. */
    public abstract Writable call(Class<?> protocol, Writable param, long receiveTime) throws IOException;

    /**
     * Authorize the incoming client connection.
     * 
     * @param user client user
     * @param connection incoming connection
     * @throws AuthorizationException when the client isn't authorized to talk the protocol
     */
    public void authorize(Subject user, ConnectionHeader connection) throws AuthorizationException {
    }

    /**
     * The number of open RPC conections
     * @return the number of open rpc connections
     */
    public int getNumOpenConnections() {
        return numConnections;
    }

    /**
     * The number of rpc calls in the queue.
     * @return The number of rpc calls in the queue.
     */
    public int getCallQueueLen() {
        return callQueue.size();
    }

    /**
     * When the read or write buffer size is larger than this limit, i/o will be 
     * done in chunks of this size. Most RPC requests and responses would be
     * be smaller.
     */
    private static int NIO_BUFFER_LIMIT = 8 * 1024; //should not be more than 64KB.

    /**
     * This is a wrapper around {@link WritableByteChannel#write(ByteBuffer)}.
     * If the amount of data is large, it writes to channel in smaller chunks. 
     * This is to avoid jdk from creating many direct buffers as the size of 
     * buffer increases. This also minimizes extra copies in NIO layer
     * as a result of multiple write operations required to write a large 
     * buffer.  
     *
     * @see WritableByteChannel#write(ByteBuffer)
     */
    private static int channelWrite(WritableByteChannel channel, ByteBuffer buffer) throws IOException {

        return (buffer.remaining() <= NIO_BUFFER_LIMIT) ? channel.write(buffer) : channelIO(null, channel, buffer);
    }

    /**
     * This is a wrapper around {@link ReadableByteChannel#read(ByteBuffer)}.
     * If the amount of data is large, it writes to channel in smaller chunks. 
     * This is to avoid jdk from creating many direct buffers as the size of 
     * ByteBuffer increases. There should not be any performance degredation.
     * 
     * @see ReadableByteChannel#read(ByteBuffer)
     */
    private static int channelRead(ReadableByteChannel channel, ByteBuffer buffer) throws IOException {

        return (buffer.remaining() <= NIO_BUFFER_LIMIT) ? channel.read(buffer) : channelIO(channel, null, buffer);
    }

    /**
     * Helper for {@link #channelRead(ReadableByteChannel, ByteBuffer)}
     * and {@link #channelWrite(WritableByteChannel, ByteBuffer)}. Only
     * one of readCh or writeCh should be non-null.
     * 
     * @see #channelRead(ReadableByteChannel, ByteBuffer)
     * @see #channelWrite(WritableByteChannel, ByteBuffer)
     */
    private static int channelIO(ReadableByteChannel readCh, WritableByteChannel writeCh, ByteBuffer buf)
            throws IOException {

        int originalLimit = buf.limit();
        int initialRemaining = buf.remaining();
        int ret = 0;

        while (buf.remaining() > 0) {
            try {
                int ioSize = Math.min(buf.remaining(), NIO_BUFFER_LIMIT);
                buf.limit(buf.position() + ioSize);

                ret = (readCh == null) ? writeCh.write(buf) : readCh.read(buf);

                if (ret < ioSize) {
                    break;
                }

            } finally {
                buf.limit(originalLimit);
            }
        }

        int nBytes = initialRemaining - buf.remaining();
        return (nBytes > 0) ? nBytes : ret;
    }
}