Java tutorial
/** * 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.lang.reflect.Proxy; import java.lang.reflect.Method; import java.lang.reflect.Array; import java.lang.reflect.InvocationHandler; import java.lang.reflect.InvocationTargetException; import java.net.ConnectException; import java.net.InetSocketAddress; import java.net.SocketTimeoutException; import java.io.*; import java.util.Map; import java.util.HashMap; import javax.net.SocketFactory; import javax.security.auth.Subject; import javax.security.auth.login.LoginException; import org.apache.commons.logging.*; import org.apache.hadoop.io.*; import org.apache.hadoop.net.NetUtils; import org.apache.hadoop.security.UserGroupInformation; import org.apache.hadoop.security.authorize.AuthorizationException; import org.apache.hadoop.security.authorize.ServiceAuthorizationManager; import org.apache.hadoop.conf.*; import org.apache.hadoop.metrics.util.MetricsTimeVaryingRate; /** A simple RPC mechanism. * * A <i>protocol</i> is a Java interface. All parameters and return types must * be one of: * * <ul> <li>a primitive type, <code>boolean</code>, <code>byte</code>, * <code>char</code>, <code>short</code>, <code>int</code>, <code>long</code>, * <code>float</code>, <code>double</code>, or <code>void</code>; or</li> * * <li>a {@link String}; or</li> * * <li>a {@link Writable}; or</li> * * <li>an array of the above types</li> </ul> * * All methods in the protocol should throw only IOException. No field data of * the protocol instance is transmitted. */ public class RPC { private static final Log LOG = LogFactory.getLog(RPC.class); private RPC() { } // no public ctor /** A method invocation, including the method name and its parameters.*/ private static class Invocation implements Writable, Configurable { private String methodName; private Class[] parameterClasses; private Object[] parameters; private Configuration conf; public Invocation() { } public Invocation(Method method, Object[] parameters) { this.methodName = method.getName(); this.parameterClasses = method.getParameterTypes(); this.parameters = parameters; } /** The name of the method invoked. */ public String getMethodName() { return methodName; } /** The parameter classes. */ public Class[] getParameterClasses() { return parameterClasses; } /** The parameter instances. */ public Object[] getParameters() { return parameters; } @Override public void readFields(DataInput in) throws IOException { methodName = UTF8.readString(in); parameters = new Object[in.readInt()]; parameterClasses = new Class[parameters.length]; ObjectWritable objectWritable = new ObjectWritable(); for (int i = 0; i < parameters.length; i++) { parameters[i] = ObjectWritable.readObject(in, objectWritable, this.conf); parameterClasses[i] = objectWritable.getDeclaredClass(); } } @Override public void write(DataOutput out) throws IOException { UTF8.writeString(out, methodName); out.writeInt(parameterClasses.length); for (int i = 0; i < parameterClasses.length; i++) { ObjectWritable.writeObject(out, parameters[i], parameterClasses[i], conf); } } @Override public String toString() { StringBuffer buffer = new StringBuffer(); buffer.append(methodName); buffer.append("("); for (int i = 0; i < parameters.length; i++) { if (i != 0) buffer.append(", "); buffer.append(parameters[i]); } buffer.append(")"); return buffer.toString(); } @Override public void setConf(Configuration conf) { this.conf = conf; } @Override public Configuration getConf() { return this.conf; } } /* Cache a client using its socket factory as the hash key */ static private class ClientCache { private Map<SocketFactory, Client> clients = new HashMap<SocketFactory, Client>(); /** * Construct & cache an IPC client with the user-provided SocketFactory * if no cached client exists. * * @param conf Configuration * @return an IPC client */ private synchronized Client getClient(Configuration conf, SocketFactory factory) { // Construct & cache client. The configuration is only used for timeout, // and Clients have connection pools. So we can either (a) lose some // connection pooling and leak sockets, or (b) use the same timeout for all // configurations. Since the IPC is usually intended globally, not // per-job, we choose (a). Client client = clients.get(factory); if (client == null) { client = new Client(ObjectWritable.class, conf, factory); clients.put(factory, client); } else { client.incCount(); } return client; } /** * Construct & cache an IPC client with the default SocketFactory * if no cached client exists. * * @param conf Configuration * @return an IPC client */ private synchronized Client getClient(Configuration conf) { return getClient(conf, SocketFactory.getDefault()); } /** * Stop a RPC client connection * A RPC client is closed only when its reference count becomes zero. */ private void stopClient(Client client) { synchronized (this) { client.decCount(); if (client.isZeroReference()) { clients.remove(client.getSocketFactory()); } } if (client.isZeroReference()) { client.stop(); } } } private static ClientCache CLIENTS = new ClientCache(); private static class Invoker implements InvocationHandler { private InetSocketAddress address; private UserGroupInformation ticket; private Client client; private boolean isClosed = false; public Invoker(InetSocketAddress address, UserGroupInformation ticket, Configuration conf, SocketFactory factory) { this.address = address; this.ticket = ticket; this.client = CLIENTS.getClient(conf, factory); } @Override public Object invoke(Object proxy, Method method, Object[] args) throws Throwable { final boolean logDebug = LOG.isDebugEnabled(); long startTime = 0; if (logDebug) { startTime = System.currentTimeMillis(); } ObjectWritable value = (ObjectWritable) client.call(new Invocation(method, args), address, method.getDeclaringClass(), ticket); if (logDebug) { long callTime = System.currentTimeMillis() - startTime; LOG.debug("Call: " + method.getName() + " " + callTime); } return value.get(); } /* close the IPC client that's responsible for this invoker's RPCs */ synchronized private void close() { if (!isClosed) { isClosed = true; CLIENTS.stopClient(client); } } } /** * A version mismatch for the RPC protocol. */ public static class VersionMismatch extends IOException { private String interfaceName; private long clientVersion; private long serverVersion; /** * Create a version mismatch exception * @param interfaceName the name of the protocol mismatch * @param clientVersion the client's version of the protocol * @param serverVersion the server's version of the protocol */ public VersionMismatch(String interfaceName, long clientVersion, long serverVersion) { super("Protocol " + interfaceName + " version mismatch. (client = " + clientVersion + ", server = " + serverVersion + ")"); this.interfaceName = interfaceName; this.clientVersion = clientVersion; this.serverVersion = serverVersion; } /** * Get the interface name * @return the java class name * (eg. org.apache.hadoop.mapred.InterTrackerProtocol) */ public String getInterfaceName() { return interfaceName; } /** * Get the client's preferred version */ public long getClientVersion() { return clientVersion; } /** * Get the server's agreed to version. */ public long getServerVersion() { return serverVersion; } } public static VersionedProtocol waitForProxy(Class protocol, long clientVersion, InetSocketAddress addr, Configuration conf) throws IOException { return waitForProxy(protocol, clientVersion, addr, conf, Long.MAX_VALUE); } /** * Get a proxy connection to a remote server * @param protocol protocol class * @param clientVersion client version * @param addr remote address * @param conf configuration to use * @param timeout time in milliseconds before giving up * @return the proxy * @throws IOException if the far end through a RemoteException */ static VersionedProtocol waitForProxy(Class protocol, long clientVersion, InetSocketAddress addr, Configuration conf, long timeout) throws IOException { long startTime = System.currentTimeMillis(); IOException ioe; while (true) { try { return getProxy(protocol, clientVersion, addr, conf); } catch (ConnectException se) { // namenode has not been started LOG.info("Server at " + addr + " not available yet, Zzzzz..."); ioe = se; } catch (SocketTimeoutException te) { // namenode is busy LOG.info("Problem connecting to server: " + addr); ioe = te; } // check if timed out if (System.currentTimeMillis() - timeout >= startTime) { throw ioe; } // wait for retry try { Thread.sleep(1000); } catch (InterruptedException ie) { // IGNORE } } } /** Construct a client-side proxy object that implements the named protocol, * talking to a server at the named address. */ public static VersionedProtocol getProxy(Class<?> protocol, long clientVersion, InetSocketAddress addr, Configuration conf, SocketFactory factory) throws IOException { UserGroupInformation ugi = null; try { ugi = UserGroupInformation.login(conf); } catch (LoginException le) { throw new RuntimeException("Couldn't login!"); } return getProxy(protocol, clientVersion, addr, ugi, conf, factory); } /** Construct a client-side proxy object that implements the named protocol, * talking to a server at the named address. */ public static VersionedProtocol getProxy(Class<?> protocol, long clientVersion, InetSocketAddress addr, UserGroupInformation ticket, Configuration conf, SocketFactory factory) throws IOException { VersionedProtocol proxy = (VersionedProtocol) Proxy.newProxyInstance(protocol.getClassLoader(), new Class[] { protocol }, new Invoker(addr, ticket, conf, factory)); long serverVersion = proxy.getProtocolVersion(protocol.getName(), clientVersion); if (serverVersion == clientVersion) { return proxy; } else { throw new VersionMismatch(protocol.getName(), clientVersion, serverVersion); } } /** * Construct a client-side proxy object with the default SocketFactory * * @param protocol * @param clientVersion * @param addr * @param conf * @return a proxy instance * @throws IOException */ public static VersionedProtocol getProxy(Class<?> protocol, long clientVersion, InetSocketAddress addr, Configuration conf) throws IOException { return getProxy(protocol, clientVersion, addr, conf, NetUtils.getDefaultSocketFactory(conf)); } /** * Stop this proxy and release its invoker's resource * @param proxy the proxy to be stopped */ public static void stopProxy(VersionedProtocol proxy) { if (proxy != null) { ((Invoker) Proxy.getInvocationHandler(proxy)).close(); } } /** * Expert: Make multiple, parallel calls to a set of servers. * @deprecated Use {@link #call(Method, Object[][], InetSocketAddress[], UserGroupInformation, Configuration)} instead */ @Deprecated public static Object[] call(Method method, Object[][] params, InetSocketAddress[] addrs, Configuration conf) throws IOException { return call(method, params, addrs, null, conf); } /** Expert: Make multiple, parallel calls to a set of servers. */ public static Object[] call(Method method, Object[][] params, InetSocketAddress[] addrs, UserGroupInformation ticket, Configuration conf) throws IOException { Invocation[] invocations = new Invocation[params.length]; for (int i = 0; i < params.length; i++) invocations[i] = new Invocation(method, params[i]); Client client = CLIENTS.getClient(conf); try { Writable[] wrappedValues = client.call(invocations, addrs, method.getDeclaringClass(), ticket); if (method.getReturnType() == Void.TYPE) { return null; } Object[] values = (Object[]) Array.newInstance(method.getReturnType(), wrappedValues.length); for (int i = 0; i < values.length; i++) if (wrappedValues[i] != null) values[i] = ((ObjectWritable) wrappedValues[i]).get(); return values; } finally { CLIENTS.stopClient(client); } } /** Construct a server for a protocol implementation instance listening on a * port and address. */ public static Server getServer(final Object instance, final String bindAddress, final int port, Configuration conf) throws IOException { return getServer(instance, bindAddress, port, 1, false, conf); } /** Construct a server for a protocol implementation instance listening on a * port and address. */ public static Server getServer(final Object instance, final String bindAddress, final int port, final int numHandlers, final boolean verbose, Configuration conf) throws IOException { return new Server(instance, conf, bindAddress, port, numHandlers, verbose); } /** An RPC Server. */ public static class Server extends org.apache.hadoop.ipc.chinamobile.Server { private Object instance; private boolean verbose; private boolean authorize = false; /** Construct an RPC server. * @param instance the instance whose methods will be called * @param conf the configuration to use * @param bindAddress the address to bind on to listen for connection * @param port the port to listen for connections on */ public Server(Object instance, Configuration conf, String bindAddress, int port) throws IOException { this(instance, conf, bindAddress, port, 1, false); } private static String classNameBase(String className) { String[] names = className.split("\\.", -1); if (names == null || names.length == 0) { return className; } return names[names.length - 1]; } /** Construct an RPC server. * @param instance the instance whose methods will be called * @param conf the configuration to use * @param bindAddress the address to bind on to listen for connection * @param port the port to listen for connections on * @param numHandlers the number of method handler threads to run * @param verbose whether each call should be logged */ public Server(Object instance, Configuration conf, String bindAddress, int port, int numHandlers, boolean verbose) throws IOException { super(bindAddress, port, Invocation.class, numHandlers, conf, classNameBase(instance.getClass().getName())); this.instance = instance; this.verbose = verbose; this.authorize = conf.getBoolean(ServiceAuthorizationManager.SERVICE_AUTHORIZATION_CONFIG, false); } @Override public Writable call(Class<?> protocol, Writable param, long receivedTime) throws IOException { try { Invocation call = (Invocation) param; if (verbose) log("Call: " + call); Method method = protocol.getMethod(call.getMethodName(), call.getParameterClasses()); method.setAccessible(true); long startTime = System.currentTimeMillis(); Object value = method.invoke(instance, call.getParameters()); int processingTime = (int) (System.currentTimeMillis() - startTime); int qTime = (int) (startTime - receivedTime); if (LOG.isDebugEnabled()) { LOG.debug("Served: " + call.getMethodName() + " queueTime= " + qTime + " procesingTime= " + processingTime); } rpcMetrics.rpcQueueTime.inc(qTime); rpcMetrics.rpcProcessingTime.inc(processingTime); MetricsTimeVaryingRate m = (MetricsTimeVaryingRate) rpcMetrics.registry.get(call.getMethodName()); if (m == null) { try { m = new MetricsTimeVaryingRate(call.getMethodName(), rpcMetrics.registry); } catch (IllegalArgumentException iae) { // the metrics has been registered; re-fetch the handle LOG.info("Error register " + call.getMethodName(), iae); m = (MetricsTimeVaryingRate) rpcMetrics.registry.get(call.getMethodName()); } } m.inc(processingTime); if (verbose) log("Return: " + value); return new ObjectWritable(method.getReturnType(), value); } catch (InvocationTargetException e) { Throwable target = e.getTargetException(); if (target instanceof IOException) { throw (IOException) target; } else { IOException ioe = new IOException(target.toString()); ioe.setStackTrace(target.getStackTrace()); throw ioe; } } catch (Throwable e) { IOException ioe = new IOException(e.toString()); ioe.setStackTrace(e.getStackTrace()); throw ioe; } } @Override public void authorize(Subject user, ConnectionHeader connection) throws AuthorizationException { if (authorize) { Class<?> protocol = null; try { protocol = getProtocolClass(connection.getProtocol(), getConf()); } catch (ClassNotFoundException cfne) { throw new AuthorizationException("Unknown protocol: " + connection.getProtocol()); } ServiceAuthorizationManager.authorize(user, protocol); } } } private static void log(String value) { if (value != null && value.length() > 55) value = value.substring(0, 55) + "..."; LOG.info(value); } }