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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.
 */

// Contributors: Dan MacDonald 

package org.apache.log4j.net;

import java.io.IOException;
import java.io.ObjectOutputStream;
import java.io.InterruptedIOException;
import java.net.InetAddress;
import java.net.Socket;

import org.apache.log4j.AppenderSkeleton;
import org.apache.log4j.helpers.LogLog;
import org.apache.log4j.spi.ErrorCode;
import org.apache.log4j.spi.LoggingEvent;

/**
 * Sends {@link LoggingEvent} objects to a remote a log server, usually a {@link SocketNode}.
 *
 * 

* The SocketAppender has the following properties: * *

    * *

    *

  • If sent to a {@link SocketNode}, remote logging is non-intrusive as far * as the log event is concerned. In other words, the event will be logged with * the same time stamp, {@link org.apache.log4j.NDC}, location info as if it * were logged locally by the client. * *

    *

  • SocketAppenders do not use a layout. They ship a serialized * {@link LoggingEvent} object to the server side. * *

    *

  • Remote logging uses the TCP protocol. Consequently, if the server is * reachable, then log events will eventually arrive at the server. * *

    *

  • If the remote server is down, the logging requests are simply dropped. * However, if and when the server comes back up, then event transmission is * resumed transparently. This transparent reconneciton is performed by a * connector thread which periodically attempts to connect to the * server. * *

    *

  • Logging events are automatically buffered by the native TCP * implementation. This means that if the link to server is slow but still * faster than the rate of (log) event production by the client, the client will * not be affected by the slow network connection. However, if the network * connection is slower then the rate of event production, then the client can * only progress at the network rate. In particular, if the network link to the * the server is down, the client will be blocked. * *

    * On the other hand, if the network link is up, but the server is down, the * client will not be blocked when making log requests but the log events will * be lost due to server unavailability. * *

    *

  • Even if a SocketAppender is no longer attached to any * category, it will not be garbage collected in the presence of a connector * thread. A connector thread exists only if the connection to the server is * down. To avoid this garbage collection problem, you should {@link #close} the * the SocketAppender explicitly. See also next item. * *

    * Long lived applications which create/destroy many SocketAppender * instances should be aware of this garbage collection problem. Most other * applications can safely ignore it. * *

    *

  • If the JVM hosting the SocketAppender exits before the * SocketAppender is closed either explicitly or subsequent to * garbage collection, then there might be untransmitted data in the pipe which * might be lost. This is a common problem on Windows based systems. * *

    * To avoid lost data, it is usually sufficient to {@link #close} the * SocketAppender either explicitly or by calling the * {@link org.apache.log4j.LogManager#shutdown} method before exiting the * application. * * *

* * @author Ceki Gülcü * @since 0.8.4 */ public class SocketAppender extends AppenderSkeleton { /** * The default port number of remote logging server (4560). * * @since 1.2.15 */ static public final int DEFAULT_PORT = 4560; /** * The default reconnection delay (30000 milliseconds or 30 seconds). */ static final int DEFAULT_RECONNECTION_DELAY = 30000; /** * We remember host name as String in addition to the resolved InetAddress so that it can be returned via * getOption(). */ String remoteHost; /** * The MulticastDNS zone advertised by a SocketAppender */ public static final String ZONE = "_log4j_obj_tcpconnect_appender.local."; InetAddress address; int port = DEFAULT_PORT; ObjectOutputStream oos; int reconnectionDelay = DEFAULT_RECONNECTION_DELAY; boolean locationInfo = false; private String application; private Connector connector; int counter = 0; // reset the ObjectOutputStream every 70 calls // private static final int RESET_FREQUENCY = 70; private static final int RESET_FREQUENCY = 1; private boolean advertiseViaMulticastDNS; private ZeroConfSupport zeroConf; public SocketAppender() { } /** * Connects to remote server at address and port. */ public SocketAppender(InetAddress address, int port) { this.address = address; this.remoteHost = address.getHostName(); this.port = port; connect(address, port); } /** * Connects to remote server at host and port. */ public SocketAppender(String host, int port) { this.port = port; this.address = getAddressByName(host); this.remoteHost = host; connect(address, port); } /** * Connect to the specified RemoteHost and Port. */ public void activateOptions() { if (advertiseViaMulticastDNS) { zeroConf = new ZeroConfSupport(ZONE, port, getName()); zeroConf.advertise(); } connect(address, port); } /** * Close this appender. * *

* This will mark the appender as closed and call then {@link #cleanUp} method. */ synchronized public void close() { if (closed) return; this.closed = true; if (advertiseViaMulticastDNS) { zeroConf.unadvertise(); } cleanUp(); } /** * Drop the connection to the remote host and release the underlying connector thread if it has been created */ public void cleanUp() { if (oos != null) { try { oos.close(); } catch (IOException e) { if (e instanceof InterruptedIOException) { Thread.currentThread().interrupt(); } LogLog.error("Could not close oos.", e); } oos = null; } if (connector != null) { // LogLog.debug("Interrupting the connector."); connector.interrupted = true; connector = null; // allow gc } } void connect(InetAddress address, int port) { if (this.address == null) return; try { // First, close the previous connection if any. cleanUp(); oos = new ObjectOutputStream(new Socket(address, port).getOutputStream()); } catch (IOException e) { if (e instanceof InterruptedIOException) { Thread.currentThread().interrupt(); } String msg = "Could not connect to remote log4j server at [" + address.getHostName() + "]."; if (reconnectionDelay > 0) { msg += " We will try again later."; fireConnector(); // fire the connector thread } else { msg += " We are not retrying."; errorHandler.error(msg, e, ErrorCode.GENERIC_FAILURE); } LogLog.error(msg); } } public void append(LoggingEvent event) { if (event == null) return; if (address == null) { errorHandler.error("No remote host is set for SocketAppender named \"" + this.name + "\"."); return; } if (oos != null) { try { if (locationInfo) { event.getLocationInformation(); } if (application != null) { event.setProperty("application", application); } event.getNDC(); event.getThreadName(); event.getMDCCopy(); event.getRenderedMessage(); event.getThrowableStrRep(); oos.writeObject(event); // LogLog.debug("=========Flushing."); oos.flush(); if (++counter >= RESET_FREQUENCY) { counter = 0; // Failing to reset the object output stream every now and // then creates a serious memory leak. // System.err.println("Doing oos.reset()"); oos.reset(); } } catch (IOException e) { if (e instanceof InterruptedIOException) { Thread.currentThread().interrupt(); } oos = null; LogLog.warn("Detected problem with connection: " + e); if (reconnectionDelay > 0) { fireConnector(); } else { errorHandler.error("Detected problem with connection, not reconnecting.", e, ErrorCode.GENERIC_FAILURE); } } } } public void setAdvertiseViaMulticastDNS(boolean advertiseViaMulticastDNS) { this.advertiseViaMulticastDNS = advertiseViaMulticastDNS; } public boolean isAdvertiseViaMulticastDNS() { return advertiseViaMulticastDNS; } void fireConnector() { if (connector == null) { LogLog.debug("Starting a new connector thread."); connector = new Connector(); connector.setDaemon(true); connector.setPriority(Thread.MIN_PRIORITY); connector.start(); } } static InetAddress getAddressByName(String host) { try { return InetAddress.getByName(host); } catch (Exception e) { if (e instanceof InterruptedIOException || e instanceof InterruptedException) { Thread.currentThread().interrupt(); } LogLog.error("Could not find address of [" + host + "].", e); return null; } } /** * The SocketAppender does not use a layout. Hence, this method returns * false. */ public boolean requiresLayout() { return false; } /** * The RemoteHost option takes a string value which should be the host name of the server where a * {@link SocketNode} is running. */ public void setRemoteHost(String host) { address = getAddressByName(host); remoteHost = host; } /** * Returns value of the RemoteHost option. */ public String getRemoteHost() { return remoteHost; } /** * The Port option takes a positive integer representing the port where the server is waiting for * connections. */ public void setPort(int port) { this.port = port; } /** * Returns value of the Port option. */ public int getPort() { return port; } /** * The LocationInfo option takes a boolean value. If true, the information sent to the remote host will * include location information. By default no location information is sent to the server. */ public void setLocationInfo(boolean locationInfo) { this.locationInfo = locationInfo; } /** * Returns value of the LocationInfo option. */ public boolean getLocationInfo() { return locationInfo; } /** * The App option takes a string value which should be the name of the application getting logged. If * property was already set (via system property), don't set here. * * @since 1.2.15 */ public void setApplication(String lapp) { this.application = lapp; } /** * Returns value of the Application option. * * @since 1.2.15 */ public String getApplication() { return application; } /** * The ReconnectionDelay option takes a positive integer representing the number of milliseconds to wait * between each failed connection attempt to the server. The default value of this option is 30000 which corresponds * to 30 seconds. * *

* Setting this option to zero turns off reconnection capability. */ public void setReconnectionDelay(int delay) { this.reconnectionDelay = delay; } /** * Returns value of the ReconnectionDelay option. */ public int getReconnectionDelay() { return reconnectionDelay; } /** * The Connector will reconnect when the server becomes available again. It does this by attempting to open a new * connection every * reconnectionDelay milliseconds. * *

* It stops trying whenever a connection is established. It will restart to try reconnect to the server when * previously open connection is droppped. * * @author Ceki Gülcü * @since 0.8.4 */ class Connector extends Thread { boolean interrupted = false; public void run() { Socket socket; while (!interrupted) { try { sleep(reconnectionDelay); LogLog.debug("Attempting connection to " + address.getHostName()); socket = new Socket(address, port); synchronized (this) { oos = new ObjectOutputStream(socket.getOutputStream()); connector = null; LogLog.debug("Connection established. Exiting connector thread."); break; } } catch (InterruptedException e) { LogLog.debug("Connector interrupted. Leaving loop."); return; } catch (java.net.ConnectException e) { LogLog.debug("Remote host " + address.getHostName() + " refused connection."); } catch (IOException e) { if (e instanceof InterruptedIOException) { Thread.currentThread().interrupt(); } LogLog.debug("Could not connect to " + address.getHostName() + ". Exception is " + e); } } // LogLog.debug("Exiting Connector.run() method."); } /** * public void finalize() { LogLog.debug("Connector finalize() has been * called."); } */ } }





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