/*
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* CDDL HEADER START
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*
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* The contents of this file are subject to the terms of the
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* Common Development and Distribution License, Version 1.0 only
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* (the "License"). You may not use this file except in compliance
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* with the License.
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*
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* You can obtain a copy of the license at
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* trunk/opends/resource/legal-notices/OpenDS.LICENSE
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* or https://OpenDS.dev.java.net/OpenDS.LICENSE.
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* See the License for the specific language governing permissions
|
* and limitations under the License.
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*
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* When distributing Covered Code, include this CDDL HEADER in each
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* file and include the License file at
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* trunk/opends/resource/legal-notices/OpenDS.LICENSE. If applicable,
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* add the following below this CDDL HEADER, with the fields enclosed
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* by brackets "[]" replaced with your own identifying information:
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* Portions Copyright [yyyy] [name of copyright owner]
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*
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* CDDL HEADER END
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*
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*
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* Copyright 2006-2010 Sun Microsystems, Inc.
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* Portions Copyright 2011-2013 ForgeRock AS
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*/
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package org.opends.quicksetup.installer;
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import java.io.BufferedReader;
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import java.io.BufferedWriter;
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import java.io.File;
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import java.io.FileInputStream;
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import java.io.FileReader;
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import java.io.FileWriter;
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import java.io.IOException;
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import java.io.InputStreamReader;
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import java.util.*;
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import java.util.logging.Level;
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import java.util.logging.Logger;
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import javax.naming.ldap.InitialLdapContext;
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import org.opends.quicksetup.Application;
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import org.opends.quicksetup.ApplicationException;
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import org.opends.quicksetup.Installation;
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import org.opends.quicksetup.JavaArguments;
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import org.opends.quicksetup.ReturnCode;
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import org.opends.quicksetup.UserData;
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import org.opends.quicksetup.util.OutputReader;
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import org.opends.quicksetup.util.Utils;
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import static org.opends.quicksetup.util.Utils.*;
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import org.opends.server.admin.DefaultBehaviorException;
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import org.opends.server.admin.ManagedObjectNotFoundException;
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import org.opends.server.admin.client.ManagementContext;
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import org.opends.server.admin.client.ldap.LDAPManagementContext;
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import org.opends.server.admin.client.ldap.JNDIDirContextAdaptor;
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import org.opends.server.admin.std.client.*;
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import org.opends.server.admin.std.meta.*;
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import org.opends.server.backends.task.TaskState;
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import org.opends.server.core.DirectoryServer;
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import org.opends.guitools.controlpanel.util.Utilities;
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import org.opends.messages.CoreMessages;
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import org.opends.messages.JebMessages;
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import org.opends.messages.ReplicationMessages;
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import org.opends.messages.Message;
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import static org.opends.messages.QuickSetupMessages.*;
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import org.opends.server.tools.ConfigureDS;
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import org.opends.server.tools.ConfigureWindowsService;
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import org.opends.server.tools.JavaPropertiesTool;
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import org.opends.server.types.DN;
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import org.opends.server.types.DirectoryException;
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import org.opends.server.types.Entry;
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import org.opends.server.types.ExistingFileBehavior;
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import org.opends.server.types.LDIFExportConfig;
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import org.opends.server.types.OpenDsException;
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import org.opends.server.util.LDIFException;
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import org.opends.server.util.LDIFWriter;
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import org.opends.server.util.SetupUtils;
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import org.opends.server.util.StaticUtils;
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/**
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* This is the only class that uses classes in org.opends.server (excluding the
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* case of DynamicConstants, SetupUtils, OperatingSystem and CertificateManager
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* which are already included in quicksetup.jar).
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*
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* Important note: do not include references to this class until OpenDS.jar has
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* been loaded. These classes must be loaded during Runtime.
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* The code is written in a way that when we execute the code that uses these
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* classes the required jar files are already loaded. However these jar files
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* are not necessarily loaded when we create this class.
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*/
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public class InstallerHelper {
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private static final Logger LOG = Logger.getLogger(
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InstallerHelper.class.getName());
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private static final int MAX_ID_VALUE = Short.MAX_VALUE;
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/**
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* Invokes the method ConfigureDS.configMain with the provided parameters.
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* @param args the arguments to be passed to ConfigureDS.configMain.
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* @return the return code of the ConfigureDS.configMain method.
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* @throws ApplicationException if something goes wrong.
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* @see org.opends.server.tools.ConfigureDS#configMain(String[],
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* java.io.OutputStream, java.io.OutputStream)
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*/
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public int invokeConfigureServer(String[] args) throws ApplicationException {
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return ConfigureDS.configMain(args, System.out, System.err);
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}
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/**
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* Invokes the import-ldif command-line with the provided parameters.
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* @param application the application that is launching this.
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* @param args the arguments to be passed to import-ldif.
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* @return the return code of the import-ldif call.
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* @throws IOException if the process could not be launched.
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* @throws InterruptedException if the process was interrupted.
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*/
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public int invokeImportLDIF(final Application application, String[] args)
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throws IOException, InterruptedException
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{
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File installPath = new File(application.getInstallationPath());
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ArrayList<String> argList = new ArrayList<String>();
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File binPath;
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if (Utils.isWindows())
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{
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binPath =
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new File(installPath, Installation.WINDOWS_BINARIES_PATH_RELATIVE);
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} else
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{
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binPath =
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new File(installPath, Installation.UNIX_BINARIES_PATH_RELATIVE);
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}
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File importPath;
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if (Utils.isWindows())
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{
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importPath = new File(binPath, Installation.WINDOWS_IMPORT_LDIF);
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} else
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{
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importPath = new File(binPath, Installation.UNIX_IMPORT_LDIF);
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}
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argList.add(Utils.getScriptPath(importPath.getAbsolutePath()));
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argList.addAll(Arrays.asList(args));
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String[] allArgs = new String[argList.size()];
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argList.toArray(allArgs);
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LOG.log(Level.INFO, "import-ldif arg list: "+argList);
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ProcessBuilder pb = new ProcessBuilder(allArgs);
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Map<String, String> env = pb.environment();
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env.remove(SetupUtils.OPENDJ_JAVA_HOME);
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env.remove(SetupUtils.OPENDJ_JAVA_ARGS);
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env.remove("CLASSPATH");
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pb.directory(installPath);
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Process process = null;
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try
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{
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process = pb.start();
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final BufferedReader err =
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new BufferedReader(new InputStreamReader(process.getErrorStream()));
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new OutputReader(err)
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{
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@Override
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public void processLine(String line)
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{
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LOG.log(Level.WARNING, "import-ldif error log: "+line);
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application.notifyListeners(Message.raw(line));
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application.notifyListeners(application.getLineBreak());
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}
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};
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BufferedReader out =
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new BufferedReader(new InputStreamReader(process.getInputStream()));
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new OutputReader(out)
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{
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@Override
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public void processLine(String line)
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{
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LOG.log(Level.INFO, "import-ldif out log: "+line);
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application.notifyListeners(Message.raw(line));
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application.notifyListeners(application.getLineBreak());
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}
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};
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return process.waitFor();
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}
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finally
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{
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if (process != null)
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{
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try
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{
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process.getErrorStream().close();
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}
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catch (Throwable t)
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{
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LOG.log(Level.WARNING, "Error closing error stream: "+t, t);
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}
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try
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{
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process.getOutputStream().close();
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}
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catch (Throwable t)
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{
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LOG.log(Level.WARNING, "Error closing output stream: "+t, t);
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}
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}
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}
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}
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/**
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* Returns the Message ID that corresponds to a successfully started server.
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* @return the Message ID that corresponds to a successfully started server.
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*/
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public String getStartedId()
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{
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return String.valueOf(CoreMessages.NOTE_DIRECTORY_SERVER_STARTED.getId());
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}
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/**
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* This methods enables this server as a Windows service.
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* @throws ApplicationException if something goes wrong.
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*/
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public void enableWindowsService() throws ApplicationException {
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int code = ConfigureWindowsService.enableService(System.out, System.err);
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Message errorMessage = INFO_ERROR_ENABLING_WINDOWS_SERVICE.get();
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switch (code) {
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case
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ConfigureWindowsService.SERVICE_ENABLE_SUCCESS:
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break;
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case
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ConfigureWindowsService.SERVICE_ALREADY_ENABLED:
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break;
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default:
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throw new ApplicationException(
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ReturnCode.WINDOWS_SERVICE_ERROR,
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errorMessage, null);
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}
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}
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/**
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* This method disables this server as a Windows service.
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* @throws ApplicationException if something goes worong.
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*/
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public void disableWindowsService() throws ApplicationException
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{
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int code = ConfigureWindowsService.disableService(System.out, System.err);
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if (code == ConfigureWindowsService.SERVICE_DISABLE_ERROR) {
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throw new ApplicationException(
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// TODO: fix this message's format string
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ReturnCode.WINDOWS_SERVICE_ERROR,
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INFO_ERROR_DISABLING_WINDOWS_SERVICE.get(""), null);
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}
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}
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/**
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* Creates a template LDIF file with an entry that has as dn the provided
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* baseDn.
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* @param baseDn the dn of the entry that will be created in the LDIF file.
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* @return the File object pointing to the created temporary file.
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* @throws ApplicationException if something goes wrong.
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*/
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public File createBaseEntryTempFile(String baseDn)
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throws ApplicationException {
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File ldifFile;
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try
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{
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ldifFile = File.createTempFile("opendj-base-entry", ".ldif");
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ldifFile.deleteOnExit();
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} catch (IOException ioe)
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{
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Message failedMsg =
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getThrowableMsg(INFO_ERROR_CREATING_TEMP_FILE.get(), ioe);
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throw new ApplicationException(
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ReturnCode.FILE_SYSTEM_ACCESS_ERROR,
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failedMsg, ioe);
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}
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try
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{
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LDIFExportConfig exportConfig = new LDIFExportConfig(
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ldifFile.getAbsolutePath(), ExistingFileBehavior.OVERWRITE);
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LDIFWriter writer = new LDIFWriter(exportConfig);
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DN dn = DN.decode(baseDn);
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Entry entry = StaticUtils.createEntry(dn);
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writer.writeEntry(entry);
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writer.close();
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} catch (DirectoryException de) {
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throw new ApplicationException(
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ReturnCode.CONFIGURATION_ERROR,
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getThrowableMsg(INFO_ERROR_IMPORTING_LDIF.get(), de), de);
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} catch (LDIFException le) {
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throw new ApplicationException(
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ReturnCode.CONFIGURATION_ERROR,
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getThrowableMsg(INFO_ERROR_IMPORTING_LDIF.get(), le), le);
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} catch (IOException ioe) {
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throw new ApplicationException(
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ReturnCode.CONFIGURATION_ERROR,
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getThrowableMsg(INFO_ERROR_IMPORTING_LDIF.get(), ioe), ioe);
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} catch (Throwable t) {
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throw new ApplicationException(
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ReturnCode.BUG, getThrowableMsg(
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INFO_BUG_MSG.get(), t), t);
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}
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return ldifFile;
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}
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/**
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* Deletes a backend on the server.
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* @param ctx the connection to the server.
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* @param backendName the name of the backend to be deleted.
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* @param serverDisplay the server display.
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* @throws ApplicationException if something goes wrong.
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*/
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public void deleteBackend(InitialLdapContext ctx, String backendName,
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String serverDisplay)
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throws ApplicationException
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{
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try
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{
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ManagementContext mCtx = LDAPManagementContext.createFromContext(
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JNDIDirContextAdaptor.adapt(ctx));
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RootCfgClient root = mCtx.getRootConfiguration();
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root.removeBackend(backendName);
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}
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catch (Throwable t)
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{
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Message errorMessage = INFO_ERROR_CONFIGURING_REMOTE_GENERIC.get(
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serverDisplay, t.toString());
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throw new ApplicationException(
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ReturnCode.CONFIGURATION_ERROR, errorMessage,
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t);
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}
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}
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/**
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* Deletes a backend on the server. It assumes the server is stopped.
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* @param backendName the name of the backend to be deleted.
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* @throws ApplicationException if something goes wrong.
|
*/
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public void deleteBackend(String backendName)
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throws ApplicationException
|
{
|
try
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{
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// Read the configuration file.
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String dn = Utilities.getRDNString("ds-cfg-backend-id",
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backendName)+",cn=Backends,cn=config";
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Utilities.deleteConfigSubtree(
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DirectoryServer.getConfigHandler(), DN.decode(dn));
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}
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catch (OpenDsException ode)
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{
|
throw new ApplicationException(
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ReturnCode.CONFIGURATION_ERROR, ode.getMessageObject(), ode);
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}
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}
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/**
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* Creates a local database backend on the server.
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* @param ctx the connection to the server.
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* @param backendName the name of the backend to be created.
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* @param baseDNs the list of base DNs to be defined on the server.
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* @param serverDisplay the server display.
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* @throws ApplicationException if something goes wrong.
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*/
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public void createLocalDBBackend(InitialLdapContext ctx,
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String backendName,
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Set<String> baseDNs,
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String serverDisplay)
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throws ApplicationException
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{
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try
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{
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ManagementContext mCtx = LDAPManagementContext.createFromContext(
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JNDIDirContextAdaptor.adapt(ctx));
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RootCfgClient root = mCtx.getRootConfiguration();
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LocalDBBackendCfgDefn provider = LocalDBBackendCfgDefn.getInstance();
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LocalDBBackendCfgClient backend = root.createBackend(provider,
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backendName, null);
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backend.setEnabled(true);
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Set<DN> setBaseDNs = new HashSet<DN>();
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for (String baseDN : baseDNs)
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{
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setBaseDNs.add(DN.decode(baseDN));
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}
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backend.setBaseDN(setBaseDNs);
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backend.setBackendId(backendName);
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backend.setWritabilityMode(BackendCfgDefn.WritabilityMode.ENABLED);
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backend.commit();
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}
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catch (Throwable t)
|
{
|
Message errorMessage = INFO_ERROR_CONFIGURING_REMOTE_GENERIC.get(
|
serverDisplay, t.toString());
|
throw new ApplicationException(
|
ReturnCode.CONFIGURATION_ERROR, errorMessage,
|
t);
|
}
|
}
|
|
/**
|
* Sets the base DNs on a given backend.
|
* @param ctx the connection to the server.
|
* @param backendName the name of the backend where the base Dns must be
|
* defined.
|
* @param baseDNs the list of base DNs to be defined on the server.
|
* @param serverDisplay the server display.
|
* @throws ApplicationException if something goes wrong.
|
*/
|
public void setBaseDns(InitialLdapContext ctx,
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String backendName,
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Set<String> baseDNs,
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String serverDisplay)
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throws ApplicationException
|
{
|
try
|
{
|
ManagementContext mCtx = LDAPManagementContext.createFromContext(
|
JNDIDirContextAdaptor.adapt(ctx));
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RootCfgClient root = mCtx.getRootConfiguration();
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BackendCfgClient backend = root.getBackend(backendName);
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Set<DN> setBaseDNs = new HashSet<DN>();
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for (String baseDN : baseDNs)
|
{
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setBaseDNs.add(DN.decode(baseDN));
|
}
|
backend.setBaseDN(setBaseDNs);
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backend.commit();
|
}
|
catch (Throwable t)
|
{
|
Message errorMessage = INFO_ERROR_CONFIGURING_REMOTE_GENERIC.get(
|
serverDisplay, t.toString());
|
throw new ApplicationException(
|
ReturnCode.CONFIGURATION_ERROR, errorMessage,
|
t);
|
}
|
}
|
|
/**
|
* Configures the replication on a given server.
|
* @param remoteCtx the connection to the server where we want to configure
|
* the replication.
|
* @param replicationServers a Map where the key value is the base dn and
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* the value is the list of replication servers for that base dn (or domain).
|
* @param replicationPort the replicationPort of the server that is being
|
* configured (it might not exist and the user specified it in the setup).
|
* @param useSecureReplication whether to encrypt connections with the
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* replication port or not.
|
* @param serverDisplay the server display.
|
* @param usedReplicationServerIds the list of replication server ids that
|
* are already used.
|
* @param usedServerIds the list of server ids (domain ids) that
|
* are already used.
|
* @throws ApplicationException if something goes wrong.
|
* @return a ConfiguredReplication object describing what has been configured.
|
*/
|
public ConfiguredReplication configureReplication(
|
InitialLdapContext remoteCtx, Map<String,Set<String>> replicationServers,
|
int replicationPort, boolean useSecureReplication, String serverDisplay,
|
Set<Integer> usedReplicationServerIds, Set<Integer> usedServerIds)
|
throws ApplicationException
|
{
|
boolean synchProviderCreated;
|
boolean synchProviderEnabled;
|
boolean replicationServerCreated;
|
boolean secureReplicationEnabled;
|
try
|
{
|
ManagementContext mCtx = LDAPManagementContext.createFromContext(
|
JNDIDirContextAdaptor.adapt(remoteCtx));
|
RootCfgClient root = mCtx.getRootConfiguration();
|
|
/*
|
* Configure Synchronization plugin.
|
*/
|
ReplicationSynchronizationProviderCfgClient sync = null;
|
try
|
{
|
sync = (ReplicationSynchronizationProviderCfgClient)
|
root.getSynchronizationProvider("Multimaster Synchronization");
|
}
|
catch (ManagedObjectNotFoundException monfe)
|
{
|
// It does not exist.
|
}
|
if (sync == null)
|
{
|
ReplicationSynchronizationProviderCfgDefn provider =
|
ReplicationSynchronizationProviderCfgDefn.getInstance();
|
sync = root.createSynchronizationProvider(provider,
|
"Multimaster Synchronization",
|
new ArrayList<DefaultBehaviorException>());
|
sync.setJavaClass(
|
org.opends.server.replication.plugin.MultimasterReplication.class.
|
getName());
|
sync.setEnabled(Boolean.TRUE);
|
synchProviderCreated = true;
|
synchProviderEnabled = false;
|
}
|
else
|
{
|
synchProviderCreated = false;
|
if (!sync.isEnabled())
|
{
|
sync.setEnabled(Boolean.TRUE);
|
synchProviderEnabled = true;
|
}
|
else
|
{
|
synchProviderEnabled = false;
|
}
|
}
|
sync.commit();
|
|
/*
|
* Configure the replication server.
|
*/
|
ReplicationServerCfgClient replicationServer;
|
|
if (!sync.hasReplicationServer())
|
{
|
if (useSecureReplication)
|
{
|
CryptoManagerCfgClient crypto = root.getCryptoManager();
|
if (!crypto.isSSLEncryption())
|
{
|
crypto.setSSLEncryption(true);
|
crypto.commit();
|
secureReplicationEnabled = true;
|
}
|
else
|
{
|
// Only mark as true if we actually change the configuration
|
secureReplicationEnabled = false;
|
}
|
}
|
else
|
{
|
secureReplicationEnabled = false;
|
}
|
int id = getReplicationId(usedReplicationServerIds);
|
usedReplicationServerIds.add(id);
|
replicationServer = sync.createReplicationServer(
|
ReplicationServerCfgDefn.getInstance(),
|
new ArrayList<DefaultBehaviorException>());
|
replicationServer.setReplicationServerId(id);
|
replicationServer.setReplicationPort(replicationPort);
|
replicationServerCreated = true;
|
}
|
else
|
{
|
secureReplicationEnabled = false;
|
replicationServer = sync.getReplicationServer();
|
usedReplicationServerIds.add(
|
replicationServer.getReplicationServerId());
|
replicationServerCreated = false;
|
}
|
|
Set<String> servers = replicationServer.getReplicationServer();
|
if (servers == null)
|
{
|
servers = new HashSet<String>();
|
}
|
Set<String> oldServers = new HashSet<String>();
|
oldServers.addAll(servers);
|
for (Set<String> rs : replicationServers.values())
|
{
|
servers.addAll(rs);
|
}
|
|
replicationServer.setReplicationServer(servers);
|
replicationServer.commit();
|
|
Set<String> newReplicationServers = new HashSet<String>();
|
newReplicationServers.addAll(servers);
|
newReplicationServers.removeAll(oldServers);
|
|
/*
|
* Create the domains
|
*/
|
String[] domainNames = sync.listReplicationDomains();
|
if (domainNames == null)
|
{
|
domainNames = new String[]{};
|
}
|
Set<ConfiguredDomain> domainsConf = new HashSet<ConfiguredDomain>();
|
ReplicationDomainCfgClient[] domains =
|
new ReplicationDomainCfgClient[domainNames.length];
|
for (int i=0; i<domains.length; i++)
|
{
|
domains[i] = sync.getReplicationDomain(domainNames[i]);
|
}
|
for (String dn : replicationServers.keySet())
|
{
|
ReplicationDomainCfgClient domain = null;
|
boolean isCreated;
|
String domainName = null;
|
for (int i=0; i<domains.length && (domain == null); i++)
|
{
|
if (areDnsEqual(dn,
|
domains[i].getBaseDN().toString()))
|
{
|
domain = domains[i];
|
domainName = domainNames[i];
|
}
|
}
|
if (domain == null)
|
{
|
int domainId = getReplicationId(usedServerIds);
|
usedServerIds.add(domainId);
|
domainName = getDomainName(domainNames, domainId, dn);
|
domain = sync.createReplicationDomain(
|
ReplicationDomainCfgDefn.getInstance(), domainName,
|
new ArrayList<DefaultBehaviorException>());
|
domain.setServerId(domainId);
|
domain.setBaseDN(DN.decode(dn));
|
isCreated = true;
|
}
|
else
|
{
|
isCreated = false;
|
}
|
oldServers = domain.getReplicationServer();
|
if (oldServers == null)
|
{
|
oldServers = new TreeSet<String>();
|
}
|
servers = replicationServers.get(dn);
|
domain.setReplicationServer(servers);
|
usedServerIds.add(domain.getServerId());
|
|
domain.commit();
|
Set<String> addedServers = new TreeSet<String>();
|
addedServers.addAll(servers);
|
addedServers.removeAll(oldServers);
|
ConfiguredDomain domainConf = new ConfiguredDomain(domainName,
|
isCreated, addedServers);
|
domainsConf.add(domainConf);
|
}
|
return new ConfiguredReplication(synchProviderCreated,
|
synchProviderEnabled, replicationServerCreated,
|
secureReplicationEnabled, newReplicationServers,
|
domainsConf);
|
}
|
catch (Throwable t)
|
{
|
Message errorMessage = INFO_ERROR_CONFIGURING_REMOTE_GENERIC.get(
|
serverDisplay, t.toString());
|
throw new ApplicationException(
|
ReturnCode.CONFIGURATION_ERROR, errorMessage,
|
t);
|
}
|
}
|
|
/**
|
* Configures the replication on a given server.
|
* @param remoteCtx the conection to the server where we want to configure
|
* the replication.
|
* @param replConf the object describing what was configured.
|
* @param serverDisplay the server display.
|
* @throws ApplicationException if something goes wrong.
|
*/
|
public void unconfigureReplication(
|
InitialLdapContext remoteCtx, ConfiguredReplication replConf,
|
String serverDisplay)
|
throws ApplicationException
|
{
|
try
|
{
|
ManagementContext mCtx = LDAPManagementContext.createFromContext(
|
JNDIDirContextAdaptor.adapt(remoteCtx));
|
RootCfgClient root = mCtx.getRootConfiguration();
|
|
/*
|
* Unconfigure Synchronization plugin.
|
*/
|
if (replConf.isSynchProviderCreated())
|
{
|
try
|
{
|
root.removeSynchronizationProvider("Multimaster Synchronization");
|
}
|
catch (ManagedObjectNotFoundException monfe)
|
{
|
// It does not exist.
|
}
|
}
|
else
|
{
|
try
|
{
|
ReplicationSynchronizationProviderCfgClient sync =
|
(ReplicationSynchronizationProviderCfgClient)
|
root.getSynchronizationProvider("Multimaster Synchronization");
|
if (replConf.isSynchProviderEnabled())
|
{
|
sync.setEnabled(Boolean.FALSE);
|
}
|
if (replConf.isReplicationServerCreated())
|
{
|
sync.removeReplicationServer();
|
}
|
else if (sync.hasReplicationServer())
|
{
|
ReplicationServerCfgClient replicationServer =
|
sync.getReplicationServer();
|
Set<String> replServers = replicationServer.getReplicationServer();
|
if (replServers != null)
|
{
|
replServers.removeAll(replConf.getNewReplicationServers());
|
replicationServer.setReplicationServer(replServers);
|
replicationServer.commit();
|
}
|
}
|
for (ConfiguredDomain domain : replConf.getDomainsConf())
|
{
|
if (domain.isCreated())
|
{
|
sync.removeReplicationDomain(domain.getDomainName());
|
}
|
else
|
{
|
try
|
{
|
ReplicationDomainCfgClient d =
|
sync.getReplicationDomain(domain.getDomainName());
|
Set<String> replServers = d.getReplicationServer();
|
if (replServers != null)
|
{
|
replServers.removeAll(domain.getAddedReplicationServers());
|
d.setReplicationServer(replServers);
|
d.commit();
|
}
|
}
|
catch (ManagedObjectNotFoundException monfe)
|
{
|
// It does not exist.
|
}
|
}
|
}
|
sync.commit();
|
}
|
catch (ManagedObjectNotFoundException monfe)
|
{
|
// It does not exist.
|
}
|
}
|
if (replConf.isSecureReplicationEnabled())
|
{
|
CryptoManagerCfgClient crypto = root.getCryptoManager();
|
if (crypto.isSSLEncryption())
|
{
|
crypto.setSSLEncryption(false);
|
crypto.commit();
|
}
|
}
|
}
|
catch (Throwable t)
|
{
|
Message errorMessage = INFO_ERROR_CONFIGURING_REMOTE_GENERIC.get(
|
serverDisplay, t.toString());
|
throw new ApplicationException(
|
ReturnCode.CONFIGURATION_ERROR, errorMessage,
|
t);
|
}
|
}
|
|
/**
|
* For the given state provided by a Task tells if the task is done or not.
|
* @param sState the String representing the task state.
|
* @return <CODE>true</CODE> if the task is done and <CODE>false</CODE>
|
* otherwise.
|
*/
|
public boolean isDone(String sState)
|
{
|
TaskState state = TaskState.fromString(sState);
|
return TaskState.isDone(state);
|
}
|
|
/**
|
* For the given state provided by a Task tells if the task is successful or
|
* not.
|
* @param sState the String representing the task state.
|
* @return <CODE>true</CODE> if the task is successful and <CODE>false</CODE>
|
* otherwise.
|
*/
|
public boolean isSuccessful(String sState)
|
{
|
TaskState state = TaskState.fromString(sState);
|
return TaskState.isSuccessful(state);
|
}
|
|
/**
|
* For the given state provided by a Task tells if the task is complete with
|
* errors or not.
|
* @param sState the String representing the task state.
|
* @return <CODE>true</CODE> if the task is complete with errors and
|
* <CODE>false</CODE> otherwise.
|
*/
|
public boolean isCompletedWithErrors(String sState)
|
{
|
TaskState state = TaskState.fromString(sState);
|
return state == TaskState.COMPLETED_WITH_ERRORS;
|
}
|
|
/**
|
* For the given state provided by a Task tells if the task is stopped by
|
* error or not.
|
* @param sState the String representing the task state.
|
* @return <CODE>true</CODE> if the task is stopped by error and
|
* <CODE>false</CODE> otherwise.
|
*/
|
public boolean isStoppedByError(String sState)
|
{
|
TaskState state = TaskState.fromString(sState);
|
return state == TaskState.STOPPED_BY_ERROR;
|
}
|
|
/**
|
* Tells whether the provided log message corresponds to a peers not found
|
* error during the initialization of a replica or not.
|
* @param logMsg the log message.
|
* @return <CODE>true</CODE> if the log message corresponds to a peers not
|
* found error during initialization and <CODE>false</CODE> otherwise.
|
*/
|
public boolean isPeersNotFoundError(String logMsg)
|
{
|
return logMsg.contains("=" + ReplicationMessages.
|
ERR_NO_REACHABLE_PEER_IN_THE_DOMAIN.getId());
|
}
|
|
/**
|
* Returns the ID to be used for a new replication server or domain.
|
* @param usedIds the list of already used ids.
|
* @return the ID to be used for a new replication server or domain.
|
*/
|
public static int getReplicationId(Set<Integer> usedIds)
|
{
|
Random r = new Random();
|
int id = 0;
|
while ((id == 0) || usedIds.contains(id))
|
{
|
id = r.nextInt(MAX_ID_VALUE);
|
}
|
return id;
|
}
|
|
/**
|
* Returns the name to be used for a new replication domain.
|
* @param existingDomains the existing domains names.
|
* @param newDomainId the new domain replication id.
|
* @param baseDN the base DN of the domain.
|
* @return the name to be used for a new replication domain.
|
*/
|
public static String getDomainName(String[] existingDomains, int newDomainId,
|
String baseDN)
|
{
|
String domainName = baseDN;
|
boolean nameExists = true;
|
int j = 0;
|
while (nameExists)
|
{
|
boolean found = false;
|
for (int i=0; i<existingDomains.length && !found; i++)
|
{
|
found = existingDomains[i].equalsIgnoreCase(domainName);
|
}
|
if (found)
|
{
|
domainName = baseDN+"-"+j;
|
}
|
else
|
{
|
nameExists = false;
|
}
|
j++;
|
}
|
return domainName;
|
}
|
|
/**
|
* Writes the set-java-home file that is used by the scripts to set the
|
* java home and the java arguments.
|
* @param uData the data provided by the user.
|
* @param installPath where the server is installed.
|
* @throws IOException if an error occurred writing the file.
|
*/
|
public void writeSetOpenDSJavaHome(UserData uData,
|
String installPath) throws IOException
|
{
|
String javaHome = System.getProperty("java.home");
|
if ((javaHome == null) || (javaHome.length() == 0))
|
{
|
javaHome = System.getenv(SetupUtils.OPENDJ_JAVA_HOME);
|
}
|
|
// Try to transform things if necessary. The following map has as key
|
// the original JavaArgument object and as value the 'transformed'
|
// JavaArgument.
|
Map<JavaArguments, JavaArguments> hmJavaArguments =
|
new HashMap<JavaArguments, JavaArguments>();
|
for (String script : uData.getScriptNamesForJavaArguments())
|
{
|
JavaArguments origJavaArguments = uData.getJavaArguments(script);
|
if (hmJavaArguments.get(origJavaArguments) == null)
|
{
|
if (Utils.supportsOption(origJavaArguments.getStringArguments(),
|
javaHome, installPath))
|
{
|
// The argument works, so just use it.
|
hmJavaArguments.put(origJavaArguments, origJavaArguments);
|
}
|
else
|
{
|
// We have to fix it somehow: test separately memory and other
|
// arguments to see if something works.
|
JavaArguments transformedArguments =
|
getBestEffortArguments(origJavaArguments, javaHome, installPath);
|
hmJavaArguments.put(origJavaArguments, transformedArguments);
|
}
|
}
|
else
|
{
|
// Already checked if supported.
|
}
|
}
|
|
Properties fileProperties = getJavaPropertiesFileContents(
|
getPropertiesFileName(installPath));
|
Map<String, JavaArguments> args = new HashMap<String, JavaArguments>();
|
Map<String, String> otherProperties = new HashMap<String, String>();
|
|
for (String script : uData.getScriptNamesForJavaArguments())
|
{
|
JavaArguments origJavaArgument = uData.getJavaArguments(script);
|
JavaArguments transformedJavaArg = hmJavaArguments.get(origJavaArgument);
|
JavaArguments defaultJavaArg = uData.getDefaultJavaArguments(script);
|
|
// Apply the following policy: overwrite the values in the file only
|
// if the values provided by the user are not the default ones.
|
|
String propertiesKey = getJavaArgPropertyForScript(script);
|
if (origJavaArgument.equals(defaultJavaArg) &&
|
fileProperties.containsKey(propertiesKey))
|
{
|
otherProperties.put(propertiesKey,
|
fileProperties.getProperty(propertiesKey));
|
}
|
else
|
{
|
args.put(script, transformedJavaArg);
|
}
|
}
|
|
String v = fileProperties.getProperty("overwrite-env-java-home");
|
if (v == null ||
|
(!v.equalsIgnoreCase("true") && !v.equalsIgnoreCase("false")))
|
{
|
otherProperties.put("overwrite-env-java-home", "false");
|
}
|
else
|
{
|
otherProperties.put("overwrite-env-java-home", v.toLowerCase());
|
}
|
|
v = fileProperties.getProperty("overwrite-env-java-args");
|
if (v == null ||
|
(!v.equalsIgnoreCase("true") && !v.equalsIgnoreCase("false")))
|
{
|
otherProperties.put("overwrite-env-java-args", "false");
|
}
|
else
|
{
|
otherProperties.put("overwrite-env-java-args", v.toLowerCase());
|
}
|
|
|
if (!fileProperties.containsKey("default.java-home"))
|
{
|
otherProperties.put("default.java-home", javaHome);
|
}
|
|
writeSetOpenDSJavaHome(installPath, javaHome, args, otherProperties);
|
}
|
|
/**
|
* Tries to figure out a new JavaArguments object that works, based on the
|
* provided JavaArguments. It is more efficient to call this method if we
|
* are sure that the provided JavaArguments object does not work.
|
* @param origJavaArguments the java arguments that does not work.
|
* @param javaHome the java home to be used to test the java arguments.
|
* @param installPath the install path.
|
* @return a working JavaArguments object.
|
*/
|
private JavaArguments getBestEffortArguments(JavaArguments origJavaArguments,
|
String javaHome, String installPath)
|
{
|
JavaArguments memArgs = new JavaArguments();
|
memArgs.setInitialMemory(origJavaArguments.getInitialMemory());
|
memArgs.setMaxMemory(origJavaArguments.getMaxMemory());
|
String m = memArgs.getStringArguments();
|
boolean supportsMemory = false;
|
if (m.length() > 0)
|
{
|
supportsMemory = Utils.supportsOption(m, javaHome, installPath);
|
}
|
|
JavaArguments additionalArgs = new JavaArguments();
|
additionalArgs.setAdditionalArguments(
|
origJavaArguments.getAdditionalArguments());
|
String a = additionalArgs.getStringArguments();
|
boolean supportsAdditional = false;
|
if (a.length() > 0)
|
{
|
supportsAdditional = Utils.supportsOption(a, javaHome, installPath);
|
}
|
|
JavaArguments javaArgs = new JavaArguments();
|
if (supportsMemory)
|
{
|
javaArgs.setInitialMemory(origJavaArguments.getInitialMemory());
|
javaArgs.setMaxMemory(origJavaArguments.getMaxMemory());
|
}
|
else
|
{
|
// Try to figure out a smaller amount of memory.
|
long currentMaxMemory = Runtime.getRuntime().maxMemory();
|
int maxMemory = origJavaArguments.getMaxMemory();
|
if (maxMemory != -1)
|
{
|
maxMemory = maxMemory / 2;
|
while ((1024L * 1024 * maxMemory) < currentMaxMemory &&
|
!Utils.supportsOption(JavaArguments.getMaxMemoryArgument(maxMemory),
|
javaHome, installPath))
|
{
|
maxMemory = maxMemory / 2;
|
}
|
if ((1024L * 1024 * maxMemory) > currentMaxMemory)
|
{
|
// Supports this option.
|
javaArgs.setMaxMemory(maxMemory);
|
}
|
}
|
}
|
if (supportsAdditional)
|
{
|
javaArgs.setAdditionalArguments(
|
origJavaArguments.getAdditionalArguments());
|
}
|
return javaArgs;
|
}
|
|
private List<String> getJavaPropertiesFileComments(String propertiesFile)
|
throws IOException
|
{
|
ArrayList<String> commentLines = new ArrayList<String>();
|
BufferedReader reader = new BufferedReader(new FileReader(propertiesFile));
|
String line;
|
while ((line = reader.readLine()) != null)
|
{
|
String trimmedLine = line.trim();
|
if (trimmedLine.startsWith("#") || (trimmedLine.length() == 0))
|
{
|
commentLines.add(line);
|
}
|
else
|
{
|
break;
|
}
|
}
|
return commentLines;
|
}
|
|
private Properties getJavaPropertiesFileContents(String propertiesFile)
|
throws IOException
|
{
|
FileInputStream fs = null;
|
Properties fileProperties = new Properties();
|
try
|
{
|
fs = new FileInputStream(propertiesFile);
|
fileProperties.load(fs);
|
}
|
catch (Throwable t)
|
{ /* do nothing */
|
}
|
finally
|
{
|
StaticUtils.close(fs);
|
}
|
return fileProperties;
|
}
|
|
private String getPropertiesFileName(String installPath)
|
{
|
String configDir = Utils.getPath(Utils
|
.getInstancePathFromInstallPath(installPath),
|
Installation.CONFIG_PATH_RELATIVE);
|
return Utils.getPath(
|
configDir, Installation.DEFAULT_JAVA_PROPERTIES_FILE);
|
}
|
|
/**
|
* Writes the set-java-home file that is used by the scripts to set the
|
* java home and the java arguments.
|
* Since the set-java-home file is created and may be changed,
|
* it's created under the instancePath.
|
* @param installPath the install path of the server.
|
* @param javaHome the java home to be used.
|
* @param arguments a Map containing as key the name of the script and as
|
* value, the java arguments to be set for the script.
|
* @param otherProperties other properties that must be set in the file.
|
* @throws IOException if an error occurred writing the file.
|
*/
|
private void writeSetOpenDSJavaHome(String installPath,
|
String javaHome,
|
Map<String, JavaArguments> arguments,
|
Map<String, String> otherProperties) throws IOException
|
{
|
String propertiesFile = getPropertiesFileName(installPath);
|
List<String> commentLines = getJavaPropertiesFileComments(propertiesFile);
|
BufferedWriter writer = new BufferedWriter(
|
new FileWriter(propertiesFile, false));
|
|
for (String line: commentLines)
|
{
|
writer.write(line);
|
writer.newLine();
|
|
}
|
|
for (String key : otherProperties.keySet())
|
{
|
writer.write(key+"="+otherProperties.get(key));
|
writer.newLine();
|
}
|
|
|
for (String scriptName : arguments.keySet())
|
{
|
String argument = arguments.get(scriptName).getStringArguments();
|
writer.newLine();
|
writer.write(getJavaArgPropertyForScript(scriptName)+"="+argument);
|
}
|
writer.close();
|
|
String destinationFile;
|
String libDir = Utils.getPath(Utils
|
.getInstancePathFromInstallPath(installPath),
|
Installation.LIBRARIES_PATH_RELATIVE);
|
if (Utils.isWindows())
|
{
|
destinationFile = Utils.getPath(libDir,
|
Installation.SET_JAVA_PROPERTIES_FILE_WINDOWS);
|
}
|
else
|
{
|
destinationFile = Utils.getPath(libDir,
|
Installation.SET_JAVA_PROPERTIES_FILE_UNIX);
|
}
|
|
// Launch the script
|
String[] args =
|
{
|
"--propertiesFile", propertiesFile,
|
"--destinationFile", destinationFile,
|
"--quiet"
|
};
|
|
int returnValue = JavaPropertiesTool.mainCLI(args);
|
|
if ((returnValue !=
|
JavaPropertiesTool.ErrorReturnCode.SUCCESSFUL.getReturnCode()) &&
|
returnValue !=
|
JavaPropertiesTool.ErrorReturnCode.SUCCESSFUL_NOP.getReturnCode())
|
{
|
LOG.log(Level.WARNING, "Error creating java home scripts, error code: "+
|
returnValue);
|
throw new IOException(
|
ERR_ERROR_CREATING_JAVA_HOME_SCRIPTS.get(returnValue).toString());
|
}
|
}
|
|
/**
|
* Returns the java argument property for a given script.
|
* @param scriptName the script name.
|
* @return the java argument property for a given script.
|
*/
|
private static String getJavaArgPropertyForScript(String scriptName)
|
{
|
return scriptName+".java-args";
|
}
|
|
/**
|
* If the log message is of type "[03/Apr/2008:21:25:43 +0200] category=JEB
|
* severity=NOTICE msgID=8847454 Processed 1 entries, imported 0, skipped 1,
|
* rejected 0 and migrated 0 in 1 seconds (average rate 0.0/sec)" returns
|
* the message part. Returns <CODE>null</CODE> otherwise.
|
* @param msg the message to be parsed.
|
* @return the parsed import message.
|
*/
|
public String getImportProgressMessage(String msg)
|
{
|
String parsedMsg = null;
|
if (msg != null)
|
{
|
if ((msg.contains("msgID=" + JebMessages
|
.NOTE_JEB_IMPORT_FINAL_STATUS.getId())) ||
|
(msg.contains("msgID=" + JebMessages
|
.NOTE_JEB_IMPORT_PROGRESS_REPORT.getId())))
|
{
|
int index = msg.indexOf("msg=");
|
if (index != -1)
|
{
|
parsedMsg = msg.substring(index + 4);
|
}
|
}
|
}
|
return parsedMsg;
|
}
|
}
|
