/*
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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 legal-notices/CDDLv1_0.txt
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* or http://forgerock.org/license/CDDLv1.0.html.
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* See the License for the specific language governing permissions
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* 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 legal-notices/CDDLv1_0.txt.
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* If applicable, add the following below this CDDL HEADER, with the
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* fields enclosed by brackets "[]" replaced with your own identifying
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* 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 2007-2010 Sun Microsystems, Inc.
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* Portions Copyright 2011-2014 ForgeRock AS
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*/
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package org.opends.server.tools.dsconfig;
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import static org.opends.messages.DSConfigMessages.*;
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import static org.opends.messages.ToolMessages.INFO_NAME_PLACEHOLDER;
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import static org.opends.messages.ToolMessages.INFO_PROPERTY_PLACEHOLDER;
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import static org.opends.messages.ToolMessages.INFO_UNIT_PLACEHOLDER;
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import java.io.PrintStream;
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import java.util.ArrayList;
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import java.util.Arrays;
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import java.util.Collection;
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import java.util.Collections;
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import java.util.HashSet;
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import java.util.LinkedHashSet;
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import java.util.LinkedList;
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import java.util.List;
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import java.util.Map;
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import java.util.Set;
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import java.util.SortedMap;
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import java.util.TreeMap;
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import org.forgerock.i18n.LocalizableMessage;
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import org.opends.server.admin.AbstractManagedObjectDefinition;
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import org.opends.server.admin.Configuration;
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import org.opends.server.admin.ConfigurationClient;
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import org.opends.server.admin.DefinitionDecodingException;
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import org.opends.server.admin.DurationUnit;
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import org.opends.server.admin.InstantiableRelationDefinition;
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import org.opends.server.admin.ManagedObjectDefinition;
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import org.opends.server.admin.ManagedObjectNotFoundException;
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import org.opends.server.admin.ManagedObjectOption;
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import org.opends.server.admin.ManagedObjectPath;
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import org.opends.server.admin.ManagedObjectPathSerializer;
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import org.opends.server.admin.OptionalRelationDefinition;
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import org.opends.server.admin.PropertyDefinition;
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import org.opends.server.admin.PropertyDefinitionUsageBuilder;
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import org.opends.server.admin.RelationDefinition;
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import org.opends.server.admin.SetRelationDefinition;
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import org.opends.server.admin.SingletonRelationDefinition;
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import org.opends.server.admin.SizeUnit;
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import org.opends.server.admin.Tag;
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import org.opends.server.admin.client.AuthorizationException;
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import org.opends.server.admin.client.CommunicationException;
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import org.opends.server.admin.client.ConcurrentModificationException;
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import org.opends.server.admin.client.IllegalManagedObjectNameException;
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import org.opends.server.admin.client.ManagedObject;
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import org.opends.server.admin.client.ManagedObjectDecodingException;
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import org.opends.server.admin.client.ManagementContext;
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import org.opends.server.util.ServerConstants;
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import com.forgerock.opendj.cli.Argument;
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import com.forgerock.opendj.cli.ArgumentException;
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import com.forgerock.opendj.cli.BooleanArgument;
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import com.forgerock.opendj.cli.ClientException;
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import com.forgerock.opendj.cli.CommandBuilder;
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import com.forgerock.opendj.cli.ConsoleApplication;
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import com.forgerock.opendj.cli.Menu;
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import com.forgerock.opendj.cli.MenuBuilder;
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import com.forgerock.opendj.cli.MenuResult;
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import com.forgerock.opendj.cli.ReturnCode;
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import com.forgerock.opendj.cli.StringArgument;
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import com.forgerock.opendj.cli.SubCommand;
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import com.forgerock.opendj.cli.TabSeparatedTablePrinter;
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import com.forgerock.opendj.cli.TablePrinter;
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/**
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* An interface for sub-command implementations.
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*/
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abstract class SubCommandHandler implements Comparable<SubCommandHandler> {
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/**
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* A path serializer which is used to retrieve a managed object
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* based on a path and a list of path arguments.
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*/
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private class ManagedObjectFinder implements ManagedObjectPathSerializer {
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/** The console application. */
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private ConsoleApplication app;
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/** The index of the next path argument to be retrieved. */
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private int argIndex;
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/** The list of managed object path arguments. */
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private List<String> args;
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private AuthorizationException authze;
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private CommunicationException ce;
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/**
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* Any CLI exception that was caught when attempting to find the managed
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* object.
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*/
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private ClientException clie;
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private ConcurrentModificationException cme;
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/**
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* Any operation exception that was caught when attempting to find the
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* managed object.
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*/
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private DefinitionDecodingException dde;
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private ManagedObjectDecodingException mode;
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private ManagedObjectNotFoundException monfe;
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/** The current result. */
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private MenuResult<ManagedObject<?>> result;
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/** {@inheritDoc} */
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public <C extends ConfigurationClient, S extends Configuration>
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void appendManagedObjectPathElement(
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InstantiableRelationDefinition<? super C, ? super S> r,
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AbstractManagedObjectDefinition<C, S> d, String name) {
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if (result.isSuccess()) {
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// We should ignore the "template" name here and use a path
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// argument.
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String childName = args.get(argIndex++);
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try {
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// If the name is null then we must be interactive - so let
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// the user choose.
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if (childName == null) {
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try {
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MenuResult<String> sresult = readChildName(app,
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result.getValue(), r, d);
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if (sresult.isCancel()) {
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result = MenuResult.cancel();
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return;
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} else if (sresult.isQuit()) {
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result = MenuResult.quit();
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return;
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} else {
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childName = sresult.getValue();
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}
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} catch (ClientException e) {
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clie = e;
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result = MenuResult.quit();
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return;
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}
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} else if (childName.trim().length() == 0) {
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IllegalManagedObjectNameException e =
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new IllegalManagedObjectNameException(childName);
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clie = ArgumentExceptionFactory
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.adaptIllegalManagedObjectNameException(e, d);
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result = MenuResult.quit();
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return;
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}
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ManagedObject<?> child = result.getValue().getChild(r, childName);
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// Check that child is a sub-type of the specified
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// definition.
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if (!child.getManagedObjectDefinition().isChildOf(d)) {
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clie = ArgumentExceptionFactory.wrongManagedObjectType(r, child
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.getManagedObjectDefinition(), getSubCommand().getName());
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result = MenuResult.quit();
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} else {
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result = MenuResult.<ManagedObject<?>>success(child);
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}
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} catch (DefinitionDecodingException e) {
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dde = e;
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result = MenuResult.quit();
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} catch (ManagedObjectDecodingException e) {
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mode = e;
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result = MenuResult.quit();
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} catch (AuthorizationException e) {
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authze = e;
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result = MenuResult.quit();
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} catch (ManagedObjectNotFoundException e) {
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monfe = e;
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result = MenuResult.quit();
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} catch (ConcurrentModificationException e) {
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cme = e;
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result = MenuResult.quit();
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} catch (CommunicationException e) {
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ce = e;
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result = MenuResult.quit();
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}
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}
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}
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/** {@inheritDoc} */
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public <C extends ConfigurationClient, S extends Configuration>
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void appendManagedObjectPathElement(
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OptionalRelationDefinition<? super C, ? super S> r,
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AbstractManagedObjectDefinition<C, S> d) {
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if (result.isSuccess()) {
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try {
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ManagedObject<?> child = result.getValue().getChild(r);
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// Check that child is a sub-type of the specified
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// definition.
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if (!child.getManagedObjectDefinition().isChildOf(d)) {
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clie = ArgumentExceptionFactory.wrongManagedObjectType(r, child
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.getManagedObjectDefinition(), getSubCommand().getName());
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result = MenuResult.quit();
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} else {
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result = MenuResult.<ManagedObject<?>>success(child);
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}
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} catch (DefinitionDecodingException e) {
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dde = e;
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result = MenuResult.quit();
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} catch (ManagedObjectDecodingException e) {
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mode = e;
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result = MenuResult.quit();
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} catch (AuthorizationException e) {
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authze = e;
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result = MenuResult.quit();
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} catch (ManagedObjectNotFoundException e) {
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monfe = e;
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result = MenuResult.quit();
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} catch (ConcurrentModificationException e) {
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cme = e;
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result = MenuResult.quit();
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} catch (CommunicationException e) {
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ce = e;
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result = MenuResult.quit();
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}
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}
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}
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/** {@inheritDoc} */
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public <C extends ConfigurationClient, S extends Configuration>
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void appendManagedObjectPathElement(
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SetRelationDefinition<? super C, ? super S> r,
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AbstractManagedObjectDefinition<C, S> d) {
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if (result.isSuccess()) {
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// We should ignore the "template" name here and use a path
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// argument.
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String childName = args.get(argIndex++);
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try {
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// If the name is null then we must be interactive - so let
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// the user choose.
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if (childName == null) {
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try {
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MenuResult<String> sresult = readChildName(app,
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result.getValue(), r, d);
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if (sresult.isCancel()) {
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result = MenuResult.cancel();
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return;
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} else if (sresult.isQuit()) {
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result = MenuResult.quit();
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return;
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} else {
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childName = sresult.getValue();
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}
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} catch (ClientException e) {
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clie = e;
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result = MenuResult.quit();
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return;
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}
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} else if (childName.trim().length() == 0) {
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IllegalManagedObjectNameException e =
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new IllegalManagedObjectNameException(childName);
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clie = ArgumentExceptionFactory
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.adaptIllegalManagedObjectNameException(e, d);
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result = MenuResult.quit();
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return;
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} else {
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String name = childName.trim();
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SortedMap<String, ManagedObjectDefinition<? extends C, ? extends S>>
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types = getSubTypes(d);
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ManagedObjectDefinition<?, ?> cd = types.get(name);
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if (cd == null) {
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// The name must be invalid.
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String typeUsage = getSubTypesUsage(d);
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LocalizableMessage msg = ERR_DSCFG_ERROR_SUB_TYPE_UNRECOGNIZED.get(
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name, r.getUserFriendlyName(), typeUsage);
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clie = new ClientException(ReturnCode.TODO, msg);
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result = MenuResult.quit();
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return;
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} else {
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childName = cd.getName();
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}
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}
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ManagedObject<?> child = result.getValue().getChild(r, childName);
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// Check that child is a sub-type of the specified
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// definition.
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if (!child.getManagedObjectDefinition().isChildOf(d)) {
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clie = ArgumentExceptionFactory.wrongManagedObjectType(r, child
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.getManagedObjectDefinition(), getSubCommand().getName());
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result = MenuResult.quit();
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} else {
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result = MenuResult.<ManagedObject<?>>success(child);
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}
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} catch (DefinitionDecodingException e) {
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dde = e;
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result = MenuResult.quit();
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} catch (ManagedObjectDecodingException e) {
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mode = e;
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result = MenuResult.quit();
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} catch (AuthorizationException e) {
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authze = e;
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result = MenuResult.quit();
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} catch (ManagedObjectNotFoundException e) {
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monfe = e;
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result = MenuResult.quit();
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} catch (ConcurrentModificationException e) {
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cme = e;
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result = MenuResult.quit();
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} catch (CommunicationException e) {
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ce = e;
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result = MenuResult.quit();
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}
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}
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}
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/** {@inheritDoc} */
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public <C extends ConfigurationClient, S extends Configuration>
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void appendManagedObjectPathElement(
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SingletonRelationDefinition<? super C, ? super S> r,
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AbstractManagedObjectDefinition<C, S> d) {
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if (result.isSuccess()) {
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try {
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ManagedObject<?> child = result.getValue().getChild(r);
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// Check that child is a sub-type of the specified
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// definition.
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if (!child.getManagedObjectDefinition().isChildOf(d)) {
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clie = ArgumentExceptionFactory.wrongManagedObjectType(r, child
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.getManagedObjectDefinition(), getSubCommand().getName());
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result = MenuResult.quit();
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} else {
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result = MenuResult.<ManagedObject<?>>success(child);
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}
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} catch (DefinitionDecodingException e) {
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dde = e;
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result = MenuResult.quit();
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} catch (ManagedObjectDecodingException e) {
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mode = e;
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result = MenuResult.quit();
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} catch (AuthorizationException e) {
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authze = e;
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result = MenuResult.quit();
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} catch (ManagedObjectNotFoundException e) {
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monfe = e;
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result = MenuResult.quit();
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} catch (ConcurrentModificationException e) {
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cme = e;
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result = MenuResult.quit();
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} catch (CommunicationException e) {
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ce = e;
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result = MenuResult.quit();
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}
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}
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}
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/**
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* Finds the named managed object.
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*
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* @param app
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* The console application.
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* @param context
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* The management context.
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* @param path
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* The managed object path.
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* @param args
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* The managed object path arguments.
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* @return Returns a {@link MenuResult#success()} containing the
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* managed object referenced by the provided managed
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* object path, or {@link MenuResult#quit()}, or
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* {@link MenuResult#cancel()}, if the sub-command was
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* run interactively and the user chose to quit or cancel.
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* @throws ClientException
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* If one of the naming arguments referenced a managed
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* object of the wrong type.
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* @throws DefinitionDecodingException
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* If the managed object was found but its type could
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* not be determined.
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* @throws ManagedObjectDecodingException
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* If the managed object was found but one or more of
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* its properties could not be decoded.
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* @throws ManagedObjectNotFoundException
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* If the requested managed object could not be found on
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* the server.
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* @throws ConcurrentModificationException
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* If this managed object has been removed from the
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* server by another client.
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* @throws AuthorizationException
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* If the server refuses to retrieve the managed object
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* because the client does not have the correct
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* privileges.
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* @throws CommunicationException
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* If the client cannot contact the server due to an
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* underlying communication problem.
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*/
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public MenuResult<ManagedObject<?>> find(ConsoleApplication app,
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ManagementContext context, ManagedObjectPath<?, ?> path,
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List<String> args) throws ClientException, CommunicationException,
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AuthorizationException, ConcurrentModificationException,
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DefinitionDecodingException, ManagedObjectDecodingException,
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ManagedObjectNotFoundException {
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this.result = MenuResult.<ManagedObject<?>> success(context
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.getRootConfigurationManagedObject());
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this.app = app;
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this.args = args;
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this.argIndex = 0;
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this.clie = null;
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this.authze = null;
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this.ce = null;
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this.cme = null;
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this.dde = null;
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this.mode = null;
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this.monfe = null;
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path.serialize(this);
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if (result.isSuccess()) {
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return result;
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} else if (clie != null) {
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throw clie;
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} else if (authze != null) {
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throw authze;
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} else if (ce != null) {
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throw ce;
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} else if (cme != null) {
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throw cme;
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} else if (dde != null) {
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throw dde;
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} else if (mode != null) {
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throw mode;
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} else if (monfe != null) {
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throw monfe;
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} else {
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// User requested termination interactively.
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return result;
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}
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}
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}
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/**
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* A path serializer which is used to register a sub-command's
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* naming arguments.
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*/
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protected static class NamingArgumentBuilder implements
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ManagedObjectPathSerializer {
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/**
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* Creates the naming arguments for a given path.
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*
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* @param subCommand
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* The sub-command.
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* @param path
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* The managed object path.
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* @param isCreate
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* Indicates whether the sub-command is a create-xxx
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* sub-command, in which case the final path element will
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* have different usage information.
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* @return Returns the naming arguments.
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* @throws ArgumentException
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* If one or more naming arguments could not be
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* registered.
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*/
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public static List<StringArgument> create(SubCommand subCommand,
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ManagedObjectPath<?, ?> path, boolean isCreate)
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throws ArgumentException {
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NamingArgumentBuilder builder = new NamingArgumentBuilder(subCommand,
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path.size(), isCreate);
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path.serialize(builder);
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if (builder.e != null) {
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throw builder.e;
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}
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return builder.arguments;
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}
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/** The list of naming arguments. */
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private final List<StringArgument> arguments =
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new LinkedList<StringArgument>();
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/**
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* Any argument exception thrown when creating the naming arguments.
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*/
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private ArgumentException e = null;
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/**
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* Indicates whether the sub-command is a create-xxx sub-command, in which
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* case the final path element will have different usage information.
|
*/
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private final boolean isCreate;
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/** The sub-command. */
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private final SubCommand subCommand;
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/** The number of path elements to expect. */
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private int sz;
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|
|
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/** Private constructor. */
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private NamingArgumentBuilder(SubCommand subCommand, int sz,
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boolean isCreate) {
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this.subCommand = subCommand;
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this.sz = sz;
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this.isCreate = isCreate;
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}
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|
|
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/** {@inheritDoc} */
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public <C extends ConfigurationClient, S extends Configuration>
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void appendManagedObjectPathElement(
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InstantiableRelationDefinition<? super C, ? super S> r,
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AbstractManagedObjectDefinition<C, S> d, String name) {
|
sz--;
|
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String argName = CLIProfile.getInstance().getNamingArgument(r);
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StringArgument arg;
|
|
try {
|
if (isCreate && sz == 0) {
|
// The final path element in create-xxx sub-commands should
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// have a different usage.
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PropertyDefinition<?> pd = r.getNamingPropertyDefinition();
|
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if (pd != null) {
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// Use syntax and description from naming property.
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PropertyDefinitionUsageBuilder b =
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new PropertyDefinitionUsageBuilder(false);
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LocalizableMessage usage = LocalizableMessage.raw("{" + b.getUsage(pd) + "}");
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arg = new StringArgument(argName, null, argName, false, true,
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usage, INFO_DSCFG_DESCRIPTION_NAME_CREATE_EXT.get(d
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.getUserFriendlyName(), pd.getName(), pd.getSynopsis()));
|
} else {
|
arg = new StringArgument(argName, null, argName, false, true,
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INFO_NAME_PLACEHOLDER.get(),
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INFO_DSCFG_DESCRIPTION_NAME_CREATE.get(
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d.getUserFriendlyName()));
|
}
|
} else {
|
// A normal naming argument.
|
arg = new StringArgument(argName, null, argName, false, true,
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INFO_NAME_PLACEHOLDER.get(), INFO_DSCFG_DESCRIPTION_NAME.get(
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d.getUserFriendlyName()));
|
}
|
subCommand.addArgument(arg);
|
arguments.add(arg);
|
} catch (ArgumentException e) {
|
this.e = e;
|
}
|
}
|
|
|
|
/** {@inheritDoc} */
|
public <C extends ConfigurationClient, S extends Configuration>
|
void appendManagedObjectPathElement(
|
OptionalRelationDefinition<? super C, ? super S> r,
|
AbstractManagedObjectDefinition<C, S> d) {
|
sz--;
|
}
|
|
|
|
/** {@inheritDoc} */
|
public <C extends ConfigurationClient, S extends Configuration>
|
void appendManagedObjectPathElement(
|
SetRelationDefinition<? super C, ? super S> r,
|
AbstractManagedObjectDefinition<C, S> d) {
|
sz--;
|
|
// The name of the managed object is determined from its type, so
|
// we don't need this argument.
|
if (isCreate && sz == 0) {
|
return;
|
}
|
|
String argName = CLIProfile.getInstance().getNamingArgument(r);
|
StringArgument arg;
|
|
try {
|
arg =
|
new StringArgument(argName, null, argName, false, true,
|
INFO_NAME_PLACEHOLDER.get(),
|
INFO_DSCFG_DESCRIPTION_NAME.get(d.getUserFriendlyName()));
|
subCommand.addArgument(arg);
|
arguments.add(arg);
|
} catch (ArgumentException e) {
|
this.e = e;
|
}
|
}
|
|
|
|
/** {@inheritDoc} */
|
public <C extends ConfigurationClient, S extends Configuration>
|
void appendManagedObjectPathElement(
|
SingletonRelationDefinition<? super C, ? super S> r,
|
AbstractManagedObjectDefinition<C, S> d) {
|
sz--;
|
}
|
|
}
|
|
/**
|
* The threshold above which choice menus should be displayed in
|
* multiple columns.
|
*/
|
public static final int MULTI_COLUMN_THRESHOLD = 8;
|
|
/**
|
* The value for the long option property.
|
*/
|
private static final String OPTION_DSCFG_LONG_PROPERTY = "property";
|
|
/**
|
* The value for the long option record.
|
*/
|
private static final String OPTION_DSCFG_LONG_RECORD = "record";
|
|
/**
|
* The value for the long option unit-size.
|
*/
|
private static final String OPTION_DSCFG_LONG_UNIT_SIZE = "unit-size";
|
|
/**
|
* The value for the long option unit-time.
|
*/
|
private static final String OPTION_DSCFG_LONG_UNIT_TIME = "unit-time";
|
|
/**
|
* The value for the short option property.
|
*/
|
private static final Character OPTION_DSCFG_SHORT_PROPERTY = null;
|
|
/**
|
* The value for the short option record.
|
*/
|
private static final char OPTION_DSCFG_SHORT_RECORD = 'E';
|
|
/**
|
* The value for the short option unit-size.
|
*/
|
private static final char OPTION_DSCFG_SHORT_UNIT_SIZE = 'z';
|
|
/**
|
* The value for the short option unit-time.
|
*/
|
private static final char OPTION_DSCFG_SHORT_UNIT_TIME = 'm';
|
|
/**
|
* The argument which should be used to specify zero or more property names.
|
*/
|
private StringArgument propertyArgument;
|
|
/** The argument which should be used to request record mode. */
|
private BooleanArgument recordModeArgument;
|
|
/** The tags associated with this sub-command handler. */
|
private final Set<Tag> tags = new HashSet<Tag>();
|
|
/** The argument which should be used to request specific size units. */
|
private StringArgument unitSizeArgument;
|
|
/** The argument which should be used to request specific time units. */
|
private StringArgument unitTimeArgument;
|
|
/** The command builder associated with this handler. */
|
private CommandBuilder commandBuilder;
|
|
|
/**
|
* The boolean that says whether is useful to display the command builder's
|
* contents after calling the run method or not.
|
*/
|
private boolean isCommandBuilderUseful = true;
|
|
/**
|
* Create a new sub-command handler.
|
*/
|
protected SubCommandHandler() {
|
// No implementation required.
|
}
|
|
|
|
/** {@inheritDoc} */
|
public final int compareTo(SubCommandHandler o) {
|
String s1 = getSubCommand().getName();
|
String s2 = o.getSubCommand().getName();
|
|
return s1.compareTo(s2);
|
}
|
|
|
|
/** {@inheritDoc} */
|
@Override
|
public final boolean equals(Object obj) {
|
if (this == obj) {
|
return true;
|
} else if (obj instanceof SubCommandHandler) {
|
SubCommandHandler other = (SubCommandHandler) obj;
|
|
String s1 = getSubCommand().getName();
|
String s2 = other.getSubCommand().getName();
|
return s1.equals(s2);
|
} else {
|
return false;
|
}
|
}
|
|
|
|
/**
|
* Gets the sub-command associated with this handler.
|
*
|
* @return Returns the sub-command associated with this handler.
|
*/
|
public abstract SubCommand getSubCommand();
|
|
|
/**
|
* Gets the command builder associated with this handler. The method should
|
* be called after calling <CODE>run()</CODE> method.
|
*
|
* @return Returns the sub-command associated with this handler.
|
*/
|
public final CommandBuilder getCommandBuilder()
|
{
|
if (commandBuilder == null)
|
{
|
commandBuilder = new CommandBuilder(
|
System.getProperty(ServerConstants.PROPERTY_SCRIPT_NAME),
|
getSubCommand().getName());
|
}
|
return commandBuilder;
|
}
|
|
/**
|
* This method tells whether displaying the command builder contents makes
|
* sense or not. For instance in the case of the help subcommand handler
|
* displaying information makes no much sense.
|
*
|
* @return <CODE>true</CODE> if displaying the command builder is useful and
|
* <CODE>false</CODE> otherwise.
|
*/
|
public final boolean isCommandBuilderUseful()
|
{
|
return isCommandBuilderUseful;
|
}
|
|
/**
|
* Sets wheter the command builder is useful or not.
|
* @param isCommandBuilderUseful whether the command builder is useful or not.
|
*/
|
protected final void setCommandBuilderUseful(boolean isCommandBuilderUseful)
|
{
|
this.isCommandBuilderUseful = isCommandBuilderUseful;
|
}
|
|
/**
|
* Gets the tags associated with this sub-command handler.
|
*
|
* @return Returns the tags associated with this sub-command
|
* handler.
|
*/
|
public final Set<Tag> getTags() {
|
return tags;
|
}
|
|
|
|
/** {@inheritDoc} */
|
@Override
|
public final int hashCode() {
|
return getSubCommand().getName().hashCode();
|
}
|
|
|
|
/**
|
* Run this sub-command handler.
|
*
|
* @param app
|
* The console application.
|
* @param factory
|
* The management context factory.
|
* @return Returns a {@link MenuResult#success()} containing zero if
|
* the sub-command completed successfully or non-zero if it
|
* did not, or {@link MenuResult#quit()}, or
|
* {@link MenuResult#cancel()}, if the sub-command was run
|
* interactively and the user chose to quit or cancel.
|
* @throws ArgumentException
|
* If an argument required by the sub-command could not be
|
* parsed successfully.
|
* @throws ClientException
|
* If the management context could not be created.
|
* @throws ClientException
|
* If a CLI exception occurred.
|
*/
|
public abstract MenuResult<Integer> run(ConsoleApplication app,
|
ManagementContextFactory factory) throws ArgumentException,
|
ClientException;
|
|
|
|
/**
|
* Get the string representation of this sub-command handler.
|
* <p>
|
* The string representation is simply the sub-command's name.
|
*
|
* @return Returns the string representation of this sub-command
|
* handler.
|
*/
|
@Override
|
public final String toString() {
|
return getSubCommand().getName();
|
}
|
|
|
|
/**
|
* Adds one or more tags to this sub-command handler.
|
*
|
* @param tags
|
* The tags to be added to this sub-command handler.
|
*/
|
protected final void addTags(Collection<Tag> tags) {
|
this.tags.addAll(tags);
|
}
|
|
|
|
/**
|
* Adds one or more tags to this sub-command handler.
|
*
|
* @param tags
|
* The tags to be added to this sub-command handler.
|
*/
|
protected final void addTags(Tag... tags) {
|
addTags(Arrays.asList(tags));
|
}
|
|
|
|
/**
|
* Creates the naming arguments for a given path and registers them.
|
*
|
* @param subCommand
|
* The sub-command.
|
* @param p
|
* The managed object path.
|
* @param isCreate
|
* Indicates whether the sub-command is a create-xxx
|
* sub-command, in which case the final path element will
|
* have different usage information.
|
* @return Returns the naming arguments.
|
* @throws ArgumentException
|
* If one or more naming arguments could not be
|
* registered.
|
*/
|
protected final List<StringArgument> createNamingArgs(SubCommand subCommand,
|
ManagedObjectPath<?, ?> p, boolean isCreate) throws ArgumentException {
|
return NamingArgumentBuilder.create(subCommand, p, isCreate);
|
}
|
|
|
|
/**
|
* Creates a script-friendly table printer. This factory method
|
* should be used by sub-command handler implementations rather than
|
* constructing a table printer directly so that we can easily
|
* switch table implementations (perhaps dynamically depending on
|
* argument).
|
*
|
* @param stream
|
* The output stream for the table.
|
* @return Returns a script-friendly table printer.
|
*/
|
protected final TablePrinter createScriptFriendlyTablePrinter(
|
PrintStream stream) {
|
return new TabSeparatedTablePrinter(stream);
|
}
|
|
|
|
/**
|
* Get the managed object referenced by the provided managed object
|
* path.
|
*
|
* @param app
|
* The console application.
|
* @param context
|
* The management context.
|
* @param path
|
* The managed object path.
|
* @param args
|
* The list of managed object names required by the path.
|
* @return Returns a {@link MenuResult#success()} containing the
|
* managed object referenced by the provided managed object
|
* path, or {@link MenuResult#quit()}, or
|
* {@link MenuResult#cancel()}, if the sub-command was run
|
* interactively and the user chose to quit or cancel.
|
* @throws DefinitionDecodingException
|
* If the managed object was found but its type could not
|
* be determined.
|
* @throws ManagedObjectDecodingException
|
* If the managed object was found but one or more of its
|
* properties could not be decoded.
|
* @throws ManagedObjectNotFoundException
|
* If the requested managed object could not be found on
|
* the server.
|
* @throws ConcurrentModificationException
|
* If this managed object has been removed from the server
|
* by another client.
|
* @throws AuthorizationException
|
* If the server refuses to retrieve the managed object
|
* because the client does not have the correct
|
* privileges.
|
* @throws CommunicationException
|
* If the client cannot contact the server due to an
|
* underlying communication problem.
|
* @throws ClientException
|
* If one of the naming arguments referenced a managed
|
* object of the wrong type.
|
* @throws ClientException
|
* If the management context could not be created.
|
*/
|
protected final MenuResult<ManagedObject<?>> getManagedObject(
|
ConsoleApplication app, ManagementContext context,
|
ManagedObjectPath<?, ?> path, List<String> args) throws ClientException,
|
AuthorizationException, DefinitionDecodingException,
|
ManagedObjectDecodingException, CommunicationException,
|
ConcurrentModificationException, ManagedObjectNotFoundException
|
{
|
ManagedObjectFinder finder = new ManagedObjectFinder();
|
return finder.find(app, context, path, args);
|
}
|
|
|
|
/**
|
* Gets the values of the naming arguments.
|
*
|
* @param app
|
* The console application.
|
* @param namingArgs
|
* The naming arguments.
|
* @return Returns the values of the naming arguments.
|
* @throws ArgumentException
|
* If one of the naming arguments is missing and the
|
* application is non-interactive.
|
*/
|
protected final List<String> getNamingArgValues(ConsoleApplication app,
|
List<StringArgument> namingArgs) throws ArgumentException {
|
ArrayList<String> values = new ArrayList<String>(namingArgs.size());
|
for (StringArgument arg : namingArgs) {
|
String value = arg.getValue();
|
|
if (value == null && !app.isInteractive()) {
|
throw ArgumentExceptionFactory
|
.missingMandatoryNonInteractiveArgument(arg);
|
} else {
|
values.add(value);
|
}
|
}
|
return values;
|
}
|
|
|
|
/**
|
* Gets the optional list of property names that the user requested.
|
*
|
* @return Returns the optional list of property names that the user
|
* requested.
|
*/
|
protected final Set<String> getPropertyNames() {
|
if (propertyArgument != null) {
|
return new LinkedHashSet<String>(propertyArgument.getValues());
|
} else {
|
return Collections.emptySet();
|
}
|
}
|
|
|
|
/**
|
* Gets the optional size unit that the user requested.
|
*
|
* @return Returns the size unit that the user requested, or
|
* <code>null</code> if no size unit was specified.
|
* @throws ArgumentException
|
* If the user specified an invalid size unit.
|
*/
|
protected final SizeUnit getSizeUnit() throws ArgumentException {
|
if (unitSizeArgument != null) {
|
String value = unitSizeArgument.getValue();
|
|
if (value != null) {
|
try {
|
return SizeUnit.getUnit(value);
|
} catch (IllegalArgumentException e) {
|
LocalizableMessage msg = INFO_DSCFG_ERROR_SIZE_UNIT_UNRECOGNIZED.get(value);
|
throw new ArgumentException(msg);
|
}
|
}
|
}
|
|
return null;
|
}
|
|
|
|
/**
|
* Gets the optional time unit that the user requested.
|
*
|
* @return Returns the time unit that the user requested, or
|
* <code>null</code> if no time unit was specified.
|
* @throws ArgumentException
|
* If the user specified an invalid time unit.
|
*/
|
protected final DurationUnit getTimeUnit() throws ArgumentException {
|
if (unitTimeArgument != null) {
|
String value = unitTimeArgument.getValue();
|
|
if (value != null) {
|
try {
|
return DurationUnit.getUnit(value);
|
} catch (IllegalArgumentException e) {
|
LocalizableMessage msg = INFO_DSCFG_ERROR_TIME_UNIT_UNRECOGNIZED.get(value);
|
throw new ArgumentException(msg);
|
}
|
}
|
}
|
|
return null;
|
}
|
|
|
|
/**
|
* Determines whether the user requested record-mode.
|
*
|
* @return Returns <code>true</code> if the user requested
|
* record-mode.
|
*/
|
protected final boolean isRecordMode() {
|
if (recordModeArgument != null) {
|
return recordModeArgument.isPresent();
|
} else {
|
return false;
|
}
|
}
|
|
|
|
/**
|
* Interactively prompts the user to select from a choice of child
|
* managed objects.
|
* <p>
|
* This method will adapt according to the available choice. For
|
* example, if there is only one choice, then a question will be
|
* asked. If there are no children then an
|
* <code>ArgumentException</code> will be thrown.
|
*
|
* @param <C>
|
* The type of child client configuration.
|
* @param <S>
|
* The type of child server configuration.
|
* @param app
|
* The console application.
|
* @param parent
|
* The parent managed object.
|
* @param r
|
* The relation between the parent and the children, must be
|
* a set or instantiable relation.
|
* @param d
|
* The type of child managed object to choose from.
|
* @return Returns a {@link MenuResult#success()} containing the name
|
* of the managed object that the user selected, or
|
* {@link MenuResult#quit()}, or {@link MenuResult#cancel()},
|
* if the sub-command was run interactive and the user chose
|
* to quit or cancel.
|
* @throws CommunicationException
|
* If the server cannot be contacted.
|
* @throws ConcurrentModificationException
|
* If the parent managed object has been deleted.
|
* @throws AuthorizationException
|
* If the children cannot be listed due to an authorization
|
* failure.
|
* @throws ClientException
|
* If the user input can be read from the console or if
|
* there are no children.
|
*/
|
protected final <C extends ConfigurationClient, S extends Configuration>
|
MenuResult<String> readChildName(
|
ConsoleApplication app, ManagedObject<?> parent,
|
RelationDefinition<C, S> r,
|
AbstractManagedObjectDefinition<? extends C, ? extends S> d)
|
throws AuthorizationException, ConcurrentModificationException,
|
CommunicationException, ClientException {
|
if (d == null) {
|
d = r.getChildDefinition();
|
}
|
|
app.println();
|
app.println();
|
|
// Filter out advanced and hidden types if required.
|
String[] childNames;
|
if (r instanceof InstantiableRelationDefinition) {
|
childNames =
|
parent.listChildren((InstantiableRelationDefinition<C,S>)r, d);
|
} else {
|
childNames = parent.listChildren((SetRelationDefinition<C,S>)r, d);
|
}
|
SortedMap<String, String> children = new TreeMap<String, String>(
|
String.CASE_INSENSITIVE_ORDER);
|
|
for (String childName : childNames) {
|
ManagedObject<?> child;
|
try {
|
if (r instanceof InstantiableRelationDefinition) {
|
child = parent.getChild((InstantiableRelationDefinition<C,S>)r,
|
childName);
|
} else {
|
child = parent.getChild((SetRelationDefinition<C,S>)r, childName);
|
}
|
|
ManagedObjectDefinition<?, ?> cd = child.getManagedObjectDefinition();
|
|
if (cd.hasOption(ManagedObjectOption.HIDDEN)) {
|
continue;
|
}
|
|
if (!app.isAdvancedMode()
|
&& cd.hasOption(ManagedObjectOption.ADVANCED)) {
|
continue;
|
}
|
|
if (r instanceof InstantiableRelationDefinition) {
|
children.put(childName, childName);
|
} else {
|
// For sets the RDN is the type string, the ufn is more friendly.
|
children.put(cd.getUserFriendlyName().toString(), childName);
|
}
|
} catch (DefinitionDecodingException e) {
|
// Add it anyway: maybe the user is trying to fix the problem.
|
children.put(childName, childName);
|
} catch (ManagedObjectDecodingException e) {
|
// Add it anyway: maybe the user is trying to fix the problem.
|
children.put(childName, childName);
|
} catch (ManagedObjectNotFoundException e) {
|
// Skip it - the managed object has been concurrently removed.
|
}
|
}
|
|
switch (children.size()) {
|
case 0: {
|
// No options available - abort.
|
LocalizableMessage msg =
|
ERR_DSCFG_ERROR_FINDER_NO_CHILDREN.get(d.getUserFriendlyPluralName());
|
app.println(msg);
|
return MenuResult.cancel();
|
}
|
case 1: {
|
// Only one option available so confirm that the user wishes to
|
// access it.
|
LocalizableMessage msg = INFO_DSCFG_FINDER_PROMPT_SINGLE.get(
|
d.getUserFriendlyName(), children.firstKey());
|
if (app.confirmAction(msg, true)) {
|
try
|
{
|
String argName = CLIProfile.getInstance().getNamingArgument(r);
|
StringArgument arg = new StringArgument(argName, null, argName, false,
|
true, INFO_NAME_PLACEHOLDER.get(),
|
INFO_DSCFG_DESCRIPTION_NAME_CREATE.get(d.getUserFriendlyName()));
|
if (r instanceof InstantiableRelationDefinition) {
|
arg.addValue(children.get(children.firstKey()));
|
} else {
|
// Set relation: need the short type name.
|
String friendlyName = children.firstKey();
|
String shortName = children.get(friendlyName);
|
try
|
{
|
AbstractManagedObjectDefinition<?, ?> cd = null;
|
try
|
{
|
cd = d.getChild(shortName);
|
}
|
catch (IllegalArgumentException e)
|
{
|
// Last resource: try with friendly name
|
cd = d.getChild(friendlyName);
|
}
|
arg.addValue(getShortTypeName(r.getChildDefinition(), cd));
|
}
|
catch (IllegalArgumentException e)
|
{
|
arg.addValue(shortName);
|
}
|
}
|
getCommandBuilder().addArgument(arg);
|
}
|
catch (Throwable t)
|
{
|
// Bug
|
throw new RuntimeException("Unexpected exception: "+t, t);
|
}
|
return MenuResult.success(children.get(children.firstKey()));
|
} else {
|
return MenuResult.cancel();
|
}
|
}
|
default: {
|
// Display a menu.
|
MenuBuilder<String> builder = new MenuBuilder<String>(app);
|
builder.setMultipleColumnThreshold(MULTI_COLUMN_THRESHOLD);
|
builder.setPrompt(INFO_DSCFG_FINDER_PROMPT_MANY.get(d
|
.getUserFriendlyName()));
|
|
for (Map.Entry<String, String> child : children.entrySet()) {
|
LocalizableMessage option = LocalizableMessage.raw("%s", child.getKey());
|
builder.addNumberedOption(option, MenuResult.success(child.getValue()));
|
}
|
|
if (app.isMenuDrivenMode()) {
|
builder.addCancelOption(true);
|
}
|
builder.addQuitOption();
|
|
Menu<String> menu = builder.toMenu();
|
MenuResult<String> result = menu.run();
|
try
|
{
|
if (result.getValue() == null) {
|
// nothing has been entered ==> cancel
|
return MenuResult.cancel();
|
}
|
String argName = CLIProfile.getInstance().getNamingArgument(r);
|
StringArgument arg = new StringArgument(argName, null, argName, false,
|
true, INFO_NAME_PLACEHOLDER.get(),
|
INFO_DSCFG_DESCRIPTION_NAME_CREATE.get(d.getUserFriendlyName()));
|
if (r instanceof InstantiableRelationDefinition) {
|
arg.addValue(result.getValue());
|
} else {
|
// Set relation: need the short type name.
|
String longName = result.getValue();
|
try {
|
AbstractManagedObjectDefinition<?, ?> cd = d.getChild(longName);
|
arg.addValue(getShortTypeName(r.getChildDefinition(), cd));
|
} catch (IllegalArgumentException e) {
|
arg.addValue(children.get(result.getValue()));
|
}
|
}
|
getCommandBuilder().addArgument(arg);
|
}
|
catch (Throwable t)
|
{
|
// Bug
|
throw new RuntimeException("Unexpected exception: "+t, t);
|
}
|
return result;
|
}
|
}
|
}
|
|
|
|
/**
|
* Registers the property name argument with the sub-command.
|
*
|
* @param subCommand
|
* The sub-command.
|
* @throws ArgumentException
|
* If the property name argument could not be registered.
|
*/
|
protected final void registerPropertyNameArgument(SubCommand subCommand)
|
throws ArgumentException {
|
this.propertyArgument = new StringArgument(OPTION_DSCFG_LONG_PROPERTY,
|
OPTION_DSCFG_SHORT_PROPERTY, OPTION_DSCFG_LONG_PROPERTY, false, true,
|
true, INFO_PROPERTY_PLACEHOLDER.get(), null, null,
|
INFO_DSCFG_DESCRIPTION_PROP.get());
|
subCommand.addArgument(propertyArgument);
|
}
|
|
|
|
/**
|
* Registers the record mode argument with the sub-command.
|
*
|
* @param subCommand
|
* The sub-command.
|
* @throws ArgumentException
|
* If the record mode argument could not be registered.
|
*/
|
protected final void registerRecordModeArgument(SubCommand subCommand)
|
throws ArgumentException {
|
this.recordModeArgument = new BooleanArgument(OPTION_DSCFG_LONG_RECORD,
|
OPTION_DSCFG_SHORT_RECORD, OPTION_DSCFG_LONG_RECORD,
|
INFO_DSCFG_DESCRIPTION_RECORD.get());
|
this.recordModeArgument.setPropertyName(OPTION_DSCFG_LONG_RECORD);
|
subCommand.addArgument(recordModeArgument);
|
}
|
|
|
|
/**
|
* Registers the unit-size argument with the sub-command.
|
*
|
* @param subCommand
|
* The sub-command.
|
* @throws ArgumentException
|
* If the unit-size argument could not be registered.
|
*/
|
protected final void registerUnitSizeArgument(SubCommand subCommand)
|
throws ArgumentException {
|
this.unitSizeArgument = new StringArgument(OPTION_DSCFG_LONG_UNIT_SIZE,
|
OPTION_DSCFG_SHORT_UNIT_SIZE, OPTION_DSCFG_LONG_UNIT_SIZE, false, true,
|
INFO_UNIT_PLACEHOLDER.get(), INFO_DSCFG_DESCRIPTION_UNIT_SIZE.get());
|
this.unitSizeArgument.setPropertyName(OPTION_DSCFG_LONG_UNIT_SIZE);
|
|
subCommand.addArgument(unitSizeArgument);
|
}
|
|
|
|
/**
|
* Registers the unit-time argument with the sub-command.
|
*
|
* @param subCommand
|
* The sub-command.
|
* @throws ArgumentException
|
* If the unit-time argument could not be registered.
|
*/
|
protected final void registerUnitTimeArgument(SubCommand subCommand)
|
throws ArgumentException {
|
this.unitTimeArgument = new StringArgument(OPTION_DSCFG_LONG_UNIT_TIME,
|
OPTION_DSCFG_SHORT_UNIT_TIME, OPTION_DSCFG_LONG_UNIT_TIME, false, true,
|
INFO_UNIT_PLACEHOLDER.get(), INFO_DSCFG_DESCRIPTION_UNIT_TIME.get());
|
this.unitTimeArgument.setPropertyName(OPTION_DSCFG_LONG_UNIT_TIME);
|
|
subCommand.addArgument(unitTimeArgument);
|
}
|
|
/**
|
* Updates the command builder with the arguments defined in the sub command.
|
* This implies basically putting the arguments provided by the user in the
|
* command builder.
|
*/
|
protected final void updateCommandBuilderWithSubCommand()
|
{
|
for (Argument arg : getSubCommand().getArguments())
|
{
|
if (arg.isPresent())
|
{
|
getCommandBuilder().addArgument(arg);
|
}
|
}
|
}
|
|
/**
|
* Returns the string value for a given object as it will be displayed
|
* in the equivalent command-line. The code will cast the provided object
|
* using the property definition.
|
* @param propertyDefinition the property definition.
|
* @param o the value.
|
* @param <T> the type of the property to be retrieved.
|
* @return the String value to be displayed in the equivalent command-line.
|
*/
|
protected static <T> String castAndGetArgumentValue(
|
PropertyDefinition<T> propertyDefinition, Object o)
|
{
|
return propertyDefinition.encodeValue(propertyDefinition.castValue(o));
|
}
|
|
/**
|
* Returns the string value for a given object as it will be displayed
|
* in the equivalent command-line.
|
* @param propertyDefinition the property definition.
|
* @param o the value.
|
* @param <T> the type of the property to be retrieved.
|
* @return the String value to be displayed in the equivalent command-line.
|
*/
|
protected static <T> String getArgumentValue(
|
PropertyDefinition<T> propertyDefinition, T o)
|
{
|
return propertyDefinition.encodeValue(o);
|
}
|
|
|
|
/**
|
* Returns a mapping of subordinate managed object type argument
|
* values to their corresponding managed object definitions for the
|
* provided managed object definition.
|
*
|
* @param <C>
|
* The type of client configuration.
|
* @param <S>
|
* The type of server configuration.
|
* @param d
|
* The managed object definition.
|
* @return A mapping of managed object type argument values to their
|
* corresponding managed object definitions.
|
*/
|
protected static <C extends ConfigurationClient, S extends Configuration>
|
SortedMap<String, ManagedObjectDefinition<? extends C, ? extends S>>
|
getSubTypes(AbstractManagedObjectDefinition<C, S> d) {
|
SortedMap<String, ManagedObjectDefinition<? extends C, ? extends S>> map;
|
map =
|
new TreeMap<String, ManagedObjectDefinition<? extends C, ? extends S>>();
|
|
// If the top-level definition is instantiable, we use the value
|
// "generic" or "custom".
|
if (!d.hasOption(ManagedObjectOption.HIDDEN)
|
&& d instanceof ManagedObjectDefinition)
|
{
|
ManagedObjectDefinition<? extends C, ? extends S> mod =
|
(ManagedObjectDefinition<? extends C, ? extends S>) d;
|
map.put(getShortTypeName(d, mod), mod);
|
}
|
|
// Process its sub-definitions.
|
for (AbstractManagedObjectDefinition<? extends C, ? extends S> c : d
|
.getAllChildren()) {
|
if (c.hasOption(ManagedObjectOption.HIDDEN)) {
|
continue;
|
}
|
|
if (c instanceof ManagedObjectDefinition) {
|
@SuppressWarnings("unchecked")
|
ManagedObjectDefinition<? extends C, ? extends S> mod =
|
(ManagedObjectDefinition<? extends C, ? extends S>) c;
|
map.put(getShortTypeName(d, mod), mod);
|
}
|
}
|
|
return map;
|
}
|
|
|
|
/**
|
* Returns the type short name for a child managed object definition.
|
*
|
* @param <C>
|
* The type of client configuration.
|
* @param <S>
|
* The type of server configuration.
|
* @param d
|
* The top level parent definition.
|
* @param c
|
* The child definition.
|
* @return The type short name.
|
*/
|
protected static <C extends ConfigurationClient, S extends Configuration>
|
String getShortTypeName(
|
AbstractManagedObjectDefinition<C,S> d,
|
AbstractManagedObjectDefinition<?, ?> c) {
|
if (c == d) {
|
// This is the top-level definition, so use the value "generic" or
|
// "custom".
|
if (CLIProfile.getInstance().isForCustomization(c)) {
|
return DSConfig.CUSTOM_TYPE;
|
} else {
|
return DSConfig.GENERIC_TYPE;
|
}
|
} else {
|
// It's a child definition.
|
String suffix = "-" + d.getName();
|
|
// For the type name we shorten it, if possible, by stripping
|
// off the trailing part of the name which matches the
|
// base-type.
|
String name = c.getName();
|
if (name.endsWith(suffix)) {
|
name = name.substring(0, name.length() - suffix.length());
|
}
|
|
// If this type is intended for customization, prefix it with
|
// "custom".
|
if (CLIProfile.getInstance().isForCustomization(c)) {
|
name = String.format("%s-%s", DSConfig.CUSTOM_TYPE, name);
|
}
|
|
return name;
|
}
|
}
|
|
|
|
/**
|
* Returns a usage string representing the list of possible types for
|
* the provided managed object definition.
|
*
|
* @param d
|
* The managed object definition.
|
* @return A usage string representing the list of possible types for
|
* the provided managed object definition.
|
*/
|
protected static String getSubTypesUsage(
|
AbstractManagedObjectDefinition<?, ?> d) {
|
// Build the -t option usage.
|
SortedMap<String, ?> types = getSubTypes(d);
|
StringBuilder builder = new StringBuilder();
|
boolean isFirst = true;
|
for (String s : types.keySet()) {
|
if (!isFirst) {
|
builder.append(" | ");
|
}
|
builder.append(s);
|
isFirst = false;
|
}
|
return builder.toString();
|
}
|
}
|
