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* Copyright 2006-2008 Sun Microsystems, Inc.
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package org.opends.server.core;
import org.opends.messages.Message;
import java.lang.reflect.Method;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;
import java.util.concurrent.ConcurrentHashMap;
import org.opends.server.admin.ClassPropertyDefinition;
import org.opends.server.admin.server.ConfigurationAddListener;
import org.opends.server.admin.server.ConfigurationChangeListener;
import org.opends.server.admin.server.ConfigurationDeleteListener;
import org.opends.server.admin.std.server.MatchingRuleCfg;
import org.opends.server.admin.std.server.RootCfg;
import org.opends.server.admin.server.ServerManagementContext;
import org.opends.server.admin.std.meta.MatchingRuleCfgDefn;
import org.opends.server.api.ApproximateMatchingRule;
import org.opends.server.api.EqualityMatchingRule;
import org.opends.server.api.MatchingRule;
import org.opends.server.api.MatchingRuleFactory;
import org.opends.server.api.OrderingMatchingRule;
import org.opends.server.api.SubstringMatchingRule;
import org.opends.server.config.ConfigException;
import org.opends.server.types.AttributeType;
import org.opends.server.types.ConfigChangeResult;
import org.opends.server.types.DirectoryException;
import org.opends.server.types.DN;
import org.opends.server.types.InitializationException;
import org.opends.server.types.MatchingRuleUse;
import org.opends.server.types.ResultCode;
import static org.opends.messages.ConfigMessages.*;
import static org.opends.server.util.StaticUtils.*;
import org.opends.server.loggers.ErrorLogger;
/**
* This class defines a utility that will be used to manage the set of matching
* rules defined in the Directory Server. It wil initialize the rules when the
* server starts, and then will manage any additions, removals, or modifications
* to any matching rules while the server is running.
*/
public class MatchingRuleConfigManager
implements ConfigurationChangeListener<MatchingRuleCfg>,
ConfigurationAddListener<MatchingRuleCfg>,
ConfigurationDeleteListener<MatchingRuleCfg>
{
// A mapping between the DNs of the config entries and the associated matching
// rule Factories.
private ConcurrentHashMap<DN,MatchingRuleFactory> matchingRuleFactories;
/**
* Creates a new instance of this matching rule config manager.
*/
public MatchingRuleConfigManager()
{
matchingRuleFactories = new ConcurrentHashMap<DN,MatchingRuleFactory>();
}
/**
* Initializes all matching rules after reading all the Matching Rule
* factories currently defined in the Directory Server configuration.
* This should only be called at Directory Server startup.
*
* @throws ConfigException If a configuration problem causes the matching
* rule initialization process to fail.
*
* @throws InitializationException If a problem occurs while initializing
* the matching rules that is not related to
* the server configuration.
*/
public void initializeMatchingRules()
throws ConfigException, InitializationException
{
// Get the root configuration object.
ServerManagementContext managementContext =
ServerManagementContext.getInstance();
RootCfg rootConfiguration =
managementContext.getRootConfiguration();
// Register as an add and delete listener with the root configuration so we
// can be notified if any matching rule entries are added or removed.
rootConfiguration.addMatchingRuleAddListener(this);
rootConfiguration.addMatchingRuleDeleteListener(this);
//Initialize the existing matching rules.
for (String name : rootConfiguration.listMatchingRules())
{
MatchingRuleCfg mrConfiguration = rootConfiguration.getMatchingRule(name);
mrConfiguration.addChangeListener(this);
if (mrConfiguration.isEnabled())
{
String className = mrConfiguration.getJavaClass();
try
{
MatchingRuleFactory<?> factory =
loadMatchingRuleFactory(className, mrConfiguration, true);
try
{
for(MatchingRule matchingRule: factory.getMatchingRules())
{
DirectoryServer.registerMatchingRule(matchingRule, false);
}
matchingRuleFactories.put(mrConfiguration.dn(), factory);
}
catch (DirectoryException de)
{
Message message = WARN_CONFIG_SCHEMA_MR_CONFLICTING_MR.get(
String.valueOf(mrConfiguration.dn()), de.getMessageObject());
ErrorLogger.logError(message);
continue;
}
}
catch (InitializationException ie)
{
ErrorLogger.logError(ie.getMessageObject());
continue;
}
}
}
}
/**
* {@inheritDoc}
*/
public boolean isConfigurationAddAcceptable(MatchingRuleCfg configuration,
List<Message> unacceptableReasons)
{
if (configuration.isEnabled())
{
// Get the name of the class and make sure we can instantiate it as a
// matching rule Factory.
String className = configuration.getJavaClass();
try
{
loadMatchingRuleFactory(className, configuration, false);
}
catch (InitializationException ie)
{
unacceptableReasons.add(ie.getMessageObject());
return false;
}
}
// If we've gotten here, then it's fine.
return true;
}
/**
* {@inheritDoc}
*/
public ConfigChangeResult applyConfigurationAdd(MatchingRuleCfg configuration)
{
ResultCode resultCode = ResultCode.SUCCESS;
boolean adminActionRequired = false;
ArrayList<Message> messages = new ArrayList<Message>();
configuration.addChangeListener(this);
if (! configuration.isEnabled())
{
return new ConfigChangeResult(resultCode, adminActionRequired, messages);
}
MatchingRuleFactory<?> factory = null;
// Get the name of the class and make sure we can instantiate it as a
// matching rule Factory.
String className = configuration.getJavaClass();
try
{
factory = loadMatchingRuleFactory(className, configuration, true);
try
{
for(MatchingRule matchingRule: factory.getMatchingRules())
{
DirectoryServer.registerMatchingRule(matchingRule, false);
}
matchingRuleFactories.put(configuration.dn(),factory);
}
catch (DirectoryException de)
{
Message message = WARN_CONFIG_SCHEMA_MR_CONFLICTING_MR.get(
String.valueOf(configuration.dn()),
de.getMessageObject());
messages.add(message);
if (resultCode == ResultCode.SUCCESS)
{
resultCode = DirectoryServer.getServerErrorResultCode();
}
}
}
catch (InitializationException ie)
{
if (resultCode == ResultCode.SUCCESS)
{
resultCode = DirectoryServer.getServerErrorResultCode();
}
messages.add(ie.getMessageObject());
}
return new ConfigChangeResult(resultCode, adminActionRequired, messages);
}
/**
* {@inheritDoc}
*/
public boolean isConfigurationDeleteAcceptable(MatchingRuleCfg configuration,
List<Message> unacceptableReasons)
{
// If the matching rule is enabled, then check to see if there are any
// defined attribute types or matching rule uses that use the matching rule.
// If so, then don't allow it to be deleted.
boolean configAcceptable = true;
MatchingRuleFactory<?> factory =
matchingRuleFactories.get(configuration.dn());
for(MatchingRule matchingRule: factory.getMatchingRules())
{
if (matchingRule != null)
{
String oid = matchingRule.getOID();
for (AttributeType at : DirectoryServer.getAttributeTypes().values())
{
ApproximateMatchingRule amr = at.getApproximateMatchingRule();
if ((amr != null) && oid.equals(amr.getOID()))
{
Message message =
WARN_CONFIG_SCHEMA_CANNOT_DELETE_MR_IN_USE_BY_AT.get(
matchingRule.getName(),
at.getNameOrOID());
unacceptableReasons.add(message);
configAcceptable = false;
continue;
}
EqualityMatchingRule emr = at.getEqualityMatchingRule();
if ((emr != null) && oid.equals(emr.getOID()))
{
Message message =
WARN_CONFIG_SCHEMA_CANNOT_DELETE_MR_IN_USE_BY_AT.get(
matchingRule.getName(),
at.getNameOrOID());
unacceptableReasons.add(message);
configAcceptable = false;
continue;
}
OrderingMatchingRule omr = at.getOrderingMatchingRule();
if ((omr != null) && oid.equals(omr.getOID()))
{
Message message =
WARN_CONFIG_SCHEMA_CANNOT_DELETE_MR_IN_USE_BY_AT.get(
matchingRule.getName(),
at.getNameOrOID());
unacceptableReasons.add(message);
configAcceptable = false;
continue;
}
SubstringMatchingRule smr = at.getSubstringMatchingRule();
if ((smr != null) && oid.equals(smr.getOID()))
{
Message message =
WARN_CONFIG_SCHEMA_CANNOT_DELETE_MR_IN_USE_BY_AT.get(
matchingRule.getName(),
at.getNameOrOID());
unacceptableReasons.add(message);
configAcceptable = false;
continue;
}
}
for (MatchingRuleUse mru :
DirectoryServer.getMatchingRuleUses().values())
{
if (oid.equals(mru.getMatchingRule().getOID()))
{
Message message =
WARN_CONFIG_SCHEMA_CANNOT_DELETE_MR_IN_USE_BY_MRU.get(
matchingRule.getName(),
mru.getName());
unacceptableReasons.add(message);
configAcceptable = false;
continue;
}
}
}
}
return configAcceptable;
}
/**
* {@inheritDoc}
*/
public ConfigChangeResult applyConfigurationDelete(
MatchingRuleCfg configuration)
{
ResultCode resultCode = ResultCode.SUCCESS;
boolean adminActionRequired = false;
ArrayList<Message> messages = new ArrayList<Message>();
MatchingRuleFactory<?> factory =
matchingRuleFactories.remove(configuration.dn());
if (factory != null)
{
for(MatchingRule matchingRule: factory.getMatchingRules())
{
DirectoryServer.deregisterMatchingRule(matchingRule);
}
factory.finalizeMatchingRule();
}
return new ConfigChangeResult(resultCode, adminActionRequired, messages);
}
/**
* {@inheritDoc}
*/
public boolean isConfigurationChangeAcceptable(MatchingRuleCfg configuration,
List<Message> unacceptableReasons)
{
boolean configAcceptable = true;
if (configuration.isEnabled())
{
// Get the name of the class and make sure we can instantiate it as a
// matching rule Factory.
String className = configuration.getJavaClass();
try
{
loadMatchingRuleFactory(className, configuration, false);
}
catch (InitializationException ie)
{
unacceptableReasons.add(ie.getMessageObject());
configAcceptable = false;
}
}
else
{
// If the matching rule is currently enabled and the change would make it
// disabled, then only allow it if the matching rule isn't already in use.
MatchingRuleFactory<?> factory =
matchingRuleFactories.get(configuration.dn());
if(factory == null)
{
//Factory was disabled again.
return configAcceptable;
}
for(MatchingRule matchingRule: factory.getMatchingRules())
{
if (matchingRule != null)
{
String oid = matchingRule.getOID();
for (AttributeType at : DirectoryServer.getAttributeTypes().values())
{
ApproximateMatchingRule amr = at.getApproximateMatchingRule();
if ((amr != null) && oid.equals(amr.getOID()))
{
Message message =
WARN_CONFIG_SCHEMA_CANNOT_DISABLE_MR_IN_USE_BY_AT.get(
matchingRule.getName(),
at.getNameOrOID());
unacceptableReasons.add(message);
configAcceptable = false;
continue;
}
EqualityMatchingRule emr = at.getEqualityMatchingRule();
if ((emr != null) && oid.equals(emr.getOID()))
{
Message message =
WARN_CONFIG_SCHEMA_CANNOT_DISABLE_MR_IN_USE_BY_AT.get(
matchingRule.getName(),
at.getNameOrOID());
unacceptableReasons.add(message);
configAcceptable = false;
continue;
}
OrderingMatchingRule omr = at.getOrderingMatchingRule();
if ((omr != null) && oid.equals(omr.getOID()))
{
Message message =
WARN_CONFIG_SCHEMA_CANNOT_DISABLE_MR_IN_USE_BY_AT.get(
matchingRule.getName(),
at.getNameOrOID());
unacceptableReasons.add(message);
configAcceptable = false;
continue;
}
SubstringMatchingRule smr = at.getSubstringMatchingRule();
if ((smr != null) && oid.equals(smr.getOID()))
{
Message message =
WARN_CONFIG_SCHEMA_CANNOT_DISABLE_MR_IN_USE_BY_AT
.get(matchingRule.getName(), at.getNameOrOID());
unacceptableReasons.add(message);
configAcceptable = false;
continue;
}
}
for (MatchingRuleUse mru :
DirectoryServer.getMatchingRuleUses().values())
{
if (oid.equals(mru.getMatchingRule().getOID()))
{
Message message =
WARN_CONFIG_SCHEMA_CANNOT_DISABLE_MR_IN_USE_BY_MRU.get(
matchingRule.getName(), mru.getName());
unacceptableReasons.add(message);
configAcceptable = false;
continue;
}
}
}
}
}
return configAcceptable;
}
/**
* {@inheritDoc}
*/
public ConfigChangeResult applyConfigurationChange(
MatchingRuleCfg configuration)
{
ResultCode resultCode = ResultCode.SUCCESS;
boolean adminActionRequired = false;
ArrayList<Message> messages = new ArrayList<Message>();
// Get the existing matching rule factory if it's already enabled.
MatchingRuleFactory<?> existingFactory =
matchingRuleFactories.get(configuration.dn());
// If the new configuration has the matching rule disabled, then disable it
// if it is enabled, or do nothing if it's already disabled.
if (! configuration.isEnabled())
{
if (existingFactory != null)
{
for(MatchingRule existingRule: existingFactory.getMatchingRules())
{
DirectoryServer.deregisterMatchingRule(existingRule);
}
matchingRuleFactories.remove(configuration.dn());
existingFactory.finalizeMatchingRule();
}
return new ConfigChangeResult(resultCode, adminActionRequired, messages);
}
// Get the class for the matching rule. If the matching rule is already
// enabled, then we shouldn't do anything with it although if the class has
// changed then we'll at least need to indicate that administrative action
// is required. If the matching rule is disabled, then instantiate the
// class and initialize and register it as a matching rule.
String className = configuration.getJavaClass();
if (existingFactory != null)
{
if (! className.equals(existingFactory.getClass().getName()))
{
adminActionRequired = true;
}
return new ConfigChangeResult(resultCode, adminActionRequired, messages);
}
MatchingRuleFactory<?> factory = null;
try
{
factory = loadMatchingRuleFactory(className, configuration, true);
try
{
for(MatchingRule matchingRule: factory.getMatchingRules())
{
DirectoryServer.registerMatchingRule(matchingRule, false);
}
matchingRuleFactories.put(configuration.dn(), factory);
}
catch (DirectoryException de)
{
Message message = WARN_CONFIG_SCHEMA_MR_CONFLICTING_MR.get(
String.valueOf(configuration.dn()), de.getMessageObject());
messages.add(message);
if (resultCode == ResultCode.SUCCESS)
{
resultCode = DirectoryServer.getServerErrorResultCode();
}
}
}
catch (InitializationException ie)
{
if (resultCode == ResultCode.SUCCESS)
{
resultCode = DirectoryServer.getServerErrorResultCode();
}
messages.add(ie.getMessageObject());
}
return new ConfigChangeResult(resultCode, adminActionRequired, messages);
}
/**
* Loads the specified class, instantiates it as an attribute syntax, and
* optionally initializes that instance.
*
* @param className The fully-qualified name of the attribute syntax
* class to load, instantiate, and initialize.
* @param configuration The configuration to use to initialize the attribute
* syntax. It must not be {@code null}.
* @param initialize Indicates whether the matching rule instance should
* be initialized.
*
* @return The possibly initialized attribute syntax.
*
* @throws InitializationException If a problem occurred while attempting to
* initialize the attribute syntax.
*/
private MatchingRuleFactory loadMatchingRuleFactory(String className,
MatchingRuleCfg configuration,
boolean initialize)
throws InitializationException
{
try
{
MatchingRuleFactory factory = null;
MatchingRuleCfgDefn definition =
MatchingRuleCfgDefn.getInstance();
ClassPropertyDefinition propertyDefinition =
definition.getJavaClassPropertyDefinition();
Class<? extends MatchingRuleFactory> matchingRuleFactoryClass =
propertyDefinition.loadClass(className,
MatchingRuleFactory.class);
factory = matchingRuleFactoryClass.newInstance();
if (initialize)
{
Method method = factory.getClass().getMethod(
"initializeMatchingRule", configuration.configurationClass());
method.invoke(factory, configuration);
}
else
{
Method method =
factory.getClass().getMethod("isConfigurationAcceptable",
MatchingRuleCfg.class,
List.class);
List<Message> unacceptableReasons = new ArrayList<Message>();
Boolean acceptable = (Boolean) method.invoke(factory,
configuration,
unacceptableReasons);
if (! acceptable)
{
StringBuilder buffer = new StringBuilder();
if (! unacceptableReasons.isEmpty())
{
Iterator<Message> iterator = unacceptableReasons.iterator();
buffer.append(iterator.next());
while (iterator.hasNext())
{
buffer.append(". ");
buffer.append(iterator.next());
}
}
Message message = ERR_CONFIG_SCHEMA_MR_CONFIG_NOT_ACCEPTABLE.get(
String.valueOf(configuration.dn()), buffer.toString());
throw new InitializationException(message);
}
}
return factory;
}
catch (Exception e)
{
Message message = ERR_CONFIG_SCHEMA_MR_CANNOT_INITIALIZE.
get(className, String.valueOf(configuration.dn()),
stackTraceToSingleLineString(e));
throw new InitializationException(message, e);
}
}
}