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The UnboundID LDAP SDK for Java is a fast, comprehensive, and easy-to-use
Java API for communicating with LDAP directory servers and performing
related tasks like reading and writing LDIF, encoding and decoding data
using base64 and ASN.1 BER, and performing secure communication. This
package contains the Standard Edition of the LDAP SDK, which is a
complete, general-purpose library for communicating with LDAPv3 directory
servers.
The newest version!
/*
* Copyright 2009-2024 Ping Identity Corporation
* All Rights Reserved.
*/
/*
* Copyright 2009-2024 Ping Identity Corporation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
* Copyright (C) 2009-2024 Ping Identity Corporation
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License (GPLv2 only)
* or the terms of the GNU Lesser General Public License (LGPLv2.1 only)
* as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see .
*/
package com.unboundid.ldap.sdk.persist;
import java.io.Serializable;
import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.LinkedList;
import java.util.Collections;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.TreeMap;
import java.util.TreeSet;
import java.util.concurrent.atomic.AtomicBoolean;
import com.unboundid.asn1.ASN1OctetString;
import com.unboundid.ldap.sdk.Attribute;
import com.unboundid.ldap.sdk.DN;
import com.unboundid.ldap.sdk.Entry;
import com.unboundid.ldap.sdk.Filter;
import com.unboundid.ldap.sdk.LDAPException;
import com.unboundid.ldap.sdk.Modification;
import com.unboundid.ldap.sdk.ModificationType;
import com.unboundid.ldap.sdk.RDN;
import com.unboundid.ldap.sdk.ReadOnlyEntry;
import com.unboundid.ldap.sdk.schema.ObjectClassDefinition;
import com.unboundid.ldap.sdk.schema.ObjectClassType;
import com.unboundid.util.Debug;
import com.unboundid.util.NotMutable;
import com.unboundid.util.NotNull;
import com.unboundid.util.Nullable;
import com.unboundid.util.StaticUtils;
import com.unboundid.util.ThreadSafety;
import com.unboundid.util.ThreadSafetyLevel;
import static com.unboundid.ldap.sdk.persist.PersistMessages.*;
/**
* This class provides a mechanism for validating, encoding, and decoding
* objects marked with the {@link LDAPObject} annotation type.
*
* @param The type of object handled by this class.
*/
@NotMutable()
@ThreadSafety(level=ThreadSafetyLevel.COMPLETELY_THREADSAFE)
public final class LDAPObjectHandler
implements Serializable
{
/**
* The serial version UID for this serializable class.
*/
private static final long serialVersionUID = -1480360011153517161L;
// The object class attribute to include in entries that are created.
@NotNull private final Attribute objectClassAttribute;
// The type of object handled by this class.
@NotNull private final Class type;
// The constructor to use to create a new instance of the class.
@NotNull private final Constructor constructor;
// The default parent DN for entries created from objects of the associated
// type.
@NotNull private final DN defaultParentDN;
// The field that will be used to hold the DN of the entry.
@Nullable private final Field dnField;
// The field that will be used to hold the entry contents.
@Nullable private final Field entryField;
// The LDAPObject annotation for the associated object.
@NotNull private final LDAPObject ldapObject;
// The LDAP object handler for the superclass, if applicable.
@Nullable private final LDAPObjectHandler super T> superclassHandler;
// The list of fields for with a filter usage of ALWAYS_ALLOWED.
@NotNull private final List alwaysAllowedFilterFields;
// The list of fields for with a filter usage of CONDITIONALLY_ALLOWED.
@NotNull private final List conditionallyAllowedFilterFields;
// The list of fields for with a filter usage of REQUIRED.
@NotNull private final List requiredFilterFields;
// The list of fields for this class that should be used to construct the RDN.
@NotNull private final List rdnFields;
// The list of getter methods for with a filter usage of ALWAYS_ALLOWED.
@NotNull private final List alwaysAllowedFilterGetters;
// The list of getter methods for with a filter usage of
// CONDITIONALLY_ALLOWED.
@NotNull private final List conditionallyAllowedFilterGetters;
// The list of getter methods for with a filter usage of REQUIRED.
@NotNull private final List requiredFilterGetters;
// The list of getters for this class that should be used to construct the
// RDN.
@NotNull private final List rdnGetters;
// The map of attribute names to their corresponding fields.
@NotNull private final Map fieldMap;
// The map of attribute names to their corresponding getter methods.
@NotNull private final Map getterMap;
// The map of attribute names to their corresponding setter methods.
@NotNull private final Map setterMap;
// The method that should be invoked on an object after all other decode
// processing has been performed.
@Nullable private final Method postDecodeMethod;
// The method that should be invoked on an object after all other encode
// processing has been performed.
@Nullable private final Method postEncodeMethod;
// The structural object class that should be used for entries created from
// objects of the associated type.
@NotNull private final String structuralClass;
// The set of attributes that should be requested when performing a search.
// It will not include lazily-loaded attributes.
@NotNull private final String[] attributesToRequest;
// The auxiliary object classes that should should used for entries created
// from objects of the associated type.
@NotNull private final String[] auxiliaryClasses;
// The set of attributes that will be requested if @LDAPObject has
// requestAllAttributes is false. Even if requestAllAttributes is true, this
// may be used if a subclass has requestAllAttributes set to false.
@NotNull private final String[] explicitAttributesToRequest;
// The set of attributes that should be lazily loaded.
@NotNull private final String[] lazilyLoadedAttributes;
// The superior object classes that should should used for entries created
// from objects of the associated type.
@NotNull private final String[] superiorClasses;
/**
* Creates a new instance of this handler that will handle objects of the
* specified type.
*
* @param type The type of object that will be handled by this class.
*
* @throws LDAPPersistException If there is a problem with the provided
* class that makes it unsuitable for use with
* the persistence framework.
*/
@SuppressWarnings({"unchecked", "rawtypes"})
LDAPObjectHandler(@NotNull final Class type)
throws LDAPPersistException
{
this.type = type;
final Class super T> superclassType = type.getSuperclass();
if (superclassType == null)
{
superclassHandler = null;
}
else
{
final LDAPObject superclassAnnotation =
superclassType.getAnnotation(LDAPObject.class);
if (superclassAnnotation == null)
{
superclassHandler = null;
}
else
{
superclassHandler = new LDAPObjectHandler(superclassType);
}
}
final TreeMap fields = new TreeMap<>();
final TreeMap getters = new TreeMap<>();
final TreeMap setters = new TreeMap<>();
ldapObject = type.getAnnotation(LDAPObject.class);
if (ldapObject == null)
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_OBJECT_NOT_ANNOTATED.get(type.getName()));
}
final LinkedHashMap objectClasses =
new LinkedHashMap<>(StaticUtils.computeMapCapacity(10));
final String oc = ldapObject.structuralClass();
if (oc.isEmpty())
{
structuralClass = StaticUtils.getUnqualifiedClassName(type);
}
else
{
structuralClass = oc;
}
final StringBuilder invalidReason = new StringBuilder();
if (PersistUtils.isValidLDAPName(structuralClass, invalidReason))
{
objectClasses.put(StaticUtils.toLowerCase(structuralClass),
structuralClass);
}
else
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_INVALID_STRUCTURAL_CLASS.get(type.getName(),
structuralClass, invalidReason.toString()));
}
auxiliaryClasses = ldapObject.auxiliaryClass();
for (final String auxiliaryClass : auxiliaryClasses)
{
if (PersistUtils.isValidLDAPName(auxiliaryClass, invalidReason))
{
objectClasses.put(StaticUtils.toLowerCase(auxiliaryClass),
auxiliaryClass);
}
else
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_INVALID_AUXILIARY_CLASS.get(type.getName(),
auxiliaryClass, invalidReason.toString()));
}
}
superiorClasses = ldapObject.superiorClass();
for (final String superiorClass : superiorClasses)
{
if (PersistUtils.isValidLDAPName(superiorClass, invalidReason))
{
objectClasses.put(StaticUtils.toLowerCase(superiorClass),
superiorClass);
}
else
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_INVALID_SUPERIOR_CLASS.get(type.getName(),
superiorClass, invalidReason.toString()));
}
}
if (superclassHandler != null)
{
for (final String s : superclassHandler.objectClassAttribute.getValues())
{
objectClasses.put(StaticUtils.toLowerCase(s), s);
}
}
objectClassAttribute = new Attribute("objectClass", objectClasses.values());
final String parentDNStr = ldapObject.defaultParentDN();
try
{
if ((parentDNStr.isEmpty()) && (superclassHandler != null))
{
defaultParentDN = superclassHandler.getDefaultParentDN();
}
else
{
defaultParentDN = new DN(parentDNStr);
}
}
catch (final LDAPException le)
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_INVALID_DEFAULT_PARENT.get(type.getName(),
parentDNStr, le.getMessage()), le);
}
final String postDecodeMethodName = ldapObject.postDecodeMethod();
if (! postDecodeMethodName.isEmpty())
{
try
{
postDecodeMethod = type.getDeclaredMethod(postDecodeMethodName);
postDecodeMethod.setAccessible(true);
}
catch (final Exception e)
{
Debug.debugException(e);
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_INVALID_POST_DECODE_METHOD.get(type.getName(),
postDecodeMethodName, StaticUtils.getExceptionMessage(e)),
e);
}
}
else
{
postDecodeMethod = null;
}
final String postEncodeMethodName = ldapObject.postEncodeMethod();
if (! postEncodeMethodName.isEmpty())
{
try
{
postEncodeMethod = type.getDeclaredMethod(postEncodeMethodName,
Entry.class);
postEncodeMethod.setAccessible(true);
}
catch (final Exception e)
{
Debug.debugException(e);
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_INVALID_POST_ENCODE_METHOD.get(type.getName(),
postEncodeMethodName, StaticUtils.getExceptionMessage(e)),
e);
}
}
else
{
postEncodeMethod = null;
}
try
{
constructor = type.getDeclaredConstructor();
constructor.setAccessible(true);
}
catch (final Exception e)
{
Debug.debugException(e);
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_NO_DEFAULT_CONSTRUCTOR.get(type.getName()), e);
}
Field tmpDNField = null;
Field tmpEntryField = null;
final LinkedList tmpRFilterFields = new LinkedList<>();
final LinkedList tmpAAFilterFields = new LinkedList<>();
final LinkedList tmpCAFilterFields = new LinkedList<>();
final LinkedList tmpRDNFields = new LinkedList<>();
for (final Field f : type.getDeclaredFields())
{
final LDAPField fieldAnnotation = f.getAnnotation(LDAPField.class);
final LDAPDNField dnFieldAnnotation = f.getAnnotation(LDAPDNField.class);
final LDAPEntryField entryFieldAnnotation =
f.getAnnotation(LDAPEntryField.class);
if (fieldAnnotation != null)
{
f.setAccessible(true);
final FieldInfo fieldInfo = new FieldInfo(f, type);
final String attrName =
StaticUtils.toLowerCase(fieldInfo.getAttributeName());
if (fields.containsKey(attrName))
{
throw new LDAPPersistException(ERR_OBJECT_HANDLER_ATTR_CONFLICT.get(
type.getName(), fieldInfo.getAttributeName()));
}
else
{
fields.put(attrName, fieldInfo);
}
switch (fieldInfo.getFilterUsage())
{
case REQUIRED:
tmpRFilterFields.add(fieldInfo);
break;
case ALWAYS_ALLOWED:
tmpAAFilterFields.add(fieldInfo);
break;
case CONDITIONALLY_ALLOWED:
tmpCAFilterFields.add(fieldInfo);
break;
case EXCLUDED:
default:
// No action required.
break;
}
if (fieldInfo.includeInRDN())
{
tmpRDNFields.add(fieldInfo);
}
}
if (dnFieldAnnotation != null)
{
f.setAccessible(true);
if (fieldAnnotation != null)
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_CONFLICTING_FIELD_ANNOTATIONS.get(
type.getName(), "LDAPField", "LDAPDNField", f.getName()));
}
if (tmpDNField != null)
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_MULTIPLE_DN_FIELDS.get(type.getName()));
}
final int modifiers = f.getModifiers();
if (Modifier.isFinal(modifiers))
{
throw new LDAPPersistException(ERR_OBJECT_HANDLER_DN_FIELD_FINAL.get(
f.getName(), type.getName()));
}
else if (Modifier.isStatic(modifiers))
{
throw new LDAPPersistException(ERR_OBJECT_HANDLER_DN_FIELD_STATIC.get(
f.getName(), type.getName()));
}
final Class> fieldType = f.getType();
if (fieldType.equals(String.class))
{
tmpDNField = f;
}
else
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_INVALID_DN_FIELD_TYPE.get(type.getName(),
f.getName(), fieldType.getName()));
}
}
if (entryFieldAnnotation != null)
{
f.setAccessible(true);
if (fieldAnnotation != null)
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_CONFLICTING_FIELD_ANNOTATIONS.get(
type.getName(), "LDAPField", "LDAPEntryField",
f.getName()));
}
if (tmpEntryField != null)
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_MULTIPLE_ENTRY_FIELDS.get(type.getName()));
}
final int modifiers = f.getModifiers();
if (Modifier.isFinal(modifiers))
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_ENTRY_FIELD_FINAL.get(f.getName(),
type.getName()));
}
else if (Modifier.isStatic(modifiers))
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_ENTRY_FIELD_STATIC.get(f.getName(),
type.getName()));
}
final Class> fieldType = f.getType();
if (fieldType.equals(ReadOnlyEntry.class))
{
tmpEntryField = f;
}
else
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_INVALID_ENTRY_FIELD_TYPE.get(type.getName(),
f.getName(), fieldType.getName()));
}
}
}
dnField = tmpDNField;
entryField = tmpEntryField;
requiredFilterFields = Collections.unmodifiableList(tmpRFilterFields);
alwaysAllowedFilterFields = Collections.unmodifiableList(tmpAAFilterFields);
conditionallyAllowedFilterFields =
Collections.unmodifiableList(tmpCAFilterFields);
rdnFields = Collections.unmodifiableList(tmpRDNFields);
final LinkedList tmpRFilterGetters = new LinkedList<>();
final LinkedList tmpAAFilterGetters = new LinkedList<>();
final LinkedList tmpCAFilterGetters = new LinkedList<>();
final LinkedList tmpRDNGetters = new LinkedList<>();
for (final Method m : type.getDeclaredMethods())
{
final LDAPGetter getter = m.getAnnotation(LDAPGetter.class);
final LDAPSetter setter = m.getAnnotation(LDAPSetter.class);
if (getter != null)
{
m.setAccessible(true);
if (setter != null)
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_CONFLICTING_METHOD_ANNOTATIONS.get(
type.getName(), "LDAPGetter", "LDAPSetter",
m.getName()));
}
final GetterInfo methodInfo = new GetterInfo(m, type);
final String attrName =
StaticUtils.toLowerCase(methodInfo.getAttributeName());
if (fields.containsKey(attrName) || getters.containsKey(attrName))
{
throw new LDAPPersistException(ERR_OBJECT_HANDLER_ATTR_CONFLICT.get(
type.getName(), methodInfo.getAttributeName()));
}
else
{
getters.put(attrName, methodInfo);
}
switch (methodInfo.getFilterUsage())
{
case REQUIRED:
tmpRFilterGetters.add(methodInfo);
break;
case ALWAYS_ALLOWED:
tmpAAFilterGetters.add(methodInfo);
break;
case CONDITIONALLY_ALLOWED:
tmpCAFilterGetters.add(methodInfo);
break;
case EXCLUDED:
default:
// No action required.
break;
}
if (methodInfo.includeInRDN())
{
tmpRDNGetters.add(methodInfo);
}
}
if (setter != null)
{
m.setAccessible(true);
final SetterInfo methodInfo = new SetterInfo(m, type);
final String attrName =
StaticUtils.toLowerCase(methodInfo.getAttributeName());
if (fields.containsKey(attrName) || setters.containsKey(attrName))
{
throw new LDAPPersistException(ERR_OBJECT_HANDLER_ATTR_CONFLICT.get(
type.getName(), methodInfo.getAttributeName()));
}
else
{
setters.put(attrName, methodInfo);
}
}
}
requiredFilterGetters = Collections.unmodifiableList(tmpRFilterGetters);
alwaysAllowedFilterGetters =
Collections.unmodifiableList(tmpAAFilterGetters);
conditionallyAllowedFilterGetters =
Collections.unmodifiableList(tmpCAFilterGetters);
rdnGetters = Collections.unmodifiableList(tmpRDNGetters);
if (rdnFields.isEmpty() && rdnGetters.isEmpty() &&
(superclassHandler == null))
{
throw new LDAPPersistException(ERR_OBJECT_HANDLER_NO_RDN_DEFINED.get(
type.getName()));
}
fieldMap = Collections.unmodifiableMap(fields);
getterMap = Collections.unmodifiableMap(getters);
setterMap = Collections.unmodifiableMap(setters);
final TreeSet attrSet = new TreeSet<>();
final TreeSet lazySet = new TreeSet<>();
for (final FieldInfo i : fields.values())
{
if (i.lazilyLoad())
{
lazySet.add(i.getAttributeName());
}
else
{
attrSet.add(i.getAttributeName());
}
}
for (final SetterInfo i : setters.values())
{
attrSet.add(i.getAttributeName());
}
if (superclassHandler != null)
{
attrSet.addAll(Arrays.asList(
superclassHandler.explicitAttributesToRequest));
lazySet.addAll(Arrays.asList(superclassHandler.lazilyLoadedAttributes));
}
explicitAttributesToRequest = new String[attrSet.size()];
attrSet.toArray(explicitAttributesToRequest);
if (requestAllAttributes())
{
attributesToRequest = new String[] { "*", "+" };
}
else
{
attributesToRequest = explicitAttributesToRequest;
}
lazilyLoadedAttributes = new String[lazySet.size()];
lazySet.toArray(lazilyLoadedAttributes);
}
/**
* Retrieves the type of object handled by this class.
*
* @return The type of object handled by this class.
*/
@NotNull()
public Class getType()
{
return type;
}
/**
* Retrieves the {@code LDAPObjectHandler} object for the superclass of the
* associated type, if it is marked with the {@code LDAPObject annotation}.
*
* @return The {@code LDAPObjectHandler} object for the superclass of the
* associated type, or {@code null} if the superclass is not marked
* with the {@code LDAPObject} annotation.
*/
@Nullable()
public LDAPObjectHandler> getSuperclassHandler()
{
return superclassHandler;
}
/**
* Retrieves the {@link LDAPObject} annotation for the associated class.
*
* @return The {@code LDAPObject} annotation for the associated class.
*/
@NotNull()
public LDAPObject getLDAPObjectAnnotation()
{
return ldapObject;
}
/**
* Retrieves the constructor used to create a new instance of the appropriate
* type.
*
* @return The constructor used to create a new instance of the appropriate
* type.
*/
@NotNull()
public Constructor getConstructor()
{
return constructor;
}
/**
* Retrieves the field that will be used to hold the DN of the associated
* entry, if defined.
*
* @return The field that will be used to hold the DN of the associated
* entry, or {@code null} if no DN field is defined in the associated
* object type.
*/
@Nullable()
public Field getDNField()
{
return dnField;
}
/**
* Retrieves the field that will be used to hold a read-only copy of the entry
* used to create the object instance, if defined.
*
* @return The field that will be used to hold a read-only copy of the entry
* used to create the object instance, or {@code null} if no entry
* field is defined in the associated object type.
*/
@Nullable()
public Field getEntryField()
{
return entryField;
}
/**
* Retrieves the default parent DN for objects of the associated type.
*
* @return The default parent DN for objects of the associated type.
*/
@NotNull()
public DN getDefaultParentDN()
{
return defaultParentDN;
}
/**
* Retrieves the name of the structural object class for objects of the
* associated type.
*
* @return The name of the structural object class for objects of the
* associated type.
*/
@NotNull()
public String getStructuralClass()
{
return structuralClass;
}
/**
* Retrieves the names of the auxiliary object classes for objects of the
* associated type.
*
* @return The names of the auxiliary object classes for objects of the
* associated type. It may be empty if no auxiliary classes are
* defined.
*/
@NotNull()
public String[] getAuxiliaryClasses()
{
return auxiliaryClasses;
}
/**
* Retrieves the names of the superior object classes for objects of the
* associated type.
*
* @return The names of the superior object classes for objects of the
* associated type. It may be empty if no superior classes are
* defined.
*/
@NotNull()
public String[] getSuperiorClasses()
{
return superiorClasses;
}
/**
* Indicates whether to request all attributes. This will return {@code true}
* if the associated {@code LDAPObject}, or any {@code LDAPObject} for any
* superclass, has {@code requestAllAttributes} set to {@code true}.
*
* @return {@code true} if {@code LDAPObject} has
* {@code requestAllAttributes} set to {@code true} for any class in
* the hierarchy, or {@code false} if not.
*/
public boolean requestAllAttributes()
{
return (ldapObject.requestAllAttributes() ||
((superclassHandler != null) &&
superclassHandler.requestAllAttributes()));
}
/**
* Retrieves the names of the attributes that should be requested when
* performing a search. It will not include lazily-loaded attributes.
*
* @return The names of the attributes that should be requested when
* performing a search.
*/
@NotNull()
public String[] getAttributesToRequest()
{
return attributesToRequest;
}
/**
* Retrieves the names of the attributes that should be lazily loaded for
* objects of this type.
*
* @return The names of the attributes that should be lazily loaded for
* objects of this type. It may be empty if no attributes should be
* lazily-loaded.
*/
@NotNull()
public String[] getLazilyLoadedAttributes()
{
return lazilyLoadedAttributes;
}
/**
* Retrieves the DN of the entry in which the provided object is stored, if
* available. The entry DN will not be available if the provided object was
* not retrieved using the persistence framework, or if the associated class
* (or one of its superclasses) does not have a field marked with either the
* {@link LDAPDNField} or {@link LDAPEntryField} annotation.
*
* @param o The object for which to retrieve the associated entry DN.
*
* @return The DN of the entry in which the provided object is stored, or
* {@code null} if that is not available.
*
* @throws LDAPPersistException If a problem occurred while attempting to
* obtain the entry DN.
*/
@Nullable()
public String getEntryDN(@NotNull final T o)
throws LDAPPersistException
{
final String dnFieldValue = getDNFieldValue(o);
if (dnFieldValue != null)
{
return dnFieldValue;
}
final ReadOnlyEntry entry = getEntry(o);
if (entry != null)
{
return entry.getDN();
}
return null;
}
/**
* Retrieves the value of the DN field for the provided object. If there is
* no DN field in this object handler but there is one defined for a handler
* for one of its superclasses, then it will be obtained recursively.
*
* @param o The object for which to retrieve the associated entry DN.
*
* @return The value of the DN field for the provided object.
*
* @throws LDAPPersistException If a problem is encountered while attempting
* to access the value of the DN field.
*/
@Nullable()
private String getDNFieldValue(@NotNull final T o)
throws LDAPPersistException
{
if (dnField != null)
{
try
{
final Object dnObject = dnField.get(o);
if (dnObject == null)
{
return null;
}
else
{
return String.valueOf(dnObject);
}
}
catch (final Exception e)
{
Debug.debugException(e);
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_ERROR_ACCESSING_DN_FIELD.get(dnField.getName(),
type.getName(), StaticUtils.getExceptionMessage(e)),
e);
}
}
if (superclassHandler != null)
{
return superclassHandler.getDNFieldValue(o);
}
return null;
}
/**
* Retrieves a read-only copy of the entry that was used to initialize the
* provided object, if available. The entry will only be available if the
* object was retrieved from the directory using the persistence framework and
* the associated class (or one of its superclasses) has a field marked with
* the {@link LDAPEntryField} annotation.
*
* @param o The object for which to retrieve the read-only entry.
*
* @return A read-only copy of the entry that was used to initialize the
* provided object, or {@code null} if that is not available.
*
* @throws LDAPPersistException If a problem occurred while attempting to
* obtain the entry DN.
*/
@Nullable()
public ReadOnlyEntry getEntry(@NotNull final T o)
throws LDAPPersistException
{
if (entryField != null)
{
try
{
final Object entryObject = entryField.get(o);
if (entryObject == null)
{
return null;
}
else
{
return (ReadOnlyEntry) entryObject;
}
}
catch (final Exception e)
{
Debug.debugException(e);
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_ERROR_ACCESSING_ENTRY_FIELD.get(
entryField.getName(), type.getName(),
StaticUtils.getExceptionMessage(e)),
e);
}
}
if (superclassHandler != null)
{
return superclassHandler.getEntry(o);
}
return null;
}
/**
* Retrieves a map of all fields in the class that should be persisted as LDAP
* attributes. The keys in the map will be the lowercase names of the LDAP
* attributes used to persist the information, and the values will be
* information about the fields associated with those attributes.
*
* @return A map of all fields in the class that should be persisted as LDAP
* attributes.
*/
@NotNull()
public Map getFields()
{
return fieldMap;
}
/**
* Retrieves a map of all getter methods in the class whose values should be
* persisted as LDAP attributes. The keys in the map will be the lowercase
* names of the LDAP attributes used to persist the information, and the
* values will be information about the getter methods associated with those
* attributes.
*
* @return A map of all getter methods in the class whose values should be
* persisted as LDAP attributes.
*/
@NotNull()
public Map getGetters()
{
return getterMap;
}
/**
* Retrieves a map of all setter methods in the class that should be invoked
* with information read from LDAP attributes. The keys in the map will be
* the lowercase names of the LDAP attributes with the information used to
* invoke the setter, and the values will be information about the setter
* methods associated with those attributes.
*
* @return A map of all setter methods in the class that should be invoked
* with information read from LDAP attributes.
*/
@NotNull()
public Map getSetters()
{
return setterMap;
}
/**
* Constructs a list of LDAP object class definitions which may be added to
* the directory server schema to allow it to hold objects of this type. Note
* that the object identifiers used for the constructed object class
* definitions are not required to be valid or unique.
*
* @param a The OID allocator to use to generate the object identifiers for
* the constructed attribute types. It must not be {@code null}.
*
* @return A list of object class definitions that may be used to represent
* objects of the associated type in an LDAP directory.
*
* @throws LDAPPersistException If a problem occurs while attempting to
* generate the list of object class
* definitions.
*/
@NotNull()
List constructObjectClasses(
@NotNull final OIDAllocator a)
throws LDAPPersistException
{
final LinkedHashMap ocMap =
new LinkedHashMap<>(
StaticUtils.computeMapCapacity(1 + auxiliaryClasses.length));
if (superclassHandler != null)
{
for (final ObjectClassDefinition d :
superclassHandler.constructObjectClasses(a))
{
ocMap.put(StaticUtils.toLowerCase(d.getNameOrOID()), d);
}
}
final String lowerStructuralClass =
StaticUtils.toLowerCase(structuralClass);
if (! ocMap.containsKey(lowerStructuralClass))
{
if (superclassHandler == null)
{
ocMap.put(lowerStructuralClass, constructObjectClass(structuralClass,
"top", ObjectClassType.STRUCTURAL, a));
}
else
{
ocMap.put(lowerStructuralClass, constructObjectClass(structuralClass,
superclassHandler.getStructuralClass(), ObjectClassType.STRUCTURAL,
a));
}
}
for (final String s : auxiliaryClasses)
{
final String lowerName = StaticUtils.toLowerCase(s);
if (! ocMap.containsKey(lowerName))
{
ocMap.put(lowerName,
constructObjectClass(s, "top", ObjectClassType.AUXILIARY, a));
}
}
return Collections.unmodifiableList(new ArrayList<>(ocMap.values()));
}
/**
* Constructs an LDAP object class definition for the object class with the
* specified name.
*
* @param name The name of the object class to create. It must not be
* {@code null}.
* @param sup The name of the superior object class. It must not be
* {@code null}.
* @param type The type of object class to create. It must not be
* {@code null}.
* @param a The OID allocator to use to generate the object identifiers
* for the constructed attribute types. It must not be
* {@code null}.
*
* @return The constructed object class definition.
*/
@NotNull()
private ObjectClassDefinition constructObjectClass(@NotNull final String name,
@NotNull final String sup,
@NotNull final ObjectClassType type,
@NotNull final OIDAllocator a)
{
final TreeMap requiredAttrs = new TreeMap<>();
final TreeMap optionalAttrs = new TreeMap<>();
// Extract the attributes for all of the fields.
for (final FieldInfo i : fieldMap.values())
{
boolean found = false;
for (final String s : i.getObjectClasses())
{
if (name.equalsIgnoreCase(s))
{
found = true;
break;
}
}
if (! found)
{
continue;
}
final String attrName = i.getAttributeName();
final String lowerName = StaticUtils.toLowerCase(attrName);
if (i.includeInRDN() ||
(i.isRequiredForDecode() && i.isRequiredForEncode()))
{
requiredAttrs.put(lowerName, attrName);
}
else
{
optionalAttrs.put(lowerName, attrName);
}
}
// Extract the attributes for all of the getter methods.
for (final GetterInfo i : getterMap.values())
{
boolean found = false;
for (final String s : i.getObjectClasses())
{
if (name.equalsIgnoreCase(s))
{
found = true;
break;
}
}
if (! found)
{
continue;
}
final String attrName = i.getAttributeName();
final String lowerName = StaticUtils.toLowerCase(attrName);
if (i.includeInRDN())
{
requiredAttrs.put(lowerName, attrName);
}
else
{
optionalAttrs.put(lowerName, attrName);
}
}
// Extract the attributes for all of the setter methods. We'll assume that
// they are all part of the structural object class and all optional.
if (name.equalsIgnoreCase(structuralClass))
{
for (final SetterInfo i : setterMap.values())
{
final String attrName = i.getAttributeName();
final String lowerName = StaticUtils.toLowerCase(attrName);
if (requiredAttrs.containsKey(lowerName) ||
optionalAttrs.containsKey(lowerName))
{
continue;
}
optionalAttrs.put(lowerName, attrName);
}
}
final String[] reqArray = new String[requiredAttrs.size()];
requiredAttrs.values().toArray(reqArray);
final String[] optArray = new String[optionalAttrs.size()];
optionalAttrs.values().toArray(optArray);
return new ObjectClassDefinition(a.allocateObjectClassOID(name),
new String[] { name }, null, false, new String[] { sup }, type,
reqArray, optArray, null);
}
/**
* Creates a new object based on the contents of the provided entry.
*
* @param e The entry to use to create and initialize the object.
*
* @return The object created from the provided entry.
*
* @throws LDAPPersistException If an error occurs while creating or
* initializing the object from the information
* in the provided entry.
*/
@NotNull()
T decode(@NotNull final Entry e)
throws LDAPPersistException
{
final T o;
try
{
o = constructor.newInstance();
}
catch (final Exception ex)
{
Debug.debugException(ex);
if (ex instanceof InvocationTargetException)
{
final Throwable targetException =
((InvocationTargetException) ex).getTargetException();
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_ERROR_INVOKING_CONSTRUCTOR.get(type.getName(),
StaticUtils.getExceptionMessage(targetException)),
targetException);
}
else
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_ERROR_INVOKING_CONSTRUCTOR.get(type.getName(),
StaticUtils.getExceptionMessage(ex)),
ex);
}
}
decode(o, e);
return o;
}
/**
* Initializes the provided object from the contents of the provided entry.
*
* @param o The object to be initialized with the contents of the provided
* entry.
* @param e The entry to use to initialize the object.
*
* @throws LDAPPersistException If an error occurs while initializing the
* object from the information in the provided
* entry.
*/
void decode(@NotNull final T o, @NotNull final Entry e)
throws LDAPPersistException
{
if (superclassHandler != null)
{
superclassHandler.decode(o, e);
}
setDNAndEntryFields(o, e);
final ArrayList failureReasons = new ArrayList<>(5);
boolean successful = true;
for (final FieldInfo i : fieldMap.values())
{
successful &= i.decode(o, e, failureReasons);
}
for (final SetterInfo i : setterMap.values())
{
successful &= i.invokeSetter(o, e, failureReasons);
}
Throwable cause = null;
if (postDecodeMethod != null)
{
try
{
postDecodeMethod.invoke(o);
}
catch (final Exception ex)
{
Debug.debugException(ex);
StaticUtils.rethrowIfError(ex);
if (ex instanceof InvocationTargetException)
{
cause = ((InvocationTargetException) ex).getTargetException();
}
else
{
cause = ex;
}
successful = false;
failureReasons.add(
ERR_OBJECT_HANDLER_ERROR_INVOKING_POST_DECODE_METHOD.get(
postDecodeMethod.getName(), type.getName(),
StaticUtils.getExceptionMessage(ex)));
}
}
if (! successful)
{
throw new LDAPPersistException(
StaticUtils.concatenateStrings(failureReasons), o, cause);
}
}
/**
* Encodes the provided object to an entry suitable for use in an add
* operation.
*
* @param o The object to be encoded.
* @param parentDN The parent DN to use by default for the entry that is
* generated. If the provided object was previously read
* from a directory server and includes a DN field or an
* entry field with the original DN used for the object,
* then that original DN will be used even if it is not
* an immediate subordinate of the provided parent. This
* may be {@code null} if the entry to create should not
* have a parent but instead should have a DN consisting of
* only a single RDN component.
*
* @return The entry containing an encoded representation of the provided
* object.
*
* @throws LDAPPersistException If a problem occurs while encoding the
* provided object.
*/
@NotNull()
Entry encode(@NotNull final T o, @Nullable final String parentDN)
throws LDAPPersistException
{
// Get the attributes that should be included in the entry.
final LinkedHashMap attrMap =
new LinkedHashMap<>(StaticUtils.computeMapCapacity(20));
attrMap.put("objectClass", objectClassAttribute);
for (final Map.Entry e : fieldMap.entrySet())
{
final FieldInfo i = e.getValue();
if (! i.includeInAdd())
{
continue;
}
final Attribute a = i.encode(o, false);
if (a != null)
{
attrMap.put(e.getKey(), a);
}
}
for (final Map.Entry e : getterMap.entrySet())
{
final GetterInfo i = e.getValue();
if (! i.includeInAdd())
{
continue;
}
final Attribute a = i.encode(o);
if (a != null)
{
attrMap.put(e.getKey(), a);
}
}
// Get the DN to use for the entry.
final String dn = constructDN(o, parentDN, attrMap);
final Entry entry = new Entry(dn, attrMap.values());
if (postEncodeMethod != null)
{
try
{
postEncodeMethod.invoke(o, entry);
}
catch (final Exception ex)
{
Debug.debugException(ex);
if (ex instanceof InvocationTargetException)
{
final Throwable targetException =
((InvocationTargetException) ex).getTargetException();
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_ERROR_INVOKING_POST_ENCODE_METHOD.get(
postEncodeMethod.getName(), type.getName(),
StaticUtils.getExceptionMessage(targetException)),
targetException);
}
else
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_ERROR_INVOKING_POST_ENCODE_METHOD.get(
postEncodeMethod.getName(), type.getName(),
StaticUtils.getExceptionMessage(ex)), ex);
}
}
}
setDNAndEntryFields(o, entry);
if (superclassHandler != null)
{
final Entry e = superclassHandler.encode(o, parentDN);
for (final Attribute a : e.getAttributes())
{
entry.addAttribute(a);
}
}
return entry;
}
/**
* Sets the DN and entry fields for the provided object, if appropriate.
*
* @param o The object to be updated.
* @param e The entry with which the object is associated.
*
* @throws LDAPPersistException If a problem occurs while setting the value
* of the DN or entry field.
*/
private void setDNAndEntryFields(@NotNull final T o, @NotNull final Entry e)
throws LDAPPersistException
{
if (dnField != null)
{
try
{
if (dnField.get(o) == null)
{
dnField.set(o, e.getDN());
}
}
catch (final Exception ex)
{
Debug.debugException(ex);
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_ERROR_SETTING_DN.get(type.getName(), e.getDN(),
dnField.getName(), StaticUtils.getExceptionMessage(ex)),
ex);
}
}
if (entryField != null)
{
try
{
if (entryField.get(o) == null)
{
entryField.set(o, new ReadOnlyEntry(e));
}
}
catch (final Exception ex)
{
Debug.debugException(ex);
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_ERROR_SETTING_ENTRY.get(type.getName(),
entryField.getName(), StaticUtils.getExceptionMessage(ex)),
ex);
}
}
if (superclassHandler != null)
{
superclassHandler.setDNAndEntryFields(o, e);
}
}
/**
* Determines the DN that should be used for the entry associated with the
* given object. If the provided object was retrieved from the directory
* using the persistence framework and has a field with either the
* {@link LDAPDNField} or {@link LDAPEntryField} annotation, then the actual
* DN of the corresponding entry will be returned. Otherwise, it will be
* constructed using the fields and getter methods marked for inclusion in
* the entry RDN.
*
* @param o The object for which to determine the appropriate DN.
* @param parentDN The parent DN to use for the constructed DN. If a
* non-{@code null} value is provided, then that value will
* be used as the parent DN (and the empty string will
* indicate that the generated DN should not have a parent).
* If the value is {@code null}, then the default parent DN
* as defined in the {@link LDAPObject} annotation will be
* used. If the provided parent DN is {@code null} and the
* {@code LDAPObject} annotation does not specify a default
* parent DN, then the generated DN will not have a parent.
*
* @return The entry DN for the provided object.
*
* @throws LDAPPersistException If a problem occurs while obtaining the
* entry DN, or if the provided parent DN
* represents an invalid DN.
*/
@NotNull()
public String constructDN(@NotNull final T o, @Nullable final String parentDN)
throws LDAPPersistException
{
final String existingDN = getEntryDN(o);
if (existingDN != null)
{
return existingDN;
}
final int numRDNs = rdnFields.size() + rdnGetters.size();
if (numRDNs == 0)
{
return superclassHandler.constructDN(o, parentDN);
}
final LinkedHashMap attrMap =
new LinkedHashMap<>(StaticUtils.computeMapCapacity(numRDNs));
for (final FieldInfo i : rdnFields)
{
final Attribute a = i.encode(o, true);
if (a == null)
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_RDN_FIELD_MISSING_VALUE.get(type.getName(),
i.getField().getName()));
}
attrMap.put(StaticUtils.toLowerCase(i.getAttributeName()), a);
}
for (final GetterInfo i : rdnGetters)
{
final Attribute a = i.encode(o);
if (a == null)
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_RDN_GETTER_MISSING_VALUE.get(type.getName(),
i.getMethod().getName()));
}
attrMap.put(StaticUtils.toLowerCase(i.getAttributeName()), a);
}
return constructDN(o, parentDN, attrMap);
}
/**
* Determines the DN that should be used for the entry associated with the
* given object. If the provided object was retrieved from the directory
* using the persistence framework and has a field with either the
* {@link LDAPDNField} or {@link LDAPEntryField} annotation, then the actual
* DN of the corresponding entry will be returned. Otherwise, it will be
* constructed using the fields and getter methods marked for inclusion in
* the entry RDN.
*
* @param o The object for which to determine the appropriate DN.
* @param parentDN The parent DN to use for the constructed DN. If a
* non-{@code null} value is provided, then that value will
* be used as the parent DN (and the empty string will
* indicate that the generated DN should not have a parent).
* If the value is {@code null}, then the default parent DN
* as defined in the {@link LDAPObject} annotation will be
* used. If the provided parent DN is {@code null} and the
* {@code LDAPObject} annotation does not specify a default
* parent DN, then the generated DN will not have a parent.
* @param attrMap A map of the attributes that will be included in the
* entry and may be used to construct the RDN elements.
*
* @return The entry DN for the provided object.
*
* @throws LDAPPersistException If a problem occurs while obtaining the
* entry DN, or if the provided parent DN
* represents an invalid DN.
*/
@NotNull()
String constructDN(@NotNull final T o, @Nullable final String parentDN,
@NotNull final Map attrMap)
throws LDAPPersistException
{
final String existingDN = getEntryDN(o);
if (existingDN != null)
{
return existingDN;
}
final int numRDNs = rdnFields.size() + rdnGetters.size();
if (numRDNs == 0)
{
return superclassHandler.constructDN(o, parentDN);
}
final ArrayList rdnNameList = new ArrayList<>(numRDNs);
final ArrayList rdnValueList = new ArrayList<>(numRDNs);
for (final FieldInfo i : rdnFields)
{
final Attribute a =
attrMap.get(StaticUtils.toLowerCase(i.getAttributeName()));
if (a == null)
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_RDN_FIELD_MISSING_VALUE.get(type.getName(),
i.getField().getName()));
}
rdnNameList.add(a.getName());
rdnValueList.add(a.getValueByteArray());
}
for (final GetterInfo i : rdnGetters)
{
final Attribute a =
attrMap.get(StaticUtils.toLowerCase(i.getAttributeName()));
if (a == null)
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_RDN_GETTER_MISSING_VALUE.get(type.getName(),
i.getMethod().getName()));
}
rdnNameList.add(a.getName());
rdnValueList.add(a.getValueByteArray());
}
final String[] rdnNames = new String[rdnNameList.size()];
rdnNameList.toArray(rdnNames);
final byte[][] rdnValues = new byte[rdnNames.length][];
rdnValueList.toArray(rdnValues);
final RDN rdn = new RDN(rdnNames, rdnValues);
if (parentDN == null)
{
return new DN(rdn, defaultParentDN).toString();
}
else
{
try
{
final DN parsedParentDN = new DN(parentDN);
return new DN(rdn, parsedParentDN).toString();
}
catch (final LDAPException le)
{
Debug.debugException(le);
throw new LDAPPersistException(ERR_OBJECT_HANDLER_INVALID_PARENT_DN.get(
type.getName(), parentDN, le.getMessage()), le);
}
}
}
/**
* Creates a list of modifications that can be used to update the stored
* representation of the provided object in the directory. If the provided
* object was retrieved from the directory using the persistence framework and
* includes a field with the {@link LDAPEntryField} annotation, then that
* entry will be used to make the returned set of modifications as efficient
* as possible. Otherwise, the resulting modifications will include attempts
* to replace every attribute which are associated with fields or getters
* that should be used in modify operations.
*
* @param o The object to be encoded.
* @param deleteNullValues Indicates whether to include modifications that
* may completely remove an attribute from the
* entry if the corresponding field or getter method
* has a value of {@code null}.
* @param byteForByte Indicates whether to use a byte-for-byte
* comparison to identify which attribute values
* have changed. Using byte-for-byte comparison
* requires additional processing over using each
* attribute's associated matching rule, but it can
* detect changes that would otherwise be considered
* logically equivalent (e.g., changing the
* capitalization of a value that uses a
* case-insensitive matching rule).
* @param attributes The set of LDAP attributes for which to include
* modifications. If this is empty or {@code null},
* then all attributes marked for inclusion in the
* modification will be examined.
*
* @return A list of modifications that can be used to update the stored
* representation of the provided object in the directory. It may
* be empty if there are no differences identified in the attributes
* to be evaluated.
*
* @throws LDAPPersistException If a problem occurs while computing the set
* of modifications.
*/
@NotNull()
List getModifications(@NotNull final T o,
final boolean deleteNullValues,
final boolean byteForByte,
@Nullable final String... attributes)
throws LDAPPersistException
{
final ReadOnlyEntry originalEntry;
if (entryField != null)
{
originalEntry = getEntry(o);
}
else
{
originalEntry = null;
}
// If we have an original copy of the entry, then we can try encoding the
// updated object to a new entry and diff the two entries.
if (originalEntry != null)
{
try
{
final T decodedOrig = decode(originalEntry);
final Entry reEncodedOriginal =
encode(decodedOrig, originalEntry.getParentDNString());
final Entry newEntry = encode(o, originalEntry.getParentDNString());
final List mods = Entry.diff(reEncodedOriginal, newEntry,
true, false, byteForByte, attributes);
if (! deleteNullValues)
{
final Iterator iterator = mods.iterator();
while (iterator.hasNext())
{
final Modification m = iterator.next();
if (m.getRawValues().length == 0)
{
iterator.remove();
}
}
}
// If there are any attributes that should be excluded from
// modifications, then strip them out.
HashSet stripAttrs = null;
for (final FieldInfo i : fieldMap.values())
{
if (! i.includeInModify())
{
if (stripAttrs == null)
{
stripAttrs = new HashSet<>(StaticUtils.computeMapCapacity(10));
}
stripAttrs.add(StaticUtils.toLowerCase(i.getAttributeName()));
}
}
for (final GetterInfo i : getterMap.values())
{
if (! i.includeInModify())
{
if (stripAttrs == null)
{
stripAttrs = new HashSet<>(StaticUtils.computeMapCapacity(10));
}
stripAttrs.add(StaticUtils.toLowerCase(i.getAttributeName()));
}
}
if (stripAttrs != null)
{
final Iterator iterator = mods.iterator();
while (iterator.hasNext())
{
final Modification m = iterator.next();
if (stripAttrs.contains(
StaticUtils.toLowerCase(m.getAttributeName())))
{
iterator.remove();
}
}
}
return mods;
}
catch (final Exception e)
{
Debug.debugException(e);
}
finally
{
setDNAndEntryFields(o, originalEntry);
}
}
final HashSet attrSet;
if ((attributes == null) || (attributes.length == 0))
{
attrSet = null;
}
else
{
attrSet =
new HashSet<>(StaticUtils.computeMapCapacity(attributes.length));
for (final String s : attributes)
{
attrSet.add(StaticUtils.toLowerCase(s));
}
}
final ArrayList mods = new ArrayList<>(5);
for (final Map.Entry e : fieldMap.entrySet())
{
final String attrName = StaticUtils.toLowerCase(e.getKey());
if ((attrSet != null) && (! attrSet.contains(attrName)))
{
continue;
}
final FieldInfo i = e.getValue();
if (! i.includeInModify())
{
continue;
}
final Attribute a = i.encode(o, false);
if (a == null)
{
if (! deleteNullValues)
{
continue;
}
if ((originalEntry != null) && (! originalEntry.hasAttribute(attrName)))
{
continue;
}
mods.add(new Modification(ModificationType.REPLACE,
i.getAttributeName()));
continue;
}
if (originalEntry != null)
{
final Attribute originalAttr = originalEntry.getAttribute(attrName);
if ((originalAttr != null) && originalAttr.equals(a))
{
continue;
}
}
mods.add(new Modification(ModificationType.REPLACE, i.getAttributeName(),
a.getRawValues()));
}
for (final Map.Entry e : getterMap.entrySet())
{
final String attrName = StaticUtils.toLowerCase(e.getKey());
if ((attrSet != null) && (! attrSet.contains(attrName)))
{
continue;
}
final GetterInfo i = e.getValue();
if (! i.includeInModify())
{
continue;
}
final Attribute a = i.encode(o);
if (a == null)
{
if (! deleteNullValues)
{
continue;
}
if ((originalEntry != null) && (! originalEntry.hasAttribute(attrName)))
{
continue;
}
mods.add(new Modification(ModificationType.REPLACE,
i.getAttributeName()));
continue;
}
if (originalEntry != null)
{
final Attribute originalAttr = originalEntry.getAttribute(attrName);
if ((originalAttr != null) && originalAttr.equals(a))
{
continue;
}
}
mods.add(new Modification(ModificationType.REPLACE, i.getAttributeName(),
a.getRawValues()));
}
if (superclassHandler != null)
{
final List superMods =
superclassHandler.getModifications(o, deleteNullValues, byteForByte,
attributes);
final ArrayList modsToAdd =
new ArrayList<>(superMods.size());
for (final Modification sm : superMods)
{
boolean add = true;
for (final Modification m : mods)
{
if (m.getAttributeName().equalsIgnoreCase(sm.getAttributeName()))
{
add = false;
break;
}
}
if (add)
{
modsToAdd.add(sm);
}
}
mods.addAll(modsToAdd);
}
return Collections.unmodifiableList(mods);
}
/**
* Retrieves a filter that will match any entry containing the structural and
* auxiliary classes for this object type.
*
* @return A filter that will match any entry containing the structural and
* auxiliary classes for this object type.
*/
@NotNull()
public Filter createBaseFilter()
{
if (auxiliaryClasses.length == 0)
{
return Filter.createEqualityFilter("objectClass", structuralClass);
}
else
{
final ArrayList comps =
new ArrayList<>(1+auxiliaryClasses.length);
comps.add(Filter.createEqualityFilter("objectClass", structuralClass));
for (final String s : auxiliaryClasses)
{
comps.add(Filter.createEqualityFilter("objectClass", s));
}
return Filter.createANDFilter(comps);
}
}
/**
* Retrieves a filter that can be used to search for entries matching the
* provided object. It will be constructed as an AND search using all fields
* with a non-{@code null} value and that have a {@link LDAPField} annotation
* with the {@code inFilter} element set to {@code true}, and all getter
* methods that return a non-{@code null} value and have a
* {@link LDAPGetter} annotation with the {@code inFilter} element set to
* {@code true}.
*
* @param o The object for which to create the search filter.
*
* @return A filter that can be used to search for entries matching the
* provided object.
*
* @throws LDAPPersistException If it is not possible to construct a search
* filter for some reason (e.g., because the
* provided object does not have any
* non-{@code null} fields or getters that are
* marked for inclusion in filters).
*/
@NotNull()
public Filter createFilter(@NotNull final T o)
throws LDAPPersistException
{
final AtomicBoolean addedRequiredOrAllowed = new AtomicBoolean(false);
final Filter f = createFilter(o, addedRequiredOrAllowed);
if (! addedRequiredOrAllowed.get())
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_FILTER_MISSING_REQUIRED_OR_ALLOWED.get());
}
return f;
}
/**
* Retrieves a filter that can be used to search for entries matching the
* provided object. It will be constructed as an AND search using all fields
* with a non-{@code null} value and that have a {@link LDAPField} annotation
* with the {@code inFilter} element set to {@code true}, and all getter
* methods that return a non-{@code null} value and have a
* {@link LDAPGetter} annotation with the {@code inFilter} element set to
* {@code true}.
*
* @param o The object for which to create the search
* filter.
* @param addedRequiredOrAllowed Indicates whether any filter elements from
* required or allowed fields or getters have
* been added to the filter yet.
*
* @return A filter that can be used to search for entries matching the
* provided object.
*
* @throws LDAPPersistException If it is not possible to construct a search
* filter for some reason (e.g., because the
* provided object does not have any
* non-{@code null} fields or getters that are
* marked for inclusion in filters).
*/
@NotNull()
private Filter createFilter(@NotNull final T o,
@NotNull final AtomicBoolean addedRequiredOrAllowed)
throws LDAPPersistException
{
final ArrayList attrs = new ArrayList<>(5);
attrs.add(objectClassAttribute);
for (final FieldInfo i : requiredFilterFields)
{
final Attribute a = i.encode(o, true);
if (a == null)
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_FILTER_MISSING_REQUIRED_FIELD.get(
i.getField().getName()));
}
else
{
attrs.add(a);
addedRequiredOrAllowed.set(true);
}
}
for (final GetterInfo i : requiredFilterGetters)
{
final Attribute a = i.encode(o);
if (a == null)
{
throw new LDAPPersistException(
ERR_OBJECT_HANDLER_FILTER_MISSING_REQUIRED_GETTER.get(
i.getMethod().getName()));
}
else
{
attrs.add(a);
addedRequiredOrAllowed.set(true);
}
}
for (final FieldInfo i : alwaysAllowedFilterFields)
{
final Attribute a = i.encode(o, true);
if (a != null)
{
attrs.add(a);
addedRequiredOrAllowed.set(true);
}
}
for (final GetterInfo i : alwaysAllowedFilterGetters)
{
final Attribute a = i.encode(o);
if (a != null)
{
attrs.add(a);
addedRequiredOrAllowed.set(true);
}
}
for (final FieldInfo i : conditionallyAllowedFilterFields)
{
final Attribute a = i.encode(o, true);
if (a != null)
{
attrs.add(a);
}
}
for (final GetterInfo i : conditionallyAllowedFilterGetters)
{
final Attribute a = i.encode(o);
if (a != null)
{
attrs.add(a);
}
}
final ArrayList comps = new ArrayList<>(attrs.size());
for (final Attribute a : attrs)
{
for (final ASN1OctetString v : a.getRawValues())
{
comps.add(Filter.createEqualityFilter(a.getName(), v.getValue()));
}
}
if (superclassHandler != null)
{
final Filter f =
superclassHandler.createFilter(o, addedRequiredOrAllowed);
if (f.getFilterType() == Filter.FILTER_TYPE_AND)
{
comps.addAll(Arrays.asList(f.getComponents()));
}
else
{
comps.add(f);
}
}
return Filter.createANDFilter(comps);
}
}