SearchResultEntryProtocolOp.java revision 998747bfaaa3c6b28bbfaf0e282e6c0ccbf46bc0
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License, Version 1.0 only
* (the "License"). You may not use this file except in compliance
* with the License.
*
* You can obtain a copy of the license at legal-notices/CDDLv1_0.txt
* or http://forgerock.org/license/CDDLv1.0.html.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at legal-notices/CDDLv1_0.txt.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information:
* Portions Copyright [yyyy] [name of copyright owner]
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*
*
* Copyright 2006-2009 Sun Microsystems, Inc.
* Portions Copyright 2014-2015 ForgeRock AS
*/
package org.opends.server.protocols.ldap;
import static org.opends.server.protocols.ldap.LDAPConstants.*;
import static org.opends.server.util.ServerConstants.*;
import static org.opends.server.util.StaticUtils.*;
import java.io.IOException;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import org.opends.server.core.DirectoryServer;
import org.forgerock.opendj.io.ASN1Writer;
import org.opends.server.types.Attribute;
import org.opends.server.types.AttributeBuilder;
import org.opends.server.types.AttributeType;
import org.forgerock.opendj.ldap.ByteString;
import org.opends.server.types.DN;
import org.opends.server.types.Entry;
import org.opends.server.types.LDAPException;
import org.opends.server.types.ObjectClass;
import org.opends.server.types.SearchResultEntry;
import org.opends.server.util.Base64;
/**
* This class defines the structures and methods for an LDAP search result entry
* protocol op, which is used to return entries that match the associated search
* criteria.
*/
public class SearchResultEntryProtocolOp
extends ProtocolOp
{
// The set of attributes for this search entry.
private LinkedList<LDAPAttribute> attributes;
// The DN for this search entry.
private final DN dn;
// The underlying search result entry.
private SearchResultEntry entry;
// The LDAP version (determines how attribute options are handled).
private final int ldapVersion;
/**
* Creates a new LDAP search result entry protocol op with the specified DN
* and no attributes.
*
* @param dn The DN for this search result entry.
*/
public SearchResultEntryProtocolOp(DN dn)
{
this(dn, null, null, 3);
}
/**
* Creates a new LDAP search result entry protocol op with the specified DN
* and set of attributes.
*
* @param dn The DN for this search result entry.
* @param attributes The set of attributes for this search result entry.
*/
public SearchResultEntryProtocolOp(DN dn,
LinkedList<LDAPAttribute> attributes)
{
this(dn, attributes, null, 3);
}
/**
* Creates a new search result entry protocol op from the provided search
* result entry.
*
* @param searchEntry The search result entry object to use to create this
* search result entry protocol op.
*/
public SearchResultEntryProtocolOp(SearchResultEntry searchEntry)
{
this(searchEntry.getName(), null, searchEntry, 3);
}
/**
* Creates a new search result entry protocol op from the provided search
* result entry and ldap protocol version.
*
* @param searchEntry The search result entry object to use to create this
* search result entry protocol op.
* @param ldapVersion The version of the LDAP protocol.
*/
public SearchResultEntryProtocolOp(SearchResultEntry searchEntry,
int ldapVersion)
{
this(searchEntry.getName(), null, searchEntry, ldapVersion);
}
// Generic constructor.
private SearchResultEntryProtocolOp(DN dn,
LinkedList<LDAPAttribute> attributes, SearchResultEntry searchEntry,
int ldapVersion)
{
this.dn = dn;
this.attributes = attributes;
this.entry = searchEntry;
this.ldapVersion = ldapVersion;
}
/**
* Retrieves the DN for this search result entry.
*
* @return The DN for this search result entry.
*/
public DN getDN()
{
return dn;
}
/**
* Retrieves the set of attributes for this search result entry. The returned
* list may be altered by the caller.
*
* @return The set of attributes for this search result entry.
*/
public LinkedList<LDAPAttribute> getAttributes()
{
LinkedList<LDAPAttribute> tmp = attributes;
if (tmp == null)
{
tmp = new LinkedList<LDAPAttribute>();
if (entry != null)
{
if (ldapVersion == 2)
{
// Merge attributes having the same type into a single
// attribute.
boolean needsMerge;
Map<AttributeType, List<Attribute>> attrs =
entry.getUserAttributes();
for (Map.Entry<AttributeType, List<Attribute>> attrList : attrs
.entrySet())
{
needsMerge = true;
if (attrList != null && attrList.getValue().size() == 1)
{
Attribute a = attrList.getValue().get(0);
if (!a.hasOptions())
{
needsMerge = false;
tmp.add(new LDAPAttribute(a));
}
}
if (needsMerge)
{
AttributeBuilder builder =
new AttributeBuilder(attrList.getKey());
for (Attribute a : attrList.getValue())
{
builder.addAll(a);
}
tmp.add(new LDAPAttribute(builder.toAttribute()));
}
}
attrs = entry.getOperationalAttributes();
for (Map.Entry<AttributeType, List<Attribute>> attrList : attrs
.entrySet())
{
needsMerge = true;
if (attrList != null && attrList.getValue().size() == 1)
{
Attribute a = attrList.getValue().get(0);
if (!a.hasOptions())
{
needsMerge = false;
tmp.add(new LDAPAttribute(a));
}
}
if (needsMerge)
{
AttributeBuilder builder =
new AttributeBuilder(attrList.getKey());
for (Attribute a : attrList.getValue())
{
builder.addAll(a);
}
tmp.add(new LDAPAttribute(builder.toAttribute()));
}
}
}
else
{
// LDAPv3
for (List<Attribute> attrList : entry.getUserAttributes()
.values())
{
for (Attribute a : attrList)
{
tmp.add(new LDAPAttribute(a));
}
}
for (List<Attribute> attrList : entry
.getOperationalAttributes().values())
{
for (Attribute a : attrList)
{
tmp.add(new LDAPAttribute(a));
}
}
}
}
attributes = tmp;
// Since the attributes are mutable, null out the entry for consistency.
entry = null;
}
return attributes;
}
/**
* Retrieves the BER type for this protocol op.
*
* @return The BER type for this protocol op.
*/
@Override
public byte getType()
{
return OP_TYPE_SEARCH_RESULT_ENTRY;
}
/**
* Retrieves the name for this protocol op type.
*
* @return The name for this protocol op type.
*/
@Override
public String getProtocolOpName()
{
return "Search Result Entry";
}
/**
* Writes this protocol op to an ASN.1 output stream.
*
* @param stream The ASN.1 output stream to write to.
* @throws IOException If a problem occurs while writing to the stream.
*/
@Override
public void write(ASN1Writer stream) throws IOException
{
stream.writeStartSequence(OP_TYPE_SEARCH_RESULT_ENTRY);
stream.writeOctetString(dn.toString());
stream.writeStartSequence();
SearchResultEntry tmp = entry;
if (ldapVersion == 3 && tmp != null)
{
for (List<Attribute> attrList : tmp.getUserAttributes()
.values())
{
for (Attribute a : attrList)
{
writeAttribute(stream, a);
}
}
for (List<Attribute> attrList : tmp.getOperationalAttributes()
.values())
{
for (Attribute a : attrList)
{
writeAttribute(stream, a);
}
}
}
else
{
for (LDAPAttribute attr : getAttributes())
{
attr.write(stream);
}
}
stream.writeEndSequence();
stream.writeEndSequence();
}
/**
* Appends a string representation of this LDAP protocol op to the provided
* buffer.
*
* @param buffer The buffer to which the string should be appended.
*/
@Override
public void toString(StringBuilder buffer)
{
buffer.append("SearchResultEntry(dn=");
dn.toString(buffer);
buffer.append(", attrs={");
LinkedList<LDAPAttribute> tmp = getAttributes();
if (! tmp.isEmpty())
{
Iterator<LDAPAttribute> iterator = tmp.iterator();
iterator.next().toString(buffer);
while (iterator.hasNext())
{
buffer.append(", ");
iterator.next().toString(buffer);
}
}
buffer.append("})");
}
/**
* Appends a multi-line string representation of this LDAP protocol op to the
* provided buffer.
*
* @param buffer The buffer to which the information should be appended.
* @param indent The number of spaces from the margin that the lines should
* be indented.
*/
@Override
public void toString(StringBuilder buffer, int indent)
{
StringBuilder indentBuf = new StringBuilder(indent);
for (int i=0 ; i < indent; i++)
{
indentBuf.append(' ');
}
buffer.append(indentBuf);
buffer.append("Search Result Entry");
buffer.append(EOL);
buffer.append(indentBuf);
buffer.append(" DN: ");
dn.toString(buffer);
buffer.append(EOL);
buffer.append(" Attributes:");
buffer.append(EOL);
for (LDAPAttribute attribute : getAttributes())
{
attribute.toString(buffer, indent+4);
}
}
/**
* Appends an LDIF representation of the entry to the provided buffer.
*
* @param buffer The buffer to which the entry should be appended.
* @param wrapColumn The column at which long lines should be wrapped.
*/
public void toLDIF(StringBuilder buffer, int wrapColumn)
{
// Add the DN to the buffer.
String dnString = dn.toString();
int colsRemaining;
if (needsBase64Encoding(dnString))
{
dnString = Base64.encode(getBytes(dnString));
buffer.append("dn:: ");
colsRemaining = wrapColumn - 5;
}
else
{
buffer.append("dn: ");
colsRemaining = wrapColumn - 4;
}
int dnLength = dnString.length();
if ((dnLength <= colsRemaining) || (colsRemaining <= 0))
{
buffer.append(dnString);
buffer.append(EOL);
}
else
{
buffer.append(dnString, 0, colsRemaining);
buffer.append(EOL);
int startPos = colsRemaining;
while ((dnLength - startPos) > (wrapColumn - 1))
{
buffer.append(" ");
buffer.append(dnString, startPos, (startPos+wrapColumn-1));
buffer.append(EOL);
startPos += (wrapColumn-1);
}
if (startPos < dnLength)
{
buffer.append(" ");
buffer.append(dnString.substring(startPos));
buffer.append(EOL);
}
}
// Add the attributes to the buffer.
for (LDAPAttribute a : getAttributes())
{
String name = a.getAttributeType();
int nameLength = name.length();
for (ByteString v : a.getValues())
{
String valueString;
if (needsBase64Encoding(v))
{
valueString = Base64.encode(v);
buffer.append(name);
buffer.append(":: ");
colsRemaining = wrapColumn - nameLength - 3;
}
else
{
valueString = v.toString();
buffer.append(name);
buffer.append(": ");
colsRemaining = wrapColumn - nameLength - 2;
}
int valueLength = valueString.length();
if ((valueLength <= colsRemaining) || (colsRemaining <= 0))
{
buffer.append(valueString);
buffer.append(EOL);
}
else
{
buffer.append(valueString, 0, colsRemaining);
buffer.append(EOL);
int startPos = colsRemaining;
while ((valueLength - startPos) > (wrapColumn - 1))
{
buffer.append(" ");
buffer.append(valueString, startPos, (startPos+wrapColumn-1));
buffer.append(EOL);
startPos += (wrapColumn-1);
}
if (startPos < valueLength)
{
buffer.append(" ");
buffer.append(valueString.substring(startPos));
buffer.append(EOL);
}
}
}
}
// Make sure to add an extra blank line to ensure that there will be one
// between this entry and the next.
buffer.append(EOL);
}
/**
* Converts this protocol op to a search result entry.
*
* @return The search result entry created from this protocol op.
*
* @throws LDAPException If a problem occurs while trying to create the
* search result entry.
*/
public SearchResultEntry toSearchResultEntry()
throws LDAPException
{
if (entry != null)
{
return entry;
}
HashMap<ObjectClass,String> objectClasses =
new HashMap<ObjectClass,String>();
HashMap<AttributeType,List<Attribute>> userAttributes =
new HashMap<AttributeType,List<Attribute>>();
HashMap<AttributeType,List<Attribute>> operationalAttributes =
new HashMap<AttributeType,List<Attribute>>();
for (LDAPAttribute a : getAttributes())
{
Attribute attr = a.toAttribute();
AttributeType attrType = attr.getAttributeType();
if (attrType.isObjectClass())
{
for (ByteString os : a.getValues())
{
String ocName = os.toString();
ObjectClass oc =
DirectoryServer.getObjectClass(toLowerCase(ocName));
if (oc == null)
{
oc = DirectoryServer.getDefaultObjectClass(ocName);
}
objectClasses.put(oc ,ocName);
}
}
else if (attrType.isOperational())
{
List<Attribute> attrs = operationalAttributes.get(attrType);
if (attrs == null)
{
attrs = new ArrayList<Attribute>(1);
attrs.add(attr);
operationalAttributes.put(attrType, attrs);
}
else
{
attrs.add(attr);
}
}
else
{
List<Attribute> attrs = userAttributes.get(attrType);
if (attrs == null)
{
attrs = new ArrayList<Attribute>(1);
attrs.add(attr);
userAttributes.put(attrType, attrs);
}
else
{
// Check to see if any of the existing attributes in the list have the
// same set of options. If so, then add the values to that attribute.
boolean attributeSeen = false;
for (int i = 0; i < attrs.size(); i++) {
Attribute ea = attrs.get(i);
if (ea.optionsEqual(attr.getOptions()))
{
AttributeBuilder builder = new AttributeBuilder(ea);
builder.addAll(attr);
attrs.set(i, builder.toAttribute());
attributeSeen = true;
}
}
if (!attributeSeen)
{
// This is the first occurrence of the attribute and options.
attrs.add(attr);
}
}
}
}
Entry entry = new Entry(dn, objectClasses, userAttributes,
operationalAttributes);
return new SearchResultEntry(entry);
}
// Write an attribute without converting to an LDAPAttribute.
private void writeAttribute(ASN1Writer stream, Attribute a)
throws IOException
{
stream.writeStartSequence();
stream.writeOctetString(a.getNameWithOptions());
stream.writeStartSet();
for (ByteString value : a)
{
stream.writeOctetString(value);
}
stream.writeEndSequence();
stream.writeEndSequence();
}
}