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Oracle® Identity Management Application Developer's Guide
10g (

Part Number B15997-01
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5 Using the Java API Extensions to JNDI

This chapter explains how to use Java extensions to the standard directory APIs to perform many of the operations introduced in Chapter 3. The chapter presents use cases. The Oracle extensions to the standard APIs are documented in full in Oracle Internet Directory API Reference.

The chapter contains the following topics:

5.1 Sample Code

Sample code is available at this URL:

Look for the Oracle Identity Management link under Sample Applications–Oracle Application Server.

5.2 Installing the Java Extensions

The Java extensions are installed along with the standard Java APIs when the LDAP client is installed. The APIs and their extensions are found at $ORACLE_HOME/jlib/ldapjclnt10.jar.

5.3 Using the Package to Model LDAP Objects

In Java, LDAP entities—users, groups, realms, and applications—are modeled as Java objects instead of as handles. This modeling is done in the package. All other utility functionality is modeled either as individual objects—as, for example, GUID—or as static member functions of a utility class.

For example, to authenticate a user, an application must follow these steps:

  1. Create oracle.ldap.util.User object, given the user DN.

  2. Create a DirContext JNDI object with all of the required properties, or get one from a pool of DirContext objects.

  3. Invoke the User.authenticateUser method, passing in a reference to the DirContext object and the user credentials.

  4. If the DirContext object was retrieved from a pool of existing DirContext objects, return it to that pool.

Unlike their C and PL/SQL counterparts, Java programmers do not have to explicitly free objects. The Java garbage collection mechanism performs this task.

5.4 The Classes PropertySetCollection, PropertySet, and Property

Many of the methods in the user, subscriber, and group classes return a PropertySetCollection object. The object represents a collection of one or more LDAP entries. Each of these entries is represented by a PropertySet object, identified by a DN. A property set can contain attributes, each represented as a property. A property is a collection of one or more values for the particular attribute it represents. An example of the use of these classes follows:

PropertySetCollection psc = Util.getGroupMembership( ctx,
                                                     true );
    // for loop to go through each PropertySet
    for (int i = 0; i < psc.size(); i++ ) {

    PropertySet ps = psc.getPropertySet(i);

   // Print the DN of each PropertySet
   System.out.println("dn:  " + ps .getDN());

   // Get the values for the "objectclass" Property
   Property objectclass = ps.getProperty( "objectclass" );

   // for loop to go through each value of Property "objectclass"
   for (int j = 0; j< objectclass.size(); j++) {

       // Print each "objectclass" value
       System.out.println("objectclass:  " + objectclass.getValue(j));

The entity myuser is a user object. The psc object contains all the nested groups that myuser belongs to. The code loops through the resulting entries and prints out all the object class values of each entry.

5.5 Managing Users

All user-related functionality is abstracted in a Java class called oracle.ldap.util.User. The process works like this:

  1. Construct a oracle.ldap.util.User object based on a DN, GUID, or simple name.

  2. Invoke User.authenticateUser(DirContext, int, Object) to authenticate the user if necessary.

  3. Invoke User.getProperties(DirContext) to get the attributes of the user entry.

  4. Invoke User.getExtendedProperties(DirContext, int, String[]) to get the extended properties of the user. int is either shared or application-specific. String[] is the object that represents the type of property desired. If String[] is null, all properties in a given category are retrieved.

  5. Invoke PropertySetCollection.getProperties(int) to get the metadata required to parse the properties returned in step 4.

  6. Parse the extended properties and continue with application-specific logic. This parsing is also performed by application-specific logic.

5.6 Authenticating Users

User authentication is a common LDAP operation that compares the credentials that a user provides at login with the user's credentials in the directory. Oracle Internet Directory supports the following:

The following code fragment shows how the API is used to authenticate a user:

// User user1 - is a valid User Object
                    User.CREDTYPE_PASSWD, "welcome");
                // or
                // user1.authenticateUser(ctx, <any
attribute>, <attribute value>);
        catch (UtilException ue)
                // Handle the password policy error
                if (ue instanceof PasswordExpiredException)
                        // do something
                else if (ue instanceof GraceLoginException)
                        // do something

5.7 Creating Users

The subscriber class uses the createUser() method to programmatically create users. The object classes required by a user entry are configurable through Oracle Delegated Administration Services. The createUser() method assumes that the client understands the requirement and supplies the values for the mandatory attributes during user creation. If the programmer does not supply the required information the server will return an error.

The following snippet of sample code demonstrates the usage.

// Subscriber sub is a valid Subscriber object
// DirContext ctx is a valid DirContext
// Create ModPropertySet object to define all the attributes and their values.
ModPropertySet mps = new ModPropertySet();
mps.addProperty(LDIF.ATTRIBUTE_CHANGE_TYPE_ADD,"cn", "Anika");
mps.addProperty(LDIF.ATTRIBUTE_CHANGE_TYPE_ADD,"sn", "Anika");
// Create user by specifying the nickname and the ModPropertySet just defined
User newUser = sub.createUser( ctx, mps);
// Print the newly created user DN
System.out.println( newUser.getDN(ctx) );
// Perform other operations with this new user

5.8 Retrieving User Objects

The subscriber class offers the getUser() method to replace the public constructors of the User class. A user object is returned based on the specified information.

The following is a piece of sample code demonstrating the usage:

// DirContext ctx is contains a valid directory connection with
sufficient privilege to perform the operations
// Creating RootOracleContext object
RootOracleContext roc = new RootOracleContext(ctx);
// Obtain a Subscriber object representing the default
Subscriber sub = roc.getSubscriber(ctx,
Util.IDTYPE_DEFAULT, null, null);
// Obtain a User object representing the user whose
nickname is "Anika"
User user1 = sub.getUser(ctx, Util.IDTYPE_SIMPLE, "Anika",
// Do work with this user
The getUser() method can retrieve users based on DN, GUID
and simple name.  A getUsers() method is also available to
perform a filtered search to return more than one user at a
time.  The returned object is an array of User objects.
For example,
// Obtain an array of User object where the user's nickname
starts with "Ani"
User[] userArr = sub.getUsers(ctx, Util.IDTYPE_SIMPLE,
"Ani", null);
// Do work with the User array

5.9 Retrieving Objects from Realms

This section describes how the Java API can be used to retrieve objects in identity management realms.

The RootOracleContext class represents the root Oracle Context. Much of the information needed for identity management realm creation is stored within the root Oracle Context. The RootOracleContext class offers the getSubscriber() method. It replaces the public constructors of the subscriber class and returns an identity management realm object based on the specified information.

The following is a piece of sample code demonstrating the usage:

// DirContext ctx contains a valid directory
// connection with sufficient privilege to perform the
// operations
// Creating RootOracleContext object
RootOracleContext roc = new RootOracleContext(ctx);
// Obtain a Subscriber object representing the
// Subscriber with simple name "Oracle"
Subscriber sub = roc.getSubscriber(ctx,
Util.IDTYPE_SIMPLE, "Oracle", null);
// Do work with the Subscriber object

5.10 Example: Search for OracleAS Single Sign-On Login Name

The following example shows how to find a user's login name when you have the simple name, GUID, or DN. The Oracle Application Server Single Sign-On login name is also referred to as nickname.

There are two parts to this example:

  1. Determine which attribute is used to store the nickname in this realm.

  2. Retrieve the User object and determine the value of the nickname attribute.

import javax.naming.*;
import javax.naming.ldap.*;
import oracle.ldap.util.jndi.*;
import oracle.ldap.util.*;
public class NickNameSearch {
   public static void main(String[] args)
      throws Exception
      InitialLdapContext ctx = ConnectionUtil.getDefaultDirCtx( args[0],
                                     args[1], args[2],args[3]);
      RootOracleContext roc=new RootOracleContext(ctx);
      Subscriber sub = null;
      sub = roc.getSubscriber(ctx, Util.IDTYPE_DEFAULT, null, null) ;
      PropertySetCollection psc = sub.getProperties(ctx, 
                                     Subscriber.USER_NAMING_PROPERTIES, null);
      String nickNameAttribute = null;
          nickNameAttribute = (String) psc.getPropertySet(0).getProperty(Subscriber.USER_NAMING_ATTR_SIMPLE).getValue(0);
      catch (Exception e)
         // unable to retrieve the attribute name
      System.out.println("Nickname attribute: " + nickNameAttribute);      
      // Retrieve user using simple name, guid or DN
      User user = sub.getUser(ctx, Util.IDTYPE_SIMPLE,"orcladmin", null);
      System.out.println("user DN: " + user.getDN(ctx));
      // Retrieve nickname value using User object
      psc = user.getProperties(ctx, new String[]{ nickNameAttribute });
      String nickName = null;
          nickName = (String) psc.getPropertySet(0).getProperty(nickNameAttribute).getValue(0);
      catch (Exception e)
         // unable to retrieve the attribute value 
      System.out.println("Nickname : " + nickName);      

5.11 Discovering a Directory Server

A new Java class, the public class, has been introduced:

public class oracle.ldap.util.discovery.DiscoveryHelper

This class provides a method for discovering specific information from the specified source.

Table 5-1 Methods for Directory Server Discovery

Method Description

Discovers the specific information from a given source


Sets the properties required for discovery


Accesses the value of properties

Two new methods are added to the existing Java class oracle.ldap.util.jndi.ConnectionUtil:

5.12 Example: Discovering a Directory Server

The following is a sample Java program for directory server discovery:

import java.util.*;
import java.lang.*;
import oracle.ldap.util.discovery.*;
import oracle.ldap.util.jndi.*;
public class dsdtest
  public static void main(String s[]) throws Exception
    HashMap reshdl = new HashMap();
    String result = new String();
    Object resultObj = new Object();
    DiscoveryHelper disco = new
// Set the property for the DNS_DN
// Set the property for the DNS_DISCOVER_METHOD
// Set the property for the SSLMODE
// Call the discover method
if (res!=0)
   System.out.println("Error Code returned by the discover method is :"+res) ;
// Print the results
public static void printReshdl(HashMap reshdl)
  ArrayList result = (ArrayList)reshdl.get(DiscoveryHelper.DIR_SERVERS);
if (result != null)
  if (result.size() == 0) return;
  System.out.println("The hostnames are :-");
  for (int i = 0; i< result.size();i++)
      String host = (String)result.get(i);

5.13 Using DIGEST-MD5 to Perform SASL Authentication

When using JNDI to create a SASL connection, you must set these javax.naming.Context properties:

The latter sets the principal name. This name is a server-specific format. It can be either of the following:


The SASL DN must be normalized before it is passed to the API that calls the SASL bind. To generate SASL verifiers, Oracle Internet Directory supports only normalized DNs.

5.14 Example: Using SASL Digest-MD5 auth-int and auth-conf Modes

The following code provides an example of Java LDAP/JNDI using SASL Digest-MD5.

/* $Header: 27-oct-2005.11:26:59 qdinh Exp $ */
/* Copyright (c) 2003, 2005, Oracle. All rights reserved.  */
   <short description of component this file declares/defines>
   <list of private classes defined - with one-line descriptions>
   <other useful comments, qualifications, and so on.>
   qdinh       04/23/03 - Creation
*  @version $Header: 27-oct-2005.11:26:59 qdinh Exp $
*  @author  qdinh   *  @since   release specific (what release of product did this appear in)
package oracle.ldap.util.jndi;
import javax.naming.*;
import javax.naming.ldap.*;
import oracle.ldap.util.jndi.*;
import oracle.ldap.util.*;
import java.lang.*;
import java.util.*;  
public class LdapSasl
   public static void main( String[] args)
       throws Exception
    int numofargs;
    numofargs = args.length;
    Hashtable hashtable = new Hashtable();
    // Look through System Properties for Context Factory if it is available
    // then set the CONTEXT factory only if it has not been set
    // in the environment -
    // set default to com.sun.jndi.ldap.LdapCtxFactory
    // possible valid arguments
    // args[0] - hostname
    // args[1] - port number
    // args[2] - Entry DN
    // args[3] - Entry Password
    // args[4] - QoP [ auth | auth-int | auth-conf ]
    // args[5] - SASL Realm
    // args[6] - Cipher Choice
    //    If QoP == "auth-conf" then args[6] cipher choice can be
    //     - des
    //     - 3des
    //     - rc4
    //     - rc4-56
    //     - rc4-40
    hashtable.put(Context.PROVIDER_URL, "ldap://"+args[0]+":"+args[1]);
        hashtable.put(Context.SECURITY_AUTHENTICATION, "DIGEST-MD5");
    System.out.println("hash put security dn: " + args[2]);
    hashtable.put(Context.SECURITY_PRINCIPAL, args[2] );
    hashtable.put(Context.SECURITY_CREDENTIALS, args[3] );
    // For Quality of Protection modes
    // 1. Authentication and Data Integrity Mode - "auth-int"
    // 2. Authentication and Data Confidentiality Mode  "auth-conf"
    // hashtable.put("",args[4]);
    hashtable.put("", args[5]);
    // Setup Quality of Protection
    // System.out.println("hash sasl.qop: " + args[4]);
    if (numofargs > 4)
    if (args[4].equalsIgnoreCase("AUTH-CONF"))
        //  Setup a cipher choice only if QoP == "auth-conf"
        String strength = "high";
        String cipher = new String(args[6]);
                if (cipher.compareToIgnoreCase("rc4-40") == 0)
        strength = "low";
        else if (cipher.compareToIgnoreCase("rc4-56") == 0 ||
             cipher.compareToIgnoreCase("des")== 0 )
        strength = "medium";
        else if (cipher.compareToIgnoreCase("3des") == 0 ||
             cipher.compareToIgnoreCase("rc4") == 0)
        strength = "high";
        // setup cipher choice
        System.out.println("hash sasl.strength:"+strength);
    // set maxbuffer length if necessary
    if (numofargs > 7 && !"".equals(args[6]))
        hashtable.put("", args[5].toString());
    // Enable Debug --
    // hashtable.put("com.sun.jndi.ldap.trace.ber", System.err);
    LdapContext ctx = new InitialLdapContext(hashtable,null);
    // At this stage - SASL Digest -MD5 has been successfully
    System.out.println("sasl bind successful");
    // Ldap Search Scope Options
    // - Search base - OBJECT_SCOPE
    // - One Level   - ONELEVEL_SCOPE
    // - Sub Tree    - SUBTREE_SCOPE
        // Doing an LDAP Search
    PropertySetCollection psc = Util.ldapSearch(ctx,"o=oracle,dc=com","objectclass=*",SearchControls.OBJECT_SCOPE,
                           new String[] {"*"});
      // Print out the serach result
 }                                                              }