Below are the steps involved in building a Java Application that accesses an LDAP Directory Server.
The first two steps are covered in the previous section. The rest of this lesson discusses steps three and part of step four. The step five that involves writing a JNDI application is covered in the next lesson that shows how to write JNDI applications to perform various operations on the directory.
Once you've set up the directory, or have directed your program to communicate with an existing directory, what sort of information can you expect to find there?
The directory can be viewed as consisting of name-to-object bindings. That is, each object in the directory has a corresponding name. You can retrieve an object in the directory by looking up its name.
Also stored in the directory are attributes. An object in the directory, in addition to having a name, also has an optional set of attributes. You can ask the directory for an object's attributes, as well as ask it to search for an object that has certain attributes.
A schema specifies the types of objects that a directory may contain. This tutorial populates the directory with entries, some of which require special schema definitions. To accommodate these entries, you must first either turn off schema-checking in the server or add the schema files that accompany this tutorial to the server. Both of these tasks are typically performed by the directory server's administrator.
This tutorial comes with two schema files that must be installed:
The format of these files is a formal description that possibly cannot be directly copied and pasted into server configuration files. Specifically, the attribute syntaxes are described in terms of RFC 2252.
Different directory servers have different ways of configuring their schema. This tutorial includes some tools for installing the Java and CORBA schemas on directory servers that permit their schemas to be modified via the LDAP. Following is a list of tasks the tools can perform.
Follow the instructions in the accompanying README file to run these programs.
Note: Windows Active Directory. Active Directory manages its schema by using an internal format. To update the schema, you can use either the Active Directory Management Console snap-in, ADSIEdit, or the CreateJavaSchema utility, following the instructions for Active Directory.
In the examples of this trail, the results shown reflect how the LDAP directory has been set up using the configuration file (tutorial.ldif) that accompanies this tutorial. If you are using an existing server, or a server with a different setup, then you might see different results. Before you can load the configuration file (tutorial.ldif) into the directory server, you must follow the instructions for updating the server's schema or you can use ldapadd or ldapmodify command if available on your UNIX system.
For example, using ldapmodify you could do (by plugging in appropriate values for the hostname, administrator DN (-D option), and the password):
ldapmodify -a -c -v -h hostname -p 389\ -D "cn=Administrator, cn=users, dc=xxx, dc=xxx"\ -w passwd -f tutorial.ldif
Installation Note: Access Control. Different directory servers handle access control differently. Some examples in this tutorial perform updates to the directory. Also, the part of the namespace where you have installed the tutorial might have read access restrictions. Therefore, you need to take server-specific actions to make the directory readable and/or updatable in order for those examples to work. For the Sun Java Directory Server add the aci entry suggested in the sunds.aci.ldif file to the dn: o=JNDITutorial entry to make the entire directory readable and updatable. Alternatively, you may change the examples so that they authenticate to the directory. Details of how to do this are described in the Adavanced Topics for LDAP users lesson.
Installation Note: Namespace Setup. The entries in the tutorial.ldif file use the distinguished name (DN) "o=JNDITutorial" for the root naming context. If you have not configured your directory server to have "o=JNDITutorial" as a root naming context, then your attempt to import tutorial.ldif will fail. The easiest way to get around this problem is to add the DN of an existing root naming context to each "dn:" line in the tutorial.ldif file. For example, if your server already has the root naming context "dc=imc,dc=org", then you should change the line
dn: o=JNDITutorial
to
dn: o=JNDITutorial, dc=imc, dc=org
Make this change for each line that begins with "dn:" in the file. Then, in all of the examples in this tutorial, wherever it uses "o=JNDITutorial", use "o=JNDITutorial,dc=imc,dc=org" instead.
Installation Note: File Format. Depending on the operating system platform that you are using, you might need to edit tutorial.ldif so that it contains the correct newline characters for that platform. For example, if you find that tutorial.ldif contains Windows-style newline characters (CRLF) and you are importing this file into a directory server that is running on a Unix platform, then you need to edit the file and replace CRLF with LF. A symptom of this problem is that the directory server rejects all of the entries in tutorial.ldif.
Installation Note: Windows Active Directory.
objectclass: organizationalUnit possible superiors: domainDNS inetOrgPerson organizaton organizationalPerson organizationalUnit person top objectclass: groupOfUniqueNames possible superiors: top objectclass: inetOrgPerson possible superiors: container organizationalPerson person top
# ldifde -i -v -k -f tutorial.ldif