Configuring Kerberos Authentication for Databases with Oracle Unified Directory (OUD)

Use Case:

Centralized user authentication and authorization for the Oracle Databases with the following requirements:

  • Use the existing Microsoft Active Directory for centralized authorization i.e., role management
  • Should NOT require changes to Active Directory schema
  • Should NOT require placing any DLLs on Active Directory domain controllers
  • Should NOT synchronize user data to another directory


For above use case, the solution is to configure databases for Kerberos authentication and deploy the Oracle Unified Directory (OUD) proxy for AD with Enterprise User Security for authorization.

Step by step process:


Active Directory & Kerberos Server (Microsoft KDC):

  • Host name: addemo1.ziontech.demo
  • Microsoft Windows Server 2008 R2 Enterprise Edition with Service Pack 1
  • Active Directory (incorporating Kerberos Key Distribution Centre (KDC))
  • Realm name: ziontech.demoRealm name: ziontech.demo

Oracle Unified Directory:

  • Host name: oud.ziontech.demo
  • version running on Oracle Enterprise Linux 6

Oracle Database:

  • Host name: db1.ziontech.demo
  • Oracle Enterprise Linux 6Oracle Enterprise Linux 6
  • Oracle11g R2 Server Enterprise Edition Oracle Advanced Security Option (ASO)

Oracle Client:

  • Host name: win7a.ziontech.demo
  • Microsoft Windows 7 64 bitMicrosoft Windows 7 64 bit
  • Oracle11g R211.2.0.4 64 bit Client installation with Oracle Advanced Security Option (ASO)


Section 1: On AD machine

1.1 Create two users (principals in Kerberos terminology)

testuser1, which will be used to connect to DB from client


Second for Oracle DB server,


→ Check password never expires option for sever principal Check password never expires option for sever principal

  • The ‘First Name’ is the fully qualified domain name of the machine the Oracle server is running on. The ‘Full Name’ will automatically be filled in.The ‘Full Name’ will automatically be filled in.

1.2 Create Key Table in Windows 2008 R2

The final step on the Windows 2008 R2 server is to extract a key table for the database server principal. This is done using the ktpass tool.

ktpass.exe -princ oracle/db1.ziontech.demo@ZIONTECH.DEMO -mapuser ZIONTECHDEMO\db1.ziontech.demo -crypto all -pass Welcome9 -out c:\keytab

The resulting keytab file should then be transferred to the machine running Oracle

There is a process on how to validate keytab (read this post). Using this approach, we can avoid lot of troubleshooting upfront by ensuring that the KVNO value is compatible.

As mentioned in above referenced post, perform following ldapsearch query to obtain msDS-KeyVersionNumber from Active Directory.

ldapsearch -h ad.ziontech.demo -p 389 -D "testuser1@ziontech.demo" -w "Welcome1" -b "DC=ziontech,DC=demo" -s sub servicePrincipalName=oracle/db1.ziontech.demo msDS-KeyVersionNumber

The output will look like:


Then, increment value of msDS-KeyVersionNumber by 1 and pass it as a value to the parameter -kvno in ktpass command.

We can even specify specific supported algorithm(s) for crypto parameter and use this version of ktpass instead of above.

ktpass.exe -princ oracle/db1.ziontech.demo@ZIONTECH.DEMO -mapuser ZIONTECHDEMO\db1.ziontech.demo -crypto AES256-CTS-HMAC-SHA1-96 -pass Welcome9 -ptype KRB5_NT_PRINCIPAL -kvno 7 -out c:\keytab

1.3 Create a group

→ Create a group called g1 and add testuser1 to it.


Section 2: On OUD machine

2.1 Configure OUD proxy instance

2.1.1 Install JDK and OUD software. Optionally ODSM

Pretty much standard installation. Accept all defaults.

2.1.2 Invoke OUD proxy set up script:


→ Ensure, to enable SSL In server settingsEnsure, to enable SSL In server settings
→ Select Configure EUS under deployment optionsSelect Configure EUS under deployment options
→ Select Microsoft Active Directory as the backend-server typeSelect Microsoft Active Directory as the backend-server type
→ Add AD server instanceAdd AD server instance
→ Select or specify Naming ContextSelect or specify Naming Context
→ FinishFinish

2.1.3 Post Install steps

Configure the proxy workflow elements using dsconfig tool located in $MW_HOME/Oracle_OUD1/bin

dsconfig set-workflow-element-prop \
--element-name proxy-we1 \
--set remote-root-dn:CN=Administrator,CN=Users,DC=ziontech,DC=demo \
--set remote-root-password:Welcome1 \
--hostname localhost \
--port 6444 \
--trustAll \
--bindDN cn=Directory\ Manager \
--bindPasswordFile pwd.txt \

dsconfig set-workflow-element-prop \
--element-name proxy-we1 \
--add exclude-list:cn=directory\ manager \
--add exclude-list:cn=oraclecontext,dc=ziontech,dc=demo \
--set remote-ldap-server-bind-dn:CN=Administrator,CN=Users,DC=ziontech,DC=demo \
--set remote-ldap-server-bind-password:Welcome1 \
--hostname localhost \
--port 6444 \
--trustAll \
--bindDN cn=directory\ manager \
--bindPasswordFile pwd.txt \


2.1.4 Update the realm information in the OUD configuration:

Locate the LDIF template file at $MW_HOME/Oracle_OUD1/config/EUS/modifyRealm.ldif

Edit the modifyRealm.ldif file as follows:

→ Replace dc=example,dc=com with dc=ziontech,dc=demoReplace dc=example,dc=com with dc=ziontech,dc=demo

→ Replace ou=people and ou=groups with the correct locations of the user and group entries in ADReplace ou=people and ou=groups with the correct locations of the user and group entries in AD

Use the ldapmodify command to update the configuration with the edited LDIF template file, for example:

$ ldapmodify -h localhost -p 1389 -D "cn=directory manager" -j pwd-file -f modifyRealm.ldif


2.2 Perform following changes in OUD proxy

Modify the attribute orclcommonkrbprincipalattribute in the EUS config (cn=OracleContext,<realm>) to the attribute name which stored the Kerberos principal on AD.

Additionally, I modified few other attributes.

$ ldapmodify -h localhost -p 1389 -D "cn=directory manager" -j pwd-file -f modifyConfig.ldif

# cat modifyConfig.ldif

dn: cn=Common,cn=Products,cn=OracleContext,dc=ziontech,dc=demo
changetype: modify
replace: orclCommonKrbPrincipalAttribute
orclCommonKrbPrincipalAttribute: userPrincipalName
dn: cn=Common,cn=Products,cn=OracleContext,dc=ziontech,dc=demo
changetype: modify
replace: orclCommonWindowsPrincipalAttribute
orclCommonWindowsPrincipalAttribute: samaccountname
dn: cn=Common,cn=Products,cn=OracleContext,dc=ziontech,dc=demo
changetype: modify
replace: orclCommonNicknameAttribute
orclCommonNicknameAttribute: samaccountname


Section 3: On DB machine

3.1 Verify that the system settings remote_os_authent=false and os_authent_prefix=”” are configured correctly:

SQL> select value from v$parameter where name = 'os_authent_prefix';
SQL> select value from v$parameter where name = 'remote_os_authent';

If you see something like ops$ for os_authent_prefix, it has to be changed to null using following process:


SQL> create pfile='/tmp/pfile.txt' from spfile;
SQL> shutdown immediate;

Add this to the “/tmp/pfile.txt” file:


Recreate the pfile:

SQL> sqlplus / as sysdba
SQL> create spfile from pfile='/tmp/pfile.txt';
SQL> startup



3.2 Configure SQLNET for Kerberos

Modify sqlnet.ora with following configuration:

ADR_BASE = /app/db1



Create /app/kerberos/krb5.conf with following content:

default_realm = ZIONTECH.DEMO

kdc = addemo1.ziontech.demo:88

.ziontech.demo = ZIONTECH.DEMO
ziontech.demo = ZIONTECH.DEMO


3.3 Configure and Register Database for directory usage

Configure the database to use the directory:

Run netca and then,

1) Select ‘Directory Usage Configuration’
2) Set the Directory Type to ‘Oracle Internet Directory’
3) Set the Hostname, Port, and SSL Port for the OUD Server
4) Select the Oracle Context to use. In this document, the context used is “cn=OracleContext,dc=ziontech,dc=demo”
5) Click Finish.

This will create an ldap.ora file in the $ORACLE_HOME/network/admin directory with following content:

# ldap.ora Network Configuration File: /app/db1/product/11.2.0/dbhome_1/network/admin/ldap.ora
# Generated by Oracle configuration tools.

DIRECTORY_SERVERS= (oud.ziontech.demo:4389:4636)
DEFAULT_ADMIN_CONTEXT = "dc=ziontech,dc=demo"

Registering Database with the Directory:

Run the Database Configuration Assistant (dbca) from the database Oracle Homes to register the database with OID.

Run dbca and then,

1) Click ‘Next’
2) Select ‘Configure Database Options’
3) Select the database from the list – there may then be a short delay.
4) On the Directory Service screen select ‘Yes, register the database’ and enter the username and password of an OUD user who is authorized to register databases. For example a username of ‘cn=Directory Manager’.
Then enter a password to be used for the new database wallet. This wallet is used to store a randomly generated internal password for the database.
5) Click ‘Next’, and the ‘Next’ again on the Database Components screen.
6) Finally click ‘Finished’ on the Connection Mode screen, and ‘OK’ on the pop-up Confirmation window.

3.4 Create test user and role on Database

Create user:

create user testuser1 identified globally as 'CN=testuser1,CN=Users,DC=ziontech,DC=demo';
grant create session to testuser1;

Create global role in the Database:

create role g1 identified globally;

3.5 Create mappings

These can be performed either by using Oracle Enterprise Manager or using a command line alternative tool ‘eusm’ located under $ORACLE_HOME/bin

# Create a role in Directory

eusm createRole enterprise_role=g1 domain_name="OracleDefaultDomain" realm_dn="dc=ziontech,dc=demo" ldap_host="oud.ziontech.demo" ldap_port=1389 ldap_user_dn='cn=Directory\20Manager' ldap_user_password='Welcome1'


# Map the ENT role with DB role

eusm addGlobalRole enterprise_role="g1" domain_name="OracleDefaultDomain" realm_dn="dc=ziontech,dc=demo" database_name="db1" global_role="g1" dbuser="system" dbuser_password="Welcome1" dbconnect_string="db1.ziontech.demo:1521:db1" ldap_host="oud.ziontech.demo" ldap_port=1389 ldap_user_dn='cn=Directory\20Manager' ldap_user_password='Welcome1'


# Grant Role

eusm grantRole enterprise_role="g1" domain_name="OracleDefaultDomain" realm_dn="dc=ziontech,dc=demo" group_dn="CN=g1,CN=Users,DC=ziontech,DC=demo" ldap_host="oud.ziontech.demo" ldap_port=1389 ldap_user_dn='cn=Directory\20Manager' ldap_user_password='Welcome1'


Section 4: On Client Machine

  • Login to Windows 7 client as testuser1 to ZIONTECH.DEMO domain
  • Since client Windows PC is a member of Active Directory Domain, and the user has logged into the Windows machine as a domain user, user should be able to connect to Oracle Database without need for Oracle client.
  • Client is already installed under default location: C:\app\testuser1\product\11.2.0\client_1\

Modify sqlnet.ora to contain following information:


SQLNET.KERBEROS5_CONF =c:\kerberos\krb5.conf


Create krb5.conf in the location defined above:

SQLNET.KERBEROS5_CONF =c:\kerberos\krb5.conf


Create tnsnames.ora


DB1 =
(ADDRESS = (PROTOCOL = TCP)(HOST = db1.ziontech.demo)(PORT = 1521))
(SERVICE_NAME = db1.ziontech.demo)


Connect to Database using SQLplus.


User is automatically logged on to database as Oracle Client uses the internal Windows credentials cache.
Global role is assigned as expected


Keytab Validation

Setting up Kerberos authentication for the Oracle Databases or WNA with Access Manager is so simple if things go as per plan. To ensure smooth build process, it will be very helpful to perform some form of sanity checks wherever possible. One such check in process of Desktop SSO configuration is validating Keytab.

For a Keytab to successfully function the Key Version Number (KVNO) used by the Key Distribution Center (KDC) and the service principal keys stored in keytab file for services hosted on the system must match.

If not, tickets validation and thus end user authentication will fail. When tracing or debugging is enabled on the products using Keytab, messages similar to following will appear suggesting KNVO mismatch:

  • Specified version of key is not available
  • Invalid KNVO for Kerberos authentication

Oracle SQLplus clients configured for Kerberos authentication fail with following message.

ORA-12631: Username retrieval failed

Note that ORA-12631 is a very broad error.

The KVNO can get out of synchronization when a new set of keys is created on the KDC without updating the keytab file with the new keys.

Verification process:

We can verify KNVO using the following process:

From Keytab

On he server, where Keytab is located:

$ klist -k -t /app/kerberos/keytab

The out put will look like:

Service Key Table: /app/kerberos/keytab

Ver     Timestamp                   Principal
6 31-Dec-1969 16:00:00 oracle/db1.ziontech.demo@ZIONTECH.DEMO

If klist command is not available, we can use oklist available under Oracle database  $ORACLE_HOME/bin

From KDC

Most of the enterprises use Microsoft Key Distribution Center (KDC), which is part of the Active Directory domain services. It uses the Active Directory as its account database and the Global Catalog for directing referrals to KDCs in other domains.

The KNVO for an user object in Active Directory is stored under an operation attribute called msDS-KeyVersionNumber. This can be obtained by following LDAP query:

ldapsearch -h ad.ziontech.demo -p 389 -D "testuser1@ziontech.demo" -w "Welcome1" -b "DC=ziontech,DC=demo" -s sub servicePrincipalName=oracle/db1.ziontech.demo msDS-KeyVersionNumber

The output will look like:


Compare value of msDS-KeyVersionNumber with value under Ver in Keytab. They should match. If not, regenerate keytab using ktpass and replace the current keytab file.

In the above ldapsearch command, options represent the following:

-h hostname of the Active Directory server
-p Active Directory LDAP port
-D BindDN. You can use the default admin account or any other service account with proper read privileges
-w Specify password for Bind DN.
-b root of LDAP tree

Change servicePrincipalName value (oracle/db1.ziontech.demo in above example) according to your environment. Usually, it is same as principal (without @REALM part) found in Keytab.


Integrating OUD and EUS: Troubleshooting

Here are some of the commonly seen issues during integrating a database with Directory Services:

Issue 1: The Directory Service tab is not displayed in DBCA

  • Is ldap.ora correctly configured? Compare with the example earlier in this section.

Create an ldap.ora in $ORACLE_HOME/network/admin that points to your directory services instance. The file may be created using the Network Configuration Assistant (netca) or any text editor. Below is an example of the content of the file.

         DIRECTORY_SERVERS= (oud.ziontech.net:1389:1636)
         DEFAULT_ADMIN_CONTEXT = "dc=ziontech,dc=net"
  • Is the correct ldap.ora located in DBCA? Check that the correct ldap.ora is located first in the search path.

Issue 2: DBCA fails to complete registration, Database Configuration Assistant: Error. Unable to create database entry in the directory service. – No Listeners configured 

  1. Check that a copy of the listener.ora exists in the default network admin directory and that it was created via the Oracle network tools (i.e., Net Manager or Net Configuration Assistant).
  2. Check if the environment variables, such as TNS_ADMIN, are configured to point to the correct directory.

Issue 3: DBCA fails to complete registration, Database Configuration Assistant: Error.Unable to create database entry in the directory service

  1. Check if the database is already configured for LDAP Naming resolution. If the entry exists, the DBCA failed to register to OID.
  2. Remove the current LDAP entry before trying to register the database again. A LDAP naming entry have to be deleted using Net Manager.

I will keep updating this post with any new issues that I encounter.


Integrating OUD and EUS: OUD as Proxy

EUS can be enabled for an OUD proxy server during installation or can be configured later if a proxy instance is already existing. In this post, I will cover steps on how to create a new OUD proxy instance for EUS using a GUI and Active Directory as the backend.


  • OUD base product binaries are already installed and a Web Logic domain (optionally) has been configured for ODSM.
  • The Active Directory has user identities to which the OUD will act as proxy.
  • An OUD proxy instance will be now created.

Configuring EUS for an OUD proxy server

Change to OUD_install_dir directory. For example:

cd /opt/app/mw/Oracle_OUD/

Ensure JAVA_HOME environment variable is set to a supported JVM.

export JAVA_HOME=/opt/app/jdk

Set INSTANCE_NAME environment variable.

export INSTANCE_NAME=oud-proxy

Run the oud-proxy-setup command to configure the proxy server installation.


The utility launches the graphical installer.

  1. On the Welcome panel, click Next.
  2. On the Server Settings panel, enter the proxy server’s host name or IP address, LDAP Port, Password for Root DN.
  3. Configure the SSL Port by clicking Configure. Click Next to continue.
  4. In the Deployment Options panel, select Configure EUS from the Configuration Option drop-down menu.Click Next to continue.
  5. Select the backend LDAP server type. In my case, it is Active Directory. Click Next.
  6. Click Add Server and provide Active Directory details.
  7. Enter the naming context.
  8. On the Runtime options panel, click Change to configure any specific JVM settings, or click Next to run the server with the default JVM settings.
  9. Review the installation configuration.
  10. Click Finish to complete the installation.

Screenshots for reference:

oud_proxy1 oud_proxy2 oud_proxy3 oud_proxy4 oud_proxy5 oud_proxy6 oud_proxy7 oud_proxy8 oud_proxy9 oud_proxy10


Configure the EUS content:

  • Once proxy instance is created, we must configure the EUS context for each EUS suffix defined.
  • Take a backup of the eusData.ldif file located at $OUD_install_dir/config/EUS/.
  • Create a file /tmp/password.txt which contains the password of the Root User DN of the OUD.
  • Now edit the eusData.ldif file to  replace every occurrence of dc=example and dc=com by the DN of the EUS suffix, and occurrence of cn=orcladmin by the Root User DN.

Then, import the content of the files by running the following command

$OUD_INSTANCE_ROOT/OUD/bin/import-ldif -n oraclecontext -l eusData.ldif -F --hostname localhost --port 4444 --bindDN "cn=directory manager" --bindPasswordFile /tmp/password.txt


  • Now, login to ODSM and navigate to Data Browser.
  • We must see user identities from an Active Directory through the OUD.

This completes preparing the OUD proxy for EUS. The next steps are to prepare the database and create user mappings.



Integrating OUD and EUS: Users and Groups Mapping

After preparing the OUD and the database for EUS, users from the directory can be authenticated to the database. However, they have to be associated with a schema in the database.

Directory identities are mapped to database schemas. The database schema can be dedicated or a shared schema. Directory groups are mapped to database roles.

Create a shared schema in the database

  • Creating a shared schema in the database enables one to map multiple enterprise users to the same schema.
  • Run the following similar SQL statements on the database to create a user and grant basic connect access.
  • We will then map a subtree from the OUD to this shared schema.
CREATE USER global_ident_schema_user IDENTIFIED GLOBALLY;
GRANT CONNECT TO global_ident_schema_user;


  • Now login to the database Enterprise Manager and select Enterprise User Security under the Server tab.
  • Provide directory manager credentials and login.
  • Click Manage Enterprise Domains, click Configure, and go to the User Schema Mappings tab.
  • Click on Create.
  • Select Subtree and click on torch icon to select all users to map to this shared schema. Click Continue.
  • Now try to login to the database with OUD user credentials.

em1 em2 em3 em4 em5

Creating a dedicated schema in the database

To map a directory user directly to a database schema, the first step is to get the complete DN of this particular user from the OUD.
A complete DN looks like this:

Now, on the database run the following statements to create a user called ldap_nasir locally in the database. This will be authenticated using OID credentials.

create user ldap_nasir identified globally as 'uid=nasir,ou=people,dc=ziontech,dc=net';

We can also alter an existing user in the database so that the user will now use OUD credentials to login.

alter user existing_user identified globally as 'uid=nasir,ou=people,dc=ziontech,dc=net';

Mapping roles

  • Similarly,  we can map database groups and roles under the enterprise roles table and proxy permission.
  • We will now create a global role in the database that allows access to the hr.employees table. The following SQL statements create a global role, hr_access, and grant the necessary privilege to it.
GRANT SELECT ON hr.employees TO hr_access;
  • Next, we create an enterprise role called hr_access and assign the global role to it. We then assign this enterprise role to the enterprise user, nasir. The enterprise role can be created using Enterprise Manager.

To create the enterprise role, hr_access:

  • Log in to Enterprise Manager.
  • Click the Server tab. Under the Security section, click Enterprise User Security.
  • Enter the distinguished name (DN) of a directory user who can administer enterprise users in the User field. Enter the user password in the Password field. Click Login.
  • The Enterprise User Security page appears.
  • Click Manage Enterprise Domains.
  • The Manage Enterprise Domains page appears. This page lists the enterprise domains in the identity management realm.
  • Select the enterprise domain that contains the database. Click Configure.
  • The Configure Domain page appears.
  • Click the Enterprise Roles tab.
  • Click Create.
  • The Create Enterprise Role page appears.
  • Enter hr_access in the Name field.
  • Click Add to add the database global role to the enterprise role.
  • The Search and Select Database Global Roles window is displayed.
  • Select the hr_access global role in your database. Click Select.

Note: You will be required to log in to the database before you can select the global role.

  • Click the Grantees tab. Click Add.
  • Then Select Users or Groups window appears.
  • Select user Nasir. Click Select.
  • Click Continue in the Create Enterprise Role page.
  • Click OK in the Configure Domain page.

The enterprise user, Nasir, can now access the hr.employees table in the database.



Integrating OUD and EUS: Preparing Database

After preparing Oracle Unified Directory (OUD), the database itself must be prepared for Enterprise User Security (EUS). Preparing a database involves configuring the database, registering the database, mapping the user(s) or group(s) to a schema.

Preparing the database

Similar to OUD, there is more than one way to achieve this. We will use GUI.

Configuring the Database with OUD info:

Set the required environment variables for database. For example:

export ORACLE_BASE=/opt/app/db/
export ORACLE_SID=dbdev
export ORACLE_HOME=/opt/app/db/11.2.0

Run Net Configuration Assistant (netca) tool to configure OUD for the database.

On database machine, run:

  1. Welcome screen is displayed.
  2. Select Directory Service Usage Configuration and click Next.
  3. Directory Usage Configuration, Directory Type screen is displayed. Select Oracle Internet Directory as the directory type and click Next.
  4. On next screen, Enter the name of the host on which the OUD server is running, its port, SSL port and click Next.
  5. Select the default Oracle Context to use. Select the one that includes your base dn or you will receive TNS error while running dbca.
  6. Click Finish.

Screenshots for reference:

netca1 netca3netca2



NetCA creates an ldap.ora file in the $ORACLE_HOME/network/admin directory which stores the connection information details  about the directory.

Registering the database with the directory service:

The Database Configuration Assistant (DBCA) tool enables  to register the  database with OUD.

To register the database with the directory: Start DBCA using the dbca command.


  1. Welcome screen is displayed.
  2. Select Configure Database options.
  3. Select the database to which EUS will be configured.
  4. Click Next.
  5. Select Yes; register the database. Provide credentials for OUD and a password for wallet.
  6. Select Dedicated server mode and Click Finish.

Screenshots for reference:

dbca1 dbca2 dbca3

dbca5dbca4 dbca6


Once the database is prepared, we need to associate enterprise users to database. Please refer to this post to learn about various user/group mappings available.


Integrating OUD and EUS


This blog post provides an introduction to the Oracle Unified Directory (OUD), Enterprise User Security (EUS), and its integration. An index of all future posts on OUD and EUS integration will be available here.

What is EUS?

  • Oracle’s EUS enables one to manage database users across the enterprise from a centralized location.
  • Users connect to the Oracle Database by providing credentials stored in the OUD. The database executes LDAP search operations to query user-specific authentication and authorization information.

Benefits of EUS:

  • Improved Productivity
    • Frees user from needing to remember multiple database login names and passwords. Time spent on password reset requests is saved.
    • Saves database administrators’ time. DBAs do not need to manage the same user many times (i.e., in multiple databases).
  • Audit & Compliance
    • Eliminates need to examine each database individually to find out who has which privileges.
  • Security
    • Makes it easy to verify that user access to all databases is disabled and to ensure compliance with password policy requirements.
    • With EUS, user access can be disabled or removed with a single click or action.

High-level steps for EUS & OUD integration:

We can categorize this process into three steps:

  1. Preparing the OUD
  2. Preparing the database
  3. Associating enterprise identities with the database

Preparing the OUD:


  1. User identities stored in the OUD
  2. User identities stored in an external, LDAP-compliant directory service with the OUD used as a proxy server

In a series of posts, I will cover detailed steps of both the above-mentioned integration scenarios. Please click the links below for respective blog posts:

Scenario 1: User identities stored in the OUD
Scenario 2: Using the OUD as a proxy server

Preparing the database:

Database preparation involves configuring and registering the OUD with the database. It can be achieved by using a GUI method or a command line tool.

For the GUI method, click here.

Associating OUD identities with the database:

After preparing the OUD and the database for EUS, users from the directory can be authenticated to the database. However, they have to be associated with a schema in the database. This can be achieved by using Database Control or a command line tool called EUSM.

For Database Control or the EUSM tool and various scenarios, refer to this link.


Commonly seen errors during EUS integration are discussed here.

Need help?

Do you have an EUS OUD integration project? Or, are you migrating from OID to OUD?

If you need consulting help, please reach us at support@ziontech.com.