15.3. Configuring an External LDAP Provider
15.3.1. Configuring an External LDAP Provider (Interactive Setup)
ovirt-engine-extension-aaa-ldap
extension allows users to customize their external directory setup easily. The ovirt-engine-extension-aaa-ldap
extension supports many different LDAP server types, and an interactive setup script is provided to assist you with the setup for most LDAP types.
- You need to know the domain name of the DNS or the LDAP server. Round-robin and failover policies are also supported.
- To set up secure connection between the LDAP server and the Manager, ensure a PEM-encoded CA certificate has been prepared. See Section D.2, “Setting Up SSL or TLS Connections between the Manager and an LDAP Server” for more information.
- Unless anonymous search is supported, a user with permissions to browse all users and groups must be available on the directory server to be used as the search user. Note down the search user's distinguished name (DN). Do not use the administrative user for the directory server.
- Have at least one set of account name and password ready to perform search and login queries to the LDAP server.
Procedure 15.1. Configuring an External LDAP Provider
- On the Red Hat Virtualization Manager, install the LDAP extension package:
# yum install ovirt-engine-extension-aaa-ldap-setup
- Run
ovirt-engine-extension-aaa-ldap-setup
to start the interactive setup:# ovirt-engine-extension-aaa-ldap-setup
- Specify a profile name. The profile name is visible to users on the login page. This example uses
redhat.com
.Note
To rename the profile after the domain has been configured, edit theovirt.engine.aaa.authn.profile.name
attribute in the/etc/ovirt-engine/extensions.d/redhat.com-authn.properties
file. Restart the engine service for the changes to take effect.Please specify profile name that will be visible to users:redhat.com
Figure 15.1. The Administration Portal Login Page
Note
Users need to select the desired profile from the drop-down list when logging in for the first time. The information is then stored in browser cookies and preselected the next time the user logs in. - Select an LDAP type by entering the corresponding number. If you are not sure which schema your LDAP server is, select the standard schema of your LDAP server type. For Active Directory, follow the procedure at Section 15.3.2, “Attaching an Active Directory”.
Available LDAP implementations: 1 - 389ds 2 - 389ds RFC-2307 Schema 3 - Active Directory 4 - IPA 5 - Novell eDirectory RFC-2307 Schema 6 - OpenLDAP RFC-2307 Schema 7 - OpenLDAP Standard Schema 8 - Oracle Unified Directory RFC-2307 Schema 9 - RFC-2307 Schema (Generic) 10 - RHDS 11 - RHDS RFC-2307 Schema 12 - iPlanet Please select: 10
- Press Enter to accept the default and configure domain name resolution for your LDAP server name:
It is highly recommended to use DNS resolution for LDAP server. If for some reason you intend to use hosts or plain address disable DNS usage. Use DNS (Yes, No) [Yes]:
- Select a DNS policy method by entering the corresponding number:
1 - Single server 2 - DNS domain LDAP SRV record 3 - Round-robin between multiple hosts 4 - Failover between multiple hosts Please select:
- For option 1, the DNS servers listed in
/etc/resolv.conf
is used to resolve the IP address. Ensure the/etc/resolv.conf
file is updated with the correct DNS servers.Enter the fully qualified domain name (FQDN) or the IP address of the LDAP server. You can use thedig
command with the SRV record to find out the domain name. An SRV record takes the following format: _service._protocol.domain name. For example:dig _ldap._tcp.redhat.com SRV
. - For option 2, enter the domain name of the DNS server. A DNS search is performed to look up the SRV records to find out the domain name of the LDAP server.
- For option 3, enter a space-separated list of LDAP servers. Use either the FQDN or IP address of the servers. This policy provides load-balancing between the LDAP servers. Queries are distributed among all LDAP servers according to the round-robin algorithm.
- For option 4, enter a space-separated list of LDAP servers. Use either the FQDN or IP address of the servers. This policy defines the first LDAP server to be the default LDAP server to respond to queries. If the first server is not available, the query will go to the next LDAP server on the list.
- Select the secure connection method your LDAP server supports and specify the method to obtain a PEM-encoded CA certificate. The file option allows you to provide the full path to the certificate. The URL option allows you to specify a URL to the certificate. Use the inline option to paste the content of the certificate in the terminal. The system option allows you to specify the default location for all CA files. If the insecure mode is selected, the connection is still encrypted using TLS but certificate validation is skipped.
NOTE: It is highly recommended to use secure protocol to access the LDAP server. Protocol startTLS is the standard recommended method to do so. Only in cases in which the startTLS is not supported, fallback to non standard ldaps protocol. Use plain for test environments only. Please select protocol to use (startTLS, ldaps, plain) [startTLS]: startTLS Please select method to obtain PEM encoded CA certificate (File, URL, Inline, System, Insecure): File Please enter the password:
Note
LDAPS stands for Lightweight Directory Access Protocol Over Secure Socket Links. For SSL connections, select theldaps
option.For more information on creating a PEM-encoded CA certificate, see Section D.2, “Setting Up SSL or TLS Connections between the Manager and an LDAP Server”. - Enter the search user distinguished name (DN). The user must have permissions to browse all users and groups on the directory server. The search user must be specified in LDAP annotation. If anonymous search is allowed, press Enter without any input.
Enter search user DN (empty for anonymous): uid=user1,ou=Users,dc=test,dc=redhat,dc=com Enter search user password:
- Test the search and login function to ensure the your LDAP server is connected to your Red Hat Virtualization environment properly. For the login query, enter the account name and password. For the search query, select
Principal
for user accounts, and selectGroup
for group accounts. EnterYes
toResolve Groups
if you want the group account information for the user account to be returned. SelectDone
to complete the setup. Three configuration files are created and displayed in the screen output.NOTE: It is highly recommended to test drive the configuration before applying it into engine. Perform at least one Login sequence and one Search sequence. Select test sequence to execute (Done, Abort, Login, Search) [Abort]: Login Enter search user name: testuser1 Enter search user password: [ INFO ] Executing login sequence... ... Select test sequence to execute (Done, Abort, Login, Search) [Abort]: Search Select entity to search (Principal, Group) [Principal]: Term to search, trailing '*' is allowed: testuser1 Resolve Groups (Yes, No) [No]: [ INFO ] Executing login sequence... ... Select test sequence to execute (Done, Abort, Login, Search) [Abort]: Done [ INFO ] Stage: Transaction setup [ INFO ] Stage: Misc configuration [ INFO ] Stage: Package installation [ INFO ] Stage: Misc configuration [ INFO ] Stage: Transaction commit [ INFO ] Stage: Closing up CONFIGURATION SUMMARY Profile name is: redhat.com The following files were created: /etc/ovirt-engine/aaa/redhat.com.properties /etc/ovirt-engine/extensions.d/redhat.com-authz.properties /etc/ovirt-engine/extensions.d/redhat.com-authn.properties [ INFO ] Stage: Clean up Log file is available at /tmp/ovirt-engine-extension-aaa-ldap-setup-20160114064955-1yar9i.log: [ INFO ] Stage: Pre-termination [ INFO ] Stage: Termination
- Restart the engine service. The profile you have created is now available on the Administration Portal and the User Portal login pages. To assign the user accounts on the LDAP server appropriate roles and permissions, for example to log in to the User Portal, see Section 15.6, “Administering User Tasks From the Administration Portal”.
# systemctl restart ovirt-engine.service
Note
/usr/share/doc/ovirt-engine-extension-aaa-ldap-version
.
15.3.2. Attaching an Active Directory
- You need to know the Active Directory forest name. The forest name is also known as the root domain name.
- You need to either add the DNS server that can resolve the Active Directory forest name to the
/etc/resolv.conf
file on the Manager, or note down the Active Directory DNS servers and enter them when prompted by the interactive setup script. - To set up secure connection between the LDAP server and the Manager, ensure a PEM-encoded CA certificate has been prepared. See Section D.2, “Setting Up SSL or TLS Connections between the Manager and an LDAP Server” for more information.
- Unless anonymous search is supported, a user with permissions to browse all users and groups must be available on the Active Directory to be used as the search user. Note down the search user's distinguished name (DN). Do not use the administrative user for the Active Directory.
- Have at least one set of account name and password ready to perform search and login queries to the Active Directory.
Procedure 15.2. Configuring an External LDAP Provider
- On the Red Hat Virtualization Manager, install the LDAP extension package:
# yum install ovirt-engine-extension-aaa-ldap-setup
- Run
ovirt-engine-extension-aaa-ldap-setup
to start the interactive setup:# ovirt-engine-extension-aaa-ldap-setup
- Specify a profile name. The profile name is visible to users on the login page. This example uses
redhat.com
.Please specify profile name that will be visible to users:redhat.com
Figure 15.2. The Administration Portal Login Page
Note
Users need to select the desired profile from the drop-down list when logging in for the first time. The information is then stored in browser cookies and preselected the next time the user logs in. - Select an LDAP type by entering the corresponding number. The LDAP related questions after this step is different for different LDAP types.
Available LDAP implementations: 1 - 389ds 2 - 389ds RFC-2307 Schema 3 - Active Directory 4 - IPA 5 - Novell eDirectory RFC-2307 Schema 6 - OpenLDAP RFC-2307 Schema 7 - OpenLDAP Standard Schema 8 - Oracle Unified Directory RFC-2307 Schema 9 - RFC-2307 Schema (Generic) 10 - RHDS 11 - RHDS RFC-2307 Schema 12 - iPlanet Please select: 3
- Enter the Active Directory forest name. If the forest name is not resolvable by your Manager's DNS, the script prompts you to enter a space-separated list of Active Directory DNS server names.
Please enter Active Directory Forest name: ad-example.redhat.com [ INFO ] Resolving Global Catalog SRV record for ad-example.redhat.com [ INFO ] Resolving LDAP SRV record for ad-example.redhat.com
- Select the secure connection method your LDAP server supports and specify the method to obtain a PEM-encoded CA certificate. The file option allows you to provide the full path to the certificate. The URL option allows you to specify a URL to the certificate. Use the inline option to paste the content of the certificate in the terminal. The system option allows you to specify the location for all CA files. The insecure option allows you to use startTLS in insecure mode.
NOTE: It is highly recommended to use secure protocol to access the LDAP server. Protocol startTLS is the standard recommended method to do so. Only in cases in which the startTLS is not supported, fallback to non standard ldaps protocol. Use plain for test environments only. Please select protocol to use (startTLS, ldaps, plain) [startTLS]: startTLS Please select method to obtain PEM encoded CA certificate (File, URL, Inline, System, Insecure): File Please enter the password:
Note
LDAPS stands for Lightweight Directory Access Protocol Over Secure Socket Links. For SSL connections, select theldaps
option.For more information on creating a PEM-encoded CA certificate, see Section D.2, “Setting Up SSL or TLS Connections between the Manager and an LDAP Server”. - Enter the search user distinguished name (DN). The user must have permissions to browse all users and groups on the directory server. The search user must be of LDAP annotation. If anonymous search is allowed, press Enter without any input.
Enter search user DN (empty for anonymous): uid=user1,ou=Users,dc=test,dc=redhat,dc=com Enter search user password:
- Test the search and login function to ensure your LDAP server is connected to your Red Hat Virtualization environment properly. For the login query, enter the account name and password. For the search query, select
Principal
for user accounts, and selectGroup
for group accounts. EnterYes
toResolve Groups
if you want the group account information for the user account to be returned. SelectDone
to complete the setup. Three configuration files are created and displayed in the screen output.NOTE: It is highly recommended to test drive the configuration before applying it into engine. Perform at least one Login sequence and one Search sequence. Select test sequence to execute (Done, Abort, Login, Search) [Abort]: Login Enter search user name: testuser1 Enter search user password: [ INFO ] Executing login sequence... ... Select test sequence to execute (Done, Abort, Login, Search) [Abort]: Search Select entity to search (Principal, Group) [Principal]: Term to search, trailing '*' is allowed: testuser1 Resolve Groups (Yes, No) [No]: [ INFO ] Executing login sequence... ... Select test sequence to execute (Done, Abort, Login, Search) [Abort]: Done [ INFO ] Stage: Transaction setup [ INFO ] Stage: Misc configuration [ INFO ] Stage: Package installation [ INFO ] Stage: Misc configuration [ INFO ] Stage: Transaction commit [ INFO ] Stage: Closing up CONFIGURATION SUMMARY Profile name is: redhat.com The following files were created: /etc/ovirt-engine/aaa/redhat.com.properties /etc/ovirt-engine/extensions.d/redhat.com-authz.properties /etc/ovirt-engine/extensions.d/redhat.com-authn.properties [ INFO ] Stage: Clean up Log file is available at /tmp/ovirt-engine-extension-aaa-ldap-setup-20160114064955-1yar9i.log: [ INFO ] Stage: Pre-termination [ INFO ] Stage: Termination
- The profile you have created is now available on the Administration Portal and the User Portal login pages. To assign the user accounts on the LDAP server appropriate roles and permissions, for example to log in to the User Portal, see Section 15.6, “Administering User Tasks From the Administration Portal”.
Note
/usr/share/doc/ovirt-engine-extension-aaa-ldap-version
.
15.3.3. Configuring an External LDAP Provider (Manual Method)
ovirt-engine-extension-aaa-ldap
extension uses the LDAP protocol to access directory servers and is fully customizable. Kerberos authentication is not required unless you want to enable the single sign-on to the User Portal or the Administration Portal feature.
Procedure 15.3. Configuring an External LDAP Provider Manually
- On the Red Hat Virtualization Manager, install the LDAP extension package:
# yum install ovirt-engine-extension-aaa-ldap
- Copy the LDAP configuration template file into the
/etc/ovirt-engine
directory. Template files are available for active directories (ad
) and other directory types (simple
). This example uses the simple configuration template.# cp -r /usr/share/ovirt-engine-extension-aaa-ldap/examples/simple/. /etc/ovirt-engine
- Rename the configuration files to match the profile name you want visible to users on the Administration Portal and the User Portal login pages:
# mv /etc/ovirt-engine/aaa/profile1.properties /etc/ovirt-engine/aaa/example.properties # mv /etc/ovirt-engine/extensions.d/profile1-authn.properties /etc/ovirt-engine/extensions.d/example-authn.properties # mv /etc/ovirt-engine/extensions.d/profile1-authz.properties /etc/ovirt-engine/extensions.d/example-authz.properties
- Edit the LDAP property configuration file by uncommenting an LDAP server type and updating the domain and passwords fields:
# vi /etc/ovirt-engine/aaa/example.properties
Example 15.1. Example profile: LDAP server section
# Select one # include = <openldap.properties> #include = <389ds.properties> #include = <rhds.properties> #include = <ipa.properties> #include = <iplanet.properties> #include = <rfc2307-389ds.properties> #include = <rfc2307-rhds.properties> #include = <rfc2307-openldap.properties> #include = <rfc2307-edir.properties> #include = <rfc2307-generic.properties> # Server # vars.server = ldap1.company.com # Search user and its password. # vars.user = uid=search,cn=users,cn=accounts,dc=company,dc=com vars.password = 123456 pool.default.serverset.single.server = ${global:vars.server} pool.default.auth.simple.bindDN = ${global:vars.user} pool.default.auth.simple.password = ${global:vars.password}
To use TLS or SSL protocol to interact with the LDAP server, obtain the root CA certificate for the LDAP server and use it to create a public keystore file. Uncomment the following lines and specify the full path to the public keystore file and the password to access the file.Note
For more information on creating a public keystore file, see Section D.2, “Setting Up SSL or TLS Connections between the Manager and an LDAP Server”.Example 15.2. Example profile: keystore section
# Create keystore, import certificate chain and uncomment # if using tls. pool.default.ssl.startTLS = true pool.default.ssl.truststore.file = /full/path/to/myrootca.jks pool.default.ssl.truststore.password = password
- Review the authentication configuration file. The profile name visible to users on the Administration Portal and the User Portal login pages is defined by
ovirt.engine.aaa.authn.profile.name
. The configuration profile location must match the LDAP configuration file location. All fields can be left as default.# vi /etc/ovirt-engine/extensions.d/example-authn.properties
Example 15.3. Example authentication configuration file
ovirt.engine.extension.name = example-authn ovirt.engine.extension.bindings.method = jbossmodule ovirt.engine.extension.binding.jbossmodule.module = org.ovirt.engine-extensions.aaa.ldap ovirt.engine.extension.binding.jbossmodule.class = org.ovirt.engineextensions.aaa.ldap.AuthnExtension ovirt.engine.extension.provides = org.ovirt.engine.api.extensions.aaa.Authn ovirt.engine.aaa.authn.profile.name = example ovirt.engine.aaa.authn.authz.plugin = example-authz config.profile.file.1 = ../aaa/example.properties
- Review the authorization configuration file. The configuration profile location must match the LDAP configuration file location. All fields can be left as default.
# vi /etc/ovirt-engine/extensions.d/example-authz.properties
Example 15.4. Example authorization configuration file
ovirt.engine.extension.name = example-authz ovirt.engine.extension.bindings.method = jbossmodule ovirt.engine.extension.binding.jbossmodule.module = org.ovirt.engine-extensions.aaa.ldap ovirt.engine.extension.binding.jbossmodule.class = org.ovirt.engineextensions.aaa.ldap.AuthzExtension ovirt.engine.extension.provides = org.ovirt.engine.api.extensions.aaa.Authz config.profile.file.1 = ../aaa/example.properties
- Ensure that the ownership and permissions of the configuration profile are appropriate:
# chown ovirt:ovirt /etc/ovirt-engine/aaa/example.properties
# chmod 600 /etc/ovirt-engine/aaa/example.properties
- Restart the engine service:
# systemctl restart ovirt-engine.service
- The example profile you have created is now available on the Administration Portal and the User Portal login pages. To give the user accounts on the LDAP server appropriate permissions, for example to log in to the User Portal, see Section 15.6, “Administering User Tasks From the Administration Portal”.
Note
/usr/share/doc/ovirt-engine-extension-aaa-ldap-version
.
15.3.4. Removing an External LDAP Provider
Procedure 15.4. Removing an External LDAP Provider
- Remove the LDAP provider configuration files, replacing the default name
profile1
:# rm /etc/ovirt-engine/extensions.d/profile1-authn.properties # rm /etc/ovirt-engine/extensions.d/profile1-authz.properties # rm /etc/ovirt-engine/aaa/profile1.properties
- Restart the
ovirt-engine
service:# systemctl restart ovirt-engine
- In the Administration Portal, in the Users resource tab, select the users of this provider (those whose Authorization provider is
profile1-authz
) and click Remove.