LDAP-UX Client Services B.04.15 with Microsoft Windows Active Directory Server Administrator's Guide (edition 8)
Table Of Contents
- LDAP-UX Client Services B.04.15 with Microsoft Windows Active Directory Administrator's Guide
- Table of Contents
- Preface
- 1 Introduction
- 2 Installing LDAP-UX Client Services
- Before You Begin
- Summary of Installing and Configuring LDAP-UX Client Services
- Planning Your Installation
- Installing LDAP-UX Client Services on a Client
- Configuring Active Directory for HP-UX Integration
- Step 1: Install Active Directory
- Step 2: Install SFU 2.0, 3.0 or 3.5 including Server for NIS
- Step 3: Create a Proxy User
- Step 4: Add an HP-UX Client Machine Account to Active Directory
- Step 5: Use ktpass to Create the Keytab File for the HP-UX client machine
- Step 6: Add POSIX Attributes into the Global Catalog
- Importing Name Service Data into Your Directory
- Configuring LDAP-UX Client Services
- Step 1: Run the Setup Program
- Step 2: Install the PAM Kerberos Product
- Step 3: Configure Your HP-UX Machine to Authenticate Using PAM Kerberos
- Step 4: Configure the Name Service Switch (NSS)
- Step 5: Configure the PAM Authorization Service Module (pam_authz)
- Step 6: Configure the Disable Login Flag
- Step 7: Verify LDAP-UX Client Services for Single Domain
- Step 8: Configure Subsequent Client Systems
- Configuring the LDAP-UX Client Services with SSL or TLS Support
- Downloading the Profile Periodically
- 3 Active Directory Multiple Domains
- 4 LDAP-UX Client Services with AutoFS Support
- 5 LDAP Printer Configurator Support
- 6 Dynamic Group Support
- 7 Administering LDAP-UX Client Services
- Using the LDAP-UX Client Daemon
- Integrating with Trusted Mode
- SASL GSSAPI Support
- PAM_AUTHZ Login Authorization
- Policy And Access Rules
- How Login Authorization Works
- PAM_AUTHZ Supports Security Policy Enforcement
- Policy File
- Policy Validator
- Dynamic Variable Support
- Constructing an Access Rule in pam_authz.policy
- Static List Access Rule
- Dynamic Variable Access Rule
- Security Policy Enforcement with Secure Shell (SSH) or r-commands
- Adding Additional Domain Controllers
- Adding Users, Groups, and Hosts
- User and Group Management
- Displaying the Proxy User's Distinguished Name
- Verifying the Proxy User
- Creating a New Proxy User
- Displaying the Current Profile
- Creating a New Profile
- Modifying a Profile
- Changing Which Profile a Client is Using
- Creating an /etc/krb5.keytab File
- Considering Performance Impacts
- Client Daemon Performance
- Troubleshooting
- 8 Modifying User Information
- 9 Mozilla LDAP C SDK
- A Configuration Worksheet
- B LDAP-UX Client Services Object Classes
- C Command, Tool, Schema Extension Utility, and Migration Script Reference
- LDAP-UX Client Services Components
- Client Management Tools
- LDAP User and Group Management Tools
- Environment Variables
- Return Value Formats
- Common Return Codes
- The ldapuglist Tool
- The ldapugadd Tool
- The ldapugmod Tool
- The ldapugdel Tool
- The ldapcfinfo Tool
- LDAP Directory Tools
- Schema Extension Utility
- Name Service Migration Scripts
- Unsupported Contributed Tools and Scripts
- D Sample PAM Configuration File
- E Sample /etc/krb5.conf File
- F Sample /etc/pam.conf File for HP-UX 11i v1 Trusted Mode
- G Sample /etc/pam.conf File for HP-UX 11i v2 Trusted Mode
- H Sample PAM Configuration File for Security Policy Enforcement
- Glossary
- Index
<dsSpecific>
Optional, use to specify any directory-specific information about
the attribute type. See “Defining Directory Specific Information”
(page 242) section for details.
Attribute Type Definition Requirements
To add the new schema to the LDAP directory server, each attribute type definition must meet
the following requirements:
• The attribute type has a <oid> tag with one numeric id value which adheres to RFC 2252
format specification.
• The attribute type has at least one <name> tag with the attribute type name. Each name
must adhere to RFC 2252 format specification.
• No other attribute types in the schema definition file or on the LDAP directory server have
the same OID value.
• No other attribute types in the schema definition file or on the LDAP directory server have
the same name values.
• The specified super-type used by the attribute type must already exit on the LDAP directory
sever or its definition must be specified in the same schema definition file.
• The attribute type specifies either an LDAP syntax value or a super-type. Some directory
servers, for example ADS, do not support attribute type inheritance. For such directory
servers, the LDAP syntax for the sub-type attribute is obtained from the super-type definition
and the super-type/sub-type relationship is ignored
• The matching rules and syntaxes used by this attribute type are supported by the LDAP
directory server. See the “Mapping Unsupported Matching Rules and LDAP Syntaxes”
section for details.
• The inheritance hierarchy has no cycles (no circular dependencies exist in the
super-class/sub-class relationships).
• If the attribute type has a super-type, they both have the same value defined in the <usage>
tag.
Schema Extension Utility 239