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|Oracle Directory Server Enterprise Edition Evaluation Guide 11 g Release 1 (184.108.40.206.0)|
Directory Server Enterprise Edition (DSEE) serves as the backbone to an enterprise identity infrastructure. DSEE includes the following components:
Each of these components addresses one or more of the quality of service requirements described previously. This section describes the components and illustrates how they fit together to provide a robust directory service.
Directory Server provides a scalable, high-performance data store for identity information. Directory Server supports the Lightweight Directory Access Protocol (LDAP) v3 and the Directory Service Markup Language (DSML) v2 natively for standards-based access. With LDAP and DSML over HTTP or SOAP (Simple Object Access Protocol), clients anywhere on a network are able to securely search and update directory data objects. Clients are also able to receive changes made by other applications and to authenticate users or applications even through firewalls.
Directory Server provides several security features to achieve compliance with information security policies. These features ensure that only users with proper authorization have access to information.
Macro-level, dynamic access control instructions (ACIs). Provide a means for defining access down to the level of an LDAP attribute. Access control policies can be defined once, and then reused across the directory tree. Macro ACIs can be used to optimize the number of ACIs in the directory, thereby reducing the complexity of the security framework.
Role-based access. Enables you to provide access that is based on information in a user's entry. Roles are defined and administered like groups, but roles provide more efficient grouping mechanisms for applications. Roles can be used in ACIs to control access to data. They can also be used by Class of Service (CoS), a capability of Directory Server to create virtual attributes that can apply to many entries at the same time. These virtual attributes reduce storage requirements on entries. They also allow a single change to update an unlimited number of related entries.
Get Effective Rights control. Provides a means for determining what access a user has to a set of information. Administrators who maintain access policies for the directory service can tighten security by auditing the permissions of directory users and applications. This capability can also be used to build applications with adaptive interfaces that are based on the user's rights.
Encryption mechanisms. Protect data on the disk and during transfer through communications channels. Directory Server also supports fractional replication and data hiding based on access. These mechanisms can be used to comply with European Union and other international privacy regulations.
Multiple password policies. Can be defined on a per-user basis or targeted to certain groups. These policies help to ensure that users change passwords on a regular basis and that unauthorized access to an account is blocked.
Directory Server replication prevents a single point of failure for applications that are using these protocols to access identity data. Directory Server supports a theoretically unlimited number of masters and read-only consumers in a replicated environment across both local and wide area networks. Special features of the replication protocol allow for optimizations when replicating data over high-latency networks. For more information, see Using Replication and Redundancy for High Availability in Oracle Directory Server Enterprise Edition Deployment Planning Guide.
Depending on the hardware, Directory Server can provide sustained search performance of 20,000 entries per second on a single machine and horizontal scalability to several thousand searches per second. For information about how to deploy Directory Server for read scalability, see Chapter 10, Designing a Scaled Deployment, in Oracle Directory Server Enterprise Edition Deployment Planning Guide.
The requirement to store and update information constantly increases with the expansion of use across the organization. Update performance of Directory Server is close to relational database-write performance. For information about how to deploy Directory Server for write scalability, see Chapter 10, Designing a Scaled Deployment, in Oracle Directory Server Enterprise Edition Deployment Planning Guide.
Directory Server provides linear CPU scalability to up to 28 CPUs for “read from cache” operations. It allows access to maximum memory capacity and delivers high performance that accommodates large directories on a single system for maximum hardware benefit.
A centralized, web-based administration console can be used to configure and manage multiple Directory Servers. The interface includes all the tools required for effective, day-to-day server administration and service from configuration to monitoring. In addition, the dsadm and dsconf command-line utilities can be used dynamically while the servers are running. These management features mean that most management operations can be performed while the directory is online, thus maximizing availability.
Management flexibility simplifies the deployment of the directory service into many different environments. The command-line utilities make remote management as easy as if the service were in a local data center.
Directory Proxy Server is an LDAP application-layer protocol gateway. It is designed to deliver enhanced directory access control, schema compatibility, and high availability.
Directory Proxy Server works with Directory Server to ensure reliability and to protect against denial-of-service attacks. Directory Proxy Server automatically routes requests appropriately and provides secure firewall-like services for Directory Server.
To prevent a single point of failure for mission-critical applications, Directory Proxy Server detects outages and routes traffic around affected areas, effectively load balancing requests across systems. When the affected areas are restored to operation, Directory Proxy Server detects the restored servers automatically.
Directory Proxy Server accommodates large numbers of users who are accessing the directory and minimizes the security risks associated with providing this level of access. Security features enable administrators to determine where a request is coming from, whether the request is allowed, and what type of authentication is required. In the event of a search request, Directory Proxy Server can also ensure that the request meets minimum requirements.
Directory Proxy Server uses groups to define how to identify an LDAP client and what restrictions to enforce on clients that match a particular group. Groups can be defined using a variety of criteria.
To protect private directory information from unauthorized access, Directory Proxy Server can configure a fine-grained access control policy on LDAP directories. Such a policy can include controlling who can perform different types of operations on different parts of directories. Directory Proxy Server can be configured to prevent certain kinds of operations typically performed by web trawlers and robots in search of information.
Directory Service Control Center (DSCC) is a graphical user interface used to administer Directory Server and Directory Proxy Server instances. DSCC is configured by deploying the war file with any of the supported application servers. The DSCC registry maintains a list of registered Directory Servers and Directory Proxy Servers and enables you to group multiple server instances into a single directory service.
Identity Synchronization for Windows provides basic synchronization of identity data between Directory Server Enterprise Edition and Microsoft Active Directory.
Identity Synchronization for Windows fulfills the requirement of interoperability. Synchronization of key identity data such as passwords eliminates the need for users to modify passwords several times to accommodate different application authentication mechanisms.
Use of a non intrusive implementation for synchronizing key identity data eliminates the time-consuming and maintenance-intensive need to install a client component on Active Directory servers.
Identity Synchronization for Windows enables users to change passwords and other identity data in either the Windows environment or the web-based application environment. In this way, Identity Synchronization for Windows maintains synchronization between Active Directory and Directory Server. Disabled accounts can also be synchronized between Active Directory and Directory Server. This synchronization ensures conformance of access policies to applications and data between the Windows desktops and web-based applications.
The Directory Server Resource Kit provides tools and application programming interfaces (APIs) for deploying, accessing, tuning, and maintaining Directory Server Enterprise Edition. These utilities help to implement and maintain more robust LDAP-based solutions.
Performance testing and capacity planning tools help administrators to measure performance and to perform capacity planning on installations of Directory Server Enterprise Edition. Debugging and maintenance tools help with troubleshooting as well as daily maintenance of Directory Server Enterprise Edition. Deployment utilities and tools facilitate the rollout of new installations of Directory Server Enterprise Edition and migration to new releases. LDAP productivity tools include sample LDAP applications that were developed using Directory Server Enterprise Edition.
In addition, Sun has developed SLAMD, a powerful load-generation testing application that includes all the tests needed to thoroughly performance-test Directory Server Enterprise Edition applications. SLAMD is available free of charge at http://www.slamd.com.