Electrical computers and digital processing systems: support – Multiple computer communication using cryptography – Protection at a particular protocol layer
Reexamination Certificate
1999-10-01
2004-04-27
Barron, Gilberto (Department: 2132)
Electrical computers and digital processing systems: support
Multiple computer communication using cryptography
Protection at a particular protocol layer
C709S219000, C709S225000, C709S229000, C713S155000
Reexamination Certificate
active
06728884
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to security systems in computer systems, and in particular, integration of heterogeneous security systems into an application access control system.
BACKGROUND OF THE INVENTION
Computer networks have become ubiquitous in business, industry, and education. These networks typically have one or more resources, such as applications, that provide various computing functions. Development of the globally accessible, packet-switched network known as the Internet has enabled network resources to become available worldwide. Hypertext protocols that implement the World Wide Web have evolved, (“The Web”), enabling networks to serve as a platform for global electronic commerce and the easy exchange of information between businesses and their customers, suppliers and partners.
Businesses are rushing to make their applications available over networks, including the Web, and just as quickly stumbling into several roadblocks. For example, some information is valuable and sensitive, and needs to be made available only to selected users. Thus, there is a need to provide selective access to network resources and information over the Web.
This need exists in the context of internal Web networks that are available to employees of an organization, called Intranets, as well as Web networks and resources that are available to external customers, suppliers and partners of the organization, called extranets. Extranet users may require access to a large number of applications, for example, product catalogs, customer databases, or inventory systems. There may be millions of potential users, the number of which grows dramatically as an organization grows.
One approach to some of the foregoing problems and needs is the application approach. Under the application approach, a security mechanism is provided for each application program. Often, the security mechanism provided for an application is the application's own native security system. When a user connects to an application through a network, the security mechanism for the application is invoked. For example, when connecting to an accounting application, the accounting application invokes its security mechanism. The security mechanism obtains a user id and password from the user, and then authenticates the user. Authentication refers to the process of using information to identify a user (“authentication input”) and verifying that the user is what the information purports the user to be. Examples of authentication input include user id and password received from a user, or a digital certificate.
An advantage of the application approach is that it may use security mechanisms that already exist. Use of existing security systems avoids reprogramming applications to use another security system and reconfiguring the other security system, by, for example, re-entering the user id and passwords of existing users.
A disadvantage of the application approach is that it results in a heterogeneous set of security mechanisms, each of which may present the user with a different authentication procedure. Even if two security systems use the same authentication procedure, such as user id/password authentication, a user may use one user id and password pair on one system, and another user id and password pair on another system. Obviously, tracking different user ids and passwords can be very burdensome to a user.
Another disadvantage of the foregoing approach is duplication of management processes. To provide user access to a set of applications, an administrator must repeatedly add the user to each security system in use. The redundancy of these processes, combined with rapid growth in the number of users, can make the cost of deploying, managing and supporting a system unacceptably high.
Another disadvantage stems from the use of a common user interface for accessing applications over a network. The user interface is configured to interact with each security mechanism that may be accessed through the common user interface. Thus, adding a new security mechanism for a new or existing application may require reprogramming, recompilation, and reinstallation of the common user interface.
For example, new security mechanisms such as retinal scanners are becoming available. However, integrating such mechanisms is difficult. The required effort may increase costs and delays to implement new applications and security mechanisms to undesirably high levels.
Based on the foregoing, it is clearly desirable to provide a mechanism to govern access to one or more information resources in which selective access is given to particular users, a mechanism that is equally adaptable to an internal network environment and to an external network environment and which takes advantage of existing security mechanisms, and a mechanism that is easy to re-configure as new user applications and authentication techniques become available.
SUMMARY OF THE INVENTION
The foregoing needs and objects, and other needs and objects that will become apparent from the following description, are achieved by the present invention, which comprises, in one aspect, an access control system. The access control system includes a server which provides authentication and authorization services. The server uses the authentication and authorization services from a set of remote servers, which may be servers that provide the authentication services from legacy access control systems, or specialized access control systems such as authentication services based on retinal scans.
The services of the remote servers may be accessed through proxy servers. The proxy server serves as an interface between the server and the other remote servers, and provides an API through which the services of the remote servers may be accessed. The proxy servers may be instantiations of a subclass of a base class. The base class defines methods for the API. Due to the power and simplicity of the inheritance feature of object oriented technology, developers may develop subclasses which inherit the methods of the base class. A software developer need only implement methods needed to interface with a particular remote server.
A remote server may provide authentication services, authorization services, and the ability to edit information stored on the remote servers regarding users. The authorizations received by a server from the remote server may be translated into a form of authorizations used by the server. The translated authorizations may be migrated to the server, and stored in persistent storage for later use by the server.
REFERENCES:
patent: 6182142 (2001-01-01), Win et al.
patent: 6412070 (2002-06-01), Van Dyke et al.
Barron Gilberto
Bingham Marcel K.
Entrust, Inc.
Fields Courtney D.
Hickman Palermo & Truong & Becker LLP
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