Table of Contents
Siswati Swami's recent "Requirements Specifications for ORBIT Access Control" http://orbit-lab.org/attachment/wiki/Internal/Rbac/RbacResources/Specs2.pdf Swa06 contains an analysis of each of the roles in which an ORBIT user might act when working on an ORBIT project. The analysis is based on use cases http://orbit-lab.org/attachment/wiki/Internal/Rbac/RbacResources/IC_TECH_REPORT_200131.pdf NW01 and http://orbit-lab.org/attachment/wiki/Internal/Rbac/RbacResources/fernandez97determining.pdf FH97. The specification contains a permissions matrix with access granted or not granted for each combination of an identified role and an ORBIT resource.
Role-based access control for ORBIT has to allow roles to be expressed in a project context. That is, a specific project would be constraint on Project Leader and Project Member roles for example. The primary resources are project-owned data.
In http://orbit-lab.org/attachment/wiki/Internal/Rbac/RbacResources/i01-kluwer01-jpark.pdf PAS01 Park, Ahn and Sandhu write "Park and Sandhu identify and describe two different approaches for obtaining a user's attributes on the Web: user-pull and server-pull architectures http://orbit-lab.org/attachment/wiki/Internal/Rbac/RbacResources/smart-certificates-extending-x-1.pdf PS99b . They classify these architectures based on "Who pulls the user's attributes?" In the user-pull architecture, the user pulls her attributes from the attribute server then presents them to the Web servers, which use those attributes for their purposes. In the server-pull architecture, each Web server pulls user's attributes from the attribute server as needed and uses them for its purposes." LDAP may be used in either approach http://orbit-lab.org/attachment/wiki/Internal/Rbac/RbacResources/i01-kluwer01-jpark.pdf PAS01.
It seems to be a good idea to choose the server-pull architecture because of temporal constraints and to avoid certificate revocation issues.
Other design issues and decisions are discussed on the ORBIT Design Goals and Threats page. Primary among them is the choice of dynamic separation of duty.
The NIST RBAC software was chosen as a starting point for the implementation of ORBIT RBAC support because it is web-oriented, has a server-pull architecture, supports dynamic separation of duty, is Unix-based, and is most likely to be reliable and maintainable. It also should be fairly efficient as it is written in C and Perl with one Java module.
The initial design decisions for ORBIT RBAC are identifying and choosing the Resources and Roles for ORBIT.
The Design Using Wiki page notes issues that arose when using a wiki to document work on this project.
As work on the ORBIT RBAC project progresses open issues are noted on the Open Issues page and removed as they are resolved.
A list of the work items that have been identified and are yet to be done on the ORBIT RBAC project are on Work To Do.