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Introduction

A phenomenal growth in connectivity through the Internet has made computer security a paramount concern, but no single definition of security suffices. Different computing environments, and the applications that run in them, have different security requirements. Because any notion of security is captured in the expression of a security policy, there is a need for many different policies and even many types of policies [1,43,48]. To be generally acceptable, any computer security solution must be flexible enough to support this wide range of security policies. Even in the distributed environments of today, this policy flexibility must be supported by the security mechanisms of the operating system [32].

Supporting policy flexibility in the operating system is a hard problem that goes beyond just supporting multiple policies. The system must be capable of supporting fine-grained access controls on low-level objects used to perform higher-level functions controlled by the security policy. Additionally, the system must ensure that the propagation of access rights is in accordance with the security policy. Lastly, policies are not, in general, static. To cope with policy changes or dynamic policies, the system must have a mechanism for revoking previously granted access rights. Earlier systems have provided mechanisms that allow several security policies to be supported, but they are inadequate to generally support policy flexibility because they fail to address at least one of these three areas.

This paper describes an operating system security architecture that demonstrates the feasibility of policy flexibility. This is done by presenting its prototype implementation, the Flask microkernel-based operating system, that successfully overcomes these obstacles to policy flexibility. The cleaner separation of mechanism and policy specified in the security architecture enables a richer set of security policies to be supported with less policy-specific customization than has previously been possible. Flask includes a security policy server to make access control decisions and a framework in the microkernel and other object managers in the system to enforce those access control decisions. Although the prototype system is microkernel-based, the security mechanisms do not depend on a microkernel architecture and will easily generalize beyond it.

The resulting system provides policy flexibility. It supports a wide variety of policies. It controls the propagation of access rights by ensuring that the security policy is consulted for every access decision. Enforcement mechanisms, directly integrated into the service-providing components of the system, enable fine-grained access controls and dynamic policy support that allows the revocation of previously granted access rights. Initial performance results, as well as statistics on the scale and invasiveness of the code changes, indicate that the impact of policy flexible security on the system can be kept to a minimum.

The remainder of the paper begins by elaborating on the meaning of policy flexibility. After a discussion of why two popular mechanisms employed in systems to provide security are limiting to policy flexibility, some related work is described. The Flask architecture is then presented through a discussion of its prototype design and implementation. The paper concludes with an evaluation of the policy flexibility of the system, an assessment of the performance impact, and a discussion of the scale and invasiveness of the Flask changes.


next up previous
Next: Policy Flexibility Up: The Flask Security Architecture: Previous: The Flask Security Architecture:
Stephen D. Smalley
1999-07-13