Towards an Automatic Top-down Role Engineering Approach Using Natural Language Processing Techniques

Abstract

Role Based Access Control (RBAC) is the most widely used model for access control due to the ease of administration as well as economic benefits it provides. In order to deploy an RBAC system, one requires to first identify a complete set of roles. This process, known as role engineering, has been identified as one of the costliest tasks in migrating to RBAC. In this paper, we propose a top-down role engineering approach and take the first steps towards using natural language processing techniques to extract policies from unrestricted natural language documents. Most organizations have high-level requirement specifications that include a set of access control policies which describes allowable operations for the system. However, it is very time consuming, labor-intensive, and error-prone to manually sift through these natural language documents to identify and extract access control policies. Our goal is to automate this process to reduce manual efforts and human errors. We apply natural language processing techniques, more specifically semantic role labeling to automatically extract access control policies from unrestricted natural language documents, define roles, and build an RBAC model. Our preliminary results are promising and by applying semantic role labeling to automatically identify predicate-argument structure, and a set of predefined rules on the extracted arguments, we were able correctly identify access control policies with a precision of 75%, recall of 88%, and F1 score of 80%.