Aya Mohamed, Dagmar Auer, Daniel Hofer, Josef Küng,
"Authorization Policy Extension for Graph Databases"
, in Tran Khanh Dang, Josef Küng, Makoto Takizawa, Tai M. Chung: Future Data and Security Engineering, Serie Lecture Notes in Computer Science (LNCS), Vol. 12466, Springer Nature Switzerland, Seite(n) 47-66, 11-2020, ISBN: 978-3-030-63923-5
Original Titel:
Authorization Policy Extension for Graph Databases
Sprache des Titels:
Englisch
Original Buchtitel:
Future Data and Security Engineering
Original Kurzfassung:
The high increase in the use of graph databases also for business- and privacy-critical applications demands for a sophisticated, flexible, fine-grained authorization and access control approach. Attribute -based access control (ABAC) supports a fine-grained definition of authorization rules and policies. Attributes can be associated with the subject, the requested resource and action, but also the environment. Thus, this is a promising starting point. However, specific characteristics of graph-structured data such as attributes on vertices and edges along a path to the resource, are not yet considered. The well-established eXtensible Access Control Markup Language (XACML), which defines a declarative language for fine-grained, attribute-based authorization policies, is the basis for our proposed approach - XACML for Graph-structured data (XACML4G). The additional path-specific constraints, described in graph patterns, demand for specialized processing of the rules and policies as well as adapted enforcement and decision making in the access control process. To demonstrate XACML4G and its enforcement process, we present a scenario from the university domain. Due to the project?s environment, the prototype is built with the multi-model database ArangoDB. The results are promising and further studies concerning performance and use in practice are planned.