Title :
Model checking invariant security properties in OpenFlow
Author :
Son, Seuk ; Seungwon Shin ; Yegneswaran, Vinod ; Porras, Phillip ; Guofei Gu
Abstract :
The OpenFlow (OF) switching specification represents an innovative and open standard for enabling the dynamic programming of flow control policies in production networks. Unfortunately, thus far researchers have paid little attention to the development of methods for verifying that dynamic flow policies inserted within an OpenFlow network do not violate the network´s underlying security policy. We introduce Flover, a model checking system which verifies that the aggregate of flow policies instantiated within an OpenFlow network does not violate the network´s security policy. We have implemented Flover using the Yices SMT solver, which we then integrated into NOX, a popular OpenFlow network controller. Flover provides NOX a formal validation of the OpenFlow network´s security posture.
Keywords :
business communication; dynamic programming; formal verification; open systems; telecommunication control; Flover; NOX; OpenFlow network controller; OpenFlow switching specification; Yices SMT solver; dynamic flow policies; dynamic programming; flow control policies; formal validation; model checking invariant security properties; model checking system; open standard; production networks; security policy; Educational institutions; Model checking; Ports (Computers); Security; Standards; Switches;
Conference_Titel :
Communications (ICC), 2013 IEEE International Conference on
Conference_Location :
Budapest
DOI :
10.1109/ICC.2013.6654813
