Title | Formalizing an Architectural Model of a Trustworthy Edge IoT Security Gateway |
Publication Type | Conference Paper |
Year of Publication | 2021 |
Authors | McCormack, Matt, Vasudevan, Amit, Liu, Guyue, Sekar, Vyas |
Conference Name | 2021 IEEE 27th International Conference on Embedded and Real-Time Computing Systems and Applications (RTCSA) |
Keywords | Computer architecture, Conferences, Costs, Industries, Metals, Productivity, pubcrawl, resilience, Resiliency, Systems architecture, Trustworthy Systems |
Abstract | Today's edge networks continue to see an increasing number of deployed IoT devices. These IoT devices aim to increase productivity and efficiency; however, they are plagued by a myriad of vulnerabilities. Industry and academia have proposed protecting these devices by deploying a "bolt-on" security gateway to these edge networks. The gateway applies security protections at the network level. While security gateways are an attractive solution, they raise a fundamental concern: Can the bolt-on security gateway be trusted? This paper identifies key challenges in realizing this goal and sketches a roadmap for providing trust in bolt-on edge IoT security gateways. Specifically, we show the promise of using a micro-hypervisor driven approach for delivering practical (deployable today) trust that is catered to both end-users and gateway vendors alike in terms of cost, generality, capabilities, and performance. We describe the challenges in establishing trust on today's edge security gateways, formalize the adversary and trust properties, describe our system architecture, encode and prove our architecture trust properties using the Alloy formal modeling language. We foresee our trustworthy security gateway architecture becoming a practical and extensible formal foundation towards realizing robust trust properties on today's edge security gateway implementations. |
DOI | 10.1109/RTCSA52859.2021.00019 |
Citation Key | mccormack_formalizing_2021 |