Affiliation:
1. Graduate School of Natural and Applied Sciences, Dokuz Eylul University, Izmir 35390, Turkey
2. Department of Computer Engineering, Dokuz Eylul University, Izmir 35390, Turkey
3. Department of Electrical & Computer Engineering, San Diego State University, San Diego, CA 92182, USA
Abstract
The Internet of things (IoT) accommodates lightweight sensor/actuator devices with limited resources; hence, more efficient methods for known challenges are sought after. Message queue telemetry transport (MQTT) is a publish/subscribe-based protocol that allows resource-efficient communication among clients, so-called brokers, and servers. However, it lacks viable security features beyond username/password checks, yet transport-layer security (TLS/HTTPS) is not efficient for constrained devices. MQTT also lacks mutual authentication among clients and brokers. To address the issue, we developed a mutual authentication and role-based authorization scheme for lightweight Internet of things applications (MARAS). It brings mutual authentication and authorization to the network via dynamic access tokens, hash-based message authentication code (HMAC)-based one-time passwords (HOTP), advanced encryption standard (AES), hash chains, and a trusted server running OAuth2.0 along with MQTT. MARAS merely modifies “publish” and “connect” messages among 14 message types of MQTT. Its overhead to “publish” messages is 49 bytes, and to “connect” messages is 127 bytes. Our proof-of-concept showed that the overall data traffic with MARAS remains lower than double the traffic without it, because “publish” messages are the most common. Nevertheless, tests showed that round-trip times for a “connect” message (and its “ack”) are delayed less than a percentile of a millisecond; for a “publish” message, the delays depend on the size and frequency of published information, but we can safely say that the delay is upper bounded by 163% of the network defaults. So, the scheme’s overhead to the network is tolerable. Our comparison with similar works shows that while our communication overhead is similar, MARAS offers better computational performance as it offloads computationally intensive operations to the broker side.
Subject
Electrical and Electronic Engineering,Biochemistry,Instrumentation,Atomic and Molecular Physics, and Optics,Analytical Chemistry
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