Anti-Tamper Radio: System-Level Tamper Detection for Computing Systems
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A whole range of attacks becomes possible when adversaries gain physical access to computing systems that process or contain sensitive data. Examples include side-channel analysis, bus probing, device cloning, or implanting hardware Trojans. Defending against these kinds of attacks is considered a challenging endeavor, requiring anti-tamper solutions to monitor the physical environment of the system. Current solutions range from simple switches, which detect if a case is opened, to meshes of conducting material that provide more fine-grained detection of integrity violations. However, these solutions suffer from an intricate trade-off between physical security on the one side and reliability, cost, and difficulty to manufacture on the other. In this work, we demonstrate that radio wave propagation in an enclosed system of complex geometry is sensitive against adversarial physical manipulation. We present an anti-tamper radio (ATR) solution as a method for tamper detection, which combines high detection sensitivity and reliability with ease-of-use. ATR constantly monitors the wireless signal propagation behavior within the boundaries of a metal case. Tamper attempts such as insertion of foreign objects, will alter the observed radio signal response, subsequently raising an alarm. The ATR principle is applicable in many computing systems that require physical security such as servers, ATMs, and smart meters. As a case study, we use 19" servers and thoroughly investigate capabilities and limits of the ATR. Using a custom-built automated probing station, we simulate probing attacks by inserting needles with high precision into protected environments. Our experimental results show that our ATR implementation can detect 16 mm insertions of needles of diameter as low as 0.1 mm under ideal conditions. In the more realistic environment of a running 19" server, we demonstrate reliable [...]
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