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Detecting Electromagnetic Injection Attack on FPGAs Using In Situ Timing SensorsGujar, Surabhi Satyajit 29 August 2018 (has links)
Nowadays, security is one of the foremost concerns as the confidence in a system is mostly dependent on its ability to protect itself against any attack. The area of Electromagnetic Fault Injection (EMFI) wherein attackers can use electromagnetic (EM) pulses to induce faults has started garnering increasing attention. It became crucial to understand EM attacks and find the best countermeasures. In this race to find countermeasures, different researchers proposed their ideas regarding the generation of EM attacks and their detection. However, it is difficult to see a universal agreement on the nature of these attacks.
In this work, we take a closer look at the analysis of the primary EMFI fault models suggested earlier. Initial studies had shown that EM glitches caused timing violations, but recently it was proposed that EM attacks can create bit sets and bit resets. We performed a detailed experimental evaluation of the existing detection schemes on two different FPGA platforms. We present their comparative design analysis concerning their accuracy, precision, and cost. We propose an in situ timing sensor to overcome the disadvantages of the previously proposed detection approaches. This sensor can successfully detect most of the electromagnetic injected faults with high precision. We observed that the EM attack behaves like a localized timing attack in FPGAs which can be identified using the in situ timing sensors. / MS / When computers are built only for a specific application, they are called embedded systems. Over the past decade, there has been an incredible increase in the number of embedded systems around us. Right from washing machines to electronic locks, we can see embedded systems in almost every aspect of our lives. There is an increasing integration of embedded systems in applications such as cars and buildings with the advent of smart technologies. Due to our heavy reliance on such devices, it is vital to protect them against intentional attacks. Apart from the software attacks, it is possible for an attacker to disrupt or control the functioning of a system by physically attacking its hardware using various techniques. We look at one such technique that uses electromagnetic pulses to create faults in a system. We experimentally evaluate two of the previously suggested methods to detect electromagnetic injection attacks. We present a new sensor for this detection which we believe is more effective than the previously discussed detection schemes.
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