Abstract-Evaluating embedded systems vulnerability to faults injection attacks has gained importance in recent years due to the rising threats they bring to chips security. The task is particularly important for micro-controllers since they have lower resistance to fault attacks compared to hardware-based cryptosystems. This paper reviews recent embedded fault injection simulators from literature and presents an embedded high-level fault injection mechanism based on a Real-Time Operating System (RTOS). The approach aims to be architecture-independent and portable to 32-bit microcontrollers and embedded processors. The proposed mechanism, primarily targets realistic fault attack scenarios on memory locations, is adapted to timed and event-based fault injection. A Differential Fault Attack (DFA) was mounted on a popular ARM-based micro-controller running FreeRTOS to illustrate the proposed mechanism. The aim is also to bridge the embedded fault injection simulation mechanism efficiently to a computerbased cryptanalysis and to highlight the importance of physically protecting the memory and integrating data-specific countermeasures.
Cryptography and computational algebra designs are complex systems based on modular arithmetic and build on multi-level modules where bit-width is generally larger than 64-bit. Because of their particularity, such designs pose a real challenge for verification, in part because large-integer's functions are not supported in actual hardware description languages (HDLs), therefore limiting the HDL testbench utility. In another hand, high-level verification approach proved its efficiency in the last decade over HDL testbench technique by raising the latter at a higher abstraction level. In this work, we propose a high-level platform to verify such designs, by leveraging the capabilities of a popular tool (Matlab/Simulink) to meet the requirements of a cycle accurate verification without bit-size restrictions and in multi-level inside the design architecture. The proposed high-level platform is augmented by an assertion-based verification to complete the verification coverage. The platform experimental results of the testcase provided good evidence of its performance and re-usability.
Keyword:Assertion-based verification Co-simulation Cryptography Hardware description language High-level verification Large-integer Matlab/Simulink
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