SCRAMBLE-CFI: Mitigating Fault-Induced Control-Flow Attacks on OpenTitan
Secure elements physically exposed to adversaries are frequently targeted by fault attacks. These attacks can be utilized to hijack the control-flow of software allowing the attacker to bypass security measures, extract sensitive data, or gain full code execution. In this paper, we systematically analyze the threat vector of fault-induced control-flow manipulations on the open-source OpenTitan secure element. Our thorough analysis reveals that current countermeasures of this chip either induce large area overheads or still cannot prevent the attacker from exploiting the identified threats. In this context, we introduce SCRAMBLE-CFI, an encryption-based control-flow integrity scheme utilizing existing hardware features of OpenTitan. SCRAMBLE-CFI confines, with minimal hardware overhead, the impact of fault-induced control-flow attacks by encrypting each function with a different encryption tweak at load-time. At runtime, code only can be successfully decrypted when the correct decryption tweak is active. We open-source our hardware changes and release our LLVM toolchain automatically protecting programs. Our analysis shows that SCRAMBLE-CFI complementarily enhances security guarantees of OpenTitan with a negligible hardware overhead of less than 3.97
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