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Return-Oriented Programming on RISC-V

Georges-Axel Jaloyan, Konstantinos Markantonakis, Raja Naeem Akram, D. Robin, Keith Mayes, David Naccache

202021 citationsDOIOpen Access PDF

Abstract

This paper provides the first analysis on the feasibility of Return-Oriented programming (ROP) on RISC-V, a new instruction set architecture targeting embedded systems. We show the existence of a new class of gadgets, using several Linear Code Sequences And Jumps (LCSAJ), undetected by current Galileo-based ROP gadget searching tools. We argue that this class of gadgets is rich enough on RISC-V to mount complex ROP attacks, bypassing traditional mitigation like DEP, ASLR, stack canaries, G-Free and some compiler-based backward-edge CFI, by jumping over any guard inserted by a compiler to protect indirect jump instructions. We provide examples of such gadgets, as well as a proof-of-concept ROP chain, using C code injection to leverage a privilege escalation attack on two standard Linux operating systems. Additionally, we discuss some of the required mitigations to prevent such attacks and provide a new ROP gadget finder algorithm that handles this new class of gadgets.

Topics & Concepts

GadgetComputer scienceCompilerOperating systemGuard (computer science)Optimizing compilerEmbedded systemProgramming languageAlgorithmSecurity and Verification in ComputingAdvanced Malware Detection TechniquesPhysical Unclonable Functions (PUFs) and Hardware Security
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