While error correcting codes (ECC) have the potential to significantly reduce the failure probability of post-quantum schemes, they add an extra ECC decoding step to the algorithm. Even though this additional step does not compute directly on the secret key, it is susceptible to side-channel attacks. We show that if no precaution is taken, it is possible to use timing information to distinguish between ciphertexts that result in an error before decoding and ciphertexts that do not contain errors, due to the variable execution time of the ECC decoding algorithm. We demonstrate that this information can be used to break the IND-CCA security of post-quantum secure schemes by presenting an attack on two round 1 candidates to the NIST Post-Quantum Standardization Process: the Ring-LWE scheme LAC and the Mersenne prime scheme Ramstake. This attack recovers the full secret key using a limited number of timed decryption queries and is implemented on the reference and the optimized implementations of both submissions. It is able to retrieve LAC's secret key for all security levels in under 2 minutes using less than 2 16 decryption queries and Ramstake's secret key in under 2 minutes using approximately 2400 decryption queries. The attack generalizes to other lattice-based schemes with ECC in which any side-channel information about the presence of errors is leaked during decoding.
Mersenne number schemes are a new strain of potentially quantumsafe cryptosystems that use sparse integer arithmetic modulo a Mersenne prime to encrypt messages. Two Mersenne number based schemes were submitted to the NIST post-quantum standardization process: Ramstake and Mersenne-756839. Typically, these schemes admit a low but non-zero probability that ciphertexts fail to decrypt correctly. In this work we show that the information leaked from failing ciphertexts can be used to gain information about the secret key. We present an attack exploiting this information to break the IND-CCA security of Ramstake. First, we introduce an estimator for the bits of the secret key using decryption failures. Then, our estimates can be used to apply the Slice-and-Dice attack due to Beunardeau et al. at significantly reduced complexity to recover the full secret. We implemented our attack on a simplified version of the code submitted to the NIST competition. Our attack is able to extract a good estimate of the secrets using 2 12 decryption failures, corresponding to 2 74 failing ciphertexts in the original scheme. Subsequently the exact secrets can be extracted in (2 46) quantum computational steps. CCS CONCEPTS • Security and privacy → Cryptanalysis and other attacks.
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