International Association
for Cryptologic Research

SCARF is a tweakable block cipher dedicated to cache address randomization, proposed at the USENIX Security conference. It has a 10-bit block, 48-bit tweak, and 240-bit key. SCARF is aggressively optimized to meet the harsh latency constraints of cache address randomization, and uses a dedicated model for its security claim. The full version of SCARF has 8 rounds, and its designers claim security up to $2^{40}$ queries and $2^{80}$ computations. In this work we present a distinguisher against 6-round SCARF under the collision model with time and query complexity $2^{30}$, and a key-recovery attack against the full 8-round SCARF under the encryption-decryption model with $2^{39}$ queries and time $2^{76.2}$. As part of the attack, we present a novel method to compute the minimal number of right pairs following a differential characteristic when the input pairs are restricted to a subspace of the domain of the primitive.