Our talk presents attacks on the cryptography used in the cryptocurrency IOTA, which is currently the 10th largest cryptocurrency with a market capitalization of 2.8 billion USD. IOTA is billed as a next generation blockchain for the Internet of Things (IoT) and claims partnerships with major companies in the IoT space such as Volkswagen and Bosch.
We developed practical differential cryptanalysis attacks on IOTA's cryptographic hash function Curl-P, allowing us to quickly generate short colliding messages of the same length. Exploiting these weaknesses in Curl-P, we break the EU-CMA security of the IOTA signature scheme. Finally, we show that in a chosen message setting we can forge signatures on valid IOTA payments. We present and demonstrate a practical attack (achievable in a few minutes) whereby an attacker could forge a signature on an IOTA payment, and potentially use this forged signature to steal funds from another IOTA user.
After we disclosed our attacks to the IOTA project, they patched the vulnerabilities presented in our research. However, Curl-P is still used in other parts of IOTA.