International Association
for Cryptologic Research

Migration to quantum-safe cryptography represents a significant technological shift, addressing the vulnerabilities of traditional cryptographic primitives, such as KEMs and digital signatures. Yet, a number of challenges remain, especially in the development of secure solutions for sophisticated cryptographic applications. One of them is Smart-ID, European server-supported (threshold) signing service.

To address this issue, we present $\textsf{Electrum}$, a fail-stop server-supported signature scheme designed to enhance security of existing Smart-ID service. $\textsf{Electrum}$ combines multiprime RSA-based signatures with fail-stop features: providing not only unforgeability against classical adversaries but also allowing to prove that a given signature is a forgery made by classical and/or quantum adversaries. Proposed protocol can be seen as a temporary remedy against the quantum threat until standardised threshold signature schemes become a common practice. To prove security of $\textsf{Electrum}$, we introduce a new ideal functionality $\mathcal{F}^{\textsf{SplFS}}$ for a fail-stop server-supported signing in the Universal Composability model. We show that $\textsf{Electrum}$ protocol securely realizes the proposed functionality $\mathcal{F}^{\textsf{SplFS}}$.