International Association
for Cryptologic Research

Traceable ring signatures enhance ring signatures by adding an accountability layer. Specifically, if a party signs two different messages within the protocol, their identity is revealed. Another desirable feature is $\textit{extendability}$. In particular, $\textit{extendable threshold}$ ring signatures (ETRS) allow to $\textit{non-interactively}$ update already finalized signatures by enlarging the ring or the set of signers.

Combining traceability and extendability in a single scheme is unexplored and would offer a new tool for privacy-preserving voting schemes in scenarios where the voters are not known in advance. In this paper, we show how to reconcile both properties by introducing and constructing a new cryptographic primitive called Tetris. Notably, our Tetris construction simultaneously achieves strong anonymity and linear-size signatures, which is the main technical challenge in existing techniques. To solve this challenge, we develop a new approach to traceability that leads to several conceptual and technical contributions. Among those, we introduce and construct, based on Groth-Sahai proofs, $\textit{extendable}$ shuffle arguments that can be $\textit{non-interactively}$ updated by several provers.