Mikhail Volkhov scite author profile

Due to the simplicity and performance of zk-SNARKs they are widely used in real-world cryptographic protocols, including blockchain and smart contract systems. Simulation Extractability (SE) is a necessary security property for a NIZK argument to achieve Universal Composability (UC), a common requirement for such protocols. Most of the works that investigated SE focus on its strong variant which implies proof nonmalleability. In this work we investigate a relaxed weaker notion, that allows proof randomization, while guaranteeing statement non-malleability, which we argue to be a more natural security property. First, we show that it is already achievable by Groth16, arguably the most efficient and widely deployed SNARK nowadays. Second, we show that because of this, Groth16 can be efficiently transformed into a black-box weakly SE NIZK, which is sufficient for UC protocols. To support the second claim, we present and compare two practical constructions, both of which strike different performance tradeoffs:-Int-Groth16 makes use of a known transformation that encrypts the witness inside the SNARK circuit. We instantiate this transformation with an efficient SNARK-friendly encryption scheme. -Ext-Groth16 is based on the SAVER encryption scheme (Lee et al.) that plugs the encrypted witness directly into the verification equation, externally to the circuit. We prove that Ext-Groth16 is black-box weakly SE and, contrary to Int-Groth16, that its proofs are fully randomizable.

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Zero-Knowledge Arguments for Subverted RSA Groups

Kolonelos

Maller²,

Volkhov

2023

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This work investigates zero-knowledge protocols in subverted RSA groups where the prover can choose the modulus and where the verifier does not know the group order. We introduce a novel technique for extracting the witness from a general homomorphism over a group of unknown order that does not require parallel repetitions. We then present a NIZK range proof for general homomorphisms as Paillier encryptions in the designated verifier model that works under a subverted setup. The key ingredient of our proof is a constant sized NIZK proof of knowledge for a plaintext. Security is proven in the ROM assuming an IND-CPA additively homomorphic encryption scheme. The verifier's public key can be maliciously generated and is reusable and linear in the number of proofs to be verified.

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Zswap: zk-SNARK Based Non-Interactive Multi-Asset Swaps

Engelmann

Kerber

Kohlweiss

et al. 2022

PoPETs

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Privacy-oriented cryptocurrencies, like Zcash or Monero, provide fair transaction anonymity and confidentiality, but lack important features compared to fully public systems, like Ethereum. Specifically, supporting assets of multiple types and providing a mechanism to atomically exchange them, which is critical for e.g. decentralized finance (DeFi), is challenging in the private setting. By combining insights and security properties from Zcash and SwapCT (PETS 21, an atomic swap system for Monero), we present a simple zk-SNARKs based transaction scheme, called Zswap, which is carefully malleable to allow the merging of transactions, while preserving anonymity. Our protocol enables multiple assets and atomic exchanges by making use of sparse homomorphic commitments with aggregated open randomness, together with Zcash friendly simulation-extractable non-interactive zero-knowledge (NIZK) proofs. This results in a provably secure privacypreserving transaction protocol, with efficient swaps, and overall performance close to that of existing deployed private cryptocurrencies. It is similar to Zcash Sapling and benefits from existing code-bases and implementation expertise.

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Mikhail Volkhov

Snarky Ceremonies

Another Look at Extraction and Randomization of Groth’s zk-SNARK

Zero-Knowledge Arguments for Subverted RSA Groups

Zswap: zk-SNARK Based Non-Interactive Multi-Asset Swaps

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