Toward Timed-Release Encryption in Web3 An Efficient Dual-Purpose Proof-of-Work Consensus

TL;DR

This paper introduces an efficient dual-purpose proof-of-work consensus mechanism enabling predictable, trustless timed-release encryption on blockchain, reducing reliance on traditional time-lock puzzles and enhancing security through economic incentives.

Contribution

It proposes a novel proof-of-work based approach that synchronizes content release with blockchain block times, eliminating the need for external time-lock puzzles and improving efficiency and security.

Findings

Content is released immediately upon block mining.

The scheme reduces computational costs compared to traditional time-lock puzzles.

Security is reinforced by economic incentives and blockchain hash power.

Abstract

Many existing timed-release encryption schemes uses time-lock puzzles to avoid relying on a trusted timeserver or a key holder which could be a weak spot in data security. However, it is unavoidable to consume massive computing power for solving time-lock puzzles and it is difficult for encryptors to predict the amount of time to solve a puzzle by decryptors. In this study, an efficient dual-purpose proof-of-work consensus allows users to release a time-locked content, which is encrypted by an asymmetric key encryption scheme on a blockchain, without trust in any third-party agents. The release time is predictable as the block time in a proof-of-work blockchain is adaptively controlled. The mining work is reproposed so that once a new block was mined on the blockchain network, time-lock puzzles were also solved immediately. No additional work is required to reveal the time-locked contents and the encryption is secured by monetary incentive mechanisms since it would be very costly to arrange an attack attempt, which must overtake the total hash rate of the whole blockchain network.