Download PDFOpen PDF in browserDivide and Conquer: a Compositional Approach to Game-Theoretic SecurityEasyChair Preprint 15785, version 248 pages•Date: September 12, 2025AbstractWe propose a compositional approach to combine and scale automated reasoning in the static analysis of decentralized system security, such as blockchains. Our focus lies in the game-theoretic security analysis of such systems, allowing us to examine economic incentives behind user actions. In this context, it is particularly important to certify that deviating from the intended, honest behavior of the decentralized protocol is not beneficial: as long as users follow the protocol, they cannot be financially harmed, regardless of how others behave. Such an economic analysis of blockchain protocols can be encoded as an automated reasoning problem in the first-order theory of real arithmetic, reducing game-theoretic reasoning to satisfiability modulo theories (SMT). However, analyzing an entire game-theoretic model (called a game) as a single SMT instance does not scale to protocols with millions of interactions. We address this challenge and propose a divide-and-conquer security analysis based on compositional reasoning over games. Our compositional analysis is incremental: we divide games into subgames such that changes to one subgame do not necessitate re-analyzing the entire game, but only the ancestor nodes. Our approach is sound, complete, and effective: combining the security properties of subgames yields security of the entire game. Experimental results show that compositional reasoning discovers intra-game properties and errors while scaling to games with millions of nodes, enabling security analysis of large protocols. Keyphrases: SMT solving, Security, automated reasoning, game theory
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