English

Typing Fallback Functions: A Semantic Approach to Type Safe Smart Contracts

Programming Languages 2026-04-28 v2

Abstract

This paper develops semantic typing in a smart-contract setting to ensure type safety of code that uses statically untypable language constructs, such as the fallback function. The idea is that the creator of a contract on the blockchain equips code containing such constructs with a formal proof of its type safety, given in terms of the semantics of types. Then, a user of the contract only needs to check the validity of the provided 'proof certificate' of type safety. This is a form of proof-carrying code, which naturally fits with the immutable nature of the blockchain environment. As a concrete application of our approach, we focus on ensuring information flow control and non-interference for TinySol, a distilled version of the Solidity language, through security types. We provide the semantics of types in terms of a typed operational semantics of TinySol and we express the proofs of safety as coinductively-defined typing interpretations, which can be represented compactly via up-to techniques, similar to those used for bisimilarity. We also show how our machinery can be used to type the typical pointer-to-implementation pattern based on the fallback function and to reject a distilled version of the infamous Parity Multisig Wallet Attack.

Keywords

Cite

@article{arxiv.2512.04755,
  title  = {Typing Fallback Functions: A Semantic Approach to Type Safe Smart Contracts},
  author = {Stian Lybech and Daniele Gorla and Luca Aceto},
  journal= {arXiv preprint arXiv:2512.04755},
  year   = {2026}
}
R2 v1 2026-07-01T08:09:25.245Z