This paper proposes IELE, an LLVM-style language, together with a tool ecosystem for implementing and formally reasoning about smart contracts on the blockchain. IELE was designed by specifying its semantics formally in the K framework. Its implementation, a IELE virtual machine (VM), as well as a formal verification tool for IELE smart contracts, were automatically generated from the formal specification. The automatically generated formal verification tool allows us to formally verify smart contracts without any gap between the verifier and the actual VM. A compiler from Solidity, the predominant highlevel language for smart contracts, to IELE has also been (manually) implemented, so Ethereum contracts can now also be executed on IELE.
We present RV-Match, a tool for checking C programs for undefined behavior and other common programmer mistakes. Our tool is extracted from the most complete formal semantics of the C11 language. Previous versions of this tool were used primarily for testing the correctness of the semantics, but we have improved it into a tool for doing practical analysis of real C programs. It beats many similar tools in its ability to catch a broad range of undesirable behaviors. We demonstrate this with comparisons based on a third-party benchmark.
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