Formally Verified Cryptographic Web Applications in WebAssembly
- Jonathan Protzenko ,
- Benjamin Beurdouche ,
- Denis Merigoux ,
- Karthikeyan Bhargavan
2019 IEEE Symposium on Security and Privacy (SP) |
After suffering decades of high-profile attacks, the need for formal verification of security-critical software has never been clearer. Verification-oriented programming languages like F∗ are now being used to build high-assurance cryptographic libraries and implementations of standard protocols like TLS. In this paper, we seek to apply these verification techniques to modern Web applications, like WhatsApp, that embed sophisticated custom cryptographic components. The problem is that these components are often implemented in JavaScript, a language that is both hostile to cryptographic code and hard to reason about. So we instead target WebAssembly, a new instruction set that is supported by all major JavaScript runtimes.
We present a new toolchain that compiles Low∗ , a low-level subset of the F∗ programming language, into WebAssembly. Unlike other WebAssembly compilers like Emscripten, our compilation pipeline is focused on compactness and auditability: we formalize the full translation rules in the paper and implement it in a few thousand lines of OCaml. Using this toolchain, we present two case studies. First, we build WHACL∗ , a WebAssembly version of the existing, verified HACL∗ cryptographic library. Then, we present LibSignal*, a brand new, verified implementation of the Signal protocol in WebAssembly, that can be readily used by messaging applications like WhatsApp, Skype, and Signal.
Téléchargements de publications
EverCrypt
juin 26, 2019
EverCrypt is a high-performance, cross-platform, formally verified modern cryptographic provider distributed as a combined C/ASM library. EverCrypt packages cryptographic implementations from the HACL* and ValeCrypt projects, and automatically picks the fastest one available, depending on processor support and the target execution environment (multiplexing). Furthermore, EverCrypt offers an (agile) API that makes it simple to switch between algorithms (e.g., from SHA2 to SHA3). Code from EverCrypt has been integrated in Linux, Firefox, the Tezos blockchain, the Election Guard project, and many more.