This git repository contains the source of the abstract interpreter presented in our paper Verified Functional Programming of an Abstract Interpreter.
Thanks to nix, our work is entierly reproducible, in a few lines of bash:
sh <(curl -L https://nixos.org/nix/install) --daemon # Install the Nix package manager
git clone https://github.com/W95Psp/verified-abstract-interpreter # Clone this repo
cd verified-abstract-interpreter
nix-build --attr all # BuildPaper abstract. Abstract interpreters are complex pieces of software: even if the abstract interpretation theory and companion algorithms are well understood, their implementations are subject to bugs, that might question the soundness of their computations.
While some formally verified abstract interpreters have been written in the past, writing and understanding them requires expertise in the use of proof assistants, and requires a non-trivial amount of interactive proofs.
This paper presents a formally verified abstract interpreter fully programmed and proved correct in the F* verified programming environment. Thanks to F* refinement types and SMT prover capabilities we demonstrate a substantial saving in proof effort compared to previous works based on interactive proof assistants.
Almost all the code of our implementation, proofs included, written in a functional style, are presented directly in the paper.
This repository is organized as following.
srccontains all the F* source code:src/corecontains the abstract interpreter itself, every definition presented in the paper lives in this directory;src/appcontains the command line frontend to the abstract interpreter;src/jscontains the sources of the web wrapper.
latexcontains LaTeX supplementary files, but the paper is written as F* comments directly in the modules available undersrc/code.testscontains a set of unit tests for the abstract interpreter.
Note: building the abstract interpreter triggers a build of F* and Z3 from scratch, which requires about 30 minutes on my machine.
Install Nix on any Linux distribution, MacOS and Windows (via WSL) via the recommended multi-user installation:
sh <(curl -L https://nixos.org/nix/install) --daemon– Nix website
The command nix-build --attr all creates the directory result with:
bin/analyser: the binary for the abstract interpretor (./analyser --helpexplain its usage);examples: the example programs,maketo run every test;paper.pdf,paper.tex: the paper;test-report.log: the log report for tests;typechecking.log: the output of F* typechecking the abstract interpreter.
All the steps below require nix to be installed (sh <(curl -L https://nixos.org/nix/install) --daemon).
A single line of bash:
nix-shell --attr shellNix --run preconfigured-emacs
will open Emacs configured with the correct Z3 and F* binaries in
PATH, with fstar-mode
configured, and the important modules opened.
nix-shell --attr shellNix will drop you in a shell with the correct
fstar.exe in PATH.
Just run again nix-build --attr analyser.
Just go to https://w95psp.github.io/verified-abstract-interpreter
Compile the analyser to JavaScript and run a server locally:
nix-shell --attr webapp-nix-shell --run httpserver
Then open http://localhost:8251/ in a web browser.
nix-build --attr analyser: builds the binary in./result/analyser;nix-build --attr js-analyser: builds the web application version of the analyser in./result/analyser;nix-build --attr fstar: builds the version we use of F* in./result/bin/fstar.exe;nix-build --attr latex -o paper.tex: builds the latex of the paper as./paper.tex;nix-build --attr ocaml: extract the abstract interpreter as OCaml code in./result/;nix-build --attr pdf -o paper.pdf: builds the PDF for the paper aspaper.pdf;nix-build --attr tests -o tests.log: run the tests;nix-build --attr typecheck -o typecheck.log: typecheck all the modules with F*.
Nix builds packages in isolation from each other. This ensures that they are reproducible and don't have undeclared dependencies, so if a package works on one machine, it will also work on another. – https://nixos.org/
- https://nixos.org/
- https://www.tweag.io/blog/2020-06-18-software-heritage/
- https://serokell.io/blog/what-is-nix
The abstract interpreter actually uses the recent Nix Flakes. If you happen to have flakes enabled on your machine, you can:
nix build .#any-of-the-targets-above;nix run .#emacs;nix run .#webapp.