Home

Awesome

<p><div style="text-align: center"> <img src="static/Charon.jpg" alt="Landscape with Charon crossing the Styx" title="Landscape with Charon crossing the Styx" style=""/> <figcaption> Patinir, E., 1515-1524, <i>Landscape with Charon crossing the Styx</i> [Oil on wood]. Museo del Prado, Madrid. <a href="https://en.wikipedia.org/wiki/Landscape_with_Charon_Crossing_the_Styx">Source</a> </figcaption> </div></p>

Charon

Charon acts as an interface between the rustc compiler and program verification projects. Its purpose is to process Rust crates and convert them into files easy to handle by program verifiers. It is implemented as a custom driver for the rustc compiler.

Charon is, in Greek mythology, an old man carrying the souls of the deceased accross the Styx, a river separating the world of the living from the world of the dead. In the present context, Charon allows us to go from the world of Rust programs to the world of formal verification.

We are open to contributions! Please contact us so that we can coordinate ourselves, if you are willing to contribute. For this purpose you can join the Zulip.

LLBC

Charon converts MIR code to ULLBC (Unstructured Low-Level Borrow Calculus) then to LLBC. Both ASTs can be output by Charon.

ULLBC is a slightly simplified MIR, where we try to remove as much redundancies as possible. For instance, we drastically simplify the representation of constants coming from the Rust compiler.

LLBC is ULLBC where we restructured the control-flow with loops, if ... then ... else ..., etc. instead of gotos. Consequently, we merge MIR statements and terminators into a single LLBC statement type. We also perform some additional modifications, some of which are listed below:

Remark: most of the transformations which transform the MIR to ULLBC then LLBC are implemented by means of micro-passes. Depending on the need, we could make them optional and control them with flags. If you want to know more about the details, see translate in src/driver.rs, which applies the micro-passes one after the other.

Remark: if you want to know the full details of (U)LLBC, have a look at: types.rs, values.rs, expressions.rs, ullbc_ast.rs and llbc_ast.rs.

The extracted AST is serialized in .ullbc and .llbc files (using the JSON format). We extract a whole crate in one file.

Project Structure

Installation & Build

You first need to install rustup.

As Charon is set up with cargo, rustup will automatically download and install the proper packages upon building the project. If you only want to build the Rust project (in ./charon), simply run make build-charon-rust in the top directory.

If you also want to build the ML library (in ./charon-ml), you will need to install OCaml and the proper dependencies.

We suggest you to follow those instructions, and install OPAM on the way (same instructions).

For Charon-ML, we use OCaml 4.13.1: opam switch create 4.13.1+options

The dependencies can be installed with the following command:

opam install ppx_deriving visitors easy_logging zarith yojson core_unix odoc menhir

You can then run make build-charon-ml to build the ML library, or even simply make to build the whole project (Rust and OCaml). Finally, you can run the tests with make test.

Alternatively, you can use Nix and do nix develop (or use https://direnv.net/ and direnv allow) and all dependencies should be made available.

Documentation

If you run make, you will generate a documentation accessible from doc-rust.html (for the Rust project) and doc-ml.html (for the ML library).

Usage

To run Charon, you should run the Charon binary from within the crate that you want to compile, as if you wanted to build the crate with cargo build. The Charon executable is located at bin/charon.

Charon will build the crate and its dependencies, then extract the AST. Charon provides various options and flags to tweak its behaviour: you can display a detailed documentation with --help. In particular, you can print the LLBC generated by Charon with --print-llbc.

If there is a Charon.toml file at the root of your project, charon will also take options from it. The file supports the same options at the cli interface, except for the options that relate to input/output like --print-llbc. Example Charon.toml:

[charon]
extract_opaque_bodies = true
[rustc]
flags = ["--cfg", "abc"]

Remark: because Charon is compiled with Rust nigthly (this is a requirement to implement a rustc driver), it will build your crate with Rust nightly. You can find the nightly version pinned for Charon in rust-toolchain.template.