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Proof and Isabelle Dependencies

Proof Dependencies

Linux Packages - Debian Bullseye

On Debian Bullseye, to run all proofs you will need to install the following packages:

sudo apt-get install \
    python3 python3-pip python3-dev \
    gcc-arm-none-eabi gcc-aarch64-linux-gnu gcc-riscv64-unknown-elf \
    build-essential libxml2-utils ccache \
    ncurses-dev librsvg2-bin device-tree-compiler cmake \
    ninja-build curl zlib1g-dev texlive-fonts-recommended \
    texlive-latex-extra texlive-metapost texlive-bibtex-extra \
    rsync

There is no package for the MLton compiler on Bullseye, so you will need to install it from the MLton website.

The Haskell Stack package is unavailable on Bullseye, so you will need to install it from the Haskell Stack website.

Continue with the python setup step below.

Linux Packages - Ubuntu

These instructions are intended for Ubuntu LTS versions 20.04, and 22.04.

To run all proofs you will need to install the following packages:

sudo apt-get install \
    python3 python3-pip python3-dev \
    gcc-arm-none-eabi gcc-aarch64-linux-gnu gcc-10-riscv64-linux-gnu \
    build-essential libxml2-utils ccache \
    ncurses-dev librsvg2-bin device-tree-compiler cmake \
    ninja-build curl zlib1g-dev texlive-fonts-recommended \
    texlive-latex-extra texlive-metapost texlive-bibtex-extra \
    mlton-compiler haskell-stack repo

Continue with the python setup step below.

macOS packages

The proofs work well on Intel and Apple Silicon Macs.

These instructions use Homebrew, which can be installed from their website. To install the main dependencies and cross compilers, use the following steps:

brew install git libxml2 ncurses librsvg dtc cmake ninja texlive rsync python ccache \
     zstd haskell-stack mlton arm-none-eabi-gcc repo

brew install --cask gcc-arm-embedded

brew tap messense/macos-cross-toolchains
brew install x86_64-unknown-linux-gnu aarch64-unknown-linux-gnu

brew tap riscv/riscv
brew install riscv-tools

The instructions in the sections below apply for both Linux and macOS.

Python

The build system for the seL4 kernel requires several python packages:

pip3 install --user --upgrade pip
pip3 install --user sel4-deps

Haskell Stack

After installing haskell-stack (already included in the packages above on Mac and Ubuntu), make sure you've adjusted your PATH to include $HOME/.local/bin, that you're running an up-to-date version, and that you have installed cabal:

stack upgrade --binary-only
which stack # should be $HOME/.local/bin/stack
stack install cabal-install

Checking out the repository collection

The seL4 repositories use the Google repo tool for configuration control and managing sets of repositories. For verification, this means in particular managing the correct combinations of the proofs, the kernel sources, and the Isabelle/HOL theorem prover.

The verification-manifest repository records which versions of these are known to work well together.

To check out a consistent set of repositories, run the following steps:

mkdir verification
cd verification
repo init -u https://[email protected]/seL4/verification-manifest.git
repo sync

If you are developing proofs, intending to contribute, and have ssh set up for GitHub, use

repo init -m devel.xml -u ssh://[email protected]/seL4/verification-manifest.git

instead for the init line. The -m devel.xml gives you the master branch of the l4v repository instead of the last known-good version. To set up git for ssh make sure to use the ssh:// protocol explicitly as above instead of just [email protected], because the short form seems to confuse repo.

If you are looking to use the proofs for a specific release version of seL4, use the -m option to select the corresponding manifest file in the verification-manifest repository.

Isabelle Setup

After the repository is set up using repo with the verification-manifest repository, you should have following directory structure, where l4v is the repository you are currently looking at:

verification/
    HOL4/
    graph-refine/
    isabelle/
    l4v/
    seL4/

To set up Isabelle for use in l4v/, assuming you have no previous installation of Isabelle, run the following commands in the directory verification/l4v/:

mkdir -p ~/.isabelle/etc
cp -i misc/etc/settings ~/.isabelle/etc/settings
./isabelle/bin/isabelle components -a
./isabelle/bin/isabelle jedit -bf
./isabelle/bin/isabelle build -bv HOL

These commands perform the following steps:

  • create an Isabelle user settings directory.
  • install L4.verified Isabelle settings. These settings initialise the Isabelle installation to use the standard Isabelle contrib tools from the Munich Isabelle repository and set up paths such that multiple Isabelle repository installations can be used side by side without interfering with each other.
  • download contrib components from the Isabelle repository. This includes Scala, a Java JDK, PolyML, and multiple external provers. You should download these, even if you have these tools previously installed elsewhere to make sure you have the right versions. Depending on your internet connection, this may take some time.
  • compile and build the Isabelle PIDE jEdit interface.
  • build basic Isabelle images to ensure that the installation works. This may take a few minutes.

Alternatively, it is possible to use the official Isabelle2022 release bundle for your platform from the Isabelle website. In this case, the installation steps above can be skipped, and you would replace the directory verification/isabelle/ with a symbolic link to the Isabelle home directory of the release version. Note that this is not recommended for development, since Google repo will overwrite this link when you synchronise repositories and Isabelle upgrades will have to be performed manually as development progresses.

You are now set up to process proofs, for instance by following the instructions at the bottom of the main README page.

The sections below contain a few tools and tips for proof development on seL4.

PIDE Tools

The following tools and tips can make writing proofs easier and more efficient when using the Isabelle PIDE jEdit interface.

WhiteSpace plugin

The WhiteSpace plugin can highlight normally invisible whitespace characters such as tabs and spaces, and can remove trailing whitespace on save. To install and configure the WhiteSpace plug-in for jEdit, follow the instructions below.

  1. Go to Plugins -> Plugin manager -> Install.
  2. Search for WhiteSpace and install the plugin.
  3. Go to Plugins -> Plugin Options -> WhiteSpace -> On save actions.
  4. Check "Remove trailing whitespace" and click Apply.

Key bindings for Navigator

The Isabelle PIDE provides "Back" and "Forward" actions that allow you to easily navigate to previous positions in your edit history. Follow the steps below to bind a key to the "Back" function. We recommend [ctrl]+[`].

  1. Go to Utilities -> Global Options -> jEdit -> Shortcuts.
  2. Select Action Set -> Plugin: Navigator.
  3. Set a shortcut for Back.

Go-to-error macro

Run the following commands in the directory verification/l4v/:

mkdir -p ~/.isabelle/jedit/macros
cp misc/jedit/macros/goto-error.bsh ~/.isabelle/jedit/macros/.

You can add keybindings for this macro in the usual way, by going to Utilities -> Global Options -> jEdit -> Shortcuts.

Additionally, our fork of Isabelle/jEdit has an updated indenter which is more proof-context aware than the 'original' indenter. Pressing ctrl+i while some apply-script text is selected should auto-indent the script while respecting subgoal depth and maintaining the relative indentation of multi-line apply statements.