# Setting up your local development environment For contributing rules and best practices please refer to [CONTRIBUTING.md](CONTRIBUTING.md) ## Before you start For this guide we assume that you already have GitHub account and have `git` and your favorite code editor or IDE installed and configured. Before you start working on coreutils, please follow these steps: 1. Fork the [coreutils repository](https://github.com/uutils/coreutils) to your GitHub account. ***Tip:*** See [this GitHub guide](https://docs.github.com/en/get-started/quickstart/fork-a-repo) for more information on this step. 2. Clone that fork to your local development environment: ```shell git clone https://github.com/YOUR-GITHUB-ACCOUNT/coreutils cd coreutils ``` ## Tools You will need the tools mentioned in this section to build and test your code changes locally. This section will explain how to install and configure these tools. We also have an extensive CI that uses these tools and will check your code before it can be merged. The next section [Testing](#testing) will explain how to run those checks locally to avoid waiting for the CI. ### Rust toolchain [Install Rust](https://www.rust-lang.org/tools/install) If you're using rustup to install and manage your Rust toolchains, `clippy` and `rustfmt` are usually already installed. If you are using one of the alternative methods, please make sure to install them manually. See following sub-sections for their usage: [clippy](#clippy) [rustfmt](#rustfmt). ***Tip*** You might also need to add 'llvm-tools' component if you are going to [generate code coverage reports locally](#code-coverage-report): ```shell rustup component add llvm-tools-preview ``` ### GNU utils and prerequisites If you are developing on Linux, most likely you already have all/most GNU utilities and prerequisites installed. To make sure, please check GNU coreutils [README-prereq](https://github.com/coreutils/coreutils/blob/master/README-prereq). You will need these to [run uutils against the GNU test suite locally](#comparing-with-gnu). For MacOS and Windows platform specific setup please check [MacOS GNU utils](#macos-gnu-utils) and [Windows GNU utils](#windows-gnu-utils) sections respectfully. ### pre-commit hooks A configuration for `pre-commit` is provided in the repository. It allows automatically checking every git commit you make to ensure it compiles, and passes `clippy` and `rustfmt` without warnings. To use the provided hook: 1. [Install `pre-commit`](https://pre-commit.com/#install) 1. Run `pre-commit install` while in the repository directory Your git commits will then automatically be checked. If a check fails, an error message will explain why, and your commit will be canceled. You can then make the suggested changes, and run `git commit ...` again. **NOTE: On MacOS** the pre-commit hooks are currently broken. There are workarounds involving switching to unstable nightly Rust and components. ### clippy ```shell cargo clippy --all-targets --all-features ``` The `msrv` key in the clippy configuration file `clippy.toml` is used to disable lints pertaining to newer features by specifying the minimum supported Rust version (MSRV). ### rustfmt ```shell cargo fmt --all ``` ### cargo-deny This project uses [cargo-deny](https://github.com/EmbarkStudios/cargo-deny/) to detect duplicate dependencies, checks licenses, etc. To run it locally, first install it and then run with: ```shell cargo deny --all-features check all ``` ### Markdown linter We use [markdownlint](https://github.com/DavidAnson/markdownlint) to lint the Markdown files in the repository. ### Spell checker We use `cspell` as spell checker for all files in the project. If you are using VS Code, you can install the [code spell checker](https://marketplace.visualstudio.com/items?itemName=streetsidesoftware.code-spell-checker) extension to enable spell checking within your editor. Otherwise, you can install [cspell](https://cspell.org/) separately. If you want to make the spell checker ignore a word, you can add ```rust // spell-checker:ignore word_to_ignore ``` at the top of the file. ## Testing This section explains how to run our CI checks locally. Testing can be done using either Cargo or `make`. ### Testing with Cargo Just like with building, we follow the standard procedure for testing using Cargo: ```shell cargo test ``` By default, `cargo test` only runs the common programs. To run also platform specific tests, run: ```shell cargo test --features unix ``` If you would prefer to test a select few utilities: ```shell cargo test --features "chmod mv tail" --no-default-features ``` If you also want to test the core utilities: ```shell cargo test -p uucore -p coreutils # or cargo test --all-features -p uucore ``` Running the complete test suite might take a while. We use [nextest](https://nexte.st/index.html) in the CI and you might want to try it out locally. It can speed up the execution time of the whole test run significantly if the cpu has multiple cores. ```shell cargo nextest run --features unix --no-fail-fast ``` To debug: ```shell rust-gdb --args target/debug/coreutils ls (gdb) b ls.rs:79 (gdb) run ``` ### Testing with GNU Make To simply test all available utilities: ```shell make test ``` To test all but a few of the available utilities: ```shell make SKIP_UTILS='UTILITY_1 UTILITY_2' test ``` To test only a few of the available utilities: ```shell make UTILS='UTILITY_1 UTILITY_2' test ``` To include tests for unimplemented behavior: ```shell make UTILS='UTILITY_1 UTILITY_2' SPEC=y test ``` To run tests with `nextest` just use the nextest target. Note you'll need to [install](https://nexte.st/book/installation.html) `nextest` first. The `nextest` target accepts the same arguments like the default `test` target, so it's possible to pass arguments to `nextest run` via `CARGOFLAGS`: ```shell make CARGOFLAGS='--no-fail-fast' UTILS='UTILITY_1 UTILITY_2' nextest ``` ### Run Busybox Tests This testing functionality is only available on *nix operating systems and requires `make`. To run busybox tests for all utilities for which busybox has tests ```shell make busytest ``` To run busybox tests for a few of the available utilities ```shell make UTILS='UTILITY_1 UTILITY_2' busytest ``` To pass an argument like "-v" to the busybox test runtime ```shell make UTILS='UTILITY_1 UTILITY_2' RUNTEST_ARGS='-v' busytest ``` ### Comparing with GNU To run uutils against the GNU test suite locally, run the following commands: ```shell bash util/build-gnu.sh # Build uutils without release optimizations UU_MAKE_PROFILE=debug bash util/build-gnu.sh bash util/run-gnu-test.sh # To run a single test: bash util/run-gnu-test.sh tests/touch/not-owner.sh # for example # To run several tests: bash util/run-gnu-test.sh tests/touch/not-owner.sh tests/rm/no-give-up.sh # for example # If this is a perl (.pl) test, to run in debug: DEBUG=1 bash util/run-gnu-test.sh tests/misc/sm3sum.pl ``` ***Tip:*** First time you run `bash util/build-gnu.sh` command, it will provide instructions on how to checkout GNU coreutils repository at the correct release tag. Please follow those instructions and when done, run `bash util/build-gnu.sh` command again. Note that GNU test suite relies on individual utilities (not the multicall binary). ## Code coverage report Code coverage report can be generated using [grcov](https://github.com/mozilla/grcov). ### Using Nightly Rust To generate [gcov-based](https://github.com/mozilla/grcov#example-how-to-generate-gcda-files-for-a-rust-project) coverage report ```shell export CARGO_INCREMENTAL=0 export RUSTFLAGS="-Zprofile -Ccodegen-units=1 -Copt-level=0 -Clink-dead-code -Coverflow-checks=off -Zpanic_abort_tests -Cpanic=abort" export RUSTDOCFLAGS="-Cpanic=abort" cargo build # e.g., --features feat_os_unix cargo test # e.g., --features feat_os_unix test_pathchk grcov . -s . --binary-path ./target/debug/ -t html --branch --ignore-not-existing --ignore build.rs --excl-br-line "^\s*((debug_)?assert(_eq|_ne)?\#\[derive\()" -o ./target/debug/coverage/ # open target/debug/coverage/index.html in browser ``` if changes are not reflected in the report then run `cargo clean` and run the above commands. ### Using Stable Rust If you are using stable version of Rust that doesn't enable code coverage instrumentation by default then add `-Z-Zinstrument-coverage` flag to `RUSTFLAGS` env variable specified above. ## Tips for setting up on Mac ### C Compiler and linker On MacOS you'll need to install C compiler & linker: ```shell xcode-select --install ``` ### MacOS GNU utils On MacOS you will need to install [Homebrew](https://docs.brew.sh/Installation) and use it to install the following Homebrew formulas: ```shell brew install \ coreutils \ autoconf \ gettext \ wget \ texinfo \ xz \ automake \ gnu-sed \ m4 \ bison \ pre-commit \ findutils ``` After installing these Homebrew formulas, please make sure to add the following lines to your `zsh` or `bash` rc file, i.e. `~/.profile` or `~/.zshrc` or `~/.bashrc` ... (assuming Homebrew is installed at default location `/opt/homebrew`): ```shell eval "$(/opt/homebrew/bin/brew shellenv)" export PATH="/opt/homebrew/opt/coreutils/libexec/gnubin:$PATH" export PATH="/opt/homebrew/opt/bison/bin:$PATH" export PATH="/opt/homebrew/opt/findutils/libexec/gnubin:$PATH" ``` Last step is to link Homebrew coreutils version of `timeout` to `/usr/local/bin` (as admin user): ```shell sudo ln -s /opt/homebrew/bin/timeout /usr/local/bin/timeout ``` Do not forget to either source updated rc file or restart you terminal session to update environment variables. ## Tips for setting up on Windows ### MSVC build tools On Windows you'll need the MSVC build tools for Visual Studio 2013 or later. If you are using `rustup-init.exe` to install Rust toolchain, it will guide you through the process of downloading and installing these prerequisites. Otherwise please follow [this guide](https://learn.microsoft.com/en-us/windows/dev-environment/rust/setup). ### Windows GNU utils If you have used [Git for Windows](https://gitforwindows.org) to install `git` on you Windows system you might already have some GNU core utilities installed as part of "GNU Bash" included in Git for Windows package, but it is not a complete package. [This article](https://gist.github.com/evanwill/0207876c3243bbb6863e65ec5dc3f058) provides instruction on how to add more to it. Alternatively you can install [Cygwin](https://www.cygwin.com) and/or use [WSL2](https://learn.microsoft.com/en-us/windows/wsl/compare-versions#whats-new-in-wsl-2) to get access to all GNU core utilities on Windows.