Quick Start¶
This document describes how to get started with kernel development in Rust.
Requirements: Building¶
This section explains how to fetch the tools needed for building.
Some of these requirements might be available from Linux distributions
under names like rustc
, rust-src
, rust-bindgen
, etc. However,
at the time of writing, they are likely not to be recent enough unless
the distribution tracks the latest releases.
To easily check whether the requirements are met, the following target can be used:
make LLVM=1 rustavailable
This triggers the same logic used by Kconfig to determine whether
RUST_IS_AVAILABLE
should be enabled; but it also explains why not
if that is the case.
rustc¶
A particular version of the Rust compiler is required. Newer versions may or may not work because, for the moment, the kernel depends on some unstable Rust features.
If rustup
is being used, enter the checked out source code directory
and run:
rustup override set $(scripts/min-tool-version.sh rustc)
This will configure your working directory to use the correct version of
rustc
without affecting your default toolchain. If you are not using
rustup
, fetch a standalone installer from:
Rust standard library source¶
The Rust standard library source is required because the build system will
cross-compile core
and alloc
.
If rustup
is being used, run:
rustup component add rust-src
The components are installed per toolchain, thus upgrading the Rust compiler version later on requires re-adding the component.
Otherwise, if a standalone installer is used, the Rust source tree may be downloaded into the toolchain's installation folder:
curl -L "https://static.rust-lang.org/dist/rust-src-$(scripts/min-tool-version.sh rustc).tar.gz" |
tar -xzf - -C "$(rustc --print sysroot)/lib" \
"rust-src-$(scripts/min-tool-version.sh rustc)/rust-src/lib/" \
--strip-components=3
In this case, upgrading the Rust compiler version later on requires manually
updating the source tree (this can be done by removing $(rustc --print
sysroot)/lib/rustlib/src/rust
then rerunning the above command).
libclang¶
libclang
(part of LLVM) is used by bindgen
to understand the C code
in the kernel, which means LLVM needs to be installed; like when the kernel
is compiled with CC=clang
or LLVM=1
.
Linux distributions are likely to have a suitable one available, so it is best to check that first.
There are also some binaries for several systems and architectures uploaded at:
Otherwise, building LLVM takes quite a while, but it is not a complex process:
Please see Building Linux with Clang/LLVM for more information and further ways to fetch pre-built releases and distribution packages.
bindgen¶
The bindings to the C side of the kernel are generated at build time using
the bindgen
tool. A particular version is required.
Install it via (note that this will download and build the tool from source):
cargo install --locked --version $(scripts/min-tool-version.sh bindgen) bindgen-cli
bindgen
needs to find a suitable libclang
in order to work. If it is
not found (or a different libclang
than the one found should be used),
the process can be tweaked using the environment variables understood by
clang-sys
(the Rust bindings crate that bindgen
uses to access
libclang
):
LLVM_CONFIG_PATH
can be pointed to anllvm-config
executable.Or
LIBCLANG_PATH
can be pointed to alibclang
shared library or to the directory containing it.Or
CLANG_PATH
can be pointed to aclang
executable.
For details, please see clang-sys
's documentation at:
Requirements: Developing¶
This section explains how to fetch the tools needed for developing. That is, they are not needed when just building the kernel.
rustfmt¶
The rustfmt
tool is used to automatically format all the Rust kernel code,
including the generated C bindings (for details, please see
Coding Guidelines).
If rustup
is being used, its default
profile already installs the tool,
thus nothing needs to be done. If another profile is being used, the component
can be installed manually:
rustup component add rustfmt
The standalone installers also come with rustfmt
.
clippy¶
clippy
is a Rust linter. Running it provides extra warnings for Rust code.
It can be run by passing CLIPPY=1
to make
(for details, please see
General Information).
If rustup
is being used, its default
profile already installs the tool,
thus nothing needs to be done. If another profile is being used, the component
can be installed manually:
rustup component add clippy
The standalone installers also come with clippy
.
cargo¶
cargo
is the Rust native build system. It is currently required to run
the tests since it is used to build a custom standard library that contains
the facilities provided by the custom alloc
in the kernel. The tests can
be run using the rusttest
Make target.
If rustup
is being used, all the profiles already install the tool,
thus nothing needs to be done.
The standalone installers also come with cargo
.
rustdoc¶
rustdoc
is the documentation tool for Rust. It generates pretty HTML
documentation for Rust code (for details, please see
General Information).
rustdoc
is also used to test the examples provided in documented Rust code
(called doctests or documentation tests). The rusttest
Make target uses
this feature.
If rustup
is being used, all the profiles already install the tool,
thus nothing needs to be done.
The standalone installers also come with rustdoc
.
rust-analyzer¶
The rust-analyzer language server can be used with many editors to enable syntax highlighting, completion, go to definition, and other features.
rust-analyzer
needs a configuration file, rust-project.json
, which
can be generated by the rust-analyzer
Make target:
make LLVM=1 rust-analyzer
Configuration¶
Rust support
(CONFIG_RUST
) needs to be enabled in the General setup
menu. The option is only shown if a suitable Rust toolchain is found (see
above), as long as the other requirements are met. In turn, this will make
visible the rest of options that depend on Rust.
Afterwards, go to:
Kernel hacking
-> Sample kernel code
-> Rust samples
And enable some sample modules either as built-in or as loadable.
Building¶
Building a kernel with a complete LLVM toolchain is the best supported setup at the moment. That is:
make LLVM=1
For architectures that do not support a full LLVM toolchain, use:
make CC=clang
Using GCC also works for some configurations, but it is very experimental at the moment.
Hacking¶
To dive deeper, take a look at the source code of the samples
at samples/rust/
, the Rust support code under rust/
and
the Rust hacking
menu under Kernel hacking
.
If GDB/Binutils is used and Rust symbols are not getting demangled, the reason is the toolchain does not support Rust's new v0 mangling scheme yet. There are a few ways out:
Install a newer release (GDB >= 10.2, Binutils >= 2.36).
Some versions of GDB (e.g. vanilla GDB 10.1) are able to use the pre-demangled names embedded in the debug info (
CONFIG_DEBUG_INFO
).