Documentation/rust/quick-start.rst - linux/kernel/git/torvalds/linux - Git at Google

 .. SPDX-License-Identifier: GPL-2.0

 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)

 Otherwise, fetch a standalone installer or install ``rustup`` from:

 	https://www.rust-lang.org


 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 repository may be cloned
 into the installation folder of the toolchain::

 	git clone --recurse-submodules \
 		--branch $(scripts/min-tool-version.sh rustc) \
 		https://github.com/rust-lang/rust \
 		$(rustc --print sysroot)/lib/rustlib/src/rust

 In this case, upgrading the Rust compiler version later on requires manually
 updating this clone.


 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:

 	https://releases.llvm.org/download.html

 Otherwise, building LLVM takes quite a while, but it is not a complex process:

 	https://llvm.org/docs/GettingStarted.html#getting-the-source-code-and-building-llvm

 Please see Documentation/kbuild/llvm.rst 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


 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.rst).

 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.rst).

 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.rst).

 ``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 <https://rust-analyzer.github.io/>`_ 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.


 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``).
	.. SPDX-License-Identifier: GPL-2.0

	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)

	Otherwise, fetch a standalone installer or install ``rustup`` from:

	https://www.rust-lang.org


	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 repository may be cloned
	into the installation folder of the toolchain::

	git clone --recurse-submodules \
	--branch $(scripts/min-tool-version.sh rustc) \
	https://github.com/rust-lang/rust \
	$(rustc --print sysroot)/lib/rustlib/src/rust

	In this case, upgrading the Rust compiler version later on requires manually
	updating this clone.


	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:

	https://releases.llvm.org/download.html

	Otherwise, building LLVM takes quite a while, but it is not a complex process:

	https://llvm.org/docs/GettingStarted.html#getting-the-source-code-and-building-llvm

	Please see Documentation/kbuild/llvm.rst 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


	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.rst).

	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.rst).

	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.rst).

	``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 <https://rust-analyzer.github.io/>`_ 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.


	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``).