Introduction
rustup installs The Rust Programming Language from the official release channels, enabling you to easily switch between stable, beta, and nightly compilers and keep them updated. It makes cross-compiling simpler with binary builds of the standard library for common platforms. And it runs on all platforms Rust supports.
Check out the Concepts chapter for an overview of how rustup works and some of the terminology it uses. The Installation chapter covers installing rustup and getting started.
The source code of rustup and this manual may be found at https://github.com/rust-lang/rustup. If you find a problem, check out the issue tracker.
Release notes for rustup may be found in the CHANGELOG.
Installation
Follow the instructions at https://www.rust-lang.org/tools/install. If that doesn’t work for you there are other installation methods.
rustup
installs rustc
, cargo
, rustup
and other standard tools to
Cargo’s bin
directory. On Unix it is located at $HOME/.cargo/bin
and on
Windows at %USERPROFILE%\.cargo\bin
. This is the same directory that cargo install
will install Rust programs and Cargo plugins.
This directory will be in your $PATH
environment variable, which means you
can run them from the shell without further configuration. Open a new shell
and type the following:
rustc --version
If you see something like rustc 1.19.0 (0ade33941 2017-07-17)
then you are
ready to Rust. If you decide Rust isn’t your thing, you can completely remove
it from your system by running rustup self uninstall
.
Choosing where to install
rustup
allows you to customise your installation by setting the environment
variables CARGO_HOME
and RUSTUP_HOME
before running the rustup-init
executable. As mentioned in the Environment Variables section, RUSTUP_HOME
sets the root rustup
folder, which is used for storing installed toolchains
and configuration options. CARGO_HOME
contains cache files used by cargo.
Note that you will need to ensure these environment variables are always set
and that CARGO_HOME/bin
is in the $PATH
environment variable when using
the toolchain.
Installing nightly
If you specify the nightly channel when installing rustup
, the
rustup-init
script will do a “forced” installation by default. A “forced”
installation means it will install the nightly channel regardless of whether
it might be missing components that you want. If you want to install rustup
with the nightly channel, and ensure it has the components that you want, you
will need to do this in two phases. For example, if you want to make a fresh
installation of rustup
and then install nightly
along with clippy
or
miri
, first install rustup
without a toolchain:
curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh -s -- --default-toolchain none -y
Next you can install nightly
allowing rustup
to downgrade until it finds
the components you need:
rustup toolchain install nightly --allow-downgrade --profile minimal --component clippy
This can be used to great effect in CI, to get you a toolchain rapidly which meets your criteria.
Enable tab completion for Bash, Fish, Zsh, or PowerShell
rustup
now supports generating completion scripts for Bash, Fish, Zsh, and
PowerShell. See rustup help completions
for full details, but the gist is as
simple as using one of the following:
# Bash
$ rustup completions bash > ~/.local/share/bash-completion/completions/rustup
# Bash (macOS/Homebrew)
$ rustup completions bash > $(brew --prefix)/etc/bash_completion.d/rustup.bash-completion
# Fish
$ mkdir -p ~/.config/fish/completions
$ rustup completions fish > ~/.config/fish/completions/rustup.fish
# Zsh
$ rustup completions zsh > ~/.zfunc/_rustup
# PowerShell v5.0+
$ rustup completions powershell >> $PROFILE.CurrentUserCurrentHost
# or
$ rustup completions powershell | Out-String | Invoke-Expression
Note: you may need to restart your shell in order for the changes to take effect.
For zsh
, you must then add the following line in your ~/.zshrc
before
compinit
:
fpath+=~/.zfunc
Windows
rustup
works the same on Windows as it does on Unix, but there are some
special considerations for Rust developers on Windows. As mentioned on the
Rust download page, there are two ABIs in use on Windows:
the native (MSVC) ABI used by Visual Studio, and the GNU ABI used by the
GCC toolchain. Which version of Rust you need depends largely on what C/C++
libraries you want to interoperate with: for interop with software produced by
Visual Studio use the MSVC build of Rust; for interop with GNU software built
using the MinGW/MSYS2 toolchain use the GNU build.
When targeting the MSVC ABI, Rust additionally requires an installation of
Visual Studio so rustc
can use its linker and libraries.
When targeting the GNU ABI, no additional software is strictly required for basic use. However, many library crates will not be able to compile until the full MSYS2 with MinGW has been installed.
By default rustup
on Windows configures Rust to target the MSVC ABI, that is
a target triple of either i686-pc-windows-msvc
, x86_64-pc-windows-msvc
, or aarch64-pc-windows-msvc
depending on the CPU architecture of the host Windows OS. The toolchains that
rustup
chooses to install, unless told otherwise through the toolchain
specification, will be compiled to run on that target triple host and will
target that triple by default.
You can change this behavior with rustup set default-host
or during
installation.
For example, to explicitly select the 32-bit MSVC host:
$ rustup set default-host i686-pc-windows-msvc
Or to choose the 64 bit GNU toolchain:
$ rustup set default-host x86_64-pc-windows-gnu
Since the MSVC ABI provides the best interoperation with other Windows
software it is recommended for most purposes. The GNU toolchain is always
available, even if you don’t use it by default. Just install it with rustup toolchain install
:
$ rustup toolchain install stable-gnu
You don’t need to switch toolchains to support all windows targets though; a single toolchain supports all four x86 windows targets:
$ rustup target add x86_64-pc-windows-msvc
$ rustup target add x86_64-pc-windows-gnu
$ rustup target add i686-pc-windows-msvc
$ rustup target add i686-pc-windows-gnu
See the Cross-compilation chapter for more details on specifying different targets with the same compiler.
MSVC prerequisites
To compile programs into an exe file, Rust requires a linker, libraries and Windows API import libraries.
For msvc
targets these can be acquired through Visual Studio.
Automatic install
If you don’t have Visual Studio already installed then rustup-init will offer to automatically install the prerequisites. Doing so means you can skip the rest of this page. However, it installs Visual Studio Community edition which may not be appropriate for all users. It is free for individuals, academic and open source use, but not for other uses, such as in proprietary enterprise software. Users should ask their organisation which edition is right for them. See licensing terms for more details.
Manual install
Download Visual Studio. Rust supports Visual Studio 2017 and later but it is recommended that you use the latest version (currently 2022) for new projects. You can opt to download only the Build Tools for Visual Studio, which does not include the IDE. However this requires you already have a license to the Community, Professional or Enterprise edition.
Once you’ve downloaded and started the installer, the easiest way to get everything installed is to select “Desktop Development with C++”. This will include the necessary components. On the “Language Packs” tab, make sure the English language pack is installed in addition to your preferred language.
If you want more details on the installation process or want to further customize the install then follow the walkthrough below. Otherwise complete the Visual Studio install and continue with installing Rust.
Walkthrough: Installing Visual Studio 2022
This walkthrough uses the Community edition of Visual Studio but the Professional, Enterprise and the Build Tools all work the same way.
The installer will start by linking to the license and for your edition of Visual Studio and then preparing the installer.
Once this finishes, you can then select the components to be installed. Here we use the “Workload” tab to select the “Desktop Development with C++” workload. This will includes all needed components for Rust:
Installing only the required components (optional)
If you’d like a more minimal install (and won’t be doing C++ development) then you can use the “Individual Components” tab to select just the essentials, which are:
- MSVC v143 - VS 2022 C++ x64/x86 build tools (Latest)
- Windows 11 SDK (10.0.22621.0)
Note that the specific version of the Windows SDK doesn’t matter for pure Rust code but if using C++ as well you’ll likely want either the latest or whichever version is required by the C++ project (or both).
Adding Language Packs (optional)
After choosing the components, you may also want to select the language packs to install. Switch to the “Language Packs” tab and add the languages. It is recommended that you add the English language pack in addition to your preferred language. This will provide English language error messages, which may help when reporting errors.
Completing the install
Finally click the install button and wait for everything to be installed.
Once finished, you can continue on to installing Rust.
Other installation methods
The primary installation method, as described at https://rustup.rs, differs by platform:
- On Windows, download and run the
rustup-init.exe
built for thex86_64-pc-windows-msvc
oraarch64-pc-windows-msvc
target, depending on your OS architecture. In general, this is the build ofrustup
one should install on Windows. This will require the Visual C++ Build Tools 2019 or equivalent (Visual Studio 2019, etc.) to already be installed. If you would prefer to install GNU toolchains or the i686 toolchains by default this can be modified at install time, either interactively, with the--default-host
flag, or after installation viarustup set default-host
. - On Unix, run
curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh
in your shell. This downloads and runsrustup-init.sh
, which in turn downloads and runs the correct version of therustup-init
executable for your platform.
rustup-init
accepts arguments, which can be passed through the shell script.
Some examples:
$ curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh -s -- --help
$ curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh -s -- --no-modify-path
$ curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh -s -- --default-toolchain nightly
$ curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh -s -- --default-toolchain none
$ curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh -s -- --profile minimal --default-toolchain nightly
Using a package manager
Please note that the rustup project is not maintaining any package mentioned in this section. If you have encountered any problems installing
rustup
with a package manager, please contact the package maintainer(s) for further information.
General tips
Different package managers take slightly different approaches towards managing rustup. After installing rustup with your favorite package manager, there are usually two possibilities:
-
If your package manager has made the
rustup
command available together with proxies for Rust tools such asrustc
andcargo
, picking a default toolchain (e.g.stable
) would usually be enough:$ rustup default stable
As of 2024/07/24, this is the case for DNF.
-
If your package manager has only made the
rustup-init
command available, simply run:$ rustup-init
This will allow you to perform the initial setup of
rustup
, populate all the proxies managed by rustup, and install a default toolchain. When the installation is completed, please make sure that these proxies (usually under$HOME/.cargo/bin
) are exposed via your$PATH
.As of 2024/07/24, this is the case for APT, homebrew and pacman.
Now you should be able to run rustup
, rustc
, cargo
, etc. normally.
APT
Starting from Debian 13 (trixie) and Ubuntu 24.04 (noble),
you may use apt
to install rustup
:
$ sudo apt install rustup
Homebrew
You can use brew
to install rustup
1:
$ brew install rustup
Please note that Rust tools like rustc
and cargo
are not available via $PATH
by default
in this rustup
distribution
(see homebrew-core#177582 for more details).
You might want to add $(brew --prefix rustup)/bin
to $PATH
to make them easier to access.
This is not to be confused with the rust
package,
which is a brew
-managed rust
toolchain installation.
Manual installation
You can manually download rustup-init
for a given target from
https://static.rust-lang.org/rustup/dist/{target-triple}/rustup-init[.exe]
2 3.
Direct links
- aarch64-apple-darwin
- aarch64-linux-android
- aarch64-pc-windows-msvc
- aarch64-unknown-linux-gnu
- aarch64-unknown-linux-musl
- arm-linux-androideabi
- arm-unknown-linux-gnueabi
- arm-unknown-linux-gnueabihf
- armv7-linux-androideabi
- armv7-unknown-linux-gnueabihf
- i686-apple-darwin
- i686-linux-android
- i686-pc-windows-gnu2
- i686-pc-windows-msvc3
- i686-unknown-linux-gnu
- loongarch64-unknown-linux-gnu
- loongarch64-unknown-linux-musl
- mips-unknown-linux-gnu
- mips64-unknown-linux-gnuabi64
- mips64el-unknown-linux-gnuabi64
- mipsel-unknown-linux-gnu
- powerpc-unknown-linux-gnu
- powerpc64-unknown-linux-gnu
- powerpc64le-unknown-linux-gnu
- s390x-unknown-linux-gnu
- x86_64-apple-darwin
- x86_64-linux-android
- x86_64-pc-windows-gnu2
- x86_64-pc-windows-msvc3
- x86_64-unknown-freebsd
- x86_64-unknown-illumos
- x86_64-unknown-linux-gnu
- x86_64-unknown-linux-musl
- x86_64-unknown-netbsd
To get a previous version, use
https://static.rust-lang.org/rustup/archive/{rustup-version}/{target-triple}/rustup-init[.exe]
.
SHA-256 checksums are also available by appending .sha256
to the link.
Windows GNU builds require no additional software for basic use. However, many library crates will not be able to compile until the full MSYS2 with MinGW has been installed.
MSVC builds of rustup
additionally require an installation of
Visual Studio 2019 or the Visual C++ Build Tools 2019. For Visual
Studio, make sure to check the “C++ tools” and “Windows 10 SDK” option.
Self-compiled installation
To install rustup
from source, check out the git repository from
https://github.com/rust-lang/rustup and run cargo run --release
. Note that
after installation the rustup
toolchains will supersede any pre-existing
toolchains by prepending ~/.cargo/bin
to the PATH
environment variable.
Already installed Rust?
Several Linux distributions package Rust, and you may wish to use the packaged
toolchain, such as for distribution package development. You may also wish to
use a rustup
-managed toolchain such as nightly or beta. Normally, rustup
will complain that you already have Rust installed in /usr
and refuse to
install. However, you can install Rust via rustup
and have it coexist with
your distribution’s packaged Rust.
When you initially install Rust with rustup
, pass the -y
option to make it
ignore the packaged Rust toolchain and install a rustup
-managed toolchain
into ~/.cargo/bin
. Add that directory to your $PATH
(or let rustup
do it
for you by not passing --no-modify-path
). Then, to tell rustup
about your
system toolchain, run:
rustup toolchain link system /usr
You can then use “system” as a rustup
toolchain, just like “nightly”.
For example, using the toolchain override shorthand, you can run cargo +system build
to build with the system toolchain, or cargo +nightly build
to build with nightly.
If you do distribution Rust development, you should likely make “system” your default toolchain:
rustup default system
Concepts
How rustup works
rustup
is a toolchain multiplexer. It installs and manages many Rust
toolchains and presents them all through a single set of tools installed to
~/.cargo/bin
. The rustc
and cargo
executables installed in
~/.cargo/bin
are proxies that delegate to the real toolchain. rustup
then provides mechanisms to easily change the active toolchain by
reconfiguring the behavior of the proxies.
So when rustup
is first installed, running rustc
will run the proxy in
$HOME/.cargo/bin/rustc
, which in turn will run the stable compiler. If you
later change the default toolchain to nightly with rustup default nightly
,
then that same proxy will run the nightly
compiler instead.
This is similar to Ruby’s rbenv, Python’s pyenv, or Node’s nvm.
Terminology
-
channel — Rust is released to three different “channels”: stable, beta, and nightly. See the Channels chapter for more details.
-
toolchain — A “toolchain” is a complete installation of the Rust compiler (
rustc
) and related tools (likecargo
). A toolchain specification includes the release channel or version, and the host platform that the toolchain runs on. -
target —
rustc
is capable of generating code for many platforms. The “target” specifies the platform that the code will be generated for. By default,cargo
andrustc
use the host toolchain’s platform as the target. To build for a different target, usually the target’s standard library needs to be installed first via therustup target
command. See the Cross-compilation chapter for more details. -
component — Each release of Rust includes several “components”, some of which are required (like
rustc
) and some that are optional (likeclippy
). See the Components chapter for more detail. -
profile — In order to make it easier to work with components, a “profile” defines a grouping of components. See the Profiles chapter for more details.
-
proxy — A wrapper for a common Rust component (like
rustc
), built to forward CLI invocations to the active Rust toolchain. See the Proxies chapter for more details.
Channels
Rust is released to three different “channels”: stable, beta, and nightly. The
stable releases are made every 6 weeks (with occasional point releases). Beta
releases are the version that will appear in the next stable release. Nightly
releases are made every night. See The Rust Book for more details
on Rust’s train release model. The release schedule is posted to the Rust
Forge. rustup
assists with installing different channels, keeping them
up-to-date, and easily switching between them.
After a release channel has been installed, rustup
can be used to update the
installed version to the latest release on that channel. See the Keeping rust
up to date section for more information.
rustup
can also install specific versions of Rust, such as 1.45.2
or
nightly-2020-07-27
. See the Toolchains chapter for more information on
installing different channels and releases. See the Overrides chapter for
details on switching between toolchains and pinning your project to a specific
toolchain.
Working with nightly Rust
rustup
gives you easy access to the nightly compiler and its experimental
features. To add it just run rustup toolchain install nightly
:
$ rustup toolchain install nightly
info: syncing channel updates for 'nightly'
info: downloading toolchain manifest
info: downloading component 'rustc'
info: downloading component 'rust-std'
info: downloading component 'rust-docs'
info: downloading component 'cargo'
info: installing component 'rustc'
info: installing component 'rust-std'
info: installing component 'rust-docs'
info: installing component 'cargo'
nightly installed: rustc 1.9.0-nightly (02310fd31 2016-03-19)
Now Rust nightly is installed, but not activated. To test it out you can run a command from the nightly toolchain like
$ rustup run nightly rustc --version
rustc 1.9.0-nightly (02310fd31 2016-03-19)
But more likely you want to use it for a while. To switch to nightly globally,
change the default with rustup default nightly
:
$ rustup default nightly
info: using existing install for 'nightly'
info: default toolchain set to 'nightly'
nightly unchanged: rustc 1.9.0-nightly (02310fd31 2016-03-19)
Now any time you run cargo
or rustc
you will be running the nightly
compiler.
With nightly installed any time you run rustup update
, the nightly channel
will be updated in addition to stable:
$ rustup update
info: syncing channel updates for 'stable'
info: syncing channel updates for 'nightly'
info: checking for self-update
info: downloading self-update
stable unchanged: rustc 1.7.0 (a5d1e7a59 2016-02-29)
nightly unchanged: rustc 1.9.0-nightly (02310fd31 2016-03-19)
Nightly availability
Nightly toolchains may fail to build, so for any given date and target
platform there may not be a toolchain available. Furthermore, nightly builds
may be published with missing non-default components (such as clippy
).
As such, it can be difficult to find fully-working nightlies. Use the
rustup-components-history project to find the build status of recent
nightly toolchains and components.
When you attempt to install or update the nightly
channel, rustup
will
check if a required or previously installed component is missing. If it is
missing, rustup
will automatically search for an older release that contains
the required components. There are several ways to change this behavior:
- Use the
--force
flag torustup toolchain install
to force it to install the most recent version even if there is a missing component. - Use the
--profile
flag torustup toolchain install
to use a different profile that does not contain the missing component. For example,--profile=minimal
should always work, as the minimal set is required to exist. See the Profiles chapter for more detail. - Install a specific date that contains the components you need. For example,
rustup toolchain install nightly-2020-07-27
. You can then use overrides to pin to that specific release.
Toolchains
Many rustup
commands deal with toolchains, a single installation of the
Rust compiler. rustup
supports multiple types of toolchains. The most basic
track the official release channels: stable, beta and nightly; but
rustup
can also install toolchains from the official archives, for alternate
host platforms, and from local builds.
Toolchain specification
Standard release channel toolchain names have the following form:
<channel>[-<date>][-<host>]
<channel> = stable|beta|nightly|<versioned>[-<prerelease>]
<versioned> = <major.minor>|<major.minor.patch>
<prerelease> = beta[.<number>]
<date> = YYYY-MM-DD
<host> = <target-triple>
‘channel’ is a named release channel, a major and minor version number such as
1.42
, or a fully specified version number, such as 1.42.0
. Channel names
can be optionally appended with an archive date, as in nightly-2014-12-18
, in
which case the toolchain is downloaded from the archive for that date.
Finally, the host may be specified as a target triple. This is most useful for installing a 32-bit compiler on a 64-bit platform, or for installing the MSVC-based toolchain on Windows. For example:
$ rustup toolchain install stable-x86_64-pc-windows-msvc
For convenience, elements of the target triple that are omitted will be inferred, so the above could be written:
$ rustup toolchain install stable-msvc
Toolchain names that don’t name a channel instead can be used to name custom toolchains.
Custom toolchains
For convenience of developers working on Rust itself, rustup
can manage
local builds of the Rust toolchain. To teach rustup
about your build, run:
$ rustup toolchain link my-toolchain path/to/my/toolchain/sysroot
For example, on Ubuntu you might clone rust-lang/rust
into ~/rust
, build
it, and then run:
$ rustup toolchain link my-toolchain ~/rust/build/x86_64-unknown-linux-gnu/stage2/
$ rustup default my-toolchain
Now you can name my-toolchain
as any other rustup
toolchain. Create a
rustup
toolchain for each of your rust-lang/rust
workspaces and test them
easily with rustup run my-toolchain rustc
.
Because the rust-lang/rust
tree does not include Cargo, when cargo
is
invoked for a custom toolchain and it is not available, rustup
will attempt
to use cargo
from one of the release channels, preferring ‘nightly’, then
‘beta’ or ‘stable’.
Components
Each toolchain has several “components”, some of which are required (like
rustc
) and some that are optional (like clippy
). The rustup component
command is used to manage the installed components. For example,
run rustup component list
to see a list of available and installed
components.
Components can be added when installing a toolchain with the --component
flag. For example:
rustup toolchain install nightly --component rust-docs
Components can be added to an already-installed toolchain with the rustup component
command:
rustup component add rust-docs
To make it easier to choose which components are installed, rustup
has the
concept of “profiles” which provide named groupings of different components.
See the Profiles chapter for more detail.
Most components have a target-triple suffix, such as
rustc-x86_64-apple-darwin
, to signify the platform the component is for.
The set of available components may vary with different releases and toolchains. The following is an overview of the different components:
rustc
— The Rust compiler and Rustdoc.cargo
— Cargo is a package manager and build tool.rustfmt
— Rustfmt is a tool for automatically formatting code.rust-std
— This is the Rust standard library. There is a separaterust-std
component for each target thatrustc
supports, such asrust-std-x86_64-pc-windows-msvc
. See the Cross-compilation chapter for more detail.rust-docs
— This is a local copy of the Rust documentation. Use therustup doc
command to open the documentation in a web browser. Runrustup doc --help
for more options.rust-analyzer
— rust-analyzer is a language server that provides support for editors and IDEs.clippy
— Clippy is a lint tool that provides extra checks for common mistakes and stylistic choices.miri
— Miri is an experimental Rust interpreter, which can be used for checking for undefined-behavior.rust-src
— This is a local copy of the source code of the Rust standard library. This can be used by some tools, such as rust-analyzer, to provide auto-completion for functions within the standard library; Miri which is a Rust interpreter; and Cargo’s experimental build-std feature, which allows you to rebuild the standard library locally.rust-mingw
— This contains a linker and platform libraries for building on thex86_64-pc-windows-gnu
platform.llvm-tools
— This component contains a collection of LLVM tools. Note that this component has not been stabilized and may change in the future and is provided as-is. See #85658.rustc-dev
— This component contains the compiler as a library. Most users will not need this; it is only needed for development of tools that link to the compiler, such as making modifications to Clippy.
Previous components
See here for the latest version of this section.
These components have been deprecated and are not published in new Rust releases.
rls
— RLS is a language server that is deprecated and has been replaced by rust-analyzer.rust-analysis
— Metadata about the standard library, used by RLS.
Component availability
Not all components are available for all toolchains. Especially on the nightly channel, some components may not be included if they are in a broken state. The current status of all the components may be found on the rustup components history page. See the Nightly availability section for more details.
Profiles
rustup
has the concept of “profiles”. They are groups of components you
can choose to download while installing a new Rust toolchain. The profiles
available at this time are minimal
, default
, and complete
:
- The minimal profile includes as few components as possible to get a
working compiler (
rustc
,rust-std
, andcargo
). It’s recommended to use this component on Windows systems if you don’t use local documentation (the large number of files can cause issues with some Antivirus systems), and in CI. - The default profile includes all of components in the minimal
profile, and adds
rust-docs
,rustfmt
, andclippy
. This profile will be used byrustup
by default, and it’s the one recommended for general use. - The complete profile includes all the components available through
rustup
. This should never be used, as it includes every component ever included in the metadata and thus will almost always fail. If you are looking for a way to install devtools such asmiri
or IDE integration tools (rust-analyzer
), you should use thedefault
profile and install the needed additional components manually, either by usingrustup component add
or by using-c
when installing the toolchain.
To change the profile rustup install
uses by default, you can use the
rustup set profile
command.
For example, to select the minimal profile you can use:
rustup set profile minimal
You can also directly select the profile used when installing a toolchain with:
rustup install --profile <name>
It’s also possible to choose the default profile when installing rustup
for
the first time, either interactively by choosing the “Customize installation”
option or programmatically by passing the --profile=<name>
flag. Profiles
will only affect newly installed toolchains: as usual it will be possible to
install individual components later with: rustup component add
.
Proxies
rustup
provides a number of wrappers for common Rust tools.
These are called proxies and represent commands which are
provided by the various components.
The list of proxies is currently static in rustup
and is as follows:
-
rustc
is the compiler for the Rust programming language, provided by the project itself and comes from therustc
component. -
rustdoc
is a tool distributed in therustc
component which helps you to generate documentation for Rust projects. -
cargo
is the Rust package manager which downloads your Rust package’s dependencies, compiles your packages, makes distributable packages, and uploads them to crates.io (the Rust community’s package registry). It comes from thecargo
component. -
rust-lldb
,rust-gdb
, andrust-gdbgui
are simple wrappers around thelldb
,gdb
, andgdbgui
debuggers respectively. The wrappers enable some pretty-printing of Rust values and add some convenience features to the debuggers by means of their scripting interfaces. -
rust-analyzer
is part of the Rust IDE integration tooling. It implements the language-server protocol to permit IDEs and editors such as Visual Studio Code, Vim, or Emacs, access to the semantics of the Rust code you are editing. It comes from therust-analyzer
component. -
cargo-clippy
andclippy-driver
are related to theclippy
linting tool which provides extra checks for common mistakes and stylistic choices and it comes from theclippy
component. -
cargo-miri
is an experimental interpreter for Rust’s mid-level intermediate representation (MIR) and it comes from themiri
component. -
rls
is a deprecated IDE tool that has been replaced byrust-analyzer
. It comes from therls
component.
Basic usage
Keeping Rust up to date
Rust is distributed on three different release channels: stable, beta, and
nightly. rustup
uses the stable channel by default, which
represents the latest release of Rust. Stable publishes new releases every six weeks.
When a new version of Rust is released, simply type rustup update
to update:
$ rustup update
info: syncing channel updates for 'stable'
info: downloading component 'rustc'
info: downloading component 'rust-std'
info: downloading component 'rust-docs'
info: downloading component 'cargo'
info: installing component 'rustc'
info: installing component 'rust-std'
info: installing component 'rust-docs'
info: installing component 'cargo'
info: checking for self-update
info: downloading self-update
stable updated: rustc 1.7.0 (a5d1e7a59 2016-02-29)
Keeping rustup
up to date
If your rustup
was built with the no-self-update feature, it can not update
itself. This is not the default, and only versions of rustup
built with
--no-default-features
, or obtained from a third-party distributor who has
disabled it (such as NixOS).
Otherwise Rustup can update itself. It is possible to control Rustup’s automatic
self update mechanism with the auto-self-update
configuration variable. This
setting supports three values: enable
and disable
and check-only
.
disable
will ensure that no automatic self updating actions are taken.enable
will mean thatrustup update
and similar commands will also check for, and install, any update to Rustup.check-only
will cause any automatic self update to check and report on any updates, but not to automatically install them.
Whether auto-self-update
is enable
or not, you can request that Rustup
update itself to the latest version of rustup
by running rustup self update
.
This will not download new toolchains:
$ rustup self update
info: checking for self-update
info: downloading self-update
Disabling self updates on a per-invocation basis
Self updates can also be suppressed on individual invocations of
rustup
by passing the argument--no-self-update
when runningrustup update
orrustup toolchain install
.
Help system
The rustup
command-line has a built-in help system that provides more
information about each command. Run rustup help
for an overview. Detailed
help for each subcommand is also available. For example, run rustup toolchain install --help
for specifics on installing toolchains.
Overrides
rustup
automatically determines which toolchain to use when one of the
installed commands like rustc
is executed. There are several ways to control
and override which toolchain is used:
- A toolchain override shorthand used on the command-line, such as
cargo +beta
. - The
RUSTUP_TOOLCHAIN
environment variable. - A directory override, set with the
rustup override
command. - The
rust-toolchain.toml
file. - The default toolchain.
The toolchain is chosen in the order listed above, using the first one that is
specified. There is one exception though: directory overrides and the
rust-toolchain.toml
file are also preferred by their proximity to the current
directory. That is, these two override methods are discovered by walking up
the directory tree toward the filesystem root, and a rust-toolchain.toml
file
that is closer to the current directory will be preferred over a directory
override that is further away.
To verify which toolchain is active, you can use rustup show
.
Toolchain override shorthand
The rustup
toolchain proxies can be instructed directly to use a specific
toolchain, a convenience for developers who often test different toolchains.
If the first argument to cargo
, rustc
or other tools in the toolchain
begins with +
, it will be interpreted as a rustup
toolchain name, and that
toolchain will be preferred, as in
cargo +beta test
Directory overrides
Directories can be assigned their own Rust toolchain with rustup override
.
When a directory has an override then any time rustc
or cargo
is run
inside that directory, or one of its child directories, the override toolchain
will be invoked.
To use to a specific nightly for a directory:
rustup override set nightly-2014-12-18
Or a specific stable release:
rustup override set 1.0.0
To see the active toolchain use rustup show
. To remove the override and use
the default toolchain again, rustup override unset
.
The per-directory overrides are stored in a configuration file in rustup
’s
home directory.
The toolchain file
Some projects find themselves ‘pinned’ to a specific release of Rust and want this information reflected in their source repository. This is most often the case for nightly-only software that pins to a revision from the release archives.
In these cases the toolchain can be named in the project’s directory in a file
called rust-toolchain.toml
or rust-toolchain
. If both files are present in
a directory, the latter is used for backwards compatibility. The files use the
TOML format and have the following layout:
[toolchain]
channel = "nightly-2020-07-10"
components = [ "rustfmt", "rustc-dev" ]
targets = [ "wasm32-unknown-unknown", "thumbv2-none-eabi" ]
profile = "minimal"
The [toolchain]
section is mandatory, and at least one property must be
specified. channel
and path
are mutually exclusive.
For backwards compatibility, rust-toolchain
files also support a legacy
format that only contains a toolchain name without any TOML encoding, e.g.
just nightly-2021-01-21
. The file has to be encoded in US-ASCII in this case
(if you are on Windows, check the encoding and that it does not start with a
BOM). The legacy format is not available in rust-toolchain.toml
files.
If you see the following error (when running rustc
, cargo
or other command)
error: invalid channel name '[toolchain]' in '/PATH/TO/DIRECTORY/rust-toolchain'
it means you’re running rustup
pre-1.23.0 and trying to interact with a project
that uses the new TOML encoding in the rust-toolchain
file. You need to upgrade
rustup
to 1.23.0+.
The rust-toolchain.toml
/rust-toolchain
files are suitable to check in to
source control. If that’s done, Cargo.lock
should probably be tracked too if
the toolchain is pinned to a specific release, to avoid potential compatibility
issues with dependencies.
Toolchain file settings
channel
The channel
setting specifies which toolchain to use. The value is a
string in the following form:
(<channel>[-<date>])|<custom toolchain name>
<channel> = stable|beta|nightly|<versioned>[-<prerelease>]
<versioned> = <major.minor>|<major.minor.patch>
<prerelease> = beta[.<number>]
<date> = YYYY-MM-DD
path
The path
setting allows a custom toolchain to be used. The value is an
absolute path string.
Since a path
directive directly names a local toolchain, other options
like components
, targets
, and profile
have no effect.
channel
and path
are mutually exclusive, since a path
already
points to a specific toolchain.
profile
The profile
setting names a group of components to be installed. The
value is a string. The valid options are: minimal
, default
, and
complete
. See profiles for details of each.
Note that if not specified, the default
profile is not necessarily
used, as a different default profile might have been set with rustup set profile
.
components
The components
setting contains a list of additional components to
install. The value is a list of strings. See components for a list of
components. Note that different toolchains may have different components
available.
The components listed here are additive with the current profile.
targets
The targets
setting contains a list of platforms to install for
cross-compilation. The value is a list of strings.
The host platform is automatically included; the targets listed here are additive.
Default toolchain
If no other overrides are set, the global default toolchain will be used. This
default can be chosen when rustup
is installed. The rustup default
command can be used to set and query the current default. Run rustup default
without any arguments to print the current default. Specify a toolchain as an
argument to change the default:
rustup default nightly-2020-07-27
Cross-compilation
Rust supports a great number of platforms. For many of these platforms
The Rust Project publishes binary releases of the standard library, and for
some the full compiler. rustup
gives easy access to all of them.
When you first install a toolchain, rustup
installs only the standard
library for your host platform - that is, the architecture and operating
system you are presently running. To compile to other platforms you must
install other target platforms. This is done with the rustup target add
command. For example, to add the Android target:
$ rustup target add arm-linux-androideabi
info: downloading component 'rust-std' for 'arm-linux-androideabi'
info: installing component 'rust-std' for 'arm-linux-androideabi'
With the arm-linux-androideabi
target installed you can then build for
Android with Cargo by passing the --target
flag, as in cargo build --target=arm-linux-androideabi
.
Note that rustup target add
only installs the Rust standard library for a
given target. There are typically other tools necessary to cross-compile,
particularly a linker. For example, to cross compile to Android the Android
NDK must be installed. In the future, rustup
will provide assistance
installing the NDK components as well. See the target section of the
cargo
configuration for how to setup a linker to use for a certain target.
To install a target for a toolchain that isn’t the default toolchain use the
--toolchain
argument of rustup target add
, like so:
$ rustup target add --toolchain <toolchain> <target>...
To see a list of available targets, rustup target list
. To remove a
previously-added target, rustup target remove
.
Environment variables
-
RUSTUP_LOG
(default: none). Enables Rustup’s “custom logging mode”. In this mode, the verbosity of Rustup’s log lines can be specified withtracing_subscriber
’s directive syntax. For example, setRUSTUP_LOG=rustup=DEBUG
to receive log lines fromrustup
itself with a maximal verbosity ofDEBUG
. -
RUSTUP_HOME
(default:~/.rustup
or%USERPROFILE%/.rustup
). Sets the rootrustup
folder, used for storing installed toolchains and configuration options. -
RUSTUP_TOOLCHAIN
(default: none). If set, will override the toolchain used for all rust tool invocations. A toolchain with this name should be installed, or invocations will fail. This can specify custom toolchains, installable toolchains, or the absolute path to a toolchain. -
RUSTUP_DIST_SERVER
(default:https://static.rust-lang.org
). Sets the root URL for downloading static resources related to Rust. You can change this to instead use a local mirror, or to test the binaries from the staging directory. -
deprecated (default:RUSTUP_DIST_ROOT
https://static.rust-lang.org/dist
). UseRUSTUP_DIST_SERVER
instead. -
RUSTUP_UPDATE_ROOT
(defaulthttps://static.rust-lang.org/rustup
). Sets the root URL for downloading self-update. -
RUSTUP_IO_THREADS
unstable (defaults to reported cpu count). Sets the number of threads to perform close IO in. Set to1
to force single-threaded IO for troubleshooting, or an arbitrary number to override automatic detection. -
RUSTUP_TRACE_DIR
unstable (default: no tracing). Enables tracing and determines the directory that traces will be written too. Traces are of the form PID.trace. Traces can be read by the Catapult project tracing viewer. -
RUSTUP_TERM_COLOR
(default:auto
). Controls whether colored output is used in the terminal. Set toauto
to use colors only in tty streams, toalways
to always enable colors, or tonever
to disable colors. -
RUSTUP_UNPACK_RAM
unstable (default free memory or 500MiB if unable to tell, min 210MiB). Caps the amount of RAMrustup
will use for IO tasks while unpacking. -
RUSTUP_NO_BACKTRACE
. Disables backtraces on non-panic errors even whenRUST_BACKTRACE
is set. -
RUSTUP_PERMIT_COPY_RENAME
unstable. When set, allows rustup to fall-back to copying files if attempts torename
result in cross-device link errors. These errors occur on OverlayFS, which is used by Docker. This feature sacrifices some transactions protections and may be removed at any point. Linux only.
Configuration
Rustup has a TOML settings file at
${RUSTUP_HOME}/settings.toml
(which defaults to ~/.rustup
or
%USERPROFILE%/.rustup
). The schema for this file is not part of the public
interface for rustup - the rustup CLI should be used to query and set settings.
On Unix operating systems a fallback settings file is consulted for some
settings. This fallback file is located at /etc/rustup/settings.toml
and
currently can define only default_toolchain
.
Network proxies
Enterprise networks often don’t have direct outside HTTP access, but enforce
the use of proxies. If you’re on such a network, you can request that rustup
uses a proxy by setting its URL in the environment. In most cases, setting
https_proxy
should be sufficient. Commands may differ between different
systems and shells:
- On a Unix-like system with a shell like bash or zsh:
export https_proxy=socks5://proxy.example.com:1080
- On Windows Command Prompt (cmd):
set https_proxy=socks5://proxy.example.com:1080
- On Windows PowerShell (or PowerShell Core):
$env:https_proxy="socks5://proxy.example.com:1080"
- Replace
socks5://proxy.example.com:1080
withhttp://proxy.example.com:8080
when an HTTP proxy is used instead.
If you need a more complex setup, rustup
supports the convention used by the
curl program, documented in the ENVIRONMENT section of its manual
page.
The use of curl
is presently deprecated, however it can still be used by
providing the RUSTUP_USE_CURL
environment variable, for example:
RUSTUP_USE_CURL=1 rustup update
Note that some versions of libcurl
apparently require you to drop the
http://
or https://
prefix in environment variables. For example, export http_proxy=proxy.example.com:1080
(and likewise for HTTPS). If you are
getting an SSL unknown protocol
error from rustup
via libcurl
but the
command-line curl
command works fine, this may be the problem.
Examples
Command | Description |
---|---|
rustup default nightly | Set the default toolchain to the latest nightly |
rustup set profile minimal | Set the default profile |
rustup target list | List all available targets for the active toolchain |
rustup target add arm-linux-androideabi | Install the Android target |
rustup target remove arm-linux-androideabi | Remove the Android target |
rustup run nightly rustc foo.rs | Run the nightly regardless of the active toolchain |
rustc +nightly foo.rs | Shorthand way to run a nightly compiler |
rustup run nightly bash | Run a shell configured for the nightly compiler |
rustup default stable-msvc | On Windows, use the MSVC toolchain instead of GNU |
rustup override set nightly-2015-04-01 | For the current directory, use a nightly from a specific date |
rustup toolchain link my-toolchain "C:\RustInstallation" | Install a custom toolchain by symlinking an existing installation |
rustup show | Show which toolchain will be used in the current directory |
rustup toolchain uninstall nightly | Uninstall a given toolchain |
rustup toolchain help | Show the help page for a subcommand (like toolchain ) |
rustup man cargo | (Unix only) View the man page for a given command (like cargo ) |
Security
rustup
is secure enough for most people, but it still needs work.
rustup
performs all downloads over HTTPS, but does not yet validate
signatures of downloads.
File modes on installation honor umask as of 1.18.4, use umask if very tight controls are desired.
If you wish to report a security issue, please follow the Rust security policy.
FAQ
Is this an official Rust project?
Yes. rustup is an official Rust project. It is the recommended way to install Rust at https://www.rust-lang.org.
How is this related to multirust?
rustup is the successor to multirust. rustup began as multirust-rs, a rewrite of multirust from shell script to Rust, by Diggory Blake, and is now maintained by The Rust Project.
Can rustup download the Rust source code?
The source for Rust’s standard library can be obtained by running rustup component add rust-src
. It will be downloaded to the <toolchain root>/lib/rustlib/src/rust
directory of the current toolchain.
The source for the compiler and tools must be obtained from the Rust repository or the standalone source tarballs.
rustup fails with Windows error 32
If rustup
fails with Windows error 32, it may be due to antivirus scanning
in the background. Disable antivirus scanner and try again.
I get “error: could not remove ‘rustup-bin’ file: ‘C:\Users\USER\.cargo\bin\rustup.exe’”
If rustup
fails to self-update in this way it’s usually because RLS is
running (your editor is open and running RLS). The solution is to stop RLS (by
closing your editor) and try again.
rustup exited successfully but I can’t run rustc --version
Restart your shell. This will reload your PATH
environment
variable to include Cargo’s bin directory ($CARGO_HOME/bin
).