A user-friendly launcher for Bazel.
Bazelisk is a wrapper for Bazel written in Go. It automatically picks a good version of Bazel given your current working directory, downloads it from the official server (if required) and then transparently passes through all command-line arguments to the real Bazel binary. You can call it just like you would call Bazel.
On macOS: brew install bazelisk
.
On Windows: choco install bazelisk
.
Each adds bazelisk to the PATH
as both bazelisk
and bazel
.
On Linux: You can download Bazelisk binary on our Releases page and add it to your PATH
manually, which also works on macOS and Windows.
Bazelisk is also published to npm.
Frontend developers may want to install it with npm install -g @bazel/bazelisk
.
You will notice that it serves an analogous function for Bazel as the
nvm
utility which manages your version of Node.js.
Some ideas how to use it:
- Install it as the
bazel
binary in yourPATH
(e.g. copy it to/usr/local/bin/bazel
). Never worry about upgrading Bazel to the latest version again. - Check it into your repository and recommend users to build your software via
./bazelisk build //my:software
. That way, even someone who has never used Bazel or doesn't have it installed can build your software. - As a company using Bazel or as a project owner, add a
.bazelversion
file to your repository. This will tell Bazelisk to use the exact version specified in the file when running in your workspace. The fact that it's versioned inside your repository will then allow for atomic upgrades of Bazel including all necessary changes. If you install Bazelisk asbazel
on your CI machines, too, you can even test Bazel upgrades via a normal presubmit / pull request. It will also ensure that users will not try to build your project with an incompatible version of Bazel, which is often a cause for frustration and failing builds. (But see the note below about ensuring your developers install Bazelisk.)
Before Bazelisk was rewritten in Go, it was a Python script. This still works and has the advantage that you can run it on any platform that has a Python interpreter, but is currently unmaintained and it doesn't support as many features. The documentation below describes the newer Go version only.
It uses a simple algorithm:
- If the environment variable
USE_BAZEL_VERSION
is set, it will use the version specified in the value. - Otherwise, if a
.bazeliskrc
file exists in the workspace root and contains theUSE_BAZEL_VERSION
variable, this version will be used. - Otherwise, if a
.bazelversion
file exists in the current directory or recursively any parent directory, it will read the file and use the version specified in it. - Otherwise, if the environment variable
USE_BAZEL_FALLBACK_VERSION
is set to one of the following formats:- If set to a value starting with
error:
, it will report an error and version detection will fail. - If set to a value starting with
warn:
, it will report a warning and use the version specified after the prefix. - If set to a value starting with
silent:
, it will use the version specified after the prefix.
- If set to a value starting with
- Otherwise, it will use the official latest Bazel release.
A version can optionally be prefixed with a fork name.
The fork and version should be separated by slash: <FORK>/<VERSION>
.
Please see the next section for how to work with forks.
Bazelisk currently understands the following formats for version labels:
latest
means the latest stable (LTS) version of Bazel as released on GitHub. Previous releases can be specified vialatest-1
,latest-2
etc.- A version number like
0.17.2
means that exact version of Bazel. It can also be a release candidate version like0.20.0rc3
, or a rolling release version like5.0.0-pre.20210317.1
. - A floating version identifier like
4.x
that returns the latest release from the LTS series started by Bazel 4.0.0. - A wildcard version identifier like
4.*
that returns the latest release or candidate from the LTS series started by Bazel 4.0.0. - The hash of a Git commit. Please note that Bazel binaries are only available for commits that passed Bazel CI.
Additionally, a few special version names are supported for our official releases only (these formats do not work when using a fork):
last_green
refers to the Bazel binary that was built at the most recent commit that passed Bazel CI. Ideally this binary should be very close to Bazel-at-head.last_rc
points to the most recent release candidate. If there is no active release candidate, Bazelisk uses the latest Bazel release instead.rolling
refers to the latest rolling release (even if there is a newer LTS release).
Note: last_downstream_green
support has been removed, please use last_green
instead.
By default Bazelisk retrieves Bazel releases, release candidates and binaries built at green commits from Google Cloud Storage. The downloaded artifacts are validated against the SHA256 value recorded in BAZELISK_VERIFY_SHA256
if this variable is set in the configuration file.
As mentioned in the previous section, the <FORK>/<VERSION>
version format allows you to use your own Bazel fork hosted on GitHub:
If you want to create a fork with your own releases, you should follow the naming conventions that we use in bazelbuild/bazel
for the binary file names as this results in predictable URLs that are similar to the official ones.
The URL format looks like https://github.com/<FORK>/bazel/releases/download/<VERSION>/<FILENAME>
.
You can also override the URL by setting the environment variable $BAZELISK_BASE_URL
. Bazelisk will then append /<VERSION>/<FILENAME>
to the base URL instead of using the official release server. Bazelisk will read file ~/.netrc
for credentials for Basic authentication.
If for any reason none of this works, you can also override the URL format altogether by setting the environment variable $BAZELISK_FORMAT_URL
. This variable takes a format-like string with placeholders and performs the following replacements to compute the download URL:
%e
: Extension suffix, such as the empty string or.exe
.%h
: Value ofBAZELISK_VERIFY_SHA256
, respecting uppercase/lowercase characters.%m
: Machine architecture name, such asarm64
orx86_64
.%o
: Operating system name, such asdarwin
orlinux
.%v
: Bazel version as determined by Bazelisk.%%
: Literal%
for escaping purposes.- All other characters after
%
are reserved for future use and result in a processing error.
Bazelisk prepends a directory to PATH
that contains the downloaded Bazel binary.
This ensures that Bazel targets that invoke bazel
will use the same Bazel binary as the outer invocation.
Bazelisk also sets the environment variable BAZELISK
to its own path.
This can be useful for scripts that want to know if they are running under Bazelisk and can also be used to run specific Bazel versions from within a Bazel run, e.g. to generate version-specific test data.
Bazel installers typically provide Bazel's shell wrapper script as the bazel
on the PATH.
When installed this way, Bazel checks the .bazelversion
file itself, but the failure when it mismatches with the actual version of Bazel can be quite confusing to developers.
You may find yourself having to explain the difference between Bazel and Bazelisk (especially when you upgrade the pinned version).
To avoid this, you can add a check in your tools/bazel
wrapper.
Since Bazelisk is careful to avoid calling itself in a loop, it always calls the wrapper with the environment variable BAZELISK_SKIP_WRAPPER
set to `true'.
You can check for the presence of that variable, and when not found, report a useful error to your users about how to install Bazelisk.
Note that if users directly downloaded a Bazel binary and put it in their PATH, rather than running
an installer, then tools/bazel
and .bazelversion
are not checked. You could call the
versions.check starlark module from the beginning of your WORKSPACE to
require users update their bazel.
The Go version of Bazelisk offers three new flags.
--strict
expands to the set of incompatible flags which may be enabled for the given version of Bazel.
bazelisk --strict build //...
--migrate
will run Bazel multiple times to help you identify compatibility issues.
If the code fails with --strict
, the flag --migrate
will run Bazel with each one of the flag separately, and print a report at the end.
This will show you which flags can safely enabled, and which flags require a migration.
--bisect
flag allows you to bisect Bazel versions to find which version introduced a build failure. You can specify the range of versions to bisect with --bisect=<GOOD>..<BAD>
, where GOOD is the last known working Bazel version and BAD is the first known non-working Bazel version. Bazelisk uses GitHub's compare API to get the list of commits to bisect. When GOOD is not an ancestor of BAD, GOOD is reset to their merge base commit.
The meaning of GOOD and BAD can be reversed by prefixing the range with ~
, e.g. --bisect=~6.0.0..HEAD
will find the first version 6.0.0 and HEAD that fixes the build.
Examples:
# Bisect between 6.0.0 and Bazel at HEAD to find the first commit that breaks the build.
bazelisk --bisect=6.0.0..HEAD test //foo:bar_test
# Bisect between 6.1.0 and the second release candidate of Bazel 6.2.0
bazelisk --bisect=6.1.0..release-6.2.0rc2 test //foo:bar_test
# Bisect between two commits on the main branch (or branches with `release-` prefix) of the Bazel GitHub repository.
bazelisk --bisect=<good commit hash>..<bad commit hash> test //foo:bar_test
# Bisect between 6.0.0 and Bazel at HEAD to find the first commit that *fixes* the build.
bazelisk --bisect=~6.0.0..HEAD test //foo:bar_test
Note that, Bazelisk uses prebuilt Bazel binaries at commits on the main and release branches, therefore you cannot bisect your local commits.
You can set BAZELISK_INCOMPATIBLE_FLAGS
to set a list of incompatible flags (separated by ,
) to be tested, otherwise Bazelisk tests all flags starting with --incompatible_
.
You can set BAZELISK_GITHUB_TOKEN
to set a GitHub access token to use for API requests to avoid rate limiting when on shared networks.
You can set BAZELISK_SHUTDOWN
to run shutdown
between builds when migrating or bisecting if you suspect this affects your results.
You can set BAZELISK_CLEAN
to run clean --expunge
between builds when migrating or bisecting if you suspect this affects your results.
If tools/bazel
exists in your workspace root and is executable, Bazelisk will run this file, instead of the Bazel version it downloaded.
It will set the environment variable BAZEL_REAL
to the path of the downloaded Bazel binary.
This can be useful, if you have a wrapper script that e.g. ensures that environment variables are set to known good values.
This behavior can be disabled by setting the environment variable BAZELISK_SKIP_WRAPPER
to any value (except the empty string) before launching Bazelisk.
You can control the user agent that Bazelisk sends in all HTTP requests by setting BAZELISK_USER_AGENT
to the desired value.
A .bazeliskrc
file in the root directory of a workspace or the user home directory allows users to set environment variables persistently. (The Python implementation of Bazelisk doesn't check the user home directory yet, only the workspace directory.)
Example file content:
USE_BAZEL_VERSION=0.19.0
BAZELISK_GITHUB_TOKEN=abc
The following variables can be set:
BAZELISK_BASE_URL
BAZELISK_FORMAT_URL
BAZELISK_NOJDK
BAZELISK_CLEAN
BAZELISK_GITHUB_TOKEN
BAZELISK_HOME_DARWIN
BAZELISK_HOME_LINUX
BAZELISK_HOME_WINDOWS
BAZELISK_HOME
BAZELISK_INCOMPATIBLE_FLAGS
BAZELISK_SHOW_PROGRESS
BAZELISK_SHUTDOWN
BAZELISK_SKIP_WRAPPER
BAZELISK_USER_AGENT
BAZELISK_VERIFY_SHA256
USE_BAZEL_VERSION
Configuration variables are evaluated with precedence order. The preferred values are derived in order from highest to lowest precedence as follows:
- Variables defined in the environment
- Variables defined in the workspace root
.bazeliskrc
- Variables defined in the user home
.bazeliskrc
Additionally, the Bazelisk home directory is also evaluated in precedence order. The preferred value is OS-specific e.g. BAZELISK_HOME_LINUX
, then we fall back to BAZELISK_HOME
.
For ease of use, the Python version of Bazelisk is written to work with Python 2.7 and 3.x and only uses modules provided by the standard library.
The Go version can be compiled to run natively on Linux, macOS and Windows.
To install it, run:
go install github.com/bazelbuild/bazelisk@latest
To add it to your PATH:
export PATH=$PATH:$(go env GOPATH)/bin
For more information, you may read about the GOPATH
environment variable.
- Add support for checked-in Bazel binaries.
- When the version label is set to a commit hash, first download a matching binary version of Bazel, then build Bazel automatically at that commit and use the resulting binary.
It creates a directory called "bazelisk" inside your user cache directory and will store them there. Feel free to delete this directory at any time, as it can be regenerated automatically when required.