Working with External Dependencies

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Bazel can depend on targets from other projects. Dependencies from these other projects are called external dependencies.

The WORKSPACE file (or WORKSPACE.bazel file) in the workspace directory tells Bazel how to get other projects' sources. These other projects can contain one or more BUILD files with their own targets. BUILD files within the main project can depend on these external targets by using their name from the WORKSPACE file.

For example, suppose there are two projects on a system:

/
  home/
    user/
      project1/
        WORKSPACE
        BUILD
        srcs/
          ...
      project2/
        WORKSPACE
        BUILD
        my-libs/

If project1 wanted to depend on a target, :foo, defined in /home/user/project2/BUILD, it could specify that a repository named project2 could be found at /home/user/project2. Then targets in /home/user/project1/BUILD could depend on @project2//:foo.

The WORKSPACE file allows users to depend on targets from other parts of the filesystem or downloaded from the internet. It uses the same syntax as BUILD files, but allows a different set of rules called repository rules (sometimes also known as workspace rules). Bazel comes with a few built-in repository rules and a set of embedded Starlark repository rules. Users can also write custom repository rules to get more complex behavior.

Supported types of external dependencies

A few basic types of external dependencies can be used:

Depending on other Bazel projects

If you want to use targets from a second Bazel project, you can use local_repository, git_repository or http_archive to symlink it from the local filesystem, reference a git repository or download it (respectively).

For example, suppose you are working on a project, my-project/, and you want to depend on targets from your coworker's project, coworkers-project/. Both projects use Bazel, so you can add your coworker's project as an external dependency and then use any targets your coworker has defined from your own BUILD files. You would add the following to my_project/WORKSPACE:

local_repository(
    name = "coworkers_project",
    path = "/path/to/coworkers-project",
)

If your coworker has a target //foo:bar, your project can refer to it as @coworkers_project//foo:bar. External project names must be valid workspace names.

Depending on non-Bazel projects

Rules prefixed with new_, such as new_local_repository, allow you to create targets from projects that do not use Bazel.

For example, suppose you are working on a project, my-project/, and you want to depend on your coworker's project, coworkers-project/. Your coworker's project uses make to build, but you'd like to depend on one of the .so files it generates. To do so, add the following to my_project/WORKSPACE:

new_local_repository(
    name = "coworkers_project",
    path = "/path/to/coworkers-project",
    build_file = "coworker.BUILD",
)

build_file specifies a BUILD file to overlay on the existing project, for example:

cc_library(
    name = "some-lib",
    srcs = glob(["**"]),
    visibility = ["//visibility:public"],
)

You can then depend on @coworkers_project//:some-lib from your project's BUILD files.

Depending on external packages

Maven artifacts and repositories

Use the ruleset rules_jvm_external to download artifacts from Maven repositories and make them available as Java dependencies.

Fetching dependencies

By default, external dependencies are fetched as needed during bazel build. If you would like to prefetch the dependencies needed for a specific set of targets, use bazel fetch. To unconditionally fetch all external dependencies, use bazel sync. As fetched repositories are stored in the output base, fetching happens per workspace.

Shadowing dependencies

Whenever possible, it is recommended to have a single version policy in your project. This is required for dependencies that you compile against and end up in your final binary. But for cases where this isn't true, it is possible to shadow dependencies. Consider the following scenario:

myproject/WORKSPACE

workspace(name = "myproject")

local_repository(
    name = "A",
    path = "../A",
)
local_repository(
    name = "B",
    path = "../B",
)

A/WORKSPACE

workspace(name = "A")

load("@bazel_tools//tools/build_defs/repo:http.bzl", "http_archive")
http_archive(
    name = "testrunner",
    urls = ["https://github.com/testrunner/v1.zip"],
    sha256 = "...",
)

B/WORKSPACE

workspace(name = "B")

load("@bazel_tools//tools/build_defs/repo:http.bzl", "http_archive")
http_archive(
    name = "testrunner",
    urls = ["https://github.com/testrunner/v2.zip"],
    sha256 = "..."
)

Both dependencies A and B depend on testrunner, but they depend on different versions of testrunner. There is no reason for these test runners to not peacefully coexist within myproject, however they will clash with each other since they have the same name. To declare both dependencies, update myproject/WORKSPACE:

workspace(name = "myproject")

load("@bazel_tools//tools/build_defs/repo:http.bzl", "http_archive")
http_archive(
    name = "testrunner-v1",
    urls = ["https://github.com/testrunner/v1.zip"],
    sha256 = "..."
)
http_archive(
    name = "testrunner-v2",
    urls = ["https://github.com/testrunner/v2.zip"],
    sha256 = "..."
)
local_repository(
    name = "A",
    path = "../A",
    repo_mapping = {"@testrunner" : "@testrunner-v1"}
)
local_repository(
    name = "B",
    path = "../B",
    repo_mapping = {"@testrunner" : "@testrunner-v2"}
)

This mechanism can also be used to join diamonds. For example if A and B had the same dependency but call it by different names, those dependencies can be joined in myproject/WORKSPACE.

Overriding repositories from the command line

To override a declared repository with a local repository from the command line, use the --override_repository flag. Using this flag changes the contents of external repositories without changing your source code.

For example, to override @foo to the local directory /path/to/local/foo, pass the --override_repository=foo=/path/to/local/foo flag.

Some of the use cases include:

  • Debugging issues. For example, you can override a http_archive repository to a local directory where you can make changes more easily.
  • Vendoring. If you are in an environment where you cannot make network calls, override the network-based repository rules to point to local directories instead.

Using proxies

Bazel will pick up proxy addresses from the HTTPS_PROXY and HTTP_PROXY environment variables and use these to download HTTP/HTTPS files (if specified).

Support for IPv6

On IPv6-only machines, Bazel will be able to download dependencies with no changes. On dual-stack IPv4/IPv6 machines, however, Bazel follows the same convention as Java: if IPv4 is enabled, IPv4 is preferred. In some situations, for example when IPv4 network is unable to resolve/reach external addresses, this can cause Network unreachable exceptions and build failures. In these cases, you can override Bazel's behavior to prefer IPv6 by using java.net.preferIPv6Addresses=true system property. Specifically:

  • Use --host_jvm_args=-Djava.net.preferIPv6Addresses=true startup option, for example by adding the following line in your .bazelrc file:

    startup --host_jvm_args=-Djava.net.preferIPv6Addresses=true

  • If you are running Java build targets that need to connect to the internet as well (integration tests sometimes needs that), also use --jvmopt=-Djava.net.preferIPv6Addresses=true tool flag, for example by having the following line in your .bazelrc file:

    build --jvmopt=-Djava.net.preferIPv6Addresses

  • If you are using rules_jvm_external, for example, for dependency version resolution, also add -Djava.net.preferIPv6Addresses=true to the COURSIER_OPTS environment variable to provide JVM options for Coursier

Transitive dependencies

Bazel only reads dependencies listed in your WORKSPACE file. If your project (A) depends on another project (B) which lists a dependency on a third project (C) in its WORKSPACE file, you'll have to add both B and C to your project's WORKSPACE file. This requirement can balloon the WORKSPACE file size, but limits the chances of having one library include C at version 1.0 and another include C at 2.0.

Caching of external dependencies

By default, Bazel will only re-download external dependencies if their definition changes. Changes to files referenced in the definition (such as patches or BUILD files) are also taken into account by bazel.

To force a re-download, use bazel sync.

Layout

External dependencies are all downloaded to a directory under the subdirectory external in the output base. In case of a local repository, a symlink is created there instead of creating a new directory. You can see the external directory by running:

ls $(bazel info output_base)/external

Note that running bazel clean will not actually delete the external directory. To remove all external artifacts, use bazel clean --expunge.

Offline builds

It is sometimes desirable or necessary to run a build in an offline fashion. For simple use cases, such as traveling on an airplane, prefetching the needed repositories with bazel fetch or bazel sync can be enough; moreover, the using the option --nofetch, fetching of further repositories can be disabled during the build.

For true offline builds, where the providing of the needed files is to be done by an entity different from bazel, bazel supports the option --distdir. Whenever a repository rule asks bazel to fetch a file via ctx.download or ctx.download_and_extract and provides a hash sum of the file needed, bazel will first look into the directories specified by that option for a file matching the basename of the first URL provided, and use that local copy if the hash matches.

Bazel itself uses this technique to bootstrap offline from the distribution artifact. It does so by collecting all the needed external dependencies in an internal distdir_tar.

However, bazel allows the execution of arbitrary commands in repository rules, without knowing if they call out to the network. Therefore, bazel has no option to enforce builds being fully offline. So testing if a build works correctly offline requires external blocking of the network, as bazel does in its bootstrap test.

Best practices

Repository rules

A repository rule should generally be responsible for:

  • Detecting system settings and writing them to files.
  • Finding resources elsewhere on the system.
  • Downloading resources from URLs.
  • Generating or symlinking BUILD files into the external repository directory.

Avoid using repository_ctx.execute when possible. For example, when using a non-Bazel C++ library that has a build using Make, it is preferable to use repository_ctx.download() and then write a BUILD file that builds it, instead of running ctx.execute(["make"]).

Prefer http_archive to git_repository and new_git_repository. The reasons are:

  • Git repository rules depend on system git(1) whereas the HTTP downloader is built into Bazel and has no system dependencies.
  • http_archive supports a list of urls as mirrors, and git_repository supports only a single remote.
  • http_archive works with the repository cache, but not git_repository. See #5116 for more information.

Do not use bind(). See "Consider removing bind" for a long discussion of its issues and alternatives.