Skip to content

Bloombox/rules_nodejs

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

NodeJS rules for Bazel

Circle CI Bazel CI
CircleCI Build status

This is a beta-quality release. Breaking changes are likely.

The nodejs rules integrate NodeJS development toolchain and runtime with Bazel.

This toolchain can be used to build applications that target a browser runtime, so this repo can be thought of as "JavaScript rules for Bazel" as well.

API Docs

Generated documentation for using each rule is at: https://bazelbuild.github.io/rules_nodejs/

Quickstart

This is the fastest way to get started. See sections below for details and alternative methods.

$ npm init @bazel

or if you prefer yarn,

$ yarn create @bazel

These commands are equivalent to npx @bazel/create which downloads the latest version of the @bazel/create package from npm and runs the program contained.

See the output of the tool for command-line options and next steps.

Adopters

Thanks to the following active users!

Open-source repositories:

Organizations:

Not on this list? Send a PR to add your repo or organization!

User testimonials

From Lewis Hemens at Dataform:

At Dataform we manage a number of NPM packages, Webpack builds, Node services and Java pipelines across two separate repositories. This quickly became hard for us to manage, development was painful and and deploying code required a many manual steps. We decided to dive in and migrate our build system entirely to Bazel. This was a gradual transition that one engineer did over the course of about 2 months, during which we had both Bazel and non bazel build processes in place. Once we had fully migrated, we saw many benefits to all parts of our development workflow:

  • Faster CI: we enabled the remote build caching which has reduced our average build time from 30 minutes to 5 (for the entire repository)
  • Improvements to local development: no more random bash scripts that you forget to run, incremental builds reduced to seconds from minutes
  • Simplified deployment processes: we can deploy our code to environments in Kubernetes with just one command that builds and pushes images
  • A monorepo that scales: adding new libraries or packages to our repo became easy, which means we do it more and end up write more modular, shared, maintainable code
  • Developing across machine types: our engineers have both Macbooks and Linux machines, bazel makes it easy to build code across both
  • Developer setup time: New engineers can build all our code with just 3 dependencies - bazel, docker and the JVM. The last engineer to join our team managed to build all our code in < 30 minutes on a brand new, empty laptop

Adding Build Targets

Consult the documentation at http://bazel.build for details.

Create a file called BUILD.bazel and invoke some rules to create targets.

Some of the available rules are:

Rule Description
nodejs_binary Allows you to run an application by giving the entry point. The entry point can come from an external dependency installed by the package manager, or it can be a .js file from a package built by Bazel.
nodejs_test The same as nodejs_binary, but instead of calling it with bazel run, you call it with bazel test. The test passes if the program exits with a zero exit code.
jasmine_node_test Allows you to write a test that executes in NodeJS using the Jasmine test framework.
rollup_bundle Runs the Rollup and Terser toolchain to produce a single JavaScript bundle from multiple JavaScript sources.
npm_package Creates a package format ready to publish to npm. Can also do the publishing.
ts_library Compiles TypeScript code into JavaScript
karma_web_test Runs tests in a browser using the Karma test runner

Custom installation

First, you need Bazel. We recommend fetching it from npm to keep your frontend workflow similar.

You could install a current bazel distribution, following the bazel instructions. This has the advantage of setting up Bazel command-line completion.

Next, create a WORKSPACE file in your project root (or edit the existing one) containing:

load("@bazel_tools//tools/build_defs/repo:http.bzl", "http_archive")
http_archive(
    name = "build_bazel_rules_nodejs",
    sha256 = "6d4edbf28ff6720aedf5f97f9b9a7679401bf7fca9d14a0fff80f644a99992b4",
    urls = ["https://github.com/bazelbuild/rules_nodejs/releases/download/0.32.2/rules_nodejs-0.32.2.tar.gz"],
)

load("@build_bazel_rules_nodejs//:defs.bzl", "node_repositories")

Now you can choose from a few options to finish installation.

To choose a version of Node.js:

  1. (Simplest) use the version of Node.js that comes with these rules by default
  2. Choose from one of the versions we support natively
  3. Tell Bazel where to download a specific version you require
  4. Check Node.js into your repository and don't download anything

These are described in more detail in the following sections.

Simple usage

Add this to your WORKSPACE file. It only tells Bazel how to find your package.json file. It will use default versions of Node.js and npm.

# NOTE: this rule installs nodejs, npm, and yarn, but does NOT install
# your npm dependencies into your node_modules folder.
# You must still run the package manager to do this.
node_repositories(package_json = ["//:package.json"])

Installation with a specific supported version of Node.js and Yarn

You can choose a specific version of Node.js that's built into these rules. Currently these versions are:

  • 10.13.0 (default)
  • 10.10.0
  • 10.9.0
  • 10.3.0
  • 9.11.1
  • 8.12.0
  • 8.11.1
  • 8.9.1

You can also choose a specific version of Yarn. Currently these versions are:

  • 1.12.1 (default)
  • 1.9.4
  • 1.9.2
  • 1.6.0
  • 1.5.1
  • 1.3.2

Add to WORKSPACE:

# NOTE: this rule installs nodejs, npm, and yarn, but does NOT install
# your npm dependencies into your node_modules folder.
# You must still run the package manager to do this.
node_repositories(
    package_json = ["//:package.json"],
    node_version = "8.11.1",
    yarn_version = "1.5.1",
)

Installation with a manually specified version of NodeJS and Yarn

If you'd like to use a version of NodeJS and/or Yarn that are not currently supported here, you can manually specify those in your WORKSPACE:

load("@build_bazel_rules_nodejs//:defs.bzl", "node_repositories")

# NOTE: this rule does NOT install your npm dependencies into your node_modules folder.
# You must still run the package manager to do this.
node_repositories(
  node_version = "8.10.0",
  yarn_version = "1.5.1",
  node_repositories = {
    "8.10.0-darwin_amd64": ("node-v8.10.0-darwin-x64.tar.gz", "node-v8.10.0-darwin-x64", "7d77bd35bc781f02ba7383779da30bd529f21849b86f14d87e097497671b0271"),
    "8.10.0-linux_amd64": ("node-v8.10.0-linux-x64.tar.xz", "node-v8.10.0-linux-x64", "92220638d661a43bd0fee2bf478cb283ead6524f231aabccf14c549ebc2bc338"),
    "8.10.0-windows_amd64": ("node-v8.10.0-win-x64.zip", "node-v8.10.0-win-x64", "936ada36cb6f09a5565571e15eb8006e45c5a513529c19e21d070acf0e50321b"),
  },
  yarn_repositories = {
    "1.5.1": ("yarn-v1.5.1.tar.gz", "yarn-v1.5.1", "cd31657232cf48d57fdbff55f38bfa058d2fb4950450bd34af72dac796af4de1"),
  },
  node_urls = ["https://nodejs.org/dist/v{version}/{filename}"],
  yarn_urls = ["https://github.com/yarnpkg/yarn/releases/download/v{version}/{filename}"],
  package_json = ["//:package.json"])

Specifying node_urls and yarn_urls is optional. If omitted, the default values will be used. You may also use a custom NodeJS version and the default Yarn version or vice-versa.

Installation with local vendored versions of NodeJS and Yarn

Finally, you could check Node.js and Yarn into your repository, and not fetch them from the internet. This is what we do internally at Google.

load("@build_bazel_rules_nodejs//:defs.bzl", "node_repositories")

# Point node_repositories to use locally installed versions of Node.js and Yarn.
# The vendored_node and vendored_yarn labels point to the extracted contents of
# https://nodejs.org/dist/v10.12.0/node-v10.12.0-linux-x64.tar.xz and
# https://github.com/yarnpkg/yarn/releases/download/v1.10.0/yarn-v1.10.0.tar.gz
# respectively. NOTE: node-v10.12.0-linux-x64 will only work on Linux.
node_repositories(
  vendored_node = "@wksp//:third_party/node-v10.12.0-linux-x64",
  vendored_yarn = "@wksp//:third_party/yarn-v1.10.0",
  package_json = ["//:package.json"])

In this case, the locally installed Node.js and Yarn are located in the wksp workspace in the third_party/node-v10.12.0-linux-x64 and third_party/yarn-v1.10.0 folders. When using vendored_node, you will be restricted to a single platform. vendored_yarn on the other hand, is platform independent. See /examples/vendored_node in this repository for an example of this in use.

NOTE: Vendored Node.js and Yarn are not compatible with Remote Bazel Execution.

Dependencies

Bazel-managed vs self-managed dependencies

You have two options for managing your node_modules dependencies: Bazel-managed or self-managed.

With the Bazel-managed dependencies approach, Bazel is responsible for making sure that node_modules is up to date with your package[-lock].json or yarn.lock files. This means Bazel will set it up when the repository is first cloned, and rebuild it whenever it changes. With the yarn_install or npm_install repository rules, Bazel will setup your node_modules for you in an external workspace named after the repository rule. For example, a yarn_install(name = "npm", ...) will setup an external workspace named @npm with the node_modules folder inside of it as well as generating targets for each root npm package in node_modules for use as dependencies to other rules.

For Bazel to provide the strongest guarantees about reproducibility and the fidelity of your build, it is recommended that you use Bazel-managed dependencies. This approach also allows you to use the generated fine-grained npm package dependencies which can significantly reduce the number of inputs to actions, making Bazel sand-boxing and remote-execution faster if there are a large number of files under node_modules.

Note that as of Bazel 0.26, and with the recommended managed_directories attribute on the workspace rule in /WORKSPACE, the Bazel-managed node_modules directory is placed in your workspace root in the standard location used by npm or yarn.

Using Bazel-managed dependencies

To have Bazel manage its own copy of node_modules, which is useful to avoid juggling multiple toolchains, you can add one of the following to your WORKSPACE file:

Using Yarn (preferred):

load("@build_bazel_rules_nodejs//:defs.bzl", "yarn_install")

yarn_install(
    name = "npm",
    package_json = "//:package.json",
    yarn_lock = "//:yarn.lock",
)

Using NPM:

load("@build_bazel_rules_nodejs//:defs.bzl", "npm_install")

npm_install(
    name = "npm",
    package_json = "//:package.json",
    package_lock_json = "//:package-lock.json",
)

If you don't need to pass any arguments to node_repositories, you can skip calling that function. yarn_install and npm_install will do it by default.

You should now add the @npm workspace to the managed_directories option in the workspace rule at the top of the file. This tells Bazel that the node_modules directory is special and is managed by the package manager. Add the workspace rule if it isn't already in your /WORKSPACE file.

workspace(
    name = "my_wksp",
    managed_directories = {"@npm": ["node_modules"]},
)

As of Bazel 0.26 this feature is still experimental, so also add this line to the .bazelrc to opt-in:

common --experimental_allow_incremental_repository_updates

yarn_install vs. npm_install

yarn_install is the preferred rule for setting up Bazel-managed dependencies for a number of reasons:

  • yarn_install will use the global yarn cache by default which will improve your build performance (this can be turned off with the use_global_yarn_cache attribute)
  • npm has a known peer dependency hoisting issue that can lead to missing peer dependencies in some cases (see bazel-contrib#416)

Fine-grained npm package dependencies

You can then reference individual npm packages in your BUILD rules via:

load("@build_bazel_rules_nodejs//:defs.bzl", "nodejs_binary")

nodejs_binary(
    name = "bar",
    data = [
      "@npm//foo",
      "@npm//baz",
    ]
    ...
)

In this case, the bar nodejs_binary depends only the foo and baz npm packages and all of their transitive deps.

For other rules such as jasmine_node_test, fine grained npm dependencies are specified in the deps attribute:

jasmine_node_test(
    name = "test",
    ...
    deps = [
        "@npm//jasmine",
        "@npm//foo",
        "@npm//baz",
        ...
    ],
)

Fine-grained npm package nodejs_binary targets

If an npm package lists one or more bin entry points in its package.json, nodejs_binary targets will be generated for these.

For example, the protractor package has two bin entries in its package.json:

  "bin": {
    "protractor": "bin/protractor",
    "webdriver-manager": "bin/webdriver-manager"
  },

These will result in two generated nodejs_binary targets in the @npm//protractor/bin package (if your npm deps workspace is @npm):

  • @npm//protractor/bin:protractor
  • @npm//protractor/bin:webdriver-manager

These targets can be used as executables for actions in custom rules or can be run by Bazel directly. For example, you can run protractor with the following:

$ bazel run @npm//protractor/bin:protractor

Note: These targets are in the protractor/bin package so they don't conflict with the targets to use in deps[]. For example, @npm//protractor:protractor is target to use in deps[] while @npm//protractor/bin:protractor is the binary target.

Coarse node_modules dependencies

Using fine grained npm dependencies is recommended to minimize the number of inputs to your rules. However, for backward compatibility there are also filegroups defined by yarn_install and npm_install that include all packages under node_modules and which can be used with the node_modules attribute of nodejs rules.

  • @npm//:node_modules includes all packages under node_modules as well as the .bin folder
load("@build_bazel_rules_nodejs//:defs.bzl", "nodejs_binary")

nodejs_binary(
    name = "bar",
    node_modules = "@npm//:node_modules",
)

Using self-managed dependencies

If you'd like to have Bazel use the node_modules directory you are managing, then next you will create a BUILD.bazel file in your project root containing:

package(default_visibility = ["//visibility:public"])

filegroup(
    name = "node_modules",
    srcs = glob(
        include = ["node_modules/**/*"],
        exclude = [
          # Files under test & docs may contain file names that
          # are not legal Bazel labels (e.g.,
          # node_modules/ecstatic/test/public/中文/檔案.html)
          "node_modules/test/**",
          "node_modules/docs/**",
          # Files with spaces are not allowed in Bazel runfiles
          # See https://github.com/bazelbuild/bazel/issues/4327
          "node_modules/**/* */**",
          "node_modules/**/* *",
        ],
    ),
)

The example in examples/program uses self-managed dependencies.

To use the Yarn package manager, which we recommend for its built-in verification command, you can run:

$ bazel run @nodejs//:yarn

If you use npm instead, run:

$ bazel run @nodejs//:npm install

The @nodejs//:yarn and @nodejs//:npm targets will run yarn/npm on all of the package.json contexts listed package_json attribute of the node_repositories repository rule in your WORKSPACE file (node_repositories(package_json = [...])).

If there are multiple package.json contexts in this rule but you would like to run the bazel managed yarn or npm on a single context this can be done using the following targets:

$ bazel run @nodejs//:bin/yarn -- <arguments passed to yarn>

If you use npm instead, run:

$ bazel run @nodejs//:bin/npm -- <arguments passed to npm>

Note: on Windows the targets are @nodejs//:bin/yarn.cmd and @nodejs//:bin/npm.cmd.

This will run yarn/npm in the current working directory. To add a package with the yarn add command, for example, you would use:

$ bazel run @nodejs//:bin/yarn -- add <package>

Note: the arguments passed to bazel run after -- are forwarded to the executable being run.

Toolchains

When you add node_repositories() to your WORKSPACE file it will setup a node toolchain for all currently supported platforms, Linux, macOS and Windows. Amongst other things this adds support for cross-compilations as well as Remote Build Execution support. For more detailed information also see Bazel Toolchains.

If you have an advanced use-case you can also register your own toolchains and call node_toolchain_configure directly to manually setup a toolchain.

Cross-compilation

Toolchains allow us to support cross-compilation, e.g. building a linux binary from mac or windows. To tell Bazel to provide a toolchain for a different platform you have to pass in the --platforms flag. Currently supported values are:

  • @build_bazel_rules_nodejs//toolchains/node:linux_amd64
  • @build_bazel_rules_nodejs//toolchains/node:darwin_amd64
  • @build_bazel_rules_nodejs//toolchains/node:windows_amd64

So if for example you want to build a docker image from a non-linux platform you would run bazel build --platforms=@build_bazel_rules_nodejs//toolchains/node:linux_amd64 //app, which will ensure that the linux nodejs binary is downloaded and provided to the nodejs_binary target.

Note: The toolchain currently only provides a platform-specific nodejs binary. Any native modules will still be fetched/built, by npm/yarn, for your host platform, so they will not work on the target platform. Support for cross-compilation with native dependencies will follow.

Usage

Running a program from npm

The nodejs_binary rule lets you run a program with Node.js. See https://bazelbuild.github.io/rules_nodejs/node/node.html

If you have installed the rollup package, you could write this rule:

load("@build_bazel_rules_nodejs//:defs.bzl", "nodejs_binary")

nodejs_binary(
    name = "rollup",
    entry_point = "//:node_modules/rollup/bin/rollup",
)

and run it with

$ bazel run :rollup -- --help

You can also wrap an npm program with a Bazel rule, making it easy to integrate with a Bazel build. See the examples/parcel example.

Running a program from local sources

We can reference a path in the local workspace to run a program we write.

load("@build_bazel_rules_nodejs//:defs.bzl", "nodejs_binary")

nodejs_binary(
    name = "example",
    data = [
        "@//:node_modules",
        "main.js",
    ],
    entry_point = ":main.js",
    args = ["--node_options=--expose-gc"],
)

This example illustrates how to pass arguments to nodejs (as opposed to passing arguments to the program).

The data attribute is optional, by default it includes the node_modules directory. To include your own sources, include a file or target that produces JavaScript.

See the examples/program directory in this repository.

Testing

The examples/program/index.spec.js file illustrates testing. Another usage is in https://github.com/angular/tsickle/blob/master/test/BUILD

Stamping

Bazel is generally only a build tool, and is unaware of your version control system. However, when publishing releases, you typically want to embed version information in the resulting distribution. Bazel supports this natively, using the following approach:

  1. Your tools/bazel.rc should pass the workspace_status_command argument to bazel build. This tells Bazel how to interact with the version control system when needed.

    build --workspace_status_command=./tools/bazel_stamp_vars.sh
    
  2. Create tools/bazel_stamp_vars.sh. This is a script that prints variable/value pairs. Make sure you set the executable bit, eg. chmod 755 tools/bazel_stamp_vars.sh. For example, we could run git describe to get the current tag:

    #!/usr/bin/env bash
    echo BUILD_SCM_VERSION $(git describe --abbrev=7 --tags HEAD)

    For a more full-featured script, take a look at the bazel_stamp_vars in Angular

Ideally, rollup_bundle and npm_package should honor the --stamp argument to bazel build. However this is not currently possible, see bazelbuild/bazel#1054

WARNING: Bazel doesn't rebuild a target if only the result of the workspace_status_command has changed. That means changes to the version information may not be reflected if you re-build the package or bundle, and nothing in the package or bundle has changed.

See https://www.kchodorow.com/blog/2017/03/27/stamping-your-builds/ for more background.

Scope of the project

This repository contains an orthogonal set of rules which covers an opinionated toolchain for JavaScript development. When requesting a new rule, describe your use case, why it's important, and why you can't do it with the existing rules. This is because we have limited resources to maintain additional rules.

The repository accepts contributions in terms of bug fixes or implementing new features in existing rules. If you're planning to implement a new rule, please strongly consider opening a feature request first so the project's maintainers can decide if it belongs to the scope of this project or not.

For rules outside of the scope of the projects we recommend hosting them in your GitHub account or the one of your organization.

Design

Most bazel rules include package management. That is, the WORKSPACE file installs your dependencies as well as the toolchain. In some environments, this is the normal workflow, for example in Java, Gradle and Maven are each both a build tool and a package manager.

In nodejs, there are a variety of package managers and build tools which can interoperate. Also, there is a well-known package installation location (node_modules directory in your project). Command-line and other tools look in this directory to find packages. So we must either download packages twice (risking version skew between them) or point all tools to Bazel's external directory with NODE_PATH which would be very inconvenient.

Instead, our philosophy is: in the NodeJS ecosystem, Bazel is only a build tool. It is up to the user to install packages into their node_modules directory, though the build tool can verify the contents.

Hermeticity and reproducibility

Bazel generally guarantees builds are correct with respect to their inputs. For example, this means that given the same source tree, you can re-build the same artifacts as an earlier release of your program. In the nodejs rules, Bazel is not the package manager, so some responsibility falls to the developer to avoid builds that use the wrong dependencies. This problem exists with any build system in the JavaScript ecosystem.

Both NPM and Yarn have a lockfile, which ensures that dependencies only change when the lockfile changes. Users are strongly encouraged to use the locking mechanism in their package manager.

References:

Note that bazel-contrib#1 will take the guarantee further: by using the lockfile as an input to Bazel, the nodejs rules can verify the integrity of the dependencies. This would make it impossible for a build to be non-reproducible, so long as you have the same lockfile.

About

JavaScript and NodeJS rules for Bazel

Resources

License

Code of conduct

Stars

Watchers

Forks

Packages

No packages published

Languages

  • Python 61.5%
  • JavaScript 27.8%
  • Shell 7.5%
  • TypeScript 2.7%
  • Smarty 0.3%
  • Batchfile 0.1%
  • Other 0.1%