- Assertion testing
- Asynchronous context tracking
- Async hooks
- C++ addons
- C/C++ addons with Node-API
- C++ embedder API
- Child processes
- Command-line options
- Deprecated APIs
- Diagnostics Channel
- File system
- Modules: CommonJS modules
- Modules: ECMAScript modules
- Modules: Packages
- Performance hooks
- Query strings
- String decoder
- Test runner
- Trace events
- Web Crypto API
- Web Streams API
- Worker threads
Table of contents
Corepack is an experimental tool to help with managing versions of your package managers. It exposes binary proxies for each supported package manager that, when called, will identify whatever package manager is configured for the current project, transparently install it if needed, and finally run it without requiring explicit user interactions.
This feature simplifies two core workflows:
It eases new contributor onboarding, since they won't have to follow system-specific installation processes anymore just to have the package manager you want them to.
It allows you to ensure that everyone in your team will use exactly the package manager version you intend them to, without them having to manually synchronize it each time you need to make an update.
Enabling the feature#
Due to its experimental status, Corepack currently needs to be explicitly
enabled to have any effect. To do that simply run
corepack enable, which
will set up the symlinks in your environment, next to the
(and overwrite the existing symlinks if necessary).
From this point forward, any call to the supported binaries will work
without further setup. Should you experience a problem, just run
corepack disable to remove the proxies from your system (and consider
opening up an issue on the Corepack repository to let us know).
Configuring a package#
If the value corresponds to a supported package manager, Corepack will make sure that all calls to the relevant binaries are run against the requested version, downloading it on demand if needed, and aborting if it cannot be successfully retrieved.
Upgrading the global versions#
When running outside of an existing project (for example when running
yarn init), Corepack will by default use predefined versions roughly
corresponding to the latest stable releases from each tool. Those versions can
be easily overriden by running the
corepack prepare command along with the
package manager version you wish to set:
corepack prepare email@example.com --activate
Many production environments don't have network access. Since Corepack
usually downloads the package manager releases straight from their registries,
it can conflict with such environments. To avoid that happening, call the
corepack prepare command while you still have network access (typically at
the same time you're preparing your deploy image). This will ensure that the
required package managers are available even without network access.
Supported package managers#
The following binaries are provided through Corepack:
|Package manager||Binary names|
How does Corepack currently interact with npm?#
While Corepack could easily support npm like any other package manager, its shims aren't currently enabled by default. This has a few consequences:
It's always possible to run a
npmcommand within a project configured to be used with another package manager, since Corepack cannot intercept it.
npmis a valid option in the
"packageManager"property, the lack of shim will cause the global npm to be used.
npm install -g yarn doesn't work#
npm prevents accidentally overriding the Corepack binaries when doing a global install. To avoid this problem, consider one of the following options:
Don't run this command anymore; Corepack will provide the package manager binaries anyway and will ensure that the requested versions are always available, so installing the package managers explicitly isn't needed anymore.
npm install; this will tell npm that it's fine to override binaries, but you'll erase the Corepack ones in the process (should that happen, run
corepack enableagain to add them back).