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165 lines
6.3 KiB
Markdown
165 lines
6.3 KiB
Markdown
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npm-package-locks(5) -- An explanation of npm lockfiles
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=====================================================
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## DESCRIPTION
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Conceptually, the "input" to npm-install(1) is a package.json(5), while its
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"output" is a fully-formed `node_modules` tree: a representation of the
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dependencies you declared. In an ideal world, npm would work like a pure
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function: the same `package.json` should produce the exact same `node_modules`
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tree, any time. In some cases, this is indeed true. But in many others, npm is
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unable to do this. There are multiple reasons for this:
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* different versions of npm (or other package managers) may have been used to install a package, each using slightly different installation algorithms.
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* a new version of a direct semver-range package may have been published since the last time your packages were installed, and thus a newer version will be used.
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* A dependency of one of your dependencies may have published a new version, which will update even if you used pinned dependency specifiers (`1.2.3` instead of `^1.2.3`)
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* The registry you installed from is no longer available, or allows mutation of versions (unlike the primary npm registry), and a different version of a package exists under the same version number now.
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As an example, consider package A:
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{
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"name": "A",
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"version": "0.1.0",
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"dependencies": {
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"B": "<0.1.0"
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}
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}
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package B:
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{
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"name": "B",
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"version": "0.0.1",
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"dependencies": {
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"C": "<0.1.0"
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}
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}
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and package C:
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{
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"name": "C",
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"version": "0.0.1"
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}
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If these are the only versions of A, B, and C available in the
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registry, then a normal `npm install A` will install:
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A@0.1.0
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`-- B@0.0.1
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`-- C@0.0.1
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However, if B@0.0.2 is published, then a fresh `npm install A` will
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install:
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A@0.1.0
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`-- B@0.0.2
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`-- C@0.0.1
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assuming the new version did not modify B's dependencies. Of course,
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the new version of B could include a new version of C and any number
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of new dependencies. If such changes are undesirable, the author of A
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could specify a dependency on B@0.0.1. However, if A's author and B's
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author are not the same person, there's no way for A's author to say
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that he or she does not want to pull in newly published versions of C
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when B hasn't changed at all.
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To prevent this potential issue, npm uses package-lock.json(5) or, if present,
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npm-shrinkwrap.json(5). These files are called package locks, or lockfiles.
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Whenever you run `npm install`, npm generates or updates your package lock,
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which will look something like this:
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{
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"name": "A",
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"version": "0.1.0",
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...metadata fields...
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"dependencies": {
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"B": {
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"version": "0.0.1",
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"resolved": "https://registry.npmjs.org/B/-/B-0.0.1.tgz",
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"integrity": "sha512-DeAdb33F+"
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"dependencies": {
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"C": {
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"version": "git://github.com/org/C.git#5c380ae319fc4efe9e7f2d9c78b0faa588fd99b4"
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}
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}
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}
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}
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}
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This file describes an *exact*, and more importantly *reproducible*
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`node_modules` tree. Once it's present, any future installation will base its
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work off this file, instead of recalculating dependency versions off
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package.json(5).
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The presence of a package lock changes the installation behavior such that:
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1. The module tree described by the package lock is reproduced. This means
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reproducing the structure described in the file, using the specific files
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referenced in "resolved" if available, falling back to normal package resolution
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using "version" if one isn't.
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2. The tree is walked and any missing dependencies are installed in the usual
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fashion.
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If `preshrinkwrap`, `shrinkwrap` or `postshrinkwrap` are in the `scripts`
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property of the `package.json`, they will be executed in order. `preshrinkwrap`
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and `shrinkwrap` are executed before the shrinkwrap, `postshrinkwrap` is
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executed afterwards. These scripts run for both `package-lock.json` and
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`npm-shrinkwrap.json`. For example to run some postprocessing on the generated
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file:
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"scripts": {
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"postshrinkwrap": "json -I -e \"this.myMetadata = $MY_APP_METADATA\""
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}
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### Using locked packages
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Using a locked package is no different than using any package without a package
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lock: any commands that update `node_modules` and/or `package.json`'s
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dependencies will automatically sync the existing lockfile. This includes `npm
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install`, `npm rm`, `npm update`, etc. To prevent this update from happening,
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you can use the `--no-save` option to prevent saving altogether, or
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`--no-shrinkwrap` to allow `package.json` to be updated while leaving
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`package-lock.json` or `npm-shrinkwrap.json` intact.
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It is highly recommended you commit the generated package lock to source
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control: this will allow anyone else on your team, your deployments, your
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CI/continuous integration, and anyone else who runs `npm install` in your
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package source to get the exact same dependency tree that you were developing
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on. Additionally, the diffs from these changes are human-readable and will
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inform you of any changes npm has made to your `node_modules`, so you can notice
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if any transitive dependencies were updated, hoisted, etc.
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### Resolving lockfile conflicts
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Occasionally, two separate npm install will create package locks that cause
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merge conflicts in source control systems. As of `npm@5.7.0`, these conflicts
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can be resolved by manually fixing any `package.json` conflicts, and then
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running `npm install [--package-lock-only]` again. npm will automatically
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resolve any conflicts for you and write a merged package lock that includes all
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the dependencies from both branches in a reasonable tree. If
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`--package-lock-only` is provided, it will do this without also modifying your
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local `node_modules/`.
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To make this process seamless on git, consider installing
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[`npm-merge-driver`](https://npm.im/npm-merge-driver), which will teach git how
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to do this itself without any user interaction. In short: `$ npx
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npm-merge-driver install -g` will let you do this, and even works with
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pre-`npm@5.7.0` versions of npm 5, albeit a bit more noisily. Note that if
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`package.json` itself conflicts, you will have to resolve that by hand and run
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`npm install` manually, even with the merge driver.
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## SEE ALSO
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* https://medium.com/@sdboyer/so-you-want-to-write-a-package-manager-4ae9c17d9527
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* package.json(5)
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* package-lock.json(5)
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* npm-shrinkwrap.json(5)
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* npm-shrinkwrap(1)
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