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const cacache = require('cacache')
const git = require('@npmcli/git')
const npa = require('npm-package-arg')
const pickManifest = require('npm-pick-manifest')
const { Minipass } = require('minipass')
const { log } = require('proc-log')
const DirFetcher = require('./dir.js')
const Fetcher = require('./fetcher.js')
const FileFetcher = require('./file.js')
const RemoteFetcher = require('./remote.js')
const _ = require('./util/protected.js')
const addGitSha = require('./util/add-git-sha.js')
const npm = require('./util/npm.js')
const hashre = /^[a-f0-9]{40}$/
// get the repository url.
// prefer https if there's auth, since ssh will drop that.
// otherwise, prefer ssh if available (more secure).
// We have to add the git+ back because npa suppresses it.
const repoUrl = (h, opts) =>
h.sshurl && !(h.https && h.auth) && addGitPlus(h.sshurl(opts)) ||
h.https && addGitPlus(h.https(opts))
// add git+ to the url, but only one time.
const addGitPlus = url => url && `git+${url}`.replace(/^(git\+)+/, 'git+')
class GitFetcher extends Fetcher {
constructor (spec, opts) {
super(spec, opts)
// we never want to compare integrity for git dependencies: npm/rfcs#525
if (this.opts.integrity) {
delete this.opts.integrity
log.warn(`skipping integrity check for git dependency ${this.spec.fetchSpec}`)
}
this.resolvedRef = null
if (this.spec.hosted) {
this.from = this.spec.hosted.shortcut({ noCommittish: false })
}
// shortcut: avoid full clone when we can go straight to the tgz
// if we have the full sha and it's a hosted git platform
if (this.spec.gitCommittish && hashre.test(this.spec.gitCommittish)) {
this.resolvedSha = this.spec.gitCommittish
// use hosted.tarball() when we shell to RemoteFetcher later
this.resolved = this.spec.hosted
? repoUrl(this.spec.hosted, { noCommittish: false })
: this.spec.rawSpec
} else {
this.resolvedSha = ''
}
this.Arborist = opts.Arborist || null
}
// just exposed to make it easier to test all the combinations
static repoUrl (hosted, opts) {
return repoUrl(hosted, opts)
}
get types () {
return ['git']
}
resolve () {
// likely a hosted git repo with a sha, so get the tarball url
// but in general, no reason to resolve() more than necessary!
if (this.resolved) {
return super.resolve()
}
// fetch the git repo and then look at the current hash
const h = this.spec.hosted
// try to use ssh, fall back to git.
return h
? this.#resolvedFromHosted(h)
: this.#resolvedFromRepo(this.spec.fetchSpec)
}
// first try https, since that's faster and passphrase-less for
// public repos, and supports private repos when auth is provided.
// Fall back to SSH to support private repos
// NB: we always store the https url in resolved field if auth
// is present, otherwise ssh if the hosted type provides it
#resolvedFromHosted (hosted) {
return this.#resolvedFromRepo(hosted.https && hosted.https()).catch(er => {
// Throw early since we know pathspec errors will fail again if retried
if (er instanceof git.errors.GitPathspecError) {
throw er
}
const ssh = hosted.sshurl && hosted.sshurl()
// no fallthrough if we can't fall through or have https auth
if (!ssh || hosted.auth) {
throw er
}
return this.#resolvedFromRepo(ssh)
})
}
#resolvedFromRepo (gitRemote) {
// XXX make this a custom error class
if (!gitRemote) {
return Promise.reject(new Error(`No git url for ${this.spec}`))
}
const gitRange = this.spec.gitRange
const name = this.spec.name
return git.revs(gitRemote, this.opts).then(remoteRefs => {
return gitRange ? pickManifest({
versions: remoteRefs.versions,
'dist-tags': remoteRefs['dist-tags'],
name,
}, gitRange, this.opts)
: this.spec.gitCommittish ?
remoteRefs.refs[this.spec.gitCommittish] ||
remoteRefs.refs[remoteRefs.shas[this.spec.gitCommittish]]
: remoteRefs.refs.HEAD // no git committish, get default head
}).then(revDoc => {
// the committish provided isn't in the rev list
// things like HEAD~3 or @yesterday can land here.
if (!revDoc || !revDoc.sha) {
return this.#resolvedFromClone()
}
this.resolvedRef = revDoc
this.resolvedSha = revDoc.sha
this.#addGitSha(revDoc.sha)
return this.resolved
})
}
#setResolvedWithSha (withSha) {
// we haven't cloned, so a tgz download is still faster
// of course, if it's not a known host, we can't do that.
this.resolved = !this.spec.hosted ? withSha
: repoUrl(npa(withSha).hosted, { noCommittish: false })
}
// when we get the git sha, we affix it to our spec to build up
// either a git url with a hash, or a tarball download URL
#addGitSha (sha) {
this.#setResolvedWithSha(addGitSha(this.spec, sha))
}
#resolvedFromClone () {
// do a full or shallow clone, then look at the HEAD
// kind of wasteful, but no other option, really
return this.#clone(() => this.resolved)
}
#prepareDir (dir) {
return this[_.readPackageJson](dir).then(mani => {
// no need if we aren't going to do any preparation.
const scripts = mani.scripts
if (!mani.workspaces && (!scripts || !(
scripts.postinstall ||
scripts.build ||
scripts.preinstall ||
scripts.install ||
scripts.prepack ||
scripts.prepare))) {
return
}
// to avoid cases where we have an cycle of git deps that depend
// on one another, we only ever do preparation for one instance
// of a given git dep along the chain of installations.
// Note that this does mean that a dependency MAY in theory end up
// trying to run its prepare script using a dependency that has not
// been properly prepared itself, but that edge case is smaller
// and less hazardous than a fork bomb of npm and git commands.
const noPrepare = !process.env._PACOTE_NO_PREPARE_ ? []
: process.env._PACOTE_NO_PREPARE_.split('\n')
if (noPrepare.includes(this.resolved)) {
log.info('prepare', 'skip prepare, already seen', this.resolved)
return
}
noPrepare.push(this.resolved)
// the DirFetcher will do its own preparation to run the prepare scripts
// All we have to do is put the deps in place so that it can succeed.
return npm(
this.npmBin,
[].concat(this.npmInstallCmd).concat(this.npmCliConfig),
dir,
{ ...process.env, _PACOTE_NO_PREPARE_: noPrepare.join('\n') },
{ message: 'git dep preparation failed' }
)
})
}
[_.tarballFromResolved] () {
const stream = new Minipass()
stream.resolved = this.resolved
stream.from = this.from
// check it out and then shell out to the DirFetcher tarball packer
this.#clone(dir => this.#prepareDir(dir)
.then(() => new Promise((res, rej) => {
if (!this.Arborist) {
throw new Error('GitFetcher requires an Arborist constructor to pack a tarball')
}
const df = new DirFetcher(`file:${dir}`, {
...this.opts,
Arborist: this.Arborist,
resolved: null,
integrity: null,
})
const dirStream = df[_.tarballFromResolved]()
dirStream.on('error', rej)
dirStream.on('end', res)
dirStream.pipe(stream)
}))).catch(
/* istanbul ignore next: very unlikely and hard to test */
er => stream.emit('error', er)
)
return stream
}
// clone a git repo into a temp folder (or fetch and unpack if possible)
// handler accepts a directory, and returns a promise that resolves
// when we're done with it, at which point, cacache deletes it
//
// TODO: after cloning, create a tarball of the folder, and add to the cache
// with cacache.put.stream(), using a key that's deterministic based on the
// spec and repo, so that we don't ever clone the same thing multiple times.
#clone (handler, tarballOk = true) {
const o = { tmpPrefix: 'git-clone' }
const ref = this.resolvedSha || this.spec.gitCommittish
const h = this.spec.hosted
const resolved = this.resolved
// can be set manually to false to fall back to actual git clone
tarballOk = tarballOk &&
h && resolved === repoUrl(h, { noCommittish: false }) && h.tarball
return cacache.tmp.withTmp(this.cache, o, async tmp => {
// if we're resolved, and have a tarball url, shell out to RemoteFetcher
if (tarballOk) {
const nameat = this.spec.name ? `${this.spec.name}@` : ''
return new RemoteFetcher(h.tarball({ noCommittish: false }), {
...this.opts,
allowGitIgnore: true,
pkgid: `git:${nameat}${this.resolved}`,
resolved: this.resolved,
integrity: null, // it'll always be different, if we have one
}).extract(tmp).then(() => handler(tmp), er => {
// fall back to ssh download if tarball fails
if (er.constructor.name.match(/^Http/)) {
return this.#clone(handler, false)
} else {
throw er
}
})
}
const sha = await (
h ? this.#cloneHosted(ref, tmp)
: this.#cloneRepo(this.spec.fetchSpec, ref, tmp)
)
this.resolvedSha = sha
if (!this.resolved) {
await this.#addGitSha(sha)
}
return handler(tmp)
})
}
// first try https, since that's faster and passphrase-less for
// public repos, and supports private repos when auth is provided.
// Fall back to SSH to support private repos
// NB: we always store the https url in resolved field if auth
// is present, otherwise ssh if the hosted type provides it
#cloneHosted (ref, tmp) {
const hosted = this.spec.hosted
return this.#cloneRepo(hosted.https({ noCommittish: true }), ref, tmp)
.catch(er => {
// Throw early since we know pathspec errors will fail again if retried
if (er instanceof git.errors.GitPathspecError) {
throw er
}
const ssh = hosted.sshurl && hosted.sshurl({ noCommittish: true })
// no fallthrough if we can't fall through or have https auth
if (!ssh || hosted.auth) {
throw er
}
return this.#cloneRepo(ssh, ref, tmp)
})
}
#cloneRepo (repo, ref, tmp) {
const { opts, spec } = this
return git.clone(repo, ref, tmp, { ...opts, spec })
}
manifest () {
if (this.package) {
return Promise.resolve(this.package)
}
return this.spec.hosted && this.resolved
? FileFetcher.prototype.manifest.apply(this)
: this.#clone(dir =>
this[_.readPackageJson](dir)
.then(mani => this.package = {
...mani,
_resolved: this.resolved,
_from: this.from,
}))
}
packument () {
return FileFetcher.prototype.packument.apply(this)
}
}
module.exports = GitFetcher
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