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registry.js
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const crypto = require('node:crypto') const PackageJson = require('@npmcli/package-json') const pickManifest = require('npm-pick-manifest') const ssri = require('ssri') const npa = require('npm-package-arg') const sigstore = require('sigstore') const fetch = require('npm-registry-fetch') const Fetcher = require('./fetcher.js') const RemoteFetcher = require('./remote.js') const pacoteVersion = require('../package.json').version const removeTrailingSlashes = require('./util/trailing-slashes.js') const _ = require('./util/protected.js') // Corgis are cute. 🐕🐶 const corgiDoc = 'application/vnd.npm.install-v1+json; q=1.0, application/json; q=0.8, */*' const fullDoc = 'application/json' // Some really old packages have no time field in their packument so we need a // cutoff date. const MISSING_TIME_CUTOFF = '2015-01-01T00:00:00.000Z' class RegistryFetcher extends Fetcher { #cacheKey constructor (spec, opts) { super(spec, opts) // you usually don't want to fetch the same packument multiple times in // the span of a given script or command, no matter how many pacote calls // are made, so this lets us avoid doing that. It's only relevant for // registry fetchers, because other types simulate their packument from // the manifest, which they memoize on this.package, so it's very cheap // already. this.packumentCache = this.opts.packumentCache || null this.registry = fetch.pickRegistry(spec, opts) this.packumentUrl = `${removeTrailingSlashes(this.registry)}/${this.spec.escapedName}` this.#cacheKey = `${this.fullMetadata ? 'full' : 'corgi'}:${this.packumentUrl}` const parsed = new URL(this.registry) const regKey = `//${parsed.host}${parsed.pathname}` // unlike the nerf-darted auth keys, this one does *not* allow a mismatch // of trailing slashes. It must match exactly. if (this.opts[`${regKey}:_keys`]) { this.registryKeys = this.opts[`${regKey}:_keys`] } // XXX pacote <=9 has some logic to ignore opts.resolved if // the resolved URL doesn't go to the same registry. // Consider reproducing that here, to throw away this.resolved // in that case. } async resolve () { // fetching the manifest sets resolved and (if present) integrity await this.manifest() if (!this.resolved) { throw Object.assign( new Error('Invalid package manifest: no `dist.tarball` field'), { package: this.spec.toString() } ) } return this.resolved } #headers () { return { // npm will override UA, but ensure that we always send *something* 'user-agent': this.opts.userAgent || `pacote/${pacoteVersion} node/${process.version}`, ...(this.opts.headers || {}), 'pacote-version': pacoteVersion, 'pacote-req-type': 'packument', 'pacote-pkg-id': `registry:${this.spec.name}`, accept: this.fullMetadata ? fullDoc : corgiDoc, } } async packument () { // note this might be either an in-flight promise for a request, // or the actual packument, but we never want to make more than // one request at a time for the same thing regardless. if (this.packumentCache?.has(this.#cacheKey)) { return this.packumentCache.get(this.#cacheKey) } // npm-registry-fetch the packument // set the appropriate header for corgis if fullMetadata isn't set // return the res.json() promise try { const res = await fetch(this.packumentUrl, { ...this.opts, headers: this.#headers(), spec: this.spec, // never check integrity for packuments themselves integrity: null, }) const packument = await res.json() const contentLength = res.headers.get('content-length') if (contentLength) { packument._contentLength = Number(contentLength) } this.packumentCache?.set(this.#cacheKey, packument) return packument } catch (err) { this.packumentCache?.delete(this.#cacheKey) if (err.code !== 'E404' || this.fullMetadata) { throw err } // possible that corgis are not supported by this registry this.fullMetadata = true return this.packument() } } async manifest () { if (this.package) { return this.package } // When verifying signatures, we need to fetch the full/uncompressed // packument to get publish time as this is not included in the // corgi/compressed packument. if (this.opts.verifySignatures) { this.fullMetadata = true } const packument = await this.packument() const steps = PackageJson.normalizeSteps.filter(s => s !== '_attributes') const mani = await new PackageJson().fromContent(pickManifest(packument, this.spec.fetchSpec, { ...this.opts, defaultTag: this.defaultTag, before: this.before, })).normalize({ steps }).then(p => p.content) /* XXX add ETARGET and E403 revalidation of cached packuments here */ // add _time from packument if fetched with fullMetadata const time = packument.time?.[mani.version] if (time) { mani._time = time } // add _resolved and _integrity from dist object const { dist } = mani if (dist) { this.resolved = mani._resolved = dist.tarball mani._from = this.from const distIntegrity = dist.integrity ? ssri.parse(dist.integrity) : dist.shasum ? ssri.fromHex(dist.shasum, 'sha1', { ...this.opts }) : null if (distIntegrity) { if (this.integrity && !this.integrity.match(distIntegrity)) { // only bork if they have algos in common. // otherwise we end up breaking if we have saved a sha512 // previously for the tarball, but the manifest only // provides a sha1, which is possible for older publishes. // Otherwise, this is almost certainly a case of holding it // wrong, and will result in weird or insecure behavior // later on when building package tree. for (const algo of Object.keys(this.integrity)) { if (distIntegrity[algo]) { throw Object.assign(new Error( `Integrity checksum failed when using ${algo}: ` + `wanted ${this.integrity} but got ${distIntegrity}.` ), { code: 'EINTEGRITY' }) } } } // made it this far, the integrity is worthwhile. accept it. // the setter here will take care of merging it into what we already // had. this.integrity = distIntegrity } } if (this.integrity) { mani._integrity = String(this.integrity) if (dist.signatures) { if (this.opts.verifySignatures) { // validate and throw on error, then set _signatures const message = `${mani._id}:${mani._integrity}` for (const signature of dist.signatures) { const publicKey = this.registryKeys && this.registryKeys.filter(key => (key.keyid === signature.keyid))[0] if (!publicKey) { throw Object.assign(new Error( `${mani._id} has a registry signature with keyid: ${signature.keyid} ` + 'but no corresponding public key can be found' ), { code: 'EMISSINGSIGNATUREKEY' }) } const publishedTime = Date.parse(mani._time || MISSING_TIME_CUTOFF) const validPublicKey = !publicKey.expires || publishedTime < Date.parse(publicKey.expires) if (!validPublicKey) { throw Object.assign(new Error( `${mani._id} has a registry signature with keyid: ${signature.keyid} ` + `but the corresponding public key has expired ${publicKey.expires}` ), { code: 'EEXPIREDSIGNATUREKEY' }) } const verifier = crypto.createVerify('SHA256') verifier.write(message) verifier.end() const valid = verifier.verify( publicKey.pemkey, signature.sig, 'base64' ) if (!valid) { throw Object.assign(new Error( `${mani._id} has an invalid registry signature with ` + `keyid: ${publicKey.keyid} and signature: ${signature.sig}` ), { code: 'EINTEGRITYSIGNATURE', keyid: publicKey.keyid, signature: signature.sig, resolved: mani._resolved, integrity: mani._integrity, }) } } mani._signatures = dist.signatures } else { mani._signatures = dist.signatures } } if (dist.attestations) { if (this.opts.verifyAttestations) { // Always fetch attestations from the current registry host const attestationsPath = new URL(dist.attestations.url).pathname const attestationsUrl = removeTrailingSlashes(this.registry) + attestationsPath const res = await fetch(attestationsUrl, { ...this.opts, // disable integrity check for attestations json payload, we check the // integrity in the verification steps below integrity: null, }) const { attestations } = await res.json() const bundles = attestations.map(({ predicateType, bundle }) => { const statement = JSON.parse( Buffer.from(bundle.dsseEnvelope.payload, 'base64').toString('utf8') ) const keyid = bundle.dsseEnvelope.signatures[0].keyid const signature = bundle.dsseEnvelope.signatures[0].sig return { predicateType, bundle, statement, keyid, signature, } }) const attestationKeyIds = bundles.map((b) => b.keyid).filter((k) => !!k) const attestationRegistryKeys = (this.registryKeys || []) .filter(key => attestationKeyIds.includes(key.keyid)) if (!attestationRegistryKeys.length) { throw Object.assign(new Error( `${mani._id} has attestations but no corresponding public key(s) can be found` ), { code: 'EMISSINGSIGNATUREKEY' }) } for (const { predicateType, bundle, keyid, signature, statement } of bundles) { const publicKey = attestationRegistryKeys.find(key => key.keyid === keyid) // Publish attestations have a keyid set and a valid public key must be found if (keyid) { if (!publicKey) { throw Object.assign(new Error( `${mani._id} has attestations with keyid: ${keyid} ` + 'but no corresponding public key can be found' ), { code: 'EMISSINGSIGNATUREKEY' }) } const integratedTime = new Date( Number( bundle.verificationMaterial.tlogEntries[0].integratedTime ) * 1000 ) const validPublicKey = !publicKey.expires || (integratedTime < Date.parse(publicKey.expires)) if (!validPublicKey) { throw Object.assign(new Error( `${mani._id} has attestations with keyid: ${keyid} ` + `but the corresponding public key has expired ${publicKey.expires}` ), { code: 'EEXPIREDSIGNATUREKEY' }) } } const subject = { name: statement.subject[0].name, sha512: statement.subject[0].digest.sha512, } // Only type 'version' can be turned into a PURL const purl = this.spec.type === 'version' ? npa.toPurl(this.spec) : this.spec // Verify the statement subject matches the package, version if (subject.name !== purl) { throw Object.assign(new Error( `${mani._id} package name and version (PURL): ${purl} ` + `doesn't match what was signed: ${subject.name}` ), { code: 'EATTESTATIONSUBJECT' }) } // Verify the statement subject matches the tarball integrity const integrityHexDigest = ssri.parse(this.integrity).hexDigest() if (subject.sha512 !== integrityHexDigest) { throw Object.assign(new Error( `${mani._id} package integrity (hex digest): ` + `${integrityHexDigest} ` + `doesn't match what was signed: ${subject.sha512}` ), { code: 'EATTESTATIONSUBJECT' }) } try { // Provenance attestations are signed with a signing certificate // (including the key) so we don't need to return a public key. // // Publish attestations are signed with a keyid so we need to // specify a public key from the keys endpoint: `registry-host.tld/-/npm/v1/keys` const options = { tufCachePath: this.tufCache, tufForceCache: true, keySelector: publicKey ? () => publicKey.pemkey : undefined, } await sigstore.verify(bundle, options) } catch (e) { throw Object.assign(new Error( `${mani._id} failed to verify attestation: ${e.message}` ), { code: 'EATTESTATIONVERIFY', predicateType, keyid, signature, resolved: mani._resolved, integrity: mani._integrity, }) } } mani._attestations = dist.attestations } else { mani._attestations = dist.attestations } } } this.package = mani return this.package } [_.tarballFromResolved] () { // we use a RemoteFetcher to get the actual tarball stream return new RemoteFetcher(this.resolved, { ...this.opts, resolved: this.resolved, pkgid: `registry:${this.spec.name}@${this.resolved}`, })[_.tarballFromResolved]() } get types () { return [ 'tag', 'version', 'range', ] } } module.exports = RegistryFetcher