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Direktori : /opt/alt/alt-nodejs16/root/usr/lib/node_modules/npm/node_modules/cacache/lib/ |
Current File : //opt/alt/alt-nodejs16/root/usr/lib/node_modules/npm/node_modules/cacache/lib/entry-index.js |
'use strict' const util = require('util') const crypto = require('crypto') const fs = require('@npmcli/fs') const Minipass = require('minipass') const path = require('path') const ssri = require('ssri') const uniqueFilename = require('unique-filename') const contentPath = require('./content/path') const fixOwner = require('./util/fix-owner') const hashToSegments = require('./util/hash-to-segments') const indexV = require('../package.json')['cache-version'].index const moveFile = require('@npmcli/move-file') const _rimraf = require('rimraf') const rimraf = util.promisify(_rimraf) rimraf.sync = _rimraf.sync module.exports.NotFoundError = class NotFoundError extends Error { constructor (cache, key) { super(`No cache entry for ${key} found in ${cache}`) this.code = 'ENOENT' this.cache = cache this.key = key } } module.exports.compact = compact async function compact (cache, key, matchFn, opts = {}) { const bucket = bucketPath(cache, key) const entries = await bucketEntries(bucket) const newEntries = [] // we loop backwards because the bottom-most result is the newest // since we add new entries with appendFile for (let i = entries.length - 1; i >= 0; --i) { const entry = entries[i] // a null integrity could mean either a delete was appended // or the user has simply stored an index that does not map // to any content. we determine if the user wants to keep the // null integrity based on the validateEntry function passed in options. // if the integrity is null and no validateEntry is provided, we break // as we consider the null integrity to be a deletion of everything // that came before it. if (entry.integrity === null && !opts.validateEntry) { break } // if this entry is valid, and it is either the first entry or // the newEntries array doesn't already include an entry that // matches this one based on the provided matchFn, then we add // it to the beginning of our list if ((!opts.validateEntry || opts.validateEntry(entry) === true) && (newEntries.length === 0 || !newEntries.find((oldEntry) => matchFn(oldEntry, entry)))) { newEntries.unshift(entry) } } const newIndex = '\n' + newEntries.map((entry) => { const stringified = JSON.stringify(entry) const hash = hashEntry(stringified) return `${hash}\t${stringified}` }).join('\n') const setup = async () => { const target = uniqueFilename(path.join(cache, 'tmp'), opts.tmpPrefix) await fixOwner.mkdirfix(cache, path.dirname(target)) return { target, moved: false, } } const teardown = async (tmp) => { if (!tmp.moved) { return rimraf(tmp.target) } } const write = async (tmp) => { await fs.writeFile(tmp.target, newIndex, { flag: 'wx' }) await fixOwner.mkdirfix(cache, path.dirname(bucket)) // we use @npmcli/move-file directly here because we // want to overwrite the existing file await moveFile(tmp.target, bucket) tmp.moved = true try { await fixOwner.chownr(cache, bucket) } catch (err) { if (err.code !== 'ENOENT') { throw err } } } // write the file atomically const tmp = await setup() try { await write(tmp) } finally { await teardown(tmp) } // we reverse the list we generated such that the newest // entries come first in order to make looping through them easier // the true passed to formatEntry tells it to keep null // integrity values, if they made it this far it's because // validateEntry returned true, and as such we should return it return newEntries.reverse().map((entry) => formatEntry(cache, entry, true)) } module.exports.insert = insert async function insert (cache, key, integrity, opts = {}) { const { metadata, size } = opts const bucket = bucketPath(cache, key) const entry = { key, integrity: integrity && ssri.stringify(integrity), time: Date.now(), size, metadata, } try { await fixOwner.mkdirfix(cache, path.dirname(bucket)) const stringified = JSON.stringify(entry) // NOTE - Cleverness ahoy! // // This works because it's tremendously unlikely for an entry to corrupt // another while still preserving the string length of the JSON in // question. So, we just slap the length in there and verify it on read. // // Thanks to @isaacs for the whiteboarding session that ended up with // this. await fs.appendFile(bucket, `\n${hashEntry(stringified)}\t${stringified}`) await fixOwner.chownr(cache, bucket) } catch (err) { if (err.code === 'ENOENT') { return undefined } throw err // There's a class of race conditions that happen when things get deleted // during fixOwner, or between the two mkdirfix/chownr calls. // // It's perfectly fine to just not bother in those cases and lie // that the index entry was written. Because it's a cache. } return formatEntry(cache, entry) } module.exports.insert.sync = insertSync function insertSync (cache, key, integrity, opts = {}) { const { metadata, size } = opts const bucket = bucketPath(cache, key) const entry = { key, integrity: integrity && ssri.stringify(integrity), time: Date.now(), size, metadata, } fixOwner.mkdirfix.sync(cache, path.dirname(bucket)) const stringified = JSON.stringify(entry) fs.appendFileSync(bucket, `\n${hashEntry(stringified)}\t${stringified}`) try { fixOwner.chownr.sync(cache, bucket) } catch (err) { if (err.code !== 'ENOENT') { throw err } } return formatEntry(cache, entry) } module.exports.find = find async function find (cache, key) { const bucket = bucketPath(cache, key) try { const entries = await bucketEntries(bucket) return entries.reduce((latest, next) => { if (next && next.key === key) { return formatEntry(cache, next) } else { return latest } }, null) } catch (err) { if (err.code === 'ENOENT') { return null } else { throw err } } } module.exports.find.sync = findSync function findSync (cache, key) { const bucket = bucketPath(cache, key) try { return bucketEntriesSync(bucket).reduce((latest, next) => { if (next && next.key === key) { return formatEntry(cache, next) } else { return latest } }, null) } catch (err) { if (err.code === 'ENOENT') { return null } else { throw err } } } module.exports.delete = del function del (cache, key, opts = {}) { if (!opts.removeFully) { return insert(cache, key, null, opts) } const bucket = bucketPath(cache, key) return rimraf(bucket) } module.exports.delete.sync = delSync function delSync (cache, key, opts = {}) { if (!opts.removeFully) { return insertSync(cache, key, null, opts) } const bucket = bucketPath(cache, key) return rimraf.sync(bucket) } module.exports.lsStream = lsStream function lsStream (cache) { const indexDir = bucketDir(cache) const stream = new Minipass({ objectMode: true }) // Set all this up to run on the stream and then just return the stream Promise.resolve().then(async () => { const buckets = await readdirOrEmpty(indexDir) await Promise.all(buckets.map(async (bucket) => { const bucketPath = path.join(indexDir, bucket) const subbuckets = await readdirOrEmpty(bucketPath) await Promise.all(subbuckets.map(async (subbucket) => { const subbucketPath = path.join(bucketPath, subbucket) // "/cachename/<bucket 0xFF>/<bucket 0xFF>./*" const subbucketEntries = await readdirOrEmpty(subbucketPath) await Promise.all(subbucketEntries.map(async (entry) => { const entryPath = path.join(subbucketPath, entry) try { const entries = await bucketEntries(entryPath) // using a Map here prevents duplicate keys from showing up // twice, I guess? const reduced = entries.reduce((acc, entry) => { acc.set(entry.key, entry) return acc }, new Map()) // reduced is a map of key => entry for (const entry of reduced.values()) { const formatted = formatEntry(cache, entry) if (formatted) { stream.write(formatted) } } } catch (err) { if (err.code === 'ENOENT') { return undefined } throw err } })) })) })) stream.end() return stream }).catch(err => stream.emit('error', err)) return stream } module.exports.ls = ls async function ls (cache) { const entries = await lsStream(cache).collect() return entries.reduce((acc, xs) => { acc[xs.key] = xs return acc }, {}) } module.exports.bucketEntries = bucketEntries async function bucketEntries (bucket, filter) { const data = await fs.readFile(bucket, 'utf8') return _bucketEntries(data, filter) } module.exports.bucketEntries.sync = bucketEntriesSync function bucketEntriesSync (bucket, filter) { const data = fs.readFileSync(bucket, 'utf8') return _bucketEntries(data, filter) } function _bucketEntries (data, filter) { const entries = [] data.split('\n').forEach((entry) => { if (!entry) { return } const pieces = entry.split('\t') if (!pieces[1] || hashEntry(pieces[1]) !== pieces[0]) { // Hash is no good! Corruption or malice? Doesn't matter! // EJECT EJECT return } let obj try { obj = JSON.parse(pieces[1]) } catch (e) { // Entry is corrupted! return } if (obj) { entries.push(obj) } }) return entries } module.exports.bucketDir = bucketDir function bucketDir (cache) { return path.join(cache, `index-v${indexV}`) } module.exports.bucketPath = bucketPath function bucketPath (cache, key) { const hashed = hashKey(key) return path.join.apply( path, [bucketDir(cache)].concat(hashToSegments(hashed)) ) } module.exports.hashKey = hashKey function hashKey (key) { return hash(key, 'sha256') } module.exports.hashEntry = hashEntry function hashEntry (str) { return hash(str, 'sha1') } function hash (str, digest) { return crypto .createHash(digest) .update(str) .digest('hex') } function formatEntry (cache, entry, keepAll) { // Treat null digests as deletions. They'll shadow any previous entries. if (!entry.integrity && !keepAll) { return null } return { key: entry.key, integrity: entry.integrity, path: entry.integrity ? contentPath(cache, entry.integrity) : undefined, size: entry.size, time: entry.time, metadata: entry.metadata, } } function readdirOrEmpty (dir) { return fs.readdir(dir).catch((err) => { if (err.code === 'ENOENT' || err.code === 'ENOTDIR') { return [] } throw err }) }