.-.-.-.-.-

PK�\�\a�MlQ	Q	package.jsonnu�[���{
  "_id": "cacache@18.0.3",
  "_inBundle": true,
  "_location": "/npm/cacache",
  "_phantomChildren": {},
  "_requiredBy": [
    "/npm",
    "/npm/@npmcli/arborist",
    "/npm/@npmcli/metavuln-calculator",
    "/npm/make-fetch-happen",
    "/npm/pacote"
  ],
  "author": {
    "name": "GitHub Inc."
  },
  "bugs": {
    "url": "https://github.com/npm/cacache/issues"
  },
  "cache-version": {
    "content": "2",
    "index": "5"
  },
  "dependencies": {
    "@npmcli/fs": "^3.1.0",
    "fs-minipass": "^3.0.0",
    "glob": "^10.2.2",
    "lru-cache": "^10.0.1",
    "minipass": "^7.0.3",
    "minipass-collect": "^2.0.1",
    "minipass-flush": "^1.0.5",
    "minipass-pipeline": "^1.2.4",
    "p-map": "^4.0.0",
    "ssri": "^10.0.0",
    "tar": "^6.1.11",
    "unique-filename": "^3.0.0"
  },
  "description": "Fast, fault-tolerant, cross-platform, disk-based, data-agnostic, content-addressable cache.",
  "devDependencies": {
    "@npmcli/eslint-config": "^4.0.0",
    "@npmcli/template-oss": "4.22.0",
    "tap": "^16.0.0"
  },
  "engines": {
    "node": "^16.14.0 || >=18.0.0"
  },
  "files": [
    "bin/",
    "lib/"
  ],
  "homepage": "https://github.com/npm/cacache#readme",
  "keywords": [
    "cache",
    "caching",
    "content-addressable",
    "sri",
    "sri hash",
    "subresource integrity",
    "cache",
    "storage",
    "store",
    "file store",
    "filesystem",
    "disk cache",
    "disk storage"
  ],
  "license": "ISC",
  "main": "lib/index.js",
  "name": "cacache",
  "repository": {
    "type": "git",
    "url": "git+https://github.com/npm/cacache.git"
  },
  "scripts": {
    "coverage": "tap",
    "lint": "eslint \"**/*.{js,cjs,ts,mjs,jsx,tsx}\"",
    "lintfix": "npm run lint -- --fix",
    "npmclilint": "npmcli-lint",
    "postlint": "template-oss-check",
    "postsnap": "npm run lintfix --",
    "posttest": "npm run lint",
    "snap": "tap",
    "template-oss-apply": "template-oss-apply --force",
    "test": "tap",
    "test-docker": "docker run -it --rm --name pacotest -v \"$PWD\":/tmp -w /tmp node:latest npm test"
  },
  "tap": {
    "nyc-arg": [
      "--exclude",
      "tap-snapshots/**"
    ]
  },
  "templateOSS": {
    "//@npmcli/template-oss": "This file is partially managed by @npmcli/template-oss. Edits may be overwritten.",
    "windowsCI": false,
    "version": "4.22.0",
    "publish": "true"
  },
  "version": "18.0.3"
}
PK�\�\aG#�uulib/content/write.jsnu�[���'use strict'

const events = require('events')

const contentPath = require('./path')
const fs = require('fs/promises')
const { moveFile } = require('@npmcli/fs')
const { Minipass } = require('minipass')
const Pipeline = require('minipass-pipeline')
const Flush = require('minipass-flush')
const path = require('path')
const ssri = require('ssri')
const uniqueFilename = require('unique-filename')
const fsm = require('fs-minipass')

module.exports = write

// Cache of move operations in process so we don't duplicate
const moveOperations = new Map()

async function write (cache, data, opts = {}) {
  const { algorithms, size, integrity } = opts

if (typeof size === 'number' && data.length !== size) {
    throw sizeError(size, data.length)
  }

const sri = ssri.fromData(data, algorithms ? { algorithms } : {})
  if (integrity && !ssri.checkData(data, integrity, opts)) {
    throw checksumError(integrity, sri)
  }

for (const algo in sri) {
    const tmp = await makeTmp(cache, opts)
    const hash = sri[algo].toString()
    try {
      await fs.writeFile(tmp.target, data, { flag: 'wx' })
      await moveToDestination(tmp, cache, hash, opts)
    } finally {
      if (!tmp.moved) {
        await fs.rm(tmp.target, { recursive: true, force: true })
      }
    }
  }
  return { integrity: sri, size: data.length }
}

module.exports.stream = writeStream

// writes proxied to the 'inputStream' that is passed to the Promise
// 'end' is deferred until content is handled.
class CacacheWriteStream extends Flush {
  constructor (cache, opts) {
    super()
    this.opts = opts
    this.cache = cache
    this.inputStream = new Minipass()
    this.inputStream.on('error', er => this.emit('error', er))
    this.inputStream.on('drain', () => this.emit('drain'))
    this.handleContentP = null
  }

write (chunk, encoding, cb) {
    if (!this.handleContentP) {
      this.handleContentP = handleContent(
        this.inputStream,
        this.cache,
        this.opts
      )
      this.handleContentP.catch(error => this.emit('error', error))
    }
    return this.inputStream.write(chunk, encoding, cb)
  }

flush (cb) {
    this.inputStream.end(() => {
      if (!this.handleContentP) {
        const e = new Error('Cache input stream was empty')
        e.code = 'ENODATA'
        // empty streams are probably emitting end right away.
        // defer this one tick by rejecting a promise on it.
        return Promise.reject(e).catch(cb)
      }
      // eslint-disable-next-line promise/catch-or-return
      this.handleContentP.then(
        (res) => {
          res.integrity && this.emit('integrity', res.integrity)
          // eslint-disable-next-line promise/always-return
          res.size !== null && this.emit('size', res.size)
          cb()
        },
        (er) => cb(er)
      )
    })
  }
}

function writeStream (cache, opts = {}) {
  return new CacacheWriteStream(cache, opts)
}

async function handleContent (inputStream, cache, opts) {
  const tmp = await makeTmp(cache, opts)
  try {
    const res = await pipeToTmp(inputStream, cache, tmp.target, opts)
    await moveToDestination(
      tmp,
      cache,
      res.integrity,
      opts
    )
    return res
  } finally {
    if (!tmp.moved) {
      await fs.rm(tmp.target, { recursive: true, force: true })
    }
  }
}

async function pipeToTmp (inputStream, cache, tmpTarget, opts) {
  const outStream = new fsm.WriteStream(tmpTarget, {
    flags: 'wx',
  })

if (opts.integrityEmitter) {
    // we need to create these all simultaneously since they can fire in any order
    const [integrity, size] = await Promise.all([
      events.once(opts.integrityEmitter, 'integrity').then(res => res[0]),
      events.once(opts.integrityEmitter, 'size').then(res => res[0]),
      new Pipeline(inputStream, outStream).promise(),
    ])
    return { integrity, size }
  }

let integrity
  let size
  const hashStream = ssri.integrityStream({
    integrity: opts.integrity,
    algorithms: opts.algorithms,
    size: opts.size,
  })
  hashStream.on('integrity', i => {
    integrity = i
  })
  hashStream.on('size', s => {
    size = s
  })

const pipeline = new Pipeline(inputStream, hashStream, outStream)
  await pipeline.promise()
  return { integrity, size }
}

async function makeTmp (cache, opts) {
  const tmpTarget = uniqueFilename(path.join(cache, 'tmp'), opts.tmpPrefix)
  await fs.mkdir(path.dirname(tmpTarget), { recursive: true })
  return {
    target: tmpTarget,
    moved: false,
  }
}

async function moveToDestination (tmp, cache, sri) {
  const destination = contentPath(cache, sri)
  const destDir = path.dirname(destination)
  if (moveOperations.has(destination)) {
    return moveOperations.get(destination)
  }
  moveOperations.set(
    destination,
    fs.mkdir(destDir, { recursive: true })
      .then(async () => {
        await moveFile(tmp.target, destination, { overwrite: false })
        tmp.moved = true
        return tmp.moved
      })
      .catch(err => {
        if (!err.message.startsWith('The destination file exists')) {
          throw Object.assign(err, { code: 'EEXIST' })
        }
      }).finally(() => {
        moveOperations.delete(destination)
      })

)
  return moveOperations.get(destination)
}

function sizeError (expected, found) {
  /* eslint-disable-next-line max-len */
  const err = new Error(`Bad data size: expected inserted data to be ${expected} bytes, but got ${found} instead`)
  err.expected = expected
  err.found = found
  err.code = 'EBADSIZE'
  return err
}

function checksumError (expected, found) {
  const err = new Error(`Integrity check failed:
  Wanted: ${expected}
   Found: ${found}`)
  err.code = 'EINTEGRITY'
  err.expected = expected
  err.found = found
  return err
}
PK�\�\D?����lib/content/rm.jsnu�[���'use strict'

const fs = require('fs/promises')
const contentPath = require('./path')
const { hasContent } = require('./read')

module.exports = rm

async function rm (cache, integrity) {
  const content = await hasContent(cache, integrity)
  // ~pretty~ sure we can't end up with a content lacking sri, but be safe
  if (content && content.sri) {
    await fs.rm(contentPath(cache, content.sri), { recursive: true, force: true })
    return true
  } else {
    return false
  }
}
PK�\�\
�|��lib/content/read.jsnu�[���'use strict'

const fs = require('fs/promises')
const fsm = require('fs-minipass')
const ssri = require('ssri')
const contentPath = require('./path')
const Pipeline = require('minipass-pipeline')

module.exports = read

const MAX_SINGLE_READ_SIZE = 64 * 1024 * 1024
async function read (cache, integrity, opts = {}) {
  const { size } = opts
  const { stat, cpath, sri } = await withContentSri(cache, integrity, async (cpath, sri) => {
    // get size
    const stat = size ? { size } : await fs.stat(cpath)
    return { stat, cpath, sri }
  })

if (stat.size > MAX_SINGLE_READ_SIZE) {
    return readPipeline(cpath, stat.size, sri, new Pipeline()).concat()
  }

const data = await fs.readFile(cpath, { encoding: null })

if (stat.size !== data.length) {
    throw sizeError(stat.size, data.length)
  }

if (!ssri.checkData(data, sri)) {
    throw integrityError(sri, cpath)
  }

return data
}

const readPipeline = (cpath, size, sri, stream) => {
  stream.push(
    new fsm.ReadStream(cpath, {
      size,
      readSize: MAX_SINGLE_READ_SIZE,
    }),
    ssri.integrityStream({
      integrity: sri,
      size,
    })
  )
  return stream
}

module.exports.stream = readStream
module.exports.readStream = readStream

function readStream (cache, integrity, opts = {}) {
  const { size } = opts
  const stream = new Pipeline()
  // Set all this up to run on the stream and then just return the stream
  Promise.resolve().then(async () => {
    const { stat, cpath, sri } = await withContentSri(cache, integrity, async (cpath, sri) => {
      // get size
      const stat = size ? { size } : await fs.stat(cpath)
      return { stat, cpath, sri }
    })

return readPipeline(cpath, stat.size, sri, stream)
  }).catch(err => stream.emit('error', err))

return stream
}

module.exports.copy = copy

function copy (cache, integrity, dest) {
  return withContentSri(cache, integrity, (cpath) => {
    return fs.copyFile(cpath, dest)
  })
}

module.exports.hasContent = hasContent

async function hasContent (cache, integrity) {
  if (!integrity) {
    return false
  }

try {
    return await withContentSri(cache, integrity, async (cpath, sri) => {
      const stat = await fs.stat(cpath)
      return { size: stat.size, sri, stat }
    })
  } catch (err) {
    if (err.code === 'ENOENT') {
      return false
    }

if (err.code === 'EPERM') {
      /* istanbul ignore else */
      if (process.platform !== 'win32') {
        throw err
      } else {
        return false
      }
    }
  }
}

async function withContentSri (cache, integrity, fn) {
  const sri = ssri.parse(integrity)
  // If `integrity` has multiple entries, pick the first digest
  // with available local data.
  const algo = sri.pickAlgorithm()
  const digests = sri[algo]

if (digests.length <= 1) {
    const cpath = contentPath(cache, digests[0])
    return fn(cpath, digests[0])
  } else {
    // Can't use race here because a generic error can happen before
    // a ENOENT error, and can happen before a valid result
    const results = await Promise.all(digests.map(async (meta) => {
      try {
        return await withContentSri(cache, meta, fn)
      } catch (err) {
        if (err.code === 'ENOENT') {
          return Object.assign(
            new Error('No matching content found for ' + sri.toString()),
            { code: 'ENOENT' }
          )
        }
        return err
      }
    }))
    // Return the first non error if it is found
    const result = results.find((r) => !(r instanceof Error))
    if (result) {
      return result
    }

// Throw the No matching content found error
    const enoentError = results.find((r) => r.code === 'ENOENT')
    if (enoentError) {
      throw enoentError
    }

// Throw generic error
    throw results.find((r) => r instanceof Error)
  }
}

function integrityError (sri, path) {
  const err = new Error(`Integrity verification failed for ${sri} (${path})`)
  err.code = 'EINTEGRITY'
  err.sri = sri
  err.path = path
  return err
}
PK�\�\*��lib/content/path.jsnu�[���'use strict'

const contentVer = require('../../package.json')['cache-version'].content
const hashToSegments = require('../util/hash-to-segments')
const path = require('path')
const ssri = require('ssri')

// Current format of content file path:
//
// sha512-BaSE64Hex= ->
// ~/.my-cache/content-v2/sha512/ba/da/55deadbeefc0ffee
//
module.exports = contentPath

function contentPath (cache, integrity) {
  const sri = ssri.parse(integrity, { single: true })
  // contentPath is the *strongest* algo given
  return path.join(
    contentDir(cache),
    sri.algorithm,
    ...hashToSegments(sri.hexDigest())
  )
}

module.exports.contentDir = contentDir

function contentDir (cache) {
  return path.join(cache, `content-v${contentVer}`)
}
PK�\�\���Jnn
lib/get.jsnu�[���'use strict'

const Collect = require('minipass-collect')
const { Minipass } = require('minipass')
const Pipeline = require('minipass-pipeline')

const index = require('./entry-index')
const memo = require('./memoization')
const read = require('./content/read')

async function getData (cache, key, opts = {}) {
  const { integrity, memoize, size } = opts
  const memoized = memo.get(cache, key, opts)
  if (memoized && memoize !== false) {
    return {
      metadata: memoized.entry.metadata,
      data: memoized.data,
      integrity: memoized.entry.integrity,
      size: memoized.entry.size,
    }
  }

const entry = await index.find(cache, key, opts)
  if (!entry) {
    throw new index.NotFoundError(cache, key)
  }
  const data = await read(cache, entry.integrity, { integrity, size })
  if (memoize) {
    memo.put(cache, entry, data, opts)
  }

return {
    data,
    metadata: entry.metadata,
    size: entry.size,
    integrity: entry.integrity,
  }
}
module.exports = getData

async function getDataByDigest (cache, key, opts = {}) {
  const { integrity, memoize, size } = opts
  const memoized = memo.get.byDigest(cache, key, opts)
  if (memoized && memoize !== false) {
    return memoized
  }

const res = await read(cache, key, { integrity, size })
  if (memoize) {
    memo.put.byDigest(cache, key, res, opts)
  }
  return res
}
module.exports.byDigest = getDataByDigest

const getMemoizedStream = (memoized) => {
  const stream = new Minipass()
  stream.on('newListener', function (ev, cb) {
    ev === 'metadata' && cb(memoized.entry.metadata)
    ev === 'integrity' && cb(memoized.entry.integrity)
    ev === 'size' && cb(memoized.entry.size)
  })
  stream.end(memoized.data)
  return stream
}

function getStream (cache, key, opts = {}) {
  const { memoize, size } = opts
  const memoized = memo.get(cache, key, opts)
  if (memoized && memoize !== false) {
    return getMemoizedStream(memoized)
  }

const stream = new Pipeline()
  // Set all this up to run on the stream and then just return the stream
  Promise.resolve().then(async () => {
    const entry = await index.find(cache, key)
    if (!entry) {
      throw new index.NotFoundError(cache, key)
    }

stream.emit('metadata', entry.metadata)
    stream.emit('integrity', entry.integrity)
    stream.emit('size', entry.size)
    stream.on('newListener', function (ev, cb) {
      ev === 'metadata' && cb(entry.metadata)
      ev === 'integrity' && cb(entry.integrity)
      ev === 'size' && cb(entry.size)
    })

const src = read.readStream(
      cache,
      entry.integrity,
      { ...opts, size: typeof size !== 'number' ? entry.size : size }
    )

if (memoize) {
      const memoStream = new Collect.PassThrough()
      memoStream.on('collect', data => memo.put(cache, entry, data, opts))
      stream.unshift(memoStream)
    }
    stream.unshift(src)
    return stream
  }).catch((err) => stream.emit('error', err))

return stream
}

module.exports.stream = getStream

function getStreamDigest (cache, integrity, opts = {}) {
  const { memoize } = opts
  const memoized = memo.get.byDigest(cache, integrity, opts)
  if (memoized && memoize !== false) {
    const stream = new Minipass()
    stream.end(memoized)
    return stream
  } else {
    const stream = read.readStream(cache, integrity, opts)
    if (!memoize) {
      return stream
    }

const memoStream = new Collect.PassThrough()
    memoStream.on('collect', data => memo.put.byDigest(
      cache,
      integrity,
      data,
      opts
    ))
    return new Pipeline(stream, memoStream)
  }
}

module.exports.stream.byDigest = getStreamDigest

function info (cache, key, opts = {}) {
  const { memoize } = opts
  const memoized = memo.get(cache, key, opts)
  if (memoized && memoize !== false) {
    return Promise.resolve(memoized.entry)
  } else {
    return index.find(cache, key)
  }
}
module.exports.info = info

async function copy (cache, key, dest, opts = {}) {
  const entry = await index.find(cache, key, opts)
  if (!entry) {
    throw new index.NotFoundError(cache, key)
  }
  await read.copy(cache, entry.integrity, dest, opts)
  return {
    metadata: entry.metadata,
    size: entry.size,
    integrity: entry.integrity,
  }
}

module.exports.copy = copy

async function copyByDigest (cache, key, dest, opts = {}) {
  await read.copy(cache, key, dest, opts)
  return key
}

module.exports.copy.byDigest = copyByDigest

module.exports.hasContent = read.hasContent
PK�\�\���ٷ�
lib/put.jsnu�[���'use strict'

const index = require('./entry-index')
const memo = require('./memoization')
const write = require('./content/write')
const Flush = require('minipass-flush')
const { PassThrough } = require('minipass-collect')
const Pipeline = require('minipass-pipeline')

const putOpts = (opts) => ({
  algorithms: ['sha512'],
  ...opts,
})

module.exports = putData

async function putData (cache, key, data, opts = {}) {
  const { memoize } = opts
  opts = putOpts(opts)
  const res = await write(cache, data, opts)
  const entry = await index.insert(cache, key, res.integrity, { ...opts, size: res.size })
  if (memoize) {
    memo.put(cache, entry, data, opts)
  }

return res.integrity
}

module.exports.stream = putStream

function putStream (cache, key, opts = {}) {
  const { memoize } = opts
  opts = putOpts(opts)
  let integrity
  let size
  let error

let memoData
  const pipeline = new Pipeline()
  // first item in the pipeline is the memoizer, because we need
  // that to end first and get the collected data.
  if (memoize) {
    const memoizer = new PassThrough().on('collect', data => {
      memoData = data
    })
    pipeline.push(memoizer)
  }

// contentStream is a write-only, not a passthrough
  // no data comes out of it.
  const contentStream = write.stream(cache, opts)
    .on('integrity', (int) => {
      integrity = int
    })
    .on('size', (s) => {
      size = s
    })
    .on('error', (err) => {
      error = err
    })

pipeline.push(contentStream)

// last but not least, we write the index and emit hash and size,
  // and memoize if we're doing that
  pipeline.push(new Flush({
    async flush () {
      if (!error) {
        const entry = await index.insert(cache, key, integrity, { ...opts, size })
        if (memoize && memoData) {
          memo.put(cache, entry, memoData, opts)
        }
        pipeline.emit('integrity', integrity)
        pipeline.emit('size', size)
      }
    },
  }))

return pipeline
}
PK�\�\���lib/index.jsnu�[���'use strict'

const get = require('./get.js')
const put = require('./put.js')
const rm = require('./rm.js')
const verify = require('./verify.js')
const { clearMemoized } = require('./memoization.js')
const tmp = require('./util/tmp.js')
const index = require('./entry-index.js')

module.exports.index = {}
module.exports.index.compact = index.compact
module.exports.index.insert = index.insert

module.exports.ls = index.ls
module.exports.ls.stream = index.lsStream

module.exports.get = get
module.exports.get.byDigest = get.byDigest
module.exports.get.stream = get.stream
module.exports.get.stream.byDigest = get.stream.byDigest
module.exports.get.copy = get.copy
module.exports.get.copy.byDigest = get.copy.byDigest
module.exports.get.info = get.info
module.exports.get.hasContent = get.hasContent

module.exports.put = put
module.exports.put.stream = put.stream

module.exports.rm = rm.entry
module.exports.rm.all = rm.all
module.exports.rm.entry = module.exports.rm
module.exports.rm.content = rm.content

module.exports.clearMemoized = clearMemoized

module.exports.tmp = {}
module.exports.tmp.mkdir = tmp.mkdir
module.exports.tmp.withTmp = tmp.withTmp

module.exports.verify = verify
module.exports.verify.lastRun = verify.lastRun
PK�\�\nr@�#�#lib/entry-index.jsnu�[���'use strict'

const crypto = require('crypto')
const {
  appendFile,
  mkdir,
  readFile,
  readdir,
  rm,
  writeFile,
} = require('fs/promises')
const { Minipass } = require('minipass')
const path = require('path')
const ssri = require('ssri')
const uniqueFilename = require('unique-filename')

const contentPath = require('./content/path')
const hashToSegments = require('./util/hash-to-segments')
const indexV = require('../package.json')['cache-version'].index
const { moveFile } = require('@npmcli/fs')

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 mkdir(path.dirname(target), { recursive: true })
    return {
      target,
      moved: false,
    }
  }

const teardown = async (tmp) => {
    if (!tmp.moved) {
      return rm(tmp.target, { recursive: true, force: true })
    }
  }

const write = async (tmp) => {
    await writeFile(tmp.target, newIndex, { flag: 'wx' })
    await mkdir(path.dirname(bucket), { recursive: true })
    // we use @npmcli/move-file directly here because we
    // want to overwrite the existing file
    await moveFile(tmp.target, bucket)
    tmp.moved = true
  }

// 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, time } = opts
  const bucket = bucketPath(cache, key)
  const entry = {
    key,
    integrity: integrity && ssri.stringify(integrity),
    time: time || Date.now(),
    size,
    metadata,
  }
  try {
    await mkdir(path.dirname(bucket), { recursive: true })
    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 appendFile(bucket, `\n${hashEntry(stringified)}\t${stringified}`)
  } catch (err) {
    if (err.code === 'ENOENT') {
      return undefined
    }

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.delete = del

function del (cache, key, opts = {}) {
  if (!opts.removeFully) {
    return insert(cache, key, null, opts)
  }

const bucket = bucketPath(cache, key)
  return rm(bucket, { recursive: true, force: true })
}

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 readFile(bucket, 'utf8')
  return _bucketEntries(data, filter)
}

function _bucketEntries (data) {
  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 (_) {
      // eslint-ignore-next-line no-empty-block
    }
    // coverage disabled here, no need to test with an entry that parses to something falsey
    // istanbul ignore else
    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 readdir(dir).catch((err) => {
    if (err.code === 'ENOENT' || err.code === 'ENOTDIR') {
      return []
    }

throw err
  })
}
PK�\�\�zf�	lib/rm.jsnu�[���'use strict'

const { rm } = require('fs/promises')
const glob = require('./util/glob.js')
const index = require('./entry-index')
const memo = require('./memoization')
const path = require('path')
const rmContent = require('./content/rm')

module.exports = entry
module.exports.entry = entry

function entry (cache, key, opts) {
  memo.clearMemoized()
  return index.delete(cache, key, opts)
}

module.exports.content = content

function content (cache, integrity) {
  memo.clearMemoized()
  return rmContent(cache, integrity)
}

module.exports.all = all

async function all (cache) {
  memo.clearMemoized()
  const paths = await glob(path.join(cache, '*(content-*|index-*)'), { silent: true, nosort: true })
  return Promise.all(paths.map((p) => rm(p, { recursive: true, force: true })))
}
PK�\�\P����lib/memoization.jsnu�[���'use strict'

const { LRUCache } = require('lru-cache')

const MEMOIZED = new LRUCache({
  max: 500,
  maxSize: 50 * 1024 * 1024, // 50MB
  ttl: 3 * 60 * 1000, // 3 minutes
  sizeCalculation: (entry, key) => key.startsWith('key:') ? entry.data.length : entry.length,
})

module.exports.clearMemoized = clearMemoized

function clearMemoized () {
  const old = {}
  MEMOIZED.forEach((v, k) => {
    old[k] = v
  })
  MEMOIZED.clear()
  return old
}

module.exports.put = put

function put (cache, entry, data, opts) {
  pickMem(opts).set(`key:${cache}:${entry.key}`, { entry, data })
  putDigest(cache, entry.integrity, data, opts)
}

module.exports.put.byDigest = putDigest

function putDigest (cache, integrity, data, opts) {
  pickMem(opts).set(`digest:${cache}:${integrity}`, data)
}

module.exports.get = get

function get (cache, key, opts) {
  return pickMem(opts).get(`key:${cache}:${key}`)
}

module.exports.get.byDigest = getDigest

function getDigest (cache, integrity, opts) {
  return pickMem(opts).get(`digest:${cache}:${integrity}`)
}

class ObjProxy {
  constructor (obj) {
    this.obj = obj
  }

get (key) {
    return this.obj[key]
  }

set (key, val) {
    this.obj[key] = val
  }
}

function pickMem (opts) {
  if (!opts || !opts.memoize) {
    return MEMOIZED
  } else if (opts.memoize.get && opts.memoize.set) {
    return opts.memoize
  } else if (typeof opts.memoize === 'object') {
    return new ObjProxy(opts.memoize)
  } else {
    return MEMOIZED
  }
}
PK�\�\�Ow���lib/util/tmp.jsnu�[���'use strict'

const { withTempDir } = require('@npmcli/fs')
const fs = require('fs/promises')
const path = require('path')

module.exports.mkdir = mktmpdir

async function mktmpdir (cache, opts = {}) {
  const { tmpPrefix } = opts
  const tmpDir = path.join(cache, 'tmp')
  await fs.mkdir(tmpDir, { recursive: true, owner: 'inherit' })
  // do not use path.join(), it drops the trailing / if tmpPrefix is unset
  const target = `${tmpDir}${path.sep}${tmpPrefix || ''}`
  return fs.mkdtemp(target, { owner: 'inherit' })
}

module.exports.withTmp = withTmp

function withTmp (cache, opts, cb) {
  if (!cb) {
    cb = opts
    opts = {}
  }
  return withTempDir(path.join(cache, 'tmp'), cb, opts)
}
PK�\�\�_Q��lib/util/glob.jsnu�[���'use strict'

const { glob } = require('glob')
const path = require('path')

const globify = (pattern) => pattern.split(path.win32.sep).join(path.posix.sep)
module.exports = (path, options) => glob(globify(path), options)
PK�\�\4���lib/util/hash-to-segments.jsnu�[���'use strict'

module.exports = hashToSegments

function hashToSegments (hash) {
  return [hash.slice(0, 2), hash.slice(2, 4), hash.slice(4)]
}
PK�\�\�'�
lib/verify.jsnu�[���'use strict'

const {
  mkdir,
  readFile,
  rm,
  stat,
  truncate,
  writeFile,
} = require('fs/promises')
const pMap = require('p-map')
const contentPath = require('./content/path')
const fsm = require('fs-minipass')
const glob = require('./util/glob.js')
const index = require('./entry-index')
const path = require('path')
const ssri = require('ssri')

const hasOwnProperty = (obj, key) =>
  Object.prototype.hasOwnProperty.call(obj, key)

const verifyOpts = (opts) => ({
  concurrency: 20,
  log: { silly () {} },
  ...opts,
})

module.exports = verify

async function verify (cache, opts) {
  opts = verifyOpts(opts)
  opts.log.silly('verify', 'verifying cache at', cache)

const steps = [
    markStartTime,
    fixPerms,
    garbageCollect,
    rebuildIndex,
    cleanTmp,
    writeVerifile,
    markEndTime,
  ]

const stats = {}
  for (const step of steps) {
    const label = step.name
    const start = new Date()
    const s = await step(cache, opts)
    if (s) {
      Object.keys(s).forEach((k) => {
        stats[k] = s[k]
      })
    }
    const end = new Date()
    if (!stats.runTime) {
      stats.runTime = {}
    }
    stats.runTime[label] = end - start
  }
  stats.runTime.total = stats.endTime - stats.startTime
  opts.log.silly(
    'verify',
    'verification finished for',
    cache,
    'in',
    `${stats.runTime.total}ms`
  )
  return stats
}

async function markStartTime () {
  return { startTime: new Date() }
}

async function markEndTime () {
  return { endTime: new Date() }
}

async function fixPerms (cache, opts) {
  opts.log.silly('verify', 'fixing cache permissions')
  await mkdir(cache, { recursive: true })
  return null
}

// Implements a naive mark-and-sweep tracing garbage collector.
//
// The algorithm is basically as follows:
// 1. Read (and filter) all index entries ("pointers")
// 2. Mark each integrity value as "live"
// 3. Read entire filesystem tree in `content-vX/` dir
// 4. If content is live, verify its checksum and delete it if it fails
// 5. If content is not marked as live, rm it.
//
async function garbageCollect (cache, opts) {
  opts.log.silly('verify', 'garbage collecting content')
  const indexStream = index.lsStream(cache)
  const liveContent = new Set()
  indexStream.on('data', (entry) => {
    if (opts.filter && !opts.filter(entry)) {
      return
    }

// integrity is stringified, re-parse it so we can get each hash
    const integrity = ssri.parse(entry.integrity)
    for (const algo in integrity) {
      liveContent.add(integrity[algo].toString())
    }
  })
  await new Promise((resolve, reject) => {
    indexStream.on('end', resolve).on('error', reject)
  })
  const contentDir = contentPath.contentDir(cache)
  const files = await glob(path.join(contentDir, '**'), {
    follow: false,
    nodir: true,
    nosort: true,
  })
  const stats = {
    verifiedContent: 0,
    reclaimedCount: 0,
    reclaimedSize: 0,
    badContentCount: 0,
    keptSize: 0,
  }
  await pMap(
    files,
    async (f) => {
      const split = f.split(/[/\\]/)
      const digest = split.slice(split.length - 3).join('')
      const algo = split[split.length - 4]
      const integrity = ssri.fromHex(digest, algo)
      if (liveContent.has(integrity.toString())) {
        const info = await verifyContent(f, integrity)
        if (!info.valid) {
          stats.reclaimedCount++
          stats.badContentCount++
          stats.reclaimedSize += info.size
        } else {
          stats.verifiedContent++
          stats.keptSize += info.size
        }
      } else {
        // No entries refer to this content. We can delete.
        stats.reclaimedCount++
        const s = await stat(f)
        await rm(f, { recursive: true, force: true })
        stats.reclaimedSize += s.size
      }
      return stats
    },
    { concurrency: opts.concurrency }
  )
  return stats
}

async function verifyContent (filepath, sri) {
  const contentInfo = {}
  try {
    const { size } = await stat(filepath)
    contentInfo.size = size
    contentInfo.valid = true
    await ssri.checkStream(new fsm.ReadStream(filepath), sri)
  } catch (err) {
    if (err.code === 'ENOENT') {
      return { size: 0, valid: false }
    }
    if (err.code !== 'EINTEGRITY') {
      throw err
    }

await rm(filepath, { recursive: true, force: true })
    contentInfo.valid = false
  }
  return contentInfo
}

async function rebuildIndex (cache, opts) {
  opts.log.silly('verify', 'rebuilding index')
  const entries = await index.ls(cache)
  const stats = {
    missingContent: 0,
    rejectedEntries: 0,
    totalEntries: 0,
  }
  const buckets = {}
  for (const k in entries) {
    /* istanbul ignore else */
    if (hasOwnProperty(entries, k)) {
      const hashed = index.hashKey(k)
      const entry = entries[k]
      const excluded = opts.filter && !opts.filter(entry)
      excluded && stats.rejectedEntries++
      if (buckets[hashed] && !excluded) {
        buckets[hashed].push(entry)
      } else if (buckets[hashed] && excluded) {
        // skip
      } else if (excluded) {
        buckets[hashed] = []
        buckets[hashed]._path = index.bucketPath(cache, k)
      } else {
        buckets[hashed] = [entry]
        buckets[hashed]._path = index.bucketPath(cache, k)
      }
    }
  }
  await pMap(
    Object.keys(buckets),
    (key) => {
      return rebuildBucket(cache, buckets[key], stats, opts)
    },
    { concurrency: opts.concurrency }
  )
  return stats
}

async function rebuildBucket (cache, bucket, stats) {
  await truncate(bucket._path)
  // This needs to be serialized because cacache explicitly
  // lets very racy bucket conflicts clobber each other.
  for (const entry of bucket) {
    const content = contentPath(cache, entry.integrity)
    try {
      await stat(content)
      await index.insert(cache, entry.key, entry.integrity, {
        metadata: entry.metadata,
        size: entry.size,
        time: entry.time,
      })
      stats.totalEntries++
    } catch (err) {
      if (err.code === 'ENOENT') {
        stats.rejectedEntries++
        stats.missingContent++
      } else {
        throw err
      }
    }
  }
}

function cleanTmp (cache, opts) {
  opts.log.silly('verify', 'cleaning tmp directory')
  return rm(path.join(cache, 'tmp'), { recursive: true, force: true })
}

async function writeVerifile (cache, opts) {
  const verifile = path.join(cache, '_lastverified')
  opts.log.silly('verify', 'writing verifile to ' + verifile)
  return writeFile(verifile, `${Date.now()}`)
}

module.exports.lastRun = lastRun

async function lastRun (cache) {
  const data = await readFile(path.join(cache, '_lastverified'), { encoding: 'utf8' })
  return new Date(+data)
}
PK�\�\g����
LICENSE.mdnu�[���ISC License

Permission to use, copy, modify, and/or distribute this software for
any purpose with or without fee is hereby granted, provided that the
above copyright notice and this permission notice appear in all copies.

THE SOFTWARE IS PROVIDED "AS IS" AND THE COPYRIGHT HOLDER DISCLAIMS
ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
COPYRIGHT HOLDER BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR
CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS
OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE
OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE
USE OR PERFORMANCE OF THIS SOFTWARE.
PK�\�\a�MlQ	Q	package.jsonnu�[���PK�\�\aG#�uu�	lib/content/write.jsnu�[���PK�\�\D?����F lib/content/rm.jsnu�[���PK�\�\
�|��h"lib/content/read.jsnu�[���PK�\�\*��d3lib/content/path.jsnu�[���PK�\�\���Jnn
�6lib/get.jsnu�[���PK�\�\���ٷ�
0Hlib/put.jsnu�[���PK�\�\���!Plib/index.jsnu�[���PK�\�\nr@�#�#3Ulib/entry-index.jsnu�[���PK�\�\�zf�	ylib/rm.jsnu�[���PK�\�\P����c|lib/memoization.jsnu�[���PK�\�\�Ow���r�lib/util/tmp.jsnu�[���PK�\�\�_Q��i�lib/util/glob.jsnu�[���PK�\�\4�����lib/util/hash-to-segments.jsnu�[���PK�\�\�'�
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/home/emeraadmin/www/CBNA/../8aabc/../node_modules/xmlbuilder/../semver/../../4d695/cacache.zip