diff --git a/dist/index.js b/dist/index.js index 51b8695..736aafd 100644 --- a/dist/index.js +++ b/dist/index.js @@ -13063,7 +13063,7 @@ See the License for the specific language governing permissions and limitations under the License. */ const http2_1 = __nccwpck_require__(85675); -const make_fetch_happen_1 = __importDefault(__nccwpck_require__(39310)); +const make_fetch_happen_1 = __importDefault(__nccwpck_require__(40614)); const proc_log_1 = __nccwpck_require__(26687); const promise_retry_1 = __importDefault(__nccwpck_require__(90390)); const { HTTP_STATUS_INTERNAL_SERVER_ERROR, HTTP_STATUS_TOO_MANY_REQUESTS, HTTP_STATUS_REQUEST_TIMEOUT, } = http2_1.constants; @@ -13182,6 +13182,7 @@ class OCIImage { ...opts.annotations, }; try { + /* istanbul ignore else */ if (__classPrivateFieldGet(this, _OCIImage_credentials, "f")) { await __classPrivateFieldGet(this, _OCIImage_client, "f").signIn(__classPrivateFieldGet(this, _OCIImage_credentials, "f")); } @@ -13234,6 +13235,7 @@ class OCIImage { } async getDigest(tag) { try { + /* istanbul ignore else */ if (__classPrivateFieldGet(this, _OCIImage_credentials, "f")) { await __classPrivateFieldGet(this, _OCIImage_client, "f").signIn(__classPrivateFieldGet(this, _OCIImage_credentials, "f")); } @@ -13277,6 +13279,7 @@ async function _OCIImage_createReferrersIndexByTag(opts) { } // If the artifact is not already in the index, add it to the list and // re-upload the index + /* istanbul ignore else */ if (!referrerManifest.manifests.some((manifest) => manifest.digest === opts.artifact.digest)) { // Add the artifact to the index referrerManifest.manifests.push(opts.artifact); @@ -13641,6 +13644,2737 @@ function parseChallenge(challenge) { const singleMatch = (str, regex) => str.match(regex)?.[1] || ''; +/***/ }), + +/***/ 51409: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const contentVer = (__nccwpck_require__(90512)/* ["cache-version"].content */ .MH.Q) +const hashToSegments = __nccwpck_require__(73056) +const path = __nccwpck_require__(16928) +const ssri = __nccwpck_require__(68951) + +// 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}`) +} + + +/***/ }), + +/***/ 68926: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const fs = __nccwpck_require__(91943) +const fsm = __nccwpck_require__(25032) +const ssri = __nccwpck_require__(68951) +const contentPath = __nccwpck_require__(51409) +const Pipeline = __nccwpck_require__(52899) + +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 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 integrityError (sri, path) { + const err = new Error(`Integrity verification failed for ${sri} (${path})`) + err.code = 'EINTEGRITY' + err.sri = sri + err.path = path + return err +} + + +/***/ }), + +/***/ 53479: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const fs = __nccwpck_require__(91943) +const contentPath = __nccwpck_require__(51409) +const { hasContent } = __nccwpck_require__(68926) + +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 + } +} + + +/***/ }), + +/***/ 76219: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const events = __nccwpck_require__(24434) + +const contentPath = __nccwpck_require__(51409) +const fs = __nccwpck_require__(91943) +const { moveFile } = __nccwpck_require__(88437) +const { Minipass } = __nccwpck_require__(78275) +const Pipeline = __nccwpck_require__(52899) +const Flush = __nccwpck_require__(37633) +const path = __nccwpck_require__(16928) +const ssri = __nccwpck_require__(68951) +const uniqueFilename = __nccwpck_require__(46019) +const fsm = __nccwpck_require__(25032) + +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 +} + + +/***/ }), + +/***/ 90775: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const crypto = __nccwpck_require__(76982) +const { + appendFile, + mkdir, + readFile, + readdir, + rm, + writeFile, +} = __nccwpck_require__(91943) +const { Minipass } = __nccwpck_require__(78275) +const path = __nccwpck_require__(16928) +const ssri = __nccwpck_require__(68951) +const uniqueFilename = __nccwpck_require__(46019) + +const contentPath = __nccwpck_require__(51409) +const hashToSegments = __nccwpck_require__(73056) +const indexV = (__nccwpck_require__(90512)/* ["cache-version"].index */ .MH.P) +const { moveFile } = __nccwpck_require__(88437) + +const lsStreamConcurrency = 5 + +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 { default: pMap } = await __nccwpck_require__.e(/* import() */ 606).then(__nccwpck_require__.bind(__nccwpck_require__, 606)) + const buckets = await readdirOrEmpty(indexDir) + await pMap(buckets, async (bucket) => { + const bucketPath = path.join(indexDir, bucket) + const subbuckets = await readdirOrEmpty(bucketPath) + await pMap(subbuckets, async (subbucket) => { + const subbucketPath = path.join(bucketPath, subbucket) + + // "/cachename//./*" + const subbucketEntries = await readdirOrEmpty(subbucketPath) + await pMap(subbucketEntries, 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 + } + }, + { concurrency: lsStreamConcurrency }) + }, + { concurrency: lsStreamConcurrency }) + }, + { concurrency: lsStreamConcurrency }) + 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 + }) +} + + +/***/ }), + +/***/ 55058: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const Collect = __nccwpck_require__(11757) +const { Minipass } = __nccwpck_require__(78275) +const Pipeline = __nccwpck_require__(52899) + +const index = __nccwpck_require__(90775) +const memo = __nccwpck_require__(90668) +const read = __nccwpck_require__(68926) + +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 + + +/***/ }), + +/***/ 44870: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const get = __nccwpck_require__(55058) +const put = __nccwpck_require__(72979) +const rm = __nccwpck_require__(17809) +const verify = __nccwpck_require__(45613) +const { clearMemoized } = __nccwpck_require__(90668) +const tmp = __nccwpck_require__(20942) +const index = __nccwpck_require__(90775) + +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 + + +/***/ }), + +/***/ 90668: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const { LRUCache } = __nccwpck_require__(78931) + +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 + } +} + + +/***/ }), + +/***/ 72979: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const index = __nccwpck_require__(90775) +const memo = __nccwpck_require__(90668) +const write = __nccwpck_require__(76219) +const Flush = __nccwpck_require__(37633) +const { PassThrough } = __nccwpck_require__(11757) +const Pipeline = __nccwpck_require__(52899) + +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 +} + + +/***/ }), + +/***/ 17809: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const { rm } = __nccwpck_require__(91943) +const glob = __nccwpck_require__(59641) +const index = __nccwpck_require__(90775) +const memo = __nccwpck_require__(90668) +const path = __nccwpck_require__(16928) +const rmContent = __nccwpck_require__(53479) + +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 }))) +} + + +/***/ }), + +/***/ 59641: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const { glob } = __nccwpck_require__(44629) +const path = __nccwpck_require__(16928) + +const globify = (pattern) => pattern.split(path.win32.sep).join(path.posix.sep) +module.exports = (path, options) => glob(globify(path), options) + + +/***/ }), + +/***/ 73056: +/***/ ((module) => { + +"use strict"; + + +module.exports = hashToSegments + +function hashToSegments (hash) { + return [hash.slice(0, 2), hash.slice(2, 4), hash.slice(4)] +} + + +/***/ }), + +/***/ 20942: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const { withTempDir } = __nccwpck_require__(88437) +const fs = __nccwpck_require__(91943) +const path = __nccwpck_require__(16928) + +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}${tmpPrefix || ''}` + return fs.mkdtemp(target, { owner: 'inherit' }) +} + +module.exports.withTmp = withTmp + +function withTmp (cache, opts, cb) { + if (!cb) { + cb = opts + opts = {} + } + return withTempDir(path.join(cache, 'tmp'), cb, opts) +} + + +/***/ }), + +/***/ 45613: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const { + mkdir, + readFile, + rm, + stat, + truncate, + writeFile, +} = __nccwpck_require__(91943) +const contentPath = __nccwpck_require__(51409) +const fsm = __nccwpck_require__(25032) +const glob = __nccwpck_require__(59641) +const index = __nccwpck_require__(90775) +const path = __nccwpck_require__(16928) +const ssri = __nccwpck_require__(68951) + +const hasOwnProperty = (obj, key) => + Object.prototype.hasOwnProperty.call(obj, key) + +const verifyOpts = (opts) => ({ + concurrency: 20, + log: { silly () {} }, + ...opts, +}) + +module.exports = verify + +async function verify (cache, opts) { + opts = verifyOpts(opts) + opts.log.silly('verify', 'verifying cache at', cache) + + const steps = [ + markStartTime, + fixPerms, + garbageCollect, + rebuildIndex, + cleanTmp, + writeVerifile, + markEndTime, + ] + + const stats = {} + for (const step of steps) { + const label = step.name + const start = new Date() + const s = await step(cache, opts) + if (s) { + Object.keys(s).forEach((k) => { + stats[k] = s[k] + }) + } + const end = new Date() + if (!stats.runTime) { + stats.runTime = {} + } + stats.runTime[label] = end - start + } + stats.runTime.total = stats.endTime - stats.startTime + opts.log.silly( + 'verify', + 'verification finished for', + cache, + 'in', + `${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 { default: pMap } = await __nccwpck_require__.e(/* import() */ 606).then(__nccwpck_require__.bind(__nccwpck_require__, 606)) + 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 { default: pMap } = await __nccwpck_require__.e(/* import() */ 606).then(__nccwpck_require__.bind(__nccwpck_require__, 606)) + 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) +} + + +/***/ }), + +/***/ 46967: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +const { Request, Response } = __nccwpck_require__(88483) +const { Minipass } = __nccwpck_require__(78275) +const MinipassFlush = __nccwpck_require__(37633) +const cacache = __nccwpck_require__(44870) +const url = __nccwpck_require__(87016) + +const CachingMinipassPipeline = __nccwpck_require__(94210) +const CachePolicy = __nccwpck_require__(61097) +const cacheKey = __nccwpck_require__(14296) +const remote = __nccwpck_require__(20598) + +const hasOwnProperty = (obj, prop) => Object.prototype.hasOwnProperty.call(obj, prop) + +// allow list for request headers that will be written to the cache index +// note: we will also store any request headers +// that are named in a response's vary header +const KEEP_REQUEST_HEADERS = [ + 'accept-charset', + 'accept-encoding', + 'accept-language', + 'accept', + 'cache-control', +] + +// allow list for response headers that will be written to the cache index +// note: we must not store the real response's age header, or when we load +// a cache policy based on the metadata it will think the cached response +// is always stale +const KEEP_RESPONSE_HEADERS = [ + 'cache-control', + 'content-encoding', + 'content-language', + 'content-type', + 'date', + 'etag', + 'expires', + 'last-modified', + 'link', + 'location', + 'pragma', + 'vary', +] + +// return an object containing all metadata to be written to the index +const getMetadata = (request, response, options) => { + const metadata = { + time: Date.now(), + url: request.url, + reqHeaders: {}, + resHeaders: {}, + + // options on which we must match the request and vary the response + options: { + compress: options.compress != null ? options.compress : request.compress, + }, + } + + // only save the status if it's not a 200 or 304 + if (response.status !== 200 && response.status !== 304) { + metadata.status = response.status + } + + for (const name of KEEP_REQUEST_HEADERS) { + if (request.headers.has(name)) { + metadata.reqHeaders[name] = request.headers.get(name) + } + } + + // if the request's host header differs from the host in the url + // we need to keep it, otherwise it's just noise and we ignore it + const host = request.headers.get('host') + const parsedUrl = new url.URL(request.url) + if (host && parsedUrl.host !== host) { + metadata.reqHeaders.host = host + } + + // if the response has a vary header, make sure + // we store the relevant request headers too + if (response.headers.has('vary')) { + const vary = response.headers.get('vary') + // a vary of "*" means every header causes a different response. + // in that scenario, we do not include any additional headers + // as the freshness check will always fail anyway and we don't + // want to bloat the cache indexes + if (vary !== '*') { + // copy any other request headers that will vary the response + const varyHeaders = vary.trim().toLowerCase().split(/\s*,\s*/) + for (const name of varyHeaders) { + if (request.headers.has(name)) { + metadata.reqHeaders[name] = request.headers.get(name) + } + } + } + } + + for (const name of KEEP_RESPONSE_HEADERS) { + if (response.headers.has(name)) { + metadata.resHeaders[name] = response.headers.get(name) + } + } + + for (const name of options.cacheAdditionalHeaders) { + if (response.headers.has(name)) { + metadata.resHeaders[name] = response.headers.get(name) + } + } + + return metadata +} + +// symbols used to hide objects that may be lazily evaluated in a getter +const _request = Symbol('request') +const _response = Symbol('response') +const _policy = Symbol('policy') + +class CacheEntry { + constructor ({ entry, request, response, options }) { + if (entry) { + this.key = entry.key + this.entry = entry + // previous versions of this module didn't write an explicit timestamp in + // the metadata, so fall back to the entry's timestamp. we can't use the + // entry timestamp to determine staleness because cacache will update it + // when it verifies its data + this.entry.metadata.time = this.entry.metadata.time || this.entry.time + } else { + this.key = cacheKey(request) + } + + this.options = options + + // these properties are behind getters that lazily evaluate + this[_request] = request + this[_response] = response + this[_policy] = null + } + + // returns a CacheEntry instance that satisfies the given request + // or undefined if no existing entry satisfies + static async find (request, options) { + try { + // compacts the index and returns an array of unique entries + var matches = await cacache.index.compact(options.cachePath, cacheKey(request), (A, B) => { + const entryA = new CacheEntry({ entry: A, options }) + const entryB = new CacheEntry({ entry: B, options }) + return entryA.policy.satisfies(entryB.request) + }, { + validateEntry: (entry) => { + // clean out entries with a buggy content-encoding value + if (entry.metadata && + entry.metadata.resHeaders && + entry.metadata.resHeaders['content-encoding'] === null) { + return false + } + + // if an integrity is null, it needs to have a status specified + if (entry.integrity === null) { + return !!(entry.metadata && entry.metadata.status) + } + + return true + }, + }) + } catch (err) { + // if the compact request fails, ignore the error and return + return + } + + // a cache mode of 'reload' means to behave as though we have no cache + // on the way to the network. return undefined to allow cacheFetch to + // create a brand new request no matter what. + if (options.cache === 'reload') { + return + } + + // find the specific entry that satisfies the request + let match + for (const entry of matches) { + const _entry = new CacheEntry({ + entry, + options, + }) + + if (_entry.policy.satisfies(request)) { + match = _entry + break + } + } + + return match + } + + // if the user made a PUT/POST/PATCH then we invalidate our + // cache for the same url by deleting the index entirely + static async invalidate (request, options) { + const key = cacheKey(request) + try { + await cacache.rm.entry(options.cachePath, key, { removeFully: true }) + } catch (err) { + // ignore errors + } + } + + get request () { + if (!this[_request]) { + this[_request] = new Request(this.entry.metadata.url, { + method: 'GET', + headers: this.entry.metadata.reqHeaders, + ...this.entry.metadata.options, + }) + } + + return this[_request] + } + + get response () { + if (!this[_response]) { + this[_response] = new Response(null, { + url: this.entry.metadata.url, + counter: this.options.counter, + status: this.entry.metadata.status || 200, + headers: { + ...this.entry.metadata.resHeaders, + 'content-length': this.entry.size, + }, + }) + } + + return this[_response] + } + + get policy () { + if (!this[_policy]) { + this[_policy] = new CachePolicy({ + entry: this.entry, + request: this.request, + response: this.response, + options: this.options, + }) + } + + return this[_policy] + } + + // wraps the response in a pipeline that stores the data + // in the cache while the user consumes it + async store (status) { + // if we got a status other than 200, 301, or 308, + // or the CachePolicy forbid storage, append the + // cache status header and return it untouched + if ( + this.request.method !== 'GET' || + ![200, 301, 308].includes(this.response.status) || + !this.policy.storable() + ) { + this.response.headers.set('x-local-cache-status', 'skip') + return this.response + } + + const size = this.response.headers.get('content-length') + const cacheOpts = { + algorithms: this.options.algorithms, + metadata: getMetadata(this.request, this.response, this.options), + size, + integrity: this.options.integrity, + integrityEmitter: this.response.body.hasIntegrityEmitter && this.response.body, + } + + let body = null + // we only set a body if the status is a 200, redirects are + // stored as metadata only + if (this.response.status === 200) { + let cacheWriteResolve, cacheWriteReject + const cacheWritePromise = new Promise((resolve, reject) => { + cacheWriteResolve = resolve + cacheWriteReject = reject + }).catch((err) => { + body.emit('error', err) + }) + + body = new CachingMinipassPipeline({ events: ['integrity', 'size'] }, new MinipassFlush({ + flush () { + return cacheWritePromise + }, + })) + // this is always true since if we aren't reusing the one from the remote fetch, we + // are using the one from cacache + body.hasIntegrityEmitter = true + + const onResume = () => { + const tee = new Minipass() + const cacheStream = cacache.put.stream(this.options.cachePath, this.key, cacheOpts) + // re-emit the integrity and size events on our new response body so they can be reused + cacheStream.on('integrity', i => body.emit('integrity', i)) + cacheStream.on('size', s => body.emit('size', s)) + // stick a flag on here so downstream users will know if they can expect integrity events + tee.pipe(cacheStream) + // TODO if the cache write fails, log a warning but return the response anyway + // eslint-disable-next-line promise/catch-or-return + cacheStream.promise().then(cacheWriteResolve, cacheWriteReject) + body.unshift(tee) + body.unshift(this.response.body) + } + + body.once('resume', onResume) + body.once('end', () => body.removeListener('resume', onResume)) + } else { + await cacache.index.insert(this.options.cachePath, this.key, null, cacheOpts) + } + + // note: we do not set the x-local-cache-hash header because we do not know + // the hash value until after the write to the cache completes, which doesn't + // happen until after the response has been sent and it's too late to write + // the header anyway + this.response.headers.set('x-local-cache', encodeURIComponent(this.options.cachePath)) + this.response.headers.set('x-local-cache-key', encodeURIComponent(this.key)) + this.response.headers.set('x-local-cache-mode', 'stream') + this.response.headers.set('x-local-cache-status', status) + this.response.headers.set('x-local-cache-time', new Date().toISOString()) + const newResponse = new Response(body, { + url: this.response.url, + status: this.response.status, + headers: this.response.headers, + counter: this.options.counter, + }) + return newResponse + } + + // use the cached data to create a response and return it + async respond (method, options, status) { + let response + if (method === 'HEAD' || [301, 308].includes(this.response.status)) { + // if the request is a HEAD, or the response is a redirect, + // then the metadata in the entry already includes everything + // we need to build a response + response = this.response + } else { + // we're responding with a full cached response, so create a body + // that reads from cacache and attach it to a new Response + const body = new Minipass() + const headers = { ...this.policy.responseHeaders() } + + const onResume = () => { + const cacheStream = cacache.get.stream.byDigest( + this.options.cachePath, this.entry.integrity, { memoize: this.options.memoize } + ) + cacheStream.on('error', async (err) => { + cacheStream.pause() + if (err.code === 'EINTEGRITY') { + await cacache.rm.content( + this.options.cachePath, this.entry.integrity, { memoize: this.options.memoize } + ) + } + if (err.code === 'ENOENT' || err.code === 'EINTEGRITY') { + await CacheEntry.invalidate(this.request, this.options) + } + body.emit('error', err) + cacheStream.resume() + }) + // emit the integrity and size events based on our metadata so we're consistent + body.emit('integrity', this.entry.integrity) + body.emit('size', Number(headers['content-length'])) + cacheStream.pipe(body) + } + + body.once('resume', onResume) + body.once('end', () => body.removeListener('resume', onResume)) + response = new Response(body, { + url: this.entry.metadata.url, + counter: options.counter, + status: 200, + headers, + }) + } + + response.headers.set('x-local-cache', encodeURIComponent(this.options.cachePath)) + response.headers.set('x-local-cache-hash', encodeURIComponent(this.entry.integrity)) + response.headers.set('x-local-cache-key', encodeURIComponent(this.key)) + response.headers.set('x-local-cache-mode', 'stream') + response.headers.set('x-local-cache-status', status) + response.headers.set('x-local-cache-time', new Date(this.entry.metadata.time).toUTCString()) + return response + } + + // use the provided request along with this cache entry to + // revalidate the stored response. returns a response, either + // from the cache or from the update + async revalidate (request, options) { + const revalidateRequest = new Request(request, { + headers: this.policy.revalidationHeaders(request), + }) + + try { + // NOTE: be sure to remove the headers property from the + // user supplied options, since we have already defined + // them on the new request object. if they're still in the + // options then those will overwrite the ones from the policy + var response = await remote(revalidateRequest, { + ...options, + headers: undefined, + }) + } catch (err) { + // if the network fetch fails, return the stale + // cached response unless it has a cache-control + // of 'must-revalidate' + if (!this.policy.mustRevalidate) { + return this.respond(request.method, options, 'stale') + } + + throw err + } + + if (this.policy.revalidated(revalidateRequest, response)) { + // we got a 304, write a new index to the cache and respond from cache + const metadata = getMetadata(request, response, options) + // 304 responses do not include headers that are specific to the response data + // since they do not include a body, so we copy values for headers that were + // in the old cache entry to the new one, if the new metadata does not already + // include that header + for (const name of KEEP_RESPONSE_HEADERS) { + if ( + !hasOwnProperty(metadata.resHeaders, name) && + hasOwnProperty(this.entry.metadata.resHeaders, name) + ) { + metadata.resHeaders[name] = this.entry.metadata.resHeaders[name] + } + } + + for (const name of options.cacheAdditionalHeaders) { + const inMeta = hasOwnProperty(metadata.resHeaders, name) + const inEntry = hasOwnProperty(this.entry.metadata.resHeaders, name) + const inPolicy = hasOwnProperty(this.policy.response.headers, name) + + // if the header is in the existing entry, but it is not in the metadata + // then we need to write it to the metadata as this will refresh the on-disk cache + if (!inMeta && inEntry) { + metadata.resHeaders[name] = this.entry.metadata.resHeaders[name] + } + // if the header is in the metadata, but not in the policy, then we need to set + // it in the policy so that it's included in the immediate response. future + // responses will load a new cache entry, so we don't need to change that + if (!inPolicy && inMeta) { + this.policy.response.headers[name] = metadata.resHeaders[name] + } + } + + try { + await cacache.index.insert(options.cachePath, this.key, this.entry.integrity, { + size: this.entry.size, + metadata, + }) + } catch (err) { + // if updating the cache index fails, we ignore it and + // respond anyway + } + return this.respond(request.method, options, 'revalidated') + } + + // if we got a modified response, create a new entry based on it + const newEntry = new CacheEntry({ + request, + response, + options, + }) + + // respond with the new entry while writing it to the cache + return newEntry.store('updated') + } +} + +module.exports = CacheEntry + + +/***/ }), + +/***/ 96520: +/***/ ((module) => { + +class NotCachedError extends Error { + constructor (url) { + /* eslint-disable-next-line max-len */ + super(`request to ${url} failed: cache mode is 'only-if-cached' but no cached response is available.`) + this.code = 'ENOTCACHED' + } +} + +module.exports = { + NotCachedError, +} + + +/***/ }), + +/***/ 41567: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +const { NotCachedError } = __nccwpck_require__(96520) +const CacheEntry = __nccwpck_require__(46967) +const remote = __nccwpck_require__(20598) + +// do whatever is necessary to get a Response and return it +const cacheFetch = async (request, options) => { + // try to find a cached entry that satisfies this request + const entry = await CacheEntry.find(request, options) + if (!entry) { + // no cached result, if the cache mode is 'only-if-cached' that's a failure + if (options.cache === 'only-if-cached') { + throw new NotCachedError(request.url) + } + + // otherwise, we make a request, store it and return it + const response = await remote(request, options) + const newEntry = new CacheEntry({ request, response, options }) + return newEntry.store('miss') + } + + // we have a cached response that satisfies this request, however if the cache + // mode is 'no-cache' then we send the revalidation request no matter what + if (options.cache === 'no-cache') { + return entry.revalidate(request, options) + } + + // if the cached entry is not stale, or if the cache mode is 'force-cache' or + // 'only-if-cached' we can respond with the cached entry. set the status + // based on the result of needsRevalidation and respond + const _needsRevalidation = entry.policy.needsRevalidation(request) + if (options.cache === 'force-cache' || + options.cache === 'only-if-cached' || + !_needsRevalidation) { + return entry.respond(request.method, options, _needsRevalidation ? 'stale' : 'hit') + } + + // if we got here, the cache entry is stale so revalidate it + return entry.revalidate(request, options) +} + +cacheFetch.invalidate = async (request, options) => { + if (!options.cachePath) { + return + } + + return CacheEntry.invalidate(request, options) +} + +module.exports = cacheFetch + + +/***/ }), + +/***/ 14296: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +const { URL, format } = __nccwpck_require__(87016) + +// options passed to url.format() when generating a key +const formatOptions = { + auth: false, + fragment: false, + search: true, + unicode: false, +} + +// returns a string to be used as the cache key for the Request +const cacheKey = (request) => { + const parsed = new URL(request.url) + return `make-fetch-happen:request-cache:${format(parsed, formatOptions)}` +} + +module.exports = cacheKey + + +/***/ }), + +/***/ 61097: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +const CacheSemantics = __nccwpck_require__(12203) +const Negotiator = __nccwpck_require__(60668) +const ssri = __nccwpck_require__(68951) + +// options passed to http-cache-semantics constructor +const policyOptions = { + shared: false, + ignoreCargoCult: true, +} + +// a fake empty response, used when only testing the +// request for storability +const emptyResponse = { status: 200, headers: {} } + +// returns a plain object representation of the Request +const requestObject = (request) => { + const _obj = { + method: request.method, + url: request.url, + headers: {}, + compress: request.compress, + } + + request.headers.forEach((value, key) => { + _obj.headers[key] = value + }) + + return _obj +} + +// returns a plain object representation of the Response +const responseObject = (response) => { + const _obj = { + status: response.status, + headers: {}, + } + + response.headers.forEach((value, key) => { + _obj.headers[key] = value + }) + + return _obj +} + +class CachePolicy { + constructor ({ entry, request, response, options }) { + this.entry = entry + this.request = requestObject(request) + this.response = responseObject(response) + this.options = options + this.policy = new CacheSemantics(this.request, this.response, policyOptions) + + if (this.entry) { + // if we have an entry, copy the timestamp to the _responseTime + // this is necessary because the CacheSemantics constructor forces + // the value to Date.now() which means a policy created from a + // cache entry is likely to always identify itself as stale + this.policy._responseTime = this.entry.metadata.time + } + } + + // static method to quickly determine if a request alone is storable + static storable (request, options) { + // no cachePath means no caching + if (!options.cachePath) { + return false + } + + // user explicitly asked not to cache + if (options.cache === 'no-store') { + return false + } + + // we only cache GET and HEAD requests + if (!['GET', 'HEAD'].includes(request.method)) { + return false + } + + // otherwise, let http-cache-semantics make the decision + // based on the request's headers + const policy = new CacheSemantics(requestObject(request), emptyResponse, policyOptions) + return policy.storable() + } + + // returns true if the policy satisfies the request + satisfies (request) { + const _req = requestObject(request) + if (this.request.headers.host !== _req.headers.host) { + return false + } + + if (this.request.compress !== _req.compress) { + return false + } + + const negotiatorA = new Negotiator(this.request) + const negotiatorB = new Negotiator(_req) + + if (JSON.stringify(negotiatorA.mediaTypes()) !== JSON.stringify(negotiatorB.mediaTypes())) { + return false + } + + if (JSON.stringify(negotiatorA.languages()) !== JSON.stringify(negotiatorB.languages())) { + return false + } + + if (JSON.stringify(negotiatorA.encodings()) !== JSON.stringify(negotiatorB.encodings())) { + return false + } + + if (this.options.integrity) { + return ssri.parse(this.options.integrity).match(this.entry.integrity) + } + + return true + } + + // returns true if the request and response allow caching + storable () { + return this.policy.storable() + } + + // NOTE: this is a hack to avoid parsing the cache-control + // header ourselves, it returns true if the response's + // cache-control contains must-revalidate + get mustRevalidate () { + return !!this.policy._rescc['must-revalidate'] + } + + // returns true if the cached response requires revalidation + // for the given request + needsRevalidation (request) { + const _req = requestObject(request) + // force method to GET because we only cache GETs + // but can serve a HEAD from a cached GET + _req.method = 'GET' + return !this.policy.satisfiesWithoutRevalidation(_req) + } + + responseHeaders () { + return this.policy.responseHeaders() + } + + // returns a new object containing the appropriate headers + // to send a revalidation request + revalidationHeaders (request) { + const _req = requestObject(request) + return this.policy.revalidationHeaders(_req) + } + + // returns true if the request/response was revalidated + // successfully. returns false if a new response was received + revalidated (request, response) { + const _req = requestObject(request) + const _res = responseObject(response) + const policy = this.policy.revalidatedPolicy(_req, _res) + return !policy.modified + } +} + +module.exports = CachePolicy + + +/***/ }), + +/***/ 29026: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const { FetchError, Request, isRedirect } = __nccwpck_require__(88483) +const url = __nccwpck_require__(87016) + +const CachePolicy = __nccwpck_require__(61097) +const cache = __nccwpck_require__(41567) +const remote = __nccwpck_require__(20598) + +// given a Request, a Response and user options +// return true if the response is a redirect that +// can be followed. we throw errors that will result +// in the fetch being rejected if the redirect is +// possible but invalid for some reason +const canFollowRedirect = (request, response, options) => { + if (!isRedirect(response.status)) { + return false + } + + if (options.redirect === 'manual') { + return false + } + + if (options.redirect === 'error') { + throw new FetchError(`redirect mode is set to error: ${request.url}`, + 'no-redirect', { code: 'ENOREDIRECT' }) + } + + if (!response.headers.has('location')) { + throw new FetchError(`redirect location header missing for: ${request.url}`, + 'no-location', { code: 'EINVALIDREDIRECT' }) + } + + if (request.counter >= request.follow) { + throw new FetchError(`maximum redirect reached at: ${request.url}`, + 'max-redirect', { code: 'EMAXREDIRECT' }) + } + + return true +} + +// given a Request, a Response, and the user's options return an object +// with a new Request and a new options object that will be used for +// following the redirect +const getRedirect = (request, response, options) => { + const _opts = { ...options } + const location = response.headers.get('location') + const redirectUrl = new url.URL(location, /^https?:/.test(location) ? undefined : request.url) + // Comment below is used under the following license: + /** + * @license + * Copyright (c) 2010-2012 Mikeal Rogers + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * http://www.apache.org/licenses/LICENSE-2.0 + * Unless required by applicable law or agreed to in writing, + * software distributed under the License is distributed on an "AS + * IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either + * express or implied. See the License for the specific language + * governing permissions and limitations under the License. + */ + + // Remove authorization if changing hostnames (but not if just + // changing ports or protocols). This matches the behavior of request: + // https://github.com/request/request/blob/b12a6245/lib/redirect.js#L134-L138 + if (new url.URL(request.url).hostname !== redirectUrl.hostname) { + request.headers.delete('authorization') + request.headers.delete('cookie') + } + + // for POST request with 301/302 response, or any request with 303 response, + // use GET when following redirect + if ( + response.status === 303 || + (request.method === 'POST' && [301, 302].includes(response.status)) + ) { + _opts.method = 'GET' + _opts.body = null + request.headers.delete('content-length') + } + + _opts.headers = {} + request.headers.forEach((value, key) => { + _opts.headers[key] = value + }) + + _opts.counter = ++request.counter + const redirectReq = new Request(url.format(redirectUrl), _opts) + return { + request: redirectReq, + options: _opts, + } +} + +const fetch = async (request, options) => { + const response = CachePolicy.storable(request, options) + ? await cache(request, options) + : await remote(request, options) + + // if the request wasn't a GET or HEAD, and the response + // status is between 200 and 399 inclusive, invalidate the + // request url + if (!['GET', 'HEAD'].includes(request.method) && + response.status >= 200 && + response.status <= 399) { + await cache.invalidate(request, options) + } + + if (!canFollowRedirect(request, response, options)) { + return response + } + + const redirect = getRedirect(request, response, options) + return fetch(redirect.request, redirect.options) +} + +module.exports = fetch + + +/***/ }), + +/***/ 40614: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +const { FetchError, Headers, Request, Response } = __nccwpck_require__(88483) + +const configureOptions = __nccwpck_require__(82936) +const fetch = __nccwpck_require__(29026) + +const makeFetchHappen = (url, opts) => { + const options = configureOptions(opts) + + const request = new Request(url, options) + return fetch(request, options) +} + +makeFetchHappen.defaults = (defaultUrl, defaultOptions = {}, wrappedFetch = makeFetchHappen) => { + if (typeof defaultUrl === 'object') { + defaultOptions = defaultUrl + defaultUrl = null + } + + const defaultedFetch = (url, options = {}) => { + const finalUrl = url || defaultUrl + const finalOptions = { + ...defaultOptions, + ...options, + headers: { + ...defaultOptions.headers, + ...options.headers, + }, + } + return wrappedFetch(finalUrl, finalOptions) + } + + defaultedFetch.defaults = (defaultUrl1, defaultOptions1 = {}) => + makeFetchHappen.defaults(defaultUrl1, defaultOptions1, defaultedFetch) + return defaultedFetch +} + +module.exports = makeFetchHappen +module.exports.FetchError = FetchError +module.exports.Headers = Headers +module.exports.Request = Request +module.exports.Response = Response + + +/***/ }), + +/***/ 82936: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +const dns = __nccwpck_require__(72250) + +const conditionalHeaders = [ + 'if-modified-since', + 'if-none-match', + 'if-unmodified-since', + 'if-match', + 'if-range', +] + +const configureOptions = (opts) => { + const { strictSSL, ...options } = { ...opts } + options.method = options.method ? options.method.toUpperCase() : 'GET' + + if (strictSSL === undefined || strictSSL === null) { + options.rejectUnauthorized = process.env.NODE_TLS_REJECT_UNAUTHORIZED !== '0' + } else { + options.rejectUnauthorized = strictSSL !== false + } + + if (!options.retry) { + options.retry = { retries: 0 } + } else if (typeof options.retry === 'string') { + const retries = parseInt(options.retry, 10) + if (isFinite(retries)) { + options.retry = { retries } + } else { + options.retry = { retries: 0 } + } + } else if (typeof options.retry === 'number') { + options.retry = { retries: options.retry } + } else { + options.retry = { retries: 0, ...options.retry } + } + + options.dns = { ttl: 5 * 60 * 1000, lookup: dns.lookup, ...options.dns } + + options.cache = options.cache || 'default' + if (options.cache === 'default') { + const hasConditionalHeader = Object.keys(options.headers || {}).some((name) => { + return conditionalHeaders.includes(name.toLowerCase()) + }) + if (hasConditionalHeader) { + options.cache = 'no-store' + } + } + + options.cacheAdditionalHeaders = options.cacheAdditionalHeaders || [] + + // cacheManager is deprecated, but if it's set and + // cachePath is not we should copy it to the new field + if (options.cacheManager && !options.cachePath) { + options.cachePath = options.cacheManager + } + + return options +} + +module.exports = configureOptions + + +/***/ }), + +/***/ 94210: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +"use strict"; + + +const MinipassPipeline = __nccwpck_require__(52899) + +class CachingMinipassPipeline extends MinipassPipeline { + #events = [] + #data = new Map() + + constructor (opts, ...streams) { + // CRITICAL: do NOT pass the streams to the call to super(), this will start + // the flow of data and potentially cause the events we need to catch to emit + // before we've finished our own setup. instead we call super() with no args, + // finish our setup, and then push the streams into ourselves to start the + // data flow + super() + this.#events = opts.events + + /* istanbul ignore next - coverage disabled because this is pointless to test here */ + if (streams.length) { + this.push(...streams) + } + } + + on (event, handler) { + if (this.#events.includes(event) && this.#data.has(event)) { + return handler(...this.#data.get(event)) + } + + return super.on(event, handler) + } + + emit (event, ...data) { + if (this.#events.includes(event)) { + this.#data.set(event, data) + } + + return super.emit(event, ...data) + } +} + +module.exports = CachingMinipassPipeline + + +/***/ }), + +/***/ 20598: +/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { + +const { Minipass } = __nccwpck_require__(78275) +const fetch = __nccwpck_require__(88483) +const promiseRetry = __nccwpck_require__(90390) +const ssri = __nccwpck_require__(68951) +const { log } = __nccwpck_require__(26687) + +const CachingMinipassPipeline = __nccwpck_require__(94210) +const { getAgent } = __nccwpck_require__(57995) +const pkg = __nccwpck_require__(53644) + +const USER_AGENT = `${pkg.name}/${pkg.version} (+https://npm.im/${pkg.name})` + +const RETRY_ERRORS = [ + 'ECONNRESET', // remote socket closed on us + 'ECONNREFUSED', // remote host refused to open connection + 'EADDRINUSE', // failed to bind to a local port (proxy?) + 'ETIMEDOUT', // someone in the transaction is WAY TOO SLOW + // from @npmcli/agent + 'ECONNECTIONTIMEOUT', + 'EIDLETIMEOUT', + 'ERESPONSETIMEOUT', + 'ETRANSFERTIMEOUT', + // Known codes we do NOT retry on: + // ENOTFOUND (getaddrinfo failure. Either bad hostname, or offline) + // EINVALIDPROXY // invalid protocol from @npmcli/agent + // EINVALIDRESPONSE // invalid status code from @npmcli/agent +] + +const RETRY_TYPES = [ + 'request-timeout', +] + +// make a request directly to the remote source, +// retrying certain classes of errors as well as +// following redirects (through the cache if necessary) +// and verifying response integrity +const remoteFetch = (request, options) => { + // options.signal is intended for the fetch itself, not the agent. Attaching it to the agent will re-use that signal across multiple requests, which prevents any connections beyond the first one. + const agent = getAgent(request.url, { ...options, signal: undefined }) + if (!request.headers.has('connection')) { + request.headers.set('connection', agent ? 'keep-alive' : 'close') + } + + if (!request.headers.has('user-agent')) { + request.headers.set('user-agent', USER_AGENT) + } + + // keep our own options since we're overriding the agent + // and the redirect mode + const _opts = { + ...options, + agent, + redirect: 'manual', + } + + return promiseRetry(async (retryHandler, attemptNum) => { + const req = new fetch.Request(request, _opts) + try { + let res = await fetch(req, _opts) + if (_opts.integrity && res.status === 200) { + // we got a 200 response and the user has specified an expected + // integrity value, so wrap the response in an ssri stream to verify it + const integrityStream = ssri.integrityStream({ + algorithms: _opts.algorithms, + integrity: _opts.integrity, + size: _opts.size, + }) + const pipeline = new CachingMinipassPipeline({ + events: ['integrity', 'size'], + }, res.body, integrityStream) + // we also propagate the integrity and size events out to the pipeline so we can use + // this new response body as an integrityEmitter for cacache + integrityStream.on('integrity', i => pipeline.emit('integrity', i)) + integrityStream.on('size', s => pipeline.emit('size', s)) + res = new fetch.Response(pipeline, res) + // set an explicit flag so we know if our response body will emit integrity and size + res.body.hasIntegrityEmitter = true + } + + res.headers.set('x-fetch-attempts', attemptNum) + + // do not retry POST requests, or requests with a streaming body + // do retry requests with a 408, 420, 429 or 500+ status in the response + const isStream = Minipass.isStream(req.body) + const isRetriable = req.method !== 'POST' && + !isStream && + ([408, 420, 429].includes(res.status) || res.status >= 500) + + if (isRetriable) { + if (typeof options.onRetry === 'function') { + options.onRetry(res) + } + + /* eslint-disable-next-line max-len */ + log.http('fetch', `${req.method} ${req.url} attempt ${attemptNum} failed with ${res.status}`) + return retryHandler(res) + } + + return res + } catch (err) { + const code = (err.code === 'EPROMISERETRY') + ? err.retried.code + : err.code + + // err.retried will be the thing that was thrown from above + // if it's a response, we just got a bad status code and we + // can re-throw to allow the retry + const isRetryError = err.retried instanceof fetch.Response || + (RETRY_ERRORS.includes(code) && RETRY_TYPES.includes(err.type)) + + if (req.method === 'POST' || isRetryError) { + throw err + } + + if (typeof options.onRetry === 'function') { + options.onRetry(err) + } + + log.http('fetch', `${req.method} ${req.url} attempt ${attemptNum} failed with ${err.code}`) + return retryHandler(err) + } + }, options.retry).catch((err) => { + // don't reject for http errors, just return them + if (err.status >= 400 && err.type !== 'system') { + return err + } + + throw err + }) +} + +module.exports = remoteFetch + + /***/ }), /***/ 47030: @@ -73518,6 +76252,275 @@ function parseParams (str) { module.exports = parseParams +/***/ }), + +/***/ 70516: +/***/ ((__unused_webpack_module, exports) => { + +"use strict"; + +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.range = exports.balanced = void 0; +const balanced = (a, b, str) => { + const ma = a instanceof RegExp ? maybeMatch(a, str) : a; + const mb = b instanceof RegExp ? maybeMatch(b, str) : b; + const r = ma !== null && mb != null && (0, exports.range)(ma, mb, str); + return (r && { + start: r[0], + end: r[1], + pre: str.slice(0, r[0]), + body: str.slice(r[0] + ma.length, r[1]), + post: str.slice(r[1] + mb.length), + }); +}; +exports.balanced = balanced; +const maybeMatch = (reg, str) => { + const m = str.match(reg); + return m ? m[0] : null; +}; +const range = (a, b, str) => { + let begs, beg, left, right = undefined, result; + let ai = str.indexOf(a); + let bi = str.indexOf(b, ai + 1); + let i = ai; + if (ai >= 0 && bi > 0) { + if (a === b) { + return [ai, bi]; + } + begs = []; + left = str.length; + while (i >= 0 && !result) { + if (i === ai) { + begs.push(i); + ai = str.indexOf(a, i + 1); + } + else if (begs.length === 1) { + const r = begs.pop(); + if (r !== undefined) + result = [r, bi]; + } + else { + beg = begs.pop(); + if (beg !== undefined && beg < left) { + left = beg; + right = bi; + } + bi = str.indexOf(b, i + 1); + } + i = ai < bi && ai >= 0 ? ai : bi; + } + if (begs.length && right !== undefined) { + result = [left, right]; + } + } + return result; +}; +exports.range = range; +//# sourceMappingURL=index.js.map + +/***/ }), + +/***/ 11215: +/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { + +"use strict"; + +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.expand = expand; +const balanced_match_1 = __nccwpck_require__(70516); +const escSlash = '\0SLASH' + Math.random() + '\0'; +const escOpen = '\0OPEN' + Math.random() + '\0'; +const escClose = '\0CLOSE' + Math.random() + '\0'; +const escComma = '\0COMMA' + Math.random() + '\0'; +const escPeriod = '\0PERIOD' + Math.random() + '\0'; +const escSlashPattern = new RegExp(escSlash, 'g'); +const escOpenPattern = new RegExp(escOpen, 'g'); +const escClosePattern = new RegExp(escClose, 'g'); +const escCommaPattern = new RegExp(escComma, 'g'); +const escPeriodPattern = new RegExp(escPeriod, 'g'); +const slashPattern = /\\\\/g; +const openPattern = /\\{/g; +const closePattern = /\\}/g; +const commaPattern = /\\,/g; +const periodPattern = /\\./g; +function numeric(str) { + return !isNaN(str) ? parseInt(str, 10) : str.charCodeAt(0); +} +function escapeBraces(str) { + return str + .replace(slashPattern, escSlash) + .replace(openPattern, escOpen) + .replace(closePattern, escClose) + .replace(commaPattern, escComma) + .replace(periodPattern, escPeriod); +} +function unescapeBraces(str) { + return str + .replace(escSlashPattern, '\\') + .replace(escOpenPattern, '{') + .replace(escClosePattern, '}') + .replace(escCommaPattern, ',') + .replace(escPeriodPattern, '.'); +} +/** + * Basically just str.split(","), but handling cases + * where we have nested braced sections, which should be + * treated as individual members, like {a,{b,c},d} + */ +function parseCommaParts(str) { + if (!str) { + return ['']; + } + const parts = []; + const m = (0, balanced_match_1.balanced)('{', '}', str); + if (!m) { + return str.split(','); + } + const { pre, body, post } = m; + const p = pre.split(','); + p[p.length - 1] += '{' + body + '}'; + const postParts = parseCommaParts(post); + if (post.length) { + ; + p[p.length - 1] += postParts.shift(); + p.push.apply(p, postParts); + } + parts.push.apply(parts, p); + return parts; +} +function expand(str) { + if (!str) { + return []; + } + // I don't know why Bash 4.3 does this, but it does. + // Anything starting with {} will have the first two bytes preserved + // but *only* at the top level, so {},a}b will not expand to anything, + // but a{},b}c will be expanded to [a}c,abc]. + // One could argue that this is a bug in Bash, but since the goal of + // this module is to match Bash's rules, we escape a leading {} + if (str.slice(0, 2) === '{}') { + str = '\\{\\}' + str.slice(2); + } + return expand_(escapeBraces(str), true).map(unescapeBraces); +} +function embrace(str) { + return '{' + str + '}'; +} +function isPadded(el) { + return /^-?0\d/.test(el); +} +function lte(i, y) { + return i <= y; +} +function gte(i, y) { + return i >= y; +} +function expand_(str, isTop) { + /** @type {string[]} */ + const expansions = []; + const m = (0, balanced_match_1.balanced)('{', '}', str); + if (!m) + return [str]; + // no need to expand pre, since it is guaranteed to be free of brace-sets + const pre = m.pre; + const post = m.post.length ? expand_(m.post, false) : ['']; + if (/\$$/.test(m.pre)) { + for (let k = 0; k < post.length; k++) { + const expansion = pre + '{' + m.body + '}' + post[k]; + expansions.push(expansion); + } + } + else { + const isNumericSequence = /^-?\d+\.\.-?\d+(?:\.\.-?\d+)?$/.test(m.body); + const isAlphaSequence = /^[a-zA-Z]\.\.[a-zA-Z](?:\.\.-?\d+)?$/.test(m.body); + const isSequence = isNumericSequence || isAlphaSequence; + const isOptions = m.body.indexOf(',') >= 0; + if (!isSequence && !isOptions) { + // {a},b} + if (m.post.match(/,(?!,).*\}/)) { + str = m.pre + '{' + m.body + escClose + m.post; + return expand_(str); + } + return [str]; + } + let n; + if (isSequence) { + n = m.body.split(/\.\./); + } + else { + n = parseCommaParts(m.body); + if (n.length === 1 && n[0] !== undefined) { + // x{{a,b}}y ==> x{a}y x{b}y + n = expand_(n[0], false).map(embrace); + //XXX is this necessary? Can't seem to hit it in tests. + /* c8 ignore start */ + if (n.length === 1) { + return post.map(p => m.pre + n[0] + p); + } + /* c8 ignore stop */ + } + } + // at this point, n is the parts, and we know it's not a comma set + // with a single entry. + let N; + if (isSequence && n[0] !== undefined && n[1] !== undefined) { + const x = numeric(n[0]); + const y = numeric(n[1]); + const width = Math.max(n[0].length, n[1].length); + let incr = n.length === 3 && n[2] !== undefined ? Math.abs(numeric(n[2])) : 1; + let test = lte; + const reverse = y < x; + if (reverse) { + incr *= -1; + test = gte; + } + const pad = n.some(isPadded); + N = []; + for (let i = x; test(i, y); i += incr) { + let c; + if (isAlphaSequence) { + c = String.fromCharCode(i); + if (c === '\\') { + c = ''; + } + } + else { + c = String(i); + if (pad) { + const need = width - c.length; + if (need > 0) { + const z = new Array(need + 1).join('0'); + if (i < 0) { + c = '-' + z + c.slice(1); + } + else { + c = z + c; + } + } + } + } + N.push(c); + } + } + else { + N = []; + for (let j = 0; j < n.length; j++) { + N.push.apply(N, expand_(n[j], false)); + } + } + for (let j = 0; j < N.length; j++) { + for (let k = 0; k < post.length; k++) { + const expansion = pre + N[j] + post[k]; + if (!isTop || isSequence || expansion) { + expansions.push(expansion); + } + } + } + } + return expansions; +} +//# sourceMappingURL=index.js.map + /***/ }), /***/ 32638: @@ -75073,6 +78076,6877 @@ exports.LRUCache = LRUCache; /***/ }), +/***/ 44019: +/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { + +"use strict"; + +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.Glob = void 0; +const minimatch_1 = __nccwpck_require__(55941); +const node_url_1 = __nccwpck_require__(73136); +const path_scurry_1 = __nccwpck_require__(84987); +const pattern_js_1 = __nccwpck_require__(83563); +const walker_js_1 = __nccwpck_require__(33403); +// if no process global, just call it linux. +// so we default to case-sensitive, / separators +const defaultPlatform = (typeof process === 'object' && + process && + typeof process.platform === 'string') ? + process.platform + : 'linux'; +/** + * An object that can perform glob pattern traversals. + */ +class Glob { + absolute; + cwd; + root; + dot; + dotRelative; + follow; + ignore; + magicalBraces; + mark; + matchBase; + maxDepth; + nobrace; + nocase; + nodir; + noext; + noglobstar; + pattern; + platform; + realpath; + scurry; + stat; + signal; + windowsPathsNoEscape; + withFileTypes; + includeChildMatches; + /** + * The options provided to the constructor. + */ + opts; + /** + * An array of parsed immutable {@link Pattern} objects. + */ + patterns; + /** + * All options are stored as properties on the `Glob` object. + * + * See {@link GlobOptions} for full options descriptions. + * + * Note that a previous `Glob` object can be passed as the + * `GlobOptions` to another `Glob` instantiation to re-use settings + * and caches with a new pattern. + * + * Traversal functions can be called multiple times to run the walk + * again. + */ + constructor(pattern, opts) { + /* c8 ignore start */ + if (!opts) + throw new TypeError('glob options required'); + /* c8 ignore stop */ + this.withFileTypes = !!opts.withFileTypes; + this.signal = opts.signal; + this.follow = !!opts.follow; + this.dot = !!opts.dot; + this.dotRelative = !!opts.dotRelative; + this.nodir = !!opts.nodir; + this.mark = !!opts.mark; + if (!opts.cwd) { + this.cwd = ''; + } + else if (opts.cwd instanceof URL || opts.cwd.startsWith('file://')) { + opts.cwd = (0, node_url_1.fileURLToPath)(opts.cwd); + } + this.cwd = opts.cwd || ''; + this.root = opts.root; + this.magicalBraces = !!opts.magicalBraces; + this.nobrace = !!opts.nobrace; + this.noext = !!opts.noext; + this.realpath = !!opts.realpath; + this.absolute = opts.absolute; + this.includeChildMatches = opts.includeChildMatches !== false; + this.noglobstar = !!opts.noglobstar; + this.matchBase = !!opts.matchBase; + this.maxDepth = + typeof opts.maxDepth === 'number' ? opts.maxDepth : Infinity; + this.stat = !!opts.stat; + this.ignore = opts.ignore; + if (this.withFileTypes && this.absolute !== undefined) { + throw new Error('cannot set absolute and withFileTypes:true'); + } + if (typeof pattern === 'string') { + pattern = [pattern]; + } + this.windowsPathsNoEscape = + !!opts.windowsPathsNoEscape || + opts.allowWindowsEscape === + false; + if (this.windowsPathsNoEscape) { + pattern = pattern.map(p => p.replace(/\\/g, '/')); + } + if (this.matchBase) { + if (opts.noglobstar) { + throw new TypeError('base matching requires globstar'); + } + pattern = pattern.map(p => (p.includes('/') ? p : `./**/${p}`)); + } + this.pattern = pattern; + this.platform = opts.platform || defaultPlatform; + this.opts = { ...opts, platform: this.platform }; + if (opts.scurry) { + this.scurry = opts.scurry; + if (opts.nocase !== undefined && + opts.nocase !== opts.scurry.nocase) { + throw new Error('nocase option contradicts provided scurry option'); + } + } + else { + const Scurry = opts.platform === 'win32' ? path_scurry_1.PathScurryWin32 + : opts.platform === 'darwin' ? path_scurry_1.PathScurryDarwin + : opts.platform ? path_scurry_1.PathScurryPosix + : path_scurry_1.PathScurry; + this.scurry = new Scurry(this.cwd, { + nocase: opts.nocase, + fs: opts.fs, + }); + } + this.nocase = this.scurry.nocase; + // If you do nocase:true on a case-sensitive file system, then + // we need to use regexps instead of strings for non-magic + // path portions, because statting `aBc` won't return results + // for the file `AbC` for example. + const nocaseMagicOnly = this.platform === 'darwin' || this.platform === 'win32'; + const mmo = { + // default nocase based on platform + ...opts, + dot: this.dot, + matchBase: this.matchBase, + nobrace: this.nobrace, + nocase: this.nocase, + nocaseMagicOnly, + nocomment: true, + noext: this.noext, + nonegate: true, + optimizationLevel: 2, + platform: this.platform, + windowsPathsNoEscape: this.windowsPathsNoEscape, + debug: !!this.opts.debug, + }; + const mms = this.pattern.map(p => new minimatch_1.Minimatch(p, mmo)); + const [matchSet, globParts] = mms.reduce((set, m) => { + set[0].push(...m.set); + set[1].push(...m.globParts); + return set; + }, [[], []]); + this.patterns = matchSet.map((set, i) => { + const g = globParts[i]; + /* c8 ignore start */ + if (!g) + throw new Error('invalid pattern object'); + /* c8 ignore stop */ + return new pattern_js_1.Pattern(set, g, 0, this.platform); + }); + } + async walk() { + // Walkers always return array of Path objects, so we just have to + // coerce them into the right shape. It will have already called + // realpath() if the option was set to do so, so we know that's cached. + // start out knowing the cwd, at least + return [ + ...(await new walker_js_1.GlobWalker(this.patterns, this.scurry.cwd, { + ...this.opts, + maxDepth: this.maxDepth !== Infinity ? + this.maxDepth + this.scurry.cwd.depth() + : Infinity, + platform: this.platform, + nocase: this.nocase, + includeChildMatches: this.includeChildMatches, + }).walk()), + ]; + } + walkSync() { + return [ + ...new walker_js_1.GlobWalker(this.patterns, this.scurry.cwd, { + ...this.opts, + maxDepth: this.maxDepth !== Infinity ? + this.maxDepth + this.scurry.cwd.depth() + : Infinity, + platform: this.platform, + nocase: this.nocase, + includeChildMatches: this.includeChildMatches, + }).walkSync(), + ]; + } + stream() { + return new walker_js_1.GlobStream(this.patterns, this.scurry.cwd, { + ...this.opts, + maxDepth: this.maxDepth !== Infinity ? + this.maxDepth + this.scurry.cwd.depth() + : Infinity, + platform: this.platform, + nocase: this.nocase, + includeChildMatches: this.includeChildMatches, + }).stream(); + } + streamSync() { + return new walker_js_1.GlobStream(this.patterns, this.scurry.cwd, { + ...this.opts, + maxDepth: this.maxDepth !== Infinity ? + this.maxDepth + this.scurry.cwd.depth() + : Infinity, + platform: this.platform, + nocase: this.nocase, + includeChildMatches: this.includeChildMatches, + }).streamSync(); + } + /** + * Default sync iteration function. Returns a Generator that + * iterates over the results. + */ + iterateSync() { + return this.streamSync()[Symbol.iterator](); + } + [Symbol.iterator]() { + return this.iterateSync(); + } + /** + * Default async iteration function. Returns an AsyncGenerator that + * iterates over the results. + */ + iterate() { + return this.stream()[Symbol.asyncIterator](); + } + [Symbol.asyncIterator]() { + return this.iterate(); + } +} +exports.Glob = Glob; +//# sourceMappingURL=glob.js.map + +/***/ }), + +/***/ 31175: +/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { + +"use strict"; + +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.hasMagic = void 0; +const minimatch_1 = __nccwpck_require__(55941); +/** + * Return true if the patterns provided contain any magic glob characters, + * given the options provided. + * + * Brace expansion is not considered "magic" unless the `magicalBraces` option + * is set, as brace expansion just turns one string into an array of strings. + * So a pattern like `'x{a,b}y'` would return `false`, because `'xay'` and + * `'xby'` both do not contain any magic glob characters, and it's treated the + * same as if you had called it on `['xay', 'xby']`. When `magicalBraces:true` + * is in the options, brace expansion _is_ treated as a pattern having magic. + */ +const hasMagic = (pattern, options = {}) => { + if (!Array.isArray(pattern)) { + pattern = [pattern]; + } + for (const p of pattern) { + if (new minimatch_1.Minimatch(p, options).hasMagic()) + return true; + } + return false; +}; +exports.hasMagic = hasMagic; +//# sourceMappingURL=has-magic.js.map + +/***/ }), + +/***/ 47263: +/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { + +"use strict"; + +// give it a pattern, and it'll be able to tell you if +// a given path should be ignored. +// Ignoring a path ignores its children if the pattern ends in /** +// Ignores are always parsed in dot:true mode +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.Ignore = void 0; +const minimatch_1 = __nccwpck_require__(55941); +const pattern_js_1 = __nccwpck_require__(83563); +const defaultPlatform = (typeof process === 'object' && + process && + typeof process.platform === 'string') ? + process.platform + : 'linux'; +/** + * Class used to process ignored patterns + */ +class Ignore { + relative; + relativeChildren; + absolute; + absoluteChildren; + platform; + mmopts; + constructor(ignored, { nobrace, nocase, noext, noglobstar, platform = defaultPlatform, }) { + this.relative = []; + this.absolute = []; + this.relativeChildren = []; + this.absoluteChildren = []; + this.platform = platform; + this.mmopts = { + dot: true, + nobrace, + nocase, + noext, + noglobstar, + optimizationLevel: 2, + platform, + nocomment: true, + nonegate: true, + }; + for (const ign of ignored) + this.add(ign); + } + add(ign) { + // this is a little weird, but it gives us a clean set of optimized + // minimatch matchers, without getting tripped up if one of them + // ends in /** inside a brace section, and it's only inefficient at + // the start of the walk, not along it. + // It'd be nice if the Pattern class just had a .test() method, but + // handling globstars is a bit of a pita, and that code already lives + // in minimatch anyway. + // Another way would be if maybe Minimatch could take its set/globParts + // as an option, and then we could at least just use Pattern to test + // for absolute-ness. + // Yet another way, Minimatch could take an array of glob strings, and + // a cwd option, and do the right thing. + const mm = new minimatch_1.Minimatch(ign, this.mmopts); + for (let i = 0; i < mm.set.length; i++) { + const parsed = mm.set[i]; + const globParts = mm.globParts[i]; + /* c8 ignore start */ + if (!parsed || !globParts) { + throw new Error('invalid pattern object'); + } + // strip off leading ./ portions + // https://github.com/isaacs/node-glob/issues/570 + while (parsed[0] === '.' && globParts[0] === '.') { + parsed.shift(); + globParts.shift(); + } + /* c8 ignore stop */ + const p = new pattern_js_1.Pattern(parsed, globParts, 0, this.platform); + const m = new minimatch_1.Minimatch(p.globString(), this.mmopts); + const children = globParts[globParts.length - 1] === '**'; + const absolute = p.isAbsolute(); + if (absolute) + this.absolute.push(m); + else + this.relative.push(m); + if (children) { + if (absolute) + this.absoluteChildren.push(m); + else + this.relativeChildren.push(m); + } + } + } + ignored(p) { + const fullpath = p.fullpath(); + const fullpaths = `${fullpath}/`; + const relative = p.relative() || '.'; + const relatives = `${relative}/`; + for (const m of this.relative) { + if (m.match(relative) || m.match(relatives)) + return true; + } + for (const m of this.absolute) { + if (m.match(fullpath) || m.match(fullpaths)) + return true; + } + return false; + } + childrenIgnored(p) { + const fullpath = p.fullpath() + '/'; + const relative = (p.relative() || '.') + '/'; + for (const m of this.relativeChildren) { + if (m.match(relative)) + return true; + } + for (const m of this.absoluteChildren) { + if (m.match(fullpath)) + return true; + } + return false; + } +} +exports.Ignore = Ignore; +//# sourceMappingURL=ignore.js.map + +/***/ }), + +/***/ 44629: +/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { + +"use strict"; + +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.glob = exports.sync = exports.iterate = exports.iterateSync = exports.stream = exports.streamSync = exports.Ignore = exports.hasMagic = exports.Glob = exports.unescape = exports.escape = void 0; +exports.globStreamSync = globStreamSync; +exports.globStream = globStream; +exports.globSync = globSync; +exports.globIterateSync = globIterateSync; +exports.globIterate = globIterate; +const minimatch_1 = __nccwpck_require__(55941); +const glob_js_1 = __nccwpck_require__(44019); +const has_magic_js_1 = __nccwpck_require__(31175); +var minimatch_2 = __nccwpck_require__(55941); +Object.defineProperty(exports, "escape", ({ enumerable: true, get: function () { return minimatch_2.escape; } })); +Object.defineProperty(exports, "unescape", ({ enumerable: true, get: function () { return minimatch_2.unescape; } })); +var glob_js_2 = __nccwpck_require__(44019); +Object.defineProperty(exports, "Glob", ({ enumerable: true, get: function () { return glob_js_2.Glob; } })); +var has_magic_js_2 = __nccwpck_require__(31175); +Object.defineProperty(exports, "hasMagic", ({ enumerable: true, get: function () { return has_magic_js_2.hasMagic; } })); +var ignore_js_1 = __nccwpck_require__(47263); +Object.defineProperty(exports, "Ignore", ({ enumerable: true, get: function () { return ignore_js_1.Ignore; } })); +function globStreamSync(pattern, options = {}) { + return new glob_js_1.Glob(pattern, options).streamSync(); +} +function globStream(pattern, options = {}) { + return new glob_js_1.Glob(pattern, options).stream(); +} +function globSync(pattern, options = {}) { + return new glob_js_1.Glob(pattern, options).walkSync(); +} +async function glob_(pattern, options = {}) { + return new glob_js_1.Glob(pattern, options).walk(); +} +function globIterateSync(pattern, options = {}) { + return new glob_js_1.Glob(pattern, options).iterateSync(); +} +function globIterate(pattern, options = {}) { + return new glob_js_1.Glob(pattern, options).iterate(); +} +// aliases: glob.sync.stream() glob.stream.sync() glob.sync() etc +exports.streamSync = globStreamSync; +exports.stream = Object.assign(globStream, { sync: globStreamSync }); +exports.iterateSync = globIterateSync; +exports.iterate = Object.assign(globIterate, { + sync: globIterateSync, +}); +exports.sync = Object.assign(globSync, { + stream: globStreamSync, + iterate: globIterateSync, +}); +exports.glob = Object.assign(glob_, { + glob: glob_, + globSync, + sync: exports.sync, + globStream, + stream: exports.stream, + globStreamSync, + streamSync: exports.streamSync, + globIterate, + iterate: exports.iterate, + globIterateSync, + iterateSync: exports.iterateSync, + Glob: glob_js_1.Glob, + hasMagic: has_magic_js_1.hasMagic, + escape: minimatch_1.escape, + unescape: minimatch_1.unescape, +}); +exports.glob.glob = exports.glob; +//# sourceMappingURL=index.js.map + +/***/ }), + +/***/ 83563: +/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { + +"use strict"; + +// this is just a very light wrapper around 2 arrays with an offset index +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.Pattern = void 0; +const minimatch_1 = __nccwpck_require__(55941); +const isPatternList = (pl) => pl.length >= 1; +const isGlobList = (gl) => gl.length >= 1; +/** + * An immutable-ish view on an array of glob parts and their parsed + * results + */ +class Pattern { + #patternList; + #globList; + #index; + length; + #platform; + #rest; + #globString; + #isDrive; + #isUNC; + #isAbsolute; + #followGlobstar = true; + constructor(patternList, globList, index, platform) { + if (!isPatternList(patternList)) { + throw new TypeError('empty pattern list'); + } + if (!isGlobList(globList)) { + throw new TypeError('empty glob list'); + } + if (globList.length !== patternList.length) { + throw new TypeError('mismatched pattern list and glob list lengths'); + } + this.length = patternList.length; + if (index < 0 || index >= this.length) { + throw new TypeError('index out of range'); + } + this.#patternList = patternList; + this.#globList = globList; + this.#index = index; + this.#platform = platform; + // normalize root entries of absolute patterns on initial creation. + if (this.#index === 0) { + // c: => ['c:/'] + // C:/ => ['C:/'] + // C:/x => ['C:/', 'x'] + // //host/share => ['//host/share/'] + // //host/share/ => ['//host/share/'] + // //host/share/x => ['//host/share/', 'x'] + // /etc => ['/', 'etc'] + // / => ['/'] + if (this.isUNC()) { + // '' / '' / 'host' / 'share' + const [p0, p1, p2, p3, ...prest] = this.#patternList; + const [g0, g1, g2, g3, ...grest] = this.#globList; + if (prest[0] === '') { + // ends in / + prest.shift(); + grest.shift(); + } + const p = [p0, p1, p2, p3, ''].join('/'); + const g = [g0, g1, g2, g3, ''].join('/'); + this.#patternList = [p, ...prest]; + this.#globList = [g, ...grest]; + this.length = this.#patternList.length; + } + else if (this.isDrive() || this.isAbsolute()) { + const [p1, ...prest] = this.#patternList; + const [g1, ...grest] = this.#globList; + if (prest[0] === '') { + // ends in / + prest.shift(); + grest.shift(); + } + const p = p1 + '/'; + const g = g1 + '/'; + this.#patternList = [p, ...prest]; + this.#globList = [g, ...grest]; + this.length = this.#patternList.length; + } + } + } + /** + * The first entry in the parsed list of patterns + */ + pattern() { + return this.#patternList[this.#index]; + } + /** + * true of if pattern() returns a string + */ + isString() { + return typeof this.#patternList[this.#index] === 'string'; + } + /** + * true of if pattern() returns GLOBSTAR + */ + isGlobstar() { + return this.#patternList[this.#index] === minimatch_1.GLOBSTAR; + } + /** + * true if pattern() returns a regexp + */ + isRegExp() { + return this.#patternList[this.#index] instanceof RegExp; + } + /** + * The /-joined set of glob parts that make up this pattern + */ + globString() { + return (this.#globString = + this.#globString || + (this.#index === 0 ? + this.isAbsolute() ? + this.#globList[0] + this.#globList.slice(1).join('/') + : this.#globList.join('/') + : this.#globList.slice(this.#index).join('/'))); + } + /** + * true if there are more pattern parts after this one + */ + hasMore() { + return this.length > this.#index + 1; + } + /** + * The rest of the pattern after this part, or null if this is the end + */ + rest() { + if (this.#rest !== undefined) + return this.#rest; + if (!this.hasMore()) + return (this.#rest = null); + this.#rest = new Pattern(this.#patternList, this.#globList, this.#index + 1, this.#platform); + this.#rest.#isAbsolute = this.#isAbsolute; + this.#rest.#isUNC = this.#isUNC; + this.#rest.#isDrive = this.#isDrive; + return this.#rest; + } + /** + * true if the pattern represents a //unc/path/ on windows + */ + isUNC() { + const pl = this.#patternList; + return this.#isUNC !== undefined ? + this.#isUNC + : (this.#isUNC = + this.#platform === 'win32' && + this.#index === 0 && + pl[0] === '' && + pl[1] === '' && + typeof pl[2] === 'string' && + !!pl[2] && + typeof pl[3] === 'string' && + !!pl[3]); + } + // pattern like C:/... + // split = ['C:', ...] + // XXX: would be nice to handle patterns like `c:*` to test the cwd + // in c: for *, but I don't know of a way to even figure out what that + // cwd is without actually chdir'ing into it? + /** + * True if the pattern starts with a drive letter on Windows + */ + isDrive() { + const pl = this.#patternList; + return this.#isDrive !== undefined ? + this.#isDrive + : (this.#isDrive = + this.#platform === 'win32' && + this.#index === 0 && + this.length > 1 && + typeof pl[0] === 'string' && + /^[a-z]:$/i.test(pl[0])); + } + // pattern = '/' or '/...' or '/x/...' + // split = ['', ''] or ['', ...] or ['', 'x', ...] + // Drive and UNC both considered absolute on windows + /** + * True if the pattern is rooted on an absolute path + */ + isAbsolute() { + const pl = this.#patternList; + return this.#isAbsolute !== undefined ? + this.#isAbsolute + : (this.#isAbsolute = + (pl[0] === '' && pl.length > 1) || + this.isDrive() || + this.isUNC()); + } + /** + * consume the root of the pattern, and return it + */ + root() { + const p = this.#patternList[0]; + return (typeof p === 'string' && this.isAbsolute() && this.#index === 0) ? + p + : ''; + } + /** + * Check to see if the current globstar pattern is allowed to follow + * a symbolic link. + */ + checkFollowGlobstar() { + return !(this.#index === 0 || + !this.isGlobstar() || + !this.#followGlobstar); + } + /** + * Mark that the current globstar pattern is following a symbolic link + */ + markFollowGlobstar() { + if (this.#index === 0 || !this.isGlobstar() || !this.#followGlobstar) + return false; + this.#followGlobstar = false; + return true; + } +} +exports.Pattern = Pattern; +//# sourceMappingURL=pattern.js.map + +/***/ }), + +/***/ 76069: +/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { + +"use strict"; + +// synchronous utility for filtering entries and calculating subwalks +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.Processor = exports.SubWalks = exports.MatchRecord = exports.HasWalkedCache = void 0; +const minimatch_1 = __nccwpck_require__(55941); +/** + * A cache of which patterns have been processed for a given Path + */ +class HasWalkedCache { + store; + constructor(store = new Map()) { + this.store = store; + } + copy() { + return new HasWalkedCache(new Map(this.store)); + } + hasWalked(target, pattern) { + return this.store.get(target.fullpath())?.has(pattern.globString()); + } + storeWalked(target, pattern) { + const fullpath = target.fullpath(); + const cached = this.store.get(fullpath); + if (cached) + cached.add(pattern.globString()); + else + this.store.set(fullpath, new Set([pattern.globString()])); + } +} +exports.HasWalkedCache = HasWalkedCache; +/** + * A record of which paths have been matched in a given walk step, + * and whether they only are considered a match if they are a directory, + * and whether their absolute or relative path should be returned. + */ +class MatchRecord { + store = new Map(); + add(target, absolute, ifDir) { + const n = (absolute ? 2 : 0) | (ifDir ? 1 : 0); + const current = this.store.get(target); + this.store.set(target, current === undefined ? n : n & current); + } + // match, absolute, ifdir + entries() { + return [...this.store.entries()].map(([path, n]) => [ + path, + !!(n & 2), + !!(n & 1), + ]); + } +} +exports.MatchRecord = MatchRecord; +/** + * A collection of patterns that must be processed in a subsequent step + * for a given path. + */ +class SubWalks { + store = new Map(); + add(target, pattern) { + if (!target.canReaddir()) { + return; + } + const subs = this.store.get(target); + if (subs) { + if (!subs.find(p => p.globString() === pattern.globString())) { + subs.push(pattern); + } + } + else + this.store.set(target, [pattern]); + } + get(target) { + const subs = this.store.get(target); + /* c8 ignore start */ + if (!subs) { + throw new Error('attempting to walk unknown path'); + } + /* c8 ignore stop */ + return subs; + } + entries() { + return this.keys().map(k => [k, this.store.get(k)]); + } + keys() { + return [...this.store.keys()].filter(t => t.canReaddir()); + } +} +exports.SubWalks = SubWalks; +/** + * The class that processes patterns for a given path. + * + * Handles child entry filtering, and determining whether a path's + * directory contents must be read. + */ +class Processor { + hasWalkedCache; + matches = new MatchRecord(); + subwalks = new SubWalks(); + patterns; + follow; + dot; + opts; + constructor(opts, hasWalkedCache) { + this.opts = opts; + this.follow = !!opts.follow; + this.dot = !!opts.dot; + this.hasWalkedCache = + hasWalkedCache ? hasWalkedCache.copy() : new HasWalkedCache(); + } + processPatterns(target, patterns) { + this.patterns = patterns; + const processingSet = patterns.map(p => [target, p]); + // map of paths to the magic-starting subwalks they need to walk + // first item in patterns is the filter + for (let [t, pattern] of processingSet) { + this.hasWalkedCache.storeWalked(t, pattern); + const root = pattern.root(); + const absolute = pattern.isAbsolute() && this.opts.absolute !== false; + // start absolute patterns at root + if (root) { + t = t.resolve(root === '/' && this.opts.root !== undefined ? + this.opts.root + : root); + const rest = pattern.rest(); + if (!rest) { + this.matches.add(t, true, false); + continue; + } + else { + pattern = rest; + } + } + if (t.isENOENT()) + continue; + let p; + let rest; + let changed = false; + while (typeof (p = pattern.pattern()) === 'string' && + (rest = pattern.rest())) { + const c = t.resolve(p); + t = c; + pattern = rest; + changed = true; + } + p = pattern.pattern(); + rest = pattern.rest(); + if (changed) { + if (this.hasWalkedCache.hasWalked(t, pattern)) + continue; + this.hasWalkedCache.storeWalked(t, pattern); + } + // now we have either a final string for a known entry, + // more strings for an unknown entry, + // or a pattern starting with magic, mounted on t. + if (typeof p === 'string') { + // must not be final entry, otherwise we would have + // concatenated it earlier. + const ifDir = p === '..' || p === '' || p === '.'; + this.matches.add(t.resolve(p), absolute, ifDir); + continue; + } + else if (p === minimatch_1.GLOBSTAR) { + // if no rest, match and subwalk pattern + // if rest, process rest and subwalk pattern + // if it's a symlink, but we didn't get here by way of a + // globstar match (meaning it's the first time THIS globstar + // has traversed a symlink), then we follow it. Otherwise, stop. + if (!t.isSymbolicLink() || + this.follow || + pattern.checkFollowGlobstar()) { + this.subwalks.add(t, pattern); + } + const rp = rest?.pattern(); + const rrest = rest?.rest(); + if (!rest || ((rp === '' || rp === '.') && !rrest)) { + // only HAS to be a dir if it ends in **/ or **/. + // but ending in ** will match files as well. + this.matches.add(t, absolute, rp === '' || rp === '.'); + } + else { + if (rp === '..') { + // this would mean you're matching **/.. at the fs root, + // and no thanks, I'm not gonna test that specific case. + /* c8 ignore start */ + const tp = t.parent || t; + /* c8 ignore stop */ + if (!rrest) + this.matches.add(tp, absolute, true); + else if (!this.hasWalkedCache.hasWalked(tp, rrest)) { + this.subwalks.add(tp, rrest); + } + } + } + } + else if (p instanceof RegExp) { + this.subwalks.add(t, pattern); + } + } + return this; + } + subwalkTargets() { + return this.subwalks.keys(); + } + child() { + return new Processor(this.opts, this.hasWalkedCache); + } + // return a new Processor containing the subwalks for each + // child entry, and a set of matches, and + // a hasWalkedCache that's a copy of this one + // then we're going to call + filterEntries(parent, entries) { + const patterns = this.subwalks.get(parent); + // put matches and entry walks into the results processor + const results = this.child(); + for (const e of entries) { + for (const pattern of patterns) { + const absolute = pattern.isAbsolute(); + const p = pattern.pattern(); + const rest = pattern.rest(); + if (p === minimatch_1.GLOBSTAR) { + results.testGlobstar(e, pattern, rest, absolute); + } + else if (p instanceof RegExp) { + results.testRegExp(e, p, rest, absolute); + } + else { + results.testString(e, p, rest, absolute); + } + } + } + return results; + } + testGlobstar(e, pattern, rest, absolute) { + if (this.dot || !e.name.startsWith('.')) { + if (!pattern.hasMore()) { + this.matches.add(e, absolute, false); + } + if (e.canReaddir()) { + // if we're in follow mode or it's not a symlink, just keep + // testing the same pattern. If there's more after the globstar, + // then this symlink consumes the globstar. If not, then we can + // follow at most ONE symlink along the way, so we mark it, which + // also checks to ensure that it wasn't already marked. + if (this.follow || !e.isSymbolicLink()) { + this.subwalks.add(e, pattern); + } + else if (e.isSymbolicLink()) { + if (rest && pattern.checkFollowGlobstar()) { + this.subwalks.add(e, rest); + } + else if (pattern.markFollowGlobstar()) { + this.subwalks.add(e, pattern); + } + } + } + } + // if the NEXT thing matches this entry, then also add + // the rest. + if (rest) { + const rp = rest.pattern(); + if (typeof rp === 'string' && + // dots and empty were handled already + rp !== '..' && + rp !== '' && + rp !== '.') { + this.testString(e, rp, rest.rest(), absolute); + } + else if (rp === '..') { + /* c8 ignore start */ + const ep = e.parent || e; + /* c8 ignore stop */ + this.subwalks.add(ep, rest); + } + else if (rp instanceof RegExp) { + this.testRegExp(e, rp, rest.rest(), absolute); + } + } + } + testRegExp(e, p, rest, absolute) { + if (!p.test(e.name)) + return; + if (!rest) { + this.matches.add(e, absolute, false); + } + else { + this.subwalks.add(e, rest); + } + } + testString(e, p, rest, absolute) { + // should never happen? + if (!e.isNamed(p)) + return; + if (!rest) { + this.matches.add(e, absolute, false); + } + else { + this.subwalks.add(e, rest); + } + } +} +exports.Processor = Processor; +//# sourceMappingURL=processor.js.map + +/***/ }), + +/***/ 33403: +/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { + +"use strict"; + +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.GlobStream = exports.GlobWalker = exports.GlobUtil = void 0; +/** + * Single-use utility classes to provide functionality to the {@link Glob} + * methods. + * + * @module + */ +const minipass_1 = __nccwpck_require__(78275); +const ignore_js_1 = __nccwpck_require__(47263); +const processor_js_1 = __nccwpck_require__(76069); +const makeIgnore = (ignore, opts) => typeof ignore === 'string' ? new ignore_js_1.Ignore([ignore], opts) + : Array.isArray(ignore) ? new ignore_js_1.Ignore(ignore, opts) + : ignore; +/** + * basic walking utilities that all the glob walker types use + */ +class GlobUtil { + path; + patterns; + opts; + seen = new Set(); + paused = false; + aborted = false; + #onResume = []; + #ignore; + #sep; + signal; + maxDepth; + includeChildMatches; + constructor(patterns, path, opts) { + this.patterns = patterns; + this.path = path; + this.opts = opts; + this.#sep = !opts.posix && opts.platform === 'win32' ? '\\' : '/'; + this.includeChildMatches = opts.includeChildMatches !== false; + if (opts.ignore || !this.includeChildMatches) { + this.#ignore = makeIgnore(opts.ignore ?? [], opts); + if (!this.includeChildMatches && + typeof this.#ignore.add !== 'function') { + const m = 'cannot ignore child matches, ignore lacks add() method.'; + throw new Error(m); + } + } + // ignore, always set with maxDepth, but it's optional on the + // GlobOptions type + /* c8 ignore start */ + this.maxDepth = opts.maxDepth || Infinity; + /* c8 ignore stop */ + if (opts.signal) { + this.signal = opts.signal; + this.signal.addEventListener('abort', () => { + this.#onResume.length = 0; + }); + } + } + #ignored(path) { + return this.seen.has(path) || !!this.#ignore?.ignored?.(path); + } + #childrenIgnored(path) { + return !!this.#ignore?.childrenIgnored?.(path); + } + // backpressure mechanism + pause() { + this.paused = true; + } + resume() { + /* c8 ignore start */ + if (this.signal?.aborted) + return; + /* c8 ignore stop */ + this.paused = false; + let fn = undefined; + while (!this.paused && (fn = this.#onResume.shift())) { + fn(); + } + } + onResume(fn) { + if (this.signal?.aborted) + return; + /* c8 ignore start */ + if (!this.paused) { + fn(); + } + else { + /* c8 ignore stop */ + this.#onResume.push(fn); + } + } + // do the requisite realpath/stat checking, and return the path + // to add or undefined to filter it out. + async matchCheck(e, ifDir) { + if (ifDir && this.opts.nodir) + return undefined; + let rpc; + if (this.opts.realpath) { + rpc = e.realpathCached() || (await e.realpath()); + if (!rpc) + return undefined; + e = rpc; + } + const needStat = e.isUnknown() || this.opts.stat; + const s = needStat ? await e.lstat() : e; + if (this.opts.follow && this.opts.nodir && s?.isSymbolicLink()) { + const target = await s.realpath(); + /* c8 ignore start */ + if (target && (target.isUnknown() || this.opts.stat)) { + await target.lstat(); + } + /* c8 ignore stop */ + } + return this.matchCheckTest(s, ifDir); + } + matchCheckTest(e, ifDir) { + return (e && + (this.maxDepth === Infinity || e.depth() <= this.maxDepth) && + (!ifDir || e.canReaddir()) && + (!this.opts.nodir || !e.isDirectory()) && + (!this.opts.nodir || + !this.opts.follow || + !e.isSymbolicLink() || + !e.realpathCached()?.isDirectory()) && + !this.#ignored(e)) ? + e + : undefined; + } + matchCheckSync(e, ifDir) { + if (ifDir && this.opts.nodir) + return undefined; + let rpc; + if (this.opts.realpath) { + rpc = e.realpathCached() || e.realpathSync(); + if (!rpc) + return undefined; + e = rpc; + } + const needStat = e.isUnknown() || this.opts.stat; + const s = needStat ? e.lstatSync() : e; + if (this.opts.follow && this.opts.nodir && s?.isSymbolicLink()) { + const target = s.realpathSync(); + if (target && (target?.isUnknown() || this.opts.stat)) { + target.lstatSync(); + } + } + return this.matchCheckTest(s, ifDir); + } + matchFinish(e, absolute) { + if (this.#ignored(e)) + return; + // we know we have an ignore if this is false, but TS doesn't + if (!this.includeChildMatches && this.#ignore?.add) { + const ign = `${e.relativePosix()}/**`; + this.#ignore.add(ign); + } + const abs = this.opts.absolute === undefined ? absolute : this.opts.absolute; + this.seen.add(e); + const mark = this.opts.mark && e.isDirectory() ? this.#sep : ''; + // ok, we have what we need! + if (this.opts.withFileTypes) { + this.matchEmit(e); + } + else if (abs) { + const abs = this.opts.posix ? e.fullpathPosix() : e.fullpath(); + this.matchEmit(abs + mark); + } + else { + const rel = this.opts.posix ? e.relativePosix() : e.relative(); + const pre = this.opts.dotRelative && !rel.startsWith('..' + this.#sep) ? + '.' + this.#sep + : ''; + this.matchEmit(!rel ? '.' + mark : pre + rel + mark); + } + } + async match(e, absolute, ifDir) { + const p = await this.matchCheck(e, ifDir); + if (p) + this.matchFinish(p, absolute); + } + matchSync(e, absolute, ifDir) { + const p = this.matchCheckSync(e, ifDir); + if (p) + this.matchFinish(p, absolute); + } + walkCB(target, patterns, cb) { + /* c8 ignore start */ + if (this.signal?.aborted) + cb(); + /* c8 ignore stop */ + this.walkCB2(target, patterns, new processor_js_1.Processor(this.opts), cb); + } + walkCB2(target, patterns, processor, cb) { + if (this.#childrenIgnored(target)) + return cb(); + if (this.signal?.aborted) + cb(); + if (this.paused) { + this.onResume(() => this.walkCB2(target, patterns, processor, cb)); + return; + } + processor.processPatterns(target, patterns); + // done processing. all of the above is sync, can be abstracted out. + // subwalks is a map of paths to the entry filters they need + // matches is a map of paths to [absolute, ifDir] tuples. + let tasks = 1; + const next = () => { + if (--tasks === 0) + cb(); + }; + for (const [m, absolute, ifDir] of processor.matches.entries()) { + if (this.#ignored(m)) + continue; + tasks++; + this.match(m, absolute, ifDir).then(() => next()); + } + for (const t of processor.subwalkTargets()) { + if (this.maxDepth !== Infinity && t.depth() >= this.maxDepth) { + continue; + } + tasks++; + const childrenCached = t.readdirCached(); + if (t.calledReaddir()) + this.walkCB3(t, childrenCached, processor, next); + else { + t.readdirCB((_, entries) => this.walkCB3(t, entries, processor, next), true); + } + } + next(); + } + walkCB3(target, entries, processor, cb) { + processor = processor.filterEntries(target, entries); + let tasks = 1; + const next = () => { + if (--tasks === 0) + cb(); + }; + for (const [m, absolute, ifDir] of processor.matches.entries()) { + if (this.#ignored(m)) + continue; + tasks++; + this.match(m, absolute, ifDir).then(() => next()); + } + for (const [target, patterns] of processor.subwalks.entries()) { + tasks++; + this.walkCB2(target, patterns, processor.child(), next); + } + next(); + } + walkCBSync(target, patterns, cb) { + /* c8 ignore start */ + if (this.signal?.aborted) + cb(); + /* c8 ignore stop */ + this.walkCB2Sync(target, patterns, new processor_js_1.Processor(this.opts), cb); + } + walkCB2Sync(target, patterns, processor, cb) { + if (this.#childrenIgnored(target)) + return cb(); + if (this.signal?.aborted) + cb(); + if (this.paused) { + this.onResume(() => this.walkCB2Sync(target, patterns, processor, cb)); + return; + } + processor.processPatterns(target, patterns); + // done processing. all of the above is sync, can be abstracted out. + // subwalks is a map of paths to the entry filters they need + // matches is a map of paths to [absolute, ifDir] tuples. + let tasks = 1; + const next = () => { + if (--tasks === 0) + cb(); + }; + for (const [m, absolute, ifDir] of processor.matches.entries()) { + if (this.#ignored(m)) + continue; + this.matchSync(m, absolute, ifDir); + } + for (const t of processor.subwalkTargets()) { + if (this.maxDepth !== Infinity && t.depth() >= this.maxDepth) { + continue; + } + tasks++; + const children = t.readdirSync(); + this.walkCB3Sync(t, children, processor, next); + } + next(); + } + walkCB3Sync(target, entries, processor, cb) { + processor = processor.filterEntries(target, entries); + let tasks = 1; + const next = () => { + if (--tasks === 0) + cb(); + }; + for (const [m, absolute, ifDir] of processor.matches.entries()) { + if (this.#ignored(m)) + continue; + this.matchSync(m, absolute, ifDir); + } + for (const [target, patterns] of processor.subwalks.entries()) { + tasks++; + this.walkCB2Sync(target, patterns, processor.child(), next); + } + next(); + } +} +exports.GlobUtil = GlobUtil; +class GlobWalker extends GlobUtil { + matches = new Set(); + constructor(patterns, path, opts) { + super(patterns, path, opts); + } + matchEmit(e) { + this.matches.add(e); + } + async walk() { + if (this.signal?.aborted) + throw this.signal.reason; + if (this.path.isUnknown()) { + await this.path.lstat(); + } + await new Promise((res, rej) => { + this.walkCB(this.path, this.patterns, () => { + if (this.signal?.aborted) { + rej(this.signal.reason); + } + else { + res(this.matches); + } + }); + }); + return this.matches; + } + walkSync() { + if (this.signal?.aborted) + throw this.signal.reason; + if (this.path.isUnknown()) { + this.path.lstatSync(); + } + // nothing for the callback to do, because this never pauses + this.walkCBSync(this.path, this.patterns, () => { + if (this.signal?.aborted) + throw this.signal.reason; + }); + return this.matches; + } +} +exports.GlobWalker = GlobWalker; +class GlobStream extends GlobUtil { + results; + constructor(patterns, path, opts) { + super(patterns, path, opts); + this.results = new minipass_1.Minipass({ + signal: this.signal, + objectMode: true, + }); + this.results.on('drain', () => this.resume()); + this.results.on('resume', () => this.resume()); + } + matchEmit(e) { + this.results.write(e); + if (!this.results.flowing) + this.pause(); + } + stream() { + const target = this.path; + if (target.isUnknown()) { + target.lstat().then(() => { + this.walkCB(target, this.patterns, () => this.results.end()); + }); + } + else { + this.walkCB(target, this.patterns, () => this.results.end()); + } + return this.results; + } + streamSync() { + if (this.path.isUnknown()) { + this.path.lstatSync(); + } + this.walkCBSync(this.path, this.patterns, () => this.results.end()); + return this.results; + } +} +exports.GlobStream = GlobStream; +//# sourceMappingURL=walker.js.map + +/***/ }), + +/***/ 78931: +/***/ ((__unused_webpack_module, exports) => { + +"use strict"; + +/** + * @module LRUCache + */ +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.LRUCache = void 0; +const perf = typeof performance === 'object' && + performance && + typeof performance.now === 'function' + ? performance + : Date; +const warned = new Set(); +/* c8 ignore start */ +const PROCESS = (typeof process === 'object' && !!process ? process : {}); +/* c8 ignore start */ +const emitWarning = (msg, type, code, fn) => { + typeof PROCESS.emitWarning === 'function' + ? PROCESS.emitWarning(msg, type, code, fn) + : console.error(`[${code}] ${type}: ${msg}`); +}; +let AC = globalThis.AbortController; +let AS = globalThis.AbortSignal; +/* c8 ignore start */ +if (typeof AC === 'undefined') { + //@ts-ignore + AS = class AbortSignal { + onabort; + _onabort = []; + reason; + aborted = false; + addEventListener(_, fn) { + this._onabort.push(fn); + } + }; + //@ts-ignore + AC = class AbortController { + constructor() { + warnACPolyfill(); + } + signal = new AS(); + abort(reason) { + if (this.signal.aborted) + return; + //@ts-ignore + this.signal.reason = reason; + //@ts-ignore + this.signal.aborted = true; + //@ts-ignore + for (const fn of this.signal._onabort) { + fn(reason); + } + this.signal.onabort?.(reason); + } + }; + let printACPolyfillWarning = PROCESS.env?.LRU_CACHE_IGNORE_AC_WARNING !== '1'; + const warnACPolyfill = () => { + if (!printACPolyfillWarning) + return; + printACPolyfillWarning = false; + emitWarning('AbortController is not defined. If using lru-cache in ' + + 'node 14, load an AbortController polyfill from the ' + + '`node-abort-controller` package. A minimal polyfill is ' + + 'provided for use by LRUCache.fetch(), but it should not be ' + + 'relied upon in other contexts (eg, passing it to other APIs that ' + + 'use AbortController/AbortSignal might have undesirable effects). ' + + 'You may disable this with LRU_CACHE_IGNORE_AC_WARNING=1 in the env.', 'NO_ABORT_CONTROLLER', 'ENOTSUP', warnACPolyfill); + }; +} +/* c8 ignore stop */ +const shouldWarn = (code) => !warned.has(code); +const TYPE = Symbol('type'); +const isPosInt = (n) => n && n === Math.floor(n) && n > 0 && isFinite(n); +/* c8 ignore start */ +// This is a little bit ridiculous, tbh. +// The maximum array length is 2^32-1 or thereabouts on most JS impls. +// And well before that point, you're caching the entire world, I mean, +// that's ~32GB of just integers for the next/prev links, plus whatever +// else to hold that many keys and values. Just filling the memory with +// zeroes at init time is brutal when you get that big. +// But why not be complete? +// Maybe in the future, these limits will have expanded. +const getUintArray = (max) => !isPosInt(max) + ? null + : max <= Math.pow(2, 8) + ? Uint8Array + : max <= Math.pow(2, 16) + ? Uint16Array + : max <= Math.pow(2, 32) + ? Uint32Array + : max <= Number.MAX_SAFE_INTEGER + ? ZeroArray + : null; +/* c8 ignore stop */ +class ZeroArray extends Array { + constructor(size) { + super(size); + this.fill(0); + } +} +class Stack { + heap; + length; + // private constructor + static #constructing = false; + static create(max) { + const HeapCls = getUintArray(max); + if (!HeapCls) + return []; + Stack.#constructing = true; + const s = new Stack(max, HeapCls); + Stack.#constructing = false; + return s; + } + constructor(max, HeapCls) { + /* c8 ignore start */ + if (!Stack.#constructing) { + throw new TypeError('instantiate Stack using Stack.create(n)'); + } + /* c8 ignore stop */ + this.heap = new HeapCls(max); + this.length = 0; + } + push(n) { + this.heap[this.length++] = n; + } + pop() { + return this.heap[--this.length]; + } +} +/** + * Default export, the thing you're using this module to get. + * + * The `K` and `V` types define the key and value types, respectively. The + * optional `FC` type defines the type of the `context` object passed to + * `cache.fetch()` and `cache.memo()`. + * + * Keys and values **must not** be `null` or `undefined`. + * + * All properties from the options object (with the exception of `max`, + * `maxSize`, `fetchMethod`, `memoMethod`, `dispose` and `disposeAfter`) are + * added as normal public members. (The listed options are read-only getters.) + * + * Changing any of these will alter the defaults for subsequent method calls. + */ +class LRUCache { + // options that cannot be changed without disaster + #max; + #maxSize; + #dispose; + #onInsert; + #disposeAfter; + #fetchMethod; + #memoMethod; + /** + * {@link LRUCache.OptionsBase.ttl} + */ + ttl; + /** + * {@link LRUCache.OptionsBase.ttlResolution} + */ + ttlResolution; + /** + * {@link LRUCache.OptionsBase.ttlAutopurge} + */ + ttlAutopurge; + /** + * {@link LRUCache.OptionsBase.updateAgeOnGet} + */ + updateAgeOnGet; + /** + * {@link LRUCache.OptionsBase.updateAgeOnHas} + */ + updateAgeOnHas; + /** + * {@link LRUCache.OptionsBase.allowStale} + */ + allowStale; + /** + * {@link LRUCache.OptionsBase.noDisposeOnSet} + */ + noDisposeOnSet; + /** + * {@link LRUCache.OptionsBase.noUpdateTTL} + */ + noUpdateTTL; + /** + * {@link LRUCache.OptionsBase.maxEntrySize} + */ + maxEntrySize; + /** + * {@link LRUCache.OptionsBase.sizeCalculation} + */ + sizeCalculation; + /** + * {@link LRUCache.OptionsBase.noDeleteOnFetchRejection} + */ + noDeleteOnFetchRejection; + /** + * {@link LRUCache.OptionsBase.noDeleteOnStaleGet} + */ + noDeleteOnStaleGet; + /** + * {@link LRUCache.OptionsBase.allowStaleOnFetchAbort} + */ + allowStaleOnFetchAbort; + /** + * {@link LRUCache.OptionsBase.allowStaleOnFetchRejection} + */ + allowStaleOnFetchRejection; + /** + * {@link LRUCache.OptionsBase.ignoreFetchAbort} + */ + ignoreFetchAbort; + // computed properties + #size; + #calculatedSize; + #keyMap; + #keyList; + #valList; + #next; + #prev; + #head; + #tail; + #free; + #disposed; + #sizes; + #starts; + #ttls; + #hasDispose; + #hasFetchMethod; + #hasDisposeAfter; + #hasOnInsert; + /** + * Do not call this method unless you need to inspect the + * inner workings of the cache. If anything returned by this + * object is modified in any way, strange breakage may occur. + * + * These fields are private for a reason! + * + * @internal + */ + static unsafeExposeInternals(c) { + return { + // properties + starts: c.#starts, + ttls: c.#ttls, + sizes: c.#sizes, + keyMap: c.#keyMap, + keyList: c.#keyList, + valList: c.#valList, + next: c.#next, + prev: c.#prev, + get head() { + return c.#head; + }, + get tail() { + return c.#tail; + }, + free: c.#free, + // methods + isBackgroundFetch: (p) => c.#isBackgroundFetch(p), + backgroundFetch: (k, index, options, context) => c.#backgroundFetch(k, index, options, context), + moveToTail: (index) => c.#moveToTail(index), + indexes: (options) => c.#indexes(options), + rindexes: (options) => c.#rindexes(options), + isStale: (index) => c.#isStale(index), + }; + } + // Protected read-only members + /** + * {@link LRUCache.OptionsBase.max} (read-only) + */ + get max() { + return this.#max; + } + /** + * {@link LRUCache.OptionsBase.maxSize} (read-only) + */ + get maxSize() { + return this.#maxSize; + } + /** + * The total computed size of items in the cache (read-only) + */ + get calculatedSize() { + return this.#calculatedSize; + } + /** + * The number of items stored in the cache (read-only) + */ + get size() { + return this.#size; + } + /** + * {@link LRUCache.OptionsBase.fetchMethod} (read-only) + */ + get fetchMethod() { + return this.#fetchMethod; + } + get memoMethod() { + return this.#memoMethod; + } + /** + * {@link LRUCache.OptionsBase.dispose} (read-only) + */ + get dispose() { + return this.#dispose; + } + /** + * {@link LRUCache.OptionsBase.onInsert} (read-only) + */ + get onInsert() { + return this.#onInsert; + } + /** + * {@link LRUCache.OptionsBase.disposeAfter} (read-only) + */ + get disposeAfter() { + return this.#disposeAfter; + } + constructor(options) { + const { max = 0, ttl, ttlResolution = 1, ttlAutopurge, updateAgeOnGet, updateAgeOnHas, allowStale, dispose, onInsert, disposeAfter, noDisposeOnSet, noUpdateTTL, maxSize = 0, maxEntrySize = 0, sizeCalculation, fetchMethod, memoMethod, noDeleteOnFetchRejection, noDeleteOnStaleGet, allowStaleOnFetchRejection, allowStaleOnFetchAbort, ignoreFetchAbort, } = options; + if (max !== 0 && !isPosInt(max)) { + throw new TypeError('max option must be a nonnegative integer'); + } + const UintArray = max ? getUintArray(max) : Array; + if (!UintArray) { + throw new Error('invalid max value: ' + max); + } + this.#max = max; + this.#maxSize = maxSize; + this.maxEntrySize = maxEntrySize || this.#maxSize; + this.sizeCalculation = sizeCalculation; + if (this.sizeCalculation) { + if (!this.#maxSize && !this.maxEntrySize) { + throw new TypeError('cannot set sizeCalculation without setting maxSize or maxEntrySize'); + } + if (typeof this.sizeCalculation !== 'function') { + throw new TypeError('sizeCalculation set to non-function'); + } + } + if (memoMethod !== undefined && + typeof memoMethod !== 'function') { + throw new TypeError('memoMethod must be a function if defined'); + } + this.#memoMethod = memoMethod; + if (fetchMethod !== undefined && + typeof fetchMethod !== 'function') { + throw new TypeError('fetchMethod must be a function if specified'); + } + this.#fetchMethod = fetchMethod; + this.#hasFetchMethod = !!fetchMethod; + this.#keyMap = new Map(); + this.#keyList = new Array(max).fill(undefined); + this.#valList = new Array(max).fill(undefined); + this.#next = new UintArray(max); + this.#prev = new UintArray(max); + this.#head = 0; + this.#tail = 0; + this.#free = Stack.create(max); + this.#size = 0; + this.#calculatedSize = 0; + if (typeof dispose === 'function') { + this.#dispose = dispose; + } + if (typeof onInsert === 'function') { + this.#onInsert = onInsert; + } + if (typeof disposeAfter === 'function') { + this.#disposeAfter = disposeAfter; + this.#disposed = []; + } + else { + this.#disposeAfter = undefined; + this.#disposed = undefined; + } + this.#hasDispose = !!this.#dispose; + this.#hasOnInsert = !!this.#onInsert; + this.#hasDisposeAfter = !!this.#disposeAfter; + this.noDisposeOnSet = !!noDisposeOnSet; + this.noUpdateTTL = !!noUpdateTTL; + this.noDeleteOnFetchRejection = !!noDeleteOnFetchRejection; + this.allowStaleOnFetchRejection = !!allowStaleOnFetchRejection; + this.allowStaleOnFetchAbort = !!allowStaleOnFetchAbort; + this.ignoreFetchAbort = !!ignoreFetchAbort; + // NB: maxEntrySize is set to maxSize if it's set + if (this.maxEntrySize !== 0) { + if (this.#maxSize !== 0) { + if (!isPosInt(this.#maxSize)) { + throw new TypeError('maxSize must be a positive integer if specified'); + } + } + if (!isPosInt(this.maxEntrySize)) { + throw new TypeError('maxEntrySize must be a positive integer if specified'); + } + this.#initializeSizeTracking(); + } + this.allowStale = !!allowStale; + this.noDeleteOnStaleGet = !!noDeleteOnStaleGet; + this.updateAgeOnGet = !!updateAgeOnGet; + this.updateAgeOnHas = !!updateAgeOnHas; + this.ttlResolution = + isPosInt(ttlResolution) || ttlResolution === 0 + ? ttlResolution + : 1; + this.ttlAutopurge = !!ttlAutopurge; + this.ttl = ttl || 0; + if (this.ttl) { + if (!isPosInt(this.ttl)) { + throw new TypeError('ttl must be a positive integer if specified'); + } + this.#initializeTTLTracking(); + } + // do not allow completely unbounded caches + if (this.#max === 0 && this.ttl === 0 && this.#maxSize === 0) { + throw new TypeError('At least one of max, maxSize, or ttl is required'); + } + if (!this.ttlAutopurge && !this.#max && !this.#maxSize) { + const code = 'LRU_CACHE_UNBOUNDED'; + if (shouldWarn(code)) { + warned.add(code); + const msg = 'TTL caching without ttlAutopurge, max, or maxSize can ' + + 'result in unbounded memory consumption.'; + emitWarning(msg, 'UnboundedCacheWarning', code, LRUCache); + } + } + } + /** + * Return the number of ms left in the item's TTL. If item is not in cache, + * returns `0`. Returns `Infinity` if item is in cache without a defined TTL. + */ + getRemainingTTL(key) { + return this.#keyMap.has(key) ? Infinity : 0; + } + #initializeTTLTracking() { + const ttls = new ZeroArray(this.#max); + const starts = new ZeroArray(this.#max); + this.#ttls = ttls; + this.#starts = starts; + this.#setItemTTL = (index, ttl, start = perf.now()) => { + starts[index] = ttl !== 0 ? start : 0; + ttls[index] = ttl; + if (ttl !== 0 && this.ttlAutopurge) { + const t = setTimeout(() => { + if (this.#isStale(index)) { + this.#delete(this.#keyList[index], 'expire'); + } + }, ttl + 1); + // unref() not supported on all platforms + /* c8 ignore start */ + if (t.unref) { + t.unref(); + } + /* c8 ignore stop */ + } + }; + this.#updateItemAge = index => { + starts[index] = ttls[index] !== 0 ? perf.now() : 0; + }; + this.#statusTTL = (status, index) => { + if (ttls[index]) { + const ttl = ttls[index]; + const start = starts[index]; + /* c8 ignore next */ + if (!ttl || !start) + return; + status.ttl = ttl; + status.start = start; + status.now = cachedNow || getNow(); + const age = status.now - start; + status.remainingTTL = ttl - age; + } + }; + // debounce calls to perf.now() to 1s so we're not hitting + // that costly call repeatedly. + let cachedNow = 0; + const getNow = () => { + const n = perf.now(); + if (this.ttlResolution > 0) { + cachedNow = n; + const t = setTimeout(() => (cachedNow = 0), this.ttlResolution); + // not available on all platforms + /* c8 ignore start */ + if (t.unref) { + t.unref(); + } + /* c8 ignore stop */ + } + return n; + }; + this.getRemainingTTL = key => { + const index = this.#keyMap.get(key); + if (index === undefined) { + return 0; + } + const ttl = ttls[index]; + const start = starts[index]; + if (!ttl || !start) { + return Infinity; + } + const age = (cachedNow || getNow()) - start; + return ttl - age; + }; + this.#isStale = index => { + const s = starts[index]; + const t = ttls[index]; + return !!t && !!s && (cachedNow || getNow()) - s > t; + }; + } + // conditionally set private methods related to TTL + #updateItemAge = () => { }; + #statusTTL = () => { }; + #setItemTTL = () => { }; + /* c8 ignore stop */ + #isStale = () => false; + #initializeSizeTracking() { + const sizes = new ZeroArray(this.#max); + this.#calculatedSize = 0; + this.#sizes = sizes; + this.#removeItemSize = index => { + this.#calculatedSize -= sizes[index]; + sizes[index] = 0; + }; + this.#requireSize = (k, v, size, sizeCalculation) => { + // provisionally accept background fetches. + // actual value size will be checked when they return. + if (this.#isBackgroundFetch(v)) { + return 0; + } + if (!isPosInt(size)) { + if (sizeCalculation) { + if (typeof sizeCalculation !== 'function') { + throw new TypeError('sizeCalculation must be a function'); + } + size = sizeCalculation(v, k); + if (!isPosInt(size)) { + throw new TypeError('sizeCalculation return invalid (expect positive integer)'); + } + } + else { + throw new TypeError('invalid size value (must be positive integer). ' + + 'When maxSize or maxEntrySize is used, sizeCalculation ' + + 'or size must be set.'); + } + } + return size; + }; + this.#addItemSize = (index, size, status) => { + sizes[index] = size; + if (this.#maxSize) { + const maxSize = this.#maxSize - sizes[index]; + while (this.#calculatedSize > maxSize) { + this.#evict(true); + } + } + this.#calculatedSize += sizes[index]; + if (status) { + status.entrySize = size; + status.totalCalculatedSize = this.#calculatedSize; + } + }; + } + #removeItemSize = _i => { }; + #addItemSize = (_i, _s, _st) => { }; + #requireSize = (_k, _v, size, sizeCalculation) => { + if (size || sizeCalculation) { + throw new TypeError('cannot set size without setting maxSize or maxEntrySize on cache'); + } + return 0; + }; + *#indexes({ allowStale = this.allowStale } = {}) { + if (this.#size) { + for (let i = this.#tail; true;) { + if (!this.#isValidIndex(i)) { + break; + } + if (allowStale || !this.#isStale(i)) { + yield i; + } + if (i === this.#head) { + break; + } + else { + i = this.#prev[i]; + } + } + } + } + *#rindexes({ allowStale = this.allowStale } = {}) { + if (this.#size) { + for (let i = this.#head; true;) { + if (!this.#isValidIndex(i)) { + break; + } + if (allowStale || !this.#isStale(i)) { + yield i; + } + if (i === this.#tail) { + break; + } + else { + i = this.#next[i]; + } + } + } + } + #isValidIndex(index) { + return (index !== undefined && + this.#keyMap.get(this.#keyList[index]) === index); + } + /** + * Return a generator yielding `[key, value]` pairs, + * in order from most recently used to least recently used. + */ + *entries() { + for (const i of this.#indexes()) { + if (this.#valList[i] !== undefined && + this.#keyList[i] !== undefined && + !this.#isBackgroundFetch(this.#valList[i])) { + yield [this.#keyList[i], this.#valList[i]]; + } + } + } + /** + * Inverse order version of {@link LRUCache.entries} + * + * Return a generator yielding `[key, value]` pairs, + * in order from least recently used to most recently used. + */ + *rentries() { + for (const i of this.#rindexes()) { + if (this.#valList[i] !== undefined && + this.#keyList[i] !== undefined && + !this.#isBackgroundFetch(this.#valList[i])) { + yield [this.#keyList[i], this.#valList[i]]; + } + } + } + /** + * Return a generator yielding the keys in the cache, + * in order from most recently used to least recently used. + */ + *keys() { + for (const i of this.#indexes()) { + const k = this.#keyList[i]; + if (k !== undefined && + !this.#isBackgroundFetch(this.#valList[i])) { + yield k; + } + } + } + /** + * Inverse order version of {@link LRUCache.keys} + * + * Return a generator yielding the keys in the cache, + * in order from least recently used to most recently used. + */ + *rkeys() { + for (const i of this.#rindexes()) { + const k = this.#keyList[i]; + if (k !== undefined && + !this.#isBackgroundFetch(this.#valList[i])) { + yield k; + } + } + } + /** + * Return a generator yielding the values in the cache, + * in order from most recently used to least recently used. + */ + *values() { + for (const i of this.#indexes()) { + const v = this.#valList[i]; + if (v !== undefined && + !this.#isBackgroundFetch(this.#valList[i])) { + yield this.#valList[i]; + } + } + } + /** + * Inverse order version of {@link LRUCache.values} + * + * Return a generator yielding the values in the cache, + * in order from least recently used to most recently used. + */ + *rvalues() { + for (const i of this.#rindexes()) { + const v = this.#valList[i]; + if (v !== undefined && + !this.#isBackgroundFetch(this.#valList[i])) { + yield this.#valList[i]; + } + } + } + /** + * Iterating over the cache itself yields the same results as + * {@link LRUCache.entries} + */ + [Symbol.iterator]() { + return this.entries(); + } + /** + * A String value that is used in the creation of the default string + * description of an object. Called by the built-in method + * `Object.prototype.toString`. + */ + [Symbol.toStringTag] = 'LRUCache'; + /** + * Find a value for which the supplied fn method returns a truthy value, + * similar to `Array.find()`. fn is called as `fn(value, key, cache)`. + */ + find(fn, getOptions = {}) { + for (const i of this.#indexes()) { + const v = this.#valList[i]; + const value = this.#isBackgroundFetch(v) + ? v.__staleWhileFetching + : v; + if (value === undefined) + continue; + if (fn(value, this.#keyList[i], this)) { + return this.get(this.#keyList[i], getOptions); + } + } + } + /** + * Call the supplied function on each item in the cache, in order from most + * recently used to least recently used. + * + * `fn` is called as `fn(value, key, cache)`. + * + * If `thisp` is provided, function will be called in the `this`-context of + * the provided object, or the cache if no `thisp` object is provided. + * + * Does not update age or recenty of use, or iterate over stale values. + */ + forEach(fn, thisp = this) { + for (const i of this.#indexes()) { + const v = this.#valList[i]; + const value = this.#isBackgroundFetch(v) + ? v.__staleWhileFetching + : v; + if (value === undefined) + continue; + fn.call(thisp, value, this.#keyList[i], this); + } + } + /** + * The same as {@link LRUCache.forEach} but items are iterated over in + * reverse order. (ie, less recently used items are iterated over first.) + */ + rforEach(fn, thisp = this) { + for (const i of this.#rindexes()) { + const v = this.#valList[i]; + const value = this.#isBackgroundFetch(v) + ? v.__staleWhileFetching + : v; + if (value === undefined) + continue; + fn.call(thisp, value, this.#keyList[i], this); + } + } + /** + * Delete any stale entries. Returns true if anything was removed, + * false otherwise. + */ + purgeStale() { + let deleted = false; + for (const i of this.#rindexes({ allowStale: true })) { + if (this.#isStale(i)) { + this.#delete(this.#keyList[i], 'expire'); + deleted = true; + } + } + return deleted; + } + /** + * Get the extended info about a given entry, to get its value, size, and + * TTL info simultaneously. Returns `undefined` if the key is not present. + * + * Unlike {@link LRUCache#dump}, which is designed to be portable and survive + * serialization, the `start` value is always the current timestamp, and the + * `ttl` is a calculated remaining time to live (negative if expired). + * + * Always returns stale values, if their info is found in the cache, so be + * sure to check for expirations (ie, a negative {@link LRUCache.Entry#ttl}) + * if relevant. + */ + info(key) { + const i = this.#keyMap.get(key); + if (i === undefined) + return undefined; + const v = this.#valList[i]; + const value = this.#isBackgroundFetch(v) + ? v.__staleWhileFetching + : v; + if (value === undefined) + return undefined; + const entry = { value }; + if (this.#ttls && this.#starts) { + const ttl = this.#ttls[i]; + const start = this.#starts[i]; + if (ttl && start) { + const remain = ttl - (perf.now() - start); + entry.ttl = remain; + entry.start = Date.now(); + } + } + if (this.#sizes) { + entry.size = this.#sizes[i]; + } + return entry; + } + /** + * Return an array of [key, {@link LRUCache.Entry}] tuples which can be + * passed to {@link LRUCache#load}. + * + * The `start` fields are calculated relative to a portable `Date.now()` + * timestamp, even if `performance.now()` is available. + * + * Stale entries are always included in the `dump`, even if + * {@link LRUCache.OptionsBase.allowStale} is false. + * + * Note: this returns an actual array, not a generator, so it can be more + * easily passed around. + */ + dump() { + const arr = []; + for (const i of this.#indexes({ allowStale: true })) { + const key = this.#keyList[i]; + const v = this.#valList[i]; + const value = this.#isBackgroundFetch(v) + ? v.__staleWhileFetching + : v; + if (value === undefined || key === undefined) + continue; + const entry = { value }; + if (this.#ttls && this.#starts) { + entry.ttl = this.#ttls[i]; + // always dump the start relative to a portable timestamp + // it's ok for this to be a bit slow, it's a rare operation. + const age = perf.now() - this.#starts[i]; + entry.start = Math.floor(Date.now() - age); + } + if (this.#sizes) { + entry.size = this.#sizes[i]; + } + arr.unshift([key, entry]); + } + return arr; + } + /** + * Reset the cache and load in the items in entries in the order listed. + * + * The shape of the resulting cache may be different if the same options are + * not used in both caches. + * + * The `start` fields are assumed to be calculated relative to a portable + * `Date.now()` timestamp, even if `performance.now()` is available. + */ + load(arr) { + this.clear(); + for (const [key, entry] of arr) { + if (entry.start) { + // entry.start is a portable timestamp, but we may be using + // node's performance.now(), so calculate the offset, so that + // we get the intended remaining TTL, no matter how long it's + // been on ice. + // + // it's ok for this to be a bit slow, it's a rare operation. + const age = Date.now() - entry.start; + entry.start = perf.now() - age; + } + this.set(key, entry.value, entry); + } + } + /** + * Add a value to the cache. + * + * Note: if `undefined` is specified as a value, this is an alias for + * {@link LRUCache#delete} + * + * Fields on the {@link LRUCache.SetOptions} options param will override + * their corresponding values in the constructor options for the scope + * of this single `set()` operation. + * + * If `start` is provided, then that will set the effective start + * time for the TTL calculation. Note that this must be a previous + * value of `performance.now()` if supported, or a previous value of + * `Date.now()` if not. + * + * Options object may also include `size`, which will prevent + * calling the `sizeCalculation` function and just use the specified + * number if it is a positive integer, and `noDisposeOnSet` which + * will prevent calling a `dispose` function in the case of + * overwrites. + * + * If the `size` (or return value of `sizeCalculation`) for a given + * entry is greater than `maxEntrySize`, then the item will not be + * added to the cache. + * + * Will update the recency of the entry. + * + * If the value is `undefined`, then this is an alias for + * `cache.delete(key)`. `undefined` is never stored in the cache. + */ + set(k, v, setOptions = {}) { + if (v === undefined) { + this.delete(k); + return this; + } + const { ttl = this.ttl, start, noDisposeOnSet = this.noDisposeOnSet, sizeCalculation = this.sizeCalculation, status, } = setOptions; + let { noUpdateTTL = this.noUpdateTTL } = setOptions; + const size = this.#requireSize(k, v, setOptions.size || 0, sizeCalculation); + // if the item doesn't fit, don't do anything + // NB: maxEntrySize set to maxSize by default + if (this.maxEntrySize && size > this.maxEntrySize) { + if (status) { + status.set = 'miss'; + status.maxEntrySizeExceeded = true; + } + // have to delete, in case something is there already. + this.#delete(k, 'set'); + return this; + } + let index = this.#size === 0 ? undefined : this.#keyMap.get(k); + if (index === undefined) { + // addition + index = (this.#size === 0 + ? this.#tail + : this.#free.length !== 0 + ? this.#free.pop() + : this.#size === this.#max + ? this.#evict(false) + : this.#size); + this.#keyList[index] = k; + this.#valList[index] = v; + this.#keyMap.set(k, index); + this.#next[this.#tail] = index; + this.#prev[index] = this.#tail; + this.#tail = index; + this.#size++; + this.#addItemSize(index, size, status); + if (status) + status.set = 'add'; + noUpdateTTL = false; + if (this.#hasOnInsert) { + this.#onInsert?.(v, k, 'add'); + } + } + else { + // update + this.#moveToTail(index); + const oldVal = this.#valList[index]; + if (v !== oldVal) { + if (this.#hasFetchMethod && this.#isBackgroundFetch(oldVal)) { + oldVal.__abortController.abort(new Error('replaced')); + const { __staleWhileFetching: s } = oldVal; + if (s !== undefined && !noDisposeOnSet) { + if (this.#hasDispose) { + this.#dispose?.(s, k, 'set'); + } + if (this.#hasDisposeAfter) { + this.#disposed?.push([s, k, 'set']); + } + } + } + else if (!noDisposeOnSet) { + if (this.#hasDispose) { + this.#dispose?.(oldVal, k, 'set'); + } + if (this.#hasDisposeAfter) { + this.#disposed?.push([oldVal, k, 'set']); + } + } + this.#removeItemSize(index); + this.#addItemSize(index, size, status); + this.#valList[index] = v; + if (status) { + status.set = 'replace'; + const oldValue = oldVal && this.#isBackgroundFetch(oldVal) + ? oldVal.__staleWhileFetching + : oldVal; + if (oldValue !== undefined) + status.oldValue = oldValue; + } + } + else if (status) { + status.set = 'update'; + } + if (this.#hasOnInsert) { + this.onInsert?.(v, k, v === oldVal ? 'update' : 'replace'); + } + } + if (ttl !== 0 && !this.#ttls) { + this.#initializeTTLTracking(); + } + if (this.#ttls) { + if (!noUpdateTTL) { + this.#setItemTTL(index, ttl, start); + } + if (status) + this.#statusTTL(status, index); + } + if (!noDisposeOnSet && this.#hasDisposeAfter && this.#disposed) { + const dt = this.#disposed; + let task; + while ((task = dt?.shift())) { + this.#disposeAfter?.(...task); + } + } + return this; + } + /** + * Evict the least recently used item, returning its value or + * `undefined` if cache is empty. + */ + pop() { + try { + while (this.#size) { + const val = this.#valList[this.#head]; + this.#evict(true); + if (this.#isBackgroundFetch(val)) { + if (val.__staleWhileFetching) { + return val.__staleWhileFetching; + } + } + else if (val !== undefined) { + return val; + } + } + } + finally { + if (this.#hasDisposeAfter && this.#disposed) { + const dt = this.#disposed; + let task; + while ((task = dt?.shift())) { + this.#disposeAfter?.(...task); + } + } + } + } + #evict(free) { + const head = this.#head; + const k = this.#keyList[head]; + const v = this.#valList[head]; + if (this.#hasFetchMethod && this.#isBackgroundFetch(v)) { + v.__abortController.abort(new Error('evicted')); + } + else if (this.#hasDispose || this.#hasDisposeAfter) { + if (this.#hasDispose) { + this.#dispose?.(v, k, 'evict'); + } + if (this.#hasDisposeAfter) { + this.#disposed?.push([v, k, 'evict']); + } + } + this.#removeItemSize(head); + // if we aren't about to use the index, then null these out + if (free) { + this.#keyList[head] = undefined; + this.#valList[head] = undefined; + this.#free.push(head); + } + if (this.#size === 1) { + this.#head = this.#tail = 0; + this.#free.length = 0; + } + else { + this.#head = this.#next[head]; + } + this.#keyMap.delete(k); + this.#size--; + return head; + } + /** + * Check if a key is in the cache, without updating the recency of use. + * Will return false if the item is stale, even though it is technically + * in the cache. + * + * Check if a key is in the cache, without updating the recency of + * use. Age is updated if {@link LRUCache.OptionsBase.updateAgeOnHas} is set + * to `true` in either the options or the constructor. + * + * Will return `false` if the item is stale, even though it is technically in + * the cache. The difference can be determined (if it matters) by using a + * `status` argument, and inspecting the `has` field. + * + * Will not update item age unless + * {@link LRUCache.OptionsBase.updateAgeOnHas} is set. + */ + has(k, hasOptions = {}) { + const { updateAgeOnHas = this.updateAgeOnHas, status } = hasOptions; + const index = this.#keyMap.get(k); + if (index !== undefined) { + const v = this.#valList[index]; + if (this.#isBackgroundFetch(v) && + v.__staleWhileFetching === undefined) { + return false; + } + if (!this.#isStale(index)) { + if (updateAgeOnHas) { + this.#updateItemAge(index); + } + if (status) { + status.has = 'hit'; + this.#statusTTL(status, index); + } + return true; + } + else if (status) { + status.has = 'stale'; + this.#statusTTL(status, index); + } + } + else if (status) { + status.has = 'miss'; + } + return false; + } + /** + * Like {@link LRUCache#get} but doesn't update recency or delete stale + * items. + * + * Returns `undefined` if the item is stale, unless + * {@link LRUCache.OptionsBase.allowStale} is set. + */ + peek(k, peekOptions = {}) { + const { allowStale = this.allowStale } = peekOptions; + const index = this.#keyMap.get(k); + if (index === undefined || + (!allowStale && this.#isStale(index))) { + return; + } + const v = this.#valList[index]; + // either stale and allowed, or forcing a refresh of non-stale value + return this.#isBackgroundFetch(v) ? v.__staleWhileFetching : v; + } + #backgroundFetch(k, index, options, context) { + const v = index === undefined ? undefined : this.#valList[index]; + if (this.#isBackgroundFetch(v)) { + return v; + } + const ac = new AC(); + const { signal } = options; + // when/if our AC signals, then stop listening to theirs. + signal?.addEventListener('abort', () => ac.abort(signal.reason), { + signal: ac.signal, + }); + const fetchOpts = { + signal: ac.signal, + options, + context, + }; + const cb = (v, updateCache = false) => { + const { aborted } = ac.signal; + const ignoreAbort = options.ignoreFetchAbort && v !== undefined; + if (options.status) { + if (aborted && !updateCache) { + options.status.fetchAborted = true; + options.status.fetchError = ac.signal.reason; + if (ignoreAbort) + options.status.fetchAbortIgnored = true; + } + else { + options.status.fetchResolved = true; + } + } + if (aborted && !ignoreAbort && !updateCache) { + return fetchFail(ac.signal.reason); + } + // either we didn't abort, and are still here, or we did, and ignored + const bf = p; + if (this.#valList[index] === p) { + if (v === undefined) { + if (bf.__staleWhileFetching) { + this.#valList[index] = bf.__staleWhileFetching; + } + else { + this.#delete(k, 'fetch'); + } + } + else { + if (options.status) + options.status.fetchUpdated = true; + this.set(k, v, fetchOpts.options); + } + } + return v; + }; + const eb = (er) => { + if (options.status) { + options.status.fetchRejected = true; + options.status.fetchError = er; + } + return fetchFail(er); + }; + const fetchFail = (er) => { + const { aborted } = ac.signal; + const allowStaleAborted = aborted && options.allowStaleOnFetchAbort; + const allowStale = allowStaleAborted || options.allowStaleOnFetchRejection; + const noDelete = allowStale || options.noDeleteOnFetchRejection; + const bf = p; + if (this.#valList[index] === p) { + // if we allow stale on fetch rejections, then we need to ensure that + // the stale value is not removed from the cache when the fetch fails. + const del = !noDelete || bf.__staleWhileFetching === undefined; + if (del) { + this.#delete(k, 'fetch'); + } + else if (!allowStaleAborted) { + // still replace the *promise* with the stale value, + // since we are done with the promise at this point. + // leave it untouched if we're still waiting for an + // aborted background fetch that hasn't yet returned. + this.#valList[index] = bf.__staleWhileFetching; + } + } + if (allowStale) { + if (options.status && bf.__staleWhileFetching !== undefined) { + options.status.returnedStale = true; + } + return bf.__staleWhileFetching; + } + else if (bf.__returned === bf) { + throw er; + } + }; + const pcall = (res, rej) => { + const fmp = this.#fetchMethod?.(k, v, fetchOpts); + if (fmp && fmp instanceof Promise) { + fmp.then(v => res(v === undefined ? undefined : v), rej); + } + // ignored, we go until we finish, regardless. + // defer check until we are actually aborting, + // so fetchMethod can override. + ac.signal.addEventListener('abort', () => { + if (!options.ignoreFetchAbort || + options.allowStaleOnFetchAbort) { + res(undefined); + // when it eventually resolves, update the cache. + if (options.allowStaleOnFetchAbort) { + res = v => cb(v, true); + } + } + }); + }; + if (options.status) + options.status.fetchDispatched = true; + const p = new Promise(pcall).then(cb, eb); + const bf = Object.assign(p, { + __abortController: ac, + __staleWhileFetching: v, + __returned: undefined, + }); + if (index === undefined) { + // internal, don't expose status. + this.set(k, bf, { ...fetchOpts.options, status: undefined }); + index = this.#keyMap.get(k); + } + else { + this.#valList[index] = bf; + } + return bf; + } + #isBackgroundFetch(p) { + if (!this.#hasFetchMethod) + return false; + const b = p; + return (!!b && + b instanceof Promise && + b.hasOwnProperty('__staleWhileFetching') && + b.__abortController instanceof AC); + } + async fetch(k, fetchOptions = {}) { + const { + // get options + allowStale = this.allowStale, updateAgeOnGet = this.updateAgeOnGet, noDeleteOnStaleGet = this.noDeleteOnStaleGet, + // set options + ttl = this.ttl, noDisposeOnSet = this.noDisposeOnSet, size = 0, sizeCalculation = this.sizeCalculation, noUpdateTTL = this.noUpdateTTL, + // fetch exclusive options + noDeleteOnFetchRejection = this.noDeleteOnFetchRejection, allowStaleOnFetchRejection = this.allowStaleOnFetchRejection, ignoreFetchAbort = this.ignoreFetchAbort, allowStaleOnFetchAbort = this.allowStaleOnFetchAbort, context, forceRefresh = false, status, signal, } = fetchOptions; + if (!this.#hasFetchMethod) { + if (status) + status.fetch = 'get'; + return this.get(k, { + allowStale, + updateAgeOnGet, + noDeleteOnStaleGet, + status, + }); + } + const options = { + allowStale, + updateAgeOnGet, + noDeleteOnStaleGet, + ttl, + noDisposeOnSet, + size, + sizeCalculation, + noUpdateTTL, + noDeleteOnFetchRejection, + allowStaleOnFetchRejection, + allowStaleOnFetchAbort, + ignoreFetchAbort, + status, + signal, + }; + let index = this.#keyMap.get(k); + if (index === undefined) { + if (status) + status.fetch = 'miss'; + const p = this.#backgroundFetch(k, index, options, context); + return (p.__returned = p); + } + else { + // in cache, maybe already fetching + const v = this.#valList[index]; + if (this.#isBackgroundFetch(v)) { + const stale = allowStale && v.__staleWhileFetching !== undefined; + if (status) { + status.fetch = 'inflight'; + if (stale) + status.returnedStale = true; + } + return stale ? v.__staleWhileFetching : (v.__returned = v); + } + // if we force a refresh, that means do NOT serve the cached value, + // unless we are already in the process of refreshing the cache. + const isStale = this.#isStale(index); + if (!forceRefresh && !isStale) { + if (status) + status.fetch = 'hit'; + this.#moveToTail(index); + if (updateAgeOnGet) { + this.#updateItemAge(index); + } + if (status) + this.#statusTTL(status, index); + return v; + } + // ok, it is stale or a forced refresh, and not already fetching. + // refresh the cache. + const p = this.#backgroundFetch(k, index, options, context); + const hasStale = p.__staleWhileFetching !== undefined; + const staleVal = hasStale && allowStale; + if (status) { + status.fetch = isStale ? 'stale' : 'refresh'; + if (staleVal && isStale) + status.returnedStale = true; + } + return staleVal ? p.__staleWhileFetching : (p.__returned = p); + } + } + async forceFetch(k, fetchOptions = {}) { + const v = await this.fetch(k, fetchOptions); + if (v === undefined) + throw new Error('fetch() returned undefined'); + return v; + } + memo(k, memoOptions = {}) { + const memoMethod = this.#memoMethod; + if (!memoMethod) { + throw new Error('no memoMethod provided to constructor'); + } + const { context, forceRefresh, ...options } = memoOptions; + const v = this.get(k, options); + if (!forceRefresh && v !== undefined) + return v; + const vv = memoMethod(k, v, { + options, + context, + }); + this.set(k, vv, options); + return vv; + } + /** + * Return a value from the cache. Will update the recency of the cache + * entry found. + * + * If the key is not found, get() will return `undefined`. + */ + get(k, getOptions = {}) { + const { allowStale = this.allowStale, updateAgeOnGet = this.updateAgeOnGet, noDeleteOnStaleGet = this.noDeleteOnStaleGet, status, } = getOptions; + const index = this.#keyMap.get(k); + if (index !== undefined) { + const value = this.#valList[index]; + const fetching = this.#isBackgroundFetch(value); + if (status) + this.#statusTTL(status, index); + if (this.#isStale(index)) { + if (status) + status.get = 'stale'; + // delete only if not an in-flight background fetch + if (!fetching) { + if (!noDeleteOnStaleGet) { + this.#delete(k, 'expire'); + } + if (status && allowStale) + status.returnedStale = true; + return allowStale ? value : undefined; + } + else { + if (status && + allowStale && + value.__staleWhileFetching !== undefined) { + status.returnedStale = true; + } + return allowStale ? value.__staleWhileFetching : undefined; + } + } + else { + if (status) + status.get = 'hit'; + // if we're currently fetching it, we don't actually have it yet + // it's not stale, which means this isn't a staleWhileRefetching. + // If it's not stale, and fetching, AND has a __staleWhileFetching + // value, then that means the user fetched with {forceRefresh:true}, + // so it's safe to return that value. + if (fetching) { + return value.__staleWhileFetching; + } + this.#moveToTail(index); + if (updateAgeOnGet) { + this.#updateItemAge(index); + } + return value; + } + } + else if (status) { + status.get = 'miss'; + } + } + #connect(p, n) { + this.#prev[n] = p; + this.#next[p] = n; + } + #moveToTail(index) { + // if tail already, nothing to do + // if head, move head to next[index] + // else + // move next[prev[index]] to next[index] (head has no prev) + // move prev[next[index]] to prev[index] + // prev[index] = tail + // next[tail] = index + // tail = index + if (index !== this.#tail) { + if (index === this.#head) { + this.#head = this.#next[index]; + } + else { + this.#connect(this.#prev[index], this.#next[index]); + } + this.#connect(this.#tail, index); + this.#tail = index; + } + } + /** + * Deletes a key out of the cache. + * + * Returns true if the key was deleted, false otherwise. + */ + delete(k) { + return this.#delete(k, 'delete'); + } + #delete(k, reason) { + let deleted = false; + if (this.#size !== 0) { + const index = this.#keyMap.get(k); + if (index !== undefined) { + deleted = true; + if (this.#size === 1) { + this.#clear(reason); + } + else { + this.#removeItemSize(index); + const v = this.#valList[index]; + if (this.#isBackgroundFetch(v)) { + v.__abortController.abort(new Error('deleted')); + } + else if (this.#hasDispose || this.#hasDisposeAfter) { + if (this.#hasDispose) { + this.#dispose?.(v, k, reason); + } + if (this.#hasDisposeAfter) { + this.#disposed?.push([v, k, reason]); + } + } + this.#keyMap.delete(k); + this.#keyList[index] = undefined; + this.#valList[index] = undefined; + if (index === this.#tail) { + this.#tail = this.#prev[index]; + } + else if (index === this.#head) { + this.#head = this.#next[index]; + } + else { + const pi = this.#prev[index]; + this.#next[pi] = this.#next[index]; + const ni = this.#next[index]; + this.#prev[ni] = this.#prev[index]; + } + this.#size--; + this.#free.push(index); + } + } + } + if (this.#hasDisposeAfter && this.#disposed?.length) { + const dt = this.#disposed; + let task; + while ((task = dt?.shift())) { + this.#disposeAfter?.(...task); + } + } + return deleted; + } + /** + * Clear the cache entirely, throwing away all values. + */ + clear() { + return this.#clear('delete'); + } + #clear(reason) { + for (const index of this.#rindexes({ allowStale: true })) { + const v = this.#valList[index]; + if (this.#isBackgroundFetch(v)) { + v.__abortController.abort(new Error('deleted')); + } + else { + const k = this.#keyList[index]; + if (this.#hasDispose) { + this.#dispose?.(v, k, reason); + } + if (this.#hasDisposeAfter) { + this.#disposed?.push([v, k, reason]); + } + } + } + this.#keyMap.clear(); + this.#valList.fill(undefined); + this.#keyList.fill(undefined); + if (this.#ttls && this.#starts) { + this.#ttls.fill(0); + this.#starts.fill(0); + } + if (this.#sizes) { + this.#sizes.fill(0); + } + this.#head = 0; + this.#tail = 0; + this.#free.length = 0; + this.#calculatedSize = 0; + this.#size = 0; + if (this.#hasDisposeAfter && this.#disposed) { + const dt = this.#disposed; + let task; + while ((task = dt?.shift())) { + this.#disposeAfter?.(...task); + } + } + } +} +exports.LRUCache = LRUCache; +//# sourceMappingURL=index.js.map + +/***/ }), + +/***/ 57755: +/***/ ((__unused_webpack_module, exports) => { + +"use strict"; + +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.assertValidPattern = void 0; +const MAX_PATTERN_LENGTH = 1024 * 64; +const assertValidPattern = (pattern) => { + if (typeof pattern !== 'string') { + throw new TypeError('invalid pattern'); + } + if (pattern.length > MAX_PATTERN_LENGTH) { + throw new TypeError('pattern is too long'); + } +}; +exports.assertValidPattern = assertValidPattern; +//# sourceMappingURL=assert-valid-pattern.js.map + +/***/ }), + +/***/ 48157: +/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { + +"use strict"; + +// parse a single path portion +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.AST = void 0; +const brace_expressions_js_1 = __nccwpck_require__(90500); +const unescape_js_1 = __nccwpck_require__(54489); +const types = new Set(['!', '?', '+', '*', '@']); +const isExtglobType = (c) => types.has(c); +// Patterns that get prepended to bind to the start of either the +// entire string, or just a single path portion, to prevent dots +// and/or traversal patterns, when needed. +// Exts don't need the ^ or / bit, because the root binds that already. +const startNoTraversal = '(?!(?:^|/)\\.\\.?(?:$|/))'; +const startNoDot = '(?!\\.)'; +// characters that indicate a start of pattern needs the "no dots" bit, +// because a dot *might* be matched. ( is not in the list, because in +// the case of a child extglob, it will handle the prevention itself. +const addPatternStart = new Set(['[', '.']); +// cases where traversal is A-OK, no dot prevention needed +const justDots = new Set(['..', '.']); +const reSpecials = new Set('().*{}+?[]^$\\!'); +const regExpEscape = (s) => s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&'); +// any single thing other than / +const qmark = '[^/]'; +// * => any number of characters +const star = qmark + '*?'; +// use + when we need to ensure that *something* matches, because the * is +// the only thing in the path portion. +const starNoEmpty = qmark + '+?'; +// remove the \ chars that we added if we end up doing a nonmagic compare +// const deslash = (s: string) => s.replace(/\\(.)/g, '$1') +class AST { + type; + #root; + #hasMagic; + #uflag = false; + #parts = []; + #parent; + #parentIndex; + #negs; + #filledNegs = false; + #options; + #toString; + // set to true if it's an extglob with no children + // (which really means one child of '') + #emptyExt = false; + constructor(type, parent, options = {}) { + this.type = type; + // extglobs are inherently magical + if (type) + this.#hasMagic = true; + this.#parent = parent; + this.#root = this.#parent ? this.#parent.#root : this; + this.#options = this.#root === this ? options : this.#root.#options; + this.#negs = this.#root === this ? [] : this.#root.#negs; + if (type === '!' && !this.#root.#filledNegs) + this.#negs.push(this); + this.#parentIndex = this.#parent ? this.#parent.#parts.length : 0; + } + get hasMagic() { + /* c8 ignore start */ + if (this.#hasMagic !== undefined) + return this.#hasMagic; + /* c8 ignore stop */ + for (const p of this.#parts) { + if (typeof p === 'string') + continue; + if (p.type || p.hasMagic) + return (this.#hasMagic = true); + } + // note: will be undefined until we generate the regexp src and find out + return this.#hasMagic; + } + // reconstructs the pattern + toString() { + if (this.#toString !== undefined) + return this.#toString; + if (!this.type) { + return (this.#toString = this.#parts.map(p => String(p)).join('')); + } + else { + return (this.#toString = + this.type + '(' + this.#parts.map(p => String(p)).join('|') + ')'); + } + } + #fillNegs() { + /* c8 ignore start */ + if (this !== this.#root) + throw new Error('should only call on root'); + if (this.#filledNegs) + return this; + /* c8 ignore stop */ + // call toString() once to fill this out + this.toString(); + this.#filledNegs = true; + let n; + while ((n = this.#negs.pop())) { + if (n.type !== '!') + continue; + // walk up the tree, appending everthing that comes AFTER parentIndex + let p = n; + let pp = p.#parent; + while (pp) { + for (let i = p.#parentIndex + 1; !pp.type && i < pp.#parts.length; i++) { + for (const part of n.#parts) { + /* c8 ignore start */ + if (typeof part === 'string') { + throw new Error('string part in extglob AST??'); + } + /* c8 ignore stop */ + part.copyIn(pp.#parts[i]); + } + } + p = pp; + pp = p.#parent; + } + } + return this; + } + push(...parts) { + for (const p of parts) { + if (p === '') + continue; + /* c8 ignore start */ + if (typeof p !== 'string' && !(p instanceof AST && p.#parent === this)) { + throw new Error('invalid part: ' + p); + } + /* c8 ignore stop */ + this.#parts.push(p); + } + } + toJSON() { + const ret = this.type === null + ? this.#parts.slice().map(p => (typeof p === 'string' ? p : p.toJSON())) + : [this.type, ...this.#parts.map(p => p.toJSON())]; + if (this.isStart() && !this.type) + ret.unshift([]); + if (this.isEnd() && + (this === this.#root || + (this.#root.#filledNegs && this.#parent?.type === '!'))) { + ret.push({}); + } + return ret; + } + isStart() { + if (this.#root === this) + return true; + // if (this.type) return !!this.#parent?.isStart() + if (!this.#parent?.isStart()) + return false; + if (this.#parentIndex === 0) + return true; + // if everything AHEAD of this is a negation, then it's still the "start" + const p = this.#parent; + for (let i = 0; i < this.#parentIndex; i++) { + const pp = p.#parts[i]; + if (!(pp instanceof AST && pp.type === '!')) { + return false; + } + } + return true; + } + isEnd() { + if (this.#root === this) + return true; + if (this.#parent?.type === '!') + return true; + if (!this.#parent?.isEnd()) + return false; + if (!this.type) + return this.#parent?.isEnd(); + // if not root, it'll always have a parent + /* c8 ignore start */ + const pl = this.#parent ? this.#parent.#parts.length : 0; + /* c8 ignore stop */ + return this.#parentIndex === pl - 1; + } + copyIn(part) { + if (typeof part === 'string') + this.push(part); + else + this.push(part.clone(this)); + } + clone(parent) { + const c = new AST(this.type, parent); + for (const p of this.#parts) { + c.copyIn(p); + } + return c; + } + static #parseAST(str, ast, pos, opt) { + let escaping = false; + let inBrace = false; + let braceStart = -1; + let braceNeg = false; + if (ast.type === null) { + // outside of a extglob, append until we find a start + let i = pos; + let acc = ''; + while (i < str.length) { + const c = str.charAt(i++); + // still accumulate escapes at this point, but we do ignore + // starts that are escaped + if (escaping || c === '\\') { + escaping = !escaping; + acc += c; + continue; + } + if (inBrace) { + if (i === braceStart + 1) { + if (c === '^' || c === '!') { + braceNeg = true; + } + } + else if (c === ']' && !(i === braceStart + 2 && braceNeg)) { + inBrace = false; + } + acc += c; + continue; + } + else if (c === '[') { + inBrace = true; + braceStart = i; + braceNeg = false; + acc += c; + continue; + } + if (!opt.noext && isExtglobType(c) && str.charAt(i) === '(') { + ast.push(acc); + acc = ''; + const ext = new AST(c, ast); + i = AST.#parseAST(str, ext, i, opt); + ast.push(ext); + continue; + } + acc += c; + } + ast.push(acc); + return i; + } + // some kind of extglob, pos is at the ( + // find the next | or ) + let i = pos + 1; + let part = new AST(null, ast); + const parts = []; + let acc = ''; + while (i < str.length) { + const c = str.charAt(i++); + // still accumulate escapes at this point, but we do ignore + // starts that are escaped + if (escaping || c === '\\') { + escaping = !escaping; + acc += c; + continue; + } + if (inBrace) { + if (i === braceStart + 1) { + if (c === '^' || c === '!') { + braceNeg = true; + } + } + else if (c === ']' && !(i === braceStart + 2 && braceNeg)) { + inBrace = false; + } + acc += c; + continue; + } + else if (c === '[') { + inBrace = true; + braceStart = i; + braceNeg = false; + acc += c; + continue; + } + if (isExtglobType(c) && str.charAt(i) === '(') { + part.push(acc); + acc = ''; + const ext = new AST(c, part); + part.push(ext); + i = AST.#parseAST(str, ext, i, opt); + continue; + } + if (c === '|') { + part.push(acc); + acc = ''; + parts.push(part); + part = new AST(null, ast); + continue; + } + if (c === ')') { + if (acc === '' && ast.#parts.length === 0) { + ast.#emptyExt = true; + } + part.push(acc); + acc = ''; + ast.push(...parts, part); + return i; + } + acc += c; + } + // unfinished extglob + // if we got here, it was a malformed extglob! not an extglob, but + // maybe something else in there. + ast.type = null; + ast.#hasMagic = undefined; + ast.#parts = [str.substring(pos - 1)]; + return i; + } + static fromGlob(pattern, options = {}) { + const ast = new AST(null, undefined, options); + AST.#parseAST(pattern, ast, 0, options); + return ast; + } + // returns the regular expression if there's magic, or the unescaped + // string if not. + toMMPattern() { + // should only be called on root + /* c8 ignore start */ + if (this !== this.#root) + return this.#root.toMMPattern(); + /* c8 ignore stop */ + const glob = this.toString(); + const [re, body, hasMagic, uflag] = this.toRegExpSource(); + // if we're in nocase mode, and not nocaseMagicOnly, then we do + // still need a regular expression if we have to case-insensitively + // match capital/lowercase characters. + const anyMagic = hasMagic || + this.#hasMagic || + (this.#options.nocase && + !this.#options.nocaseMagicOnly && + glob.toUpperCase() !== glob.toLowerCase()); + if (!anyMagic) { + return body; + } + const flags = (this.#options.nocase ? 'i' : '') + (uflag ? 'u' : ''); + return Object.assign(new RegExp(`^${re}$`, flags), { + _src: re, + _glob: glob, + }); + } + get options() { + return this.#options; + } + // returns the string match, the regexp source, whether there's magic + // in the regexp (so a regular expression is required) and whether or + // not the uflag is needed for the regular expression (for posix classes) + // TODO: instead of injecting the start/end at this point, just return + // the BODY of the regexp, along with the start/end portions suitable + // for binding the start/end in either a joined full-path makeRe context + // (where we bind to (^|/), or a standalone matchPart context (where + // we bind to ^, and not /). Otherwise slashes get duped! + // + // In part-matching mode, the start is: + // - if not isStart: nothing + // - if traversal possible, but not allowed: ^(?!\.\.?$) + // - if dots allowed or not possible: ^ + // - if dots possible and not allowed: ^(?!\.) + // end is: + // - if not isEnd(): nothing + // - else: $ + // + // In full-path matching mode, we put the slash at the START of the + // pattern, so start is: + // - if first pattern: same as part-matching mode + // - if not isStart(): nothing + // - if traversal possible, but not allowed: /(?!\.\.?(?:$|/)) + // - if dots allowed or not possible: / + // - if dots possible and not allowed: /(?!\.) + // end is: + // - if last pattern, same as part-matching mode + // - else nothing + // + // Always put the (?:$|/) on negated tails, though, because that has to be + // there to bind the end of the negated pattern portion, and it's easier to + // just stick it in now rather than try to inject it later in the middle of + // the pattern. + // + // We can just always return the same end, and leave it up to the caller + // to know whether it's going to be used joined or in parts. + // And, if the start is adjusted slightly, can do the same there: + // - if not isStart: nothing + // - if traversal possible, but not allowed: (?:/|^)(?!\.\.?$) + // - if dots allowed or not possible: (?:/|^) + // - if dots possible and not allowed: (?:/|^)(?!\.) + // + // But it's better to have a simpler binding without a conditional, for + // performance, so probably better to return both start options. + // + // Then the caller just ignores the end if it's not the first pattern, + // and the start always gets applied. + // + // But that's always going to be $ if it's the ending pattern, or nothing, + // so the caller can just attach $ at the end of the pattern when building. + // + // So the todo is: + // - better detect what kind of start is needed + // - return both flavors of starting pattern + // - attach $ at the end of the pattern when creating the actual RegExp + // + // Ah, but wait, no, that all only applies to the root when the first pattern + // is not an extglob. If the first pattern IS an extglob, then we need all + // that dot prevention biz to live in the extglob portions, because eg + // +(*|.x*) can match .xy but not .yx. + // + // So, return the two flavors if it's #root and the first child is not an + // AST, otherwise leave it to the child AST to handle it, and there, + // use the (?:^|/) style of start binding. + // + // Even simplified further: + // - Since the start for a join is eg /(?!\.) and the start for a part + // is ^(?!\.), we can just prepend (?!\.) to the pattern (either root + // or start or whatever) and prepend ^ or / at the Regexp construction. + toRegExpSource(allowDot) { + const dot = allowDot ?? !!this.#options.dot; + if (this.#root === this) + this.#fillNegs(); + if (!this.type) { + const noEmpty = this.isStart() && this.isEnd(); + const src = this.#parts + .map(p => { + const [re, _, hasMagic, uflag] = typeof p === 'string' + ? AST.#parseGlob(p, this.#hasMagic, noEmpty) + : p.toRegExpSource(allowDot); + this.#hasMagic = this.#hasMagic || hasMagic; + this.#uflag = this.#uflag || uflag; + return re; + }) + .join(''); + let start = ''; + if (this.isStart()) { + if (typeof this.#parts[0] === 'string') { + // this is the string that will match the start of the pattern, + // so we need to protect against dots and such. + // '.' and '..' cannot match unless the pattern is that exactly, + // even if it starts with . or dot:true is set. + const dotTravAllowed = this.#parts.length === 1 && justDots.has(this.#parts[0]); + if (!dotTravAllowed) { + const aps = addPatternStart; + // check if we have a possibility of matching . or .., + // and prevent that. + const needNoTrav = + // dots are allowed, and the pattern starts with [ or . + (dot && aps.has(src.charAt(0))) || + // the pattern starts with \., and then [ or . + (src.startsWith('\\.') && aps.has(src.charAt(2))) || + // the pattern starts with \.\., and then [ or . + (src.startsWith('\\.\\.') && aps.has(src.charAt(4))); + // no need to prevent dots if it can't match a dot, or if a + // sub-pattern will be preventing it anyway. + const needNoDot = !dot && !allowDot && aps.has(src.charAt(0)); + start = needNoTrav ? startNoTraversal : needNoDot ? startNoDot : ''; + } + } + } + // append the "end of path portion" pattern to negation tails + let end = ''; + if (this.isEnd() && + this.#root.#filledNegs && + this.#parent?.type === '!') { + end = '(?:$|\\/)'; + } + const final = start + src + end; + return [ + final, + (0, unescape_js_1.unescape)(src), + (this.#hasMagic = !!this.#hasMagic), + this.#uflag, + ]; + } + // We need to calculate the body *twice* if it's a repeat pattern + // at the start, once in nodot mode, then again in dot mode, so a + // pattern like *(?) can match 'x.y' + const repeated = this.type === '*' || this.type === '+'; + // some kind of extglob + const start = this.type === '!' ? '(?:(?!(?:' : '(?:'; + let body = this.#partsToRegExp(dot); + if (this.isStart() && this.isEnd() && !body && this.type !== '!') { + // invalid extglob, has to at least be *something* present, if it's + // the entire path portion. + const s = this.toString(); + this.#parts = [s]; + this.type = null; + this.#hasMagic = undefined; + return [s, (0, unescape_js_1.unescape)(this.toString()), false, false]; + } + // XXX abstract out this map method + let bodyDotAllowed = !repeated || allowDot || dot || !startNoDot + ? '' + : this.#partsToRegExp(true); + if (bodyDotAllowed === body) { + bodyDotAllowed = ''; + } + if (bodyDotAllowed) { + body = `(?:${body})(?:${bodyDotAllowed})*?`; + } + // an empty !() is exactly equivalent to a starNoEmpty + let final = ''; + if (this.type === '!' && this.#emptyExt) { + final = (this.isStart() && !dot ? startNoDot : '') + starNoEmpty; + } + else { + const close = this.type === '!' + ? // !() must match something,but !(x) can match '' + '))' + + (this.isStart() && !dot && !allowDot ? startNoDot : '') + + star + + ')' + : this.type === '@' + ? ')' + : this.type === '?' + ? ')?' + : this.type === '+' && bodyDotAllowed + ? ')' + : this.type === '*' && bodyDotAllowed + ? `)?` + : `)${this.type}`; + final = start + body + close; + } + return [ + final, + (0, unescape_js_1.unescape)(body), + (this.#hasMagic = !!this.#hasMagic), + this.#uflag, + ]; + } + #partsToRegExp(dot) { + return this.#parts + .map(p => { + // extglob ASTs should only contain parent ASTs + /* c8 ignore start */ + if (typeof p === 'string') { + throw new Error('string type in extglob ast??'); + } + /* c8 ignore stop */ + // can ignore hasMagic, because extglobs are already always magic + const [re, _, _hasMagic, uflag] = p.toRegExpSource(dot); + this.#uflag = this.#uflag || uflag; + return re; + }) + .filter(p => !(this.isStart() && this.isEnd()) || !!p) + .join('|'); + } + static #parseGlob(glob, hasMagic, noEmpty = false) { + let escaping = false; + let re = ''; + let uflag = false; + for (let i = 0; i < glob.length; i++) { + const c = glob.charAt(i); + if (escaping) { + escaping = false; + re += (reSpecials.has(c) ? '\\' : '') + c; + continue; + } + if (c === '\\') { + if (i === glob.length - 1) { + re += '\\\\'; + } + else { + escaping = true; + } + continue; + } + if (c === '[') { + const [src, needUflag, consumed, magic] = (0, brace_expressions_js_1.parseClass)(glob, i); + if (consumed) { + re += src; + uflag = uflag || needUflag; + i += consumed - 1; + hasMagic = hasMagic || magic; + continue; + } + } + if (c === '*') { + if (noEmpty && glob === '*') + re += starNoEmpty; + else + re += star; + hasMagic = true; + continue; + } + if (c === '?') { + re += qmark; + hasMagic = true; + continue; + } + re += regExpEscape(c); + } + return [re, (0, unescape_js_1.unescape)(glob), !!hasMagic, uflag]; + } +} +exports.AST = AST; +//# sourceMappingURL=ast.js.map + +/***/ }), + +/***/ 90500: +/***/ ((__unused_webpack_module, exports) => { + +"use strict"; + +// translate the various posix character classes into unicode properties +// this works across all unicode locales +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.parseClass = void 0; +// { : [, /u flag required, negated] +const posixClasses = { + '[:alnum:]': ['\\p{L}\\p{Nl}\\p{Nd}', true], + '[:alpha:]': ['\\p{L}\\p{Nl}', true], + '[:ascii:]': ['\\x' + '00-\\x' + '7f', false], + '[:blank:]': ['\\p{Zs}\\t', true], + '[:cntrl:]': ['\\p{Cc}', true], + '[:digit:]': ['\\p{Nd}', true], + '[:graph:]': ['\\p{Z}\\p{C}', true, true], + '[:lower:]': ['\\p{Ll}', true], + '[:print:]': ['\\p{C}', true], + '[:punct:]': ['\\p{P}', true], + '[:space:]': ['\\p{Z}\\t\\r\\n\\v\\f', true], + '[:upper:]': ['\\p{Lu}', true], + '[:word:]': ['\\p{L}\\p{Nl}\\p{Nd}\\p{Pc}', true], + '[:xdigit:]': ['A-Fa-f0-9', false], +}; +// only need to escape a few things inside of brace expressions +// escapes: [ \ ] - +const braceEscape = (s) => s.replace(/[[\]\\-]/g, '\\$&'); +// escape all regexp magic characters +const regexpEscape = (s) => s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&'); +// everything has already been escaped, we just have to join +const rangesToString = (ranges) => ranges.join(''); +// takes a glob string at a posix brace expression, and returns +// an equivalent regular expression source, and boolean indicating +// whether the /u flag needs to be applied, and the number of chars +// consumed to parse the character class. +// This also removes out of order ranges, and returns ($.) if the +// entire class just no good. +const parseClass = (glob, position) => { + const pos = position; + /* c8 ignore start */ + if (glob.charAt(pos) !== '[') { + throw new Error('not in a brace expression'); + } + /* c8 ignore stop */ + const ranges = []; + const negs = []; + let i = pos + 1; + let sawStart = false; + let uflag = false; + let escaping = false; + let negate = false; + let endPos = pos; + let rangeStart = ''; + WHILE: while (i < glob.length) { + const c = glob.charAt(i); + if ((c === '!' || c === '^') && i === pos + 1) { + negate = true; + i++; + continue; + } + if (c === ']' && sawStart && !escaping) { + endPos = i + 1; + break; + } + sawStart = true; + if (c === '\\') { + if (!escaping) { + escaping = true; + i++; + continue; + } + // escaped \ char, fall through and treat like normal char + } + if (c === '[' && !escaping) { + // either a posix class, a collation equivalent, or just a [ + for (const [cls, [unip, u, neg]] of Object.entries(posixClasses)) { + if (glob.startsWith(cls, i)) { + // invalid, [a-[] is fine, but not [a-[:alpha]] + if (rangeStart) { + return ['$.', false, glob.length - pos, true]; + } + i += cls.length; + if (neg) + negs.push(unip); + else + ranges.push(unip); + uflag = uflag || u; + continue WHILE; + } + } + } + // now it's just a normal character, effectively + escaping = false; + if (rangeStart) { + // throw this range away if it's not valid, but others + // can still match. + if (c > rangeStart) { + ranges.push(braceEscape(rangeStart) + '-' + braceEscape(c)); + } + else if (c === rangeStart) { + ranges.push(braceEscape(c)); + } + rangeStart = ''; + i++; + continue; + } + // now might be the start of a range. + // can be either c-d or c-] or c] or c] at this point + if (glob.startsWith('-]', i + 1)) { + ranges.push(braceEscape(c + '-')); + i += 2; + continue; + } + if (glob.startsWith('-', i + 1)) { + rangeStart = c; + i += 2; + continue; + } + // not the start of a range, just a single character + ranges.push(braceEscape(c)); + i++; + } + if (endPos < i) { + // didn't see the end of the class, not a valid class, + // but might still be valid as a literal match. + return ['', false, 0, false]; + } + // if we got no ranges and no negates, then we have a range that + // cannot possibly match anything, and that poisons the whole glob + if (!ranges.length && !negs.length) { + return ['$.', false, glob.length - pos, true]; + } + // if we got one positive range, and it's a single character, then that's + // not actually a magic pattern, it's just that one literal character. + // we should not treat that as "magic", we should just return the literal + // character. [_] is a perfectly valid way to escape glob magic chars. + if (negs.length === 0 && + ranges.length === 1 && + /^\\?.$/.test(ranges[0]) && + !negate) { + const r = ranges[0].length === 2 ? ranges[0].slice(-1) : ranges[0]; + return [regexpEscape(r), false, endPos - pos, false]; + } + const sranges = '[' + (negate ? '^' : '') + rangesToString(ranges) + ']'; + const snegs = '[' + (negate ? '' : '^') + rangesToString(negs) + ']'; + const comb = ranges.length && negs.length + ? '(' + sranges + '|' + snegs + ')' + : ranges.length + ? sranges + : snegs; + return [comb, uflag, endPos - pos, true]; +}; +exports.parseClass = parseClass; +//# sourceMappingURL=brace-expressions.js.map + +/***/ }), + +/***/ 91290: +/***/ ((__unused_webpack_module, exports) => { + +"use strict"; + +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.escape = void 0; +/** + * Escape all magic characters in a glob pattern. + * + * If the {@link windowsPathsNoEscape | GlobOptions.windowsPathsNoEscape} + * option is used, then characters are escaped by wrapping in `[]`, because + * a magic character wrapped in a character class can only be satisfied by + * that exact character. In this mode, `\` is _not_ escaped, because it is + * not interpreted as a magic character, but instead as a path separator. + */ +const escape = (s, { windowsPathsNoEscape = false, } = {}) => { + // don't need to escape +@! because we escape the parens + // that make those magic, and escaping ! as [!] isn't valid, + // because [!]] is a valid glob class meaning not ']'. + return windowsPathsNoEscape + ? s.replace(/[?*()[\]]/g, '[$&]') + : s.replace(/[?*()[\]\\]/g, '\\$&'); +}; +exports.escape = escape; +//# sourceMappingURL=escape.js.map + +/***/ }), + +/***/ 55941: +/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { + +"use strict"; + +Object.defineProperty(exports, "__esModule", ({ value: true })); +exports.unescape = exports.escape = exports.AST = exports.Minimatch = exports.match = exports.makeRe = exports.braceExpand = exports.defaults = exports.filter = exports.GLOBSTAR = exports.sep = exports.minimatch = void 0; +const brace_expansion_1 = __nccwpck_require__(11215); +const assert_valid_pattern_js_1 = __nccwpck_require__(57755); +const ast_js_1 = __nccwpck_require__(48157); +const escape_js_1 = __nccwpck_require__(91290); +const unescape_js_1 = __nccwpck_require__(54489); +const minimatch = (p, pattern, options = {}) => { + (0, assert_valid_pattern_js_1.assertValidPattern)(pattern); + // shortcut: comments match nothing. + if (!options.nocomment && pattern.charAt(0) === '#') { + return false; + } + return new Minimatch(pattern, options).match(p); +}; +exports.minimatch = minimatch; +// Optimized checking for the most common glob patterns. +const starDotExtRE = /^\*+([^+@!?\*\[\(]*)$/; +const starDotExtTest = (ext) => (f) => !f.startsWith('.') && f.endsWith(ext); +const starDotExtTestDot = (ext) => (f) => f.endsWith(ext); +const starDotExtTestNocase = (ext) => { + ext = ext.toLowerCase(); + return (f) => !f.startsWith('.') && f.toLowerCase().endsWith(ext); +}; +const starDotExtTestNocaseDot = (ext) => { + ext = ext.toLowerCase(); + return (f) => f.toLowerCase().endsWith(ext); +}; +const starDotStarRE = /^\*+\.\*+$/; +const starDotStarTest = (f) => !f.startsWith('.') && f.includes('.'); +const starDotStarTestDot = (f) => f !== '.' && f !== '..' && f.includes('.'); +const dotStarRE = /^\.\*+$/; +const dotStarTest = (f) => f !== '.' && f !== '..' && f.startsWith('.'); +const starRE = /^\*+$/; +const starTest = (f) => f.length !== 0 && !f.startsWith('.'); +const starTestDot = (f) => f.length !== 0 && f !== '.' && f !== '..'; +const qmarksRE = /^\?+([^+@!?\*\[\(]*)?$/; +const qmarksTestNocase = ([$0, ext = '']) => { + const noext = qmarksTestNoExt([$0]); + if (!ext) + return noext; + ext = ext.toLowerCase(); + return (f) => noext(f) && f.toLowerCase().endsWith(ext); +}; +const qmarksTestNocaseDot = ([$0, ext = '']) => { + const noext = qmarksTestNoExtDot([$0]); + if (!ext) + return noext; + ext = ext.toLowerCase(); + return (f) => noext(f) && f.toLowerCase().endsWith(ext); +}; +const qmarksTestDot = ([$0, ext = '']) => { + const noext = qmarksTestNoExtDot([$0]); + return !ext ? noext : (f) => noext(f) && f.endsWith(ext); +}; +const qmarksTest = ([$0, ext = '']) => { + const noext = qmarksTestNoExt([$0]); + return !ext ? noext : (f) => noext(f) && f.endsWith(ext); +}; +const qmarksTestNoExt = ([$0]) => { + const len = $0.length; + return (f) => f.length === len && !f.startsWith('.'); +}; +const qmarksTestNoExtDot = ([$0]) => { + const len = $0.length; + return (f) => f.length === len && f !== '.' && f !== '..'; +}; +/* c8 ignore start */ +const defaultPlatform = (typeof process === 'object' && process + ? (typeof process.env === 'object' && + process.env && + process.env.__MINIMATCH_TESTING_PLATFORM__) || + process.platform + : 'posix'); +const path = { + win32: { sep: '\\' }, + posix: { sep: '/' }, +}; +/* c8 ignore stop */ +exports.sep = defaultPlatform === 'win32' ? path.win32.sep : path.posix.sep; +exports.minimatch.sep = exports.sep; +exports.GLOBSTAR = Symbol('globstar **'); +exports.minimatch.GLOBSTAR = exports.GLOBSTAR; +// any single thing other than / +// don't need to escape / when using new RegExp() +const qmark = '[^/]'; +// * => any number of characters +const star = qmark + '*?'; +// ** when dots are allowed. Anything goes, except .. and . +// not (^ or / followed by one or two dots followed by $ or /), +// followed by anything, any number of times. +const twoStarDot = '(?:(?!(?:\\/|^)(?:\\.{1,2})($|\\/)).)*?'; +// not a ^ or / followed by a dot, +// followed by anything, any number of times. +const twoStarNoDot = '(?:(?!(?:\\/|^)\\.).)*?'; +const filter = (pattern, options = {}) => (p) => (0, exports.minimatch)(p, pattern, options); +exports.filter = filter; +exports.minimatch.filter = exports.filter; +const ext = (a, b = {}) => Object.assign({}, a, b); +const defaults = (def) => { + if (!def || typeof def !== 'object' || !Object.keys(def).length) { + return exports.minimatch; + } + const orig = exports.minimatch; + const m = (p, pattern, options = {}) => orig(p, pattern, ext(def, options)); + return Object.assign(m, { + Minimatch: class Minimatch extends orig.Minimatch { + constructor(pattern, options = {}) { + super(pattern, ext(def, options)); + } + static defaults(options) { + return orig.defaults(ext(def, options)).Minimatch; + } + }, + AST: class AST extends orig.AST { + /* c8 ignore start */ + constructor(type, parent, options = {}) { + super(type, parent, ext(def, options)); + } + /* c8 ignore stop */ + static fromGlob(pattern, options = {}) { + return orig.AST.fromGlob(pattern, ext(def, options)); + } + }, + unescape: (s, options = {}) => orig.unescape(s, ext(def, options)), + escape: (s, options = {}) => orig.escape(s, ext(def, options)), + filter: (pattern, options = {}) => orig.filter(pattern, ext(def, options)), + defaults: (options) => orig.defaults(ext(def, options)), + makeRe: (pattern, options = {}) => orig.makeRe(pattern, ext(def, options)), + braceExpand: (pattern, options = {}) => orig.braceExpand(pattern, ext(def, options)), + match: (list, pattern, options = {}) => orig.match(list, pattern, ext(def, options)), + sep: orig.sep, + GLOBSTAR: exports.GLOBSTAR, + }); +}; +exports.defaults = defaults; +exports.minimatch.defaults = exports.defaults; +// Brace expansion: +// a{b,c}d -> abd acd +// a{b,}c -> abc ac +// a{0..3}d -> a0d a1d a2d a3d +// a{b,c{d,e}f}g -> abg acdfg acefg +// a{b,c}d{e,f}g -> abdeg acdeg abdeg abdfg +// +// Invalid sets are not expanded. +// a{2..}b -> a{2..}b +// a{b}c -> a{b}c +const braceExpand = (pattern, options = {}) => { + (0, assert_valid_pattern_js_1.assertValidPattern)(pattern); + // Thanks to Yeting Li for + // improving this regexp to avoid a ReDOS vulnerability. + if (options.nobrace || !/\{(?:(?!\{).)*\}/.test(pattern)) { + // shortcut. no need to expand. + return [pattern]; + } + return (0, brace_expansion_1.expand)(pattern); +}; +exports.braceExpand = braceExpand; +exports.minimatch.braceExpand = exports.braceExpand; +// parse a component of the expanded set. +// At this point, no pattern may contain "/" in it +// so we're going to return a 2d array, where each entry is the full +// pattern, split on '/', and then turned into a regular expression. +// A regexp is made at the end which joins each array with an +// escaped /, and another full one which joins each regexp with |. +// +// Following the lead of Bash 4.1, note that "**" only has special meaning +// when it is the *only* thing in a path portion. Otherwise, any series +// of * is equivalent to a single *. Globstar behavior is enabled by +// default, and can be disabled by setting options.noglobstar. +const makeRe = (pattern, options = {}) => new Minimatch(pattern, options).makeRe(); +exports.makeRe = makeRe; +exports.minimatch.makeRe = exports.makeRe; +const match = (list, pattern, options = {}) => { + const mm = new Minimatch(pattern, options); + list = list.filter(f => mm.match(f)); + if (mm.options.nonull && !list.length) { + list.push(pattern); + } + return list; +}; +exports.match = match; +exports.minimatch.match = exports.match; +// replace stuff like \* with * +const globMagic = /[?*]|[+@!]\(.*?\)|\[|\]/; +const regExpEscape = (s) => s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&'); +class Minimatch { + options; + set; + pattern; + windowsPathsNoEscape; + nonegate; + negate; + comment; + empty; + preserveMultipleSlashes; + partial; + globSet; + globParts; + nocase; + isWindows; + platform; + windowsNoMagicRoot; + regexp; + constructor(pattern, options = {}) { + (0, assert_valid_pattern_js_1.assertValidPattern)(pattern); + options = options || {}; + this.options = options; + this.pattern = pattern; + this.platform = options.platform || defaultPlatform; + this.isWindows = this.platform === 'win32'; + this.windowsPathsNoEscape = + !!options.windowsPathsNoEscape || options.allowWindowsEscape === false; + if (this.windowsPathsNoEscape) { + this.pattern = this.pattern.replace(/\\/g, '/'); + } + this.preserveMultipleSlashes = !!options.preserveMultipleSlashes; + this.regexp = null; + this.negate = false; + this.nonegate = !!options.nonegate; + this.comment = false; + this.empty = false; + this.partial = !!options.partial; + this.nocase = !!this.options.nocase; + this.windowsNoMagicRoot = + options.windowsNoMagicRoot !== undefined + ? options.windowsNoMagicRoot + : !!(this.isWindows && this.nocase); + this.globSet = []; + this.globParts = []; + this.set = []; + // make the set of regexps etc. + this.make(); + } + hasMagic() { + if (this.options.magicalBraces && this.set.length > 1) { + return true; + } + for (const pattern of this.set) { + for (const part of pattern) { + if (typeof part !== 'string') + return true; + } + } + return false; + } + debug(..._) { } + make() { + const pattern = this.pattern; + const options = this.options; + // empty patterns and comments match nothing. + if (!options.nocomment && pattern.charAt(0) === '#') { + this.comment = true; + return; + } + if (!pattern) { + this.empty = true; + return; + } + // step 1: figure out negation, etc. + this.parseNegate(); + // step 2: expand braces + this.globSet = [...new Set(this.braceExpand())]; + if (options.debug) { + this.debug = (...args) => console.error(...args); + } + this.debug(this.pattern, this.globSet); + // step 3: now we have a set, so turn each one into a series of + // path-portion matching patterns. + // These will be regexps, except in the case of "**", which is + // set to the GLOBSTAR object for globstar behavior, + // and will not contain any / characters + // + // First, we preprocess to make the glob pattern sets a bit simpler + // and deduped. There are some perf-killing patterns that can cause + // problems with a glob walk, but we can simplify them down a bit. + const rawGlobParts = this.globSet.map(s => this.slashSplit(s)); + this.globParts = this.preprocess(rawGlobParts); + this.debug(this.pattern, this.globParts); + // glob --> regexps + let set = this.globParts.map((s, _, __) => { + if (this.isWindows && this.windowsNoMagicRoot) { + // check if it's a drive or unc path. + const isUNC = s[0] === '' && + s[1] === '' && + (s[2] === '?' || !globMagic.test(s[2])) && + !globMagic.test(s[3]); + const isDrive = /^[a-z]:/i.test(s[0]); + if (isUNC) { + return [...s.slice(0, 4), ...s.slice(4).map(ss => this.parse(ss))]; + } + else if (isDrive) { + return [s[0], ...s.slice(1).map(ss => this.parse(ss))]; + } + } + return s.map(ss => this.parse(ss)); + }); + this.debug(this.pattern, set); + // filter out everything that didn't compile properly. + this.set = set.filter(s => s.indexOf(false) === -1); + // do not treat the ? in UNC paths as magic + if (this.isWindows) { + for (let i = 0; i < this.set.length; i++) { + const p = this.set[i]; + if (p[0] === '' && + p[1] === '' && + this.globParts[i][2] === '?' && + typeof p[3] === 'string' && + /^[a-z]:$/i.test(p[3])) { + p[2] = '?'; + } + } + } + this.debug(this.pattern, this.set); + } + // various transforms to equivalent pattern sets that are + // faster to process in a filesystem walk. The goal is to + // eliminate what we can, and push all ** patterns as far + // to the right as possible, even if it increases the number + // of patterns that we have to process. + preprocess(globParts) { + // if we're not in globstar mode, then turn all ** into * + if (this.options.noglobstar) { + for (let i = 0; i < globParts.length; i++) { + for (let j = 0; j < globParts[i].length; j++) { + if (globParts[i][j] === '**') { + globParts[i][j] = '*'; + } + } + } + } + const { optimizationLevel = 1 } = this.options; + if (optimizationLevel >= 2) { + // aggressive optimization for the purpose of fs walking + globParts = this.firstPhasePreProcess(globParts); + globParts = this.secondPhasePreProcess(globParts); + } + else if (optimizationLevel >= 1) { + // just basic optimizations to remove some .. parts + globParts = this.levelOneOptimize(globParts); + } + else { + // just collapse multiple ** portions into one + globParts = this.adjascentGlobstarOptimize(globParts); + } + return globParts; + } + // just get rid of adjascent ** portions + adjascentGlobstarOptimize(globParts) { + return globParts.map(parts => { + let gs = -1; + while (-1 !== (gs = parts.indexOf('**', gs + 1))) { + let i = gs; + while (parts[i + 1] === '**') { + i++; + } + if (i !== gs) { + parts.splice(gs, i - gs); + } + } + return parts; + }); + } + // get rid of adjascent ** and resolve .. portions + levelOneOptimize(globParts) { + return globParts.map(parts => { + parts = parts.reduce((set, part) => { + const prev = set[set.length - 1]; + if (part === '**' && prev === '**') { + return set; + } + if (part === '..') { + if (prev && prev !== '..' && prev !== '.' && prev !== '**') { + set.pop(); + return set; + } + } + set.push(part); + return set; + }, []); + return parts.length === 0 ? [''] : parts; + }); + } + levelTwoFileOptimize(parts) { + if (!Array.isArray(parts)) { + parts = this.slashSplit(parts); + } + let didSomething = false; + do { + didSomething = false; + //
// -> 
/
+            if (!this.preserveMultipleSlashes) {
+                for (let i = 1; i < parts.length - 1; i++) {
+                    const p = parts[i];
+                    // don't squeeze out UNC patterns
+                    if (i === 1 && p === '' && parts[0] === '')
+                        continue;
+                    if (p === '.' || p === '') {
+                        didSomething = true;
+                        parts.splice(i, 1);
+                        i--;
+                    }
+                }
+                if (parts[0] === '.' &&
+                    parts.length === 2 &&
+                    (parts[1] === '.' || parts[1] === '')) {
+                    didSomething = true;
+                    parts.pop();
+                }
+            }
+            // 
/

/../ ->

/
+            let dd = 0;
+            while (-1 !== (dd = parts.indexOf('..', dd + 1))) {
+                const p = parts[dd - 1];
+                if (p && p !== '.' && p !== '..' && p !== '**') {
+                    didSomething = true;
+                    parts.splice(dd - 1, 2);
+                    dd -= 2;
+                }
+            }
+        } while (didSomething);
+        return parts.length === 0 ? [''] : parts;
+    }
+    // First phase: single-pattern processing
+    // 
 is 1 or more portions
+    //  is 1 or more portions
+    // 

is any portion other than ., .., '', or ** + // is . or '' + // + // **/.. is *brutal* for filesystem walking performance, because + // it effectively resets the recursive walk each time it occurs, + // and ** cannot be reduced out by a .. pattern part like a regexp + // or most strings (other than .., ., and '') can be. + // + //

/**/../

/

/ -> {

/../

/

/,

/**/

/

/} + //

// -> 
/
+    // 
/

/../ ->

/
+    // **/**/ -> **/
+    //
+    // **/*/ -> */**/ <== not valid because ** doesn't follow
+    // this WOULD be allowed if ** did follow symlinks, or * didn't
+    firstPhasePreProcess(globParts) {
+        let didSomething = false;
+        do {
+            didSomething = false;
+            // 
/**/../

/

/ -> {

/../

/

/,

/**/

/

/} + for (let parts of globParts) { + let gs = -1; + while (-1 !== (gs = parts.indexOf('**', gs + 1))) { + let gss = gs; + while (parts[gss + 1] === '**') { + //

/**/**/ -> 
/**/
+                        gss++;
+                    }
+                    // eg, if gs is 2 and gss is 4, that means we have 3 **
+                    // parts, and can remove 2 of them.
+                    if (gss > gs) {
+                        parts.splice(gs + 1, gss - gs);
+                    }
+                    let next = parts[gs + 1];
+                    const p = parts[gs + 2];
+                    const p2 = parts[gs + 3];
+                    if (next !== '..')
+                        continue;
+                    if (!p ||
+                        p === '.' ||
+                        p === '..' ||
+                        !p2 ||
+                        p2 === '.' ||
+                        p2 === '..') {
+                        continue;
+                    }
+                    didSomething = true;
+                    // edit parts in place, and push the new one
+                    parts.splice(gs, 1);
+                    const other = parts.slice(0);
+                    other[gs] = '**';
+                    globParts.push(other);
+                    gs--;
+                }
+                // 
// -> 
/
+                if (!this.preserveMultipleSlashes) {
+                    for (let i = 1; i < parts.length - 1; i++) {
+                        const p = parts[i];
+                        // don't squeeze out UNC patterns
+                        if (i === 1 && p === '' && parts[0] === '')
+                            continue;
+                        if (p === '.' || p === '') {
+                            didSomething = true;
+                            parts.splice(i, 1);
+                            i--;
+                        }
+                    }
+                    if (parts[0] === '.' &&
+                        parts.length === 2 &&
+                        (parts[1] === '.' || parts[1] === '')) {
+                        didSomething = true;
+                        parts.pop();
+                    }
+                }
+                // 
/

/../ ->

/
+                let dd = 0;
+                while (-1 !== (dd = parts.indexOf('..', dd + 1))) {
+                    const p = parts[dd - 1];
+                    if (p && p !== '.' && p !== '..' && p !== '**') {
+                        didSomething = true;
+                        const needDot = dd === 1 && parts[dd + 1] === '**';
+                        const splin = needDot ? ['.'] : [];
+                        parts.splice(dd - 1, 2, ...splin);
+                        if (parts.length === 0)
+                            parts.push('');
+                        dd -= 2;
+                    }
+                }
+            }
+        } while (didSomething);
+        return globParts;
+    }
+    // second phase: multi-pattern dedupes
+    // {
/*/,
/

/} ->

/*/
+    // {
/,
/} -> 
/
+    // {
/**/,
/} -> 
/**/
+    //
+    // {
/**/,
/**/

/} ->

/**/
+    // ^-- not valid because ** doens't follow symlinks
+    secondPhasePreProcess(globParts) {
+        for (let i = 0; i < globParts.length - 1; i++) {
+            for (let j = i + 1; j < globParts.length; j++) {
+                const matched = this.partsMatch(globParts[i], globParts[j], !this.preserveMultipleSlashes);
+                if (matched) {
+                    globParts[i] = [];
+                    globParts[j] = matched;
+                    break;
+                }
+            }
+        }
+        return globParts.filter(gs => gs.length);
+    }
+    partsMatch(a, b, emptyGSMatch = false) {
+        let ai = 0;
+        let bi = 0;
+        let result = [];
+        let which = '';
+        while (ai < a.length && bi < b.length) {
+            if (a[ai] === b[bi]) {
+                result.push(which === 'b' ? b[bi] : a[ai]);
+                ai++;
+                bi++;
+            }
+            else if (emptyGSMatch && a[ai] === '**' && b[bi] === a[ai + 1]) {
+                result.push(a[ai]);
+                ai++;
+            }
+            else if (emptyGSMatch && b[bi] === '**' && a[ai] === b[bi + 1]) {
+                result.push(b[bi]);
+                bi++;
+            }
+            else if (a[ai] === '*' &&
+                b[bi] &&
+                (this.options.dot || !b[bi].startsWith('.')) &&
+                b[bi] !== '**') {
+                if (which === 'b')
+                    return false;
+                which = 'a';
+                result.push(a[ai]);
+                ai++;
+                bi++;
+            }
+            else if (b[bi] === '*' &&
+                a[ai] &&
+                (this.options.dot || !a[ai].startsWith('.')) &&
+                a[ai] !== '**') {
+                if (which === 'a')
+                    return false;
+                which = 'b';
+                result.push(b[bi]);
+                ai++;
+                bi++;
+            }
+            else {
+                return false;
+            }
+        }
+        // if we fall out of the loop, it means they two are identical
+        // as long as their lengths match
+        return a.length === b.length && result;
+    }
+    parseNegate() {
+        if (this.nonegate)
+            return;
+        const pattern = this.pattern;
+        let negate = false;
+        let negateOffset = 0;
+        for (let i = 0; i < pattern.length && pattern.charAt(i) === '!'; i++) {
+            negate = !negate;
+            negateOffset++;
+        }
+        if (negateOffset)
+            this.pattern = pattern.slice(negateOffset);
+        this.negate = negate;
+    }
+    // set partial to true to test if, for example,
+    // "/a/b" matches the start of "/*/b/*/d"
+    // Partial means, if you run out of file before you run
+    // out of pattern, then that's fine, as long as all
+    // the parts match.
+    matchOne(file, pattern, partial = false) {
+        const options = this.options;
+        // UNC paths like //?/X:/... can match X:/... and vice versa
+        // Drive letters in absolute drive or unc paths are always compared
+        // case-insensitively.
+        if (this.isWindows) {
+            const fileDrive = typeof file[0] === 'string' && /^[a-z]:$/i.test(file[0]);
+            const fileUNC = !fileDrive &&
+                file[0] === '' &&
+                file[1] === '' &&
+                file[2] === '?' &&
+                /^[a-z]:$/i.test(file[3]);
+            const patternDrive = typeof pattern[0] === 'string' && /^[a-z]:$/i.test(pattern[0]);
+            const patternUNC = !patternDrive &&
+                pattern[0] === '' &&
+                pattern[1] === '' &&
+                pattern[2] === '?' &&
+                typeof pattern[3] === 'string' &&
+                /^[a-z]:$/i.test(pattern[3]);
+            const fdi = fileUNC ? 3 : fileDrive ? 0 : undefined;
+            const pdi = patternUNC ? 3 : patternDrive ? 0 : undefined;
+            if (typeof fdi === 'number' && typeof pdi === 'number') {
+                const [fd, pd] = [file[fdi], pattern[pdi]];
+                if (fd.toLowerCase() === pd.toLowerCase()) {
+                    pattern[pdi] = fd;
+                    if (pdi > fdi) {
+                        pattern = pattern.slice(pdi);
+                    }
+                    else if (fdi > pdi) {
+                        file = file.slice(fdi);
+                    }
+                }
+            }
+        }
+        // resolve and reduce . and .. portions in the file as well.
+        // dont' need to do the second phase, because it's only one string[]
+        const { optimizationLevel = 1 } = this.options;
+        if (optimizationLevel >= 2) {
+            file = this.levelTwoFileOptimize(file);
+        }
+        this.debug('matchOne', this, { file, pattern });
+        this.debug('matchOne', file.length, pattern.length);
+        for (var fi = 0, pi = 0, fl = file.length, pl = pattern.length; fi < fl && pi < pl; fi++, pi++) {
+            this.debug('matchOne loop');
+            var p = pattern[pi];
+            var f = file[fi];
+            this.debug(pattern, p, f);
+            // should be impossible.
+            // some invalid regexp stuff in the set.
+            /* c8 ignore start */
+            if (p === false) {
+                return false;
+            }
+            /* c8 ignore stop */
+            if (p === exports.GLOBSTAR) {
+                this.debug('GLOBSTAR', [pattern, p, f]);
+                // "**"
+                // a/**/b/**/c would match the following:
+                // a/b/x/y/z/c
+                // a/x/y/z/b/c
+                // a/b/x/b/x/c
+                // a/b/c
+                // To do this, take the rest of the pattern after
+                // the **, and see if it would match the file remainder.
+                // If so, return success.
+                // If not, the ** "swallows" a segment, and try again.
+                // This is recursively awful.
+                //
+                // a/**/b/**/c matching a/b/x/y/z/c
+                // - a matches a
+                // - doublestar
+                //   - matchOne(b/x/y/z/c, b/**/c)
+                //     - b matches b
+                //     - doublestar
+                //       - matchOne(x/y/z/c, c) -> no
+                //       - matchOne(y/z/c, c) -> no
+                //       - matchOne(z/c, c) -> no
+                //       - matchOne(c, c) yes, hit
+                var fr = fi;
+                var pr = pi + 1;
+                if (pr === pl) {
+                    this.debug('** at the end');
+                    // a ** at the end will just swallow the rest.
+                    // We have found a match.
+                    // however, it will not swallow /.x, unless
+                    // options.dot is set.
+                    // . and .. are *never* matched by **, for explosively
+                    // exponential reasons.
+                    for (; fi < fl; fi++) {
+                        if (file[fi] === '.' ||
+                            file[fi] === '..' ||
+                            (!options.dot && file[fi].charAt(0) === '.'))
+                            return false;
+                    }
+                    return true;
+                }
+                // ok, let's see if we can swallow whatever we can.
+                while (fr < fl) {
+                    var swallowee = file[fr];
+                    this.debug('\nglobstar while', file, fr, pattern, pr, swallowee);
+                    // XXX remove this slice.  Just pass the start index.
+                    if (this.matchOne(file.slice(fr), pattern.slice(pr), partial)) {
+                        this.debug('globstar found match!', fr, fl, swallowee);
+                        // found a match.
+                        return true;
+                    }
+                    else {
+                        // can't swallow "." or ".." ever.
+                        // can only swallow ".foo" when explicitly asked.
+                        if (swallowee === '.' ||
+                            swallowee === '..' ||
+                            (!options.dot && swallowee.charAt(0) === '.')) {
+                            this.debug('dot detected!', file, fr, pattern, pr);
+                            break;
+                        }
+                        // ** swallows a segment, and continue.
+                        this.debug('globstar swallow a segment, and continue');
+                        fr++;
+                    }
+                }
+                // no match was found.
+                // However, in partial mode, we can't say this is necessarily over.
+                /* c8 ignore start */
+                if (partial) {
+                    // ran out of file
+                    this.debug('\n>>> no match, partial?', file, fr, pattern, pr);
+                    if (fr === fl) {
+                        return true;
+                    }
+                }
+                /* c8 ignore stop */
+                return false;
+            }
+            // something other than **
+            // non-magic patterns just have to match exactly
+            // patterns with magic have been turned into regexps.
+            let hit;
+            if (typeof p === 'string') {
+                hit = f === p;
+                this.debug('string match', p, f, hit);
+            }
+            else {
+                hit = p.test(f);
+                this.debug('pattern match', p, f, hit);
+            }
+            if (!hit)
+                return false;
+        }
+        // Note: ending in / means that we'll get a final ""
+        // at the end of the pattern.  This can only match a
+        // corresponding "" at the end of the file.
+        // If the file ends in /, then it can only match a
+        // a pattern that ends in /, unless the pattern just
+        // doesn't have any more for it. But, a/b/ should *not*
+        // match "a/b/*", even though "" matches against the
+        // [^/]*? pattern, except in partial mode, where it might
+        // simply not be reached yet.
+        // However, a/b/ should still satisfy a/*
+        // now either we fell off the end of the pattern, or we're done.
+        if (fi === fl && pi === pl) {
+            // ran out of pattern and filename at the same time.
+            // an exact hit!
+            return true;
+        }
+        else if (fi === fl) {
+            // ran out of file, but still had pattern left.
+            // this is ok if we're doing the match as part of
+            // a glob fs traversal.
+            return partial;
+        }
+        else if (pi === pl) {
+            // ran out of pattern, still have file left.
+            // this is only acceptable if we're on the very last
+            // empty segment of a file with a trailing slash.
+            // a/* should match a/b/
+            return fi === fl - 1 && file[fi] === '';
+            /* c8 ignore start */
+        }
+        else {
+            // should be unreachable.
+            throw new Error('wtf?');
+        }
+        /* c8 ignore stop */
+    }
+    braceExpand() {
+        return (0, exports.braceExpand)(this.pattern, this.options);
+    }
+    parse(pattern) {
+        (0, assert_valid_pattern_js_1.assertValidPattern)(pattern);
+        const options = this.options;
+        // shortcuts
+        if (pattern === '**')
+            return exports.GLOBSTAR;
+        if (pattern === '')
+            return '';
+        // far and away, the most common glob pattern parts are
+        // *, *.*, and *.  Add a fast check method for those.
+        let m;
+        let fastTest = null;
+        if ((m = pattern.match(starRE))) {
+            fastTest = options.dot ? starTestDot : starTest;
+        }
+        else if ((m = pattern.match(starDotExtRE))) {
+            fastTest = (options.nocase
+                ? options.dot
+                    ? starDotExtTestNocaseDot
+                    : starDotExtTestNocase
+                : options.dot
+                    ? starDotExtTestDot
+                    : starDotExtTest)(m[1]);
+        }
+        else if ((m = pattern.match(qmarksRE))) {
+            fastTest = (options.nocase
+                ? options.dot
+                    ? qmarksTestNocaseDot
+                    : qmarksTestNocase
+                : options.dot
+                    ? qmarksTestDot
+                    : qmarksTest)(m);
+        }
+        else if ((m = pattern.match(starDotStarRE))) {
+            fastTest = options.dot ? starDotStarTestDot : starDotStarTest;
+        }
+        else if ((m = pattern.match(dotStarRE))) {
+            fastTest = dotStarTest;
+        }
+        const re = ast_js_1.AST.fromGlob(pattern, this.options).toMMPattern();
+        if (fastTest && typeof re === 'object') {
+            // Avoids overriding in frozen environments
+            Reflect.defineProperty(re, 'test', { value: fastTest });
+        }
+        return re;
+    }
+    makeRe() {
+        if (this.regexp || this.regexp === false)
+            return this.regexp;
+        // at this point, this.set is a 2d array of partial
+        // pattern strings, or "**".
+        //
+        // It's better to use .match().  This function shouldn't
+        // be used, really, but it's pretty convenient sometimes,
+        // when you just want to work with a regex.
+        const set = this.set;
+        if (!set.length) {
+            this.regexp = false;
+            return this.regexp;
+        }
+        const options = this.options;
+        const twoStar = options.noglobstar
+            ? star
+            : options.dot
+                ? twoStarDot
+                : twoStarNoDot;
+        const flags = new Set(options.nocase ? ['i'] : []);
+        // regexpify non-globstar patterns
+        // if ** is only item, then we just do one twoStar
+        // if ** is first, and there are more, prepend (\/|twoStar\/)? to next
+        // if ** is last, append (\/twoStar|) to previous
+        // if ** is in the middle, append (\/|\/twoStar\/) to previous
+        // then filter out GLOBSTAR symbols
+        let re = set
+            .map(pattern => {
+            const pp = pattern.map(p => {
+                if (p instanceof RegExp) {
+                    for (const f of p.flags.split(''))
+                        flags.add(f);
+                }
+                return typeof p === 'string'
+                    ? regExpEscape(p)
+                    : p === exports.GLOBSTAR
+                        ? exports.GLOBSTAR
+                        : p._src;
+            });
+            pp.forEach((p, i) => {
+                const next = pp[i + 1];
+                const prev = pp[i - 1];
+                if (p !== exports.GLOBSTAR || prev === exports.GLOBSTAR) {
+                    return;
+                }
+                if (prev === undefined) {
+                    if (next !== undefined && next !== exports.GLOBSTAR) {
+                        pp[i + 1] = '(?:\\/|' + twoStar + '\\/)?' + next;
+                    }
+                    else {
+                        pp[i] = twoStar;
+                    }
+                }
+                else if (next === undefined) {
+                    pp[i - 1] = prev + '(?:\\/|' + twoStar + ')?';
+                }
+                else if (next !== exports.GLOBSTAR) {
+                    pp[i - 1] = prev + '(?:\\/|\\/' + twoStar + '\\/)' + next;
+                    pp[i + 1] = exports.GLOBSTAR;
+                }
+            });
+            return pp.filter(p => p !== exports.GLOBSTAR).join('/');
+        })
+            .join('|');
+        // need to wrap in parens if we had more than one thing with |,
+        // otherwise only the first will be anchored to ^ and the last to $
+        const [open, close] = set.length > 1 ? ['(?:', ')'] : ['', ''];
+        // must match entire pattern
+        // ending in a * or ** will make it less strict.
+        re = '^' + open + re + close + '$';
+        // can match anything, as long as it's not this.
+        if (this.negate)
+            re = '^(?!' + re + ').+$';
+        try {
+            this.regexp = new RegExp(re, [...flags].join(''));
+            /* c8 ignore start */
+        }
+        catch (ex) {
+            // should be impossible
+            this.regexp = false;
+        }
+        /* c8 ignore stop */
+        return this.regexp;
+    }
+    slashSplit(p) {
+        // if p starts with // on windows, we preserve that
+        // so that UNC paths aren't broken.  Otherwise, any number of
+        // / characters are coalesced into one, unless
+        // preserveMultipleSlashes is set to true.
+        if (this.preserveMultipleSlashes) {
+            return p.split('/');
+        }
+        else if (this.isWindows && /^\/\/[^\/]+/.test(p)) {
+            // add an extra '' for the one we lose
+            return ['', ...p.split(/\/+/)];
+        }
+        else {
+            return p.split(/\/+/);
+        }
+    }
+    match(f, partial = this.partial) {
+        this.debug('match', f, this.pattern);
+        // short-circuit in the case of busted things.
+        // comments, etc.
+        if (this.comment) {
+            return false;
+        }
+        if (this.empty) {
+            return f === '';
+        }
+        if (f === '/' && partial) {
+            return true;
+        }
+        const options = this.options;
+        // windows: need to use /, not \
+        if (this.isWindows) {
+            f = f.split('\\').join('/');
+        }
+        // treat the test path as a set of pathparts.
+        const ff = this.slashSplit(f);
+        this.debug(this.pattern, 'split', ff);
+        // just ONE of the pattern sets in this.set needs to match
+        // in order for it to be valid.  If negating, then just one
+        // match means that we have failed.
+        // Either way, return on the first hit.
+        const set = this.set;
+        this.debug(this.pattern, 'set', set);
+        // Find the basename of the path by looking for the last non-empty segment
+        let filename = ff[ff.length - 1];
+        if (!filename) {
+            for (let i = ff.length - 2; !filename && i >= 0; i--) {
+                filename = ff[i];
+            }
+        }
+        for (let i = 0; i < set.length; i++) {
+            const pattern = set[i];
+            let file = ff;
+            if (options.matchBase && pattern.length === 1) {
+                file = [filename];
+            }
+            const hit = this.matchOne(file, pattern, partial);
+            if (hit) {
+                if (options.flipNegate) {
+                    return true;
+                }
+                return !this.negate;
+            }
+        }
+        // didn't get any hits.  this is success if it's a negative
+        // pattern, failure otherwise.
+        if (options.flipNegate) {
+            return false;
+        }
+        return this.negate;
+    }
+    static defaults(def) {
+        return exports.minimatch.defaults(def).Minimatch;
+    }
+}
+exports.Minimatch = Minimatch;
+/* c8 ignore start */
+var ast_js_2 = __nccwpck_require__(48157);
+Object.defineProperty(exports, "AST", ({ enumerable: true, get: function () { return ast_js_2.AST; } }));
+var escape_js_2 = __nccwpck_require__(91290);
+Object.defineProperty(exports, "escape", ({ enumerable: true, get: function () { return escape_js_2.escape; } }));
+var unescape_js_2 = __nccwpck_require__(54489);
+Object.defineProperty(exports, "unescape", ({ enumerable: true, get: function () { return unescape_js_2.unescape; } }));
+/* c8 ignore stop */
+exports.minimatch.AST = ast_js_1.AST;
+exports.minimatch.Minimatch = Minimatch;
+exports.minimatch.escape = escape_js_1.escape;
+exports.minimatch.unescape = unescape_js_1.unescape;
+//# sourceMappingURL=index.js.map
+
+/***/ }),
+
+/***/ 54489:
+/***/ ((__unused_webpack_module, exports) => {
+
+"use strict";
+
+Object.defineProperty(exports, "__esModule", ({ value: true }));
+exports.unescape = void 0;
+/**
+ * Un-escape a string that has been escaped with {@link escape}.
+ *
+ * If the {@link windowsPathsNoEscape} option is used, then square-brace
+ * escapes are removed, but not backslash escapes.  For example, it will turn
+ * the string `'[*]'` into `*`, but it will not turn `'\\*'` into `'*'`,
+ * becuase `\` is a path separator in `windowsPathsNoEscape` mode.
+ *
+ * When `windowsPathsNoEscape` is not set, then both brace escapes and
+ * backslash escapes are removed.
+ *
+ * Slashes (and backslashes in `windowsPathsNoEscape` mode) cannot be escaped
+ * or unescaped.
+ */
+const unescape = (s, { windowsPathsNoEscape = false, } = {}) => {
+    return windowsPathsNoEscape
+        ? s.replace(/\[([^\/\\])\]/g, '$1')
+        : s.replace(/((?!\\).|^)\[([^\/\\])\]/g, '$1$2').replace(/\\([^\/])/g, '$1');
+};
+exports.unescape = unescape;
+//# sourceMappingURL=unescape.js.map
+
+/***/ }),
+
+/***/ 84987:
+/***/ (function(__unused_webpack_module, exports, __nccwpck_require__) {
+
+"use strict";
+
+var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) {
+    if (k2 === undefined) k2 = k;
+    var desc = Object.getOwnPropertyDescriptor(m, k);
+    if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) {
+      desc = { enumerable: true, get: function() { return m[k]; } };
+    }
+    Object.defineProperty(o, k2, desc);
+}) : (function(o, m, k, k2) {
+    if (k2 === undefined) k2 = k;
+    o[k2] = m[k];
+}));
+var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) {
+    Object.defineProperty(o, "default", { enumerable: true, value: v });
+}) : function(o, v) {
+    o["default"] = v;
+});
+var __importStar = (this && this.__importStar) || function (mod) {
+    if (mod && mod.__esModule) return mod;
+    var result = {};
+    if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k);
+    __setModuleDefault(result, mod);
+    return result;
+};
+Object.defineProperty(exports, "__esModule", ({ value: true }));
+exports.PathScurry = exports.Path = exports.PathScurryDarwin = exports.PathScurryPosix = exports.PathScurryWin32 = exports.PathScurryBase = exports.PathPosix = exports.PathWin32 = exports.PathBase = exports.ChildrenCache = exports.ResolveCache = void 0;
+const lru_cache_1 = __nccwpck_require__(78931);
+const node_path_1 = __nccwpck_require__(76760);
+const node_url_1 = __nccwpck_require__(73136);
+const fs_1 = __nccwpck_require__(79896);
+const actualFS = __importStar(__nccwpck_require__(73024));
+const realpathSync = fs_1.realpathSync.native;
+// TODO: test perf of fs/promises realpath vs realpathCB,
+// since the promises one uses realpath.native
+const promises_1 = __nccwpck_require__(51455);
+const minipass_1 = __nccwpck_require__(78275);
+const defaultFS = {
+    lstatSync: fs_1.lstatSync,
+    readdir: fs_1.readdir,
+    readdirSync: fs_1.readdirSync,
+    readlinkSync: fs_1.readlinkSync,
+    realpathSync,
+    promises: {
+        lstat: promises_1.lstat,
+        readdir: promises_1.readdir,
+        readlink: promises_1.readlink,
+        realpath: promises_1.realpath,
+    },
+};
+// if they just gave us require('fs') then use our default
+const fsFromOption = (fsOption) => !fsOption || fsOption === defaultFS || fsOption === actualFS ?
+    defaultFS
+    : {
+        ...defaultFS,
+        ...fsOption,
+        promises: {
+            ...defaultFS.promises,
+            ...(fsOption.promises || {}),
+        },
+    };
+// turn something like //?/c:/ into c:\
+const uncDriveRegexp = /^\\\\\?\\([a-z]:)\\?$/i;
+const uncToDrive = (rootPath) => rootPath.replace(/\//g, '\\').replace(uncDriveRegexp, '$1\\');
+// windows paths are separated by either / or \
+const eitherSep = /[\\\/]/;
+const UNKNOWN = 0; // may not even exist, for all we know
+const IFIFO = 0b0001;
+const IFCHR = 0b0010;
+const IFDIR = 0b0100;
+const IFBLK = 0b0110;
+const IFREG = 0b1000;
+const IFLNK = 0b1010;
+const IFSOCK = 0b1100;
+const IFMT = 0b1111;
+// mask to unset low 4 bits
+const IFMT_UNKNOWN = ~IFMT;
+// set after successfully calling readdir() and getting entries.
+const READDIR_CALLED = 0b0000_0001_0000;
+// set after a successful lstat()
+const LSTAT_CALLED = 0b0000_0010_0000;
+// set if an entry (or one of its parents) is definitely not a dir
+const ENOTDIR = 0b0000_0100_0000;
+// set if an entry (or one of its parents) does not exist
+// (can also be set on lstat errors like EACCES or ENAMETOOLONG)
+const ENOENT = 0b0000_1000_0000;
+// cannot have child entries -- also verify &IFMT is either IFDIR or IFLNK
+// set if we fail to readlink
+const ENOREADLINK = 0b0001_0000_0000;
+// set if we know realpath() will fail
+const ENOREALPATH = 0b0010_0000_0000;
+const ENOCHILD = ENOTDIR | ENOENT | ENOREALPATH;
+const TYPEMASK = 0b0011_1111_1111;
+const entToType = (s) => s.isFile() ? IFREG
+    : s.isDirectory() ? IFDIR
+        : s.isSymbolicLink() ? IFLNK
+            : s.isCharacterDevice() ? IFCHR
+                : s.isBlockDevice() ? IFBLK
+                    : s.isSocket() ? IFSOCK
+                        : s.isFIFO() ? IFIFO
+                            : UNKNOWN;
+// normalize unicode path names
+const normalizeCache = new Map();
+const normalize = (s) => {
+    const c = normalizeCache.get(s);
+    if (c)
+        return c;
+    const n = s.normalize('NFKD');
+    normalizeCache.set(s, n);
+    return n;
+};
+const normalizeNocaseCache = new Map();
+const normalizeNocase = (s) => {
+    const c = normalizeNocaseCache.get(s);
+    if (c)
+        return c;
+    const n = normalize(s.toLowerCase());
+    normalizeNocaseCache.set(s, n);
+    return n;
+};
+/**
+ * An LRUCache for storing resolved path strings or Path objects.
+ * @internal
+ */
+class ResolveCache extends lru_cache_1.LRUCache {
+    constructor() {
+        super({ max: 256 });
+    }
+}
+exports.ResolveCache = ResolveCache;
+// In order to prevent blowing out the js heap by allocating hundreds of
+// thousands of Path entries when walking extremely large trees, the "children"
+// in this tree are represented by storing an array of Path entries in an
+// LRUCache, indexed by the parent.  At any time, Path.children() may return an
+// empty array, indicating that it doesn't know about any of its children, and
+// thus has to rebuild that cache.  This is fine, it just means that we don't
+// benefit as much from having the cached entries, but huge directory walks
+// don't blow out the stack, and smaller ones are still as fast as possible.
+//
+//It does impose some complexity when building up the readdir data, because we
+//need to pass a reference to the children array that we started with.
+/**
+ * an LRUCache for storing child entries.
+ * @internal
+ */
+class ChildrenCache extends lru_cache_1.LRUCache {
+    constructor(maxSize = 16 * 1024) {
+        super({
+            maxSize,
+            // parent + children
+            sizeCalculation: a => a.length + 1,
+        });
+    }
+}
+exports.ChildrenCache = ChildrenCache;
+const setAsCwd = Symbol('PathScurry setAsCwd');
+/**
+ * Path objects are sort of like a super-powered
+ * {@link https://nodejs.org/docs/latest/api/fs.html#class-fsdirent fs.Dirent}
+ *
+ * Each one represents a single filesystem entry on disk, which may or may not
+ * exist. It includes methods for reading various types of information via
+ * lstat, readlink, and readdir, and caches all information to the greatest
+ * degree possible.
+ *
+ * Note that fs operations that would normally throw will instead return an
+ * "empty" value. This is in order to prevent excessive overhead from error
+ * stack traces.
+ */
+class PathBase {
+    /**
+     * the basename of this path
+     *
+     * **Important**: *always* test the path name against any test string
+     * usingthe {@link isNamed} method, and not by directly comparing this
+     * string. Otherwise, unicode path strings that the system sees as identical
+     * will not be properly treated as the same path, leading to incorrect
+     * behavior and possible security issues.
+     */
+    name;
+    /**
+     * the Path entry corresponding to the path root.
+     *
+     * @internal
+     */
+    root;
+    /**
+     * All roots found within the current PathScurry family
+     *
+     * @internal
+     */
+    roots;
+    /**
+     * a reference to the parent path, or undefined in the case of root entries
+     *
+     * @internal
+     */
+    parent;
+    /**
+     * boolean indicating whether paths are compared case-insensitively
+     * @internal
+     */
+    nocase;
+    /**
+     * boolean indicating that this path is the current working directory
+     * of the PathScurry collection that contains it.
+     */
+    isCWD = false;
+    // potential default fs override
+    #fs;
+    // Stats fields
+    #dev;
+    get dev() {
+        return this.#dev;
+    }
+    #mode;
+    get mode() {
+        return this.#mode;
+    }
+    #nlink;
+    get nlink() {
+        return this.#nlink;
+    }
+    #uid;
+    get uid() {
+        return this.#uid;
+    }
+    #gid;
+    get gid() {
+        return this.#gid;
+    }
+    #rdev;
+    get rdev() {
+        return this.#rdev;
+    }
+    #blksize;
+    get blksize() {
+        return this.#blksize;
+    }
+    #ino;
+    get ino() {
+        return this.#ino;
+    }
+    #size;
+    get size() {
+        return this.#size;
+    }
+    #blocks;
+    get blocks() {
+        return this.#blocks;
+    }
+    #atimeMs;
+    get atimeMs() {
+        return this.#atimeMs;
+    }
+    #mtimeMs;
+    get mtimeMs() {
+        return this.#mtimeMs;
+    }
+    #ctimeMs;
+    get ctimeMs() {
+        return this.#ctimeMs;
+    }
+    #birthtimeMs;
+    get birthtimeMs() {
+        return this.#birthtimeMs;
+    }
+    #atime;
+    get atime() {
+        return this.#atime;
+    }
+    #mtime;
+    get mtime() {
+        return this.#mtime;
+    }
+    #ctime;
+    get ctime() {
+        return this.#ctime;
+    }
+    #birthtime;
+    get birthtime() {
+        return this.#birthtime;
+    }
+    #matchName;
+    #depth;
+    #fullpath;
+    #fullpathPosix;
+    #relative;
+    #relativePosix;
+    #type;
+    #children;
+    #linkTarget;
+    #realpath;
+    /**
+     * This property is for compatibility with the Dirent class as of
+     * Node v20, where Dirent['parentPath'] refers to the path of the
+     * directory that was passed to readdir. For root entries, it's the path
+     * to the entry itself.
+     */
+    get parentPath() {
+        return (this.parent || this).fullpath();
+    }
+    /**
+     * Deprecated alias for Dirent['parentPath'] Somewhat counterintuitively,
+     * this property refers to the *parent* path, not the path object itself.
+     *
+     * @deprecated
+     */
+    get path() {
+        return this.parentPath;
+    }
+    /**
+     * Do not create new Path objects directly.  They should always be accessed
+     * via the PathScurry class or other methods on the Path class.
+     *
+     * @internal
+     */
+    constructor(name, type = UNKNOWN, root, roots, nocase, children, opts) {
+        this.name = name;
+        this.#matchName = nocase ? normalizeNocase(name) : normalize(name);
+        this.#type = type & TYPEMASK;
+        this.nocase = nocase;
+        this.roots = roots;
+        this.root = root || this;
+        this.#children = children;
+        this.#fullpath = opts.fullpath;
+        this.#relative = opts.relative;
+        this.#relativePosix = opts.relativePosix;
+        this.parent = opts.parent;
+        if (this.parent) {
+            this.#fs = this.parent.#fs;
+        }
+        else {
+            this.#fs = fsFromOption(opts.fs);
+        }
+    }
+    /**
+     * Returns the depth of the Path object from its root.
+     *
+     * For example, a path at `/foo/bar` would have a depth of 2.
+     */
+    depth() {
+        if (this.#depth !== undefined)
+            return this.#depth;
+        if (!this.parent)
+            return (this.#depth = 0);
+        return (this.#depth = this.parent.depth() + 1);
+    }
+    /**
+     * @internal
+     */
+    childrenCache() {
+        return this.#children;
+    }
+    /**
+     * Get the Path object referenced by the string path, resolved from this Path
+     */
+    resolve(path) {
+        if (!path) {
+            return this;
+        }
+        const rootPath = this.getRootString(path);
+        const dir = path.substring(rootPath.length);
+        const dirParts = dir.split(this.splitSep);
+        const result = rootPath ?
+            this.getRoot(rootPath).#resolveParts(dirParts)
+            : this.#resolveParts(dirParts);
+        return result;
+    }
+    #resolveParts(dirParts) {
+        let p = this;
+        for (const part of dirParts) {
+            p = p.child(part);
+        }
+        return p;
+    }
+    /**
+     * Returns the cached children Path objects, if still available.  If they
+     * have fallen out of the cache, then returns an empty array, and resets the
+     * READDIR_CALLED bit, so that future calls to readdir() will require an fs
+     * lookup.
+     *
+     * @internal
+     */
+    children() {
+        const cached = this.#children.get(this);
+        if (cached) {
+            return cached;
+        }
+        const children = Object.assign([], { provisional: 0 });
+        this.#children.set(this, children);
+        this.#type &= ~READDIR_CALLED;
+        return children;
+    }
+    /**
+     * Resolves a path portion and returns or creates the child Path.
+     *
+     * Returns `this` if pathPart is `''` or `'.'`, or `parent` if pathPart is
+     * `'..'`.
+     *
+     * This should not be called directly.  If `pathPart` contains any path
+     * separators, it will lead to unsafe undefined behavior.
+     *
+     * Use `Path.resolve()` instead.
+     *
+     * @internal
+     */
+    child(pathPart, opts) {
+        if (pathPart === '' || pathPart === '.') {
+            return this;
+        }
+        if (pathPart === '..') {
+            return this.parent || this;
+        }
+        // find the child
+        const children = this.children();
+        const name = this.nocase ? normalizeNocase(pathPart) : normalize(pathPart);
+        for (const p of children) {
+            if (p.#matchName === name) {
+                return p;
+            }
+        }
+        // didn't find it, create provisional child, since it might not
+        // actually exist.  If we know the parent isn't a dir, then
+        // in fact it CAN'T exist.
+        const s = this.parent ? this.sep : '';
+        const fullpath = this.#fullpath ? this.#fullpath + s + pathPart : undefined;
+        const pchild = this.newChild(pathPart, UNKNOWN, {
+            ...opts,
+            parent: this,
+            fullpath,
+        });
+        if (!this.canReaddir()) {
+            pchild.#type |= ENOENT;
+        }
+        // don't have to update provisional, because if we have real children,
+        // then provisional is set to children.length, otherwise a lower number
+        children.push(pchild);
+        return pchild;
+    }
+    /**
+     * The relative path from the cwd. If it does not share an ancestor with
+     * the cwd, then this ends up being equivalent to the fullpath()
+     */
+    relative() {
+        if (this.isCWD)
+            return '';
+        if (this.#relative !== undefined) {
+            return this.#relative;
+        }
+        const name = this.name;
+        const p = this.parent;
+        if (!p) {
+            return (this.#relative = this.name);
+        }
+        const pv = p.relative();
+        return pv + (!pv || !p.parent ? '' : this.sep) + name;
+    }
+    /**
+     * The relative path from the cwd, using / as the path separator.
+     * If it does not share an ancestor with
+     * the cwd, then this ends up being equivalent to the fullpathPosix()
+     * On posix systems, this is identical to relative().
+     */
+    relativePosix() {
+        if (this.sep === '/')
+            return this.relative();
+        if (this.isCWD)
+            return '';
+        if (this.#relativePosix !== undefined)
+            return this.#relativePosix;
+        const name = this.name;
+        const p = this.parent;
+        if (!p) {
+            return (this.#relativePosix = this.fullpathPosix());
+        }
+        const pv = p.relativePosix();
+        return pv + (!pv || !p.parent ? '' : '/') + name;
+    }
+    /**
+     * The fully resolved path string for this Path entry
+     */
+    fullpath() {
+        if (this.#fullpath !== undefined) {
+            return this.#fullpath;
+        }
+        const name = this.name;
+        const p = this.parent;
+        if (!p) {
+            return (this.#fullpath = this.name);
+        }
+        const pv = p.fullpath();
+        const fp = pv + (!p.parent ? '' : this.sep) + name;
+        return (this.#fullpath = fp);
+    }
+    /**
+     * On platforms other than windows, this is identical to fullpath.
+     *
+     * On windows, this is overridden to return the forward-slash form of the
+     * full UNC path.
+     */
+    fullpathPosix() {
+        if (this.#fullpathPosix !== undefined)
+            return this.#fullpathPosix;
+        if (this.sep === '/')
+            return (this.#fullpathPosix = this.fullpath());
+        if (!this.parent) {
+            const p = this.fullpath().replace(/\\/g, '/');
+            if (/^[a-z]:\//i.test(p)) {
+                return (this.#fullpathPosix = `//?/${p}`);
+            }
+            else {
+                return (this.#fullpathPosix = p);
+            }
+        }
+        const p = this.parent;
+        const pfpp = p.fullpathPosix();
+        const fpp = pfpp + (!pfpp || !p.parent ? '' : '/') + this.name;
+        return (this.#fullpathPosix = fpp);
+    }
+    /**
+     * Is the Path of an unknown type?
+     *
+     * Note that we might know *something* about it if there has been a previous
+     * filesystem operation, for example that it does not exist, or is not a
+     * link, or whether it has child entries.
+     */
+    isUnknown() {
+        return (this.#type & IFMT) === UNKNOWN;
+    }
+    isType(type) {
+        return this[`is${type}`]();
+    }
+    getType() {
+        return (this.isUnknown() ? 'Unknown'
+            : this.isDirectory() ? 'Directory'
+                : this.isFile() ? 'File'
+                    : this.isSymbolicLink() ? 'SymbolicLink'
+                        : this.isFIFO() ? 'FIFO'
+                            : this.isCharacterDevice() ? 'CharacterDevice'
+                                : this.isBlockDevice() ? 'BlockDevice'
+                                    : /* c8 ignore start */ this.isSocket() ? 'Socket'
+                                        : 'Unknown');
+        /* c8 ignore stop */
+    }
+    /**
+     * Is the Path a regular file?
+     */
+    isFile() {
+        return (this.#type & IFMT) === IFREG;
+    }
+    /**
+     * Is the Path a directory?
+     */
+    isDirectory() {
+        return (this.#type & IFMT) === IFDIR;
+    }
+    /**
+     * Is the path a character device?
+     */
+    isCharacterDevice() {
+        return (this.#type & IFMT) === IFCHR;
+    }
+    /**
+     * Is the path a block device?
+     */
+    isBlockDevice() {
+        return (this.#type & IFMT) === IFBLK;
+    }
+    /**
+     * Is the path a FIFO pipe?
+     */
+    isFIFO() {
+        return (this.#type & IFMT) === IFIFO;
+    }
+    /**
+     * Is the path a socket?
+     */
+    isSocket() {
+        return (this.#type & IFMT) === IFSOCK;
+    }
+    /**
+     * Is the path a symbolic link?
+     */
+    isSymbolicLink() {
+        return (this.#type & IFLNK) === IFLNK;
+    }
+    /**
+     * Return the entry if it has been subject of a successful lstat, or
+     * undefined otherwise.
+     *
+     * Does not read the filesystem, so an undefined result *could* simply
+     * mean that we haven't called lstat on it.
+     */
+    lstatCached() {
+        return this.#type & LSTAT_CALLED ? this : undefined;
+    }
+    /**
+     * Return the cached link target if the entry has been the subject of a
+     * successful readlink, or undefined otherwise.
+     *
+     * Does not read the filesystem, so an undefined result *could* just mean we
+     * don't have any cached data. Only use it if you are very sure that a
+     * readlink() has been called at some point.
+     */
+    readlinkCached() {
+        return this.#linkTarget;
+    }
+    /**
+     * Returns the cached realpath target if the entry has been the subject
+     * of a successful realpath, or undefined otherwise.
+     *
+     * Does not read the filesystem, so an undefined result *could* just mean we
+     * don't have any cached data. Only use it if you are very sure that a
+     * realpath() has been called at some point.
+     */
+    realpathCached() {
+        return this.#realpath;
+    }
+    /**
+     * Returns the cached child Path entries array if the entry has been the
+     * subject of a successful readdir(), or [] otherwise.
+     *
+     * Does not read the filesystem, so an empty array *could* just mean we
+     * don't have any cached data. Only use it if you are very sure that a
+     * readdir() has been called recently enough to still be valid.
+     */
+    readdirCached() {
+        const children = this.children();
+        return children.slice(0, children.provisional);
+    }
+    /**
+     * Return true if it's worth trying to readlink.  Ie, we don't (yet) have
+     * any indication that readlink will definitely fail.
+     *
+     * Returns false if the path is known to not be a symlink, if a previous
+     * readlink failed, or if the entry does not exist.
+     */
+    canReadlink() {
+        if (this.#linkTarget)
+            return true;
+        if (!this.parent)
+            return false;
+        // cases where it cannot possibly succeed
+        const ifmt = this.#type & IFMT;
+        return !((ifmt !== UNKNOWN && ifmt !== IFLNK) ||
+            this.#type & ENOREADLINK ||
+            this.#type & ENOENT);
+    }
+    /**
+     * Return true if readdir has previously been successfully called on this
+     * path, indicating that cachedReaddir() is likely valid.
+     */
+    calledReaddir() {
+        return !!(this.#type & READDIR_CALLED);
+    }
+    /**
+     * Returns true if the path is known to not exist. That is, a previous lstat
+     * or readdir failed to verify its existence when that would have been
+     * expected, or a parent entry was marked either enoent or enotdir.
+     */
+    isENOENT() {
+        return !!(this.#type & ENOENT);
+    }
+    /**
+     * Return true if the path is a match for the given path name.  This handles
+     * case sensitivity and unicode normalization.
+     *
+     * Note: even on case-sensitive systems, it is **not** safe to test the
+     * equality of the `.name` property to determine whether a given pathname
+     * matches, due to unicode normalization mismatches.
+     *
+     * Always use this method instead of testing the `path.name` property
+     * directly.
+     */
+    isNamed(n) {
+        return !this.nocase ?
+            this.#matchName === normalize(n)
+            : this.#matchName === normalizeNocase(n);
+    }
+    /**
+     * Return the Path object corresponding to the target of a symbolic link.
+     *
+     * If the Path is not a symbolic link, or if the readlink call fails for any
+     * reason, `undefined` is returned.
+     *
+     * Result is cached, and thus may be outdated if the filesystem is mutated.
+     */
+    async readlink() {
+        const target = this.#linkTarget;
+        if (target) {
+            return target;
+        }
+        if (!this.canReadlink()) {
+            return undefined;
+        }
+        /* c8 ignore start */
+        // already covered by the canReadlink test, here for ts grumples
+        if (!this.parent) {
+            return undefined;
+        }
+        /* c8 ignore stop */
+        try {
+            const read = await this.#fs.promises.readlink(this.fullpath());
+            const linkTarget = (await this.parent.realpath())?.resolve(read);
+            if (linkTarget) {
+                return (this.#linkTarget = linkTarget);
+            }
+        }
+        catch (er) {
+            this.#readlinkFail(er.code);
+            return undefined;
+        }
+    }
+    /**
+     * Synchronous {@link PathBase.readlink}
+     */
+    readlinkSync() {
+        const target = this.#linkTarget;
+        if (target) {
+            return target;
+        }
+        if (!this.canReadlink()) {
+            return undefined;
+        }
+        /* c8 ignore start */
+        // already covered by the canReadlink test, here for ts grumples
+        if (!this.parent) {
+            return undefined;
+        }
+        /* c8 ignore stop */
+        try {
+            const read = this.#fs.readlinkSync(this.fullpath());
+            const linkTarget = this.parent.realpathSync()?.resolve(read);
+            if (linkTarget) {
+                return (this.#linkTarget = linkTarget);
+            }
+        }
+        catch (er) {
+            this.#readlinkFail(er.code);
+            return undefined;
+        }
+    }
+    #readdirSuccess(children) {
+        // succeeded, mark readdir called bit
+        this.#type |= READDIR_CALLED;
+        // mark all remaining provisional children as ENOENT
+        for (let p = children.provisional; p < children.length; p++) {
+            const c = children[p];
+            if (c)
+                c.#markENOENT();
+        }
+    }
+    #markENOENT() {
+        // mark as UNKNOWN and ENOENT
+        if (this.#type & ENOENT)
+            return;
+        this.#type = (this.#type | ENOENT) & IFMT_UNKNOWN;
+        this.#markChildrenENOENT();
+    }
+    #markChildrenENOENT() {
+        // all children are provisional and do not exist
+        const children = this.children();
+        children.provisional = 0;
+        for (const p of children) {
+            p.#markENOENT();
+        }
+    }
+    #markENOREALPATH() {
+        this.#type |= ENOREALPATH;
+        this.#markENOTDIR();
+    }
+    // save the information when we know the entry is not a dir
+    #markENOTDIR() {
+        // entry is not a directory, so any children can't exist.
+        // this *should* be impossible, since any children created
+        // after it's been marked ENOTDIR should be marked ENOENT,
+        // so it won't even get to this point.
+        /* c8 ignore start */
+        if (this.#type & ENOTDIR)
+            return;
+        /* c8 ignore stop */
+        let t = this.#type;
+        // this could happen if we stat a dir, then delete it,
+        // then try to read it or one of its children.
+        if ((t & IFMT) === IFDIR)
+            t &= IFMT_UNKNOWN;
+        this.#type = t | ENOTDIR;
+        this.#markChildrenENOENT();
+    }
+    #readdirFail(code = '') {
+        // markENOTDIR and markENOENT also set provisional=0
+        if (code === 'ENOTDIR' || code === 'EPERM') {
+            this.#markENOTDIR();
+        }
+        else if (code === 'ENOENT') {
+            this.#markENOENT();
+        }
+        else {
+            this.children().provisional = 0;
+        }
+    }
+    #lstatFail(code = '') {
+        // Windows just raises ENOENT in this case, disable for win CI
+        /* c8 ignore start */
+        if (code === 'ENOTDIR') {
+            // already know it has a parent by this point
+            const p = this.parent;
+            p.#markENOTDIR();
+        }
+        else if (code === 'ENOENT') {
+            /* c8 ignore stop */
+            this.#markENOENT();
+        }
+    }
+    #readlinkFail(code = '') {
+        let ter = this.#type;
+        ter |= ENOREADLINK;
+        if (code === 'ENOENT')
+            ter |= ENOENT;
+        // windows gets a weird error when you try to readlink a file
+        if (code === 'EINVAL' || code === 'UNKNOWN') {
+            // exists, but not a symlink, we don't know WHAT it is, so remove
+            // all IFMT bits.
+            ter &= IFMT_UNKNOWN;
+        }
+        this.#type = ter;
+        // windows just gets ENOENT in this case.  We do cover the case,
+        // just disabled because it's impossible on Windows CI
+        /* c8 ignore start */
+        if (code === 'ENOTDIR' && this.parent) {
+            this.parent.#markENOTDIR();
+        }
+        /* c8 ignore stop */
+    }
+    #readdirAddChild(e, c) {
+        return (this.#readdirMaybePromoteChild(e, c) ||
+            this.#readdirAddNewChild(e, c));
+    }
+    #readdirAddNewChild(e, c) {
+        // alloc new entry at head, so it's never provisional
+        const type = entToType(e);
+        const child = this.newChild(e.name, type, { parent: this });
+        const ifmt = child.#type & IFMT;
+        if (ifmt !== IFDIR && ifmt !== IFLNK && ifmt !== UNKNOWN) {
+            child.#type |= ENOTDIR;
+        }
+        c.unshift(child);
+        c.provisional++;
+        return child;
+    }
+    #readdirMaybePromoteChild(e, c) {
+        for (let p = c.provisional; p < c.length; p++) {
+            const pchild = c[p];
+            const name = this.nocase ? normalizeNocase(e.name) : normalize(e.name);
+            if (name !== pchild.#matchName) {
+                continue;
+            }
+            return this.#readdirPromoteChild(e, pchild, p, c);
+        }
+    }
+    #readdirPromoteChild(e, p, index, c) {
+        const v = p.name;
+        // retain any other flags, but set ifmt from dirent
+        p.#type = (p.#type & IFMT_UNKNOWN) | entToType(e);
+        // case sensitivity fixing when we learn the true name.
+        if (v !== e.name)
+            p.name = e.name;
+        // just advance provisional index (potentially off the list),
+        // otherwise we have to splice/pop it out and re-insert at head
+        if (index !== c.provisional) {
+            if (index === c.length - 1)
+                c.pop();
+            else
+                c.splice(index, 1);
+            c.unshift(p);
+        }
+        c.provisional++;
+        return p;
+    }
+    /**
+     * Call lstat() on this Path, and update all known information that can be
+     * determined.
+     *
+     * Note that unlike `fs.lstat()`, the returned value does not contain some
+     * information, such as `mode`, `dev`, `nlink`, and `ino`.  If that
+     * information is required, you will need to call `fs.lstat` yourself.
+     *
+     * If the Path refers to a nonexistent file, or if the lstat call fails for
+     * any reason, `undefined` is returned.  Otherwise the updated Path object is
+     * returned.
+     *
+     * Results are cached, and thus may be out of date if the filesystem is
+     * mutated.
+     */
+    async lstat() {
+        if ((this.#type & ENOENT) === 0) {
+            try {
+                this.#applyStat(await this.#fs.promises.lstat(this.fullpath()));
+                return this;
+            }
+            catch (er) {
+                this.#lstatFail(er.code);
+            }
+        }
+    }
+    /**
+     * synchronous {@link PathBase.lstat}
+     */
+    lstatSync() {
+        if ((this.#type & ENOENT) === 0) {
+            try {
+                this.#applyStat(this.#fs.lstatSync(this.fullpath()));
+                return this;
+            }
+            catch (er) {
+                this.#lstatFail(er.code);
+            }
+        }
+    }
+    #applyStat(st) {
+        const { atime, atimeMs, birthtime, birthtimeMs, blksize, blocks, ctime, ctimeMs, dev, gid, ino, mode, mtime, mtimeMs, nlink, rdev, size, uid, } = st;
+        this.#atime = atime;
+        this.#atimeMs = atimeMs;
+        this.#birthtime = birthtime;
+        this.#birthtimeMs = birthtimeMs;
+        this.#blksize = blksize;
+        this.#blocks = blocks;
+        this.#ctime = ctime;
+        this.#ctimeMs = ctimeMs;
+        this.#dev = dev;
+        this.#gid = gid;
+        this.#ino = ino;
+        this.#mode = mode;
+        this.#mtime = mtime;
+        this.#mtimeMs = mtimeMs;
+        this.#nlink = nlink;
+        this.#rdev = rdev;
+        this.#size = size;
+        this.#uid = uid;
+        const ifmt = entToType(st);
+        // retain any other flags, but set the ifmt
+        this.#type = (this.#type & IFMT_UNKNOWN) | ifmt | LSTAT_CALLED;
+        if (ifmt !== UNKNOWN && ifmt !== IFDIR && ifmt !== IFLNK) {
+            this.#type |= ENOTDIR;
+        }
+    }
+    #onReaddirCB = [];
+    #readdirCBInFlight = false;
+    #callOnReaddirCB(children) {
+        this.#readdirCBInFlight = false;
+        const cbs = this.#onReaddirCB.slice();
+        this.#onReaddirCB.length = 0;
+        cbs.forEach(cb => cb(null, children));
+    }
+    /**
+     * Standard node-style callback interface to get list of directory entries.
+     *
+     * If the Path cannot or does not contain any children, then an empty array
+     * is returned.
+     *
+     * Results are cached, and thus may be out of date if the filesystem is
+     * mutated.
+     *
+     * @param cb The callback called with (er, entries).  Note that the `er`
+     * param is somewhat extraneous, as all readdir() errors are handled and
+     * simply result in an empty set of entries being returned.
+     * @param allowZalgo Boolean indicating that immediately known results should
+     * *not* be deferred with `queueMicrotask`. Defaults to `false`. Release
+     * zalgo at your peril, the dark pony lord is devious and unforgiving.
+     */
+    readdirCB(cb, allowZalgo = false) {
+        if (!this.canReaddir()) {
+            if (allowZalgo)
+                cb(null, []);
+            else
+                queueMicrotask(() => cb(null, []));
+            return;
+        }
+        const children = this.children();
+        if (this.calledReaddir()) {
+            const c = children.slice(0, children.provisional);
+            if (allowZalgo)
+                cb(null, c);
+            else
+                queueMicrotask(() => cb(null, c));
+            return;
+        }
+        // don't have to worry about zalgo at this point.
+        this.#onReaddirCB.push(cb);
+        if (this.#readdirCBInFlight) {
+            return;
+        }
+        this.#readdirCBInFlight = true;
+        // else read the directory, fill up children
+        // de-provisionalize any provisional children.
+        const fullpath = this.fullpath();
+        this.#fs.readdir(fullpath, { withFileTypes: true }, (er, entries) => {
+            if (er) {
+                this.#readdirFail(er.code);
+                children.provisional = 0;
+            }
+            else {
+                // if we didn't get an error, we always get entries.
+                //@ts-ignore
+                for (const e of entries) {
+                    this.#readdirAddChild(e, children);
+                }
+                this.#readdirSuccess(children);
+            }
+            this.#callOnReaddirCB(children.slice(0, children.provisional));
+            return;
+        });
+    }
+    #asyncReaddirInFlight;
+    /**
+     * Return an array of known child entries.
+     *
+     * If the Path cannot or does not contain any children, then an empty array
+     * is returned.
+     *
+     * Results are cached, and thus may be out of date if the filesystem is
+     * mutated.
+     */
+    async readdir() {
+        if (!this.canReaddir()) {
+            return [];
+        }
+        const children = this.children();
+        if (this.calledReaddir()) {
+            return children.slice(0, children.provisional);
+        }
+        // else read the directory, fill up children
+        // de-provisionalize any provisional children.
+        const fullpath = this.fullpath();
+        if (this.#asyncReaddirInFlight) {
+            await this.#asyncReaddirInFlight;
+        }
+        else {
+            /* c8 ignore start */
+            let resolve = () => { };
+            /* c8 ignore stop */
+            this.#asyncReaddirInFlight = new Promise(res => (resolve = res));
+            try {
+                for (const e of await this.#fs.promises.readdir(fullpath, {
+                    withFileTypes: true,
+                })) {
+                    this.#readdirAddChild(e, children);
+                }
+                this.#readdirSuccess(children);
+            }
+            catch (er) {
+                this.#readdirFail(er.code);
+                children.provisional = 0;
+            }
+            this.#asyncReaddirInFlight = undefined;
+            resolve();
+        }
+        return children.slice(0, children.provisional);
+    }
+    /**
+     * synchronous {@link PathBase.readdir}
+     */
+    readdirSync() {
+        if (!this.canReaddir()) {
+            return [];
+        }
+        const children = this.children();
+        if (this.calledReaddir()) {
+            return children.slice(0, children.provisional);
+        }
+        // else read the directory, fill up children
+        // de-provisionalize any provisional children.
+        const fullpath = this.fullpath();
+        try {
+            for (const e of this.#fs.readdirSync(fullpath, {
+                withFileTypes: true,
+            })) {
+                this.#readdirAddChild(e, children);
+            }
+            this.#readdirSuccess(children);
+        }
+        catch (er) {
+            this.#readdirFail(er.code);
+            children.provisional = 0;
+        }
+        return children.slice(0, children.provisional);
+    }
+    canReaddir() {
+        if (this.#type & ENOCHILD)
+            return false;
+        const ifmt = IFMT & this.#type;
+        // we always set ENOTDIR when setting IFMT, so should be impossible
+        /* c8 ignore start */
+        if (!(ifmt === UNKNOWN || ifmt === IFDIR || ifmt === IFLNK)) {
+            return false;
+        }
+        /* c8 ignore stop */
+        return true;
+    }
+    shouldWalk(dirs, walkFilter) {
+        return ((this.#type & IFDIR) === IFDIR &&
+            !(this.#type & ENOCHILD) &&
+            !dirs.has(this) &&
+            (!walkFilter || walkFilter(this)));
+    }
+    /**
+     * Return the Path object corresponding to path as resolved
+     * by realpath(3).
+     *
+     * If the realpath call fails for any reason, `undefined` is returned.
+     *
+     * Result is cached, and thus may be outdated if the filesystem is mutated.
+     * On success, returns a Path object.
+     */
+    async realpath() {
+        if (this.#realpath)
+            return this.#realpath;
+        if ((ENOREALPATH | ENOREADLINK | ENOENT) & this.#type)
+            return undefined;
+        try {
+            const rp = await this.#fs.promises.realpath(this.fullpath());
+            return (this.#realpath = this.resolve(rp));
+        }
+        catch (_) {
+            this.#markENOREALPATH();
+        }
+    }
+    /**
+     * Synchronous {@link realpath}
+     */
+    realpathSync() {
+        if (this.#realpath)
+            return this.#realpath;
+        if ((ENOREALPATH | ENOREADLINK | ENOENT) & this.#type)
+            return undefined;
+        try {
+            const rp = this.#fs.realpathSync(this.fullpath());
+            return (this.#realpath = this.resolve(rp));
+        }
+        catch (_) {
+            this.#markENOREALPATH();
+        }
+    }
+    /**
+     * Internal method to mark this Path object as the scurry cwd,
+     * called by {@link PathScurry#chdir}
+     *
+     * @internal
+     */
+    [setAsCwd](oldCwd) {
+        if (oldCwd === this)
+            return;
+        oldCwd.isCWD = false;
+        this.isCWD = true;
+        const changed = new Set([]);
+        let rp = [];
+        let p = this;
+        while (p && p.parent) {
+            changed.add(p);
+            p.#relative = rp.join(this.sep);
+            p.#relativePosix = rp.join('/');
+            p = p.parent;
+            rp.push('..');
+        }
+        // now un-memoize parents of old cwd
+        p = oldCwd;
+        while (p && p.parent && !changed.has(p)) {
+            p.#relative = undefined;
+            p.#relativePosix = undefined;
+            p = p.parent;
+        }
+    }
+}
+exports.PathBase = PathBase;
+/**
+ * Path class used on win32 systems
+ *
+ * Uses `'\\'` as the path separator for returned paths, either `'\\'` or `'/'`
+ * as the path separator for parsing paths.
+ */
+class PathWin32 extends PathBase {
+    /**
+     * Separator for generating path strings.
+     */
+    sep = '\\';
+    /**
+     * Separator for parsing path strings.
+     */
+    splitSep = eitherSep;
+    /**
+     * Do not create new Path objects directly.  They should always be accessed
+     * via the PathScurry class or other methods on the Path class.
+     *
+     * @internal
+     */
+    constructor(name, type = UNKNOWN, root, roots, nocase, children, opts) {
+        super(name, type, root, roots, nocase, children, opts);
+    }
+    /**
+     * @internal
+     */
+    newChild(name, type = UNKNOWN, opts = {}) {
+        return new PathWin32(name, type, this.root, this.roots, this.nocase, this.childrenCache(), opts);
+    }
+    /**
+     * @internal
+     */
+    getRootString(path) {
+        return node_path_1.win32.parse(path).root;
+    }
+    /**
+     * @internal
+     */
+    getRoot(rootPath) {
+        rootPath = uncToDrive(rootPath.toUpperCase());
+        if (rootPath === this.root.name) {
+            return this.root;
+        }
+        // ok, not that one, check if it matches another we know about
+        for (const [compare, root] of Object.entries(this.roots)) {
+            if (this.sameRoot(rootPath, compare)) {
+                return (this.roots[rootPath] = root);
+            }
+        }
+        // otherwise, have to create a new one.
+        return (this.roots[rootPath] = new PathScurryWin32(rootPath, this).root);
+    }
+    /**
+     * @internal
+     */
+    sameRoot(rootPath, compare = this.root.name) {
+        // windows can (rarely) have case-sensitive filesystem, but
+        // UNC and drive letters are always case-insensitive, and canonically
+        // represented uppercase.
+        rootPath = rootPath
+            .toUpperCase()
+            .replace(/\//g, '\\')
+            .replace(uncDriveRegexp, '$1\\');
+        return rootPath === compare;
+    }
+}
+exports.PathWin32 = PathWin32;
+/**
+ * Path class used on all posix systems.
+ *
+ * Uses `'/'` as the path separator.
+ */
+class PathPosix extends PathBase {
+    /**
+     * separator for parsing path strings
+     */
+    splitSep = '/';
+    /**
+     * separator for generating path strings
+     */
+    sep = '/';
+    /**
+     * Do not create new Path objects directly.  They should always be accessed
+     * via the PathScurry class or other methods on the Path class.
+     *
+     * @internal
+     */
+    constructor(name, type = UNKNOWN, root, roots, nocase, children, opts) {
+        super(name, type, root, roots, nocase, children, opts);
+    }
+    /**
+     * @internal
+     */
+    getRootString(path) {
+        return path.startsWith('/') ? '/' : '';
+    }
+    /**
+     * @internal
+     */
+    getRoot(_rootPath) {
+        return this.root;
+    }
+    /**
+     * @internal
+     */
+    newChild(name, type = UNKNOWN, opts = {}) {
+        return new PathPosix(name, type, this.root, this.roots, this.nocase, this.childrenCache(), opts);
+    }
+}
+exports.PathPosix = PathPosix;
+/**
+ * The base class for all PathScurry classes, providing the interface for path
+ * resolution and filesystem operations.
+ *
+ * Typically, you should *not* instantiate this class directly, but rather one
+ * of the platform-specific classes, or the exported {@link PathScurry} which
+ * defaults to the current platform.
+ */
+class PathScurryBase {
+    /**
+     * The root Path entry for the current working directory of this Scurry
+     */
+    root;
+    /**
+     * The string path for the root of this Scurry's current working directory
+     */
+    rootPath;
+    /**
+     * A collection of all roots encountered, referenced by rootPath
+     */
+    roots;
+    /**
+     * The Path entry corresponding to this PathScurry's current working directory.
+     */
+    cwd;
+    #resolveCache;
+    #resolvePosixCache;
+    #children;
+    /**
+     * Perform path comparisons case-insensitively.
+     *
+     * Defaults true on Darwin and Windows systems, false elsewhere.
+     */
+    nocase;
+    #fs;
+    /**
+     * This class should not be instantiated directly.
+     *
+     * Use PathScurryWin32, PathScurryDarwin, PathScurryPosix, or PathScurry
+     *
+     * @internal
+     */
+    constructor(cwd = process.cwd(), pathImpl, sep, { nocase, childrenCacheSize = 16 * 1024, fs = defaultFS, } = {}) {
+        this.#fs = fsFromOption(fs);
+        if (cwd instanceof URL || cwd.startsWith('file://')) {
+            cwd = (0, node_url_1.fileURLToPath)(cwd);
+        }
+        // resolve and split root, and then add to the store.
+        // this is the only time we call path.resolve()
+        const cwdPath = pathImpl.resolve(cwd);
+        this.roots = Object.create(null);
+        this.rootPath = this.parseRootPath(cwdPath);
+        this.#resolveCache = new ResolveCache();
+        this.#resolvePosixCache = new ResolveCache();
+        this.#children = new ChildrenCache(childrenCacheSize);
+        const split = cwdPath.substring(this.rootPath.length).split(sep);
+        // resolve('/') leaves '', splits to [''], we don't want that.
+        if (split.length === 1 && !split[0]) {
+            split.pop();
+        }
+        /* c8 ignore start */
+        if (nocase === undefined) {
+            throw new TypeError('must provide nocase setting to PathScurryBase ctor');
+        }
+        /* c8 ignore stop */
+        this.nocase = nocase;
+        this.root = this.newRoot(this.#fs);
+        this.roots[this.rootPath] = this.root;
+        let prev = this.root;
+        let len = split.length - 1;
+        const joinSep = pathImpl.sep;
+        let abs = this.rootPath;
+        let sawFirst = false;
+        for (const part of split) {
+            const l = len--;
+            prev = prev.child(part, {
+                relative: new Array(l).fill('..').join(joinSep),
+                relativePosix: new Array(l).fill('..').join('/'),
+                fullpath: (abs += (sawFirst ? '' : joinSep) + part),
+            });
+            sawFirst = true;
+        }
+        this.cwd = prev;
+    }
+    /**
+     * Get the depth of a provided path, string, or the cwd
+     */
+    depth(path = this.cwd) {
+        if (typeof path === 'string') {
+            path = this.cwd.resolve(path);
+        }
+        return path.depth();
+    }
+    /**
+     * Return the cache of child entries.  Exposed so subclasses can create
+     * child Path objects in a platform-specific way.
+     *
+     * @internal
+     */
+    childrenCache() {
+        return this.#children;
+    }
+    /**
+     * Resolve one or more path strings to a resolved string
+     *
+     * Same interface as require('path').resolve.
+     *
+     * Much faster than path.resolve() when called multiple times for the same
+     * path, because the resolved Path objects are cached.  Much slower
+     * otherwise.
+     */
+    resolve(...paths) {
+        // first figure out the minimum number of paths we have to test
+        // we always start at cwd, but any absolutes will bump the start
+        let r = '';
+        for (let i = paths.length - 1; i >= 0; i--) {
+            const p = paths[i];
+            if (!p || p === '.')
+                continue;
+            r = r ? `${p}/${r}` : p;
+            if (this.isAbsolute(p)) {
+                break;
+            }
+        }
+        const cached = this.#resolveCache.get(r);
+        if (cached !== undefined) {
+            return cached;
+        }
+        const result = this.cwd.resolve(r).fullpath();
+        this.#resolveCache.set(r, result);
+        return result;
+    }
+    /**
+     * Resolve one or more path strings to a resolved string, returning
+     * the posix path.  Identical to .resolve() on posix systems, but on
+     * windows will return a forward-slash separated UNC path.
+     *
+     * Same interface as require('path').resolve.
+     *
+     * Much faster than path.resolve() when called multiple times for the same
+     * path, because the resolved Path objects are cached.  Much slower
+     * otherwise.
+     */
+    resolvePosix(...paths) {
+        // first figure out the minimum number of paths we have to test
+        // we always start at cwd, but any absolutes will bump the start
+        let r = '';
+        for (let i = paths.length - 1; i >= 0; i--) {
+            const p = paths[i];
+            if (!p || p === '.')
+                continue;
+            r = r ? `${p}/${r}` : p;
+            if (this.isAbsolute(p)) {
+                break;
+            }
+        }
+        const cached = this.#resolvePosixCache.get(r);
+        if (cached !== undefined) {
+            return cached;
+        }
+        const result = this.cwd.resolve(r).fullpathPosix();
+        this.#resolvePosixCache.set(r, result);
+        return result;
+    }
+    /**
+     * find the relative path from the cwd to the supplied path string or entry
+     */
+    relative(entry = this.cwd) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        return entry.relative();
+    }
+    /**
+     * find the relative path from the cwd to the supplied path string or
+     * entry, using / as the path delimiter, even on Windows.
+     */
+    relativePosix(entry = this.cwd) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        return entry.relativePosix();
+    }
+    /**
+     * Return the basename for the provided string or Path object
+     */
+    basename(entry = this.cwd) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        return entry.name;
+    }
+    /**
+     * Return the dirname for the provided string or Path object
+     */
+    dirname(entry = this.cwd) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        return (entry.parent || entry).fullpath();
+    }
+    async readdir(entry = this.cwd, opts = {
+        withFileTypes: true,
+    }) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        else if (!(entry instanceof PathBase)) {
+            opts = entry;
+            entry = this.cwd;
+        }
+        const { withFileTypes } = opts;
+        if (!entry.canReaddir()) {
+            return [];
+        }
+        else {
+            const p = await entry.readdir();
+            return withFileTypes ? p : p.map(e => e.name);
+        }
+    }
+    readdirSync(entry = this.cwd, opts = {
+        withFileTypes: true,
+    }) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        else if (!(entry instanceof PathBase)) {
+            opts = entry;
+            entry = this.cwd;
+        }
+        const { withFileTypes = true } = opts;
+        if (!entry.canReaddir()) {
+            return [];
+        }
+        else if (withFileTypes) {
+            return entry.readdirSync();
+        }
+        else {
+            return entry.readdirSync().map(e => e.name);
+        }
+    }
+    /**
+     * Call lstat() on the string or Path object, and update all known
+     * information that can be determined.
+     *
+     * Note that unlike `fs.lstat()`, the returned value does not contain some
+     * information, such as `mode`, `dev`, `nlink`, and `ino`.  If that
+     * information is required, you will need to call `fs.lstat` yourself.
+     *
+     * If the Path refers to a nonexistent file, or if the lstat call fails for
+     * any reason, `undefined` is returned.  Otherwise the updated Path object is
+     * returned.
+     *
+     * Results are cached, and thus may be out of date if the filesystem is
+     * mutated.
+     */
+    async lstat(entry = this.cwd) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        return entry.lstat();
+    }
+    /**
+     * synchronous {@link PathScurryBase.lstat}
+     */
+    lstatSync(entry = this.cwd) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        return entry.lstatSync();
+    }
+    async readlink(entry = this.cwd, { withFileTypes } = {
+        withFileTypes: false,
+    }) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        else if (!(entry instanceof PathBase)) {
+            withFileTypes = entry.withFileTypes;
+            entry = this.cwd;
+        }
+        const e = await entry.readlink();
+        return withFileTypes ? e : e?.fullpath();
+    }
+    readlinkSync(entry = this.cwd, { withFileTypes } = {
+        withFileTypes: false,
+    }) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        else if (!(entry instanceof PathBase)) {
+            withFileTypes = entry.withFileTypes;
+            entry = this.cwd;
+        }
+        const e = entry.readlinkSync();
+        return withFileTypes ? e : e?.fullpath();
+    }
+    async realpath(entry = this.cwd, { withFileTypes } = {
+        withFileTypes: false,
+    }) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        else if (!(entry instanceof PathBase)) {
+            withFileTypes = entry.withFileTypes;
+            entry = this.cwd;
+        }
+        const e = await entry.realpath();
+        return withFileTypes ? e : e?.fullpath();
+    }
+    realpathSync(entry = this.cwd, { withFileTypes } = {
+        withFileTypes: false,
+    }) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        else if (!(entry instanceof PathBase)) {
+            withFileTypes = entry.withFileTypes;
+            entry = this.cwd;
+        }
+        const e = entry.realpathSync();
+        return withFileTypes ? e : e?.fullpath();
+    }
+    async walk(entry = this.cwd, opts = {}) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        else if (!(entry instanceof PathBase)) {
+            opts = entry;
+            entry = this.cwd;
+        }
+        const { withFileTypes = true, follow = false, filter, walkFilter, } = opts;
+        const results = [];
+        if (!filter || filter(entry)) {
+            results.push(withFileTypes ? entry : entry.fullpath());
+        }
+        const dirs = new Set();
+        const walk = (dir, cb) => {
+            dirs.add(dir);
+            dir.readdirCB((er, entries) => {
+                /* c8 ignore start */
+                if (er) {
+                    return cb(er);
+                }
+                /* c8 ignore stop */
+                let len = entries.length;
+                if (!len)
+                    return cb();
+                const next = () => {
+                    if (--len === 0) {
+                        cb();
+                    }
+                };
+                for (const e of entries) {
+                    if (!filter || filter(e)) {
+                        results.push(withFileTypes ? e : e.fullpath());
+                    }
+                    if (follow && e.isSymbolicLink()) {
+                        e.realpath()
+                            .then(r => (r?.isUnknown() ? r.lstat() : r))
+                            .then(r => r?.shouldWalk(dirs, walkFilter) ? walk(r, next) : next());
+                    }
+                    else {
+                        if (e.shouldWalk(dirs, walkFilter)) {
+                            walk(e, next);
+                        }
+                        else {
+                            next();
+                        }
+                    }
+                }
+            }, true); // zalgooooooo
+        };
+        const start = entry;
+        return new Promise((res, rej) => {
+            walk(start, er => {
+                /* c8 ignore start */
+                if (er)
+                    return rej(er);
+                /* c8 ignore stop */
+                res(results);
+            });
+        });
+    }
+    walkSync(entry = this.cwd, opts = {}) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        else if (!(entry instanceof PathBase)) {
+            opts = entry;
+            entry = this.cwd;
+        }
+        const { withFileTypes = true, follow = false, filter, walkFilter, } = opts;
+        const results = [];
+        if (!filter || filter(entry)) {
+            results.push(withFileTypes ? entry : entry.fullpath());
+        }
+        const dirs = new Set([entry]);
+        for (const dir of dirs) {
+            const entries = dir.readdirSync();
+            for (const e of entries) {
+                if (!filter || filter(e)) {
+                    results.push(withFileTypes ? e : e.fullpath());
+                }
+                let r = e;
+                if (e.isSymbolicLink()) {
+                    if (!(follow && (r = e.realpathSync())))
+                        continue;
+                    if (r.isUnknown())
+                        r.lstatSync();
+                }
+                if (r.shouldWalk(dirs, walkFilter)) {
+                    dirs.add(r);
+                }
+            }
+        }
+        return results;
+    }
+    /**
+     * Support for `for await`
+     *
+     * Alias for {@link PathScurryBase.iterate}
+     *
+     * Note: As of Node 19, this is very slow, compared to other methods of
+     * walking.  Consider using {@link PathScurryBase.stream} if memory overhead
+     * and backpressure are concerns, or {@link PathScurryBase.walk} if not.
+     */
+    [Symbol.asyncIterator]() {
+        return this.iterate();
+    }
+    iterate(entry = this.cwd, options = {}) {
+        // iterating async over the stream is significantly more performant,
+        // especially in the warm-cache scenario, because it buffers up directory
+        // entries in the background instead of waiting for a yield for each one.
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        else if (!(entry instanceof PathBase)) {
+            options = entry;
+            entry = this.cwd;
+        }
+        return this.stream(entry, options)[Symbol.asyncIterator]();
+    }
+    /**
+     * Iterating over a PathScurry performs a synchronous walk.
+     *
+     * Alias for {@link PathScurryBase.iterateSync}
+     */
+    [Symbol.iterator]() {
+        return this.iterateSync();
+    }
+    *iterateSync(entry = this.cwd, opts = {}) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        else if (!(entry instanceof PathBase)) {
+            opts = entry;
+            entry = this.cwd;
+        }
+        const { withFileTypes = true, follow = false, filter, walkFilter, } = opts;
+        if (!filter || filter(entry)) {
+            yield withFileTypes ? entry : entry.fullpath();
+        }
+        const dirs = new Set([entry]);
+        for (const dir of dirs) {
+            const entries = dir.readdirSync();
+            for (const e of entries) {
+                if (!filter || filter(e)) {
+                    yield withFileTypes ? e : e.fullpath();
+                }
+                let r = e;
+                if (e.isSymbolicLink()) {
+                    if (!(follow && (r = e.realpathSync())))
+                        continue;
+                    if (r.isUnknown())
+                        r.lstatSync();
+                }
+                if (r.shouldWalk(dirs, walkFilter)) {
+                    dirs.add(r);
+                }
+            }
+        }
+    }
+    stream(entry = this.cwd, opts = {}) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        else if (!(entry instanceof PathBase)) {
+            opts = entry;
+            entry = this.cwd;
+        }
+        const { withFileTypes = true, follow = false, filter, walkFilter, } = opts;
+        const results = new minipass_1.Minipass({ objectMode: true });
+        if (!filter || filter(entry)) {
+            results.write(withFileTypes ? entry : entry.fullpath());
+        }
+        const dirs = new Set();
+        const queue = [entry];
+        let processing = 0;
+        const process = () => {
+            let paused = false;
+            while (!paused) {
+                const dir = queue.shift();
+                if (!dir) {
+                    if (processing === 0)
+                        results.end();
+                    return;
+                }
+                processing++;
+                dirs.add(dir);
+                const onReaddir = (er, entries, didRealpaths = false) => {
+                    /* c8 ignore start */
+                    if (er)
+                        return results.emit('error', er);
+                    /* c8 ignore stop */
+                    if (follow && !didRealpaths) {
+                        const promises = [];
+                        for (const e of entries) {
+                            if (e.isSymbolicLink()) {
+                                promises.push(e
+                                    .realpath()
+                                    .then((r) => r?.isUnknown() ? r.lstat() : r));
+                            }
+                        }
+                        if (promises.length) {
+                            Promise.all(promises).then(() => onReaddir(null, entries, true));
+                            return;
+                        }
+                    }
+                    for (const e of entries) {
+                        if (e && (!filter || filter(e))) {
+                            if (!results.write(withFileTypes ? e : e.fullpath())) {
+                                paused = true;
+                            }
+                        }
+                    }
+                    processing--;
+                    for (const e of entries) {
+                        const r = e.realpathCached() || e;
+                        if (r.shouldWalk(dirs, walkFilter)) {
+                            queue.push(r);
+                        }
+                    }
+                    if (paused && !results.flowing) {
+                        results.once('drain', process);
+                    }
+                    else if (!sync) {
+                        process();
+                    }
+                };
+                // zalgo containment
+                let sync = true;
+                dir.readdirCB(onReaddir, true);
+                sync = false;
+            }
+        };
+        process();
+        return results;
+    }
+    streamSync(entry = this.cwd, opts = {}) {
+        if (typeof entry === 'string') {
+            entry = this.cwd.resolve(entry);
+        }
+        else if (!(entry instanceof PathBase)) {
+            opts = entry;
+            entry = this.cwd;
+        }
+        const { withFileTypes = true, follow = false, filter, walkFilter, } = opts;
+        const results = new minipass_1.Minipass({ objectMode: true });
+        const dirs = new Set();
+        if (!filter || filter(entry)) {
+            results.write(withFileTypes ? entry : entry.fullpath());
+        }
+        const queue = [entry];
+        let processing = 0;
+        const process = () => {
+            let paused = false;
+            while (!paused) {
+                const dir = queue.shift();
+                if (!dir) {
+                    if (processing === 0)
+                        results.end();
+                    return;
+                }
+                processing++;
+                dirs.add(dir);
+                const entries = dir.readdirSync();
+                for (const e of entries) {
+                    if (!filter || filter(e)) {
+                        if (!results.write(withFileTypes ? e : e.fullpath())) {
+                            paused = true;
+                        }
+                    }
+                }
+                processing--;
+                for (const e of entries) {
+                    let r = e;
+                    if (e.isSymbolicLink()) {
+                        if (!(follow && (r = e.realpathSync())))
+                            continue;
+                        if (r.isUnknown())
+                            r.lstatSync();
+                    }
+                    if (r.shouldWalk(dirs, walkFilter)) {
+                        queue.push(r);
+                    }
+                }
+            }
+            if (paused && !results.flowing)
+                results.once('drain', process);
+        };
+        process();
+        return results;
+    }
+    chdir(path = this.cwd) {
+        const oldCwd = this.cwd;
+        this.cwd = typeof path === 'string' ? this.cwd.resolve(path) : path;
+        this.cwd[setAsCwd](oldCwd);
+    }
+}
+exports.PathScurryBase = PathScurryBase;
+/**
+ * Windows implementation of {@link PathScurryBase}
+ *
+ * Defaults to case insensitve, uses `'\\'` to generate path strings.  Uses
+ * {@link PathWin32} for Path objects.
+ */
+class PathScurryWin32 extends PathScurryBase {
+    /**
+     * separator for generating path strings
+     */
+    sep = '\\';
+    constructor(cwd = process.cwd(), opts = {}) {
+        const { nocase = true } = opts;
+        super(cwd, node_path_1.win32, '\\', { ...opts, nocase });
+        this.nocase = nocase;
+        for (let p = this.cwd; p; p = p.parent) {
+            p.nocase = this.nocase;
+        }
+    }
+    /**
+     * @internal
+     */
+    parseRootPath(dir) {
+        // if the path starts with a single separator, it's not a UNC, and we'll
+        // just get separator as the root, and driveFromUNC will return \
+        // In that case, mount \ on the root from the cwd.
+        return node_path_1.win32.parse(dir).root.toUpperCase();
+    }
+    /**
+     * @internal
+     */
+    newRoot(fs) {
+        return new PathWin32(this.rootPath, IFDIR, undefined, this.roots, this.nocase, this.childrenCache(), { fs });
+    }
+    /**
+     * Return true if the provided path string is an absolute path
+     */
+    isAbsolute(p) {
+        return (p.startsWith('/') || p.startsWith('\\') || /^[a-z]:(\/|\\)/i.test(p));
+    }
+}
+exports.PathScurryWin32 = PathScurryWin32;
+/**
+ * {@link PathScurryBase} implementation for all posix systems other than Darwin.
+ *
+ * Defaults to case-sensitive matching, uses `'/'` to generate path strings.
+ *
+ * Uses {@link PathPosix} for Path objects.
+ */
+class PathScurryPosix extends PathScurryBase {
+    /**
+     * separator for generating path strings
+     */
+    sep = '/';
+    constructor(cwd = process.cwd(), opts = {}) {
+        const { nocase = false } = opts;
+        super(cwd, node_path_1.posix, '/', { ...opts, nocase });
+        this.nocase = nocase;
+    }
+    /**
+     * @internal
+     */
+    parseRootPath(_dir) {
+        return '/';
+    }
+    /**
+     * @internal
+     */
+    newRoot(fs) {
+        return new PathPosix(this.rootPath, IFDIR, undefined, this.roots, this.nocase, this.childrenCache(), { fs });
+    }
+    /**
+     * Return true if the provided path string is an absolute path
+     */
+    isAbsolute(p) {
+        return p.startsWith('/');
+    }
+}
+exports.PathScurryPosix = PathScurryPosix;
+/**
+ * {@link PathScurryBase} implementation for Darwin (macOS) systems.
+ *
+ * Defaults to case-insensitive matching, uses `'/'` for generating path
+ * strings.
+ *
+ * Uses {@link PathPosix} for Path objects.
+ */
+class PathScurryDarwin extends PathScurryPosix {
+    constructor(cwd = process.cwd(), opts = {}) {
+        const { nocase = true } = opts;
+        super(cwd, { ...opts, nocase });
+    }
+}
+exports.PathScurryDarwin = PathScurryDarwin;
+/**
+ * Default {@link PathBase} implementation for the current platform.
+ *
+ * {@link PathWin32} on Windows systems, {@link PathPosix} on all others.
+ */
+exports.Path = process.platform === 'win32' ? PathWin32 : PathPosix;
+/**
+ * Default {@link PathScurryBase} implementation for the current platform.
+ *
+ * {@link PathScurryWin32} on Windows systems, {@link PathScurryDarwin} on
+ * Darwin (macOS) systems, {@link PathScurryPosix} on all others.
+ */
+exports.PathScurry = process.platform === 'win32' ? PathScurryWin32
+    : process.platform === 'darwin' ? PathScurryDarwin
+        : PathScurryPosix;
+//# sourceMappingURL=index.js.map
+
+/***/ }),
+
 /***/ 83193:
 /***/ ((__unused_webpack_module, exports) => {
 
@@ -86785,6 +96659,22 @@ exports.CsvError = CsvError;
 exports.parse = parse;
 
 
+/***/ }),
+
+/***/ 90512:
+/***/ ((module) => {
+
+"use strict";
+module.exports = /*#__PURE__*/JSON.parse('{"MH":{"Q":"2","P":"5"}}');
+
+/***/ }),
+
+/***/ 53644:
+/***/ ((module) => {
+
+"use strict";
+module.exports = /*#__PURE__*/JSON.parse('{"name":"make-fetch-happen","version":"15.0.0","description":"Opinionated, caching, retrying fetch client","main":"lib/index.js","files":["bin/","lib/"],"scripts":{"test":"tap","posttest":"npm run lint","eslint":"eslint \\"**/*.{js,cjs,ts,mjs,jsx,tsx}\\"","lint":"npm run eslint","lintfix":"npm run eslint -- --fix","postlint":"template-oss-check","snap":"tap","template-oss-apply":"template-oss-apply --force"},"repository":{"type":"git","url":"git+https://github.com/npm/make-fetch-happen.git"},"keywords":["http","request","fetch","mean girls","caching","cache","subresource integrity"],"author":"GitHub Inc.","license":"ISC","dependencies":{"@npmcli/agent":"^3.0.0","cacache":"^20.0.0","http-cache-semantics":"^4.1.1","minipass":"^7.0.2","minipass-fetch":"^4.0.0","minipass-flush":"^1.0.5","minipass-pipeline":"^1.2.4","negotiator":"^1.0.0","proc-log":"^5.0.0","promise-retry":"^2.0.1","ssri":"^12.0.0"},"devDependencies":{"@npmcli/eslint-config":"^5.0.0","@npmcli/template-oss":"4.25.0","nock":"^13.2.4","safe-buffer":"^5.2.1","standard-version":"^9.3.2","tap":"^16.0.0"},"engines":{"node":"^20.17.0 || >=22.9.0"},"tap":{"color":1,"files":"test/*.js","check-coverage":true,"timeout":60,"nyc-arg":["--exclude","tap-snapshots/**"]},"templateOSS":{"//@npmcli/template-oss":"This file is partially managed by @npmcli/template-oss. Edits may be overwritten.","version":"4.25.0","publish":"true"}}');
+
 /***/ }),
 
 /***/ 85896:
diff --git a/package-lock.json b/package-lock.json
index cc9109e..0ffa1b9 100644
--- a/package-lock.json
+++ b/package-lock.json
@@ -13,7 +13,7 @@
         "@actions/core": "^1.11.1",
         "@actions/github": "^6.0.1",
         "@actions/glob": "^0.5.0",
-        "@sigstore/oci": "^0.5.0",
+        "@sigstore/oci": "^0.6.0",
         "csv-parse": "^5.6.0"
       },
       "devDependencies": {
@@ -866,6 +866,25 @@
         "url": "https://github.com/sponsors/nzakas"
       }
     },
+    "node_modules/@isaacs/balanced-match": {
+      "version": "4.0.1",
+      "resolved": "https://registry.npmjs.org/@isaacs/balanced-match/-/balanced-match-4.0.1.tgz",
+      "integrity": "sha512-yzMTt9lEb8Gv7zRioUilSglI0c0smZ9k5D65677DLWLtWJaXIS3CqcGyUFByYKlnUj6TkjLVs54fBl6+TiGQDQ==",
+      "engines": {
+        "node": "20 || >=22"
+      }
+    },
+    "node_modules/@isaacs/brace-expansion": {
+      "version": "5.0.0",
+      "resolved": "https://registry.npmjs.org/@isaacs/brace-expansion/-/brace-expansion-5.0.0.tgz",
+      "integrity": "sha512-ZT55BDLV0yv0RBm2czMiZ+SqCGO7AvmOM3G/w2xhVPH+te0aKgFjmBvGlL1dH+ql2tgGO3MVrbb3jCKyvpgnxA==",
+      "dependencies": {
+        "@isaacs/balanced-match": "^4.0.1"
+      },
+      "engines": {
+        "node": "20 || >=22"
+      }
+    },
     "node_modules/@isaacs/cliui": {
       "version": "8.0.2",
       "license": "ISC",
@@ -1976,16 +1995,131 @@
       }
     },
     "node_modules/@sigstore/oci": {
-      "version": "0.5.0",
-      "resolved": "https://registry.npmjs.org/@sigstore/oci/-/oci-0.5.0.tgz",
-      "integrity": "sha512-9XiytDafq/vYh1ZPzcXvN2A3f2VMcmfu/RDohgueUNqJVZXDJ9OkY3lb/+INTo6g9ZCp5uYyJBmW2eYFVllUgQ==",
-      "license": "Apache-2.0",
+      "version": "0.6.0",
+      "resolved": "https://registry.npmjs.org/@sigstore/oci/-/oci-0.6.0.tgz",
+      "integrity": "sha512-baUn8bajz7x4sN/I80vWaw6vOEcuU0RmADr+67BK6a3lTpD9Rjt4t21vKr+3qe4BBtSXyKa7gFPCPlqEtDBOPw==",
       "dependencies": {
-        "make-fetch-happen": "^14.0.2",
+        "make-fetch-happen": "^15.0.0",
         "proc-log": "^5.0.0"
       },
       "engines": {
-        "node": "^18.17.0 || >=20.5.0"
+        "node": "^20.17.0 || >=22.9.0"
+      }
+    },
+    "node_modules/@sigstore/oci/node_modules/cacache": {
+      "version": "20.0.0",
+      "resolved": "https://registry.npmjs.org/cacache/-/cacache-20.0.0.tgz",
+      "integrity": "sha512-2Js2sNgHK36Fdu3ItpQqJjwUXAURb0uyo9i83Tr2wUQINU4tPl4AtQYh6mCqwVFV5W8+Vgcna+bSTQeyPLG/sQ==",
+      "dependencies": {
+        "@npmcli/fs": "^4.0.0",
+        "fs-minipass": "^3.0.0",
+        "glob": "^11.0.3",
+        "lru-cache": "^11.1.0",
+        "minipass": "^7.0.3",
+        "minipass-collect": "^2.0.1",
+        "minipass-flush": "^1.0.5",
+        "minipass-pipeline": "^1.2.4",
+        "p-map": "^7.0.2",
+        "ssri": "^12.0.0",
+        "tar": "^7.4.3",
+        "unique-filename": "^4.0.0"
+      },
+      "engines": {
+        "node": "^20.17.0 || >=22.9.0"
+      }
+    },
+    "node_modules/@sigstore/oci/node_modules/glob": {
+      "version": "11.0.3",
+      "resolved": "https://registry.npmjs.org/glob/-/glob-11.0.3.tgz",
+      "integrity": "sha512-2Nim7dha1KVkaiF4q6Dj+ngPPMdfvLJEOpZk/jKiUAkqKebpGAWQXAq9z1xu9HKu5lWfqw/FASuccEjyznjPaA==",
+      "dependencies": {
+        "foreground-child": "^3.3.1",
+        "jackspeak": "^4.1.1",
+        "minimatch": "^10.0.3",
+        "minipass": "^7.1.2",
+        "package-json-from-dist": "^1.0.0",
+        "path-scurry": "^2.0.0"
+      },
+      "bin": {
+        "glob": "dist/esm/bin.mjs"
+      },
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+      "resolved": "https://registry.npmjs.org/@isaacs/balanced-match/-/balanced-match-4.0.1.tgz",
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+          "requires": {
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+        "path-scurry": {
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@@ -12767,9 +12997,11 @@
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diff --git a/package.json b/package.json
index 8820f29..ddb4e3a 100644
--- a/package.json
+++ b/package.json
@@ -73,7 +73,7 @@
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     "@actions/github": "^6.0.1",
     "@actions/glob": "^0.5.0",
-    "@sigstore/oci": "^0.5.0",
+    "@sigstore/oci": "^0.6.0",
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