/* eslint-disable */ // @ts-nocheck import fs from 'fs'; import { URL as URL$1, fileURLToPath, pathToFileURL } from 'url'; import path from 'path'; import { createHash } from 'crypto'; import { EOL } from 'os'; import moduleExports, { isBuiltin } from 'module'; import assert from 'assert'; const SAFE_TIME = 456789e3; const PortablePath = { root: `/`, dot: `.`, parent: `..` }; const npath = Object.create(path); const ppath = Object.create(path.posix); npath.cwd = () => process.cwd(); ppath.cwd = process.platform === `win32` ? () => toPortablePath(process.cwd()) : process.cwd; if (process.platform === `win32`) { ppath.resolve = (...segments) => { if (segments.length > 0 && ppath.isAbsolute(segments[0])) { return path.posix.resolve(...segments); } else { return path.posix.resolve(ppath.cwd(), ...segments); } }; } const contains = function(pathUtils, from, to) { from = pathUtils.normalize(from); to = pathUtils.normalize(to); if (from === to) return `.`; if (!from.endsWith(pathUtils.sep)) from = from + pathUtils.sep; if (to.startsWith(from)) { return to.slice(from.length); } else { return null; } }; npath.contains = (from, to) => contains(npath, from, to); ppath.contains = (from, to) => contains(ppath, from, to); const WINDOWS_PATH_REGEXP = /^([a-zA-Z]:.*)$/; const UNC_WINDOWS_PATH_REGEXP = /^\/\/(\.\/)?(.*)$/; const PORTABLE_PATH_REGEXP = /^\/([a-zA-Z]:.*)$/; const UNC_PORTABLE_PATH_REGEXP = /^\/unc\/(\.dot\/)?(.*)$/; function fromPortablePathWin32(p) { let portablePathMatch, uncPortablePathMatch; if (portablePathMatch = p.match(PORTABLE_PATH_REGEXP)) p = portablePathMatch[1]; else if (uncPortablePathMatch = p.match(UNC_PORTABLE_PATH_REGEXP)) p = `\\\\${uncPortablePathMatch[1] ? `.\\` : ``}${uncPortablePathMatch[2]}`; else return p; return p.replace(/\//g, `\\`); } function toPortablePathWin32(p) { p = p.replace(/\\/g, `/`); let windowsPathMatch, uncWindowsPathMatch; if (windowsPathMatch = p.match(WINDOWS_PATH_REGEXP)) p = `/${windowsPathMatch[1]}`; else if (uncWindowsPathMatch = p.match(UNC_WINDOWS_PATH_REGEXP)) p = `/unc/${uncWindowsPathMatch[1] ? `.dot/` : ``}${uncWindowsPathMatch[2]}`; return p; } const toPortablePath = process.platform === `win32` ? toPortablePathWin32 : (p) => p; const fromPortablePath = process.platform === `win32` ? fromPortablePathWin32 : (p) => p; npath.fromPortablePath = fromPortablePath; npath.toPortablePath = toPortablePath; function convertPath(targetPathUtils, sourcePath) { return targetPathUtils === npath ? fromPortablePath(sourcePath) : toPortablePath(sourcePath); } const defaultTime = new Date(SAFE_TIME * 1e3); const defaultTimeMs = defaultTime.getTime(); async function copyPromise(destinationFs, destination, sourceFs, source, opts) { const normalizedDestination = destinationFs.pathUtils.normalize(destination); const normalizedSource = sourceFs.pathUtils.normalize(source); const prelayout = []; const postlayout = []; const { atime, mtime } = opts.stableTime ? { atime: defaultTime, mtime: defaultTime } : await sourceFs.lstatPromise(normalizedSource); await destinationFs.mkdirpPromise(destinationFs.pathUtils.dirname(destination), { utimes: [atime, mtime] }); await copyImpl(prelayout, postlayout, destinationFs, normalizedDestination, sourceFs, normalizedSource, { ...opts, didParentExist: true }); for (const operation of prelayout) await operation(); await Promise.all(postlayout.map((operation) => { return operation(); })); } async function copyImpl(prelayout, postlayout, destinationFs, destination, sourceFs, source, opts) { const destinationStat = opts.didParentExist ? await maybeLStat(destinationFs, destination) : null; const sourceStat = await sourceFs.lstatPromise(source); const { atime, mtime } = opts.stableTime ? { atime: defaultTime, mtime: defaultTime } : sourceStat; let updated; switch (true) { case sourceStat.isDirectory(): { updated = await copyFolder(prelayout, postlayout, destinationFs, destination, destinationStat, sourceFs, source, sourceStat, opts); } break; case sourceStat.isFile(): { updated = await copyFile(prelayout, postlayout, destinationFs, destination, destinationStat, sourceFs, source, sourceStat, opts); } break; case sourceStat.isSymbolicLink(): { updated = await copySymlink(prelayout, postlayout, destinationFs, destination, destinationStat, sourceFs, source, sourceStat, opts); } break; default: { throw new Error(`Unsupported file type (${sourceStat.mode})`); } } if (opts.linkStrategy?.type !== `HardlinkFromIndex` || !sourceStat.isFile()) { if (updated || destinationStat?.mtime?.getTime() !== mtime.getTime() || destinationStat?.atime?.getTime() !== atime.getTime()) { postlayout.push(() => destinationFs.lutimesPromise(destination, atime, mtime)); updated = true; } if (destinationStat === null || (destinationStat.mode & 511) !== (sourceStat.mode & 511)) { postlayout.push(() => destinationFs.chmodPromise(destination, sourceStat.mode & 511)); updated = true; } } return updated; } async function maybeLStat(baseFs, p) { try { return await baseFs.lstatPromise(p); } catch (e) { return null; } } async function copyFolder(prelayout, postlayout, destinationFs, destination, destinationStat, sourceFs, source, sourceStat, opts) { if (destinationStat !== null && !destinationStat.isDirectory()) { if (opts.overwrite) { prelayout.push(async () => destinationFs.removePromise(destination)); destinationStat = null; } else { return false; } } let updated = false; if (destinationStat === null) { prelayout.push(async () => { try { await destinationFs.mkdirPromise(destination, { mode: sourceStat.mode }); } catch (err) { if (err.code !== `EEXIST`) { throw err; } } }); updated = true; } const entries = await sourceFs.readdirPromise(source); const nextOpts = opts.didParentExist && !destinationStat ? { ...opts, didParentExist: false } : opts; if (opts.stableSort) { for (const entry of entries.sort()) { if (await copyImpl(prelayout, postlayout, destinationFs, destinationFs.pathUtils.join(destination, entry), sourceFs, sourceFs.pathUtils.join(source, entry), nextOpts)) { updated = true; } } } else { const entriesUpdateStatus = await Promise.all(entries.map(async (entry) => { await copyImpl(prelayout, postlayout, destinationFs, destinationFs.pathUtils.join(destination, entry), sourceFs, sourceFs.pathUtils.join(source, entry), nextOpts); })); if (entriesUpdateStatus.some((status) => status)) { updated = true; } } return updated; } async function copyFileViaIndex(prelayout, postlayout, destinationFs, destination, destinationStat, sourceFs, source, sourceStat, opts, linkStrategy) { const sourceHash = await sourceFs.checksumFilePromise(source, { algorithm: `sha1` }); const defaultMode = 420; const sourceMode = sourceStat.mode & 511; const indexFileName = `${sourceHash}${sourceMode !== defaultMode ? sourceMode.toString(8) : ``}`; const indexPath = destinationFs.pathUtils.join(linkStrategy.indexPath, sourceHash.slice(0, 2), `${indexFileName}.dat`); let AtomicBehavior; ((AtomicBehavior2) => { AtomicBehavior2[AtomicBehavior2["Lock"] = 0] = "Lock"; AtomicBehavior2[AtomicBehavior2["Rename"] = 1] = "Rename"; })(AtomicBehavior || (AtomicBehavior = {})); let atomicBehavior = 1 /* Rename */; let indexStat = await maybeLStat(destinationFs, indexPath); if (destinationStat) { const isDestinationHardlinkedFromIndex = indexStat && destinationStat.dev === indexStat.dev && destinationStat.ino === indexStat.ino; const isIndexModified = indexStat?.mtimeMs !== defaultTimeMs; if (isDestinationHardlinkedFromIndex) { if (isIndexModified && linkStrategy.autoRepair) { atomicBehavior = 0 /* Lock */; indexStat = null; } } if (!isDestinationHardlinkedFromIndex) { if (opts.overwrite) { prelayout.push(async () => destinationFs.removePromise(destination)); destinationStat = null; } else { return false; } } } const tempPath = !indexStat && atomicBehavior === 1 /* Rename */ ? `${indexPath}.${Math.floor(Math.random() * 4294967296).toString(16).padStart(8, `0`)}` : null; let tempPathCleaned = false; prelayout.push(async () => { if (!indexStat) { if (atomicBehavior === 0 /* Lock */) { await destinationFs.lockPromise(indexPath, async () => { const content = await sourceFs.readFilePromise(source); await destinationFs.writeFilePromise(indexPath, content); }); } if (atomicBehavior === 1 /* Rename */ && tempPath) { const content = await sourceFs.readFilePromise(source); await destinationFs.writeFilePromise(tempPath, content); try { await destinationFs.linkPromise(tempPath, indexPath); } catch (err) { if (err.code === `EEXIST`) { tempPathCleaned = true; await destinationFs.unlinkPromise(tempPath); } else { throw err; } } } } if (!destinationStat) { await destinationFs.linkPromise(indexPath, destination); } }); postlayout.push(async () => { if (!indexStat) { await destinationFs.lutimesPromise(indexPath, defaultTime, defaultTime); if (sourceMode !== defaultMode) { await destinationFs.chmodPromise(indexPath, sourceMode); } } if (tempPath && !tempPathCleaned) { await destinationFs.unlinkPromise(tempPath); } }); return false; } async function copyFileDirect(prelayout, postlayout, destinationFs, destination, destinationStat, sourceFs, source, sourceStat, opts) { if (destinationStat !== null) { if (opts.overwrite) { prelayout.push(async () => destinationFs.removePromise(destination)); destinationStat = null; } else { return false; } } prelayout.push(async () => { const content = await sourceFs.readFilePromise(source); await destinationFs.writeFilePromise(destination, content); }); return true; } async function copyFile(prelayout, postlayout, destinationFs, destination, destinationStat, sourceFs, source, sourceStat, opts) { if (opts.linkStrategy?.type === `HardlinkFromIndex`) { return copyFileViaIndex(prelayout, postlayout, destinationFs, destination, destinationStat, sourceFs, source, sourceStat, opts, opts.linkStrategy); } else { return copyFileDirect(prelayout, postlayout, destinationFs, destination, destinationStat, sourceFs, source, sourceStat, opts); } } async function copySymlink(prelayout, postlayout, destinationFs, destination, destinationStat, sourceFs, source, sourceStat, opts) { if (destinationStat !== null) { if (opts.overwrite) { prelayout.push(async () => destinationFs.removePromise(destination)); destinationStat = null; } else { return false; } } prelayout.push(async () => { await destinationFs.symlinkPromise(convertPath(destinationFs.pathUtils, await sourceFs.readlinkPromise(source)), destination); }); return true; } class FakeFS { constructor(pathUtils) { this.pathUtils = pathUtils; } async *genTraversePromise(init, { stableSort = false } = {}) { const stack = [init]; while (stack.length > 0) { const p = stack.shift(); const entry = await this.lstatPromise(p); if (entry.isDirectory()) { const entries = await this.readdirPromise(p); if (stableSort) { for (const entry2 of entries.sort()) { stack.push(this.pathUtils.join(p, entry2)); } } else { throw new Error(`Not supported`); } } else { yield p; } } } async checksumFilePromise(path, { algorithm = `sha512` } = {}) { const fd = await this.openPromise(path, `r`); try { const CHUNK_SIZE = 65536; const chunk = Buffer.allocUnsafeSlow(CHUNK_SIZE); const hash = createHash(algorithm); let bytesRead = 0; while ((bytesRead = await this.readPromise(fd, chunk, 0, CHUNK_SIZE)) !== 0) hash.update(bytesRead === CHUNK_SIZE ? chunk : chunk.slice(0, bytesRead)); return hash.digest(`hex`); } finally { await this.closePromise(fd); } } async removePromise(p, { recursive = true, maxRetries = 5 } = {}) { let stat; try { stat = await this.lstatPromise(p); } catch (error) { if (error.code === `ENOENT`) { return; } else { throw error; } } if (stat.isDirectory()) { if (recursive) { const entries = await this.readdirPromise(p); await Promise.all(entries.map((entry) => { return this.removePromise(this.pathUtils.resolve(p, entry)); })); } for (let t = 0; t <= maxRetries; t++) { try { await this.rmdirPromise(p); break; } catch (error) { if (error.code !== `EBUSY` && error.code !== `ENOTEMPTY`) { throw error; } else if (t < maxRetries) { await new Promise((resolve) => setTimeout(resolve, t * 100)); } } } } else { await this.unlinkPromise(p); } } removeSync(p, { recursive = true } = {}) { let stat; try { stat = this.lstatSync(p); } catch (error) { if (error.code === `ENOENT`) { return; } else { throw error; } } if (stat.isDirectory()) { if (recursive) for (const entry of this.readdirSync(p)) this.removeSync(this.pathUtils.resolve(p, entry)); this.rmdirSync(p); } else { this.unlinkSync(p); } } async mkdirpPromise(p, { chmod, utimes } = {}) { p = this.resolve(p); if (p === this.pathUtils.dirname(p)) return void 0; const parts = p.split(this.pathUtils.sep); let createdDirectory; for (let u = 2; u <= parts.length; ++u) { const subPath = parts.slice(0, u).join(this.pathUtils.sep); if (!this.existsSync(subPath)) { try { await this.mkdirPromise(subPath); } catch (error) { if (error.code === `EEXIST`) { continue; } else { throw error; } } createdDirectory ??= subPath; if (chmod != null) await this.chmodPromise(subPath, chmod); if (utimes != null) { await this.utimesPromise(subPath, utimes[0], utimes[1]); } else { const parentStat = await this.statPromise(this.pathUtils.dirname(subPath)); await this.utimesPromise(subPath, parentStat.atime, parentStat.mtime); } } } return createdDirectory; } mkdirpSync(p, { chmod, utimes } = {}) { p = this.resolve(p); if (p === this.pathUtils.dirname(p)) return void 0; const parts = p.split(this.pathUtils.sep); let createdDirectory; for (let u = 2; u <= parts.length; ++u) { const subPath = parts.slice(0, u).join(this.pathUtils.sep); if (!this.existsSync(subPath)) { try { this.mkdirSync(subPath); } catch (error) { if (error.code === `EEXIST`) { continue; } else { throw error; } } createdDirectory ??= subPath; if (chmod != null) this.chmodSync(subPath, chmod); if (utimes != null) { this.utimesSync(subPath, utimes[0], utimes[1]); } else { const parentStat = this.statSync(this.pathUtils.dirname(subPath)); this.utimesSync(subPath, parentStat.atime, parentStat.mtime); } } } return createdDirectory; } async copyPromise(destination, source, { baseFs = this, overwrite = true, stableSort = false, stableTime = false, linkStrategy = null } = {}) { return await copyPromise(this, destination, baseFs, source, { overwrite, stableSort, stableTime, linkStrategy }); } copySync(destination, source, { baseFs = this, overwrite = true } = {}) { const stat = baseFs.lstatSync(source); const exists = this.existsSync(destination); if (stat.isDirectory()) { this.mkdirpSync(destination); const directoryListing = baseFs.readdirSync(source); for (const entry of directoryListing) { this.copySync(this.pathUtils.join(destination, entry), baseFs.pathUtils.join(source, entry), { baseFs, overwrite }); } } else if (stat.isFile()) { if (!exists || overwrite) { if (exists) this.removeSync(destination); const content = baseFs.readFileSync(source); this.writeFileSync(destination, content); } } else if (stat.isSymbolicLink()) { if (!exists || overwrite) { if (exists) this.removeSync(destination); const target = baseFs.readlinkSync(source); this.symlinkSync(convertPath(this.pathUtils, target), destination); } } else { throw new Error(`Unsupported file type (file: ${source}, mode: 0o${stat.mode.toString(8).padStart(6, `0`)})`); } const mode = stat.mode & 511; this.chmodSync(destination, mode); } async changeFilePromise(p, content, opts = {}) { if (Buffer.isBuffer(content)) { return this.changeFileBufferPromise(p, content, opts); } else { return this.changeFileTextPromise(p, content, opts); } } async changeFileBufferPromise(p, content, { mode } = {}) { let current = Buffer.alloc(0); try { current = await this.readFilePromise(p); } catch (error) { } if (Buffer.compare(current, content) === 0) return; await this.writeFilePromise(p, content, { mode }); } async changeFileTextPromise(p, content, { automaticNewlines, mode } = {}) { let current = ``; try { current = await this.readFilePromise(p, `utf8`); } catch (error) { } const normalizedContent = automaticNewlines ? normalizeLineEndings(current, content) : content; if (current === normalizedContent) return; await this.writeFilePromise(p, normalizedContent, { mode }); } changeFileSync(p, content, opts = {}) { if (Buffer.isBuffer(content)) { return this.changeFileBufferSync(p, content, opts); } else { return this.changeFileTextSync(p, content, opts); } } changeFileBufferSync(p, content, { mode } = {}) { let current = Buffer.alloc(0); try { current = this.readFileSync(p); } catch (error) { } if (Buffer.compare(current, content) === 0) return; this.writeFileSync(p, content, { mode }); } changeFileTextSync(p, content, { automaticNewlines = false, mode } = {}) { let current = ``; try { current = this.readFileSync(p, `utf8`); } catch (error) { } const normalizedContent = automaticNewlines ? normalizeLineEndings(current, content) : content; if (current === normalizedContent) return; this.writeFileSync(p, normalizedContent, { mode }); } async movePromise(fromP, toP) { try { await this.renamePromise(fromP, toP); } catch (error) { if (error.code === `EXDEV`) { await this.copyPromise(toP, fromP); await this.removePromise(fromP); } else { throw error; } } } moveSync(fromP, toP) { try { this.renameSync(fromP, toP); } catch (error) { if (error.code === `EXDEV`) { this.copySync(toP, fromP); this.removeSync(fromP); } else { throw error; } } } async lockPromise(affectedPath, callback) { const lockPath = `${affectedPath}.flock`; const interval = 1e3 / 60; const startTime = Date.now(); let fd = null; const isAlive = async () => { let pid; try { [pid] = await this.readJsonPromise(lockPath); } catch (error) { return Date.now() - startTime < 500; } try { process.kill(pid, 0); return true; } catch (error) { return false; } }; while (fd === null) { try { fd = await this.openPromise(lockPath, `wx`); } catch (error) { if (error.code === `EEXIST`) { if (!await isAlive()) { try { await this.unlinkPromise(lockPath); continue; } catch (error2) { } } if (Date.now() - startTime < 60 * 1e3) { await new Promise((resolve) => setTimeout(resolve, interval)); } else { throw new Error(`Couldn't acquire a lock in a reasonable time (via ${lockPath})`); } } else { throw error; } } } await this.writePromise(fd, JSON.stringify([process.pid])); try { return await callback(); } finally { try { await this.closePromise(fd); await this.unlinkPromise(lockPath); } catch (error) { } } } async readJsonPromise(p) { const content = await this.readFilePromise(p, `utf8`); try { return JSON.parse(content); } catch (error) { error.message += ` (in ${p})`; throw error; } } readJsonSync(p) { const content = this.readFileSync(p, `utf8`); try { return JSON.parse(content); } catch (error) { error.message += ` (in ${p})`; throw error; } } async writeJsonPromise(p, data, { compact = false } = {}) { const space = compact ? 0 : 2; return await this.writeFilePromise(p, `${JSON.stringify(data, null, space)} `); } writeJsonSync(p, data, { compact = false } = {}) { const space = compact ? 0 : 2; return this.writeFileSync(p, `${JSON.stringify(data, null, space)} `); } async preserveTimePromise(p, cb) { const stat = await this.lstatPromise(p); const result = await cb(); if (typeof result !== `undefined`) p = result; await this.lutimesPromise(p, stat.atime, stat.mtime); } async preserveTimeSync(p, cb) { const stat = this.lstatSync(p); const result = cb(); if (typeof result !== `undefined`) p = result; this.lutimesSync(p, stat.atime, stat.mtime); } } class BasePortableFakeFS extends FakeFS { constructor() { super(ppath); } } function getEndOfLine(content) { const matches = content.match(/\r?\n/g); if (matches === null) return EOL; const crlf = matches.filter((nl) => nl === `\r `).length; const lf = matches.length - crlf; return crlf > lf ? `\r ` : ` `; } function normalizeLineEndings(originalContent, newContent) { return newContent.replace(/\r?\n/g, getEndOfLine(originalContent)); } class ProxiedFS extends FakeFS { getExtractHint(hints) { return this.baseFs.getExtractHint(hints); } resolve(path) { return this.mapFromBase(this.baseFs.resolve(this.mapToBase(path))); } getRealPath() { return this.mapFromBase(this.baseFs.getRealPath()); } async openPromise(p, flags, mode) { return this.baseFs.openPromise(this.mapToBase(p), flags, mode); } openSync(p, flags, mode) { return this.baseFs.openSync(this.mapToBase(p), flags, mode); } async opendirPromise(p, opts) { return Object.assign(await this.baseFs.opendirPromise(this.mapToBase(p), opts), { path: p }); } opendirSync(p, opts) { return Object.assign(this.baseFs.opendirSync(this.mapToBase(p), opts), { path: p }); } async readPromise(fd, buffer, offset, length, position) { return await this.baseFs.readPromise(fd, buffer, offset, length, position); } readSync(fd, buffer, offset, length, position) { return this.baseFs.readSync(fd, buffer, offset, length, position); } async writePromise(fd, buffer, offset, length, position) { if (typeof buffer === `string`) { return await this.baseFs.writePromise(fd, buffer, offset); } else { return await this.baseFs.writePromise(fd, buffer, offset, length, position); } } writeSync(fd, buffer, offset, length, position) { if (typeof buffer === `string`) { return this.baseFs.writeSync(fd, buffer, offset); } else { return this.baseFs.writeSync(fd, buffer, offset, length, position); } } async closePromise(fd) { return this.baseFs.closePromise(fd); } closeSync(fd) { this.baseFs.closeSync(fd); } createReadStream(p, opts) { return this.baseFs.createReadStream(p !== null ? this.mapToBase(p) : p, opts); } createWriteStream(p, opts) { return this.baseFs.createWriteStream(p !== null ? this.mapToBase(p) : p, opts); } async realpathPromise(p) { return this.mapFromBase(await this.baseFs.realpathPromise(this.mapToBase(p))); } realpathSync(p) { return this.mapFromBase(this.baseFs.realpathSync(this.mapToBase(p))); } async existsPromise(p) { return this.baseFs.existsPromise(this.mapToBase(p)); } existsSync(p) { return this.baseFs.existsSync(this.mapToBase(p)); } accessSync(p, mode) { return this.baseFs.accessSync(this.mapToBase(p), mode); } async accessPromise(p, mode) { return this.baseFs.accessPromise(this.mapToBase(p), mode); } async statPromise(p, opts) { return this.baseFs.statPromise(this.mapToBase(p), opts); } statSync(p, opts) { return this.baseFs.statSync(this.mapToBase(p), opts); } async fstatPromise(fd, opts) { return this.baseFs.fstatPromise(fd, opts); } fstatSync(fd, opts) { return this.baseFs.fstatSync(fd, opts); } lstatPromise(p, opts) { return this.baseFs.lstatPromise(this.mapToBase(p), opts); } lstatSync(p, opts) { return this.baseFs.lstatSync(this.mapToBase(p), opts); } async fchmodPromise(fd, mask) { return this.baseFs.fchmodPromise(fd, mask); } fchmodSync(fd, mask) { return this.baseFs.fchmodSync(fd, mask); } async chmodPromise(p, mask) { return this.baseFs.chmodPromise(this.mapToBase(p), mask); } chmodSync(p, mask) { return this.baseFs.chmodSync(this.mapToBase(p), mask); } async fchownPromise(fd, uid, gid) { return this.baseFs.fchownPromise(fd, uid, gid); } fchownSync(fd, uid, gid) { return this.baseFs.fchownSync(fd, uid, gid); } async chownPromise(p, uid, gid) { return this.baseFs.chownPromise(this.mapToBase(p), uid, gid); } chownSync(p, uid, gid) { return this.baseFs.chownSync(this.mapToBase(p), uid, gid); } async renamePromise(oldP, newP) { return this.baseFs.renamePromise(this.mapToBase(oldP), this.mapToBase(newP)); } renameSync(oldP, newP) { return this.baseFs.renameSync(this.mapToBase(oldP), this.mapToBase(newP)); } async copyFilePromise(sourceP, destP, flags = 0) { return this.baseFs.copyFilePromise(this.mapToBase(sourceP), this.mapToBase(destP), flags); } copyFileSync(sourceP, destP, flags = 0) { return this.baseFs.copyFileSync(this.mapToBase(sourceP), this.mapToBase(destP), flags); } async appendFilePromise(p, content, opts) { return this.baseFs.appendFilePromise(this.fsMapToBase(p), content, opts); } appendFileSync(p, content, opts) { return this.baseFs.appendFileSync(this.fsMapToBase(p), content, opts); } async writeFilePromise(p, content, opts) { return this.baseFs.writeFilePromise(this.fsMapToBase(p), content, opts); } writeFileSync(p, content, opts) { return this.baseFs.writeFileSync(this.fsMapToBase(p), content, opts); } async unlinkPromise(p) { return this.baseFs.unlinkPromise(this.mapToBase(p)); } unlinkSync(p) { return this.baseFs.unlinkSync(this.mapToBase(p)); } async utimesPromise(p, atime, mtime) { return this.baseFs.utimesPromise(this.mapToBase(p), atime, mtime); } utimesSync(p, atime, mtime) { return this.baseFs.utimesSync(this.mapToBase(p), atime, mtime); } async lutimesPromise(p, atime, mtime) { return this.baseFs.lutimesPromise(this.mapToBase(p), atime, mtime); } lutimesSync(p, atime, mtime) { return this.baseFs.lutimesSync(this.mapToBase(p), atime, mtime); } async mkdirPromise(p, opts) { return this.baseFs.mkdirPromise(this.mapToBase(p), opts); } mkdirSync(p, opts) { return this.baseFs.mkdirSync(this.mapToBase(p), opts); } async rmdirPromise(p, opts) { return this.baseFs.rmdirPromise(this.mapToBase(p), opts); } rmdirSync(p, opts) { return this.baseFs.rmdirSync(this.mapToBase(p), opts); } async rmPromise(p, opts) { return this.baseFs.rmPromise(this.mapToBase(p), opts); } rmSync(p, opts) { return this.baseFs.rmSync(this.mapToBase(p), opts); } async linkPromise(existingP, newP) { return this.baseFs.linkPromise(this.mapToBase(existingP), this.mapToBase(newP)); } linkSync(existingP, newP) { return this.baseFs.linkSync(this.mapToBase(existingP), this.mapToBase(newP)); } async symlinkPromise(target, p, type) { const mappedP = this.mapToBase(p); if (this.pathUtils.isAbsolute(target)) return this.baseFs.symlinkPromise(this.mapToBase(target), mappedP, type); const mappedAbsoluteTarget = this.mapToBase(this.pathUtils.join(this.pathUtils.dirname(p), target)); const mappedTarget = this.baseFs.pathUtils.relative(this.baseFs.pathUtils.dirname(mappedP), mappedAbsoluteTarget); return this.baseFs.symlinkPromise(mappedTarget, mappedP, type); } symlinkSync(target, p, type) { const mappedP = this.mapToBase(p); if (this.pathUtils.isAbsolute(target)) return this.baseFs.symlinkSync(this.mapToBase(target), mappedP, type); const mappedAbsoluteTarget = this.mapToBase(this.pathUtils.join(this.pathUtils.dirname(p), target)); const mappedTarget = this.baseFs.pathUtils.relative(this.baseFs.pathUtils.dirname(mappedP), mappedAbsoluteTarget); return this.baseFs.symlinkSync(mappedTarget, mappedP, type); } async readFilePromise(p, encoding) { return this.baseFs.readFilePromise(this.fsMapToBase(p), encoding); } readFileSync(p, encoding) { return this.baseFs.readFileSync(this.fsMapToBase(p), encoding); } readdirPromise(p, opts) { return this.baseFs.readdirPromise(this.mapToBase(p), opts); } readdirSync(p, opts) { return this.baseFs.readdirSync(this.mapToBase(p), opts); } async readlinkPromise(p) { return this.mapFromBase(await this.baseFs.readlinkPromise(this.mapToBase(p))); } readlinkSync(p) { return this.mapFromBase(this.baseFs.readlinkSync(this.mapToBase(p))); } async truncatePromise(p, len) { return this.baseFs.truncatePromise(this.mapToBase(p), len); } truncateSync(p, len) { return this.baseFs.truncateSync(this.mapToBase(p), len); } async ftruncatePromise(fd, len) { return this.baseFs.ftruncatePromise(fd, len); } ftruncateSync(fd, len) { return this.baseFs.ftruncateSync(fd, len); } watch(p, a, b) { return this.baseFs.watch( this.mapToBase(p), a, b ); } watchFile(p, a, b) { return this.baseFs.watchFile( this.mapToBase(p), a, b ); } unwatchFile(p, cb) { return this.baseFs.unwatchFile(this.mapToBase(p), cb); } fsMapToBase(p) { if (typeof p === `number`) { return p; } else { return this.mapToBase(p); } } } function direntToPortable(dirent) { const portableDirent = dirent; if (typeof dirent.path === `string`) portableDirent.path = npath.toPortablePath(dirent.path); return portableDirent; } class NodeFS extends BasePortableFakeFS { constructor(realFs = fs) { super(); this.realFs = realFs; } getExtractHint() { return false; } getRealPath() { return PortablePath.root; } resolve(p) { return ppath.resolve(p); } async openPromise(p, flags, mode) { return await new Promise((resolve, reject) => { this.realFs.open(npath.fromPortablePath(p), flags, mode, this.makeCallback(resolve, reject)); }); } openSync(p, flags, mode) { return this.realFs.openSync(npath.fromPortablePath(p), flags, mode); } async opendirPromise(p, opts) { return await new Promise((resolve, reject) => { if (typeof opts !== `undefined`) { this.realFs.opendir(npath.fromPortablePath(p), opts, this.makeCallback(resolve, reject)); } else { this.realFs.opendir(npath.fromPortablePath(p), this.makeCallback(resolve, reject)); } }).then((dir) => { const dirWithFixedPath = dir; Object.defineProperty(dirWithFixedPath, `path`, { value: p, configurable: true, writable: true }); return dirWithFixedPath; }); } opendirSync(p, opts) { const dir = typeof opts !== `undefined` ? this.realFs.opendirSync(npath.fromPortablePath(p), opts) : this.realFs.opendirSync(npath.fromPortablePath(p)); const dirWithFixedPath = dir; Object.defineProperty(dirWithFixedPath, `path`, { value: p, configurable: true, writable: true }); return dirWithFixedPath; } async readPromise(fd, buffer, offset = 0, length = 0, position = -1) { return await new Promise((resolve, reject) => { this.realFs.read(fd, buffer, offset, length, position, (error, bytesRead) => { if (error) { reject(error); } else { resolve(bytesRead); } }); }); } readSync(fd, buffer, offset, length, position) { return this.realFs.readSync(fd, buffer, offset, length, position); } async writePromise(fd, buffer, offset, length, position) { return await new Promise((resolve, reject) => { if (typeof buffer === `string`) { return this.realFs.write(fd, buffer, offset, this.makeCallback(resolve, reject)); } else { return this.realFs.write(fd, buffer, offset, length, position, this.makeCallback(resolve, reject)); } }); } writeSync(fd, buffer, offset, length, position) { if (typeof buffer === `string`) { return this.realFs.writeSync(fd, buffer, offset); } else { return this.realFs.writeSync(fd, buffer, offset, length, position); } } async closePromise(fd) { await new Promise((resolve, reject) => { this.realFs.close(fd, this.makeCallback(resolve, reject)); }); } closeSync(fd) { this.realFs.closeSync(fd); } createReadStream(p, opts) { const realPath = p !== null ? npath.fromPortablePath(p) : p; return this.realFs.createReadStream(realPath, opts); } createWriteStream(p, opts) { const realPath = p !== null ? npath.fromPortablePath(p) : p; return this.realFs.createWriteStream(realPath, opts); } async realpathPromise(p) { return await new Promise((resolve, reject) => { this.realFs.realpath(npath.fromPortablePath(p), {}, this.makeCallback(resolve, reject)); }).then((path) => { return npath.toPortablePath(path); }); } realpathSync(p) { return npath.toPortablePath(this.realFs.realpathSync(npath.fromPortablePath(p), {})); } async existsPromise(p) { return await new Promise((resolve) => { this.realFs.exists(npath.fromPortablePath(p), resolve); }); } accessSync(p, mode) { return this.realFs.accessSync(npath.fromPortablePath(p), mode); } async accessPromise(p, mode) { return await new Promise((resolve, reject) => { this.realFs.access(npath.fromPortablePath(p), mode, this.makeCallback(resolve, reject)); }); } existsSync(p) { return this.realFs.existsSync(npath.fromPortablePath(p)); } async statPromise(p, opts) { return await new Promise((resolve, reject) => { if (opts) { this.realFs.stat(npath.fromPortablePath(p), opts, this.makeCallback(resolve, reject)); } else { this.realFs.stat(npath.fromPortablePath(p), this.makeCallback(resolve, reject)); } }); } statSync(p, opts) { if (opts) { return this.realFs.statSync(npath.fromPortablePath(p), opts); } else { return this.realFs.statSync(npath.fromPortablePath(p)); } } async fstatPromise(fd, opts) { return await new Promise((resolve, reject) => { if (opts) { this.realFs.fstat(fd, opts, this.makeCallback(resolve, reject)); } else { this.realFs.fstat(fd, this.makeCallback(resolve, reject)); } }); } fstatSync(fd, opts) { if (opts) { return this.realFs.fstatSync(fd, opts); } else { return this.realFs.fstatSync(fd); } } async lstatPromise(p, opts) { return await new Promise((resolve, reject) => { if (opts) { this.realFs.lstat(npath.fromPortablePath(p), opts, this.makeCallback(resolve, reject)); } else { this.realFs.lstat(npath.fromPortablePath(p), this.makeCallback(resolve, reject)); } }); } lstatSync(p, opts) { if (opts) { return this.realFs.lstatSync(npath.fromPortablePath(p), opts); } else { return this.realFs.lstatSync(npath.fromPortablePath(p)); } } async fchmodPromise(fd, mask) { return await new Promise((resolve, reject) => { this.realFs.fchmod(fd, mask, this.makeCallback(resolve, reject)); }); } fchmodSync(fd, mask) { return this.realFs.fchmodSync(fd, mask); } async chmodPromise(p, mask) { return await new Promise((resolve, reject) => { this.realFs.chmod(npath.fromPortablePath(p), mask, this.makeCallback(resolve, reject)); }); } chmodSync(p, mask) { return this.realFs.chmodSync(npath.fromPortablePath(p), mask); } async fchownPromise(fd, uid, gid) { return await new Promise((resolve, reject) => { this.realFs.fchown(fd, uid, gid, this.makeCallback(resolve, reject)); }); } fchownSync(fd, uid, gid) { return this.realFs.fchownSync(fd, uid, gid); } async chownPromise(p, uid, gid) { return await new Promise((resolve, reject) => { this.realFs.chown(npath.fromPortablePath(p), uid, gid, this.makeCallback(resolve, reject)); }); } chownSync(p, uid, gid) { return this.realFs.chownSync(npath.fromPortablePath(p), uid, gid); } async renamePromise(oldP, newP) { return await new Promise((resolve, reject) => { this.realFs.rename(npath.fromPortablePath(oldP), npath.fromPortablePath(newP), this.makeCallback(resolve, reject)); }); } renameSync(oldP, newP) { return this.realFs.renameSync(npath.fromPortablePath(oldP), npath.fromPortablePath(newP)); } async copyFilePromise(sourceP, destP, flags = 0) { return await new Promise((resolve, reject) => { this.realFs.copyFile(npath.fromPortablePath(sourceP), npath.fromPortablePath(destP), flags, this.makeCallback(resolve, reject)); }); } copyFileSync(sourceP, destP, flags = 0) { return this.realFs.copyFileSync(npath.fromPortablePath(sourceP), npath.fromPortablePath(destP), flags); } async appendFilePromise(p, content, opts) { return await new Promise((resolve, reject) => { const fsNativePath = typeof p === `string` ? npath.fromPortablePath(p) : p; if (opts) { this.realFs.appendFile(fsNativePath, content, opts, this.makeCallback(resolve, reject)); } else { this.realFs.appendFile(fsNativePath, content, this.makeCallback(resolve, reject)); } }); } appendFileSync(p, content, opts) { const fsNativePath = typeof p === `string` ? npath.fromPortablePath(p) : p; if (opts) { this.realFs.appendFileSync(fsNativePath, content, opts); } else { this.realFs.appendFileSync(fsNativePath, content); } } async writeFilePromise(p, content, opts) { return await new Promise((resolve, reject) => { const fsNativePath = typeof p === `string` ? npath.fromPortablePath(p) : p; if (opts) { this.realFs.writeFile(fsNativePath, content, opts, this.makeCallback(resolve, reject)); } else { this.realFs.writeFile(fsNativePath, content, this.makeCallback(resolve, reject)); } }); } writeFileSync(p, content, opts) { const fsNativePath = typeof p === `string` ? npath.fromPortablePath(p) : p; if (opts) { this.realFs.writeFileSync(fsNativePath, content, opts); } else { this.realFs.writeFileSync(fsNativePath, content); } } async unlinkPromise(p) { return await new Promise((resolve, reject) => { this.realFs.unlink(npath.fromPortablePath(p), this.makeCallback(resolve, reject)); }); } unlinkSync(p) { return this.realFs.unlinkSync(npath.fromPortablePath(p)); } async utimesPromise(p, atime, mtime) { return await new Promise((resolve, reject) => { this.realFs.utimes(npath.fromPortablePath(p), atime, mtime, this.makeCallback(resolve, reject)); }); } utimesSync(p, atime, mtime) { this.realFs.utimesSync(npath.fromPortablePath(p), atime, mtime); } async lutimesPromise(p, atime, mtime) { return await new Promise((resolve, reject) => { this.realFs.lutimes(npath.fromPortablePath(p), atime, mtime, this.makeCallback(resolve, reject)); }); } lutimesSync(p, atime, mtime) { this.realFs.lutimesSync(npath.fromPortablePath(p), atime, mtime); } async mkdirPromise(p, opts) { return await new Promise((resolve, reject) => { this.realFs.mkdir(npath.fromPortablePath(p), opts, this.makeCallback(resolve, reject)); }); } mkdirSync(p, opts) { return this.realFs.mkdirSync(npath.fromPortablePath(p), opts); } async rmdirPromise(p, opts) { return await new Promise((resolve, reject) => { if (opts) { this.realFs.rmdir(npath.fromPortablePath(p), opts, this.makeCallback(resolve, reject)); } else { this.realFs.rmdir(npath.fromPortablePath(p), this.makeCallback(resolve, reject)); } }); } rmdirSync(p, opts) { return this.realFs.rmdirSync(npath.fromPortablePath(p), opts); } async rmPromise(p, opts) { return await new Promise((resolve, reject) => { if (opts) { this.realFs.rm(npath.fromPortablePath(p), opts, this.makeCallback(resolve, reject)); } else { this.realFs.rm(npath.fromPortablePath(p), this.makeCallback(resolve, reject)); } }); } rmSync(p, opts) { return this.realFs.rmSync(npath.fromPortablePath(p), opts); } async linkPromise(existingP, newP) { return await new Promise((resolve, reject) => { this.realFs.link(npath.fromPortablePath(existingP), npath.fromPortablePath(newP), this.makeCallback(resolve, reject)); }); } linkSync(existingP, newP) { return this.realFs.linkSync(npath.fromPortablePath(existingP), npath.fromPortablePath(newP)); } async symlinkPromise(target, p, type) { return await new Promise((resolve, reject) => { this.realFs.symlink(npath.fromPortablePath(target.replace(/\/+$/, ``)), npath.fromPortablePath(p), type, this.makeCallback(resolve, reject)); }); } symlinkSync(target, p, type) { return this.realFs.symlinkSync(npath.fromPortablePath(target.replace(/\/+$/, ``)), npath.fromPortablePath(p), type); } async readFilePromise(p, encoding) { return await new Promise((resolve, reject) => { const fsNativePath = typeof p === `string` ? npath.fromPortablePath(p) : p; this.realFs.readFile(fsNativePath, encoding, this.makeCallback(resolve, reject)); }); } readFileSync(p, encoding) { const fsNativePath = typeof p === `string` ? npath.fromPortablePath(p) : p; return this.realFs.readFileSync(fsNativePath, encoding); } async readdirPromise(p, opts) { return await new Promise((resolve, reject) => { if (opts) { if (opts.recursive && process.platform === `win32`) { if (opts.withFileTypes) { this.realFs.readdir(npath.fromPortablePath(p), opts, this.makeCallback((results) => resolve(results.map(direntToPortable)), reject)); } else { this.realFs.readdir(npath.fromPortablePath(p), opts, this.makeCallback((results) => resolve(results.map(npath.toPortablePath)), reject)); } } else { this.realFs.readdir(npath.fromPortablePath(p), opts, this.makeCallback(resolve, reject)); } } else { this.realFs.readdir(npath.fromPortablePath(p), this.makeCallback(resolve, reject)); } }); } readdirSync(p, opts) { if (opts) { if (opts.recursive && process.platform === `win32`) { if (opts.withFileTypes) { return this.realFs.readdirSync(npath.fromPortablePath(p), opts).map(direntToPortable); } else { return this.realFs.readdirSync(npath.fromPortablePath(p), opts).map(npath.toPortablePath); } } else { return this.realFs.readdirSync(npath.fromPortablePath(p), opts); } } else { return this.realFs.readdirSync(npath.fromPortablePath(p)); } } async readlinkPromise(p) { return await new Promise((resolve, reject) => { this.realFs.readlink(npath.fromPortablePath(p), this.makeCallback(resolve, reject)); }).then((path) => { return npath.toPortablePath(path); }); } readlinkSync(p) { return npath.toPortablePath(this.realFs.readlinkSync(npath.fromPortablePath(p))); } async truncatePromise(p, len) { return await new Promise((resolve, reject) => { this.realFs.truncate(npath.fromPortablePath(p), len, this.makeCallback(resolve, reject)); }); } truncateSync(p, len) { return this.realFs.truncateSync(npath.fromPortablePath(p), len); } async ftruncatePromise(fd, len) { return await new Promise((resolve, reject) => { this.realFs.ftruncate(fd, len, this.makeCallback(resolve, reject)); }); } ftruncateSync(fd, len) { return this.realFs.ftruncateSync(fd, len); } watch(p, a, b) { return this.realFs.watch( npath.fromPortablePath(p), a, b ); } watchFile(p, a, b) { return this.realFs.watchFile( npath.fromPortablePath(p), a, b ); } unwatchFile(p, cb) { return this.realFs.unwatchFile(npath.fromPortablePath(p), cb); } makeCallback(resolve, reject) { return (err, result) => { if (err) { reject(err); } else { resolve(result); } }; } } const NUMBER_REGEXP = /^[0-9]+$/; const VIRTUAL_REGEXP = /^(\/(?:[^/]+\/)*?(?:\$\$virtual|__virtual__))((?:\/((?:[^/]+-)?[a-f0-9]+)(?:\/([^/]+))?)?((?:\/.*)?))$/; const VALID_COMPONENT = /^([^/]+-)?[a-f0-9]+$/; class VirtualFS extends ProxiedFS { constructor({ baseFs = new NodeFS() } = {}) { super(ppath); this.baseFs = baseFs; } static makeVirtualPath(base, component, to) { if (ppath.basename(base) !== `__virtual__`) throw new Error(`Assertion failed: Virtual folders must be named "__virtual__"`); if (!ppath.basename(component).match(VALID_COMPONENT)) throw new Error(`Assertion failed: Virtual components must be ended by an hexadecimal hash`); const target = ppath.relative(ppath.dirname(base), to); const segments = target.split(`/`); let depth = 0; while (depth < segments.length && segments[depth] === `..`) depth += 1; const finalSegments = segments.slice(depth); const fullVirtualPath = ppath.join(base, component, String(depth), ...finalSegments); return fullVirtualPath; } static resolveVirtual(p) { const match = p.match(VIRTUAL_REGEXP); if (!match || !match[3] && match[5]) return p; const target = ppath.dirname(match[1]); if (!match[3] || !match[4]) return target; const isnum = NUMBER_REGEXP.test(match[4]); if (!isnum) return p; const depth = Number(match[4]); const backstep = `../`.repeat(depth); const subpath = match[5] || `.`; return VirtualFS.resolveVirtual(ppath.join(target, backstep, subpath)); } getExtractHint(hints) { return this.baseFs.getExtractHint(hints); } getRealPath() { return this.baseFs.getRealPath(); } realpathSync(p) { const match = p.match(VIRTUAL_REGEXP); if (!match) return this.baseFs.realpathSync(p); if (!match[5]) return p; const realpath = this.baseFs.realpathSync(this.mapToBase(p)); return VirtualFS.makeVirtualPath(match[1], match[3], realpath); } async realpathPromise(p) { const match = p.match(VIRTUAL_REGEXP); if (!match) return await this.baseFs.realpathPromise(p); if (!match[5]) return p; const realpath = await this.baseFs.realpathPromise(this.mapToBase(p)); return VirtualFS.makeVirtualPath(match[1], match[3], realpath); } mapToBase(p) { if (p === ``) return p; if (this.pathUtils.isAbsolute(p)) return VirtualFS.resolveVirtual(p); const resolvedRoot = VirtualFS.resolveVirtual(this.baseFs.resolve(PortablePath.dot)); const resolvedP = VirtualFS.resolveVirtual(this.baseFs.resolve(p)); return ppath.relative(resolvedRoot, resolvedP) || PortablePath.dot; } mapFromBase(p) { return p; } } const URL = Number(process.versions.node.split('.', 1)[0]) < 20 ? URL$1 : globalThis.URL; const [major, minor] = process.versions.node.split(`.`).map((value) => parseInt(value, 10)); const WATCH_MODE_MESSAGE_USES_ARRAYS = major > 19 || major === 19 && minor >= 2 || major === 18 && minor >= 13; const HAS_LAZY_LOADED_TRANSLATORS = major === 20 && minor < 6 || major === 19 && minor >= 3; const SUPPORTS_IMPORT_ATTRIBUTES = major >= 21 || major === 20 && minor >= 10 || major === 18 && minor >= 20; const SUPPORTS_IMPORT_ATTRIBUTES_ONLY = major >= 22; function readPackageScope(checkPath) { const rootSeparatorIndex = checkPath.indexOf(npath.sep); let separatorIndex; do { separatorIndex = checkPath.lastIndexOf(npath.sep); checkPath = checkPath.slice(0, separatorIndex); if (checkPath.endsWith(`${npath.sep}node_modules`)) return false; const pjson = readPackage(checkPath + npath.sep); if (pjson) { return { data: pjson, path: checkPath }; } } while (separatorIndex > rootSeparatorIndex); return false; } function readPackage(requestPath) { const jsonPath = npath.resolve(requestPath, `package.json`); if (!fs.existsSync(jsonPath)) return null; return JSON.parse(fs.readFileSync(jsonPath, `utf8`)); } async function tryReadFile$1(path2) { try { return await fs.promises.readFile(path2, `utf8`); } catch (error) { if (error.code === `ENOENT`) return null; throw error; } } function tryParseURL(str, base) { try { return new URL(str, base); } catch { return null; } } let entrypointPath = null; function setEntrypointPath(file) { entrypointPath = file; } function getFileFormat(filepath) { const ext = path.extname(filepath); switch (ext) { case `.mjs`: { return `module`; } case `.cjs`: { return `commonjs`; } case `.wasm`: { throw new Error( `Unknown file extension ".wasm" for ${filepath}` ); } case `.json`: { return `json`; } case `.js`: { const pkg = readPackageScope(filepath); if (!pkg) return `commonjs`; return pkg.data.type ?? `commonjs`; } default: { if (entrypointPath !== filepath) return null; const pkg = readPackageScope(filepath); if (!pkg) return `commonjs`; if (pkg.data.type === `module`) return null; return pkg.data.type ?? `commonjs`; } } } async function load$1(urlString, context, nextLoad) { const url = tryParseURL(urlString); if (url?.protocol !== `file:`) return nextLoad(urlString, context, nextLoad); const filePath = fileURLToPath(url); const format = getFileFormat(filePath); if (!format) return nextLoad(urlString, context, nextLoad); if (format === `json`) { if (SUPPORTS_IMPORT_ATTRIBUTES_ONLY) { if (context.importAttributes?.type !== `json`) { const err = new TypeError(`[ERR_IMPORT_ATTRIBUTE_MISSING]: Module "${urlString}" needs an import attribute of "type: json"`); err.code = `ERR_IMPORT_ATTRIBUTE_MISSING`; throw err; } } else { const type = `importAttributes` in context ? context.importAttributes?.type : context.importAssertions?.type; if (type !== `json`) { const err = new TypeError(`[ERR_IMPORT_ASSERTION_TYPE_MISSING]: Module "${urlString}" needs an import ${SUPPORTS_IMPORT_ATTRIBUTES ? `attribute` : `assertion`} of type "json"`); err.code = `ERR_IMPORT_ASSERTION_TYPE_MISSING`; throw err; } } } if (process.env.WATCH_REPORT_DEPENDENCIES && process.send) { const pathToSend = pathToFileURL( npath.fromPortablePath( VirtualFS.resolveVirtual(npath.toPortablePath(filePath)) ) ).href; process.send({ "watch:import": WATCH_MODE_MESSAGE_USES_ARRAYS ? [pathToSend] : pathToSend }); } return { format, source: format === `commonjs` ? void 0 : await fs.promises.readFile(filePath, `utf8`), shortCircuit: true }; } const ArrayIsArray = Array.isArray; const JSONStringify = JSON.stringify; const ObjectGetOwnPropertyNames = Object.getOwnPropertyNames; const ObjectPrototypeHasOwnProperty = (obj, prop) => Object.prototype.hasOwnProperty.call(obj, prop); const RegExpPrototypeExec = (obj, string) => RegExp.prototype.exec.call(obj, string); const RegExpPrototypeSymbolReplace = (obj, ...rest) => RegExp.prototype[Symbol.replace].apply(obj, rest); const StringPrototypeEndsWith = (str, ...rest) => String.prototype.endsWith.apply(str, rest); const StringPrototypeIncludes = (str, ...rest) => String.prototype.includes.apply(str, rest); const StringPrototypeLastIndexOf = (str, ...rest) => String.prototype.lastIndexOf.apply(str, rest); const StringPrototypeIndexOf = (str, ...rest) => String.prototype.indexOf.apply(str, rest); const StringPrototypeReplace = (str, ...rest) => String.prototype.replace.apply(str, rest); const StringPrototypeSlice = (str, ...rest) => String.prototype.slice.apply(str, rest); const StringPrototypeStartsWith = (str, ...rest) => String.prototype.startsWith.apply(str, rest); const SafeMap = Map; const JSONParse = JSON.parse; function createErrorType(code, messageCreator, errorType) { return class extends errorType { constructor(...args) { super(messageCreator(...args)); this.code = code; this.name = `${errorType.name} [${code}]`; } }; } const ERR_PACKAGE_IMPORT_NOT_DEFINED = createErrorType( `ERR_PACKAGE_IMPORT_NOT_DEFINED`, (specifier, packagePath, base) => { return `Package import specifier "${specifier}" is not defined${packagePath ? ` in package ${packagePath}package.json` : ``} imported from ${base}`; }, TypeError ); const ERR_INVALID_MODULE_SPECIFIER = createErrorType( `ERR_INVALID_MODULE_SPECIFIER`, (request, reason, base = void 0) => { return `Invalid module "${request}" ${reason}${base ? ` imported from ${base}` : ``}`; }, TypeError ); const ERR_INVALID_PACKAGE_TARGET = createErrorType( `ERR_INVALID_PACKAGE_TARGET`, (pkgPath, key, target, isImport = false, base = void 0) => { const relError = typeof target === `string` && !isImport && target.length && !StringPrototypeStartsWith(target, `./`); if (key === `.`) { assert(isImport === false); return `Invalid "exports" main target ${JSONStringify(target)} defined in the package config ${pkgPath}package.json${base ? ` imported from ${base}` : ``}${relError ? `; targets must start with "./"` : ``}`; } return `Invalid "${isImport ? `imports` : `exports`}" target ${JSONStringify( target )} defined for '${key}' in the package config ${pkgPath}package.json${base ? ` imported from ${base}` : ``}${relError ? `; targets must start with "./"` : ``}`; }, Error ); const ERR_INVALID_PACKAGE_CONFIG = createErrorType( `ERR_INVALID_PACKAGE_CONFIG`, (path, base, message) => { return `Invalid package config ${path}${base ? ` while importing ${base}` : ``}${message ? `. ${message}` : ``}`; }, Error ); function filterOwnProperties(source, keys) { const filtered = /* @__PURE__ */ Object.create(null); for (let i = 0; i < keys.length; i++) { const key = keys[i]; if (ObjectPrototypeHasOwnProperty(source, key)) { filtered[key] = source[key]; } } return filtered; } const packageJSONCache = new SafeMap(); function getPackageConfig(path, specifier, base, readFileSyncFn) { const existing = packageJSONCache.get(path); if (existing !== void 0) { return existing; } const source = readFileSyncFn(path); if (source === void 0) { const packageConfig2 = { pjsonPath: path, exists: false, main: void 0, name: void 0, type: "none", exports: void 0, imports: void 0 }; packageJSONCache.set(path, packageConfig2); return packageConfig2; } let packageJSON; try { packageJSON = JSONParse(source); } catch (error) { throw new ERR_INVALID_PACKAGE_CONFIG( path, (base ? `"${specifier}" from ` : "") + fileURLToPath(base || specifier), error.message ); } let { imports, main, name, type } = filterOwnProperties(packageJSON, [ "imports", "main", "name", "type" ]); const exports = ObjectPrototypeHasOwnProperty(packageJSON, "exports") ? packageJSON.exports : void 0; if (typeof imports !== "object" || imports === null) { imports = void 0; } if (typeof main !== "string") { main = void 0; } if (typeof name !== "string") { name = void 0; } if (type !== "module" && type !== "commonjs") { type = "none"; } const packageConfig = { pjsonPath: path, exists: true, main, name, type, exports, imports }; packageJSONCache.set(path, packageConfig); return packageConfig; } function getPackageScopeConfig(resolved, readFileSyncFn) { let packageJSONUrl = new URL("./package.json", resolved); while (true) { const packageJSONPath2 = packageJSONUrl.pathname; if (StringPrototypeEndsWith(packageJSONPath2, "node_modules/package.json")) { break; } const packageConfig2 = getPackageConfig( fileURLToPath(packageJSONUrl), resolved, void 0, readFileSyncFn ); if (packageConfig2.exists) { return packageConfig2; } const lastPackageJSONUrl = packageJSONUrl; packageJSONUrl = new URL("../package.json", packageJSONUrl); if (packageJSONUrl.pathname === lastPackageJSONUrl.pathname) { break; } } const packageJSONPath = fileURLToPath(packageJSONUrl); const packageConfig = { pjsonPath: packageJSONPath, exists: false, main: void 0, name: void 0, type: "none", exports: void 0, imports: void 0 }; packageJSONCache.set(packageJSONPath, packageConfig); return packageConfig; } function throwImportNotDefined(specifier, packageJSONUrl, base) { throw new ERR_PACKAGE_IMPORT_NOT_DEFINED( specifier, packageJSONUrl && fileURLToPath(new URL(".", packageJSONUrl)), fileURLToPath(base) ); } function throwInvalidSubpath(subpath, packageJSONUrl, internal, base) { const reason = `request is not a valid subpath for the "${internal ? "imports" : "exports"}" resolution of ${fileURLToPath(packageJSONUrl)}`; throw new ERR_INVALID_MODULE_SPECIFIER( subpath, reason, base && fileURLToPath(base) ); } function throwInvalidPackageTarget(subpath, target, packageJSONUrl, internal, base) { if (typeof target === "object" && target !== null) { target = JSONStringify(target, null, ""); } else { target = `${target}`; } throw new ERR_INVALID_PACKAGE_TARGET( fileURLToPath(new URL(".", packageJSONUrl)), subpath, target, internal, base && fileURLToPath(base) ); } const invalidSegmentRegEx = /(^|\\|\/)((\.|%2e)(\.|%2e)?|(n|%6e|%4e)(o|%6f|%4f)(d|%64|%44)(e|%65|%45)(_|%5f)(m|%6d|%4d)(o|%6f|%4f)(d|%64|%44)(u|%75|%55)(l|%6c|%4c)(e|%65|%45)(s|%73|%53))(\\|\/|$)/i; const patternRegEx = /\*/g; function resolvePackageTargetString(target, subpath, match, packageJSONUrl, base, pattern, internal, conditions) { if (subpath !== "" && !pattern && target[target.length - 1] !== "/") throwInvalidPackageTarget(match, target, packageJSONUrl, internal, base); if (!StringPrototypeStartsWith(target, "./")) { if (internal && !StringPrototypeStartsWith(target, "../") && !StringPrototypeStartsWith(target, "/")) { let isURL = false; try { new URL(target); isURL = true; } catch { } if (!isURL) { const exportTarget = pattern ? RegExpPrototypeSymbolReplace(patternRegEx, target, () => subpath) : target + subpath; return exportTarget; } } throwInvalidPackageTarget(match, target, packageJSONUrl, internal, base); } if (RegExpPrototypeExec( invalidSegmentRegEx, StringPrototypeSlice(target, 2) ) !== null) throwInvalidPackageTarget(match, target, packageJSONUrl, internal, base); const resolved = new URL(target, packageJSONUrl); const resolvedPath = resolved.pathname; const packagePath = new URL(".", packageJSONUrl).pathname; if (!StringPrototypeStartsWith(resolvedPath, packagePath)) throwInvalidPackageTarget(match, target, packageJSONUrl, internal, base); if (subpath === "") return resolved; if (RegExpPrototypeExec(invalidSegmentRegEx, subpath) !== null) { const request = pattern ? StringPrototypeReplace(match, "*", () => subpath) : match + subpath; throwInvalidSubpath(request, packageJSONUrl, internal, base); } if (pattern) { return new URL( RegExpPrototypeSymbolReplace(patternRegEx, resolved.href, () => subpath) ); } return new URL(subpath, resolved); } function isArrayIndex(key) { const keyNum = +key; if (`${keyNum}` !== key) return false; return keyNum >= 0 && keyNum < 4294967295; } function resolvePackageTarget(packageJSONUrl, target, subpath, packageSubpath, base, pattern, internal, conditions) { if (typeof target === "string") { return resolvePackageTargetString( target, subpath, packageSubpath, packageJSONUrl, base, pattern, internal); } else if (ArrayIsArray(target)) { if (target.length === 0) { return null; } let lastException; for (let i = 0; i < target.length; i++) { const targetItem = target[i]; let resolveResult; try { resolveResult = resolvePackageTarget( packageJSONUrl, targetItem, subpath, packageSubpath, base, pattern, internal, conditions ); } catch (e) { lastException = e; if (e.code === "ERR_INVALID_PACKAGE_TARGET") { continue; } throw e; } if (resolveResult === void 0) { continue; } if (resolveResult === null) { lastException = null; continue; } return resolveResult; } if (lastException === void 0 || lastException === null) return lastException; throw lastException; } else if (typeof target === "object" && target !== null) { const keys = ObjectGetOwnPropertyNames(target); for (let i = 0; i < keys.length; i++) { const key = keys[i]; if (isArrayIndex(key)) { throw new ERR_INVALID_PACKAGE_CONFIG( fileURLToPath(packageJSONUrl), base, '"exports" cannot contain numeric property keys.' ); } } for (let i = 0; i < keys.length; i++) { const key = keys[i]; if (key === "default" || conditions.has(key)) { const conditionalTarget = target[key]; const resolveResult = resolvePackageTarget( packageJSONUrl, conditionalTarget, subpath, packageSubpath, base, pattern, internal, conditions ); if (resolveResult === void 0) continue; return resolveResult; } } return void 0; } else if (target === null) { return null; } throwInvalidPackageTarget( packageSubpath, target, packageJSONUrl, internal, base ); } function patternKeyCompare(a, b) { const aPatternIndex = StringPrototypeIndexOf(a, "*"); const bPatternIndex = StringPrototypeIndexOf(b, "*"); const baseLenA = aPatternIndex === -1 ? a.length : aPatternIndex + 1; const baseLenB = bPatternIndex === -1 ? b.length : bPatternIndex + 1; if (baseLenA > baseLenB) return -1; if (baseLenB > baseLenA) return 1; if (aPatternIndex === -1) return 1; if (bPatternIndex === -1) return -1; if (a.length > b.length) return -1; if (b.length > a.length) return 1; return 0; } function packageImportsResolve({ name, base, conditions, readFileSyncFn }) { if (name === "#" || StringPrototypeStartsWith(name, "#/") || StringPrototypeEndsWith(name, "/")) { const reason = "is not a valid internal imports specifier name"; throw new ERR_INVALID_MODULE_SPECIFIER(name, reason, fileURLToPath(base)); } let packageJSONUrl; const packageConfig = getPackageScopeConfig(base, readFileSyncFn); if (packageConfig.exists) { packageJSONUrl = pathToFileURL(packageConfig.pjsonPath); const imports = packageConfig.imports; if (imports) { if (ObjectPrototypeHasOwnProperty(imports, name) && !StringPrototypeIncludes(name, "*")) { const resolveResult = resolvePackageTarget( packageJSONUrl, imports[name], "", name, base, false, true, conditions ); if (resolveResult != null) { return resolveResult; } } else { let bestMatch = ""; let bestMatchSubpath; const keys = ObjectGetOwnPropertyNames(imports); for (let i = 0; i < keys.length; i++) { const key = keys[i]; const patternIndex = StringPrototypeIndexOf(key, "*"); if (patternIndex !== -1 && StringPrototypeStartsWith( name, StringPrototypeSlice(key, 0, patternIndex) )) { const patternTrailer = StringPrototypeSlice(key, patternIndex + 1); if (name.length >= key.length && StringPrototypeEndsWith(name, patternTrailer) && patternKeyCompare(bestMatch, key) === 1 && StringPrototypeLastIndexOf(key, "*") === patternIndex) { bestMatch = key; bestMatchSubpath = StringPrototypeSlice( name, patternIndex, name.length - patternTrailer.length ); } } } if (bestMatch) { const target = imports[bestMatch]; const resolveResult = resolvePackageTarget( packageJSONUrl, target, bestMatchSubpath, bestMatch, base, true, true, conditions ); if (resolveResult != null) { return resolveResult; } } } } } throwImportNotDefined(name, packageJSONUrl, base); } const pathRegExp = /^(?![a-zA-Z]:[\\/]|\\\\|\.{0,2}(?:\/|$))((?:node:)?(?:@[^/]+\/)?[^/]+)\/*(.*|)$/; const isRelativeRegexp = /^\.{0,2}\//; function tryReadFile(filePath) { try { return fs.readFileSync(filePath, `utf8`); } catch (err) { if (err.code === `ENOENT`) return void 0; throw err; } } async function resolvePrivateRequest(specifier, issuer, context, nextResolve) { const resolved = packageImportsResolve({ name: specifier, base: pathToFileURL(issuer), conditions: new Set(context.conditions), readFileSyncFn: tryReadFile }); if (resolved instanceof URL) { return { url: resolved.href, shortCircuit: true }; } else { if (resolved.startsWith(`#`)) throw new Error(`Mapping from one private import to another isn't allowed`); return resolve$1(resolved, context, nextResolve); } } async function resolve$1(originalSpecifier, context, nextResolve) { const { findPnpApi } = moduleExports; if (!findPnpApi || isBuiltin(originalSpecifier)) return nextResolve(originalSpecifier, context, nextResolve); let specifier = originalSpecifier; const url = tryParseURL(specifier, isRelativeRegexp.test(specifier) ? context.parentURL : void 0); if (url) { if (url.protocol !== `file:`) return nextResolve(originalSpecifier, context, nextResolve); specifier = fileURLToPath(url); } const { parentURL, conditions = [] } = context; const issuer = parentURL && tryParseURL(parentURL)?.protocol === `file:` ? fileURLToPath(parentURL) : process.cwd(); const pnpapi = findPnpApi(issuer) ?? (url ? findPnpApi(specifier) : null); if (!pnpapi) return nextResolve(originalSpecifier, context, nextResolve); if (specifier.startsWith(`#`)) return resolvePrivateRequest(specifier, issuer, context, nextResolve); const dependencyNameMatch = specifier.match(pathRegExp); let allowLegacyResolve = false; if (dependencyNameMatch) { const [, dependencyName, subPath] = dependencyNameMatch; if (subPath === `` && dependencyName !== `pnpapi`) { const resolved = pnpapi.resolveToUnqualified(`${dependencyName}/package.json`, issuer); if (resolved) { const content = await tryReadFile$1(resolved); if (content) { const pkg = JSON.parse(content); allowLegacyResolve = pkg.exports == null; } } } } let result; try { result = pnpapi.resolveRequest(specifier, issuer, { conditions: new Set(conditions), extensions: allowLegacyResolve ? void 0 : [] }); } catch (err) { if (err instanceof Error && `code` in err && err.code === `MODULE_NOT_FOUND`) err.code = `ERR_MODULE_NOT_FOUND`; throw err; } if (!result) throw new Error(`Resolving '${specifier}' from '${issuer}' failed`); const resultURL = pathToFileURL(result); if (url) { resultURL.search = url.search; resultURL.hash = url.hash; } if (!parentURL) setEntrypointPath(fileURLToPath(resultURL)); return { url: resultURL.href, shortCircuit: true }; } if (!HAS_LAZY_LOADED_TRANSLATORS) { const binding = process.binding(`fs`); const originalReadFile = binding.readFileUtf8 || binding.readFileSync; if (originalReadFile) { binding[originalReadFile.name] = function(...args) { try { return fs.readFileSync(args[0], { encoding: `utf8`, flag: args[1] }); } catch { } return originalReadFile.apply(this, args); }; } else { const binding2 = process.binding(`fs`); const originalfstat = binding2.fstat; const ZIP_MASK = 4278190080; const ZIP_MAGIC = 704643072; binding2.fstat = function(...args) { const [fd, useBigint, req] = args; if ((fd & ZIP_MASK) === ZIP_MAGIC && useBigint === false && req === void 0) { try { const stats = fs.fstatSync(fd); return new Float64Array([ stats.dev, stats.mode, stats.nlink, stats.uid, stats.gid, stats.rdev, stats.blksize, stats.ino, stats.size, stats.blocks ]); } catch { } } return originalfstat.apply(this, args); }; } } const resolve = resolve$1; const load = load$1; export { load, resolve };