// Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. // Maintainers, keep in mind that ES1-style octal literals (`0666`) are not // allowed in strict mode. Use ES6-style octal literals instead (`0o666`). 'use strict'; const { fs: constants } = process.binding('constants'); const { S_IFIFO, S_IFLNK, S_IFMT, S_IFREG, S_IFSOCK, F_OK, R_OK, W_OK, X_OK, O_WRONLY, O_SYMLINK } = constants; const { _extend } = require('util'); const pathModule = require('path'); const { isUint8Array } = require('internal/util/types'); const binding = process.binding('fs'); const { Buffer, kMaxLength } = require('buffer'); const errors = require('internal/errors'); const { ERR_FS_FILE_TOO_LARGE, ERR_INVALID_ARG_TYPE, ERR_INVALID_CALLBACK } = errors.codes; const { FSReqWrap, statValues } = binding; const internalFS = require('internal/fs/utils'); const { getPathFromURL } = require('internal/url'); const internalUtil = require('internal/util'); const { copyObject, getOptions, nullCheck, preprocessSymlinkDestination, Stats, getStatsFromBinding, realpathCacheKey, stringToFlags, stringToSymlinkType, toUnixTimestamp, validateBuffer, validateOffsetLengthRead, validateOffsetLengthWrite, validatePath } = internalFS; const { CHAR_FORWARD_SLASH, CHAR_BACKWARD_SLASH, } = require('internal/constants'); const { isUint32, validateAndMaskMode, validateInt32, validateUint32 } = require('internal/validators'); let promisesWarn = true; let truncateWarn = true; let fs; // Lazy loaded let promises; let watchers; let ReadFileContext; let ReadStream; let WriteStream; // These have to be separate because of how graceful-fs happens to do it's // monkeypatching. let FileReadStream; let FileWriteStream; const isWindows = process.platform === 'win32'; function showTruncateDeprecation() { if (truncateWarn) { process.emitWarning( 'Using fs.truncate with a file descriptor is deprecated. Please use ' + 'fs.ftruncate with a file descriptor instead.', 'DeprecationWarning', 'DEP0081'); truncateWarn = false; } } function handleErrorFromBinding(ctx) { if (ctx.errno !== undefined) { // libuv error numbers const err = errors.uvException(ctx); Error.captureStackTrace(err, handleErrorFromBinding); throw err; } else if (ctx.error !== undefined) { // errors created in C++ land. // TODO(joyeecheung): currently, ctx.error are encoding errors // usually caused by memory problems. We need to figure out proper error // code(s) for this. Error.captureStackTrace(ctx.error, handleErrorFromBinding); throw ctx.error; } } function maybeCallback(cb) { if (typeof cb === 'function') return cb; throw new ERR_INVALID_CALLBACK(); } // Ensure that callbacks run in the global context. Only use this function // for callbacks that are passed to the binding layer, callbacks that are // invoked from JS already run in the proper scope. function makeCallback(cb) { if (typeof cb !== 'function') { throw new ERR_INVALID_CALLBACK(); } return function(...args) { return Reflect.apply(cb, undefined, args); }; } // Special case of `makeCallback()` that is specific to async `*stat()` calls as // an optimization, since the data passed back to the callback needs to be // transformed anyway. function makeStatsCallback(cb) { if (typeof cb !== 'function') { throw new ERR_INVALID_CALLBACK(); } return function(err, stats) { if (err) return cb(err); cb(err, getStatsFromBinding(stats)); }; } const isFd = isUint32; function isFileType(stats, fileType) { // Use stats array directly to avoid creating an fs.Stats instance just for // our internal use. return (stats[1/* mode */] & S_IFMT) === fileType; } function access(path, mode, callback) { if (typeof mode === 'function') { callback = mode; mode = F_OK; } path = getPathFromURL(path); validatePath(path); mode = mode | 0; const req = new FSReqWrap(); req.oncomplete = makeCallback(callback); binding.access(pathModule.toNamespacedPath(path), mode, req); } function accessSync(path, mode) { path = getPathFromURL(path); validatePath(path); if (mode === undefined) mode = F_OK; else mode = mode | 0; const ctx = { path }; binding.access(pathModule.toNamespacedPath(path), mode, undefined, ctx); handleErrorFromBinding(ctx); } function exists(path, callback) { maybeCallback(callback); function suppressedCallback(err) { callback(err ? false : true); } try { fs.access(path, F_OK, suppressedCallback); } catch (err) { return callback(false); } } Object.defineProperty(exists, internalUtil.promisify.custom, { value: (path) => { const { createPromise, promiseResolve } = process.binding('util'); const promise = createPromise(); fs.exists(path, (exists) => promiseResolve(promise, exists)); return promise; } }); // fs.existsSync never throws, it only returns true or false. // Since fs.existsSync never throws, users have established // the expectation that passing invalid arguments to it, even like // fs.existsSync(), would only get a false in return, so we cannot signal // validation errors to users properly out of compatibility concerns. // TODO(joyeecheung): deprecate the never-throw-on-invalid-arguments behavior function existsSync(path) { try { fs.accessSync(path, F_OK); return true; } catch (e) { return false; } } function readFileAfterOpen(err, fd) { const context = this.context; if (err) { context.callback(err); return; } context.fd = fd; const req = new FSReqWrap(); req.oncomplete = readFileAfterStat; req.context = context; binding.fstat(fd, req); } function readFileAfterStat(err, stats) { const context = this.context; if (err) return context.close(err); const size = context.size = isFileType(stats, S_IFREG) ? stats[8] : 0; if (size === 0) { context.buffers = []; context.read(); return; } if (size > kMaxLength) { err = new ERR_FS_FILE_TOO_LARGE(size); return context.close(err); } try { context.buffer = Buffer.allocUnsafeSlow(size); } catch (err) { return context.close(err); } context.read(); } function readFile(path, options, callback) { callback = maybeCallback(callback || options); options = getOptions(options, { flag: 'r' }); if (!ReadFileContext) ReadFileContext = require('internal/fs/read_file_context'); const context = new ReadFileContext(callback, options.encoding); context.isUserFd = isFd(path); // file descriptor ownership const req = new FSReqWrap(); req.context = context; req.oncomplete = readFileAfterOpen; if (context.isUserFd) { process.nextTick(function tick() { req.oncomplete(null, path); }); return; } path = getPathFromURL(path); validatePath(path); binding.open(pathModule.toNamespacedPath(path), stringToFlags(options.flag || 'r'), 0o666, req); } function tryStatSync(fd, isUserFd) { const ctx = {}; const stats = binding.fstat(fd, undefined, ctx); if (ctx.errno !== undefined && !isUserFd) { fs.closeSync(fd); throw errors.uvException(ctx); } return stats; } function tryCreateBuffer(size, fd, isUserFd) { let threw = true; let buffer; try { if (size > kMaxLength) { throw new ERR_FS_FILE_TOO_LARGE(size); } buffer = Buffer.allocUnsafe(size); threw = false; } finally { if (threw && !isUserFd) fs.closeSync(fd); } return buffer; } function tryReadSync(fd, isUserFd, buffer, pos, len) { let threw = true; let bytesRead; try { bytesRead = fs.readSync(fd, buffer, pos, len); threw = false; } finally { if (threw && !isUserFd) fs.closeSync(fd); } return bytesRead; } function readFileSync(path, options) { options = getOptions(options, { flag: 'r' }); const isUserFd = isFd(path); // file descriptor ownership const fd = isUserFd ? path : fs.openSync(path, options.flag || 'r', 0o666); const stats = tryStatSync(fd, isUserFd); const size = isFileType(stats, S_IFREG) ? stats[8] : 0; let pos = 0; let buffer; // single buffer with file data let buffers; // list for when size is unknown if (size === 0) { buffers = []; } else { buffer = tryCreateBuffer(size, fd, isUserFd); } let bytesRead; if (size !== 0) { do { bytesRead = tryReadSync(fd, isUserFd, buffer, pos, size - pos); pos += bytesRead; } while (bytesRead !== 0 && pos < size); } else { do { // the kernel lies about many files. // Go ahead and try to read some bytes. buffer = Buffer.allocUnsafe(8192); bytesRead = tryReadSync(fd, isUserFd, buffer, 0, 8192); if (bytesRead !== 0) { buffers.push(buffer.slice(0, bytesRead)); } pos += bytesRead; } while (bytesRead !== 0); } if (!isUserFd) fs.closeSync(fd); if (size === 0) { // data was collected into the buffers list. buffer = Buffer.concat(buffers, pos); } else if (pos < size) { buffer = buffer.slice(0, pos); } if (options.encoding) buffer = buffer.toString(options.encoding); return buffer; } function close(fd, callback) { validateUint32(fd, 'fd'); const req = new FSReqWrap(); req.oncomplete = makeCallback(callback); binding.close(fd, req); } function closeSync(fd) { validateUint32(fd, 'fd'); const ctx = {}; binding.close(fd, undefined, ctx); handleErrorFromBinding(ctx); } function open(path, flags, mode, callback) { path = getPathFromURL(path); validatePath(path); const flagsNumber = stringToFlags(flags); if (arguments.length < 4) { callback = makeCallback(mode); mode = 0o666; } else { mode = validateAndMaskMode(mode, 'mode', 0o666); callback = makeCallback(callback); } const req = new FSReqWrap(); req.oncomplete = callback; binding.open(pathModule.toNamespacedPath(path), flagsNumber, mode, req); } function openSync(path, flags, mode) { path = getPathFromURL(path); validatePath(path); const flagsNumber = stringToFlags(flags); mode = validateAndMaskMode(mode, 'mode', 0o666); const ctx = { path }; const result = binding.open(pathModule.toNamespacedPath(path), flagsNumber, mode, undefined, ctx); handleErrorFromBinding(ctx); return result; } function read(fd, buffer, offset, length, position, callback) { validateUint32(fd, 'fd'); validateBuffer(buffer); offset |= 0; length |= 0; if (length === 0) { return process.nextTick(function tick() { callback && callback(null, 0, buffer); }); } validateOffsetLengthRead(offset, length, buffer.length); if (!isUint32(position)) position = -1; function wrapper(err, bytesRead) { // Retain a reference to buffer so that it can't be GC'ed too soon. callback && callback(err, bytesRead || 0, buffer); } const req = new FSReqWrap(); req.oncomplete = wrapper; binding.read(fd, buffer, offset, length, position, req); } Object.defineProperty(read, internalUtil.customPromisifyArgs, { value: ['bytesRead', 'buffer'], enumerable: false }); function readSync(fd, buffer, offset, length, position) { validateUint32(fd, 'fd'); validateBuffer(buffer); offset |= 0; length |= 0; if (length === 0) { return 0; } validateOffsetLengthRead(offset, length, buffer.length); if (!isUint32(position)) position = -1; const ctx = {}; const result = binding.read(fd, buffer, offset, length, position, undefined, ctx); handleErrorFromBinding(ctx); return result; } // usage: // fs.write(fd, buffer[, offset[, length[, position]]], callback); // OR // fs.write(fd, string[, position[, encoding]], callback); function write(fd, buffer, offset, length, position, callback) { function wrapper(err, written) { // Retain a reference to buffer so that it can't be GC'ed too soon. callback(err, written || 0, buffer); } validateUint32(fd, 'fd'); const req = new FSReqWrap(); req.oncomplete = wrapper; if (isUint8Array(buffer)) { callback = maybeCallback(callback || position || length || offset); if (typeof offset !== 'number') offset = 0; if (typeof length !== 'number') length = buffer.length - offset; if (typeof position !== 'number') position = null; validateOffsetLengthWrite(offset, length, buffer.byteLength); return binding.writeBuffer(fd, buffer, offset, length, position, req); } if (typeof buffer !== 'string') buffer += ''; if (typeof position !== 'function') { if (typeof offset === 'function') { position = offset; offset = null; } else { position = length; } length = 'utf8'; } callback = maybeCallback(position); return binding.writeString(fd, buffer, offset, length, req); } Object.defineProperty(write, internalUtil.customPromisifyArgs, { value: ['bytesWritten', 'buffer'], enumerable: false }); // usage: // fs.writeSync(fd, buffer[, offset[, length[, position]]]); // OR // fs.writeSync(fd, string[, position[, encoding]]); function writeSync(fd, buffer, offset, length, position) { validateUint32(fd, 'fd'); const ctx = {}; let result; if (isUint8Array(buffer)) { if (position === undefined) position = null; if (typeof offset !== 'number') offset = 0; if (typeof length !== 'number') length = buffer.length - offset; validateOffsetLengthWrite(offset, length, buffer.byteLength); result = binding.writeBuffer(fd, buffer, offset, length, position, undefined, ctx); } else { if (typeof buffer !== 'string') buffer += ''; if (offset === undefined) offset = null; result = binding.writeString(fd, buffer, offset, length, undefined, ctx); } handleErrorFromBinding(ctx); return result; } function rename(oldPath, newPath, callback) { callback = makeCallback(callback); oldPath = getPathFromURL(oldPath); validatePath(oldPath, 'oldPath'); newPath = getPathFromURL(newPath); validatePath(newPath, 'newPath'); const req = new FSReqWrap(); req.oncomplete = callback; binding.rename(pathModule.toNamespacedPath(oldPath), pathModule.toNamespacedPath(newPath), req); } function renameSync(oldPath, newPath) { oldPath = getPathFromURL(oldPath); validatePath(oldPath, 'oldPath'); newPath = getPathFromURL(newPath); validatePath(newPath, 'newPath'); const ctx = { path: oldPath, dest: newPath }; binding.rename(pathModule.toNamespacedPath(oldPath), pathModule.toNamespacedPath(newPath), undefined, ctx); handleErrorFromBinding(ctx); } function truncate(path, len, callback) { if (typeof path === 'number') { showTruncateDeprecation(); return fs.ftruncate(path, len, callback); } if (typeof len === 'function') { callback = len; len = 0; } else if (len === undefined) { len = 0; } callback = maybeCallback(callback); fs.open(path, 'r+', function(er, fd) { if (er) return callback(er); const req = new FSReqWrap(); req.oncomplete = function oncomplete(er) { fs.close(fd, function(er2) { callback(er || er2); }); }; binding.ftruncate(fd, len, req); }); } function truncateSync(path, len) { if (typeof path === 'number') { // legacy showTruncateDeprecation(); return fs.ftruncateSync(path, len); } if (len === undefined) { len = 0; } // allow error to be thrown, but still close fd. const fd = fs.openSync(path, 'r+'); let ret; try { ret = fs.ftruncateSync(fd, len); } finally { fs.closeSync(fd); } return ret; } function ftruncate(fd, len = 0, callback) { if (typeof len === 'function') { callback = len; len = 0; } validateUint32(fd, 'fd'); // TODO(BridgeAR): This does not seem right. // There does not seem to be any validation before and if there is any, it // should work similar to validateUint32 or not have a upper cap at all. // This applies to all usage of `validateInt32(len, 'len')`. validateInt32(len, 'len'); len = Math.max(0, len); const req = new FSReqWrap(); req.oncomplete = makeCallback(callback); binding.ftruncate(fd, len, req); } function ftruncateSync(fd, len = 0) { validateUint32(fd, 'fd'); validateInt32(len, 'len'); len = Math.max(0, len); const ctx = {}; binding.ftruncate(fd, len, undefined, ctx); handleErrorFromBinding(ctx); } function rmdir(path, callback) { callback = makeCallback(callback); path = getPathFromURL(path); validatePath(path); const req = new FSReqWrap(); req.oncomplete = callback; binding.rmdir(pathModule.toNamespacedPath(path), req); } function rmdirSync(path) { path = getPathFromURL(path); validatePath(path); const ctx = { path }; binding.rmdir(pathModule.toNamespacedPath(path), undefined, ctx); handleErrorFromBinding(ctx); } function fdatasync(fd, callback) { validateUint32(fd, 'fd'); const req = new FSReqWrap(); req.oncomplete = makeCallback(callback); binding.fdatasync(fd, req); } function fdatasyncSync(fd) { validateUint32(fd, 'fd'); const ctx = {}; binding.fdatasync(fd, undefined, ctx); handleErrorFromBinding(ctx); } function fsync(fd, callback) { validateUint32(fd, 'fd'); const req = new FSReqWrap(); req.oncomplete = makeCallback(callback); binding.fsync(fd, req); } function fsyncSync(fd) { validateUint32(fd, 'fd'); const ctx = {}; binding.fsync(fd, undefined, ctx); handleErrorFromBinding(ctx); } function mkdir(path, mode, callback) { path = getPathFromURL(path); validatePath(path); if (arguments.length < 3) { callback = makeCallback(mode); mode = 0o777; } else { callback = makeCallback(callback); mode = validateAndMaskMode(mode, 'mode', 0o777); } const req = new FSReqWrap(); req.oncomplete = callback; binding.mkdir(pathModule.toNamespacedPath(path), mode, req); } function mkdirSync(path, mode) { path = getPathFromURL(path); validatePath(path); mode = validateAndMaskMode(mode, 'mode', 0o777); const ctx = { path }; binding.mkdir(pathModule.toNamespacedPath(path), mode, undefined, ctx); handleErrorFromBinding(ctx); } function readdir(path, options, callback) { callback = makeCallback(typeof options === 'function' ? options : callback); options = getOptions(options, {}); path = getPathFromURL(path); validatePath(path); const req = new FSReqWrap(); req.oncomplete = callback; binding.readdir(pathModule.toNamespacedPath(path), options.encoding, req); } function readdirSync(path, options) { options = getOptions(options, {}); path = getPathFromURL(path); validatePath(path); const ctx = { path }; const result = binding.readdir(pathModule.toNamespacedPath(path), options.encoding, undefined, ctx); handleErrorFromBinding(ctx); return result; } function fstat(fd, callback) { validateUint32(fd, 'fd'); const req = new FSReqWrap(); req.oncomplete = makeStatsCallback(callback); binding.fstat(fd, req); } function lstat(path, callback) { callback = makeStatsCallback(callback); path = getPathFromURL(path); validatePath(path); const req = new FSReqWrap(); req.oncomplete = callback; binding.lstat(pathModule.toNamespacedPath(path), req); } function stat(path, callback) { callback = makeStatsCallback(callback); path = getPathFromURL(path); validatePath(path); const req = new FSReqWrap(); req.oncomplete = callback; binding.stat(pathModule.toNamespacedPath(path), req); } function fstatSync(fd) { validateUint32(fd, 'fd'); const ctx = { fd }; const stats = binding.fstat(fd, undefined, ctx); handleErrorFromBinding(ctx); return getStatsFromBinding(stats); } function lstatSync(path) { path = getPathFromURL(path); validatePath(path); const ctx = { path }; const stats = binding.lstat(pathModule.toNamespacedPath(path), undefined, ctx); handleErrorFromBinding(ctx); return getStatsFromBinding(stats); } function statSync(path) { path = getPathFromURL(path); validatePath(path); const ctx = { path }; const stats = binding.stat(pathModule.toNamespacedPath(path), undefined, ctx); handleErrorFromBinding(ctx); return getStatsFromBinding(stats); } function readlink(path, options, callback) { callback = makeCallback(typeof options === 'function' ? options : callback); options = getOptions(options, {}); path = getPathFromURL(path); validatePath(path, 'oldPath'); const req = new FSReqWrap(); req.oncomplete = callback; binding.readlink(pathModule.toNamespacedPath(path), options.encoding, req); } function readlinkSync(path, options) { options = getOptions(options, {}); path = getPathFromURL(path); validatePath(path, 'oldPath'); const ctx = { path }; const result = binding.readlink(pathModule.toNamespacedPath(path), options.encoding, undefined, ctx); handleErrorFromBinding(ctx); return result; } function symlink(target, path, type_, callback_) { const type = (typeof type_ === 'string' ? type_ : null); const callback = makeCallback(arguments[arguments.length - 1]); target = getPathFromURL(target); path = getPathFromURL(path); validatePath(target, 'target'); validatePath(path); const flags = stringToSymlinkType(type); const req = new FSReqWrap(); req.oncomplete = callback; binding.symlink(preprocessSymlinkDestination(target, type, path), pathModule.toNamespacedPath(path), flags, req); } function symlinkSync(target, path, type) { type = (typeof type === 'string' ? type : null); target = getPathFromURL(target); path = getPathFromURL(path); validatePath(target, 'target'); validatePath(path); const flags = stringToSymlinkType(type); const ctx = { path: target, dest: path }; binding.symlink(preprocessSymlinkDestination(target, type, path), pathModule.toNamespacedPath(path), flags, undefined, ctx); handleErrorFromBinding(ctx); } function link(existingPath, newPath, callback) { callback = makeCallback(callback); existingPath = getPathFromURL(existingPath); newPath = getPathFromURL(newPath); validatePath(existingPath, 'existingPath'); validatePath(newPath, 'newPath'); const req = new FSReqWrap(); req.oncomplete = callback; binding.link(pathModule.toNamespacedPath(existingPath), pathModule.toNamespacedPath(newPath), req); } function linkSync(existingPath, newPath) { existingPath = getPathFromURL(existingPath); newPath = getPathFromURL(newPath); validatePath(existingPath, 'existingPath'); validatePath(newPath, 'newPath'); const ctx = { path: existingPath, dest: newPath }; const result = binding.link(pathModule.toNamespacedPath(existingPath), pathModule.toNamespacedPath(newPath), undefined, ctx); handleErrorFromBinding(ctx); return result; } function unlink(path, callback) { callback = makeCallback(callback); path = getPathFromURL(path); validatePath(path); const req = new FSReqWrap(); req.oncomplete = callback; binding.unlink(pathModule.toNamespacedPath(path), req); } function unlinkSync(path) { path = getPathFromURL(path); validatePath(path); const ctx = { path }; binding.unlink(pathModule.toNamespacedPath(path), undefined, ctx); handleErrorFromBinding(ctx); } function fchmod(fd, mode, callback) { validateInt32(fd, 'fd', 0); mode = validateAndMaskMode(mode, 'mode'); callback = makeCallback(callback); const req = new FSReqWrap(); req.oncomplete = callback; binding.fchmod(fd, mode, req); } function fchmodSync(fd, mode) { validateInt32(fd, 'fd', 0); mode = validateAndMaskMode(mode, 'mode'); const ctx = {}; binding.fchmod(fd, mode, undefined, ctx); handleErrorFromBinding(ctx); } function lchmod(path, mode, callback) { callback = maybeCallback(callback); fs.open(path, O_WRONLY | O_SYMLINK, function(err, fd) { if (err) { callback(err); return; } // Prefer to return the chmod error, if one occurs, // but still try to close, and report closing errors if they occur. fs.fchmod(fd, mode, function(err) { fs.close(fd, function(err2) { callback(err || err2); }); }); }); } function lchmodSync(path, mode) { const fd = fs.openSync(path, O_WRONLY | O_SYMLINK); // Prefer to return the chmod error, if one occurs, // but still try to close, and report closing errors if they occur. let ret; try { ret = fs.fchmodSync(fd, mode); } finally { fs.closeSync(fd); } return ret; } function chmod(path, mode, callback) { path = getPathFromURL(path); validatePath(path); mode = validateAndMaskMode(mode, 'mode'); callback = makeCallback(callback); const req = new FSReqWrap(); req.oncomplete = callback; binding.chmod(pathModule.toNamespacedPath(path), mode, req); } function chmodSync(path, mode) { path = getPathFromURL(path); validatePath(path); mode = validateAndMaskMode(mode, 'mode'); const ctx = { path }; binding.chmod(pathModule.toNamespacedPath(path), mode, undefined, ctx); handleErrorFromBinding(ctx); } function lchown(path, uid, gid, callback) { callback = maybeCallback(callback); fs.open(path, O_WRONLY | O_SYMLINK, function(err, fd) { if (err) { callback(err); return; } // Prefer to return the chown error, if one occurs, // but still try to close, and report closing errors if they occur. fs.fchown(fd, uid, gid, function(err) { fs.close(fd, function(err2) { callback(err || err2); }); }); }); } function lchownSync(path, uid, gid) { const fd = fs.openSync(path, O_WRONLY | O_SYMLINK); let ret; try { ret = fs.fchownSync(fd, uid, gid); } finally { fs.closeSync(fd); } return ret; } function fchown(fd, uid, gid, callback) { validateUint32(fd, 'fd'); validateUint32(uid, 'uid'); validateUint32(gid, 'gid'); const req = new FSReqWrap(); req.oncomplete = makeCallback(callback); binding.fchown(fd, uid, gid, req); } function fchownSync(fd, uid, gid) { validateUint32(fd, 'fd'); validateUint32(uid, 'uid'); validateUint32(gid, 'gid'); const ctx = {}; binding.fchown(fd, uid, gid, undefined, ctx); handleErrorFromBinding(ctx); } function chown(path, uid, gid, callback) { callback = makeCallback(callback); path = getPathFromURL(path); validatePath(path); validateUint32(uid, 'uid'); validateUint32(gid, 'gid'); const req = new FSReqWrap(); req.oncomplete = callback; binding.chown(pathModule.toNamespacedPath(path), uid, gid, req); } function chownSync(path, uid, gid) { path = getPathFromURL(path); validatePath(path); validateUint32(uid, 'uid'); validateUint32(gid, 'gid'); const ctx = { path }; binding.chown(pathModule.toNamespacedPath(path), uid, gid, undefined, ctx); handleErrorFromBinding(ctx); } function utimes(path, atime, mtime, callback) { callback = makeCallback(callback); path = getPathFromURL(path); validatePath(path); const req = new FSReqWrap(); req.oncomplete = callback; binding.utimes(pathModule.toNamespacedPath(path), toUnixTimestamp(atime), toUnixTimestamp(mtime), req); } function utimesSync(path, atime, mtime) { path = getPathFromURL(path); validatePath(path); const ctx = { path }; binding.utimes(pathModule.toNamespacedPath(path), toUnixTimestamp(atime), toUnixTimestamp(mtime), undefined, ctx); handleErrorFromBinding(ctx); } function futimes(fd, atime, mtime, callback) { validateUint32(fd, 'fd'); atime = toUnixTimestamp(atime, 'atime'); mtime = toUnixTimestamp(mtime, 'mtime'); const req = new FSReqWrap(); req.oncomplete = makeCallback(callback); binding.futimes(fd, atime, mtime, req); } function futimesSync(fd, atime, mtime) { validateUint32(fd, 'fd'); atime = toUnixTimestamp(atime, 'atime'); mtime = toUnixTimestamp(mtime, 'mtime'); const ctx = {}; binding.futimes(fd, atime, mtime, undefined, ctx); handleErrorFromBinding(ctx); } function writeAll(fd, isUserFd, buffer, offset, length, position, callback) { // write(fd, buffer, offset, length, position, callback) fs.write(fd, buffer, offset, length, position, function(writeErr, written) { if (writeErr) { if (isUserFd) { callback(writeErr); } else { fs.close(fd, function close() { callback(writeErr); }); } } else if (written === length) { if (isUserFd) { callback(null); } else { fs.close(fd, callback); } } else { offset += written; length -= written; if (position !== null) { position += written; } writeAll(fd, isUserFd, buffer, offset, length, position, callback); } }); } function writeFile(path, data, options, callback) { callback = maybeCallback(callback || options); options = getOptions(options, { encoding: 'utf8', mode: 0o666, flag: 'w' }); const flag = options.flag || 'w'; if (isFd(path)) { writeFd(path, true); return; } fs.open(path, flag, options.mode, function(openErr, fd) { if (openErr) { callback(openErr); } else { writeFd(fd, false); } }); function writeFd(fd, isUserFd) { const buffer = isUint8Array(data) ? data : Buffer.from('' + data, options.encoding || 'utf8'); const position = /a/.test(flag) ? null : 0; writeAll(fd, isUserFd, buffer, 0, buffer.length, position, callback); } } function writeFileSync(path, data, options) { options = getOptions(options, { encoding: 'utf8', mode: 0o666, flag: 'w' }); const flag = options.flag || 'w'; const isUserFd = isFd(path); // file descriptor ownership const fd = isUserFd ? path : fs.openSync(path, flag, options.mode); if (!isUint8Array(data)) { data = Buffer.from('' + data, options.encoding || 'utf8'); } let offset = 0; let length = data.length; let position = /a/.test(flag) ? null : 0; try { while (length > 0) { const written = fs.writeSync(fd, data, offset, length, position); offset += written; length -= written; if (position !== null) { position += written; } } } finally { if (!isUserFd) fs.closeSync(fd); } } function appendFile(path, data, options, callback) { callback = maybeCallback(callback || options); options = getOptions(options, { encoding: 'utf8', mode: 0o666, flag: 'a' }); // Don't make changes directly on options object options = copyObject(options); // force append behavior when using a supplied file descriptor if (!options.flag || isFd(path)) options.flag = 'a'; fs.writeFile(path, data, options, callback); } function appendFileSync(path, data, options) { options = getOptions(options, { encoding: 'utf8', mode: 0o666, flag: 'a' }); // Don't make changes directly on options object options = copyObject(options); // force append behavior when using a supplied file descriptor if (!options.flag || isFd(path)) options.flag = 'a'; fs.writeFileSync(path, data, options); } function watch(filename, options, listener) { if (typeof options === 'function') { listener = options; } options = getOptions(options, {}); // Don't make changes directly on options object options = copyObject(options); if (options.persistent === undefined) options.persistent = true; if (options.recursive === undefined) options.recursive = false; if (!watchers) watchers = require('internal/fs/watchers'); const watcher = new watchers.FSWatcher(); watcher.start(filename, options.persistent, options.recursive, options.encoding); if (listener) { watcher.addListener('change', listener); } return watcher; } const statWatchers = new Map(); function watchFile(filename, options, listener) { filename = getPathFromURL(filename); validatePath(filename); filename = pathModule.resolve(filename); let stat; const defaults = { // Poll interval in milliseconds. 5007 is what libev used to use. It's // a little on the slow side but let's stick with it for now to keep // behavioral changes to a minimum. interval: 5007, persistent: true }; if (options !== null && typeof options === 'object') { options = _extend(defaults, options); } else { listener = options; options = defaults; } if (typeof listener !== 'function') { throw new ERR_INVALID_ARG_TYPE('listener', 'Function', listener); } stat = statWatchers.get(filename); if (stat === undefined) { if (!watchers) watchers = require('internal/fs/watchers'); stat = new watchers.StatWatcher(); stat.start(filename, options.persistent, options.interval); statWatchers.set(filename, stat); } stat.addListener('change', listener); return stat; } function unwatchFile(filename, listener) { filename = getPathFromURL(filename); validatePath(filename); filename = pathModule.resolve(filename); const stat = statWatchers.get(filename); if (stat === undefined) return; if (typeof listener === 'function') { stat.removeListener('change', listener); } else { stat.removeAllListeners('change'); } if (stat.listenerCount('change') === 0) { stat.stop(); statWatchers.delete(filename); } } let splitRoot; if (isWindows) { // Regex to find the device root on Windows (e.g. 'c:\\'), including trailing // slash. const splitRootRe = /^(?:[a-zA-Z]:|[\\/]{2}[^\\/]+[\\/][^\\/]+)?[\\/]*/; splitRoot = function splitRoot(str) { return splitRootRe.exec(str)[0]; }; } else { splitRoot = function splitRoot(str) { for (var i = 0; i < str.length; ++i) { if (str.charCodeAt(i) !== CHAR_FORWARD_SLASH) return str.slice(0, i); } return str; }; } function encodeRealpathResult(result, options) { if (!options || !options.encoding || options.encoding === 'utf8') return result; const asBuffer = Buffer.from(result); if (options.encoding === 'buffer') { return asBuffer; } else { return asBuffer.toString(options.encoding); } } // Finds the next portion of a (partial) path, up to the next path delimiter let nextPart; if (isWindows) { nextPart = function nextPart(p, i) { for (; i < p.length; ++i) { const ch = p.charCodeAt(i); // Check for a separator character if (ch === CHAR_BACKWARD_SLASH || ch === CHAR_FORWARD_SLASH) return i; } return -1; }; } else { nextPart = function nextPart(p, i) { return p.indexOf('/', i); }; } const emptyObj = Object.create(null); function realpathSync(p, options) { if (!options) options = emptyObj; else options = getOptions(options, emptyObj); p = getPathFromURL(p); if (typeof p !== 'string') { p += ''; } validatePath(p); p = pathModule.resolve(p); const cache = options[realpathCacheKey]; const maybeCachedResult = cache && cache.get(p); if (maybeCachedResult) { return maybeCachedResult; } const seenLinks = Object.create(null); const knownHard = Object.create(null); const original = p; // current character position in p let pos; // the partial path so far, including a trailing slash if any let current; // the partial path without a trailing slash (except when pointing at a root) let base; // the partial path scanned in the previous round, with slash let previous; // Skip over roots current = base = splitRoot(p); pos = current.length; // On windows, check that the root exists. On unix there is no need. if (isWindows && !knownHard[base]) { const ctx = { path: base }; binding.lstat(pathModule.toNamespacedPath(base), undefined, ctx); handleErrorFromBinding(ctx); knownHard[base] = true; } // walk down the path, swapping out linked path parts for their real // values // NB: p.length changes. while (pos < p.length) { // find the next part const result = nextPart(p, pos); previous = current; if (result === -1) { const last = p.slice(pos); current += last; base = previous + last; pos = p.length; } else { current += p.slice(pos, result + 1); base = previous + p.slice(pos, result); pos = result + 1; } // continue if not a symlink, break if a pipe/socket if (knownHard[base] || (cache && cache.get(base) === base)) { if (isFileType(statValues, S_IFIFO) || isFileType(statValues, S_IFSOCK)) { break; } continue; } let resolvedLink; const maybeCachedResolved = cache && cache.get(base); if (maybeCachedResolved) { resolvedLink = maybeCachedResolved; } else { // Use stats array directly to avoid creating an fs.Stats instance just // for our internal use. const baseLong = pathModule.toNamespacedPath(base); const ctx = { path: base }; const stats = binding.lstat(baseLong, undefined, ctx); handleErrorFromBinding(ctx); if (!isFileType(stats, S_IFLNK)) { knownHard[base] = true; if (cache) cache.set(base, base); continue; } // read the link if it wasn't read before // dev/ino always return 0 on windows, so skip the check. let linkTarget = null; let id; if (!isWindows) { const dev = stats[0].toString(32); const ino = stats[7].toString(32); id = `${dev}:${ino}`; if (seenLinks[id]) { linkTarget = seenLinks[id]; } } if (linkTarget === null) { const ctx = { path: base }; binding.stat(baseLong, undefined, ctx); handleErrorFromBinding(ctx); linkTarget = binding.readlink(baseLong, undefined, undefined, ctx); handleErrorFromBinding(ctx); } resolvedLink = pathModule.resolve(previous, linkTarget); if (cache) cache.set(base, resolvedLink); if (!isWindows) seenLinks[id] = linkTarget; } // resolve the link, then start over p = pathModule.resolve(resolvedLink, p.slice(pos)); // Skip over roots current = base = splitRoot(p); pos = current.length; // On windows, check that the root exists. On unix there is no need. if (isWindows && !knownHard[base]) { const ctx = { path: base }; binding.lstat(pathModule.toNamespacedPath(base), undefined, ctx); handleErrorFromBinding(ctx); knownHard[base] = true; } } if (cache) cache.set(original, p); return encodeRealpathResult(p, options); } realpathSync.native = function(path, options) { options = getOptions(options, {}); path = getPathFromURL(path); validatePath(path); const ctx = { path }; const result = binding.realpath(path, options.encoding, undefined, ctx); handleErrorFromBinding(ctx); return result; }; function realpath(p, options, callback) { callback = maybeCallback(typeof options === 'function' ? options : callback); if (!options) options = emptyObj; else options = getOptions(options, emptyObj); p = getPathFromURL(p); if (typeof p !== 'string') { p += ''; } validatePath(p); p = pathModule.resolve(p); const seenLinks = Object.create(null); const knownHard = Object.create(null); // current character position in p let pos; // the partial path so far, including a trailing slash if any let current; // the partial path without a trailing slash (except when pointing at a root) let base; // the partial path scanned in the previous round, with slash let previous; current = base = splitRoot(p); pos = current.length; // On windows, check that the root exists. On unix there is no need. if (isWindows && !knownHard[base]) { fs.lstat(base, function(err, stats) { if (err) return callback(err); knownHard[base] = true; LOOP(); }); } else { process.nextTick(LOOP); } // walk down the path, swapping out linked path parts for their real // values function LOOP() { // stop if scanned past end of path if (pos >= p.length) { return callback(null, encodeRealpathResult(p, options)); } // find the next part const result = nextPart(p, pos); previous = current; if (result === -1) { const last = p.slice(pos); current += last; base = previous + last; pos = p.length; } else { current += p.slice(pos, result + 1); base = previous + p.slice(pos, result); pos = result + 1; } // continue if not a symlink, break if a pipe/socket if (knownHard[base]) { if (isFileType(statValues, S_IFIFO) || isFileType(statValues, S_IFSOCK)) { return callback(null, encodeRealpathResult(p, options)); } return process.nextTick(LOOP); } return fs.lstat(base, gotStat); } function gotStat(err, stats) { if (err) return callback(err); // if not a symlink, skip to the next path part if (!stats.isSymbolicLink()) { knownHard[base] = true; return process.nextTick(LOOP); } // stat & read the link if not read before // call gotTarget as soon as the link target is known // dev/ino always return 0 on windows, so skip the check. let id; if (!isWindows) { const dev = stats.dev.toString(32); const ino = stats.ino.toString(32); id = `${dev}:${ino}`; if (seenLinks[id]) { return gotTarget(null, seenLinks[id], base); } } fs.stat(base, function(err) { if (err) return callback(err); fs.readlink(base, function(err, target) { if (!isWindows) seenLinks[id] = target; gotTarget(err, target); }); }); } function gotTarget(err, target, base) { if (err) return callback(err); gotResolvedLink(pathModule.resolve(previous, target)); } function gotResolvedLink(resolvedLink) { // resolve the link, then start over p = pathModule.resolve(resolvedLink, p.slice(pos)); current = base = splitRoot(p); pos = current.length; // On windows, check that the root exists. On unix there is no need. if (isWindows && !knownHard[base]) { fs.lstat(base, function(err) { if (err) return callback(err); knownHard[base] = true; LOOP(); }); } else { process.nextTick(LOOP); } } } realpath.native = function(path, options, callback) { callback = makeCallback(callback || options); options = getOptions(options, {}); path = getPathFromURL(path); validatePath(path); const req = new FSReqWrap(); req.oncomplete = callback; return binding.realpath(path, options.encoding, req); }; function mkdtemp(prefix, options, callback) { callback = makeCallback(typeof options === 'function' ? options : callback); options = getOptions(options, {}); if (!prefix || typeof prefix !== 'string') { throw new ERR_INVALID_ARG_TYPE('prefix', 'string', prefix); } nullCheck(prefix, 'prefix'); const req = new FSReqWrap(); req.oncomplete = callback; binding.mkdtemp(`${prefix}XXXXXX`, options.encoding, req); } function mkdtempSync(prefix, options) { options = getOptions(options, {}); if (!prefix || typeof prefix !== 'string') { throw new ERR_INVALID_ARG_TYPE('prefix', 'string', prefix); } nullCheck(prefix, 'prefix'); const path = `${prefix}XXXXXX`; const ctx = { path }; const result = binding.mkdtemp(path, options.encoding, undefined, ctx); handleErrorFromBinding(ctx); return result; } function copyFile(src, dest, flags, callback) { if (typeof flags === 'function') { callback = flags; flags = 0; } else if (typeof callback !== 'function') { throw new ERR_INVALID_CALLBACK(); } src = getPathFromURL(src); dest = getPathFromURL(dest); validatePath(src, 'src'); validatePath(dest, 'dest'); src = pathModule._makeLong(src); dest = pathModule._makeLong(dest); flags = flags | 0; const req = new FSReqWrap(); req.oncomplete = makeCallback(callback); binding.copyFile(src, dest, flags, req); } function copyFileSync(src, dest, flags) { src = getPathFromURL(src); dest = getPathFromURL(dest); validatePath(src, 'src'); validatePath(dest, 'dest'); const ctx = { path: src, dest }; // non-prefixed src = pathModule._makeLong(src); dest = pathModule._makeLong(dest); flags = flags | 0; binding.copyFile(src, dest, flags, undefined, ctx); handleErrorFromBinding(ctx); } function lazyLoadStreams() { if (!ReadStream) { ({ ReadStream, WriteStream } = require('internal/fs/streams')); [ FileReadStream, FileWriteStream ] = [ ReadStream, WriteStream ]; } } function createReadStream(path, options) { lazyLoadStreams(); return new ReadStream(path, options); } function createWriteStream(path, options) { lazyLoadStreams(); return new WriteStream(path, options); } module.exports = fs = { appendFile, appendFileSync, access, accessSync, chown, chownSync, chmod, chmodSync, close, closeSync, copyFile, copyFileSync, createReadStream, createWriteStream, exists, existsSync, fchown, fchownSync, fchmod, fchmodSync, fdatasync, fdatasyncSync, fstat, fstatSync, fsync, fsyncSync, ftruncate, ftruncateSync, futimes, futimesSync, lchown: constants.O_SYMLINK !== undefined ? lchown : undefined, lchownSync: constants.O_SYMLINK !== undefined ? lchownSync : undefined, lchmod: constants.O_SYMLINK !== undefined ? lchmod : undefined, lchmodSync: constants.O_SYMLINK !== undefined ? lchmodSync : undefined, link, linkSync, lstat, lstatSync, mkdir, mkdirSync, mkdtemp, mkdtempSync, open, openSync, readdir, readdirSync, read, readSync, readFile, readFileSync, readlink, readlinkSync, realpath, realpathSync, rename, renameSync, rmdir, rmdirSync, stat, statSync, symlink, symlinkSync, truncate, truncateSync, unwatchFile, unlink, unlinkSync, utimes, utimesSync, watch, watchFile, writeFile, writeFileSync, write, writeSync, Stats, get ReadStream() { lazyLoadStreams(); return ReadStream; }, set ReadStream(val) { ReadStream = val; }, get WriteStream() { lazyLoadStreams(); return WriteStream; }, set WriteStream(val) { WriteStream = val; }, // Legacy names... these have to be separate because of how graceful-fs // (and possibly other) modules monkey patch the values. get FileReadStream() { lazyLoadStreams(); return FileReadStream; }, set FileReadStream(val) { FileReadStream = val; }, get FileWriteStream() { lazyLoadStreams(); return FileWriteStream; }, set FileWriteStream(val) { FileWriteStream = val; }, // For tests _toUnixTimestamp: toUnixTimestamp }; Object.defineProperties(fs, { F_OK: { enumerable: true, value: F_OK || 0 }, R_OK: { enumerable: true, value: R_OK || 0 }, W_OK: { enumerable: true, value: W_OK || 0 }, X_OK: { enumerable: true, value: X_OK || 0 }, constants: { configurable: false, enumerable: true, value: constants }, promises: { configurable: true, enumerable: false, get() { if (promisesWarn) { promises = require('internal/fs/promises'); promisesWarn = false; process.emitWarning('The fs.promises API is experimental', 'ExperimentalWarning'); } return promises; } } });