// 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 octal literals are not allowed // in strict mode. Use the decimal value and add a comment with // the octal value. Example: // // var mode = 438; /* mode=0666 */ var util = require('util'); var pathModule = require('path'); var binding = process.binding('fs'); var constants = process.binding('constants'); var fs = exports; var Stream = require('stream').Stream; var EventEmitter = require('events').EventEmitter; var kMinPoolSpace = 128; var kPoolSize = 40 * 1024; fs.Stats = binding.Stats; fs.Stats.prototype._checkModeProperty = function(property) { return ((this.mode & constants.S_IFMT) === property); }; fs.Stats.prototype.isDirectory = function() { return this._checkModeProperty(constants.S_IFDIR); }; fs.Stats.prototype.isFile = function() { return this._checkModeProperty(constants.S_IFREG); }; fs.Stats.prototype.isBlockDevice = function() { return this._checkModeProperty(constants.S_IFBLK); }; fs.Stats.prototype.isCharacterDevice = function() { return this._checkModeProperty(constants.S_IFCHR); }; fs.Stats.prototype.isSymbolicLink = function() { return this._checkModeProperty(constants.S_IFLNK); }; fs.Stats.prototype.isFIFO = function() { return this._checkModeProperty(constants.S_IFIFO); }; fs.Stats.prototype.isSocket = function() { return this._checkModeProperty(constants.S_IFSOCK); }; fs.readFile = function(path, encoding_) { var encoding = typeof(encoding_) === 'string' ? encoding_ : null; var callback = arguments[arguments.length - 1]; if (typeof(callback) !== 'function') callback = noop; var readStream = fs.createReadStream(path); var buffers = []; var nread = 0; readStream.on('data', function(chunk) { buffers.push(chunk); nread += chunk.length; }); readStream.on('error', function(er) { callback(er); readStream.destroy(); }); readStream.on('end', function() { // copy all the buffers into one var buffer; switch (buffers.length) { case 0: buffer = new Buffer(0); break; case 1: buffer = buffers[0]; break; default: // concat together buffer = new Buffer(nread); var n = 0; buffers.forEach(function(b) { var l = b.length; b.copy(buffer, n, 0, l); n += l; }); break; } if (encoding) { try { buffer = buffer.toString(encoding); } catch (er) { return callback(er); } } callback(null, buffer); }); }; fs.readFileSync = function(path, encoding) { var fd = fs.openSync(path, constants.O_RDONLY, 438 /*=0666*/); var buffer = new Buffer(4048); var buffers = []; var nread = 0; var lastRead = 0; do { if (lastRead) { buffer._bytesRead = lastRead; nread += lastRead; buffers.push(buffer); } var buffer = new Buffer(4048); lastRead = fs.readSync(fd, buffer, 0, buffer.length, null); } while (lastRead > 0); fs.closeSync(fd); if (buffers.length > 1) { var offset = 0; var i; buffer = new Buffer(nread); buffers.forEach(function(i) { if (!i._bytesRead) return; i.copy(buffer, offset, 0, i._bytesRead); offset += i._bytesRead; }); } else if (buffers.length) { // buffers has exactly 1 (possibly zero length) buffer, so this should // be a shortcut buffer = buffers[0].slice(0, buffers[0]._bytesRead); } else { buffer = new Buffer(0); } if (encoding) buffer = buffer.toString(encoding); return buffer; }; // Used by binding.open and friends function stringToFlags(flag) { // Only mess with strings if (typeof flag !== 'string') { return flag; } switch (flag) { case 'r': return constants.O_RDONLY; case 'r+': return constants.O_RDWR; case 'w': return constants.O_CREAT | constants.O_TRUNC | constants.O_WRONLY; case 'w+': return constants.O_CREAT | constants.O_TRUNC | constants.O_RDWR; case 'a': return constants.O_APPEND | constants.O_CREAT | constants.O_WRONLY; case 'a+': return constants.O_APPEND | constants.O_CREAT | constants.O_RDWR; default: throw new Error('Unknown file open flag: ' + flag); } } function noop() {} // Yes, the follow could be easily DRYed up but I provide the explicit // list to make the arguments clear. fs.close = function(fd, callback) { binding.close(fd, callback || noop); }; fs.closeSync = function(fd) { return binding.close(fd); }; function modeNum(m, def) { switch (typeof m) { case 'number': return m; case 'string': return parseInt(m, 8); default: if (def) { return modeNum(def); } else { return undefined; } } } fs.open = function(path, flags, mode, callback) { callback = arguments[arguments.length - 1]; if (typeof(callback) !== 'function') { callback = noop; } mode = modeNum(mode, 438 /*=0666*/); binding.open(pathModule._makeLong(path), stringToFlags(flags), mode, callback); }; fs.openSync = function(path, flags, mode) { mode = modeNum(mode, 438 /*=0666*/); return binding.open(pathModule._makeLong(path), stringToFlags(flags), mode); }; fs.read = function(fd, buffer, offset, length, position, callback) { if (!Buffer.isBuffer(buffer)) { // legacy string interface (fd, length, position, encoding, callback) var cb = arguments[4], encoding = arguments[3]; position = arguments[2]; length = arguments[1]; buffer = new Buffer(length); offset = 0; callback = function(err, bytesRead) { if (!cb) return; var str = (bytesRead > 0) ? buffer.toString(encoding, 0, bytesRead) : ''; (cb)(err, str, bytesRead); }; } 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); } binding.read(fd, buffer, offset, length, position, wrapper); }; fs.readSync = function(fd, buffer, offset, length, position) { var legacy = false; if (!Buffer.isBuffer(buffer)) { // legacy string interface (fd, length, position, encoding, callback) legacy = true; var encoding = arguments[3]; position = arguments[2]; length = arguments[1]; buffer = new Buffer(length); offset = 0; } var r = binding.read(fd, buffer, offset, length, position); if (!legacy) { return r; } var str = (r > 0) ? buffer.toString(encoding, 0, r) : ''; return [str, r]; }; fs.write = function(fd, buffer, offset, length, position, callback) { if (!Buffer.isBuffer(buffer)) { // legacy string interface (fd, data, position, encoding, callback) callback = arguments[4]; position = arguments[2]; buffer = new Buffer('' + arguments[1], arguments[3]); offset = 0; length = buffer.length; } if (!length) { if (typeof callback == 'function') { process.nextTick(function() { callback(undefined, 0); }); } return; } function wrapper(err, written) { // Retain a reference to buffer so that it can't be GC'ed too soon. callback && callback(err, written || 0, buffer); } binding.write(fd, buffer, offset, length, position, wrapper); }; fs.writeSync = function(fd, buffer, offset, length, position) { if (!Buffer.isBuffer(buffer)) { // legacy string interface (fd, data, position, encoding) position = arguments[2]; buffer = new Buffer('' + arguments[1], arguments[3]); offset = 0; length = buffer.length; } if (!length) return 0; return binding.write(fd, buffer, offset, length, position); }; fs.rename = function(oldPath, newPath, callback) { binding.rename(pathModule._makeLong(oldPath), pathModule._makeLong(newPath), callback || noop); }; fs.renameSync = function(oldPath, newPath) { return binding.rename(pathModule._makeLong(oldPath), pathModule._makeLong(newPath)); }; fs.truncate = function(fd, len, callback) { binding.truncate(fd, len, callback || noop); }; fs.truncateSync = function(fd, len) { return binding.truncate(fd, len); }; fs.rmdir = function(path, callback) { binding.rmdir(pathModule._makeLong(path), callback || noop); }; fs.rmdirSync = function(path) { return binding.rmdir(pathModule._makeLong(path)); }; fs.fdatasync = function(fd, callback) { binding.fdatasync(fd, callback || noop); }; fs.fdatasyncSync = function(fd) { return binding.fdatasync(fd); }; fs.fsync = function(fd, callback) { binding.fsync(fd, callback || noop); }; fs.fsyncSync = function(fd) { return binding.fsync(fd); }; fs.mkdir = function(path, mode, callback) { if (typeof mode === 'function') callback = mode; binding.mkdir(pathModule._makeLong(path), modeNum(mode, 511 /*=0777*/), callback || noop); }; fs.mkdirSync = function(path, mode) { return binding.mkdir(pathModule._makeLong(path), modeNum(mode, 511 /*=0777*/)); }; fs.sendfile = function(outFd, inFd, inOffset, length, callback) { binding.sendfile(outFd, inFd, inOffset, length, callback || noop); }; fs.sendfileSync = function(outFd, inFd, inOffset, length) { return binding.sendfile(outFd, inFd, inOffset, length); }; fs.readdir = function(path, callback) { binding.readdir(pathModule._makeLong(path), callback || noop); }; fs.readdirSync = function(path) { return binding.readdir(pathModule._makeLong(path)); }; fs.fstat = function(fd, callback) { binding.fstat(fd, callback || noop); }; fs.lstat = function(path, callback) { binding.lstat(pathModule._makeLong(path), callback || noop); }; fs.stat = function(path, callback) { binding.stat(pathModule._makeLong(path), callback || noop); }; fs.fstatSync = function(fd) { return binding.fstat(fd); }; fs.lstatSync = function(path) { return binding.lstat(pathModule._makeLong(path)); }; fs.statSync = function(path) { return binding.stat(pathModule._makeLong(path)); }; fs.readlink = function(path, callback) { binding.readlink(pathModule._makeLong(path), callback || noop); }; fs.readlinkSync = function(path) { return binding.readlink(pathModule._makeLong(path)); }; fs.symlink = function(destination, path, type_, callback) { var type = (typeof(type_) == 'string' ? type_ : null); var callback_ = arguments[arguments.length - 1]; callback = (typeof(callback_) == 'function' ? callback_ : null); binding.symlink(pathModule._makeLong(destination), pathModule._makeLong(path), type, callback); }; fs.symlinkSync = function(destination, path, type) { return binding.symlink(pathModule._makeLong(destination), pathModule._makeLong(path), type); }; fs.link = function(srcpath, dstpath, callback) { binding.link(pathModule._makeLong(srcpath), pathModule._makeLong(dstpath), callback || noop); }; fs.linkSync = function(srcpath, dstpath) { return binding.link(pathModule._makeLong(srcpath), pathModule._makeLong(dstpath)); }; fs.unlink = function(path, callback) { binding.unlink(pathModule._makeLong(path), callback || noop); }; fs.unlinkSync = function(path) { return binding.unlink(pathModule._makeLong(path)); }; fs.fchmod = function(fd, mode, callback) { binding.fchmod(fd, modeNum(mode), callback || noop); }; fs.fchmodSync = function(fd, mode) { return binding.fchmod(fd, modeNum(mode)); }; if (constants.hasOwnProperty('O_SYMLINK')) { fs.lchmod = function(path, mode, callback) { callback = callback || noop; fs.open(path, constants.O_WRONLY | constants.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); }); }); }); }; fs.lchmodSync = function(path, mode) { var fd = fs.openSync(path, constants.O_WRONLY | constants.O_SYMLINK); // prefer to return the chmod error, if one occurs, // but still try to close, and report closing errors if they occur. var err, err2; try { var ret = fs.fchmodSync(fd, mode); } catch (er) { err = er; } try { fs.closeSync(fd); } catch (er) { err2 = er; } if (err || err2) throw (err || err2); return ret; }; } fs.chmod = function(path, mode, callback) { binding.chmod(pathModule._makeLong(path), modeNum(mode), callback || noop); }; fs.chmodSync = function(path, mode) { return binding.chmod(pathModule._makeLong(path), modeNum(mode)); }; if (constants.hasOwnProperty('O_SYMLINK')) { fs.lchown = function(path, uid, gid, callback) { callback = callback || noop; fs.open(path, constants.O_WRONLY | constants.O_SYMLINK, function(err, fd) { if (err) { callback(err); return; } fs.fchown(fd, uid, gid, callback); }); }; fs.lchownSync = function(path, uid, gid) { var fd = fs.openSync(path, constants.O_WRONLY | constants.O_SYMLINK); return fs.fchownSync(fd, uid, gid); }; } fs.fchown = function(fd, uid, gid, callback) { binding.fchown(fd, uid, gid, callback || noop); }; fs.fchownSync = function(fd, uid, gid) { return binding.fchown(fd, uid, gid); }; fs.chown = function(path, uid, gid, callback) { binding.chown(pathModule._makeLong(path), uid, gid, callback || noop); }; fs.chownSync = function(path, uid, gid) { return binding.chown(pathModule._makeLong(path), uid, gid); }; // converts Date or number to a fractional UNIX timestamp function toUnixTimestamp(time) { if (typeof time == 'number') { return time; } if (time instanceof Date) { // convert to 123.456 UNIX timestamp return time.getTime() / 1000; } throw new Error('Cannot parse time: ' + time); } // exported for unit tests, not for public consumption fs._toUnixTimestamp = toUnixTimestamp; fs.utimes = function(path, atime, mtime, callback) { atime = toUnixTimestamp(atime); mtime = toUnixTimestamp(mtime); binding.utimes(pathModule._makeLong(path), atime, mtime, callback || noop); }; fs.utimesSync = function(path, atime, mtime) { atime = toUnixTimestamp(atime); mtime = toUnixTimestamp(mtime); binding.utimes(pathModule._makeLong(path), atime, mtime); }; fs.futimes = function(fd, atime, mtime, callback) { atime = toUnixTimestamp(atime); mtime = toUnixTimestamp(mtime); binding.futimes(fd, atime, mtime, callback || noop); }; fs.futimesSync = function(fd, atime, mtime) { atime = toUnixTimestamp(atime); mtime = toUnixTimestamp(mtime); binding.futimes(fd, atime, mtime); }; function writeAll(fd, buffer, offset, length, callback) { // write(fd, buffer, offset, length, position, callback) fs.write(fd, buffer, offset, length, offset, function(writeErr, written) { if (writeErr) { fs.close(fd, function() { if (callback) callback(writeErr); }); } else { if (written === length) { fs.close(fd, callback); } else { writeAll(fd, buffer, offset + written, length - written, callback); } } }); } fs.writeFile = function(path, data, encoding_, callback) { var encoding = (typeof(encoding_) == 'string' ? encoding_ : 'utf8'); var callback_ = arguments[arguments.length - 1]; callback = (typeof(callback_) == 'function' ? callback_ : null); fs.open(path, 'w', 438 /*=0666*/, function(openErr, fd) { if (openErr) { if (callback) callback(openErr); } else { var buffer = Buffer.isBuffer(data) ? data : new Buffer('' + data, encoding); writeAll(fd, buffer, 0, buffer.length, callback); } }); }; fs.writeFileSync = function(path, data, encoding) { var fd = fs.openSync(path, 'w'); if (!Buffer.isBuffer(data)) { data = new Buffer('' + data, encoding || 'utf8'); } var written = 0; var length = data.length; //writeSync(fd, buffer, offset, length, position) while (written < length) { written += fs.writeSync(fd, data, written, length - written, written); } fs.closeSync(fd); }; function errnoException(errorno, syscall) { // TODO make this more compatible with ErrnoException from src/node.cc // Once all of Node is using this function the ErrnoException from // src/node.cc should be removed. var e = new Error(syscall + ' ' + errorno); e.errno = e.code = errorno; e.syscall = syscall; return e; } function FSWatcher() { var self = this; var FSEvent = process.binding('fs_event_wrap').FSEvent; this._handle = new FSEvent(); this._handle.onchange = function(status, event, filename) { if (status) { self.emit('error', errnoException(errno, 'watch')); } else { self.emit('change', event, filename); } }; } util.inherits(FSWatcher, EventEmitter); FSWatcher.prototype.start = function(filename, persistent) { var r = this._handle.start(pathModule._makeLong(filename), persistent); if (r) { this._handle.close(); throw errnoException(errno, 'watch'); } }; FSWatcher.prototype.close = function() { this._handle.close(); }; fs.watch = function(filename) { var watcher; var options; var listener; if ('object' == typeof arguments[1]) { options = arguments[1]; listener = arguments[2]; } else { options = {}; listener = arguments[1]; } if (!listener) { throw new Error('watch requires a listener function'); } if (options.persistent === undefined) options.persistent = true; watcher = new FSWatcher(); watcher.start(filename, options.persistent); watcher.addListener('change', listener); return watcher; }; // Stat Change Watchers function StatWatcher() { var self = this; this._handle = new binding.StatWatcher(); this._handle.onchange = function(current, previous) { self.emit('change', current, previous); }; this._handle.onstop = function() { self.emit('stop'); }; } util.inherits(StatWatcher, EventEmitter); StatWatcher.prototype.start = function(filename, persistent, interval) { this._handle.start(pathModule._makeLong(filename), persistent, interval); }; StatWatcher.prototype.stop = function() { this._handle.stop(); }; var statWatchers = {}; function inStatWatchers(filename) { return Object.prototype.hasOwnProperty.call(statWatchers, filename) && statWatchers[filename]; } fs.watchFile = function(filename) { if (isWindows) { throw new Error('use fs.watch api instead'); } var stat; var options; var listener; if ('object' == typeof arguments[1]) { options = arguments[1]; listener = arguments[2]; } else { options = {}; listener = arguments[1]; } if (!listener) { throw new Error('watchFile requires a listener function'); } if (options.persistent === undefined) options.persistent = true; if (options.interval === undefined) options.interval = 0; if (inStatWatchers(filename)) { stat = statWatchers[filename]; } else { stat = statWatchers[filename] = new StatWatcher(); stat.start(filename, options.persistent, options.interval); } stat.addListener('change', listener); return stat; }; fs.unwatchFile = function(filename) { var stat; if (inStatWatchers(filename)) { stat = statWatchers[filename]; stat.stop(); statWatchers[filename] = undefined; } }; // Realpath // Not using realpath(2) because it's bad. // See: http://insanecoding.blogspot.com/2007/11/pathmax-simply-isnt.html var normalize = pathModule.normalize, isWindows = process.platform === 'win32'; if (isWindows) { // Node doesn't support symlinks / lstat on windows. Hence realpath is just // the same as path.resolve that fails if the path doesn't exists. // windows version fs.realpathSync = function realpathSync(p, cache) { p = pathModule.resolve(p); if (cache && Object.prototype.hasOwnProperty.call(cache, p)) { return cache[p]; } fs.statSync(p); if (cache) cache[p] = p; return p; }; // windows version fs.realpath = function(p, cache, cb) { if (typeof cb !== 'function') { cb = cache; cache = null; } p = pathModule.resolve(p); if (cache && Object.prototype.hasOwnProperty.call(cache, p)) { return cb(null, cache[p]); } fs.stat(p, function(err) { if (err) return cb(err); if (cache) cache[p] = p; cb(null, p); }); }; } else /* posix */ { // Regexp that finds the next partion of a (partial) path // result is [base_with_slash, base], e.g. ['somedir/', 'somedir'] var nextPartRe = /(.*?)(?:[\/]+|$)/g; // posix version fs.realpathSync = function realpathSync(p, cache) { // make p is absolute p = pathModule.resolve(p); if (cache && Object.prototype.hasOwnProperty.call(cache, p)) { return cache[p]; } var original = p, seenLinks = {}, knownHard = {}; // current character position in p var pos = 0; // the partial path so far, including a trailing slash if any var current = ''; // the partial path without a trailing slash var base = ''; // the partial path scanned in the previous round, with slash var previous = ''; // walk down the path, swapping out linked pathparts for their real // values // NB: p.length changes. while (pos < p.length) { // find the next part nextPartRe.lastIndex = pos; var result = nextPartRe.exec(p); previous = current; current += result[0]; base = previous + result[1]; pos = nextPartRe.lastIndex; // continue if not a symlink, or if root if (!base || knownHard[base] || (cache && cache[base] === base)) { continue; } var resolvedLink; if (cache && Object.prototype.hasOwnProperty.call(cache, base)) { // some known symbolic link. no need to stat again. resolvedLink = cache[base]; } else { var stat = fs.lstatSync(base); if (!stat.isSymbolicLink()) { knownHard[base] = true; if (cache) cache[base] = base; continue; } // read the link if it wasn't read before var id = stat.dev.toString(32) + ':' + stat.ino.toString(32); if (!seenLinks[id]) { fs.statSync(base); seenLinks[id] = fs.readlinkSync(base); resolvedLink = pathModule.resolve(previous, seenLinks[id]); // track this, if given a cache. if (cache) cache[base] = resolvedLink; } } // resolve the link, then start over p = pathModule.resolve(resolvedLink, p.slice(pos)); pos = 0; previous = base = current = ''; } if (cache) cache[original] = p; return p; }; // posix version fs.realpath = function realpath(p, cache, cb) { if (typeof cb !== 'function') { cb = cache; cache = null; } // make p is absolute p = pathModule.resolve(p); if (cache && Object.prototype.hasOwnProperty.call(cache, p)) { return cb(null, cache[p]); } var original = p, seenLinks = {}, knownHard = {}; // current character position in p var pos = 0; // the partial path so far, including a trailing slash if any var current = ''; // the partial path without a trailing slash var base = ''; // the partial path scanned in the previous round, with slash var previous = ''; // walk down the path, swapping out linked pathparts for their real // values LOOP(); function LOOP() { // stop if scanned past end of path if (pos >= p.length) { if (cache) cache[original] = p; return cb(null, p); } // find the next part nextPartRe.lastIndex = pos; var result = nextPartRe.exec(p); previous = current; current += result[0]; base = previous + result[1]; pos = nextPartRe.lastIndex; // continue if known to be hard or if root or in cache already. if (!base || knownHard[base] || (cache && cache[base] === base)) { return process.nextTick(LOOP); } if (cache && Object.prototype.hasOwnProperty.call(cache, base)) { // known symbolic link. no need to stat again. return gotResolvedLink(cache[base]); } return fs.lstat(base, gotStat); } function gotStat(err, stat) { if (err) return cb(err); // if not a symlink, skip to the next path part if (!stat.isSymbolicLink()) { knownHard[base] = true; if (cache) cache[base] = base; return process.nextTick(LOOP); } // stat & read the link if not read before // call gotTarget as soon as the link target is known var id = stat.dev.toString(32) + ':' + stat.ino.toString(32); if (seenLinks[id]) { return gotTarget(null, seenLinks[id], base); } fs.stat(base, function(err) { if (err) return cb(err); fs.readlink(base, function(err, target) { gotTarget(err, seenLinks[id] = target); }); }); } function gotTarget(err, target, base) { if (err) return cb(err); var resolvedLink = pathModule.resolve(previous, target); if (cache) cache[base] = resolvedLink; gotResolvedLink(resolvedLink); } function gotResolvedLink(resolvedLink) { // resolve the link, then start over p = pathModule.resolve(resolvedLink, p.slice(pos)); pos = 0; previous = base = current = ''; return process.nextTick(LOOP); } }; } var pool; function allocNewPool() { pool = new Buffer(kPoolSize); pool.used = 0; } fs.createReadStream = function(path, options) { return new ReadStream(path, options); }; var ReadStream = fs.ReadStream = function(path, options) { if (!(this instanceof ReadStream)) return new ReadStream(path, options); Stream.call(this); var self = this; this.path = path; this.fd = null; this.readable = true; this.paused = false; this.flags = 'r'; this.mode = 438; /*=0666*/ this.bufferSize = 64 * 1024; options = options || {}; // Mixin options into this var keys = Object.keys(options); for (var index = 0, length = keys.length; index < length; index++) { var key = keys[index]; this[key] = options[key]; } if (this.encoding) this.setEncoding(this.encoding); if (this.start !== undefined) { if (this.end === undefined) { this.end = Infinity; } if (this.start > this.end) { throw new Error('start must be <= end'); } this.pos = this.start; } if (this.fd !== null) { return; } fs.open(this.path, this.flags, this.mode, function(err, fd) { if (err) { self.emit('error', err); self.readable = false; return; } self.fd = fd; self.emit('open', fd); self._read(); }); }; util.inherits(ReadStream, Stream); fs.FileReadStream = fs.ReadStream; // support the legacy name ReadStream.prototype.setEncoding = function(encoding) { var StringDecoder = require('string_decoder').StringDecoder; // lazy load this._decoder = new StringDecoder(encoding); }; ReadStream.prototype._read = function() { var self = this; if (!this.readable || this.paused || this.reading) return; this.reading = true; if (!pool || pool.length - pool.used < kMinPoolSpace) { // discard the old pool. Can't add to the free list because // users might have refernces to slices on it. pool = null; allocNewPool(); } // Grab another reference to the pool in the case that while we're in the // thread pool another read() finishes up the pool, and allocates a new // one. var thisPool = pool; var toRead = Math.min(pool.length - pool.used, ~~this.bufferSize); var start = pool.used; if (this.pos !== undefined) { toRead = Math.min(this.end - this.pos + 1, toRead); } function afterRead(err, bytesRead) { self.reading = false; if (err) { self.emit('error', err); self.readable = false; return; } if (bytesRead === 0) { self.emit('end'); self.destroy(); return; } var b = thisPool.slice(start, start + bytesRead); // Possible optimizition here? // Reclaim some bytes if bytesRead < toRead? // Would need to ensure that pool === thisPool. // do not emit events if the stream is paused if (self.paused) { self.buffer = b; return; } // do not emit events anymore after we declared the stream unreadable if (!self.readable) return; self._emitData(b); self._read(); } fs.read(this.fd, pool, pool.used, toRead, this.pos, afterRead); if (this.pos !== undefined) { this.pos += toRead; } pool.used += toRead; }; ReadStream.prototype._emitData = function(d) { if (this._decoder) { var string = this._decoder.write(d); if (string.length) this.emit('data', string); } else { this.emit('data', d); } }; ReadStream.prototype.destroy = function(cb) { var self = this; this.readable = false; function close() { fs.close(self.fd, function(err) { if (err) { if (cb) cb(err); self.emit('error', err); return; } if (cb) cb(null); self.emit('close'); }); } if (this.fd) { close(); } else { this.addListener('open', close); } }; ReadStream.prototype.pause = function() { this.paused = true; }; ReadStream.prototype.resume = function() { this.paused = false; if (this.buffer) { this._emitData(this.buffer); this.buffer = null; } // hasn't opened yet. if (null == this.fd) return; this._read(); }; fs.createWriteStream = function(path, options) { return new WriteStream(path, options); }; var WriteStream = fs.WriteStream = function(path, options) { if (!(this instanceof WriteStream)) return new WriteStream(path, options); Stream.call(this); this.path = path; this.fd = null; this.writable = true; this.flags = 'w'; this.encoding = 'binary'; this.mode = 438; /*=0666*/ this.bytesWritten = 0; options = options || {}; // Mixin options into this var keys = Object.keys(options); for (var index = 0, length = keys.length; index < length; index++) { var key = keys[index]; this[key] = options[key]; } if (this.start !== undefined) { if (this.start < 0) { throw new Error('start must be >= zero'); } this.pos = this.start; } this.busy = false; this._queue = []; if (this.fd === null) { this._queue.push([fs.open, this.path, this.flags, this.mode, undefined]); this.flush(); } }; util.inherits(WriteStream, Stream); fs.FileWriteStream = fs.WriteStream; // support the legacy name WriteStream.prototype.flush = function() { if (this.busy) return; var self = this; var args = this._queue.shift(); if (!args) { if (this.drainable) { this.emit('drain'); } return; } this.busy = true; var method = args.shift(), cb = args.pop(); args.push(function(err) { self.busy = false; if (err) { self.writable = false; if (cb) { cb(err); } self.emit('error', err); return; } if (method == fs.write) { self.bytesWritten += arguments[1]; if (cb) { // write callback cb(null, arguments[1]); } } else if (method === fs.open) { // save reference for file pointer self.fd = arguments[1]; self.emit('open', self.fd); } else if (method === fs.close) { // stop flushing after close if (cb) { cb(null); } self.emit('close'); return; } self.flush(); }); // Inject the file pointer if (method !== fs.open) { args.unshift(this.fd); } method.apply(this, args); }; WriteStream.prototype.write = function(data) { if (!this.writable) { this.emit('error', new Error('stream not writable')); return false; } this.drainable = true; var cb; if (typeof(arguments[arguments.length - 1]) == 'function') { cb = arguments[arguments.length - 1]; } if (!Buffer.isBuffer(data)) { var encoding = 'utf8'; if (typeof(arguments[1]) == 'string') encoding = arguments[1]; data = new Buffer('' + data, encoding); } this._queue.push([fs.write, data, 0, data.length, this.pos, cb]); if (this.pos !== undefined) { this.pos += data.length; } this.flush(); return false; }; WriteStream.prototype.end = function(data, encoding, cb) { if (typeof(data) === 'function') { cb = data; } else if (typeof(encoding) === 'function') { cb = encoding; this.write(data); } else if (arguments.length > 0) { this.write(data, encoding); } this.writable = false; this._queue.push([fs.close, cb]); this.flush(); }; WriteStream.prototype.destroy = function(cb) { var self = this; this.writable = false; function close() { fs.close(self.fd, function(err) { if (err) { if (cb) { cb(err); } self.emit('error', err); return; } if (cb) { cb(null); } self.emit('close'); }); } if (this.fd) { close(); } else { this.addListener('open', close); } }; // There is no shutdown() for files. WriteStream.prototype.destroySoon = WriteStream.prototype.end; // SyncWriteStream is internal. DO NOT USE. // Temporary hack for process.stdout and process.stderr when piped to files. function SyncWriteStream(fd) { this.fd = fd; this.writable = true; this.readable = false; }; util.inherits(SyncWriteStream, Stream); // Export fs.SyncWriteStream = SyncWriteStream; SyncWriteStream.prototype.write = function(data, arg1, arg2) { var encoding, cb; // parse arguments if (arg1) { if (typeof arg1 === 'string') { encoding = arg1; cb = arg2; } else if (typeof arg1 === 'function') { cb = arg1; } else { throw new Error("bad arg"); } } // Change strings to buffers. SLOW if (typeof data == 'string') { data = new Buffer(data, encoding); } fs.writeSync(this.fd, data, 0, data.length); if (cb) { process.nextTick(cb); } return true; }; SyncWriteStream.prototype.end = function(data, arg1, arg2) { if (data) { this.write(data, arg1, arg2); } this.destroy(); }; SyncWriteStream.prototype.destroy = function() { fs.closeSync(this.fd); this.fd = null; this.emit('close'); return true; }; SyncWriteStream.prototype.destroySoon = SyncWriteStream.prototype.destroy;