You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

1222 lines
32 KiB

var util = require("util");
var fs = require("fs");
var events = require("events");
var stream = require("stream");
var dns = require('dns');
var kMinPoolSpace = 128;
var kPoolSize = 40*1024;
var debugLevel = parseInt(process.env.NODE_DEBUG, 16);
function debug () {
if (debugLevel & 0x2) util.error.apply(this, arguments);
}
var binding = process.binding('net');
// Note about Buffer interface:
// I'm attempting to do the simplest possible interface to abstracting raw
// memory allocation. This might turn out to be too simple - it seems that
// I always use a buffer.used member to keep track of how much I've filled.
// Perhaps giving the Buffer a file-like interface with a head (which would
// represent buffer.used) that can be seeked around would be easier. I'm not
// yet convinced that every use-case can be fit into that abstraction, so
// waiting to implement it until I get more experience with this.
var FreeList = require('freelist').FreeList;
var IOWatcher = process.binding('io_watcher').IOWatcher;
var Timer = process.binding('timer').Timer;
var assert = process.assert;
var socket = binding.socket;
var bind = binding.bind;
var connect = binding.connect;
var listen = binding.listen;
var accept = binding.accept;
var close = binding.close;
var shutdown = binding.shutdown;
var read = binding.read;
var write = binding.write;
var toRead = binding.toRead;
var setNoDelay = binding.setNoDelay;
var setKeepAlive= binding.setKeepAlive;
var socketError = binding.socketError;
var getsockname = binding.getsockname;
var errnoException = binding.errnoException;
var sendMsg = binding.sendMsg;
var recvMsg = binding.recvMsg;
var EINPROGRESS = binding.EINPROGRESS;
var ENOENT = binding.ENOENT;
var EMFILE = binding.EMFILE;
var END_OF_FILE = 42;
var SecureContext, SecureStream; // lazy loaded
// IDLE TIMEOUTS
//
// Because often many sockets will have the same idle timeout we will not
// use one timeout watcher per socket. It is too much overhead. Instead
// we'll use a single watcher for all sockets with the same timeout value
// and a linked list. This technique is described in the libev manual:
// http://pod.tst.eu/http://cvs.schmorp.de/libev/ev.pod#Be_smart_about_timeouts
var timeout = new (function () {
// Object containing all lists, timers
// key = time in milliseconds
// value = list
var lists = {};
// show the most idle socket
function peek (list) {
if (list._idlePrev == list) return null;
return list._idlePrev;
}
// remove the most idle socket from the list
function shift (list) {
var first = list._idlePrev;
remove(first);
return first;
}
// remove a socket from its list
function remove (socket) {
socket._idleNext._idlePrev = socket._idlePrev;
socket._idlePrev._idleNext = socket._idleNext;
}
// remove a socket from its list and place at the end.
function append (list, socket) {
remove(socket);
socket._idleNext = list._idleNext;
socket._idleNext._idlePrev = socket;
socket._idlePrev = list;
list._idleNext = socket;
}
function normalize (msecs) {
if (!msecs || msecs <= 0) return 0;
// round up to one sec
if (msecs < 1000) return 1000;
// round down to nearest second.
return msecs - (msecs % 1000);
}
// the main function - creates lists on demand and the watchers associated
// with them.
function insert (socket, msecs) {
socket._idleStart = new Date();
socket._idleTimeout = msecs;
if (!msecs) return;
var list;
if (lists[msecs]) {
list = lists[msecs];
} else {
list = new Timer();
list._idleNext = list;
list._idlePrev = list;
lists[msecs] = list;
list.callback = function () {
debug('timeout callback ' + msecs);
// TODO - don't stop and start the watcher all the time.
// just set its repeat
var now = new Date();
debug("now: " + now);
var first;
while (first = peek(list)) {
var diff = now - first._idleStart;
if (diff < msecs) {
list.again(msecs - diff);
debug(msecs + ' list wait because diff is ' + diff);
return;
} else {
remove(first);
assert(first != peek(list));
first.emit('timeout');
}
}
debug(msecs + ' list empty');
assert(list._idleNext == list); // list is empty
list.stop();
};
}
if (list._idleNext == list) {
// if empty (re)start the timer
list.again(msecs);
}
append(list, socket);
assert(list._idleNext != list); // list is not empty
}
var unenroll = this.unenroll = function (socket) {
if (socket._idleNext) {
socket._idleNext._idlePrev = socket._idlePrev;
socket._idlePrev._idleNext = socket._idleNext;
var list = lists[socket._idleTimeout];
// if empty then stop the watcher
//debug('unenroll');
if (list && list._idlePrev == list) {
//debug('unenroll: list empty');
list.stop();
}
}
};
// Does not start the time, just sets up the members needed.
this.enroll = function (socket, msecs) {
// if this socket was already in a list somewhere
// then we should unenroll it from that
if (socket._idleNext) unenroll(socket);
socket._idleTimeout = msecs;
socket._idleNext = socket;
socket._idlePrev = socket;
};
// call this whenever the socket is active (not idle)
// it will reset its timeout.
this.active = function (socket) {
var msecs = socket._idleTimeout;
if (msecs) {
var list = lists[msecs];
if (socket._idleNext == socket) {
insert(socket, msecs);
} else {
// inline append
socket._idleStart = new Date();
socket._idleNext._idlePrev = socket._idlePrev;
socket._idlePrev._idleNext = socket._idleNext;
socket._idleNext = list._idleNext;
socket._idleNext._idlePrev = socket;
socket._idlePrev = list;
list._idleNext = socket;
}
}
};
})();
var ioWatchers = new FreeList("iowatcher", 100, function () {
return new IOWatcher();
});
exports.isIP = binding.isIP;
exports.isIPv4 = function (input) {
if (binding.isIP(input) === 4) {
return true;
}
return false;
};
exports.isIPv6 = function (input) {
if (binding.isIP(input) === 6) {
return true;
}
return false;
};
// Allocated on demand.
var pool = null;
function allocNewPool () {
pool = new Buffer(kPoolSize);
pool.used = 0;
}
var securePool = null;
function allocNewSecurePool () {
securePool = new Buffer(40*1024);
}
var emptyBuffer = null;
function allocEmptyBuffer () {
emptyBuffer = new Buffer(1);
emptyBuffer.sent = 0;
emptyBuffer.length = 0;
}
function _doFlush () {
var socket = this.socket;
// Stream becomes writable on connect() but don't flush if there's
// nothing actually to write
if (socket.flush()) {
if (socket._events && socket._events['drain']) socket.emit("drain");
if (socket.ondrain) socket.ondrain(); // Optimization
}
}
function setImplmentationMethods (self) {
function noData(buf, off, len) {
return !buf ||
(off != undefined && off >= buf.length) ||
(len == 0);
};
if (self.type == 'unix') {
self._writeImpl = function (buf, off, len, fd, flags) {
// Detect and disallow zero-byte writes wth an attached file
// descriptor. This is an implementation limitation of sendmsg(2).
if (fd && noData(buf, off, len)) {
throw new Error('File descriptors can only be written with data');
}
return sendMsg(self.fd, buf, off, len, fd, flags);
};
self._readImpl = function (buf, off, len, calledByIOWatcher) {
var bytesRead = recvMsg(self.fd, buf, off, len);
// Do not emit this in the same stack, otherwise we risk corrupting our
// buffer pool which is full of read data, but has not had had its
// pointers updated just yet.
//
// Save off recvMsg.fd in a closure so that, when we emit it later, we're
// emitting the same value that we see now. Otherwise, we can end up
// calling emit() after recvMsg() has been called again and end up
// emitting null (or another FD).
if (recvMsg.fd !== null) {
(function () {
var fd = recvMsg.fd;
process.nextTick(function () {
self.emit('fd', fd);
});
})();
}
return bytesRead;
};
} else {
self._writeImpl = function (buf, off, len, fd, flags) {
// XXX: TLS support requires that 0-byte writes get processed
// by the kernel for some reason. Otherwise, we'd just
// fast-path return here.
// Drop 'fd' and 'flags' as these are not supported by the write(2)
// system call
return write(self.fd, buf, off, len);
};
self._readImpl = function (buf, off, len, calledByIOWatcher) {
return read(self.fd, buf, off, len);
};
}
self._shutdownImpl = function () {
shutdown(self.fd, 'write');
};
if (self.secure) {
var oldWrite = self._writeImpl;
self._writeImpl = function (buf, off, len, fd, flags) {
assert(buf);
assert(self.secure);
var bytesWritten = self.secureStream.clearIn(buf, off, len);
if (!securePool) {
allocNewSecurePool();
}
var secureLen = self.secureStream.encOut(securePool,
0,
securePool.length);
if (secureLen == -1) {
// Check our read again for secure handshake
self._readWatcher.callback();
} else {
oldWrite(securePool, 0, secureLen, fd, flags);
}
if (!self.secureEstablished && self.secureStream.isInitFinished()) {
self.secureEstablished = true;
if (self._events && self._events['secure']) {
self.emit('secure');
}
}
return bytesWritten;
};
var oldRead = self._readImpl;
self._readImpl = function (buf, off, len, calledByIOWatcher) {
assert(self.secure);
var bytesRead = 0;
var secureBytesRead = null;
if (!securePool) {
allocNewSecurePool();
}
if (calledByIOWatcher) {
secureBytesRead = oldRead(securePool, 0, securePool.length);
self.secureStream.encIn(securePool, 0, secureBytesRead);
}
var chunkBytes;
do {
chunkBytes =
self.secureStream.clearOut(pool,
pool.used + bytesRead,
pool.length - pool.used - bytesRead);
bytesRead += chunkBytes;
} while ((chunkBytes > 0) && (pool.used + bytesRead < pool.length));
if (bytesRead == 0 && !calledByIOWatcher) {
return -1;
}
if (self.secureStream.clearPending()) {
process.nextTick(function () {
if (self._readWatcher) self._readWatcher.callback();
});
}
if (!self.secureEstablished) {
if (self.secureStream.isInitFinished()) {
self.secureEstablished = true;
if (self._events && self._events['secure']) {
self.emit('secure');
}
}
}
if (calledByIOWatcher && secureBytesRead === null && !self.server) {
// Client needs to write as part of handshake
self._writeWatcher.start();
return -1;
}
if (bytesRead == 0 && secureBytesRead > 0) {
// Deal with SSL handshake
if (self.server) {
self._checkForSecureHandshake();
} else {
if (self.secureEstablised) {
self.flush();
} else {
self._checkForSecureHandshake();
}
}
return -1;
}
return bytesRead;
};
var oldShutdown = self._shutdownImpl;
self._shutdownImpl = function () {
self.secureStream.shutdown();
if (!securePool) {
allocNewSecurePool();
}
var len = self.secureStream.encOut(securePool, 0, securePool.length);
try {
oldWrite(securePool, 0, len);
} catch (e) { }
oldShutdown();
};
}
};
function initStream (self) {
self._readWatcher = ioWatchers.alloc();
self._readWatcher.callback = function () {
// If this is the first recv (pool doesn't exist) or we've used up
// most of the pool, allocate a new one.
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();
}
//debug('pool.used ' + pool.used);
var bytesRead;
try {
bytesRead = self._readImpl(pool,
pool.used,
pool.length - pool.used,
(arguments.length > 0));
} catch (e) {
self.destroy(e);
return;
}
// Note that some _readImpl() implementations return -1 bytes
// read as an indication not to do any processing on the result
// (but not an error).
if (bytesRead === 0) {
self.readable = false;
self._readWatcher.stop();
if (!self.writable) self.destroy();
// Note: 'close' not emitted until nextTick.
if (self._events && self._events['end']) self.emit('end');
if (self.onend) self.onend();
} else if (bytesRead > 0) {
timeout.active(self);
var start = pool.used;
var end = pool.used + bytesRead;
pool.used += bytesRead;
if (self._decoder) {
// emit String
var string = self._decoder.write(pool.slice(start, end));
if (string.length) self.emit('data', string);
} else {
// emit buffer
if (self._events && self._events['data']) {
// emit a slice
self.emit('data', pool.slice(start, end));
}
}
// Optimization: emit the original buffer with end points
if (self.ondata) self.ondata(pool, start, end);
} else if (bytesRead == -2) {
// Temporary fix - need SSL refactor.
// -2 originates from SecureStream::ReadExtract
self.destroy(new Error('openssl read error'));
return false;
}
};
self.readable = false;
// Queue of buffers and string that need to be written to socket.
self._writeQueue = [];
self._writeQueueEncoding = [];
self._writeQueueFD = [];
self._writeWatcher = ioWatchers.alloc();
self._writeWatcher.socket = self;
self._writeWatcher.callback = _doFlush;
self.writable = false;
}
function Stream (fd, type) {
if (!(this instanceof Stream)) return new Stream(fd, type);
stream.Stream.call(this);
this.fd = null;
this.type = null;
this.secure = false;
if (parseInt(fd, 10) >= 0) {
this.open(fd, type);
} else {
setImplmentationMethods(this);
}
};
util.inherits(Stream, stream.Stream);
exports.Stream = Stream;
Stream.prototype.setSecure = function (credentials) {
// Do we have openssl crypto?
try {
SecureContext = process.binding('crypto').SecureContext;
SecureStream = process.binding('crypto').SecureStream;
} catch (e) {
throw new Error('node.js not compiled with openssl crypto support.');
}
var crypto = require("crypto");
this.secure = true;
this.secureEstablished = false;
// If no credentials given, create a new one for just this Stream
if (!credentials) {
this.credentials = crypto.createCredentials();
} else {
this.credentials = credentials;
}
if (!this.server) {
// For clients, we will always have either a given ca list or the default on
this.credentials.shouldVerify = true;
}
this.secureStream = new SecureStream(this.credentials.context,
this.server ? true : false,
this.credentials.shouldVerify);
setImplmentationMethods(this);
if (!this.server) {
// If client, trigger handshake
this._checkForSecureHandshake();
}
};
Stream.prototype.verifyPeer = function () {
if (!this.secure) {
throw new Error('Stream is not a secure stream.');
}
return this.secureStream.verifyPeer(this.credentials.context);
};
Stream.prototype._checkForSecureHandshake = function () {
if (!this.writable) {
return;
}
// Do an empty write to see if we need to write out as part of handshake
if (!emptyBuffer) allocEmptyBuffer();
this.write(emptyBuffer);
};
Stream.prototype.getPeerCertificate = function (credentials) {
if (!this.secure) {
throw new Error('Stream is not a secure stream.');
}
return this.secureStream.getPeerCertificate();
};
Stream.prototype.getCipher = function () {
if (!this.secure) {
throw new Error('Stream is not a secure stream.');
}
return this.secureStream.getCurrentCipher();
};
Stream.prototype.open = function (fd, type) {
initStream(this);
this.fd = fd;
this.type = type || null;
this.readable = true;
setImplmentationMethods(this);
this._writeWatcher.set(this.fd, false, true);
this.writable = true;
};
exports.createConnection = function (port, host) {
var s = new Stream();
s.connect(port, host);
return s;
};
Object.defineProperty(Stream.prototype, 'readyState', {
get: function () {
if (this._connecting) {
return 'opening';
} else if (this.readable && this.writable) {
assert(typeof this.fd == 'number');
return 'open';
} else if (this.readable && !this.writable){
assert(typeof this.fd == 'number');
return 'readOnly';
} else if (!this.readable && this.writable){
assert(typeof this.fd == 'number');
return 'writeOnly';
} else {
assert(typeof this.fd != 'number');
return 'closed';
}
}
});
// Returns true if all the data was flushed to socket. Returns false if
// something was queued. If data was queued, then the "drain" event will
// signal when it has been finally flushed to socket.
Stream.prototype.write = function (data, encoding, fd) {
if (this._connecting || (this._writeQueue && this._writeQueue.length)) {
if (!this._writeQueue) {
this._writeQueue = [];
this._writeQueueEncoding = [];
this._writeQueueFD = [];
}
// Slow. There is already a write queue, so let's append to it.
if (this._writeQueueLast() === END_OF_FILE) {
throw new Error('Stream.end() called already; cannot write.');
}
if (typeof data == 'string' &&
this._writeQueue.length &&
typeof this._writeQueue[this._writeQueue.length-1] === 'string' &&
this._writeQueueEncoding[this._writeQueueEncoding.length-1] === encoding) {
// optimization - concat onto last
this._writeQueue[this._writeQueue.length-1] += data;
} else {
this._writeQueue.push(data);
this._writeQueueEncoding.push(encoding);
}
if (fd != undefined) {
this._writeQueueFD.push(fd);
}
return false;
} else {
// Fast.
// The most common case. There is no write queue. Just push the data
// directly to the socket.
return this._writeOut(data, encoding, fd);
}
};
// Directly writes the data to socket.
//
// Steps:
// 1. If it's a string, write it to the `pool`. (If not space remains
// on the pool make a new one.)
// 2. Write data to socket. Return true if flushed.
// 3. Slice out remaining
// 4. Unshift remaining onto _writeQueue. Return false.
Stream.prototype._writeOut = function (data, encoding, fd) {
if (!this.writable) {
throw new Error('Stream is not writable');
}
var buffer, off, len;
var bytesWritten, charsWritten;
var queuedData = false;
if (typeof data != 'string') {
// 'data' is a buffer, ignore 'encoding'
buffer = data;
off = 0;
len = data.length;
} else {
assert(typeof data == 'string');
if (!pool || pool.length - pool.used < kMinPoolSpace) {
pool = null;
allocNewPool();
}
if (!encoding || encoding == 'utf8' || encoding == 'utf-8') {
// default to utf8
bytesWritten = pool.write(data, 'utf8', pool.used);
charsWritten = Buffer._charsWritten;
} else {
bytesWritten = pool.write(data, encoding, pool.used);
charsWritten = bytesWritten;
}
if (encoding && data.length > 0) {
assert(bytesWritten > 0);
}
buffer = pool;
len = bytesWritten;
off = pool.used;
pool.used += bytesWritten;
debug('wrote ' + bytesWritten + ' bytes to pool');
if (charsWritten != data.length) {
//debug("couldn't fit " + (data.length - charsWritten) + " bytes into the pool\n");
// Unshift whatever didn't fit onto the buffer
this._writeQueue.unshift(data.slice(charsWritten));
this._writeQueueEncoding.unshift(encoding);
this._writeWatcher.start();
queuedData = true;
}
}
try {
bytesWritten = this._writeImpl(buffer, off, len, fd, 0);
} catch (e) {
this.destroy(e);
return false;
}
debug('wrote ' + bytesWritten + ' to socket. [fd, off, len] = ' + JSON.stringify([this.fd, off, len]) + "\n");
timeout.active(this);
if (bytesWritten == len) {
// awesome. sent to buffer.
if (buffer === pool) {
// If we're just writing from the pool then we can make a little
// optimization and save the space.
buffer.used -= len;
}
if (queuedData) {
return false;
} else {
return true;
}
}
// Didn't write the entire thing to buffer.
// Need to wait for the socket to become available before trying again.
this._writeWatcher.start();
// Slice out the data left.
var leftOver = buffer.slice(off + bytesWritten, off + len);
leftOver.used = leftOver.length; // used the whole thing...
// util.error('data.used = ' + data.used);
//if (!this._writeQueue) initWriteStream(this);
// data should be the next thing to write.
this._writeQueue.unshift(leftOver);
this._writeQueueEncoding.unshift(null);
// If didn't successfully write any bytes, enqueue our fd and try again
if (!bytesWritten) {
this._writeQueueFD.unshift(fd);
}
return false;
};
// Flushes the write buffer out.
// Returns true if the entire buffer was flushed.
Stream.prototype.flush = function () {
while (this._writeQueue && this._writeQueue.length) {
var data = this._writeQueue.shift();
var encoding = this._writeQueueEncoding.shift();
var fd = this._writeQueueFD.shift();
if (data === END_OF_FILE) {
this._shutdown();
return true;
}
var flushed = this._writeOut(data,encoding,fd);
if (!flushed) return false;
}
if (this._writeWatcher) this._writeWatcher.stop();
return true;
};
Stream.prototype._writeQueueLast = function () {
return this._writeQueue.length > 0 ? this._writeQueue[this._writeQueue.length-1]
: null;
};
Stream.prototype.setEncoding = function (encoding) {
var StringDecoder = require("string_decoder").StringDecoder; // lazy load
this._decoder = new StringDecoder(encoding);
};
function doConnect (socket, port, host) {
try {
connect(socket.fd, port, host);
} catch (e) {
socket.destroy(e);
return;
}
debug('connecting to ' + host + ' : ' + port);
// Don't start the read watcher until connection is established
socket._readWatcher.set(socket.fd, true, false);
// How to connect on POSIX: Wait for fd to become writable, then call
// socketError() if there isn't an error, we're connected. AFAIK this a
// platform independent way determining when a non-blocking connection
// is established, but I have only seen it documented in the Linux
// Manual Page connect(2) under the error code EINPROGRESS.
socket._writeWatcher.set(socket.fd, false, true);
socket._writeWatcher.start();
socket._writeWatcher.callback = function () {
var errno = socketError(socket.fd);
if (errno == 0) {
// connection established
socket._connecting = false;
socket.resume();
socket.readable = socket.writable = true;
socket._writeWatcher.callback = _doFlush;
try {
socket.emit('connect');
} catch (e) {
socket.destroy(e);
return;
}
if (socket._writeQueue && socket._writeQueue.length) {
// Flush socket in case any writes are queued up while connecting.
// ugly
_doFlush.call(socket._writeWatcher);
}
} else if (errno != EINPROGRESS) {
socket.destroy(errnoException(errno, 'connect'));
}
};
}
function toPort (x) { return (x = Number(x)) >= 0 ? x : false; }
// var stream = new Stream();
// stream.connect(80) - TCP connect to port 80 on the localhost
// stream.connect(80, 'nodejs.org') - TCP connect to port 80 on nodejs.org
// stream.connect('/tmp/socket') - UNIX connect to socket specified by path
Stream.prototype.connect = function () {
var self = this;
initStream(self);
if (self.fd) throw new Error('Stream already opened');
if (!self._readWatcher) throw new Error('No readWatcher');
timeout.active(socket);
self._connecting = true; // set false in doConnect
self.writable = true;
var port = toPort(arguments[0]);
if (port === false) {
// UNIX
self.fd = socket('unix');
self.type = 'unix';
setImplmentationMethods(this);
doConnect(self, arguments[0]);
} else {
// TCP
dns.lookup(arguments[1], function (err, ip, addressType) {
if (err) {
self.emit('error', err);
} else {
self.type = addressType == 4 ? 'tcp4' : 'tcp6';
self.fd = socket(self.type);
doConnect(self, port, ip);
}
});
}
};
Stream.prototype.address = function () {
return getsockname(this.fd);
};
Stream.prototype.setNoDelay = function (v) {
if ((this.type == 'tcp4')||(this.type == 'tcp6')) {
setNoDelay(this.fd, v);
}
};
Stream.prototype.setKeepAlive = function (enable, time) {
if ((this.type == 'tcp4')||(this.type == 'tcp6')) {
var secondDelay = Math.ceil(time/1000);
setKeepAlive(this.fd, enable, secondDelay);
}
};
Stream.prototype.setTimeout = function (msecs) {
if (msecs > 0) {
timeout.enroll(this, msecs);
if (this.fd) { timeout.active(this); }
} else if (msecs === 0) {
timeout.unenroll(this);
}
};
Stream.prototype.pause = function () {
this._readWatcher.stop();
};
Stream.prototype.resume = function () {
if (this.fd === null) throw new Error('Cannot resume() closed Stream.');
this._readWatcher.set(this.fd, true, false);
this._readWatcher.start();
};
Stream.prototype.destroy = function (exception) {
// pool is shared between sockets, so don't need to free it here.
var self = this;
// TODO would like to set _writeQueue to null to avoid extra object alloc,
// but lots of code assumes this._writeQueue is always an array.
this._writeQueue = [];
this.readable = this.writable = false;
if (this._writeWatcher) {
this._writeWatcher.stop();
ioWatchers.free(this._writeWatcher);
this._writeWatcher = null;
}
if (this._readWatcher) {
this._readWatcher.stop();
ioWatchers.free(this._readWatcher);
this._readWatcher = null;
}
timeout.unenroll(this);
if (this.secure) {
this.secureStream.close();
}
if (this.server) {
this.server.connections--;
}
// FIXME Bug when this.fd == 0
if (typeof this.fd == 'number') {
close(this.fd);
this.fd = null;
process.nextTick(function () {
if (exception) self.emit('error', exception);
self.emit('close', exception ? true : false);
});
}
};
Stream.prototype._shutdown = function () {
if (!this.writable) {
throw new Error('The connection is not writable');
} else {
if (this.readable) {
// readable and writable
this.writable = false;
try {
this._shutdownImpl();
} catch (e) {
this.destroy(e);
}
} else {
// writable but not readable
this.destroy();
}
}
};
Stream.prototype.end = function (data, encoding) {
if (this.writable) {
if (data) this.write(data, encoding);
if (this._writeQueueLast() !== END_OF_FILE) {
this._writeQueue.push(END_OF_FILE);
if (!this._connecting) {
this.flush();
}
}
}
};
function Server (listener) {
if (!(this instanceof Server)) return new Server(listener);
events.EventEmitter.call(this);
var self = this;
if (listener) {
self.addListener('connection', listener);
}
self.connections = 0;
self.watcher = new IOWatcher();
self.watcher.host = self;
self.watcher.callback = function () {
while (self.fd) {
try {
var peerInfo = accept(self.fd);
} catch (e) {
if (e.errno == EMFILE) return;
throw e;
}
if (!peerInfo) return;
if (self.maxConnections && self.connections >= self.maxConnections) {
// Accept and close the connection.
close(peerInfo.fd);
return;
}
self.connections++;
var s = new Stream(peerInfo.fd, self.type);
s.remoteAddress = peerInfo.address;
s.remotePort = peerInfo.port;
s.type = self.type;
s.server = self;
s.resume();
self.emit('connection', s);
// The 'connect' event probably should be removed for server-side
// sockets. It's redundant.
try {
s.emit('connect');
} catch (e) {
s.destroy(e);
return;
}
}
};
}
util.inherits(Server, events.EventEmitter);
exports.Server = Server;
exports.createServer = function (listener) {
return new Server(listener);
};
// Listen on a UNIX socket
// server.listen("/tmp/socket");
//
// Listen on port 8000, accept connections from INADDR_ANY.
// server.listen(8000);
//
// Listen on port 8000, accept connections to "192.168.1.2"
// server.listen(8000, "192.168.1.2");
Server.prototype.listen = function () {
var self = this;
if (self.fd) throw new Error('Server already opened');
var lastArg = arguments[arguments.length - 1];
if (typeof lastArg == 'function') {
self.addListener('listening', lastArg);
}
var port = toPort(arguments[0]);
if (port === false) {
// the first argument specifies a path
self.fd = socket('unix');
self.type = 'unix';
var path = arguments[0];
self.path = path;
// unlink sockfile if it exists
fs.stat(path, function (err, r) {
if (err) {
if (err.errno == ENOENT) {
bind(self.fd, path);
self._doListen();
} else {
throw r;
}
} else {
if (!r.isSocket()) {
throw new Error("Non-socket exists at " + path);
} else {
fs.unlink(path, function (err) {
if (err) {
throw err;
} else {
bind(self.fd, path);
self._doListen();
}
});
}
}
});
} else if (!arguments[1]) {
// Don't bind(). OS will assign a port with INADDR_ANY.
// The port can be found with server.address()
self.type = 'tcp4';
self.fd = socket(self.type);
bind(self.fd, port);
process.nextTick(function () {
self._doListen();
});
} else {
// the first argument is the port, the second an IP
dns.lookup(arguments[1], function (err, ip, addressType) {
if (err) {
self.emit('error', err);
} else {
self.type = addressType == 4 ? 'tcp4' : 'tcp6';
self.fd = socket(self.type);
bind(self.fd, port, ip);
self._doListen();
}
});
}
};
Server.prototype.listenFD = function (fd, type) {
if (this.fd) {
throw new Error('Server already opened');
}
this.fd = fd;
this.type = type || null;
this._startWatcher();
};
Server.prototype._startWatcher = function () {
this.watcher.set(this.fd, true, false);
this.watcher.start();
this.emit("listening");
};
Server.prototype._doListen = function () {
try {
listen(this.fd, this._backlog || 128);
this._startWatcher();
} catch (err) {
this.emit('error', err);
}
}
Server.prototype.address = function () {
return getsockname(this.fd);
};
Server.prototype.close = function () {
var self = this;
if (!self.fd) throw new Error('Not running');
self.watcher.stop();
close(self.fd);
self.fd = null;
if (self.type === "unix") {
fs.unlink(self.path, function () {
self.emit("close");
});
} else {
self.emit("close");
}
};