# Engine.IO: the realtime engine
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`Engine.IO` is the implementation of transport-based
cross-browser/cross-device bi-directional communication layer for
[Socket.IO](http://github.com/socketio/socket.io).
## How to use
### Server
#### (A) Listening on a port
```js
var engine = require('engine.io');
var server = engine.listen(80);
server.on('connection', function(socket){
socket.send('utf 8 string');
socket.send(new Buffer([0, 1, 2, 3, 4, 5])); // binary data
});
```
#### (B) Intercepting requests for a http.Server
```js
var engine = require('engine.io');
var http = require('http').createServer().listen(3000);
var server = engine.attach(http);
server.on('connection', function (socket) {
socket.on('message', function(data){ });
socket.on('close', function(){ });
});
```
#### (C) Passing in requests
```js
var engine = require('engine.io');
var server = new engine.Server();
server.on('connection', function(socket){
socket.send('hi');
});
// …
httpServer.on('upgrade', function(req, socket, head){
server.handleUpgrade(req, socket, head);
});
httpServer.on('request', function(req, res){
server.handleRequest(req, res);
});
```
### Client
```html
```
For more information on the client refer to the
[engine-client](http://github.com/learnboost/engine.io-client) repository.
## What features does it have?
- **Maximum reliability**. Connections are established even in the presence of:
- proxies and load balancers.
- personal firewall and antivirus software.
- for more information refer to **Goals** and **Architecture** sections
- **Minimal client size** aided by:
- lazy loading of flash transports.
- lack of redundant transports.
- **Scalable**
- load balancer friendly
- **Future proof**
- **100% Node.JS core style**
- No API sugar (left for higher level projects)
- Written in readable vanilla JavaScript
## API
### Server
#### Top-level
These are exposed by `require('engine.io')`:
##### Events
- `flush`
- Called when a socket buffer is being flushed.
- **Arguments**
- `Socket`: socket being flushed
- `Array`: write buffer
- `drain`
- Called when a socket buffer is drained
- **Arguments**
- `Socket`: socket being flushed
##### Properties
- `protocol` _(Number)_: protocol revision number
- `Server`: Server class constructor
- `Socket`: Socket class constructor
- `Transport` _(Function)_: transport constructor
- `transports` _(Object)_: map of available transports
##### Methods
- `()`
- Returns a new `Server` instance. If the first argument is an `http.Server` then the
new `Server` instance will be attached to it. Otherwise, the arguments are passed
directly to the `Server` constructor.
- **Parameters**
- `http.Server`: optional, server to attach to.
- `Object`: optional, options object (see `Server#constructor` api docs below)
The following are identical ways to instantiate a server and then attach it.
```js
var httpServer; // previously created with `http.createServer();` from node.js api.
// create a server first, and then attach
var eioServer = require('engine.io').Server();
eioServer.attach(httpServer);
// or call the module as a function to get `Server`
var eioServer = require('engine.io')();
eioServer.attach(httpServer);
// immediately attach
var eioServer = require('engine.io')(httpServer);
```
- `listen`
- Creates an `http.Server` which listens on the given port and attaches WS
to it. It returns `501 Not Implemented` for regular http requests.
- **Parameters**
- `Number`: port to listen on.
- `Object`: optional, options object
- `Function`: callback for `listen`.
- **Options**
- All options from `Server.attach` method, documented below.
- **Additionally** See Server `constructor` below for options you can pass for creating the new Server
- **Returns** `Server`
- `attach`
- Captures `upgrade` requests for a `http.Server`. In other words, makes
a regular http.Server WebSocket-compatible.
- **Parameters**
- `http.Server`: server to attach to.
- `Object`: optional, options object
- **Options**
- All options from `Server.attach` method, documented below.
- **Additionally** See Server `constructor` below for options you can pass for creating the new Server
- **Returns** `Server` a new Server instance.
#### Server
The main server/manager. _Inherits from EventEmitter_.
##### Events
- `connection`
- Fired when a new connection is established.
- **Arguments**
- `Socket`: a Socket object
##### Properties
**Important**: if you plan to use Engine.IO in a scalable way, please
keep in mind the properties below will only reflect the clients connected
to a single process.
- `clients` _(Object)_: hash of connected clients by id.
- `clientsCount` _(Number)_: number of connected clients.
##### Methods
- **constructor**
- Initializes the server
- **Parameters**
- `Object`: optional, options object
- **Options**
- `pingTimeout` (`Number`): how many ms without a pong packet to
consider the connection closed (`60000`)
- `pingInterval` (`Number`): how many ms before sending a new ping
packet (`25000`)
- `upgradeTimeout` (`Number`): how many ms before an uncompleted transport upgrade is cancelled (`10000`)
- `maxHttpBufferSize` (`Number`): how many bytes or characters a message
can be when polling, before closing the session (to avoid DoS). Default
value is `10E7`.
- `allowRequest` (`Function`): A function that receives a given handshake
or upgrade request as its first parameter, and can decide whether to
continue or not. The second argument is a function that needs to be
called with the decided information: `fn(err, success)`, where
`success` is a boolean value where false means that the request is
rejected, and err is an error code.
- `transports` (` String`): transports to allow connections
to (`['polling', 'websocket']`)
- `allowUpgrades` (`Boolean`): whether to allow transport upgrades
(`true`)
- `perMessageDeflate` (`Object|Boolean`): parameters of the WebSocket permessage-deflate extension
(see [ws module](https://github.com/einaros/ws) api docs). Set to `false` to disable. (`true`)
- `threshold` (`Number`): data is compressed only if the byte size is above this value (`1024`)
- `httpCompression` (`Object|Boolean`): parameters of the http compression for the polling transports
(see [zlib](http://nodejs.org/api/zlib.html#zlib_options) api docs). Set to `false` to disable. (`true`)
- `threshold` (`Number`): data is compressed only if the byte size is above this value (`1024`)
- `cookie` (`String|Boolean`): name of the HTTP cookie that
contains the client sid to send as part of handshake response
headers. Set to `false` to not send one. (`io`)
- `cookiePath` (`String|Boolean`): path of the above `cookie`
option. If false, no path will be sent, which means browsers will only send the cookie on the engine.io attached path (`/engine.io`).
Set false to not save io cookie on all requests. (`/`)
- `cookieHttpOnly` (`Boolean`): If `true` HttpOnly io cookie cannot be accessed by client-side APIs, such as JavaScript. (`true`) _This option has no effect if `cookie` or `cookiePath` is set to `false`._
- `wsEngine` (`String`): what WebSocket server implementation to use. Specified module must conform to the `ws` interface (see [ws module api docs](https://github.com/websockets/ws/blob/master/doc/ws.md)). Default value is `ws`. An alternative c++ addon is also available by installing `uws` module.
- `close`
- Closes all clients
- **Returns** `Server` for chaining
- `handleRequest`
- Called internally when a `Engine` request is intercepted.
- **Parameters**
- `http.IncomingMessage`: a node request object
- `http.ServerResponse`: a node response object
- **Returns** `Server` for chaining
- `handleUpgrade`
- Called internally when a `Engine` ws upgrade is intercepted.
- **Parameters** (same as `upgrade` event)
- `http.IncomingMessage`: a node request object
- `net.Stream`: TCP socket for the request
- `Buffer`: legacy tail bytes
- **Returns** `Server` for chaining
- `attach`
- Attach this Server instance to an `http.Server`
- Captures `upgrade` requests for a `http.Server`. In other words, makes
a regular http.Server WebSocket-compatible.
- **Parameters**
- `http.Server`: server to attach to.
- `Object`: optional, options object
- **Options**
- `path` (`String`): name of the path to capture (`/engine.io`).
- `destroyUpgrade` (`Boolean`): destroy unhandled upgrade requests (`true`)
- `destroyUpgradeTimeout` (`Number`): milliseconds after which unhandled requests are ended (`1000`)
- `generateId`
- Generate a socket id.
- Overwrite this method to generate your custom socket id.
- **Parameters**
- `http.IncomingMessage`: a node request object
- **Returns** A socket id for connected client.
#### Socket
A representation of a client. _Inherits from EventEmitter_.
##### Events
- `close`
- Fired when the client is disconnected.
- **Arguments**
- `String`: reason for closing
- `Object`: description object (optional)
- `message`
- Fired when the client sends a message.
- **Arguments**
- `String` or `Buffer`: Unicode string or Buffer with binary contents
- `error`
- Fired when an error occurs.
- **Arguments**
- `Error`: error object
- `flush`
- Called when the write buffer is being flushed.
- **Arguments**
- `Array`: write buffer
- `drain`
- Called when the write buffer is drained
- `packet`
- Called when a socket received a packet (`message`, `ping`)
- **Arguments**
- `type`: packet type
- `data`: packet data (if type is message)
- `packetCreate`
- Called before a socket sends a packet (`message`, `pong`)
- **Arguments**
- `type`: packet type
- `data`: packet data (if type is message)
##### Properties
- `id` _(String)_: unique identifier
- `server` _(Server)_: engine parent reference
- `request` _(http.IncomingMessage)_: request that originated the Socket
- `upgraded` _(Boolean)_: whether the transport has been upgraded
- `readyState` _(String)_: opening|open|closing|closed
- `transport` _(Transport)_: transport reference
##### Methods
- `send`:
- Sends a message, performing `message = toString(arguments[0])` unless
sending binary data, which is sent as is.
- **Parameters**
- `String` | `Buffer` | `ArrayBuffer` | `ArrayBufferView`: a string or any object implementing `toString()`, with outgoing data, or a Buffer or ArrayBuffer with binary data. Also any ArrayBufferView can be sent as is.
- `Object`: optional, options object
- `Function`: optional, a callback executed when the message gets flushed out by the transport
- **Options**
- `compress` (`Boolean`): whether to compress sending data. This option might be ignored and forced to be `true` when using polling. (`true`)
- **Returns** `Socket` for chaining
- `close`
- Disconnects the client
- **Returns** `Socket` for chaining
### Client
Exposed in the `eio` global namespace (in the browser), or by
`require('engine.io-client')` (in Node.JS).
For the client API refer to the
[engine-client](http://github.com/learnboost/engine.io-client) repository.
## Debug / logging
Engine.IO is powered by [debug](http://github.com/visionmedia/debug).
In order to see all the debug output, run your app with the environment variable
`DEBUG` including the desired scope.
To see the output from all of Engine.IO's debugging scopes you can use:
```
DEBUG=engine* node myapp
```
## Transports
- `polling`: XHR / JSONP polling transport.
- `websocket`: WebSocket transport.
## Plugins
- [engine.io-conflation](https://github.com/EugenDueck/engine.io-conflation): Makes **conflation and aggregation** of messages straightforward.
## Support
The support channels for `engine.io` are the same as `socket.io`:
- irc.freenode.net **#socket.io**
- [Google Groups](http://groups.google.com/group/socket_io)
- [Website](http://socket.io)
## Development
To contribute patches, run tests or benchmarks, make sure to clone the
repository:
```
git clone git://github.com/LearnBoost/engine.io.git
```
Then:
```
cd engine.io
npm install
```
## Tests
Tests run with `make test`. It runs the server tests that are aided by
the usage of `engine.io-client`.
Make sure `npm install` is run first.
## Goals
The main goal of `Engine` is ensuring the most reliable realtime communication.
Unlike the previous Socket.IO core, it always establishes a long-polling
connection first, then tries to upgrade to better transports that are "tested" on
the side.
During the lifetime of the Socket.IO projects, we've found countless drawbacks
to relying on `HTML5 WebSocket` or `Flash Socket` as the first connection
mechanisms.
Both are clearly the _right way_ of establishing a bidirectional communication,
with HTML5 WebSocket being the way of the future. However, to answer most business
needs, alternative traditional HTTP 1.1 mechanisms are just as good as delivering
the same solution.
WebSocket based connections have two fundamental benefits:
1. **Better server performance**
- _A: Load balancers_
Load balancing a long polling connection poses a serious architectural nightmare
since requests can come from any number of open sockets by the user agent, but
they all need to be routed to the process and computer that owns the `Engine`
connection. This negatively impacts RAM and CPU usage.
- _B: Network traffic_
WebSocket is designed around the premise that each message frame has to be
surrounded by the least amount of data. In HTTP 1.1 transports, each message
frame is surrounded by HTTP headers and chunked encoding frames. If you try to
send the message _"Hello world"_ with xhr-polling, the message ultimately
becomes larger than if you were to send it with WebSocket.
- _C: Lightweight parser_
As an effect of **B**, the server has to do a lot more work to parse the network
data and figure out the message when traditional HTTP requests are used
(as in long polling). This means that another advantage of WebSocket is
less server CPU usage.
2. **Better user experience**
Due to the reasons stated in point **1**, the most important effect of being able
to establish a WebSocket connection is raw data transfer speed, which translates
in _some_ cases in better user experience.
Applications with heavy realtime interaction (such as games) will benefit greatly,
whereas applications like realtime chat (Gmail/Facebook), newsfeeds (Facebook) or
timelines (Twitter) will have negligible user experience improvements.
Having said this, attempting to establish a WebSocket connection directly so far has
proven problematic:
1. **Proxies**
Many corporate proxies block WebSocket traffic.
2. **Personal firewall and antivirus software**
As a result of our research, we've found that at least 3 personal security
applications block WebSocket traffic.
3. **Cloud application platforms**
Platforms like Heroku or No.de have had trouble keeping up with the fast-paced
nature of the evolution of the WebSocket protocol. Applications therefore end up
inevitably using long polling, but the seamless installation experience of
Socket.IO we strive for (_"require() it and it just works"_) disappears.
Some of these problems have solutions. In the case of proxies and personal programs,
however, the solutions many times involve upgrading software. Experience has shown
that relying on client software upgrades to deliver a business solution is
fruitless: the very existence of this project has to do with a fragmented panorama
of user agent distribution, with clients connecting with latest versions of the most
modern user agents (Chrome, Firefox and Safari), but others with versions as low as
IE 5.5.
From the user perspective, an unsuccessful WebSocket connection can translate in
up to at least 10 seconds of waiting for the realtime application to begin
exchanging data. This **perceptively** hurts user experience.
To summarize, **Engine** focuses on reliability and user experience first, marginal
potential UX improvements and increased server performance second. `Engine` is the
result of all the lessons learned with WebSocket in the wild.
## Architecture
The main premise of `Engine`, and the core of its existence, is the ability to
swap transports on the fly. A connection starts as xhr-polling, but it can
switch to WebSocket.
The central problem this poses is: how do we switch transports without losing
messages?
`Engine` only switches from polling to another transport in between polling
cycles. Since the server closes the connection after a certain timeout when
there's no activity, and the polling transport implementation buffers messages
in between connections, this ensures no message loss and optimal performance.
Another benefit of this design is that we workaround almost all the limitations
of **Flash Socket**, such as slow connection times, increased file size (we can
safely lazy load it without hurting user experience), etc.
## FAQ
### Can I use engine without Socket.IO ?
Absolutely. Although the recommended framework for building realtime applications
is Socket.IO, since it provides fundamental features for real-world applications
such as multiplexing, reconnection support, etc.
`Engine` is to Socket.IO what Connect is to Express. An essential piece for building
realtime frameworks, but something you _probably_ won't be using for building
actual applications.
### Does the server serve the client?
No. The main reason is that `Engine` is meant to be bundled with frameworks.
Socket.IO includes `Engine`, therefore serving two clients is not necessary. If
you use Socket.IO, including
```html