§WebSockets
§Using WebSockets instead of Comet sockets
A Comet socket is a kind of hack for sending live events to the web browser. Also, it only supports one-way communication from the server to the client. To push events to the server, the web browser has to send Ajax requests.
Note: It is also possible to achieve the same kind of live communication the other way around by using an infinite HTTP request handled by a custom
BodyParser
that receives chunks of input data, but that is far more complicated.
Modern web browsers natively support two-way live communication via WebSockets.
WebSocket is a web technology that provides bi-directional, full-duplex communication channels, over a single Transmission Control Protocol (TCP) socket. The WebSocket API is being standardized by the W3C, and the WebSocket protocol has been standardized by the IETF as RFC 6455.
WebSocket is designed to be implemented in web browsers and web servers, but it can be used by any client or server application. Because ordinary TCP connections to port numbers other than 80 are frequently blocked by administrators outside of home environments, it can be used as a way to circumvent these restrictions and provide similar functionality with some additional protocol overhead while multiplexing several WebSocket services over a single TCP port.
WebSocket is also useful for web applications that require real-time bi-directional communication. Before the implementation of WebSocket, such bi-directional communication was only possible using Comet channels; however, Comet is not trivial to implement reliably, and due to the TCP handshaking and HTTP header overhead, it may be inefficient for small messages. The WebSocket protocol aims to solve these problems without compromising the web’s security assumptions.
§Handling WebSockets
Until now, we were using Action
instances to handle standard HTTP requests and send back standard HTTP responses. WebSockets are a totally different beast and can’t be handled via standard Action
.
To handle a WebSocket request, use a WebSocket
instead of an Action
:
def index = WebSocket.using[String] { request =>
// Log events to the console
val in = Iteratee.foreach[String](println).map { _ =>
println("Disconnected")
}
// Send a single 'Hello!' message
val out = Enumerator("Hello!")
(in, out)
}
A WebSocket
has access to the request headers (from the HTTP request that initiates the WebSocket connection), allowing you to retrieve standard headers and session data. However, it doesn’t have access to a request body, nor to the HTTP response.
When constructing a WebSocket
this way, we must return both in
and out
channels.
- The
in
channel is anIteratee[A,Unit]
(whereA
is the message type - here we are usingString
) that will be notified for each message, and will receiveEOF
when the socket is closed on the client side. - The
out
channel is enEnumerator[A]
that will generate the messages to be sent to the Web client. It can close the connection on the server side by sendingEOF
.
It this example we are creating a simple iteratee that prints each message to console. To send messages, we create a simple dummy enumerator that will send a single Hello! message.
Tip: You can test WebSockets on http://websocket.org/echo.html. Just set the location to
ws://localhost:9000
.
Let’s write another example that discards the input data and closes the socket just after sending the Hello! message:
def index = WebSocket.using[String] { request =>
// Just consume and ignore the input
val in = Iteratee.consume[String]()
// Send a single 'Hello!' message and close
val out = Enumerator("Hello!").andThen(Enumerator.eof)
(in, out)
}
Here is another example in which the input data is logged to standard out and broadcast by to the client utilizing ‘Concurrent.broadcast’.
//This shows an updated websocket example for play 2.2.0 utilizing Concurrent.broadcast vs Enumerator.imperative, which is now deprecated.
def index = WebSocket.using[String] { request =>
//Concurernt.broadcast returns (Enumerator, Concurrent.Channel)
val (out,channel) = Concurrent.broadcast[String]
//log the message to stdout and send response back to client
val in = Iteratee.foreach[String] {
msg => println(msg)
//the Enumerator returned by Concurrent.broadcast subscribes to the channel and will
//receive the pushed messages
channel push("RESPONSE: " + msg)
}
(in,out)
}
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