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There are many blogs and discussions about websocket and HTTP, and many developers and sites strongly advocate websockets, but i still can not understand why.

for example (arguments of websocket lovers):

HTML5 Web Sockets represents the next evolution of web communications—a full-duplex, bidirectional communications channel that operates through a single socket over the Web. ( http://www.websocket.org/quantum.html )

HTTP supports streaming: request body streaming(you are using it while uploading large files) and response body streaming.

During making connection with WebSocket, client and server exchange data per frame which is 2 bytes each, compared to 8 kilo bytes of http header when you do continuous polling.

Why does that 2 bytes not include tcp and under tcp protocols overhead?

GET /about.html HTTP/1.1
Host: example.org

This is ~48 bytes http header.

http chunked encoding - http://ru.wikipedia.org/wiki/Chunked_transfer_encoding :

This is the data in the first chunk
and this is the second one
  • So, the overhead per each chunk is not big.

Also both protocol works over TCP, so all TCP issues with long-live connections are still there.


  1. Why is websockets protocol better?
  2. Why was it implemented instead of updating http protocol?
share|improve this question
What is your question? –  Jonas Feb 5 '13 at 9:07
@Jonas, 1) why websockets protocol is better? 2) Why it was implemented instead of updating http protocol? 3) Why websockets are so promoted? –  4esn0k Feb 5 '13 at 9:10
@JoachimPileborg, you can do it with TCP sockets or http too for desktop applications; and you have to use WebRTC to make browser-to-browser communication for website –  4esn0k Feb 5 '13 at 9:13
@JoachimPileborg, it is webRTC for browser-to-browser, not websockets –  4esn0k Feb 5 '13 at 9:18
@4esn0k, WS is not better, they are different and better for some specific tasks. 3) It's a new feature that people should be aware of and open up new possibilities for the Web –  Jonas Feb 5 '13 at 9:24

2 Answers 2

1) Why is the WebSockets protocol better?

WebSockets is better for situations that involve low-latency communication especially for low latency for client to server messages. For server to client data you can get fairly low latency using long-held connections and chunked transfer. However, this doesn't help with client to server latency which requires a new connection to be established for each client to server message.

Your 48 byte HTTP handshake is not realistic for real-world HTTP browser connections where there is often several kilobytes of data sent as part of the request (in both directions) including many headers and cookie data. Here is an example of a request/response to using Chrome:

Example request (2800 bytes including cookie data, 490 bytes without cookie data):

GET / HTTP/1.1
Host: www.cnn.com
Connection: keep-alive
Cache-Control: no-cache
Pragma: no-cache
Accept: text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8
User-Agent: Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.17 (KHTML, like Gecko) Chrome/24.0.1312.68 Safari/537.17
Accept-Encoding: gzip,deflate,sdch
Accept-Language: en-US,en;q=0.8
Accept-Charset: ISO-8859-1,utf-8;q=0.7,*;q=0.3
Cookie: [[[2428 byte of cookie data]]]

Example response (355 bytes):

HTTP/1.1 200 OK
Server: nginx
Date: Wed, 13 Feb 2013 18:56:27 GMT
Content-Type: text/html
Transfer-Encoding: chunked
Connection: keep-alive
Set-Cookie: CG=US:TX:Arlington; path=/
Last-Modified: Wed, 13 Feb 2013 18:55:22 GMT
Vary: Accept-Encoding
Cache-Control: max-age=60, private
Expires: Wed, 13 Feb 2013 18:56:54 GMT
Content-Encoding: gzip

Both HTTP and WebSockets have equivalent sized initial connection handshakes, but with a WebSocket connection the initial handshake is performed once and then small messages only have 6 bytes of overhead (2 for the header and 4 for the mask value). The latency overhead is not so much from the size of the headers, but from the logic to parse/handle/store those headers. In addition, the TCP connection setup latency is probably a bigger factor than the size or processing time for each request.

2) Why was it implemented instead of updating HTTP protocol?

There are efforts to re-engineer the HTTP protocol to achieve better performance and lower latency such as SPDY and HTTP 2.0. This will improve the situation for normal HTTP requests, but it is likely that WebSockets and/or WebRTC DataChannel will still have lower latency for client to server data transfer than HTTP protocol (or it will be used in a mode that looks a lot like WebSockets anyways).


Here is a framework for thinking about web protocols:

  • TCP: low-level, bi-directional, full-duplex, and guaranteed order transport layer. No browser support (except via plugin/Flash).
  • HTTP 1.0: request-response transport protocol layered on TCP. The client makes one full request, the server gives one full response, and then the connection is closed. The request methods (GET, POST, HEAD) have specific transactional meaning for resources on the server.
  • HTTP 1.1: maintains the request-response nature of HTTP 1.0, but allows the connection to stay open for multiple full requests/full responses (one response per request). Still has full headers in the request and response but the connection is re-used and not closed. HTTP 1.1 also added some additional request methods (OPTIONS, PUT, DELETE, TRACE, CONNECT) which also have specific transactional meanings. However, as noted in the introduction to the HTTP 2.0 draft proposal, HTTP 1.1 pipelining is not widely deployed so this greatly limits the utility of HTTP 1.1 to solve latency between browsers and servers.
  • Long-poll: sort of a "hack" to HTTP (either 1.0 or 1.1) where the server does not response immediately (or only responds partially with headers) to the client request. After a server response, the client immediately sends a new request (using the same connection if over HTTP 1.1).
  • HTTP streaming: a variety of techniques (multipart/chunked response) that allow the server to send more than one response to a single client request. The W3C is standardizing this as Server-Sent Events using a text/event-stream MIME type. The browser API (which is fairly similar to the WebSocket API) is called the EventSource API.
  • Comet/server push: this is an umbrella term that includes both long-poll and HTTP streaming. Comet libraries usually support multiple techniques to try and maximize cross-browser and cross-server support.
  • WebSockets: a transport layer built-on TCP that uses an HTTP friendly Upgrade handshake. Unlike TCP, which is a streaming transport, WebSockets is a message based transport: messages are delimited on the wire and are re-assembled in-full before delivery to the application. WebSocket connections are bi-directional, full-duplex and long-lived. After the initial handshake request/response, there is no transactional semantics and there is very little per message overhead. The client and server may send messages at any time and must handle message receipt asynchronously.
  • SPDY: a Google initiated proposal to extend HTTP using a more efficient wire protocol but maintaining all HTTP semantics (request/response, cookies, encoding). SPDY introduces a new framing format (with length-prefixed frames) and specifies a way to layering HTTP request/response pairs onto the new framing layer. Headers can be compressed and new headers can be sent after the connection has been established. There are real world implementations of SPDY in browsers and servers.
  • HTTP 2.0: has similar goals to SPDY: reduce HTTP latency and overhead while preserving HTTP semantics. The current draft is derived from SPDY and defines an upgrade handshake and data framing that is very similar the the WebSocket standard for handshake and framing. An alternate HTTP 2.0 draft proposal (httpbis-speed-mobility) actually uses WebSockets for the transport layer and adds the SPDY multiplexing and HTTP mapping as an WebSocket extension (WebSocket extensions are negotiated during the handshake).
  • WebRTC/CU-WebRTC: proposals to allow peer-to-peer connectivity between browsers. This may enable lower average and maximum latency communication because as the underlying transport is SDP/datagram rather than TCP. This allows out-of-order delivery of packets/messages which avoids the TCP issue of latency spikes caused by dropped packets which delay delivery of all subsequent packets (to guarantee in-order delivery).


share|improve this answer
>>However, this doesn't help with client to server latency which requires a new connection to be established for each client to server message. - what about streaming of response body? i know, XMLHttpRequest API does not allow this, but it is exists. with streaming to the server you can stream from client side. –  4esn0k Feb 5 '13 at 16:48
@4esn0k, I'm not aware of any way to do client->server HTTP streaming. All the solutions I know of are for server->client HTTP streaming. It's unlikely that a client->server streaming solution would ever be adopted or standardized because this would break HTTP semantics (even server->client streaming is questionable for many). WebSockets is the solution that was developed to allow low client->server (and thus round-trip) latency without adhering to HTTP semantics. –  kanaka Feb 13 '13 at 15:58
@kanaka: I feel sorry for you. You looked up all those sources to get the 150 rep, but the only reason OP put up the bounty was because he wanted someone to tell him he's right. –  Philipp Feb 15 '13 at 8:55
@Philipp, he asked a question that I had been wanting to research and document thoroughly anyway. The question of WebSockets vs other HTTP based mechanism comes up fairly often though so now there is a good reference to link to. But yes, it does seem likely the asker was looking for evidence to back up a preconceived notion about WebSockets vs HTTP particularly since he never selected an answer nor awarded the bounty. –  kanaka Feb 15 '13 at 13:06
Thank you very much for this very nice and precise overview ofprotocols. –  Martin Meeser Sep 8 '14 at 15:29

You seem to assume that WebSocket is a replacement for HTTP. It is not. It's an extension.

The main use-case of WebSockets are Javascript applications which run in the web browser and receive real-time data from a server. Games are a good example.

Before WebSockets, the only method for Javascript applications to interact with a server was through XmlHttpRequest. But these have a major disadvantage: The server can't send data unless the client has explicitly requested it.

But the new WebSocket feature allows the server to send data whenever it wants. This allows to implement browser-based games with a much lower latency and without having to use ugly hacks like AJAX long-polling or browser plugins.

So why not use normal HTTP with streamed requests and responses

In a comment to another answer you suggested to just stream the client request and response body asynchronously.

In fact, WebSockets are basically that. An attempt to open a WebSocket connection from the client looks like a HTTP request at first, but a special directive in the header (Upgrade: websocket) tells the server to start communicating in this asynchronous mode. First drafts of the WebSocket protocol weren't much more than that and some handshaking to ensure that the server actually understands that the client wants to communicate asynchronously. But then it was realized that proxy servers would be confused by that, because they are used to the usual request/response model of HTTP. A potential attack scenario against proxy servers was discovered. To prevent this it was necessary to make WebSocket traffic look unlike any normal HTTP traffic. That's why the masking keys were introduced in the final version of the protocol.

share|improve this answer
>> he server can't send data unless the client has explicitely requested it.; Web browser should initiate WebSockets connection... same as for XMLHttpRequest –  4esn0k Feb 5 '13 at 16:50
@4esn0k The browser does initiate a websocket connection. But after it is established, both sides can send data whenever they want. That's not the case for XmlHttpRequest. –  Philipp Feb 5 '13 at 18:21
WHY this is not possible with HTTP ? –  4esn0k Feb 8 '13 at 4:37
@4esn0k I added a new section to my answer –  Philipp Feb 8 '13 at 8:36
@Philipp, games are a good example where WebSockets shine. However, it's not real-time data from the server where you get the biggest win. You can get almost as good server->client latency using HTTP streaming/long-held connections. And with long-held requests servers can effectively send whenever they have data because the client has already sent the request and the server is "holding the request" until it has data. The biggest win for WebSockets is with client->server latency (and therefore round-trip). The client being able to send whenever it wants without request overhead is the real key. –  kanaka Feb 11 '13 at 21:07

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