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I am using Node's basic http.request() function without problem on normal HTTP servers. I need to use http.request() (or similar) with SHOUTcast servers. The SHOUTcast "protocol" is fully compatible with HTTP, except for one detail... the first response line.

Normal HTTP servers respond with:

HTTP/1.1 200 OK

SHOUTcast servers respond with:

ICY 200 OK

Again, the rest of the protocol is the same. The only difference is HTTP/1.x vs. ICY.

I would like to extend, subclass, or somehow modify Node's http.request() function so that I can make it work with SHOUTcast servers. Connecting to SHOUTcast with Node has been done before, but only by re-inventing the entire wheel. I'd rather not do that for what amounts to be a minor protocol difference.

My Question: Is there a way to do one of the following?

  1. Extend or override the relevant parts of Node's HTTP parser. (I doubt this is possible, as it seems the parser is native code.)

  2. Create my own bit of code that parses the relevant parts of HTTP, but reuses as many existing Node components for HTTP as possible.

  3. Create a simple internal proxy (or somehow relay data) so that I can modify that first server response line prior to it reaching Node's HTTP parser.

  4. Something else?

I have also considered using Shred, but it does not offer an option to stream the response. (It waits for the entire server response to be complete before firing an event, which won't work for streaming servers where the data can run indefinitely.) Along those same lines, I tried Request, but it uses Node's own HTTP parser, so I get the same parse errors as I would with the native HTTP client.

share|improve this question
Wow, SHOUTcast looks really bad... – seppo0010 Mar 27 '12 at 0:36
It was made in a simpler time. :-D – Brad Mar 27 '12 at 0:38
"fully compatible"... Except for the most popular response code. – Joe Mar 27 '12 at 2:11
@Joe, The status codes (200 OK, etc) are the same. The only difference is the protocol identification/version. – Brad Mar 27 '12 at 2:15
up vote 1 down vote accepted

3 . Create a simple internal proxy

Bang. You got it.

Use the Node.js net object to create a TCP server that actually sits between the user and the http server. Replace the first line of all requests and responses as you've described, and you can continue to use http server essentially as-is. (You create an internal http server on a non-standard port, the net server on another port, then chain up streams between the two, with a bit of code to intercept the first chunk of data from the requesting user, and the first chunk of data from the responding server.)

All of your code in Javascript and it's all streaming with (almost) no bufferbloat.

EDIT, it seems I misread your post slightly. I see that you're not trying to implement a Node.js shoutcast server, but trying to access data from it. The net object should still work, but not quite in the same way.

You'll need to use net.connect to talk to the specified shoutcast server, and use a new net server that knows about the net.connect stream to proxy between it and your http.request(). So, it would work like:

+---------------+    +----------+    +-----------+    +----------------+
| http.request()|--->|net.Server|--->|net.connect|--->|SHOUTcast Server|
|               |<---|          |<---|           |<---|                |
+---------------+    +----------+    +-----------+    +----------------+
                  TCP             JS               TCP

That's about how I'd structure it.

share|improve this answer
Thanks David. Do you know if there is a way to create a non-network socket and achieve the same effect? – Brad Mar 27 '12 at 0:36
Not really. The http.request() expects to talk to a TCP stream, and so does the SHOUTcast Server. Since they can't talk directly to one another, you have to proxy with something that takes TCP on either end of the connection to translate between the two. See my updated answer with the ASCII-tacular diagram. :) – David Ellis Mar 27 '12 at 0:43
Got it, thanks for your feedback. I was thinking about doing this earlier but talked myself out of it, due to the extra overhead. Looking at it again, it doesn't seem that bad. I'll crack on it tonight. Thanks! – Brad Mar 27 '12 at 0:45

I've come up with another way to do this, similar to the internal proxy, but without the extra connection. It seems that it is possible to override the internally used socket for the HTTP client. When this is done, it is easy to hook in and modify data before passing it off to the original internal socket ondata function.


var httpicy = new HttpIcyClient();
httpicy.request(/* your normal request parameters here */);


var http = require('http');

var HttpIcyClient = function () {};
HttpIcyClient.prototype.request = function (options, callback) {
    var req = http.request(options, callback),
        receiveBuffer = new Buffer(0);

    req.on('socket', function (socket) {
        originalOnDataFunction = socket.ondata;
        socket.ondata = function (d, start, end) {
            receiveBuffer = Buffer.concat([receiveBuffer, d.slice(start, end)]);
            if (receiveBuffer.length >= 4) {
                socket.ondata = originalOnDataFunction;
                if (receiveBuffer.toString('ascii', 0, 4) === 'ICY ') {
                    receiveBuffer = Buffer.concat([new Buffer('HTTP/1.0 ', 'ascii'), receiveBuffer.slice(4)]);
                socket.ondata.apply(this, [receiveBuffer, 0, receiveBuffer.length]);
    return req;
share|improve this answer
very interesting, didn't know you could do this – user730569 Aug 25 '12 at 20:55

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