Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

EDITED

I have a nodeJS http server that is meant for receiving uploads from multiple clients and processing them separately. My problem is that I've verified that the first request blocks the reception of any other request until the previous request is served.

This is the code I've tested:

var http = require('http');
http.globalAgent.maxSockets = 200;
var url = require('url');
var instance = require('./build/Release/ret');

http.createServer( function(req, res){
    var path = url.parse(req.url).pathname; 
    console.log("<req>"+path+"</req>");
    switch (path){
        case ('/test'): 
            var body = [];
            req.on('data', function (chunk) {
                body.push(chunk);
            });
            req.on('end', function () {
                body = Buffer.concat(body);
                console.log("---req received---");
                console.log(Date.now());
                console.log("------------------");          
                instance.get(function(result){
                  postHTTP(result, res);
                });
            });
        break;
    }
}).listen(9999);

This is the native side (omitting obvious stuff) where getInfo is the exported method:

std::string ret2 (){
  sleep(1); 
  return string("{\"image\":\"1.JPG\"}");
}

Handle<Value> getInfo(const Arguments &args) {
  HandleScope scope;
  if(args.Length() == 0 || !args[0]->IsFunction())
    return ThrowException(Exception::Error(String::New("Error")));

  Persistent<Function> fn = Persistent<Function>::New(Handle<Function>::Cast(args[0]));

  Local<Value> objRet[1] = {    
    String::New(ret2().c_str())
  };
  Handle<Value> ret = fn->Call(Context::GetCurrent()->Global(), 1, objRet);

  return scope.Close(Undefined());

}

I'm resting this with 3 curl parallel requests

for i in {1..3}; do time curl --request POST --data-binary "@/home/user/Pictures/129762.jpg" http://192.160.0.1:9999/test & done

This is the output from the server:

<req>/test</req>
---req received---
1397569891165
------------------
<req>/test</req>
---req received---
1397569892175
------------------
<req>/test</req>
---req received---
1397569893181
------------------

These the response and the timing from the client:

"1.JPG"
real    0m1.024s
user    0m0.004s
sys         0m0.009s
"1.JPG"
real    0m2.033s
user    0m0.000s
sys         0m0.012s
"1.JPG"
real    0m3.036s
user    0m0.013s
sys         0m0.001s

Apparently requests are received after the previous has been served. The sleep(1) simulates a synchronous operation that requires about 1s to complete and can't be changed. The client receives the responses with an incremental delay of ~1s.

I would like to achieve a kind of parallelism, although I'm aware I'm in a single threaded environment such as nodeJS. What I would like to achieve is receiving all 3 answers is ~1s.

Thanks in advance for your help.

share|improve this question

1 Answer 1

This:

for(var i=0;i<1000000000;i++) var a=a+i;

Is a pretty severe blocking operation. As soon as the first block ends. Your whole server hangs until this for loop is done. I'm interested in why you are trying to do this.

Perhaps you are trying to simulate a delayed response ?

setTimeout(function)({
    send404(res);
}, 3000);

Right now you are turning a non-flowing stream into flowing mode by attaching a data event handler, and subsequently loading the whole stream into memory. You probably don't want to do this.

You can use the stream in now-flowing mode as illustrated below, this is useful if you want to send the data to some place that is only accessible after some other event.

However, using the stream in flowing mode is the fastest. If you want to write your own body parser I suppose you might want to use flowing mode, it depends on your use case.

req.on('readable', function () {
   var chunk;
   while (null !== (chunk = readable.read())) {
       body.push(chunk);
   }
});

Flowing and non-flowing mode is also know as respectively v1 and v2 streams, as the older streams used in node only supported flowing mode.

share|improve this answer
    
I've tried to set a timeout, but as you said it is a non-blocking operation. In my real deployment I have a blocking operation, so I thought that it would have been a good way to simulate it. I'm not sure how can I listen to readable stream events in this case. –  Jacques Clementi Apr 10 '14 at 14:48
    
I would advice you to change your real deployment to remove that blocking operation, any blocking operation is close to deadly for node.js performance. –  Willem D'haeseleer Apr 10 '14 at 19:10
    
What is the blocking operation in the real deployment? Most things in nodejs do blocking operations in the background, even if its a c module you can do things in a thread and then call the callback when the operation is finished. You should never use the fs.[read|write]sync calls, always use the asynchronous calls. –  jeremy Apr 10 '14 at 19:38
    
Can't use threads cause not all libs I've linked to the node C extension are thread safe. I'm gonna try with node-ffi to see if it is any different. Can't think of anything else. –  Jacques Clementi Apr 14 '14 at 8:23
    
You can just spread the calculation of your blocking operation over the event loop if it is not to time sensitive. If you would share your use case we might give you some more solid feedback. –  Willem D'haeseleer Apr 14 '14 at 8:29

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.