pm2-axon

High-level messaging & socket patterns implemented in pure js

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Axon
Axon is a message-oriented socket library for node.js heavily inspired by zeromq. For a light-weight UDP alternative you may be interested in punt.
Build Status

Installation

$ npm install axon

Features

- message oriented - automated reconnection - light-weight wire protocol - mixed-type arguments (strings, objects, buffers, etc) - unix domain socket support - fast (~800 mb/s ~500,000 messages/s)

Events

- close when server or connection is closed - error (err) when an un-handled socket error occurs - ignored error (err) when an axon-handled socket error occurs, but is ignored - socket error (err) emitted regardless of handling, for logging purposes - reconnect attempt when a reconnection attempt is made - connect when connected to the peer, or a peer connection is accepted - disconnect when an accepted peer disconnects - bind when the server is bound - drop (msg) when a message is dropped due to the HWM - flush (msgs) queued when messages are flushed on connection

Patterns

- push / pull - pub / sub - req / rep - pub-emitter / sub-emitter

Mixed argument types

Backed by node-amp-message you may pass strings, objects, and buffers as arguments.
push.send('image', { w: 100, h: 200 }, imageBuffer);
pull.on('message', function(type, size, img){});

Push / Pull

PushSockets distribute messages round-robin:
var axon = require('axon');
var sock = axon.socket('push');

sock.bind(3000);
console.log('push server started');

setInterval(function(){
  sock.send('hello');
}, 150);

Receiver of PushSocket messages:
var axon = require('axon');
var sock = axon.socket('pull');

sock.connect(3000);

sock.on('message', function(msg){
  console.log(msg.toString());
});

Both PushSockets and PullSockets may .bind() or .connect(). In the following configuration the push socket is bound and pull "workers" connect to it to receive work:
push bind
This configuration shows the inverse, where workers connect to a "sink" to push results:
pull bind

Pub / Sub

PubSockets send messages to all subscribers without queueing. This is an important difference when compared to a PushSocket, where the delivery of messages will be queued during disconnects and sent again upon the next connection.
var axon = require('axon');
var sock = axon.socket('pub');

sock.bind(3000);
console.log('pub server started');

setInterval(function(){
  sock.send('hello');
}, 500);

SubSocket simply receives any messages from a PubSocket:
var axon = require('axon');
var sock = axon.socket('sub');

sock.connect(3000);

sock.on('message', function(msg){
  console.log(msg.toString());
});

SubSockets may optionally .subscribe() to one or more "topics" (the first multipart value), using string patterns or regular expressions:
var axon = require('axon');
var sock = axon.socket('sub');

sock.connect(3000);
sock.subscribe('user:login');
sock.subscribe('upload:*:progress');

sock.on('message', function(topic, msg){

});

Req / Rep

ReqSocket is similar to a PushSocket in that it round-robins messages to connected RepSockets, however it differs in that this communication is bi-directional, every req.send() must provide a callback which is invoked when the RepSocket replies.
var axon = require('axon');
var sock = axon.socket('req');

sock.bind(3000);

sock.send(img, function(res){

});

RepSockets receive a reply callback that is used to respond to the request, you may have several of these nodes.
var axon = require('axon');
var sock = axon.socket('rep');

sock.connect(3000);

sock.on('message', function(img, reply){
  // resize the image
  reply(img);
});

Like other sockets you may provide multiple arguments or an array of arguments, followed by the callbacks. For example here we provide a task name of "resize" to facilitate multiple tasks over a single socket:
var axon = require('axon');
var sock = axon.socket('req');

sock.bind(3000);

sock.send('resize', img, function(res){

});

Respond to the "resize" task:
var axon = require('axon');
var sock = axon.socket('rep');

sock.connect(3000);

sock.on('message', function(task, img, reply){
  switch (task) {
    case 'resize':
      // resize the image
      reply(img);
      break;
  }
});

PubEmitter / SubEmitter

PubEmitter and SubEmitter are higher-level Pub / Sub sockets, using the "json" codec to behave much like node's EventEmitter. When a SubEmitter's .on() method is invoked, the event name is .subscribe()d for you. Each wildcard (*) or regexp capture group is passed to the callback along with regular message arguments.
app.js:
var axon = require('axon');
var sock = axon.socket('pub-emitter');

sock.connect(3000);

setInterval(function(){
  sock.emit('login', { name: 'tobi' });
}, 500);

logger.js:
var axon = require('axon');
var sock = axon.socket('sub-emitter');

sock.bind(3000);

sock.on('user:login', function(user){
  console.log('%s signed in', user.name);
});

sock.on('user:*', function(action, user){
  console.log('%s %s', user.name, action);
});

sock.on('*', function(event){
  console.log(arguments);
});

Socket Options

Every socket has associated options that can be configured via get/set.
- identity - the "name" of the socket that uniqued identifies it. - retry timeout - connection retry timeout in milliseconds 100 (0 = do not reconnect) - retry max timeout - the cap for retry timeout length in milliseconds 5000 - hwm - the high water mark threshold for queues Infinity

Binding / Connecting

In addition to passing a portno, binding to INADDRANY by default, you may also specify the hostname via .bind(port, host), another alternative is to specify the url much like zmq via tcp://<hostname>:<portno>, thus the following are equivalent:
sock.bind(3000)
sock.bind(3000, '0.0.0.0')
sock.bind('tcp://0.0.0.0:3000')

sock.connect(3000)
sock.connect(3000, '0.0.0.0')
sock.connect('tcp://0.0.0.0:3000')

You may also use unix domain sockets:
sock.bind('unix:///some/path')
sock.connect('unix:///some/path')

Protocol

Axon 2.x uses the extremely simple AMP
protocol to send messages on the wire. Codecs are no longer required as they were in Axon 1.x.

Performance

Preliminary benchmarks on my Macbook Pro based on 10 messages per tick as a realistic production application would likely have even less than this. "better" numbers may be acheived with batching and a larger messages/tick count however this is not realistic.
64 byte messages:
min: 47,169 ops/s
     mean: 465,127 ops/s
   median: 500,000 ops/s
    total: 2,325,636 ops in 5s
  through: 28.39 mb/s

1k messages:
min: 48,076 ops/s
     mean: 120,253 ops/s
   median: 121,951 ops/s
    total: 601,386 ops in 5.001s
  through: 117.43 mb/s

8k messages:
min: 36,496 ops/s
     mean: 53,194 ops/s
   median: 50,505 ops/s
    total: 266,506 ops in 5.01s
  through: 405.84 mb/s

````

  32k messages:
min: 12,077 ops/s
     mean: 14,792 ops/s
   median: 16,233 ops/s
    total: 74,186 ops in 5.015s
through: 462.28 mb/s
## What's it good for?

  Axon are not meant to combat zeromq nor provide feature parity,
  but provide a nice solution when you don't need the insane
  nanosecond latency or language interoperability that zeromq provides
  as axon do not rely on any third-party compiled libraries.

## Running tests
$ npm install $ make test ```

Authors

- visionmedia - gjohnson

Links

- Screencast - Axon RPC

License

MIT