This library is an open source client that allows Javascript clients to connect to the Pusher webservice. It is highly recommended that you use the hosted version of this file to stay up to date with the latest updates.
We have included the source code for following libraries:
- web-socket-js
- sockjs-client
They both include their own licences.
The following topics are covered:
- Configuration
- Connection
- Socket ids
- Subscribing to channels (public and private)
- Binding to events
- Globally
- Per-channel
- Default events
There are a number of configuration parameters which can be set for the Pusher client, which can be passed as an object to the Pusher constructor, i.e.:
var pusher = new Pusher(API_KEY, {
authEndpoint: "http://example.com/pusher/auth"
});
For most users, there is little need to change these. See client API guide for more details.
Forces the connection to use encrypted transports.
Endpoint on your server that will return the authentication signature needed for private channels.
Defines how the authentication endpoint, defined using authEndpoint, will be called. There are two options available: ajax
and jsonp
.
Allows connecting to a different datacenter by setting up correct hostnames and ports for the connection.
// will connect to the 'eu' cluster
var pusher = new Pusher(API_KEY, { cluster: "eu" });
Disables Flash, leaving only WebSockets and HTTP fallback.
Disables stats collection, so that connection metrics are not submitted to Pusher’s servers.
These can be changed to point to alternative Pusher URLs (used internally for our staging server).
Ignores null origin checks for HTTP fallbacks. Use with care, it should be disabled only if necessary (i.e. PhoneGap).
A websocket (or Flash Fallback) connection is established by providing your API key to the constructor function:
var socket = new Pusher(API_KEY);
This returns a socket object which can then be used to subscribe to channels.
Making a connection provides the client with a new socket_id
that is assigned by the server. This can be used to distinguish the client's own events. A change of state might otherwise be duplicated in the client. More information on this pattern is available here.
It is also stored within the socket, and used as a token for generating signatures for private channels.
The default method for subscribing to a channel involves invoking the subscribe
method of your socket object:
var my_channel = socket.subscribe('my-channel');
This returns a Channel object which events can be bound to.
Private channels are created in exactly the same way as normal channels, except that they reside in the 'private-' namespace. This means prefixing the channel name:
var my_channel = socket.subscribe('private-my-channel');
It is possible to access channels by name, through the channel
function:
channel = socket.channel('private-my-channel');
Events can be bound to at 2 levels, the global, and per channel. They take a very similar form to the way events are handled in jQuery.
You can attach behaviour to these events regardless of the channel the event is broadcast to. The following is an example of an app that binds to new comments from any channel:
var socket = new Pusher('MY_API_KEY');
var my_channel = socket.subscribe('my-channel');
socket.bind('new-comment',
function(data) {
// add comment into page
}
);
These are bound to a specific channel, and mean that you can reuse event names in different parts of you client application. The following might be an example of a stock tracking app where several channels are opened for different companies:
var socket = new Pusher('MY_API_KEY');
var channel = socket.subscribe('APPL');
channel.bind('new-price',
function(data) {
// add new price into the APPL widget
}
);
It is possible to bind to all events at either the global or channel level by using the method bind_all
. This is used for debugging, but may have other utilities.
There are a number of events which are used internally, but can also be of use elsewhere:
- connection_established
- subscribe
You can host JavaScript files yourself, but it's a bit more complicated than putting them somewhere and just linking pusher.js
in the source of your website. Because pusher-js loads fallback files dynamically, the dependency loader must be configured correctly or it will be using js.pusher.com
.
First, make sure you expose all files from the dist
directory. They need to be in a directory with named after the version number. For example, if you're hosting version 2.1.3 under http://example.com/pusher-js
(and https for SSL), files should be accessible under following URL's:
http://example.com/pusher-js/2.1.3/pusher.js
http://example.com/pusher-js/2.1.3/json2.js
http://example.com/pusher-js/2.1.3/flashfallback.js
http://example.com/pusher-js/2.1.3/WebSocketMain.swf
http://example.com/pusher-js/2.1.3/sockjs.js
Minified files should have .min
in names, as in the dist
directory:
http://example.com/pusher-js/2.1.3/pusher.min.js
http://example.com/pusher-js/2.1.3/json2.min.js
http://example.com/pusher-js/2.1.3/flashfallback.min.js
http://example.com/pusher-js/2.1.3/WebSocketMain.swf
http://example.com/pusher-js/2.1.3/sockjs.min.js
Then after loading pusher.js
, but before connecting, you need to overwrite the dependency loader by executing following piece of code:
Pusher.Dependencies = new Pusher.DependencyLoader({
cdn_http: "http://example.com/pusher-js/",
cdn_https: "https://example.com/pusher-js/",
version: Pusher.VERSION,
suffix: Pusher.dependency_suffix
});
Use Bundler to install all development dependencies
bundle install
and create a local config file
mv config/config.yml.example config/config.yml # and edit
Run a development server which serves bundled javascript from http://localhost:5555/pusher.js so that you can edit files in /src freely.
bundle exec jbundle server
In order to build the minified versions:
ENVIRONMENT=development rake build
If you wish to host the javascript on your own server you need to change [:js][:host] in config.yml
and then rebuild.
./JFile
declares all bundles, src dir and target dir. See https://github.com/ismasan/jbundle
Define the version number in JFile (should be in the format 1.2.3).
rake build
That writes source and minified versions of each bundle declared in the JFile into versioned directories. For example if the JFile says
version '1.7.1'
Then rake build will put copies of the files in ./dist/1.7.1/ and ./dist/1.7/
However for a prerelease
version '1.7.2-pre'
It will only write to the full, suffixed directory ./dist/1.7.2-pre
This is so prereleases don't overwrite the previous stable release.
Building everything from scratch is useful when you update submodules, which need compiling. If you want to perform a clean build, run:
bin/build
This will clean web-socket-js and sockjs-client submodules, check out last committed revisions, rebuild Flash fallback files and then run JBundle. Don't run this command if you have uncommitted changes in any of submodules, since it might overwrite them.
Jasmine test suite contains two types of tests:
- unit tests,
- integration tests.
Unit tests are simple, fast and don't need any external dependencies. Integration tests usually connect to production and js-integration-api servers and can use a local server for loading JS files, so they need an Internet connection to work.
There are several ways to run jasmine tests. All commands mentioned below also start a JBundle server, which is required for integration tests.
Please make sure you run bundler before running any of following commands.
bundle install
First, start the jasmine and JSONP integration servers:
bin/jasmine
Then open any browser and navigate to http://localhost:8888/ - it will run both unit and integration tests.
Running headless tests is very convenient for development, especially when using guard. Make sure you have PhantomJS installed - you can use brew install phantomjs
on OS X. Start jasmine and guard:
bin/guard
Tests will be run automatically in the terminal. Guard watches JS files and specs and re-runs aproppriate tests whenever you save any changes. Press enter to re-run all tests.
Guard runs only unit tests - partially because PhantomJS does not support WebSockets, partially for convenience.
There's also a JSHint watch, which will validate JS files on save.
Testacular also runs tests automatically, but it uses actual browsers to execute them. First, install karma npm module
npm install -g karma
Then start the server, run one of following commands:
bin/karma-unit # runs only unit tests
bin/karma-integration # runs only integration tests
bin/karma # runs both unit and integration tests
All configured browsers will be automatically opened and will run all tests. Testacular also re-executes all specs on file changes. After you close the server, browsers will get shut down too.
There are still some tests in the old framework, though they will be removed in the future. Open test/sane/index.html
and click run to execute the suite.