Pusher Channels client library for Java targeting Android and general Java.
- Java SE - supports versions 8, 11 and 17
- Oracle JDK
- OpenJDK
- Android 7 and above. 5 and 6 will require desugaring.
This README covers the following topics:
- Pusher Channels Java Client
- Supported platforms
- TOC
- Installation
- API Overview
- The Pusher constructor
- Connecting
- The PusherOptions object
- Reconnecting
- Disconnecting
- Listening to connection events
- Subscribing to channels
- Binding and handling events
- Triggering events
- Accessing the connection socket ID
- Helper Methods
- JavaDocs
- Library Development Environment
The compiled library is available in two ways:
The pusher-java-client is available in Maven Central.
<dependencies>
<dependency>
<groupId>com.pusher</groupId>
<artifactId>pusher-java-client</artifactId>
<version>2.4.4</version>
</dependency>
</dependencies>
dependencies {
implementation 'com.pusher:pusher-java-client:2.4.4'
}
You can download a version of the .jar
directly from https://repo1.maven.org/maven2/com/pusher/pusher-java-client/
You can build the project from the source in this repository. See Library development environment for more information on build environment.
Here's the API in a nutshell.
// Create a new Pusher instance
PusherOptions options = new PusherOptions().setCluster(YOUR_APP_CLUSTER);
Pusher pusher = new Pusher(YOUR_APP_KEY, options);
pusher.connect(new ConnectionEventListener() {
@Override
public void onConnectionStateChange(ConnectionStateChange change) {
System.out.println("State changed to " + change.getCurrentState() +
" from " + change.getPreviousState());
}
@Override
public void onError(String message, String code, Exception e) {
System.out.println("There was a problem connecting!");
}
}, ConnectionState.ALL);
// Subscribe to a channel
Channel channel = pusher.subscribe("my-channel");
// Bind to listen for events called "my-event" sent to "my-channel"
channel.bind("my-event", new SubscriptionEventListener() {
@Override
public void onEvent(PusherEvent event) {
System.out.println("Received event with data: " + event.toString());
}
});
// Disconnect from the service
pusher.disconnect();
// Reconnect, with all channel subscriptions and event bindings automatically recreated
pusher.connect();
// The state change listener is notified when the connection has been re-established,
// the subscription to "my-channel" and binding on "my-event" still exist.
More information in reference format can be found below.
The standard constructor take an application key which you can get from the app's API Access section in the Pusher Channels dashboard.
PusherOptions options = new PusherOptions().setCluster(YOUR_APP_CLUSTER);
Pusher pusher = new Pusher(YOUR_APP_KEY, options);
If you are going to use private or presence channels then you will need to provide an ChannelAuthorizer
to be used when authenticating subscriptions. In order to do this you need to pass in a PusherOptions
object which has had an ChannelAuthorizer
set.
HttpChannelAuthorizer channelAuthorizer = new HttpChannelAuthorizer("http://example.com/some_auth_endpoint");
PusherOptions options = new PusherOptions().setCluster(YOUR_APP_CLUSTER).setChannelAuthorizer(channelAuthorizer);
Pusher pusher = new Pusher(YOUR_APP_KEY, options);
See the documentation on Authorizing Users for more information.
If you need finer control over the endpoint then the setHost, setWsPort and setWssPort methods can be employed.
In order to send and receive messages you need to connect to Channels.
PusherOptions options = new PusherOptions().setCluster(YOUR_APP_CLUSTER);
Pusher pusher = new Pusher(YOUR_APP_KEY, options);
pusher.connect();
Most of the functionality of this library is configured through the PusherOptions object. You configure it by calling methods with parameters on the object before passing it to the Pusher object. Below is a table containing all of the methods you can call.
Method | Parameter | Description |
---|---|---|
setEncrypted | Boolean | Sets whether the connection should be made with TLS or not. |
setChannelAuthorizer | ChannelAuthorizer | Sets the channel authorizer to be used when authorizing private and presence channels. |
setHost | String | The host to which connections will be made. |
setWsPort | int | The port to which unencrypted connections will be made. Automatically set correctly. |
setWssPort | int | The port to which encrypted connections will be made. Automatically set correctly. |
setCluster | String | Sets the cluster the client will connect to, thereby setting the Host and Port correctly. |
setActivityTimeout | long | The number of milliseconds of inactivity at which a "ping" will be triggered to check the connection. The default value is 120,000. |
setPongTimeout | long | The number of milliseconds the client waits to receive a "pong" response from the server before disconnecting. The default value is 30,000. |
setMaxReconnectionAttempts | int | Number of reconnection attempts that will be made when pusher.connect() is called, after which the client will give up. |
setMaxReconnectGapInSeconds | int | The delay in two reconnection extends exponentially (1, 2, 4, .. seconds) This property sets the maximum inbetween two reconnection attempts. |
setProxy | Proxy | Specify a proxy, e.g. options.setProxy( new Proxy( Proxy.Type.HTTP, new InetSocketAddress( "proxyaddress", 80 ) ) ) |
The connect
method is also used to re-connect in case the connection has been lost, for example if an Android
device loses reception. Note that the state of channel subscriptions and event bindings will be preserved while
disconnected and re-negotiated with the server once a connection is re-established.
pusher.disconnect();
After disconnection the Pusher instance will release any internally allocated resources (threads and network connections)
Implement the ConnectionEventListener
interface to receive connection state change events:
PusherOptions options = new PusherOptions().setCluster(YOUR_APP_CLUSTER);
Pusher pusher = new Pusher(YOUR_APP_KEY, options);
pusher.connect(new ConnectionEventListener() {
@Override
public void onConnectionStateChange(ConnectionStateChange change) {
System.out.println("State changed to " + change.getCurrentState() +
" from " + change.getPreviousState());
}
@Override
public void onError(String message, String code, Exception e) {
System.out.println("There was a problem connecting!");
}
});
A series of ConnectionState
members can be passed after the listener in this call to filter the states which will receive notification, e.g.
// MyConnectionEventListener is notified only of transitions to the disconnected state
pusher.connect(new MyConnectionEventListener(), ConnectionState.DISCONNECTED);
For more information see connection states.
Channels uses the concept of channels as a way of subscribing to data. They are identified and subscribed to by a simple name. Events are bound to on a channels and are also identified by name. To listen to an event you need to implemented the ChannelEventListener
interface (see Binding and handling events).
As mentioned above, channel subscriptions need only be registered once per Pusher
instance. They are preserved across disconnection and re-established with the server on reconnect. They should NOT be re-registered. They may, however, be registered with a Pusher
instance before the first call to connect
- they will be completed with the server as soon as a connection becomes available.
Channel channel = pusher.subscribe("my-channel");
If you wish to be informed when the subscription succeeds, pass an implementation of the ChannelEventListener
interface:
Channel channel = pusher.subscribe("my-channel", new ChannelEventListener() {
@Override
public void onSubscriptionSucceeded(String channelName) {
System.out.println("Subscribed to channel: " + channelName);
}
// Other ChannelEventListener methods
});
If you wish to be informed for subscription count events, use the bind
function to listen to event type pusher:subscription_count
:
Channel channel = pusher.subscribe("my-channel");
channel.bind("pusher:subscription_count", new SubscriptionEventListener() {
@Override
public void onEvent(PusherEvent event) {
System.out.println("Received event with data: " + event.toString());
System.out.println("Subscription Count is: " + channel.getCount());
}
});
It's possible to subscribe to private channels that provide a mechanism for authorizing channel subscriptions. In order to do this you need to provide a ChannelAuthorizer
when creating the Pusher
instance (see The Pusher constructor above).
The library provides a HttpChannelAuthorizer
implementation of ChannelAuthorizer
which makes an HTTP POST
request to an authorization endpoint. However, you can implement your own authorization mechanism if required.
Private channels are subscribed to as follows:
PrivateChannel privateChannel = pusher.subscribePrivate( "private-channel" );
In addition to the events that are possible on public channels a private channel exposes an onAuthenticationFailure
. This is called if the ChannelAuthorizer
does not successfully authorize the subscription:
PrivateChannel channel = pusher.subscribePrivate("private-channel",
new PrivateChannelEventListener() {
@Override
public void onAuthenticationFailure(String message, Exception e) {
System.out.println(
String.format("Authentication failure due to [%s], exception was [%s]", message, e)
);
}
// Other ChannelEventListener methods
});
Similar to Private channels, you can also subscribe to a private encrypted channel. This library now fully supports end-to-end encryption. This means that only you and your connected clients will be able to read your messages. Pusher cannot decrypt them.
Like the private channel, you must provide your own authorization endpoint, with your own encryption master key. There is a demonstration endpoint to look at using nodejs.
To get started you need to subscribe to your channel, provide a PrivateEncryptedChannelEventListener
, and a list of the events you are
interested in, for example:
PrivateEncryptedChannel privateEncryptedChannel =
pusher.subscribePrivateEncrypted("private-encrypted-channel", listener, "my-event");
In addition to the events that are possible on public channels the
PrivateEncryptedChannelEventListener
also has the following methods:
onAuthenticationFailure(String message, Exception e)
- This is called if theChannelAuthorizer
does not successfully authorize the subscription:onDecryptionFailure(String event, String reason);
- This is called if the message cannot be decrypted. The decryption will attempt to refresh the shared secret key once from theChannelAuthorizer
.
There is a working example in the repo which you can use with the demonstration authorization endpoint
Presence channels are private channels which provide additional events exposing who is currently subscribed to the channel. Since they extend private channels they also need to be authorized (see authorizing channel subscriptions).
Presence channels can be subscribed to as follows:
PresenceChannel presenceChannel = pusher.subscribePresence( "presence-channel" );
Presence channels provide additional events relating to users joining (subscribing) and leaving (unsubscribing) the presence channel. It is possible to listen to these events by implementing the PresenceChannelEventListener
.
PresenceChannel channel = pusher.subscribePresence("presence-channel",
new PresenceChannelEventListener() {
@Override
public void onUsersInformationReceived(String channelName, Set<User> users) {
for (User user : users) {
userSubscribed(channelName, user);
}
}
@Override
public void userSubscribed(String channelName, User user) {
System.out.println(
String.format("A new user joined channel [%s]: %s, %s",
channelName, user.getId(), user.getInfo())
);
if (user.equals(channel.getMe())) {
System.out.println("me");
}
}
@Override
public void userUnsubscribed(String channelName, User user) {
System.out.println(
String.format("A user left channel [%s]: %s %s",
channelName, user.getId(), user.getInfo())
);
}
// Other ChannelEventListener methods
});
Note: In the Pusher Channels documentation a User may be referred to as a Member
.
The User
object has two main methods.
getId
fetches a unique identifier for the user on the presence channel.
getInfo
fetches a string representing arbitrary additional information about the user in the form of a JSON hash, e.g.
{"user_name":"Mr. User","user_score":1357}
The following example using the Gson library to handle deserialization:
String jsonInfo = user.getInfo();
Gson gson = new Gson();
UserInfo info = gson.fromJson(jsonInfo, UserInfo.class);
For more information on defining the user id and user info on the server see Implementing the authorization endpoint for a presence channel documentation.
Channels now provides a 'user-id' with client events sent from the server. With presence channels, your authorization endpoint provides your user with a user-id. Previously, it was up to you to include this user-id in every client-event triggered by your clients. Now, when a client of yours triggers a client event, Channels will append their user-id to their triggered message, so that the other clients in the channel receive it. This allows you to trust that a given user really did trigger a given payload.
If you’d like to make use of this feature, you’ll need to extract the user-id from the message delivered by Channels. To do this, call getUserId() on the event payload your event handler gets called with, like so:
channel.bind("client-my-event", new SubscriptionEventListener() {
@Override
public void onEvent(PusherEvent event) {
System.out.println("Received event with userId: " + event.getUserId());
}
});
There are two types of events that occur on channel subscriptions.
- Protocol related events such as those triggered when a subscription succeeds
- Application events that have been triggered by code within your application
The ChannelEventListener
is an interface that is informed of both protocol related events and application data events. A ChannelEventListener
can be used when initially subscribing to a channel.
Channel channel = pusher.subscribe("my-channel", new ChannelEventListener() {
@Override
public void onSubscriptionSucceeded(String channelName) {
System.out.println("Subscribed!");
}
@Override
public void onEvent(PusherEvent event) {
// Called for incoming events names "foo", "bar" or "baz"
}
}, "foo", "bar", "baz");
The ChannelEventListener
interface extends the SubscriptionEventListener
interface.
Events triggered by your application are received by the onEvent
method on the SubscriptionEventListener
interface implementation. If you are only related to application events you can bind to events on Channel
objects.
Channel channel = pusher.subscribe("my-channel");
channel.bind("my-event", new ChannelEventListener() {
@Override
public void onEvent(PusherEvent event) {
// Called for incoming events named "my-event"
}
});
The event data is accessible by calling the getData()
method on the event. From there you can handle the data as you like. Since we encourage data to be in JSON here's an example that uses Gson object deserialization:
public class Example implements ChannelEventListener {
public Example() {
Pusher pusher = new Pusher(YOUR_APP_KEY);
pusher.subscribe("my-channel", this);
pusher.connect();
}
@Override
public void onEvent(PusherEvent event) {
Gson gson = new Gson();
EventExample exampleEvent = gson.fromJson(event.getData(), EventExample.class);
}
}
class EventExample {
private int value1 = 1;
private String value2 = "abc";
private transient int value3 = 3;
EventExample() { }
}
You can unbind from an event:
channel.unbind("my_event", listener);
public class Example implements ChannelEventListener {
private final Pusher pusher;
private final Channel channel;
public Example() {
pusher = new Pusher(YOUR_APP_KEY);
channel = pusher.subscribe("my-channel", this, "my_event");
pusher.connect();
}
public void listenToOtherEvent() {
channel.bind("my_other_event", this);
}
public void stopListeningToOtherEvent() {
channel.unbind("my_other_event", this);
}
}
Once a private or presence subscription has been authorized (see authorizing users) and the subscription has succeeded, it is possible to trigger events on those channels.
channel.trigger("client-myEvent", "{\"myName\":\"Bob\"}");
Events triggered by clients are called client events. Because they are being triggered from a client which may not be trusted there are a number of enforced rules when using them. Some of these rules include:
- Event names must have a
client-
prefix - Rate limits
- You can only trigger an event when the subscription has succeeded
For full details see the client events documentation.
PrivateChannel channel = pusher.subscribePrivate("private-channel",
new PrivateChannelEventListener() {
@Override
public void onSubscriptionSucceeded(String channelName) {
channel.trigger("client-myEvent", "{\"myName\":\"Bob\"}");
}
// Other PrivateChannelEventListener methods
});
Once connected you can access a unique identifier for the current client's connection. This is known as the socket_id
.
You can access the value once the connection has been established as follows:
String socketId = pusher.getConnection().getSocketId();
For more information on how and why there is a socket_id
see the documentation on authorizing users and excluding recipients.
Channel channel = pusher.getChannel("my-channel");
The library will raise an exception if the parameter to Pusher#getChannel
is prefixed with "private-"
or "presence-"
.
PrivateChannel channel = pusher.getPrivateChannel("private-channel");
The library will raise an exception if the parameter to Pusher#getPrivateChannel
is not prefixed with "private-"
.
PresenceChannel channel = pusher.getPresenceChannel("presence-channel");
The library will raise an exception if the parameter to Pusher#getPresenceChannel
is not prefixed with "presence-"
.
Channel channel = pusher.getChannel("my-channel");
channel.isSubscribed(); // => `true`/`false`
The JavaDocs can be found here: http://pusher.github.com/pusher-websocket-java/
If you'd like to tweak this library there are ways to use your local code rather than the official. This is a rough guide on how to do so.
- A Java Virtual Machine.
- Gradle, the build system used for the project, is downloaded by the Gradle Wrapper (
gradlew
) which is included in the repo. - On Windows
./gradlew.bat
should be used, on Linux./gradle
.
- Clone the project:
git clone https://github.com/pusher/pusher-websocket-java
- Change to the top level directory for the project:
cd pusher-websocket-java
- In your app project's
settings.gradle
add the following lines:
include ':pusher-websocket-java'
project(':pusher-websocket-java').projectDir = new File('<PATH_TO_THIS_PROJECT>/pusher-websocket-java')
- Add the following line to your application's
build.gradle
where you would normally add the actualpusher-websocket-java
SDK:
dependencies {
implementation project(':pusher-websocket-java')
}
Assuming you are using Eclipse, follow these steps:
- Run
gradlew eclipse
. This will generate the.classpath
and.project
files - You can now load the project in Eclipse by navigating to
Import project
and pointing it to the root directory of the existing project.
From the top level directory execute:
gradlew test
to execute the tests.gradlew javadoc
to generate the JavaDoc. The docs will be output to thebuild/docs/javadoc/
directory.gradlew assemble
assemble all artifacts but does not run any tests.gradlew build
to build all jars and execute all tests & verification. The jars will be output to thebuild/libs
directory.
After running gradlew clean assemble
change to the build/libs
directory and run java -jar pusher-websocket-java-with-dependencies-<version>-jar-with-dependencies.jar
. This will run the example application.
By default the example will connect to a sample application and subscribe to the channel my-channel
, listening to events on my-event
. If you want to change these defaults, they can be specified on the command line:
java -jar pusher-websocket-java-with-dependencies-<version>-jar-with-dependencies.jar [appKey] [channelName] [eventName]