The WebSocket library facilitates connecting and interacting with WebSocket endpoints over the network, providing robust support for both client and server-side communication.
The `websocket:Client`` allows for synchronous reading/writing of text and binary messages.
import ballerina/websocket;
public function main() returns error? {
websocket:Client wsClient = check new("ws://echo.websocket.org");
check wsClient->writeTextMessage("Text message");
string textResp = check wsClient->readTextMessage();
}
Similar to the above, this module has the writeBinaryMessage
and readBinaryMessage
functions to handle binary messages.
A callback service with the two onPing
and onPong
remote functions can be registered at the initialization of the client to receive the ping/pong
control frames.
import ballerina/io;
import ballerina/websocket;
public function main() returns error? {
websocket:Client wsClient = check new("ws://echo.websocket.org", pingPongHandler = new clientPingPongCallbackService());
check wsClient->writeTextMessage("Text message");
}
service class clientPingPongCallbackService {
*websocket:PingPongService;
remote isolated function onPing(websocket:Caller caller, byte[] localData) returns byte[] {
io:println("Ping message received");
return localData;
}
remote isolated function onPong(websocket:Caller caller, byte[] localData) {
io:println("Pong message received");
}
}
In the listener-side, a WebSocket upgrade service can be initially attached to the websocket:Listener
to handle upgrade requests. It contains a single get
resource, which optionally accepts an http:Request
. This resource returns a websocket:Service
, to which incoming messages are dispatched after a successful WebSocket connection upgrade. Additionally, this resource can be utilized to intercept the initial HTTP upgrade with custom headers or to reject the WebSocket upgrade by returning an error. The returned websocket:Service
must implement a specific set of remote methods.
service /ws on new websocket:Listener(21003) {
resource function get .(http:Request req) returns websocket:Service|websocket:UpgradeError {
return new WsService();
}
service class WsService {
*websocket:Service;
remote isolated function onTextMessage(websocket:Caller caller, string data) returns websocket:Error? {
check caller->writeTextMessage(data);
}
}
- onOpen: Invoked upon WebSocket connection establishment.
- onTextMessage: Invoked upon receiving a text message.
- onBinaryMessage: Invoked upon receiving a binary message.
- onPing and onPong: Invoked upon receiving ping and pong frames, respectively.
- onIdleTimeout: Invoked when the idle timeout is reached.
- onClose: Invoked upon receiving a close frame.
- onError: Invoked when an error occurs in the WebSocket connection.
A WebSocket contains three types of control messages: close
, ping
, and pong
. A WebSocket server or a client can send a ping
message and the opposite side should respond with a corresponding pong
message by returning the same payload sent with the ping
message. These ping/pong sequences are used as a heartbeat mechanism to check if the connection is healthy.
You do not need to explicitly control these messages as they are handled automatically by the services and clients. However, if required, you can override the default implementations of the ping/pong messages by registering a websocket:PingPongService
in the client side as given in the above client code sample and by including the onPing
and onPong
remote functions in the websocket:Service
in the server side.
remote function onPing(websocket:Caller caller, byte[] data) returns error? {
io:println(string `Ping received with data: ${data.toBase64()}`);
check caller->pong(data);
}
remote function onPong(websocket:Caller caller, byte[] data) {
io:println(string `Pong received with data: ${data.toBase64()}`);
}
A WebSocket server or a client can close the WebSocket connection by calling the close
function. In the event of a connection closure, the service will be notified by invoking the onClose
remote function. Also, on the client side, you will get a connection closure error if you try to read/write messages.
remote function onClose(websocket:Caller caller, int statusCode, string reason) {
io:println(string `Client closed connection with ${statusCode} because of ${reason}`);
}
Per message compression extensions are supported by the Ballerina websocket
module and this is enabled by default for both the WebSocket client and the server. Compression can be enabled or disabled by setting the webSocketCompressionEnabled
to true
or false
in the ClientConfiguration
and ListenerConfiguration
. Once the compression is successfully negotiated, receiving compressed messages will be automatically decompressed when reading.
The Origin
header can be used to differentiate between WebSocket connections from different hosts or between those made from a browser and some other kind of network client. It is recommended to validate this Origin
header before accepting the WebSocket upgrade.
import ballerina/http;
import ballerina/websocket;
service /basic/ws on new websocket:Listener(9090) {
resource isolated function get .(http:Request httpRequest) returns websocket:Service|websocket:UpgradeError {
string|error header = httpRequest.getHeader("Origin");
if header is string {
// Implement validateOrigin function to validate the origin header.
boolean validated = validateOrigin(header);
if validated {
return new WsService();
}
}
return error("Invalid upgrade request");
}
}
service class WsService {
*websocket:Service;
remote function onTextMessage(websocket:Caller caller, string text) {
}
}
It is strongly recommended to use the wss://
protocol to protect against man-in-the-middle attacks. The Ballerina websocket
module allows the use of TLS in communication to do this. This expects a secure socket to be set in the connection configuration as shown below.
listener websocket:Listener wssListener = new (9090, {
secureSocket: {
key: {
certFile: "../resource/path/to/public.crt",
keyFile: "../resource/path/to/private.key"
}
}
});
service /basic/ws on wssListener {
}
websocket:Client wssClient = new ("wss://echo.websocket.org", {
secureSocket: {
cert: "../resource/path/to/public.crt"
}
});
Issues and Projects tabs are disabled for this repository as this is part of the Ballerina Standard Library. To report bugs, request new features, start new discussions, view project boards, etc. please visit Ballerina Standard Library parent repository.
This repository only contains the source code for the module.
-
Download and install Java SE Development Kit (JDK) version 21 (from one of the following locations).
Execute the commands below to build from source.
-
To build the package:
./gradlew clean build
-
To run the tests:
./gradlew clean test
-
To run a group of tests
./gradlew clean test -Pgroups=<test_group_names>
-
To build the without the tests:
./gradlew clean build -x test
-
To debug package implementation:
./gradlew clean build -Pdebug=<port>
-
To debug with Ballerina language:
./gradlew clean build -PbalJavaDebug=<port>
-
Publish the generated artifacts to the local Ballerina central repository:
./gradlew clean build -PpublishToLocalCentral=true
-
Publish the generated artifacts to the Ballerina central repository:
./gradlew clean build -PpublishToCentral=true
As an open source project, Ballerina welcomes contributions from the community.
For more information, go to the contribution guidelines.
All contributors are encouraged to read the Ballerina Code of Conduct.
- For more information go to the
websocket
library. - For example demonstrations of the usage, go to Ballerina By Examples.
- Chat live with us via our Discord server.
- Post all technical questions on Stack Overflow with the #ballerina tag.
- View the Ballerina performance test results.