json_rpc_2 3.0.0 json_rpc_2: ^3.0.0 copied to clipboard
Utilities to write a client or server using the JSON-RPC 2.0 spec.
A library that implements the JSON-RPC 2.0 spec.
Server #
A JSON-RPC 2.0 server exposes a set of methods that can be called by clients.
These methods can be registered using Server.registerMethod
:
import 'package:json_rpc_2/json_rpc_2.dart';
import 'package:web_socket_channel/web_socket_channel.dart';
void main() {
var socket = WebSocketChannel.connect(Uri.parse('ws://localhost:4321'));
// The socket is a `StreamChannel<dynamic>` because it might emit binary
// `List<int>`, but JSON RPC 2 only works with Strings so we assert it only
// emits those by casting it.
var server = Server(socket.cast<String>());
// Any string may be used as a method name. JSON-RPC 2.0 methods are
// case-sensitive.
var i = 0;
server.registerMethod('count', () {
// Just return the value to be sent as a response to the client. This can
// be anything JSON-serializable, or a Future that completes to something
// JSON-serializable.
return i++;
});
// Methods can take parameters. They're presented as a `Parameters` object
// which makes it easy to validate that the expected parameters exist.
server.registerMethod('echo', (Parameters params) {
// If the request doesn't have a "message" parameter this will
// automatically send a response notifying the client that the request
// was invalid.
return params['message'].value;
});
// `Parameters` has methods for verifying argument types.
server.registerMethod('subtract', (Parameters params) {
// If "minuend" or "subtrahend" aren't numbers, this will reject the
// request.
return params['minuend'].asNum - params['subtrahend'].asNum;
});
// [Parameters] also supports optional arguments.
server.registerMethod('sort', (Parameters params) {
var list = params['list'].asList;
list.sort();
if (params['descendint'].asBoolOr(false)) {
return list.reversed;
} else {
return list;
}
});
// A method can send an error response by throwing a `RpcException`.
// Any positive number may be used as an application- defined error code.
const dividByZero = 1;
server.registerMethod('divide', (Parameters params) {
var divisor = params['divisor'].asNum;
if (divisor == 0) {
throw RpcException(dividByZero, 'Cannot divide by zero.');
}
return params['dividend'].asNum / divisor;
});
// To give you time to register all your methods, the server won't start
// listening for requests until you call `listen`. Messages are buffered until
// listen is called. The returned Future won't complete until the connection
// is closed.
server.listen();
}
Client #
A JSON-RPC 2.0 client calls methods on a server and handles the server's
responses to those method calls. These methods can be called using
Client.sendRequest
:
import 'package:json_rpc_2/json_rpc_2.dart';
import 'package:pedantic/pedantic.dart';
import 'package:web_socket_channel/web_socket_channel.dart';
void main() async {
var socket = WebSocketChannel.connect(Uri.parse('ws://localhost:4321'));
var client = Client(socket.cast<String>());
// The client won't subscribe to the input stream until you call `listen`.
// The returned Future won't complete until the connection is closed.
unawaited(client.listen());
// This calls the "count" method on the server. A Future is returned that
// will complete to the value contained in the server's response.
var count = await client.sendRequest('count');
print('Count is $count');
// Parameters are passed as a simple Map or, for positional parameters, an
// Iterable. Make sure they're JSON-serializable!
var echo = await client.sendRequest('echo', {'message': 'hello'});
print('Echo says "$echo"!');
// A notification is a way to call a method that tells the server that no
// result is expected. Its return type is `void`; even if it causes an
// error, you won't hear back.
client.sendNotification('count');
// If the server sends an error response, the returned Future will complete
// with an RpcException. You can catch this error and inspect its error
// code, message, and any data that the server sent along with it.
try {
await client.sendRequest('divide', {'dividend': 2, 'divisor': 0});
} on RpcException catch (error) {
print('RPC error ${error.code}: ${error.message}');
}
}
Peer #
Although JSON-RPC 2.0 only explicitly describes clients and servers, it also
mentions that two-way communication can be supported by making each endpoint
both a client and a server. This package supports this directly using the Peer
class, which implements both Client
and Server
. It supports the same methods
as those classes, and automatically makes sure that every message from the other
endpoint is routed and handled correctly.