pkg/front_end/test/tool/reload.dart - sdk.git - Git at Google

 // Copyright (c) 2017, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 /// A helper library to connect to an existing VM and trigger a hot-reload via
 /// its service protocol.
 ///
 /// Usage:
 ///
 /// ```
 ///     var remoteVm = new RemoteVm();
 ///     await remoteVm.reload(uriToEntryScript);
 ///     ...
 ///     await remoteVm.disconnect();
 /// ```
 library front_end.src.vm.reload;

 import 'dart:async';
 import 'package:json_rpc_2/json_rpc_2.dart' as json_rpc;
 import 'package:web_socket_channel/io.dart';

 /// APIs to communicate with a remote VM via the VM's service protocol.
 ///
 /// Only supports APIs to resume the program execution (when isolates are paused
 /// at startup) and to trigger hot reloads.
 class RemoteVm {
   /// Port used to connect to the vm service protocol, typically 8181.
   final int port;

   /// An peer point used to send service protocol messages. The service
   /// protocol uses JSON rpc on top of web-sockets.
   json_rpc.Peer get rpc => _rpc ??= _createPeer();
   json_rpc.Peer? _rpc;

   /// The main isolate ID of the running VM. Needed to indicate to the VM which
   /// isolate to reload.
   FutureOr<String> get mainId async => _mainId ??= await _computeMainId();
   String? _mainId;

   RemoteVm([this.port = 8181]);

   /// Establishes the JSON rpc connection.
   json_rpc.Peer _createPeer() {
     var socket = new IOWebSocketChannel.connect('ws://127.0.0.1:$port/ws');
     var peer = new json_rpc.Peer(socket.cast<String>());
     peer.listen().then((_) {
       if (VERBOSE_DEBUG) print('connection to vm-service closed');
       return disconnect();
     }).catchError((e) {
       if (VERBOSE_DEBUG) print('error connecting to the vm-service');
       return disconnect();
     });
     return peer;
   }

   /// Retrieves the ID of the main isolate using the service protocol.
   Future<String> _computeMainId() async {
     var completer = new Completer<String>();
     rpc.registerMethod('streamNotify', (response) {
       if (response['streamId'] == 'Isolate') return;
       var event = response['event'];
       if (event['kind'] != 'IsolateStart') return;
       var isolate = event['isolate'];
       completer.complete(isolate['id']);
     });
     await rpc.sendRequest('streamListen', {'streamId': 'Isolate'});
     var vm = await rpc.sendRequest('getVM', {});
     var isolates = vm['isolates'];
     for (var isolate in isolates) {
       if (isolate['name'].contains(r'$main')) {
         return isolate['id'];
       }
     }
     for (var isolate in isolates) {
       return isolate['id'];
     }
     return completer.future;
   }

   /// Send a request to the VM to reload sources from [entryUri].
   ///
   /// This will establish a connection with the VM assuming it is running on the
   /// local machine and listening on [port] for service protocol requests.
   ///
   /// The result is the JSON map received from the reload request.
   Future<Map> reload(Uri entryUri) async {
     var id = await mainId;
     var result = await rpc.sendRequest('reloadSources', {
       'isolateId': id,
       'rootLibUri': entryUri.toFilePath(),
     });
     return result;
   }

   Future resume() async {
     var id = await mainId;
     await rpc.sendRequest('resume', {'isolateId': id});
   }

   /// Close any connections used to communicate with the VM.
   Future disconnect() async {
     if (_rpc == null) return null;
     this._mainId = null;
     if (!_rpc!.isClosed) {
       var future = _rpc!.close();
       _rpc = null;
       return future;
     }
     return null;
   }
 }

 const VERBOSE_DEBUG = false;

 /// This library can be used as a script as well. It connects to an existing
 /// VM's service protocol and issues a hot-reload request. The VM must have been
 /// launched with `--observe` to enable the service protocol.
 ///
 // TODO(sigmund): provide flags to configure the vm-service port.
 Future<void> main(List<String> args) async {
   if (args.length == 0) {
     print('usage: reload <entry-uri>');
     return;
   }

   var remoteVm = new RemoteVm();
   await remoteVm.reload(Uri.base.resolve(args.first));
   await remoteVm.disconnect();
 }
	// Copyright (c) 2017, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	/// A helper library to connect to an existing VM and trigger a hot-reload via
	/// its service protocol.
	///
	/// Usage:
	///
	/// ```
	/// var remoteVm = new RemoteVm();
	/// await remoteVm.reload(uriToEntryScript);
	/// ...
	/// await remoteVm.disconnect();
	/// ```
	library front_end.src.vm.reload;

	import 'dart:async';
	import 'package:json_rpc_2/json_rpc_2.dart' as json_rpc;
	import 'package:web_socket_channel/io.dart';

	/// APIs to communicate with a remote VM via the VM's service protocol.
	///
	/// Only supports APIs to resume the program execution (when isolates are paused
	/// at startup) and to trigger hot reloads.
	class RemoteVm {
	/// Port used to connect to the vm service protocol, typically 8181.
	final int port;

	/// An peer point used to send service protocol messages. The service
	/// protocol uses JSON rpc on top of web-sockets.
	json_rpc.Peer get rpc => _rpc ??= _createPeer();
	json_rpc.Peer? _rpc;

	/// The main isolate ID of the running VM. Needed to indicate to the VM which
	/// isolate to reload.
	FutureOr<String> get mainId async => _mainId ??= await _computeMainId();
	String? _mainId;

	RemoteVm([this.port = 8181]);

	/// Establishes the JSON rpc connection.
	json_rpc.Peer _createPeer() {
	var socket = new IOWebSocketChannel.connect('ws://127.0.0.1:$port/ws');
	var peer = new json_rpc.Peer(socket.cast<String>());
	peer.listen().then((_) {
	if (VERBOSE_DEBUG) print('connection to vm-service closed');
	return disconnect();
	}).catchError((e) {
	if (VERBOSE_DEBUG) print('error connecting to the vm-service');
	return disconnect();
	});
	return peer;
	}

	/// Retrieves the ID of the main isolate using the service protocol.
	Future<String> _computeMainId() async {
	var completer = new Completer<String>();
	rpc.registerMethod('streamNotify', (response) {
	if (response['streamId'] == 'Isolate') return;
	var event = response['event'];
	if (event['kind'] != 'IsolateStart') return;
	var isolate = event['isolate'];
	completer.complete(isolate['id']);
	});
	await rpc.sendRequest('streamListen', {'streamId': 'Isolate'});
	var vm = await rpc.sendRequest('getVM', {});
	var isolates = vm['isolates'];
	for (var isolate in isolates) {
	if (isolate['name'].contains(r'$main')) {
	return isolate['id'];
	}
	}
	for (var isolate in isolates) {
	return isolate['id'];
	}
	return completer.future;
	}

	/// Send a request to the VM to reload sources from [entryUri].
	///
	/// This will establish a connection with the VM assuming it is running on the
	/// local machine and listening on [port] for service protocol requests.
	///
	/// The result is the JSON map received from the reload request.
	Future<Map> reload(Uri entryUri) async {
	var id = await mainId;
	var result = await rpc.sendRequest('reloadSources', {
	'isolateId': id,
	'rootLibUri': entryUri.toFilePath(),
	});
	return result;
	}

	Future resume() async {
	var id = await mainId;
	await rpc.sendRequest('resume', {'isolateId': id});
	}

	/// Close any connections used to communicate with the VM.
	Future disconnect() async {
	if (_rpc == null) return null;
	this._mainId = null;
	if (!_rpc!.isClosed) {
	var future = _rpc!.close();
	_rpc = null;
	return future;
	}
	return null;
	}
	}

	const VERBOSE_DEBUG = false;

	/// This library can be used as a script as well. It connects to an existing
	/// VM's service protocol and issues a hot-reload request. The VM must have been
	/// launched with `--observe` to enable the service protocol.
	///
	// TODO(sigmund): provide flags to configure the vm-service port.
	Future<void> main(List<String> args) async {
	if (args.length == 0) {
	print('usage: reload <entry-uri>');
	return;
	}

	var remoteVm = new RemoteVm();
	await remoteVm.reload(Uri.base.resolve(args.first));
	await remoteVm.disconnect();
	}