playwright/browser_patches/firefox-beta/juggler/SimpleChannel.js

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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
"use strict";
// Note: this file should be loadabale with eval() into worker environment.
// Avoid Components.*, ChromeUtils and global const variables.
const SIMPLE_CHANNEL_MESSAGE_NAME = 'juggler:simplechannel';
class SimpleChannel {
static createForMessageManager(name, mm) {
const channel = new SimpleChannel(name);
const messageListener = {
receiveMessage: message => channel._onMessage(message.data)
};
mm.addMessageListener(SIMPLE_CHANNEL_MESSAGE_NAME, messageListener);
channel.setTransport({
sendMessage: obj => mm.sendAsyncMessage(SIMPLE_CHANNEL_MESSAGE_NAME, obj),
dispose: () => mm.removeMessageListener(SIMPLE_CHANNEL_MESSAGE_NAME, messageListener),
});
return channel;
}
constructor(name) {
this._name = name;
this._messageId = 0;
this._connectorId = 0;
this._pendingMessages = new Map();
this._handlers = new Map();
this._bufferedIncomingMessages = [];
this._bufferedOutgoingMessages = [];
this.transport = {
sendMessage: null,
dispose: null,
};
this._ready = false;
this._disposed = false;
}
setTransport(transport) {
this.transport = transport;
// connection handshake:
// 1. There are two channel ends in different processes.
// 2. Both ends start in the `ready = false` state, meaning that they will
// not send any messages over transport.
// 3. Once channel end is created, it sends `READY` message to the other end.
// 4. Eventually, at least one of the ends receives `READY` message and responds with
// `READY_ACK`. We assume at least one of the ends will receive "READY" event from the other, since
// channel ends have a "parent-child" relation, i.e. one end is always created before the other one.
// 5. Once channel end receives either `READY` or `READY_ACK`, it transitions to `ready` state.
this.transport.sendMessage('READY');
}
_markAsReady() {
if (this._ready)
return;
this._ready = true;
for (const msg of this._bufferedOutgoingMessages)
this.transport.sendMessage(msg);
this._bufferedOutgoingMessages = [];
}
dispose() {
if (this._disposed)
return;
this._disposed = true;
for (const {resolve, reject, methodName} of this._pendingMessages.values())
reject(new Error(`Failed "${methodName}": ${this._name} is disposed.`));
this._pendingMessages.clear();
this._handlers.clear();
this.transport.dispose();
}
_rejectCallbacksFromConnector(connectorId) {
for (const [messageId, callback] of this._pendingMessages) {
if (callback.connectorId === connectorId) {
callback.reject(new Error(`Failed "${callback.methodName}": connector for namespace "${callback.namespace}" in channel "${this._name}" is disposed.`));
this._pendingMessages.delete(messageId);
}
}
}
connect(namespace) {
const connectorId = ++this._connectorId;
return {
send: (...args) => this._send(namespace, connectorId, ...args),
emit: (...args) => void this._send(namespace, connectorId, ...args).catch(e => {}),
dispose: () => this._rejectCallbacksFromConnector(connectorId),
};
}
register(namespace, handler) {
if (this._handlers.has(namespace))
throw new Error('ERROR: double-register for namespace ' + namespace);
this._handlers.set(namespace, handler);
// Try to re-deliver all pending messages.
const bufferedRequests = this._bufferedIncomingMessages;
this._bufferedIncomingMessages = [];
for (const data of bufferedRequests) {
this._onMessage(data);
}
return () => this.unregister(namespace);
}
unregister(namespace) {
this._handlers.delete(namespace);
}
/**
* @param {string} namespace
* @param {number} connectorId
* @param {string} methodName
* @param {...*} params
* @return {!Promise<*>}
*/
async _send(namespace, connectorId, methodName, ...params) {
if (this._disposed)
throw new Error(`ERROR: channel ${this._name} is already disposed! Cannot send "${methodName}" to "${namespace}"`);
const id = ++this._messageId;
const promise = new Promise((resolve, reject) => {
this._pendingMessages.set(id, {connectorId, resolve, reject, methodName, namespace});
});
const message = {requestId: id, methodName, params, namespace};
if (this._ready)
this.transport.sendMessage(message);
else
this._bufferedOutgoingMessages.push(message);
return promise;
}
async _onMessage(data) {
if (data === 'READY') {
this.transport.sendMessage('READY_ACK');
this._markAsReady();
return;
}
if (data === 'READY_ACK') {
this._markAsReady();
return;
}
if (data.responseId) {
const {resolve, reject} = this._pendingMessages.get(data.responseId);
this._pendingMessages.delete(data.responseId);
if (data.error)
reject(new Error(data.error));
else
resolve(data.result);
} else if (data.requestId) {
const namespace = data.namespace;
const handler = this._handlers.get(namespace);
if (!handler) {
this._bufferedIncomingMessages.push(data);
return;
}
const method = handler[data.methodName];
if (!method) {
this.transport.sendMessage({responseId: data.requestId, error: `error in channel "${this._name}": No method "${data.methodName}" in namespace "${namespace}"`});
return;
}
try {
const result = await method.call(handler, ...data.params);
this.transport.sendMessage({responseId: data.requestId, result});
} catch (error) {
this.transport.sendMessage({responseId: data.requestId, error: `error in channel "${this._name}": exception while running method "${data.methodName}" in namespace "${namespace}": ${error.message} ${error.stack}`});
return;
}
} else {
dump(`
ERROR: unknown message in channel "${this._name}": ${JSON.stringify(data)}
`);
}
}
}
var EXPORTED_SYMBOLS = ['SimpleChannel'];
this.SimpleChannel = SimpleChannel;