electron/spec-main/api-ipc-spec.ts

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import { EventEmitter } from 'events';
import { expect } from 'chai';
import { BrowserWindow, ipcMain, IpcMainInvokeEvent, MessageChannelMain, WebContents } from 'electron/main';
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import { closeAllWindows } from './window-helpers';
import { emittedOnce } from './events-helpers';
const v8Util = process._linkedBinding('electron_common_v8_util');
describe('ipc module', () => {
describe('invoke', () => {
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let w = (null as unknown as BrowserWindow);
before(async () => {
w = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
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await w.loadURL('about:blank');
});
after(async () => {
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w.destroy();
});
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async function rendererInvoke (...args: any[]) {
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const { ipcRenderer } = require('electron');
try {
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const result = await ipcRenderer.invoke('test', ...args);
ipcRenderer.send('result', { result });
} catch (e) {
ipcRenderer.send('result', { error: (e as Error).message });
}
}
it('receives a response from a synchronous handler', async () => {
ipcMain.handleOnce('test', (e: IpcMainInvokeEvent, arg: number) => {
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expect(arg).to.equal(123);
return 3;
});
const done = new Promise<void>(resolve => ipcMain.once('result', (e, arg) => {
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expect(arg).to.deep.equal({ result: 3 });
resolve();
}));
await w.webContents.executeJavaScript(`(${rendererInvoke})(123)`);
await done;
});
it('receives a response from an asynchronous handler', async () => {
ipcMain.handleOnce('test', async (e: IpcMainInvokeEvent, arg: number) => {
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expect(arg).to.equal(123);
await new Promise(setImmediate);
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return 3;
});
const done = new Promise<void>(resolve => ipcMain.once('result', (e, arg) => {
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expect(arg).to.deep.equal({ result: 3 });
resolve();
}));
await w.webContents.executeJavaScript(`(${rendererInvoke})(123)`);
await done;
});
it('receives an error from a synchronous handler', async () => {
ipcMain.handleOnce('test', () => {
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throw new Error('some error');
});
const done = new Promise<void>(resolve => ipcMain.once('result', (e, arg) => {
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expect(arg.error).to.match(/some error/);
resolve();
}));
await w.webContents.executeJavaScript(`(${rendererInvoke})()`);
await done;
});
it('receives an error from an asynchronous handler', async () => {
ipcMain.handleOnce('test', async () => {
await new Promise(setImmediate);
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throw new Error('some error');
});
const done = new Promise<void>(resolve => ipcMain.once('result', (e, arg) => {
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expect(arg.error).to.match(/some error/);
resolve();
}));
await w.webContents.executeJavaScript(`(${rendererInvoke})()`);
await done;
});
it('throws an error if no handler is registered', async () => {
const done = new Promise<void>(resolve => ipcMain.once('result', (e, arg) => {
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expect(arg.error).to.match(/No handler registered/);
resolve();
}));
await w.webContents.executeJavaScript(`(${rendererInvoke})()`);
await done;
});
it('throws an error when invoking a handler that was removed', async () => {
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ipcMain.handle('test', () => {});
ipcMain.removeHandler('test');
const done = new Promise<void>(resolve => ipcMain.once('result', (e, arg) => {
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expect(arg.error).to.match(/No handler registered/);
resolve();
}));
await w.webContents.executeJavaScript(`(${rendererInvoke})()`);
await done;
});
it('forbids multiple handlers', async () => {
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ipcMain.handle('test', () => {});
try {
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expect(() => { ipcMain.handle('test', () => {}); }).to.throw(/second handler/);
} finally {
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ipcMain.removeHandler('test');
}
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});
it('throws an error in the renderer if the reply callback is dropped', async () => {
// eslint-disable-next-line @typescript-eslint/no-unused-vars
ipcMain.handleOnce('test', () => new Promise(resolve => {
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setTimeout(() => v8Util.requestGarbageCollectionForTesting());
/* never resolve */
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}));
w.webContents.executeJavaScript(`(${rendererInvoke})()`);
const [, { error }] = await emittedOnce(ipcMain, 'result');
expect(error).to.match(/reply was never sent/);
});
});
describe('ordering', () => {
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let w = (null as unknown as BrowserWindow);
before(async () => {
w = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
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await w.loadURL('about:blank');
});
after(async () => {
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w.destroy();
});
it('between send and sendSync is consistent', async () => {
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const received: number[] = [];
ipcMain.on('test-async', (e, i) => { received.push(i); });
ipcMain.on('test-sync', (e, i) => { received.push(i); e.returnValue = null; });
const done = new Promise<void>(resolve => ipcMain.once('done', () => { resolve(); }));
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function rendererStressTest () {
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const { ipcRenderer } = require('electron');
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for (let i = 0; i < 1000; i++) {
switch ((Math.random() * 2) | 0) {
case 0:
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ipcRenderer.send('test-async', i);
break;
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case 1:
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ipcRenderer.sendSync('test-sync', i);
break;
}
}
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ipcRenderer.send('done');
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}
try {
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w.webContents.executeJavaScript(`(${rendererStressTest})()`);
await done;
} finally {
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ipcMain.removeAllListeners('test-async');
ipcMain.removeAllListeners('test-sync');
}
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expect(received).to.have.lengthOf(1000);
expect(received).to.deep.equal([...received].sort((a, b) => a - b));
});
it('between send, sendSync, and invoke is consistent', async () => {
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const received: number[] = [];
ipcMain.handle('test-invoke', (e, i) => { received.push(i); });
ipcMain.on('test-async', (e, i) => { received.push(i); });
ipcMain.on('test-sync', (e, i) => { received.push(i); e.returnValue = null; });
const done = new Promise<void>(resolve => ipcMain.once('done', () => { resolve(); }));
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function rendererStressTest () {
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const { ipcRenderer } = require('electron');
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for (let i = 0; i < 1000; i++) {
switch ((Math.random() * 3) | 0) {
case 0:
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ipcRenderer.send('test-async', i);
break;
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case 1:
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ipcRenderer.sendSync('test-sync', i);
break;
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case 2:
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ipcRenderer.invoke('test-invoke', i);
break;
}
}
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ipcRenderer.send('done');
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}
try {
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w.webContents.executeJavaScript(`(${rendererStressTest})()`);
await done;
} finally {
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ipcMain.removeHandler('test-invoke');
ipcMain.removeAllListeners('test-async');
ipcMain.removeAllListeners('test-sync');
}
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expect(received).to.have.lengthOf(1000);
expect(received).to.deep.equal([...received].sort((a, b) => a - b));
});
});
describe('MessagePort', () => {
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afterEach(closeAllWindows);
it('can send a port to the main process', async () => {
const w = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
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w.loadURL('about:blank');
const p = emittedOnce(ipcMain, 'port');
await w.webContents.executeJavaScript(`(${function () {
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const channel = new MessageChannel();
require('electron').ipcRenderer.postMessage('port', 'hi', [channel.port1]);
}})()`);
const [ev, msg] = await p;
expect(msg).to.equal('hi');
expect(ev.ports).to.have.length(1);
const [port] = ev.ports;
expect(port).to.be.an.instanceOf(EventEmitter);
});
it('can sent a message without a transfer', async () => {
const w = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
w.loadURL('about:blank');
const p = emittedOnce(ipcMain, 'port');
await w.webContents.executeJavaScript(`(${function () {
require('electron').ipcRenderer.postMessage('port', 'hi');
}})()`);
const [ev, msg] = await p;
expect(msg).to.equal('hi');
expect(ev.ports).to.deep.equal([]);
});
it('can communicate between main and renderer', async () => {
const w = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
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w.loadURL('about:blank');
const p = emittedOnce(ipcMain, 'port');
await w.webContents.executeJavaScript(`(${function () {
const channel = new MessageChannel();
(channel.port2 as any).onmessage = (ev: any) => {
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channel.port2.postMessage(ev.data * 2);
};
require('electron').ipcRenderer.postMessage('port', '', [channel.port1]);
}})()`);
const [ev] = await p;
expect(ev.ports).to.have.length(1);
const [port] = ev.ports;
port.start();
port.postMessage(42);
const [ev2] = await emittedOnce(port, 'message');
expect(ev2.data).to.equal(84);
});
it('can receive a port from a renderer over a MessagePort connection', async () => {
const w = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
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w.loadURL('about:blank');
function fn () {
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const channel1 = new MessageChannel();
const channel2 = new MessageChannel();
channel1.port2.postMessage('', [channel2.port1]);
channel2.port2.postMessage('matryoshka');
require('electron').ipcRenderer.postMessage('port', '', [channel1.port1]);
}
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w.webContents.executeJavaScript(`(${fn})()`);
const [{ ports: [port1] }] = await emittedOnce(ipcMain, 'port');
port1.start();
const [{ ports: [port2] }] = await emittedOnce(port1, 'message');
port2.start();
const [{ data }] = await emittedOnce(port2, 'message');
expect(data).to.equal('matryoshka');
});
it('can forward a port from one renderer to another renderer', async () => {
const w1 = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
const w2 = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
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w1.loadURL('about:blank');
w2.loadURL('about:blank');
w1.webContents.executeJavaScript(`(${function () {
const channel = new MessageChannel();
(channel.port2 as any).onmessage = (ev: any) => {
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require('electron').ipcRenderer.send('message received', ev.data);
};
require('electron').ipcRenderer.postMessage('port', '', [channel.port1]);
}})()`);
const [{ ports: [port] }] = await emittedOnce(ipcMain, 'port');
await w2.webContents.executeJavaScript(`(${function () {
require('electron').ipcRenderer.on('port', ({ ports: [port] }: any) => {
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port.postMessage('a message');
});
}})()`);
w2.webContents.postMessage('port', '', [port]);
const [, data] = await emittedOnce(ipcMain, 'message received');
expect(data).to.equal('a message');
});
describe('close event', () => {
describe('in renderer', () => {
it('is emitted when the main process closes its end of the port', async () => {
const w = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
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w.loadURL('about:blank');
await w.webContents.executeJavaScript(`(${function () {
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const { ipcRenderer } = require('electron');
ipcRenderer.on('port', e => {
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const [port] = e.ports;
port.start();
(port as any).onclose = () => {
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ipcRenderer.send('closed');
};
});
}})()`);
const { port1, port2 } = new MessageChannelMain();
w.webContents.postMessage('port', null, [port2]);
port1.close();
await emittedOnce(ipcMain, 'closed');
});
it('is emitted when the other end of a port is garbage-collected', async () => {
const w = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
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w.loadURL('about:blank');
await w.webContents.executeJavaScript(`(${async function () {
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const { port2 } = new MessageChannel();
await new Promise(resolve => {
port2.start();
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(port2 as any).onclose = resolve;
process._linkedBinding('electron_common_v8_util').requestGarbageCollectionForTesting();
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});
}})()`);
});
it('is emitted when the other end of a port is sent to nowhere', async () => {
const w = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
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w.loadURL('about:blank');
ipcMain.once('do-a-gc', () => v8Util.requestGarbageCollectionForTesting());
await w.webContents.executeJavaScript(`(${async function () {
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const { port1, port2 } = new MessageChannel();
await new Promise(resolve => {
port2.start();
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(port2 as any).onclose = resolve;
require('electron').ipcRenderer.postMessage('nobody-listening', null, [port1]);
require('electron').ipcRenderer.send('do-a-gc');
});
}})()`);
});
});
});
describe('MessageChannelMain', () => {
it('can be created', () => {
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const { port1, port2 } = new MessageChannelMain();
expect(port1).not.to.be.null();
expect(port2).not.to.be.null();
});
it('can send messages within the process', async () => {
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const { port1, port2 } = new MessageChannelMain();
port2.postMessage('hello');
port1.start();
const [ev] = await emittedOnce(port1, 'message');
expect(ev.data).to.equal('hello');
});
it('can pass one end to a WebContents', async () => {
const w = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
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w.loadURL('about:blank');
await w.webContents.executeJavaScript(`(${function () {
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const { ipcRenderer } = require('electron');
ipcRenderer.on('port', ev => {
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const [port] = ev.ports;
port.onmessage = () => {
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ipcRenderer.send('done');
};
});
}})()`);
const { port1, port2 } = new MessageChannelMain();
port1.postMessage('hello');
w.webContents.postMessage('port', null, [port2]);
await emittedOnce(ipcMain, 'done');
});
it('can be passed over another channel', async () => {
const w = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
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w.loadURL('about:blank');
await w.webContents.executeJavaScript(`(${function () {
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const { ipcRenderer } = require('electron');
ipcRenderer.on('port', e1 => {
e1.ports[0].onmessage = e2 => {
e2.ports[0].onmessage = e3 => {
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ipcRenderer.send('done', e3.data);
};
};
});
}})()`);
const { port1, port2 } = new MessageChannelMain();
const { port1: port3, port2: port4 } = new MessageChannelMain();
port1.postMessage(null, [port4]);
port3.postMessage('hello');
w.webContents.postMessage('port', null, [port2]);
const [, message] = await emittedOnce(ipcMain, 'done');
expect(message).to.equal('hello');
});
it('can send messages to a closed port', () => {
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const { port1, port2 } = new MessageChannelMain();
port2.start();
port2.on('message', () => { throw new Error('unexpected message received'); });
port1.close();
port1.postMessage('hello');
});
it('can send messages to a port whose remote end is closed', () => {
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const { port1, port2 } = new MessageChannelMain();
port2.start();
port2.on('message', () => { throw new Error('unexpected message received'); });
port2.close();
port1.postMessage('hello');
});
it('throws when passing null ports', () => {
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const { port1 } = new MessageChannelMain();
expect(() => {
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port1.postMessage(null, [null] as any);
}).to.throw(/conversion failure/);
});
it('throws when passing duplicate ports', () => {
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const { port1 } = new MessageChannelMain();
const { port1: port3 } = new MessageChannelMain();
expect(() => {
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port1.postMessage(null, [port3, port3]);
}).to.throw(/duplicate/);
});
it('throws when passing ports that have already been neutered', () => {
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const { port1 } = new MessageChannelMain();
const { port1: port3 } = new MessageChannelMain();
port1.postMessage(null, [port3]);
expect(() => {
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port1.postMessage(null, [port3]);
}).to.throw(/already neutered/);
});
it('throws when passing itself', () => {
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const { port1 } = new MessageChannelMain();
expect(() => {
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port1.postMessage(null, [port1]);
}).to.throw(/contains the source port/);
});
describe('GC behavior', () => {
it('is not collected while it could still receive messages', async () => {
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let trigger: Function;
const promise = new Promise(resolve => { trigger = resolve; });
const port1 = (() => {
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const { port1, port2 } = new MessageChannelMain();
port2.on('message', (e) => { trigger(e.data); });
port2.start();
return port1;
})();
v8Util.requestGarbageCollectionForTesting();
port1.postMessage('hello');
expect(await promise).to.equal('hello');
});
});
});
const generateTests = (title: string, postMessage: (contents: WebContents) => WebContents['postMessage']) => {
describe(title, () => {
it('sends a message', async () => {
const w = new BrowserWindow({ show: false, webPreferences: { nodeIntegration: true, contextIsolation: false } });
w.loadURL('about:blank');
await w.webContents.executeJavaScript(`(${function () {
const { ipcRenderer } = require('electron');
ipcRenderer.on('foo', (_e, msg) => {
ipcRenderer.send('bar', msg);
});
}})()`);
postMessage(w.webContents)('foo', { some: 'message' });
const [, msg] = await emittedOnce(ipcMain, 'bar');
expect(msg).to.deep.equal({ some: 'message' });
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});
describe('error handling', () => {
it('throws on missing channel', async () => {
const w = new BrowserWindow({ show: false });
await w.loadURL('about:blank');
expect(() => {
(postMessage(w.webContents) as any)();
}).to.throw(/Insufficient number of arguments/);
});
it('throws on invalid channel', async () => {
const w = new BrowserWindow({ show: false });
await w.loadURL('about:blank');
expect(() => {
postMessage(w.webContents)(null as any, '', []);
}).to.throw(/Error processing argument at index 0/);
});
it('throws on missing message', async () => {
const w = new BrowserWindow({ show: false });
await w.loadURL('about:blank');
expect(() => {
(postMessage(w.webContents) as any)('channel');
}).to.throw(/Insufficient number of arguments/);
});
it('throws on non-serializable message', async () => {
const w = new BrowserWindow({ show: false });
await w.loadURL('about:blank');
expect(() => {
postMessage(w.webContents)('channel', w);
}).to.throw(/An object could not be cloned/);
});
it('throws on invalid transferable list', async () => {
const w = new BrowserWindow({ show: false });
await w.loadURL('about:blank');
expect(() => {
postMessage(w.webContents)('', '', null as any);
}).to.throw(/Invalid value for transfer/);
});
it('throws on transferring non-transferable', async () => {
const w = new BrowserWindow({ show: false });
await w.loadURL('about:blank');
expect(() => {
(postMessage(w.webContents) as any)('channel', '', [123]);
}).to.throw(/Invalid value for transfer/);
});
it('throws when passing null ports', async () => {
const w = new BrowserWindow({ show: false });
await w.loadURL('about:blank');
expect(() => {
postMessage(w.webContents)('foo', null, [null] as any);
}).to.throw(/Invalid value for transfer/);
});
it('throws when passing duplicate ports', async () => {
const w = new BrowserWindow({ show: false });
await w.loadURL('about:blank');
const { port1 } = new MessageChannelMain();
expect(() => {
postMessage(w.webContents)('foo', null, [port1, port1]);
}).to.throw(/duplicate/);
});
it('throws when passing ports that have already been neutered', async () => {
const w = new BrowserWindow({ show: false });
await w.loadURL('about:blank');
const { port1 } = new MessageChannelMain();
postMessage(w.webContents)('foo', null, [port1]);
expect(() => {
postMessage(w.webContents)('foo', null, [port1]);
}).to.throw(/already neutered/);
});
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});
});
};
generateTests('WebContents.postMessage', contents => contents.postMessage.bind(contents));
generateTests('WebFrameMain.postMessage', contents => contents.mainFrame.postMessage.bind(contents.mainFrame));
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});
});