electron/spec/api-web-contents-view-spec.ts

316 строки
13 KiB
TypeScript

import { expect } from 'chai';
import { BaseWindow, BrowserWindow, View, WebContentsView, webContents, screen } from 'electron/main';
import { once } from 'node:events';
import { closeAllWindows } from './lib/window-helpers';
import { defer, ifdescribe } from './lib/spec-helpers';
import { HexColors, ScreenCapture, hasCapturableScreen, nextFrameTime } from './lib/screen-helpers';
describe('WebContentsView', () => {
afterEach(closeAllWindows);
it('can be instantiated with no arguments', () => {
// eslint-disable-next-line no-new
new WebContentsView();
});
it('can be instantiated with no webPreferences', () => {
// eslint-disable-next-line no-new
new WebContentsView({});
});
it('accepts existing webContents object', async () => {
const currentWebContentsCount = webContents.getAllWebContents().length;
const wc = (webContents as typeof ElectronInternal.WebContents).create({ sandbox: true });
defer(() => wc.destroy());
await wc.loadURL('about:blank');
const webContentsView = new WebContentsView({
webContents: wc
});
expect(webContentsView.webContents).to.eq(wc);
expect(webContents.getAllWebContents().length).to.equal(currentWebContentsCount + 1, 'expected only single webcontents to be created');
});
it('should throw error when created with already attached webContents to BrowserWindow', () => {
const browserWindow = new BrowserWindow();
defer(() => browserWindow.webContents.destroy());
const webContentsView = new WebContentsView();
defer(() => webContentsView.webContents.destroy());
browserWindow.contentView.addChildView(webContentsView);
defer(() => browserWindow.contentView.removeChildView(webContentsView));
expect(() => new WebContentsView({
webContents: webContentsView.webContents
})).to.throw('options.webContents is already attached to a window');
});
it('should throw error when created with already attached webContents to other WebContentsView', () => {
const browserWindow = new BrowserWindow();
const webContentsView = new WebContentsView();
defer(() => webContentsView.webContents.destroy());
webContentsView.webContents.loadURL('about:blank');
expect(() => new WebContentsView({
webContents: browserWindow.webContents
})).to.throw('options.webContents is already attached to a window');
});
it('can be used as content view', () => {
const w = new BaseWindow({ show: false });
w.setContentView(new WebContentsView());
});
it('can be removed after a close', async () => {
const w = new BaseWindow({ show: false });
const v = new View();
const wcv = new WebContentsView();
w.setContentView(v);
v.addChildView(wcv);
await wcv.webContents.loadURL('about:blank');
const destroyed = once(wcv.webContents, 'destroyed');
wcv.webContents.executeJavaScript('window.close()');
await destroyed;
expect(wcv.webContents.isDestroyed()).to.be.true();
v.removeChildView(wcv);
});
it('correctly reorders children', () => {
const w = new BaseWindow({ show: false });
const cv = new View();
w.setContentView(cv);
const wcv1 = new WebContentsView();
const wcv2 = new WebContentsView();
const wcv3 = new WebContentsView();
w.contentView.addChildView(wcv1);
w.contentView.addChildView(wcv2);
w.contentView.addChildView(wcv3);
expect(w.contentView.children).to.deep.equal([wcv1, wcv2, wcv3]);
w.contentView.addChildView(wcv1);
w.contentView.addChildView(wcv2);
expect(w.contentView.children).to.deep.equal([wcv3, wcv1, wcv2]);
});
function triggerGCByAllocation () {
const arr = [];
for (let i = 0; i < 1000000; i++) {
arr.push([]);
}
return arr;
}
it('doesn\'t crash when GCed during allocation', (done) => {
// eslint-disable-next-line no-new
new WebContentsView();
setTimeout(() => {
// NB. the crash we're testing for is the lack of a current `v8::Context`
// when emitting an event in WebContents's destructor. V8 is inconsistent
// about whether or not there's a current context during garbage
// collection, and it seems that `v8Util.requestGarbageCollectionForTesting`
// causes a GC in which there _is_ a current context, so the crash isn't
// triggered. Thus, we force a GC by other means: namely, by allocating a
// bunch of stuff.
triggerGCByAllocation();
done();
});
});
it('can be fullscreened', async () => {
const w = new BaseWindow();
const v = new WebContentsView();
w.setContentView(v);
await v.webContents.loadURL('data:text/html,<div id="div">This is a simple div.</div>');
const enterFullScreen = once(w, 'enter-full-screen');
await v.webContents.executeJavaScript('document.getElementById("div").requestFullscreen()', true);
await enterFullScreen;
expect(w.isFullScreen()).to.be.true('isFullScreen');
});
describe('visibilityState', () => {
it('is initially hidden', async () => {
const v = new WebContentsView();
await v.webContents.loadURL('data:text/html,<script>initialVisibility = document.visibilityState</script>');
expect(await v.webContents.executeJavaScript('initialVisibility')).to.equal('hidden');
});
it('becomes visible when attached', async () => {
const v = new WebContentsView();
await v.webContents.loadURL('about:blank');
expect(await v.webContents.executeJavaScript('document.visibilityState')).to.equal('hidden');
const p = v.webContents.executeJavaScript('new Promise(resolve => document.addEventListener("visibilitychange", resolve))');
// Ensure that the above listener has been registered before we add the
// view to the window, or else the visibilitychange event might be
// dispatched before the listener is registered.
// executeJavaScript calls are sequential so if this one's finished then
// the previous one must also have been finished :)
await v.webContents.executeJavaScript('undefined');
const w = new BaseWindow();
w.setContentView(v);
await p;
expect(await v.webContents.executeJavaScript('document.visibilityState')).to.equal('visible');
});
it('is initially visible if load happens after attach', async () => {
const w = new BaseWindow();
const v = new WebContentsView();
w.contentView = v;
await v.webContents.loadURL('data:text/html,<script>initialVisibility = document.visibilityState</script>');
expect(await v.webContents.executeJavaScript('initialVisibility')).to.equal('visible');
});
it('becomes hidden when parent window is hidden', async () => {
const w = new BaseWindow();
const v = new WebContentsView();
w.setContentView(v);
await v.webContents.loadURL('about:blank');
expect(await v.webContents.executeJavaScript('document.visibilityState')).to.equal('visible');
const p = v.webContents.executeJavaScript('new Promise(resolve => document.addEventListener("visibilitychange", resolve))');
// We have to wait until the listener above is fully registered before hiding the window.
// On Windows, the executeJavaScript and the visibilitychange can happen out of order
// without this.
await v.webContents.executeJavaScript('0');
w.hide();
await p;
expect(await v.webContents.executeJavaScript('document.visibilityState')).to.equal('hidden');
});
it('becomes visible when parent window is shown', async () => {
const w = new BaseWindow({ show: false });
const v = new WebContentsView();
w.setContentView(v);
await v.webContents.loadURL('about:blank');
expect(await v.webContents.executeJavaScript('document.visibilityState')).to.equal('hidden');
const p = v.webContents.executeJavaScript('new Promise(resolve => document.addEventListener("visibilitychange", resolve))');
// We have to wait until the listener above is fully registered before hiding the window.
// On Windows, the executeJavaScript and the visibilitychange can happen out of order
// without this.
await v.webContents.executeJavaScript('0');
w.show();
await p;
expect(await v.webContents.executeJavaScript('document.visibilityState')).to.equal('visible');
});
it('does not change when view is moved between two visible windows', async () => {
const w = new BaseWindow();
const v = new WebContentsView();
w.setContentView(v);
await v.webContents.loadURL('about:blank');
expect(await v.webContents.executeJavaScript('document.visibilityState')).to.equal('visible');
const p = v.webContents.executeJavaScript('new Promise(resolve => document.addEventListener("visibilitychange", () => resolve(document.visibilityState)))');
// Ensure the listener has been registered.
await v.webContents.executeJavaScript('undefined');
const w2 = new BaseWindow();
w2.setContentView(v);
// Wait for the visibility state to settle as "visible".
// On macOS one visibilitychange event is fired but visibilityState
// remains "visible". On Win/Linux, two visibilitychange events are
// fired, a "hidden" and a "visible" one. Reconcile these two models
// by waiting until at least one event has been fired, and then waiting
// until the visibility state settles as "visible".
let visibilityState = await p;
for (let attempts = 0; visibilityState !== 'visible' && attempts < 10; attempts++) {
visibilityState = await v.webContents.executeJavaScript('new Promise(resolve => document.visibilityState === "visible" ? resolve("visible") : document.addEventListener("visibilitychange", () => resolve(document.visibilityState)))');
}
expect(visibilityState).to.equal('visible');
});
});
describe('setBorderRadius', () => {
ifdescribe(hasCapturableScreen())('capture', () => {
let w: Electron.BaseWindow;
let v: Electron.WebContentsView;
let display: Electron.Display;
let corners: Electron.Point[];
const backgroundUrl = `data:text/html,<style>html{background:${encodeURIComponent(HexColors.GREEN)}}</style>`;
beforeEach(async () => {
display = screen.getPrimaryDisplay();
w = new BaseWindow({
...display.workArea,
show: true,
frame: false,
hasShadow: false,
backgroundColor: HexColors.BLUE,
roundedCorners: false
});
v = new WebContentsView();
w.setContentView(v);
v.setBorderRadius(100);
const readyForCapture = once(v.webContents, 'ready-to-show');
v.webContents.loadURL(backgroundUrl);
const inset = 10;
corners = [
{ x: display.workArea.x + inset, y: display.workArea.y + inset }, // top-left
{ x: display.workArea.x + display.workArea.width - inset, y: display.workArea.y + inset }, // top-right
{ x: display.workArea.x + display.workArea.width - inset, y: display.workArea.y + display.workArea.height - inset }, // bottom-right
{ x: display.workArea.x + inset, y: display.workArea.y + display.workArea.height - inset } // bottom-left
];
await readyForCapture;
});
afterEach(() => {
w.destroy();
w = v = null!;
});
it('should render with cutout corners', async () => {
const screenCapture = new ScreenCapture(display);
for (const corner of corners) {
await screenCapture.expectColorAtPointOnDisplayMatches(HexColors.BLUE, () => corner);
}
// Center should be WebContents page background color
await screenCapture.expectColorAtCenterMatches(HexColors.GREEN);
});
it('should allow resetting corners', async () => {
const corner = corners[0];
v.setBorderRadius(0);
await nextFrameTime();
const screenCapture = new ScreenCapture(display);
await screenCapture.expectColorAtPointOnDisplayMatches(HexColors.GREEN, () => corner);
await screenCapture.expectColorAtCenterMatches(HexColors.GREEN);
});
it('should render when set before attached', async () => {
v = new WebContentsView();
v.setBorderRadius(100); // must set before
w.setContentView(v);
const readyForCapture = once(v.webContents, 'ready-to-show');
v.webContents.loadURL(backgroundUrl);
await readyForCapture;
const corner = corners[0];
const screenCapture = new ScreenCapture(display);
await screenCapture.expectColorAtPointOnDisplayMatches(HexColors.BLUE, () => corner);
await screenCapture.expectColorAtCenterMatches(HexColors.GREEN);
});
});
it('should allow setting when not attached', async () => {
const v = new WebContentsView();
v.setBorderRadius(100);
});
});
});