import { ipcMainInternal } from '@electron/internal/browser/ipc-main-internal'; import type { WebContents, LoadURLOptions } from 'electron/main'; import { EventEmitter } from 'events'; // The history operation in renderer is redirected to browser. ipcMainInternal.on('ELECTRON_NAVIGATION_CONTROLLER_GO_BACK', function (event) { event.sender.goBack(); }); ipcMainInternal.on('ELECTRON_NAVIGATION_CONTROLLER_GO_FORWARD', function (event) { event.sender.goForward(); }); ipcMainInternal.on('ELECTRON_NAVIGATION_CONTROLLER_GO_TO_OFFSET', function (event, offset) { event.sender.goToOffset(offset); }); ipcMainInternal.on('ELECTRON_NAVIGATION_CONTROLLER_LENGTH', function (event) { event.returnValue = event.sender.length(); }); // JavaScript implementation of Chromium's NavigationController. // Instead of relying on Chromium for history control, we completely do history // control on user land, and only rely on WebContents.loadURL for navigation. // This helps us avoid Chromium's various optimizations so we can ensure renderer // process is restarted every time. export class NavigationController extends EventEmitter { currentIndex: number = -1; inPageIndex: number = -1; pendingIndex: number = -1; history: string[] = []; constructor (private webContents: WebContents) { super(); this.clearHistory(); // webContents may have already navigated to a page. if (this.webContents._getURL()) { this.currentIndex++; this.history.push(this.webContents._getURL()); } this.webContents.on('navigation-entry-committed' as any, (event: Electron.Event, url: string, inPage: boolean, replaceEntry: boolean) => { if (this.inPageIndex > -1 && !inPage) { // Navigated to a new page, clear in-page mark. this.inPageIndex = -1; } else if (this.inPageIndex === -1 && inPage && !replaceEntry) { // Started in-page navigations. this.inPageIndex = this.currentIndex; } if (this.pendingIndex >= 0) { // Go to index. this.currentIndex = this.pendingIndex; this.pendingIndex = -1; this.history[this.currentIndex] = url; } else if (replaceEntry) { // Non-user initialized navigation. this.history[this.currentIndex] = url; } else { // Normal navigation. Clear history. this.history = this.history.slice(0, this.currentIndex + 1); this.currentIndex++; this.history.push(url); } }); } loadURL (url: string, options?: LoadURLOptions): Promise { if (options == null) { options = {}; } const p = new Promise((resolve, reject) => { const resolveAndCleanup = () => { removeListeners(); resolve(); }; const rejectAndCleanup = (errorCode: number, errorDescription: string, url: string) => { const err = new Error(`${errorDescription} (${errorCode}) loading '${typeof url === 'string' ? url.substr(0, 2048) : url}'`); Object.assign(err, { errno: errorCode, code: errorDescription, url }); removeListeners(); reject(err); }; const finishListener = () => { resolveAndCleanup(); }; const failListener = (event: Electron.Event, errorCode: number, errorDescription: string, validatedURL: string, isMainFrame: boolean) => { if (isMainFrame) { rejectAndCleanup(errorCode, errorDescription, validatedURL); } }; let navigationStarted = false; const navigationListener = (event: Electron.Event, url: string, isSameDocument: boolean, isMainFrame: boolean) => { if (isMainFrame) { if (navigationStarted && !isSameDocument) { // the webcontents has started another unrelated navigation in the // main frame (probably from the app calling `loadURL` again); reject // the promise // We should only consider the request aborted if the "navigation" is // actually navigating and not simply transitioning URL state in the // current context. E.g. pushState and `location.hash` changes are // considered navigation events but are triggered with isSameDocument. // We can ignore these to allow virtual routing on page load as long // as the routing does not leave the document return rejectAndCleanup(-3, 'ERR_ABORTED', url); } navigationStarted = true; } }; const stopLoadingListener = () => { // By the time we get here, either 'finish' or 'fail' should have fired // if the navigation occurred. However, in some situations (e.g. when // attempting to load a page with a bad scheme), loading will stop // without emitting finish or fail. In this case, we reject the promise // with a generic failure. // TODO(jeremy): enumerate all the cases in which this can happen. If // the only one is with a bad scheme, perhaps ERR_INVALID_ARGUMENT // would be more appropriate. rejectAndCleanup(-2, 'ERR_FAILED', url); }; const removeListeners = () => { this.webContents.removeListener('did-finish-load', finishListener); this.webContents.removeListener('did-fail-load', failListener); this.webContents.removeListener('did-start-navigation', navigationListener); this.webContents.removeListener('did-stop-loading', stopLoadingListener); }; this.webContents.on('did-finish-load', finishListener); this.webContents.on('did-fail-load', failListener); this.webContents.on('did-start-navigation', navigationListener); this.webContents.on('did-stop-loading', stopLoadingListener); }); // Add a no-op rejection handler to silence the unhandled rejection error. p.catch(() => {}); this.pendingIndex = -1; this.webContents._loadURL(url, options); this.webContents.emit('load-url', url, options); return p; } getURL () { if (this.currentIndex === -1) { return ''; } else { return this.history[this.currentIndex]; } } stop () { this.pendingIndex = -1; return this.webContents._stop(); } reload () { this.pendingIndex = this.currentIndex; return this.webContents._loadURL(this.getURL(), {}); } reloadIgnoringCache () { this.pendingIndex = this.currentIndex; return this.webContents._loadURL(this.getURL(), { extraHeaders: 'pragma: no-cache\n', reloadIgnoringCache: true }); } canGoBack () { return this.getActiveIndex() > 0; } canGoForward () { return this.getActiveIndex() < this.history.length - 1; } canGoToIndex (index: number) { return index >= 0 && index < this.history.length; } canGoToOffset (offset: number) { return this.canGoToIndex(this.currentIndex + offset); } clearHistory () { this.history = []; this.currentIndex = -1; this.pendingIndex = -1; this.inPageIndex = -1; } goBack () { if (!this.canGoBack()) { return; } this.pendingIndex = this.getActiveIndex() - 1; if (this.inPageIndex > -1 && this.pendingIndex >= this.inPageIndex) { return this.webContents._goBack(); } else { return this.webContents._loadURL(this.history[this.pendingIndex], {}); } } goForward () { if (!this.canGoForward()) { return; } this.pendingIndex = this.getActiveIndex() + 1; if (this.inPageIndex > -1 && this.pendingIndex >= this.inPageIndex) { return this.webContents._goForward(); } else { return this.webContents._loadURL(this.history[this.pendingIndex], {}); } } goToIndex (index: number) { if (!this.canGoToIndex(index)) { return; } this.pendingIndex = index; return this.webContents._loadURL(this.history[this.pendingIndex], {}); } goToOffset (offset: number) { if (!this.canGoToOffset(offset)) { return; } const pendingIndex = this.currentIndex + offset; if (this.inPageIndex > -1 && pendingIndex >= this.inPageIndex) { this.pendingIndex = pendingIndex; return this.webContents._goToOffset(offset); } else { return this.goToIndex(pendingIndex); } } getActiveIndex () { if (this.pendingIndex === -1) { return this.currentIndex; } else { return this.pendingIndex; } } length () { return this.history.length; } }