/* * Copyright (C) 2023-2024 Yomitan Authors * Copyright (C) 2021-2022 Yomichan Authors * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see <https://www.gnu.org/licenses/>. */ import {generateId} from '../core/utilities.js'; /** * This class is used to return the ancestor frame IDs for the current frame. * This is a workaround to using the `webNavigation.getAllFrames` API, which * would require an additional permission that is otherwise unnecessary. * It is also used to track the correlation between child frame elements and their IDs. */ export class FrameAncestryHandler { /** * Creates a new instance. * @param {import('../comm/cross-frame-api.js').CrossFrameAPI} crossFrameApi */ constructor(crossFrameApi) { /** @type {import('../comm/cross-frame-api.js').CrossFrameAPI} */ this._crossFrameApi = crossFrameApi; /** @type {boolean} */ this._isPrepared = false; /** @type {string} */ this._requestMessageId = 'FrameAncestryHandler.requestFrameInfo'; /** @type {?Promise<number[]>} */ this._getFrameAncestryInfoPromise = null; /** @type {Map<number, {window: Window, frameElement: ?(undefined|Element)}>} */ this._childFrameMap = new Map(); /** @type {Map<string, import('frame-ancestry-handler').ResponseHandler>} */ this._responseHandlers = new Map(); } /** * Initializes event event listening. */ prepare() { if (this._isPrepared) { return; } window.addEventListener('message', this._onWindowMessage.bind(this), false); this._crossFrameApi.registerHandlers([ ['frameAncestryHandlerRequestFrameInfoResponse', this._onFrameAncestryHandlerRequestFrameInfoResponse.bind(this)], ]); this._isPrepared = true; } /** * Returns whether or not this frame is the root frame in the tab. * @returns {boolean} `true` if it is the root, otherwise `false`. */ isRootFrame() { return (window === window.parent); } /** * Gets the frame ancestry information for the current frame. If the frame is the * root frame, an empty array is returned. Otherwise, an array of frame IDs is returned, * starting from the nearest ancestor. * @returns {Promise<number[]>} An array of frame IDs corresponding to the ancestors of the current frame. */ async getFrameAncestryInfo() { if (this._getFrameAncestryInfoPromise === null) { this._getFrameAncestryInfoPromise = this._getFrameAncestryInfo(5000); } return await this._getFrameAncestryInfoPromise; } /** * Gets the frame element of a child frame given a frame ID. * For this function to work, the `getFrameAncestryInfo` function needs to have * been invoked previously. * @param {number} frameId The frame ID of the child frame to get. * @returns {?Element} The element corresponding to the frame with ID `frameId`, otherwise `null`. */ getChildFrameElement(frameId) { const frameInfo = this._childFrameMap.get(frameId); if (typeof frameInfo === 'undefined') { return null; } let {frameElement} = frameInfo; if (typeof frameElement === 'undefined') { frameElement = this._findFrameElementWithContentWindow(frameInfo.window); frameInfo.frameElement = frameElement; } return frameElement; } // Private /** * @param {number} [timeout] * @returns {Promise<number[]>} */ _getFrameAncestryInfo(timeout = 5000) { return new Promise((resolve, reject) => { const {frameId} = this._crossFrameApi; const targetWindow = window.parent; if (frameId === null || window === targetWindow) { resolve([]); return; } const uniqueId = generateId(16); let nonce = generateId(16); /** @type {number[]} */ const results = []; /** @type {?import('core').Timeout} */ let timer = null; const cleanup = () => { if (timer !== null) { clearTimeout(timer); timer = null; } this._removeResponseHandler(uniqueId); }; /** @type {import('frame-ancestry-handler').ResponseHandler} */ const onMessage = (params) => { if (params.nonce !== nonce) { return null; } // Add result results.push(params.frameId); nonce = generateId(16); if (!params.more) { // Cleanup cleanup(); // Finish resolve(results); } return {nonce}; }; const onTimeout = () => { timer = null; cleanup(); reject(new Error(`Request for parent frame ID timed out after ${timeout}ms`)); }; const resetTimeout = () => { if (timer !== null) { clearTimeout(timer); } timer = setTimeout(onTimeout, timeout); }; // Start this._addResponseHandler(uniqueId, onMessage); resetTimeout(); this._requestFrameInfo(targetWindow, frameId, frameId, uniqueId, nonce); }); } /** * @param {MessageEvent<unknown>} event */ _onWindowMessage(event) { const source = /** @type {?Window} */ (event.source); if (source === null || source === window || source.parent !== window) { return; } const {data} = event; if (typeof data !== 'object' || data === null) { return; } const {action} = /** @type {import('core').SerializableObject} */ (data); if (action !== this._requestMessageId) { return; } const {params} = /** @type {import('core').SerializableObject} */ (data); if (typeof params !== 'object' || params === null) { return; } void this._onRequestFrameInfo(/** @type {import('core').SerializableObject} */ (params), source); } /** * @param {import('core').SerializableObject} params * @param {Window} source */ async _onRequestFrameInfo(params, source) { try { let {originFrameId, childFrameId, uniqueId, nonce} = params; if ( typeof originFrameId !== 'number' || typeof childFrameId !== 'number' || !this._isNonNegativeInteger(originFrameId) || typeof uniqueId !== 'string' || typeof nonce !== 'string' ) { return; } const {frameId} = this._crossFrameApi; if (frameId === null) { return; } const {parent} = window; const more = (window !== parent); try { const response = await this._crossFrameApi.invoke(originFrameId, 'frameAncestryHandlerRequestFrameInfoResponse', {uniqueId, frameId, nonce, more}); if (response === null) { return; } const nonce2 = response.nonce; if (typeof nonce2 !== 'string') { return; } nonce = nonce2; } catch (e) { return; } if (!this._childFrameMap.has(childFrameId)) { this._childFrameMap.set(childFrameId, {window: source, frameElement: void 0}); } if (more) { this._requestFrameInfo(parent, originFrameId, frameId, uniqueId, /** @type {string} */ (nonce)); } } catch (e) { // NOP } } /** * @param {Window} targetWindow * @param {number} originFrameId * @param {number} childFrameId * @param {string} uniqueId * @param {string} nonce */ _requestFrameInfo(targetWindow, originFrameId, childFrameId, uniqueId, nonce) { targetWindow.postMessage({ action: this._requestMessageId, params: {originFrameId, childFrameId, uniqueId, nonce}, }, '*'); } /** * @param {number} value * @returns {boolean} */ _isNonNegativeInteger(value) { return ( Number.isFinite(value) && value >= 0 && Math.floor(value) === value ); } /** * @param {Window} contentWindow * @returns {?Element} */ _findFrameElementWithContentWindow(contentWindow) { // Check frameElement, for non-null same-origin frames try { const {frameElement} = contentWindow; if (frameElement !== null) { return frameElement; } } catch (e) { // NOP } // Check frames const frameTypes = ['iframe', 'frame', 'object']; for (const frameType of frameTypes) { for (const frame of /** @type {HTMLCollectionOf<import('extension').HtmlElementWithContentWindow>} */ (document.getElementsByTagName(frameType))) { if (frame.contentWindow === contentWindow) { return frame; } } } // Check for shadow roots /** @type {Node[]} */ const rootElements = [document.documentElement]; while (rootElements.length > 0) { const rootElement = /** @type {Node} */ (rootElements.shift()); const walker = document.createTreeWalker(rootElement, NodeFilter.SHOW_ELEMENT); while (walker.nextNode()) { const element = /** @type {Element} */ (walker.currentNode); // @ts-expect-error - this is more simple to elide any type checks or casting if (element.contentWindow === contentWindow) { return element; } /** @type {?ShadowRoot|undefined} */ // eslint-disable-next-line @typescript-eslint/no-unsafe-assignment const shadowRoot = ( element.shadowRoot || // @ts-expect-error - openOrClosedShadowRoot is available to Firefox 63+ for WebExtensions element.openOrClosedShadowRoot ); if (shadowRoot) { rootElements.push(shadowRoot); } } } // Not found return null; } /** * @param {string} id * @param {import('frame-ancestry-handler').ResponseHandler} handler * @throws {Error} */ _addResponseHandler(id, handler) { if (this._responseHandlers.has(id)) { throw new Error('Identifier already used'); } this._responseHandlers.set(id, handler); } /** * @param {string} id */ _removeResponseHandler(id) { this._responseHandlers.delete(id); } /** @type {import('cross-frame-api').ApiHandler<'frameAncestryHandlerRequestFrameInfoResponse'>} */ _onFrameAncestryHandlerRequestFrameInfoResponse(params) { const handler = this._responseHandlers.get(params.uniqueId); return typeof handler !== 'undefined' ? handler(params) : null; } }