/** * Copyright 2017 Google Inc. All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ let fs = require('fs'); let EventEmitter = require('events'); let helper = require('./helper'); class FrameManager extends EventEmitter { /** * @param {!Connection} client * @param {!Mouse} mouse * @return {!Promise} */ static async create(client, mouse) { let mainFramePayload = await client.send('Page.getResourceTree'); return new FrameManager(client, mainFramePayload.frameTree, mouse); } /** * @param {!Connection} client * @param {!Object} frameTree * @param {!Mouse} mouse */ constructor(client, frameTree, mouse) { super(); this._client = client; this._mouse = mouse; /** @type {!Map} */ this._frames = new Map(); this._mainFrame = this._addFramesRecursively(null, frameTree); this._client.on('Page.frameAttached', event => this._onFrameAttached(event.frameId, event.parentFrameId)); this._client.on('Page.frameNavigated', event => this._onFrameNavigated(event.frame)); this._client.on('Page.frameDetached', event => this._onFrameDetached(event.frameId)); this._client.on('Runtime.executionContextCreated', event => this._onExecutionContextCreated(event.context)); } /** * @return {!Frame} */ mainFrame() { return this._mainFrame; } /** * @return {!Array} */ frames() { return Array.from(this._frames.values()); } /** * @param {string} frameId * @param {?string} parentFrameId * @return {?Frame} */ _onFrameAttached(frameId, parentFrameId) { if (this._frames.has(frameId)) return; console.assert(parentFrameId); let parentFrame = this._frames.get(parentFrameId); let frame = new Frame(this._client, this._mouse, parentFrame, frameId); this._frames.set(frame._id, frame); this.emit(FrameManager.Events.FrameAttached, frame); } /** * @param {!Object} framePayload */ _onFrameNavigated(framePayload) { let frame = this._frames.get(framePayload.id); if (!frame) { // Simulate missed "frameAttached" for a main frame navigation to the new backend process. console.assert(!framePayload.parentId, 'Main frame shouldn\'t have parent frame id.'); frame = this._mainFrame; } this._navigateFrame(frame, framePayload); } /** * @param {string} frameId */ _onFrameDetached(frameId) { let frame = this._frames.get(frameId); if (frame) this._removeFramesRecursively(frame); } _onExecutionContextCreated(context) { const frameId = context.auxData && context.auxData.isDefault ? context.auxData.frameId : null; const frame = this._frames.get(frameId); if (!frame) return; frame._defaultContextId = context.id; } /** * @param {!Frame} frame * @param {?Object} newFramePayload */ _navigateFrame(frame, newFramePayload) { // Detach all child frames first. for (let child of frame.childFrames()) this._removeFramesRecursively(child); this._frames.delete(frame._id); // Update frame id to retain frame identity. frame._id = newFramePayload.id; frame._navigated(newFramePayload); this._frames.set(newFramePayload.id, frame); this.emit(FrameManager.Events.FrameNavigated, frame); } /** * @param {?Frame} parentFrame * @param {!Object} frameTreePayload * @return {!Frame} */ _addFramesRecursively(parentFrame, frameTreePayload) { let framePayload = frameTreePayload.frame; let frame = new Frame(this._client, this._mouse, parentFrame, framePayload.id); frame._navigated(framePayload); this._frames.set(frame._id, frame); for (let i = 0; frameTreePayload.childFrames && i < frameTreePayload.childFrames.length; ++i) this._addFramesRecursively(frame, frameTreePayload.childFrames[i]); return frame; } /** * @param {!Frame} frame */ _removeFramesRecursively(frame) { for (let child of frame.childFrames()) this._removeFramesRecursively(child); frame._detach(); this._frames.delete(frame._id); this.emit(FrameManager.Events.FrameDetached, frame); } } /** @enum {string} */ FrameManager.Events = { FrameAttached: 'frameattached', FrameNavigated: 'framenavigated', FrameDetached: 'framedetached' }; /** * @unrestricted */ class Frame { /** * @param {!Connection} client * @param {!Mouse} mouse * @param {?Frame} parentFrame * @param {string} frameId */ constructor(client, mouse, parentFrame, frameId) { this._client = client; this._mouse = mouse; this._parentFrame = parentFrame; this._url = ''; this._id = frameId; this._defaultContextId = ''; /** @type {!Set} */ this._waitTasks = new Set(); /** @type {!Set} */ this._childFrames = new Set(); if (this._parentFrame) this._parentFrame._childFrames.add(this); } /** * @param {function()|string} pageFunction * @param {!Array<*>} args * @return {!Promise<(!Object|undefined)>} */ async evaluate(pageFunction, ...args) { let expression = helper.evaluationString(pageFunction, ...args); const contextId = this._defaultContextId; let { exceptionDetails, result: remoteObject } = await this._client.send('Runtime.evaluate', { expression, contextId, returnByValue: false}); if (exceptionDetails) throw new Error('Evaluation failed: ' + helper.getExceptionMessage(exceptionDetails)); return await helper.serializeRemoteObject(this._client, remoteObject); } /** * @return {string} */ name() { return this._name || ''; } /** * @return {string} */ url() { return this._url; } /** * @return {?Frame} */ parentFrame() { return this._parentFrame; } /** * @return {!Array.} */ childFrames() { return Array.from(this._childFrames); } /** * @return {boolean} */ isDetached() { return this._detached; } /** * @param {string} filePath * @return {!Promise} */ async injectFile(filePath) { let contents = await new Promise((resolve, reject) => { fs.readFile(filePath, 'utf8', (err, data) => { if (err) return reject(err); resolve(data); }); }); contents += `//# sourceURL=` + filePath.replace(/\n/g,''); return this.evaluate(contents); } /** * @param {string} url * @return {!Promise} */ async addScriptTag(url) { return this.evaluate(addScriptTag, url); /** * @param {string} url */ function addScriptTag(url) { let script = document.createElement('script'); script.src = url; let promise = new Promise(x => script.onload = x); document.head.appendChild(script); return promise; } } /** * @param {(string|number|function())} selectorOrTimeout * @param {!Object=} options * @return {!Promise} */ waitFor(selectorOrFunctionOrTimeout, options = {}) { if (helper.isString(selectorOrFunctionOrTimeout)) return this.waitForSelector(selectorOrFunctionOrTimeout, options); if (helper.isNumber(selectorOrFunctionOrTimeout)) return new Promise(fulfill => setTimeout(fulfill, selectorOrFunctionOrTimeout)); if (typeof selectorOrFunctionOrTimeout === 'function') return this.waitForFunction(selectorOrFunctionOrTimeout, options); return Promise.reject(new Error('Unsupported target type: ' + (typeof selectorOrFunctionOrTimeout))); } /** * @param {string} selector * @param {!Object=} options * @return {!Promise} */ waitForSelector(selector, options = {}) { const timeout = options.timeout || 30000; const waitForVisible = !!options.visible; const polling = waitForVisible ? 'raf' : 'mutation'; return this.waitForFunction(predicate, {timeout, polling}, selector, waitForVisible); /** * @param {string} selector * @param {boolean} waitForVisible * @return {boolean} */ function predicate(selector, waitForVisible) { const node = document.querySelector(selector); if (!node) return false; if (!waitForVisible) return true; const style = window.getComputedStyle(node); return style && style.display !== 'none' && style.visibility !== 'hidden'; } } /** * @param {function()} pageFunction * @param {!Object=} options * @return {!Promise} */ waitForFunction(pageFunction, options = {}, ...args) { const timeout = options.timeout || 30000; const polling = options.polling || 'raf'; const predicateCode = 'return ' + helper.evaluationString(pageFunction, ...args); return new WaitTask(this, predicateCode, polling, timeout).promise; } /** * @template T * @param {string} selector * @param {function(!Element):T} pageFunction * @param {!Array<*>} args * @return {!Promise} */ async $(selector, pageFunction, ...args) { let argsString = ['node'].concat(args.map(x => JSON.stringify(x))).join(','); let expression = `(()=>{ let node = document.querySelector(${JSON.stringify(selector)}); if (!node) return null; return (${pageFunction})(${argsString}); })()`; return this.evaluate(expression); } /** * @template T * @param {string} selector * @param {function(!Element):T} pageFunction * @param {!Array<*>} args * @return {!Promise>} */ async $$(selector, pageFunction, ...args) { let argsString = ['node, index'].concat(args.map(x => JSON.stringify(x))).join(','); let expression = `(()=>{ let nodes = document.querySelectorAll(${JSON.stringify(selector)}); return Array.prototype.map.call(nodes, (node, index) => (${pageFunction})(${argsString})); })()`; return this.evaluate(expression); } /** * @return {!Promise} */ async title() { return this.evaluate(() => document.title); } /** * @param {string} selector * @return {!Promise<{x: number, y: number}>} */ async _centerOfElement(selector) { let center = await this.evaluate(selector => { let element = document.querySelector(selector); if (!element) return null; element.scrollIntoViewIfNeeded(); let rect = element.getBoundingClientRect(); return { x: (Math.max(rect.left, 0) + Math.min(rect.right, window.innerWidth)) / 2, y: (Math.max(rect.top, 0) + Math.min(rect.bottom, window.innerHeight)) / 2 }; }, selector); if (!center) throw new Error('No node found for selector: ' + selector); return center; } /** * @param {string} selector * @return {!Promise} */ async hover(selector) { let {x, y} = await this._centerOfElement(selector); await this._mouse.move(x, y); } /** * @param {string} selector * @param {!Object=} options * @return {!Promise} */ async click(selector, options) { let {x, y} = await this._centerOfElement(selector); await this._mouse.click(x, y, options); } /** * @param {string} selector * @return {!Promise} */ async focus(selector) { let success = await this.evaluate(selector => { let node = document.querySelector(selector); if (!node) return false; node.focus(); return true; }, selector); if (!success) throw new Error('No node found for selector: ' + selector); } /** * @param {!Object} framePayload */ _navigated(framePayload) { this._name = framePayload.name; this._url = framePayload.url; for (let waitTask of this._waitTasks) waitTask.rerun(); } _detach() { for (let waitTask of this._waitTasks) waitTask.terminate(new Error('waitForSelector failed: frame got detached.')); this._detached = true; if (this._parentFrame) this._parentFrame._childFrames.delete(this); this._parentFrame = null; } } helper.tracePublicAPI(Frame); class WaitTask { /** * @param {!Frame} frame * @param {string} predicateBody * @param {string} polling * @param {number} timeout */ constructor(frame, predicateBody, polling, timeout) { if (helper.isString(polling)) console.assert(polling === 'raf' || polling === 'mutation', 'Unknown polling option: ' + polling); else if (helper.isNumber(polling)) console.assert(polling > 0, 'Cannot poll with non-positive interval: ' + polling); else throw new Error('Unknown polling options: ' + polling); this._frame = frame; this._pageScript = helper.evaluationString(waitForPredicatePageFunction, predicateBody, polling, timeout); this._runCount = 0; frame._waitTasks.add(this); this.promise = new Promise((resolve, reject) => { this._resolve = resolve; this._reject = reject; }); // Since page navigation requires us to re-install the pageScript, we should track // timeout on our end. this._timeoutTimer = setTimeout(() => this.terminate(new Error(`waiting failed: timeout ${timeout}ms exceeded`)), timeout); this.rerun(); } /** * @param {!Error} error */ terminate(error) { this._terminated = true; this._reject(error); this._cleanup(); } async rerun() { const runCount = ++this._runCount; let success = false; let error = null; try { success = await this._frame.evaluate(this._pageScript); } catch (e) { error = e; } if (this._terminated || runCount !== this._runCount) return; // Ignore timeouts in pageScript - we track timeouts ourselves. if (!success && !error) return; if (error) this._reject(error); else this._resolve(); this._cleanup(); } _cleanup() { clearTimeout(this._timeoutTimer); this._frame._waitTasks.delete(this); this._runningTask = null; } } /** * @param {string} predicateBody * @param {string} polling * @param {number} timeout * @return {!Promise} */ async function waitForPredicatePageFunction(predicateBody, polling, timeout) { const predicate = new Function(predicateBody); let timedOut = false; setTimeout(() => timedOut = true, timeout); if (polling === 'raf') await pollRaf(); else if (polling === 'mutation') await pollMutation(); else if (typeof polling === 'number') await pollInterval(polling); return !timedOut; /** * @return {!Promise} */ function pollMutation() { if (predicate()) return Promise.resolve(); let fulfill; const result = new Promise(x => fulfill = x); const observer = new MutationObserver(mutations => { if (timedOut || predicate()) { observer.disconnect(); fulfill(); } }); observer.observe(document, { childList: true, subtree: true }); return result; } /** * @return {!Promise} */ function pollRaf() { let fulfill; const result = new Promise(x => fulfill = x); onRaf(); return result; function onRaf() { if (timedOut || predicate()) fulfill(); else requestAnimationFrame(onRaf); } } /** * @param {number} pollInterval * @return {!Promise} */ function pollInterval(pollInterval) { let fulfill; const result = new Promise(x => fulfill = x); onTimeout(); return result; function onTimeout() { if (timedOut || predicate()) fulfill(); else setTimeout(onTimeout, pollInterval); } } } module.exports = FrameManager;