puppeteer/lib/FrameManager.js
JoelEinbinder 64124df62f [api] add touchScreen.tap (#639)
This patch:
- adds `page.touchscreen` namespace, similar to `page.mouse` and `page.keyboard`.
- adds tapping to multiple layers:
  - `page.touchscreen.tap`
  - `page.tap` - convenience method which accepts selector
  - `elementHandle.tap`

Fixes #568 and #569.
2017-09-01 19:03:51 -07:00

561 lines
15 KiB
JavaScript

/**
* 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.
*/
const fs = require('fs');
const EventEmitter = require('events');
const helper = require('./helper');
const ElementHandle = require('./ElementHandle');
class FrameManager extends EventEmitter {
/**
* @param {!Session} client
* @param {!Object} frameTree
* @param {!Mouse} mouse
* @param {!Touchscreen} touchscreen
*/
constructor(client, mouse, touchscreen) {
super();
this._client = client;
this._mouse = mouse;
this._touchscreen = touchscreen;
/** @type {!Map<string, !Frame>} */
this._frames = new Map();
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<!Frame>}
*/
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);
const parentFrame = this._frames.get(parentFrameId);
const frame = new Frame(this._client, this._mouse, this._touchscreen, parentFrame, frameId);
this._frames.set(frame._id, frame);
this.emit(FrameManager.Events.FrameAttached, frame);
}
/**
* @param {!Object} framePayload
*/
_onFrameNavigated(framePayload) {
const isMainFrame = !framePayload.parentId;
let frame = isMainFrame ? this._mainFrame : this._frames.get(framePayload.id);
console.assert(isMainFrame || frame, 'We either navigate top level or have old version of the navigated frame');
// Detach all child frames first.
if (frame) {
for (const child of frame.childFrames())
this._removeFramesRecursively(child);
}
// Update or create main frame.
if (isMainFrame) {
if (frame) {
// Update frame id to retain frame identity on cross-process navigation.
this._frames.delete(frame._id, frame);
frame._id = framePayload.id;
} else {
// Initial main frame navigation.
frame = new Frame(this._client, this._mouse, this._touchscreen, null, framePayload.id);
}
this._frames.set(framePayload.id, frame);
this._mainFrame = frame;
}
// Update frame payload.
frame._navigated(framePayload);
this.emit(FrameManager.Events.FrameNavigated, frame);
}
/**
* @param {string} frameId
*/
_onFrameDetached(frameId) {
const 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;
for (const waitTask of frame._waitTasks)
waitTask.rerun();
}
/**
* @param {!Frame} frame
*/
_removeFramesRecursively(frame) {
for (const child of frame.childFrames())
this._removeFramesRecursively(child);
frame._detach();
this._frames.delete(frame._id);
this.emit(FrameManager.Events.FrameDetached, frame);
}
/**
* @param {!Frame} frame
* @return {boolean}
*/
isMainFrameLoadingFailed() {
return !!this._mainFrame._loadingFailed;
}
}
/** @enum {string} */
FrameManager.Events = {
FrameAttached: 'frameattached',
FrameNavigated: 'framenavigated',
FrameDetached: 'framedetached'
};
/**
* @unrestricted
*/
class Frame {
/**
* @param {!Session} client
* @param {!Mouse} mouse
* @param {!Touchscreen} touchscreen
* @param {?Frame} parentFrame
* @param {string} frameId
*/
constructor(client, mouse, touchscreen, parentFrame, frameId) {
this._client = client;
this._mouse = mouse;
this._touchscreen = touchscreen;
this._parentFrame = parentFrame;
this._url = '';
this._id = frameId;
this._defaultContextId = '<not-initialized>';
/** @type {!Set<!WaitTask>} */
this._waitTasks = new Set();
/** @type {!Set<!Frame>} */
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) {
const remoteObject = await this._rawEvaluate(pageFunction, ...args);
return await helper.serializeRemoteObject(this._client, remoteObject);
}
/**
* @param {string} selector
* @return {!Promise<?ElementHandle>}
*/
async $(selector) {
const remoteObject = await this._rawEvaluate(selector => document.querySelector(selector), selector);
if (remoteObject.subtype === 'node')
return new ElementHandle(this._client, remoteObject, this._mouse, this._touchscreen);
await helper.releaseObject(this._client, remoteObject);
return null;
}
/**
* @param {string} selector
* @param {function()|string} pageFunction
* @param {!Array<*>} args
* @return {!Promise<(!Object|undefined)>}
*/
async $eval(selector, pageFunction, ...args) {
const elementHandle = await this.$(selector);
if (!elementHandle)
throw new Error(`Error: failed to find element matching selector "${selector}"`);
const result = await elementHandle.evaluate(pageFunction, ...args);
await elementHandle.dispose();
return result;
}
/**
* @param {string} selector
* @return {!Promise<!Array<!ElementHandle>>}
*/
async $$(selector) {
const remoteObject = await this._rawEvaluate(selector => Array.from(document.querySelectorAll(selector)), selector);
const response = await this._client.send('Runtime.getProperties', {
objectId: remoteObject.objectId,
ownProperties: true
});
const properties = response.result;
const result = [];
const releasePromises = [helper.releaseObject(this._client, remoteObject)];
for (const property of properties) {
if (property.enumerable && property.value.subtype === 'node')
result.push(new ElementHandle(this._client, property.value, this._mouse, this._touchscreen));
else
releasePromises.push(helper.releaseObject(this._client, property.value));
}
await Promise.all(releasePromises);
return result;
}
/**
* @param {function()|string} pageFunction
* @param {!Array<*>} args
* @return {!Promise<(!Object|undefined)>}
*/
async _rawEvaluate(pageFunction, ...args) {
const expression = helper.evaluationString(pageFunction, ...args);
const contextId = this._defaultContextId;
const { exceptionDetails, result: remoteObject } = await this._client.send('Runtime.evaluate', { expression, contextId, returnByValue: false, awaitPromise: true});
if (exceptionDetails)
throw new Error('Evaluation failed: ' + helper.getExceptionMessage(exceptionDetails));
return remoteObject;
}
/**
* @return {string}
*/
name() {
return this._name || '';
}
/**
* @return {string}
*/
url() {
return this._url;
}
/**
* @return {?Frame}
*/
parentFrame() {
return this._parentFrame;
}
/**
* @return {!Array.<!Frame>}
*/
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
*/
async addScriptTag(url) {
return this.evaluate(addScriptTag, url);
/**
* @param {string} url
*/
function addScriptTag(url) {
const script = document.createElement('script');
script.src = url;
const 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;
}
/**
* @return {!Promise<string>}
*/
async title() {
return this.evaluate(() => document.title);
}
/**
* @param {!Object} framePayload
*/
_navigated(framePayload) {
this._name = framePayload.name;
this._url = framePayload.url;
this._loadingFailed = !!framePayload.unreachableUrl;
}
_detach() {
for (const 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;
// When the page is navigated, the promise is rejected.
// We will try again in the new execution context.
if (error && error.message.includes('Execution context was destroyed'))
return;
// We could have tried to evaluate in a context which was already
// destroyed.
if (error && error.message.includes('Cannot find context with specified id'))
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<boolean>}
*/
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<!Element>}
*/
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,
attributes: 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;