gecko-dev/testing/marionette/listener.js

1822 строки
56 KiB
JavaScript

/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
* You can obtain one at http://mozilla.org/MPL/2.0/. */
/* eslint-env mozilla/frame-script */
/* global XPCNativeWrapper */
"use strict";
const {classes: Cc, interfaces: Ci, utils: Cu} = Components;
const winUtil = content.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIDOMWindowUtils);
Cu.import("resource://gre/modules/FileUtils.jsm");
Cu.import("resource://gre/modules/Log.jsm");
Cu.import("resource://gre/modules/Preferences.jsm");
Cu.import("resource://gre/modules/Services.jsm");
Cu.import("chrome://marionette/content/accessibility.js");
Cu.import("chrome://marionette/content/action.js");
Cu.import("chrome://marionette/content/atom.js");
Cu.import("chrome://marionette/content/capture.js");
const {
element,
WebElement,
} = Cu.import("chrome://marionette/content/element.js", {});
const {
ElementNotInteractableError,
error,
InsecureCertificateError,
InvalidArgumentError,
InvalidElementStateError,
InvalidSelectorError,
NoSuchElementError,
NoSuchFrameError,
pprint,
TimeoutError,
UnknownError,
} = Cu.import("chrome://marionette/content/error.js", {});
Cu.import("chrome://marionette/content/evaluate.js");
Cu.import("chrome://marionette/content/event.js");
const {ContentEventObserverService} = Cu.import("chrome://marionette/content/dom.js", {});
Cu.import("chrome://marionette/content/interaction.js");
Cu.import("chrome://marionette/content/legacyaction.js");
Cu.import("chrome://marionette/content/navigate.js");
Cu.import("chrome://marionette/content/proxy.js");
Cu.import("chrome://marionette/content/session.js");
Cu.importGlobalProperties(["URL"]);
let listenerId = null; // unique ID of this listener
let curContainer = {frame: content, shadowRoot: null};
let previousContainer = null;
const seenEls = new element.Store();
const SUPPORTED_STRATEGIES = new Set([
element.Strategy.ClassName,
element.Strategy.Selector,
element.Strategy.ID,
element.Strategy.Name,
element.Strategy.LinkText,
element.Strategy.PartialLinkText,
element.Strategy.TagName,
element.Strategy.XPath,
]);
let capabilities;
let legacyactions = new legacyaction.Chain(checkForInterrupted);
// last touch for each fingerId
let multiLast = {};
const logger = Log.repository.getLogger("Marionette");
// Append only once to avoid duplicated output after listener.js gets reloaded
if (logger.ownAppenders.length == 0) {
logger.addAppender(new Log.DumpAppender());
}
// sandbox storage and name of the current sandbox
const sandboxes = new Sandboxes(() => curContainer.frame);
const eventObservers = new ContentEventObserverService(
content, sendAsyncMessage.bind(this));
/**
* The load listener singleton helps to keep track of active page load
* activities, and can be used by any command which might cause a navigation
* to happen. In the specific case of a reload of the frame script it allows
* to continue observing the current page load.
*/
const loadListener = {
commandID: null,
seenBeforeUnload: false,
seenUnload: false,
timeout: null,
timerPageLoad: null,
timerPageUnload: null,
/**
* Start listening for page unload/load events.
*
* @param {number} commandID
* ID of the currently handled message between the driver and
* listener.
* @param {number} timeout
* Timeout in seconds the method has to wait for the page being
* finished loading.
* @param {number} startTime
* Unix timestap when the navitation request got triggered.
* @param {boolean=} waitForUnloaded
* If true wait for page unload events, otherwise only for page
* load events.
*/
start(commandID, timeout, startTime, waitForUnloaded = true) {
this.commandID = commandID;
this.timeout = timeout;
this.seenBeforeUnload = false;
this.seenUnload = false;
this.timerPageLoad = Cc["@mozilla.org/timer;1"]
.createInstance(Ci.nsITimer);
this.timerPageUnload = null;
// In case the frame script has been reloaded, wait the remaining time
timeout = startTime + timeout - new Date().getTime();
if (timeout <= 0) {
this.notify(this.timerPageLoad);
return;
}
if (waitForUnloaded) {
addEventListener("beforeunload", this, true);
addEventListener("hashchange", this, true);
addEventListener("pagehide", this, true);
addEventListener("popstate", this, true);
addEventListener("unload", this, true);
Services.obs.addObserver(this, "outer-window-destroyed");
} else {
// The frame script got reloaded due to a new content process.
// Due to the time it takes to re-register the browser in Marionette,
// it can happen that page load events are missed before the listeners
// are getting attached again. By checking the document readyState the
// command can return immediately if the page load is already done.
let readyState = content.document.readyState;
let documentURI = content.document.documentURI;
logger.debug(`Check readyState "${readyState} for "${documentURI}"`);
// If the page load has already finished, don't setup listeners and
// timers but return immediatelly.
if (this.handleReadyState(readyState, documentURI)) {
return;
}
addEventListener("DOMContentLoaded", loadListener, true);
addEventListener("pageshow", loadListener, true);
}
this.timerPageLoad.initWithCallback(
this, timeout, Ci.nsITimer.TYPE_ONE_SHOT);
},
/**
* Stop listening for page unload/load events.
*/
stop() {
if (this.timerPageLoad) {
this.timerPageLoad.cancel();
}
if (this.timerPageUnload) {
this.timerPageUnload.cancel();
}
removeEventListener("beforeunload", this, true);
removeEventListener("hashchange", this, true);
removeEventListener("pagehide", this, true);
removeEventListener("popstate", this, true);
removeEventListener("DOMContentLoaded", this, true);
removeEventListener("pageshow", this, true);
removeEventListener("unload", this, true);
// In case the observer was added before the frame script has been
// reloaded, it will no longer be available. Exceptions can be ignored.
try {
Services.obs.removeObserver(this, "outer-window-destroyed");
} catch (e) {}
},
/**
* Callback for registered DOM events.
*/
handleEvent(event) {
// Only care about events from the currently selected browsing context,
// whereby some of those do not bubble up to the window.
if (event.target != curContainer.frame &&
event.target != curContainer.frame.document) {
return;
}
let location = event.target.documentURI || event.target.location.href;
logger.debug(`Received DOM event "${event.type}" for "${location}"`);
switch (event.type) {
case "beforeunload":
this.seenBeforeUnload = true;
break;
case "unload":
this.seenUnload = true;
break;
case "pagehide":
this.seenUnload = true;
removeEventListener("hashchange", this, true);
removeEventListener("pagehide", this, true);
removeEventListener("popstate", this, true);
// Now wait until the target page has been loaded
addEventListener("DOMContentLoaded", this, true);
addEventListener("pageshow", this, true);
break;
case "hashchange":
case "popstate":
this.stop();
sendOk(this.commandID);
break;
case "DOMContentLoaded":
case "pageshow":
this.handleReadyState(event.target.readyState,
event.target.documentURI);
break;
}
},
/**
* Checks the value of readyState for the current page
* load activity, and resolves the command if the load
* has been finished. It also takes care of the selected
* page load strategy.
*
* @param {string} readyState
* Current ready state of the document.
* @param {string} documentURI
* Current document URI of the document.
*
* @return {boolean}
* True if the page load has been finished.
*/
handleReadyState(readyState, documentURI) {
let finished = false;
switch (readyState) {
case "interactive":
if (documentURI.startsWith("about:certerror")) {
this.stop();
sendError(new InsecureCertificateError(), this.commandID);
finished = true;
} else if (/about:.*(error)\?/.exec(documentURI)) {
this.stop();
sendError(new UnknownError(`Reached error page: ${documentURI}`),
this.commandID);
finished = true;
// Return early with a page load strategy of eager, and also
// special-case about:blocked pages which should be treated as
// non-error pages but do not raise a pageshow event. about:blank
// is also treaded specifically here, because it gets temporary
// loaded for new content processes, and we only want to rely on
// complete loads for it.
} else if ((capabilities.get("pageLoadStrategy") ===
session.PageLoadStrategy.Eager &&
documentURI != "about:blank") ||
/about:blocked\?/.exec(documentURI)) {
this.stop();
sendOk(this.commandID);
finished = true;
}
break;
case "complete":
this.stop();
sendOk(this.commandID);
finished = true;
break;
}
return finished;
},
/**
* Callback for navigation timeout timer.
*/
notify(timer) {
switch (timer) {
case this.timerPageUnload:
// In the case when a document has a beforeunload handler
// registered, the currently active command will return immediately
// due to the modal dialog observer in proxy.js.
//
// Otherwise the timeout waiting for the document to start
// navigating is increased by 5000 ms to ensure a possible load
// event is not missed. In the common case such an event should
// occur pretty soon after beforeunload, and we optimise for this.
if (this.seenBeforeUnload) {
this.seenBeforeUnload = null;
this.timerPageUnload.initWithCallback(
this, 5000, Ci.nsITimer.TYPE_ONE_SHOT);
// If no page unload has been detected, ensure to properly stop
// the load listener, and return from the currently active command.
} else if (!this.seenUnload) {
logger.debug("Canceled page load listener because no navigation " +
"has been detected");
this.stop();
sendOk(this.commandID);
}
break;
case this.timerPageLoad:
this.stop();
sendError(
new TimeoutError(`Timeout loading page after ${this.timeout}ms`),
this.commandID);
break;
}
},
observe(subject, topic) {
const win = curContainer.frame;
const winID = subject.QueryInterface(Ci.nsISupportsPRUint64).data;
const curWinID = win.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIDOMWindowUtils).outerWindowID;
logger.debug(`Received observer notification "${topic}" for "${winID}"`);
switch (topic) {
// In the case when the currently selected frame is closed,
// there will be no further load events. Stop listening immediately.
case "outer-window-destroyed":
if (curWinID === winID) {
this.stop();
sendOk(this.commandID);
}
break;
}
},
/**
* Continue to listen for page load events after the frame script has been
* reloaded.
*
* @param {number} commandID
* ID of the currently handled message between the driver and
* listener.
* @param {number} timeout
* Timeout in milliseconds the method has to wait for the page
* being finished loading.
* @param {number} startTime
* Unix timestap when the navitation request got triggered.
*/
waitForLoadAfterFramescriptReload(commandID, timeout, startTime) {
this.start(commandID, timeout, startTime, false);
},
/**
* Use a trigger callback to initiate a page load, and attach listeners if
* a page load is expected.
*
* @param {function} trigger
* Callback that triggers the page load.
* @param {number} commandID
* ID of the currently handled message between the driver and listener.
* @param {number} pageTimeout
* Timeout in milliseconds the method has to wait for the page
* finished loading.
* @param {boolean=} loadEventExpected
* Optional flag, which indicates that navigate has to wait for the page
* finished loading.
* @param {string=} url
* Optional URL, which is used to check if a page load is expected.
*/
navigate(trigger, commandID, timeout, loadEventExpected = true,
useUnloadTimer = false) {
// Only wait if the page load strategy is not `none`
loadEventExpected = loadEventExpected &&
(capabilities.get("pageLoadStrategy") !==
session.PageLoadStrategy.None);
if (loadEventExpected) {
let startTime = new Date().getTime();
this.start(commandID, timeout, startTime, true);
}
return (async () => {
await trigger();
})().then(() => {
if (!loadEventExpected) {
sendOk(commandID);
return;
}
// If requested setup a timer to detect a possible page load
if (useUnloadTimer) {
this.timerPageUnload = Cc["@mozilla.org/timer;1"]
.createInstance(Ci.nsITimer);
this.timerPageUnload.initWithCallback(
this, 200, Ci.nsITimer.TYPE_ONE_SHOT);
}
}).catch(err => {
if (loadEventExpected) {
this.stop();
}
sendError(err, commandID);
});
},
};
/**
* Called when listener is first started up. The listener sends its
* unique window ID and its current URI to the actor. If the actor returns
* an ID, we start the listeners. Otherwise, nothing happens.
*/
function registerSelf() {
let msg = {value: winUtil.outerWindowID};
logger.debug(`Register listener.js for window ${msg.value}`);
// register will have the ID and a boolean describing if this is the
// main process or not
let register = sendSyncMessage("Marionette:register", msg);
if (register[0]) {
listenerId = register[0][0];
capabilities = session.Capabilities.fromJSON(register[0][1]);
if (typeof listenerId != "undefined") {
startListeners();
sendAsyncMessage("Marionette:listenersAttached",
{"listenerId": listenerId});
}
}
}
// Eventually we will not have a closure for every single command,
// but use a generic dispatch for all listener commands.
//
// Worth nothing that this shares many characteristics with
// server.TCPConnection#execute. Perhaps this could be generalised
// at the point.
function dispatch(fn) {
if (typeof fn != "function") {
throw new TypeError("Provided dispatch handler is not a function");
}
return msg => {
const id = msg.json.commandID;
let req = new Promise(resolve => {
const args = evaluate.fromJSON(msg.json, seenEls, curContainer.frame);
let rv;
if (typeof args == "undefined" || args instanceof Array) {
rv = fn.apply(null, args);
} else {
rv = fn(args);
}
resolve(rv);
});
req.then(rv => sendResponse(rv, id), err => sendError(err, id))
.catch(error.report);
};
}
/**
* Add a message listener that's tied to our listenerId.
*/
function addMessageListenerId(messageName, handler) {
addMessageListener(messageName + listenerId, handler);
}
/**
* Remove a message listener that's tied to our listenerId.
*/
function removeMessageListenerId(messageName, handler) {
removeMessageListener(messageName + listenerId, handler);
}
let getPageSourceFn = dispatch(getPageSource);
let getActiveElementFn = dispatch(getActiveElement);
let getElementAttributeFn = dispatch(getElementAttribute);
let getElementPropertyFn = dispatch(getElementProperty);
let getElementTextFn = dispatch(getElementText);
let getElementTagNameFn = dispatch(getElementTagName);
let getElementRectFn = dispatch(getElementRect);
let isElementEnabledFn = dispatch(isElementEnabled);
let findElementContentFn = dispatch(findElementContent);
let findElementsContentFn = dispatch(findElementsContent);
let isElementSelectedFn = dispatch(isElementSelected);
let clearElementFn = dispatch(clearElement);
let isElementDisplayedFn = dispatch(isElementDisplayed);
let getElementValueOfCssPropertyFn = dispatch(getElementValueOfCssProperty);
let switchToShadowRootFn = dispatch(switchToShadowRoot);
let singleTapFn = dispatch(singleTap);
let takeScreenshotFn = dispatch(takeScreenshot);
let performActionsFn = dispatch(performActions);
let releaseActionsFn = dispatch(releaseActions);
let actionChainFn = dispatch(actionChain);
let multiActionFn = dispatch(multiAction);
let executeFn = dispatch(execute);
let executeInSandboxFn = dispatch(executeInSandbox);
let sendKeysToElementFn = dispatch(sendKeysToElement);
let reftestWaitFn = dispatch(reftestWait);
/**
* Start all message listeners
*/
function startListeners() {
addMessageListenerId("Marionette:newSession", newSession);
addMessageListenerId("Marionette:execute", executeFn);
addMessageListenerId("Marionette:executeInSandbox", executeInSandboxFn);
addMessageListenerId("Marionette:singleTap", singleTapFn);
addMessageListenerId("Marionette:performActions", performActionsFn);
addMessageListenerId("Marionette:releaseActions", releaseActionsFn);
addMessageListenerId("Marionette:actionChain", actionChainFn);
addMessageListenerId("Marionette:multiAction", multiActionFn);
addMessageListenerId("Marionette:get", get);
addMessageListenerId("Marionette:waitForPageLoaded", waitForPageLoaded);
addMessageListenerId("Marionette:cancelRequest", cancelRequest);
addMessageListenerId("Marionette:getPageSource", getPageSourceFn);
addMessageListenerId("Marionette:goBack", goBack);
addMessageListenerId("Marionette:goForward", goForward);
addMessageListenerId("Marionette:refresh", refresh);
addMessageListenerId("Marionette:findElementContent", findElementContentFn);
addMessageListenerId(
"Marionette:findElementsContent", findElementsContentFn);
addMessageListenerId("Marionette:getActiveElement", getActiveElementFn);
addMessageListenerId("Marionette:clickElement", clickElement);
addMessageListenerId(
"Marionette:getElementAttribute", getElementAttributeFn);
addMessageListenerId("Marionette:getElementProperty", getElementPropertyFn);
addMessageListenerId("Marionette:getElementText", getElementTextFn);
addMessageListenerId("Marionette:getElementTagName", getElementTagNameFn);
addMessageListenerId("Marionette:isElementDisplayed", isElementDisplayedFn);
addMessageListenerId(
"Marionette:getElementValueOfCssProperty",
getElementValueOfCssPropertyFn);
addMessageListenerId("Marionette:getElementRect", getElementRectFn);
addMessageListenerId("Marionette:isElementEnabled", isElementEnabledFn);
addMessageListenerId("Marionette:isElementSelected", isElementSelectedFn);
addMessageListenerId("Marionette:sendKeysToElement", sendKeysToElementFn);
addMessageListenerId("Marionette:clearElement", clearElementFn);
addMessageListenerId("Marionette:switchToFrame", switchToFrame);
addMessageListenerId("Marionette:switchToParentFrame", switchToParentFrame);
addMessageListenerId("Marionette:switchToShadowRoot", switchToShadowRootFn);
addMessageListenerId("Marionette:deleteSession", deleteSession);
addMessageListenerId("Marionette:sleepSession", sleepSession);
addMessageListenerId("Marionette:takeScreenshot", takeScreenshotFn);
addMessageListenerId("Marionette:reftestWait", reftestWaitFn);
addMessageListener("Marionette:DOM:AddEventListener", domAddEventListener);
addMessageListener("Marionette:DOM:RemoveEventListener", domRemoveEventListener);
}
/**
* Called when we start a new session. It registers the
* current environment, and resets all values
*/
function newSession(msg) {
capabilities = session.Capabilities.fromJSON(msg.json);
resetValues();
}
/**
* Puts the current session to sleep, so all listeners are removed except
* for the 'restart' listener.
*/
function sleepSession() {
deleteSession();
addMessageListener("Marionette:restart", restart);
}
/**
* Restarts all our listeners after this listener was put to sleep
*/
function restart() {
removeMessageListener("Marionette:restart", restart);
registerSelf();
}
/**
* Removes all listeners
*/
function deleteSession() {
removeMessageListenerId("Marionette:newSession", newSession);
removeMessageListenerId("Marionette:execute", executeFn);
removeMessageListenerId("Marionette:executeInSandbox", executeInSandboxFn);
removeMessageListenerId("Marionette:singleTap", singleTapFn);
removeMessageListenerId("Marionette:performActions", performActionsFn);
removeMessageListenerId("Marionette:releaseActions", releaseActionsFn);
removeMessageListenerId("Marionette:actionChain", actionChainFn);
removeMessageListenerId("Marionette:multiAction", multiActionFn);
removeMessageListenerId("Marionette:get", get);
removeMessageListenerId("Marionette:waitForPageLoaded", waitForPageLoaded);
removeMessageListenerId("Marionette:cancelRequest", cancelRequest);
removeMessageListenerId("Marionette:getPageSource", getPageSourceFn);
removeMessageListenerId("Marionette:goBack", goBack);
removeMessageListenerId("Marionette:goForward", goForward);
removeMessageListenerId("Marionette:refresh", refresh);
removeMessageListenerId(
"Marionette:findElementContent", findElementContentFn);
removeMessageListenerId(
"Marionette:findElementsContent", findElementsContentFn);
removeMessageListenerId("Marionette:getActiveElement", getActiveElementFn);
removeMessageListenerId("Marionette:clickElement", clickElement);
removeMessageListenerId(
"Marionette:getElementAttribute", getElementAttributeFn);
removeMessageListenerId(
"Marionette:getElementProperty", getElementPropertyFn);
removeMessageListenerId(
"Marionette:getElementText", getElementTextFn);
removeMessageListenerId(
"Marionette:getElementTagName", getElementTagNameFn);
removeMessageListenerId(
"Marionette:isElementDisplayed", isElementDisplayedFn);
removeMessageListenerId(
"Marionette:getElementValueOfCssProperty",
getElementValueOfCssPropertyFn);
removeMessageListenerId("Marionette:getElementRect", getElementRectFn);
removeMessageListenerId("Marionette:isElementEnabled", isElementEnabledFn);
removeMessageListenerId(
"Marionette:isElementSelected", isElementSelectedFn);
removeMessageListenerId(
"Marionette:sendKeysToElement", sendKeysToElementFn);
removeMessageListenerId("Marionette:clearElement", clearElementFn);
removeMessageListenerId("Marionette:switchToFrame", switchToFrame);
removeMessageListenerId(
"Marionette:switchToParentFrame", switchToParentFrame);
removeMessageListenerId(
"Marionette:switchToShadowRoot", switchToShadowRootFn);
removeMessageListenerId("Marionette:deleteSession", deleteSession);
removeMessageListenerId("Marionette:sleepSession", sleepSession);
removeMessageListenerId("Marionette:takeScreenshot", takeScreenshotFn);
seenEls.clear();
// reset container frame to the top-most frame
curContainer = {frame: content, shadowRoot: null};
curContainer.frame.focus();
legacyactions.touchIds = {};
if (action.inputStateMap !== undefined) {
action.inputStateMap.clear();
}
if (action.inputsToCancel !== undefined) {
action.inputsToCancel.length = 0;
}
}
/**
* Send asynchronous reply to chrome.
*
* @param {UUID} uuid
* Unique identifier of the request.
* @param {AsyncContentSender.ResponseType} type
* Type of response.
* @param {*} [Object] data
* JSON serialisable object to accompany the message. Defaults to
* an empty dictionary.
*/
function sendToServer(uuid, data = undefined) {
let channel = new proxy.AsyncMessageChannel(
() => this,
sendAsyncMessage.bind(this));
channel.reply(uuid, data);
}
/**
* Send asynchronous reply with value to chrome.
*
* @param {Object} obj
* JSON serialisable object of arbitrary type and complexity.
* @param {UUID} uuid
* Unique identifier of the request.
*/
function sendResponse(obj, uuid) {
let payload = evaluate.toJSON(obj, seenEls);
sendToServer(uuid, payload);
}
/**
* Send asynchronous reply to chrome.
*
* @param {UUID} uuid
* Unique identifier of the request.
*/
function sendOk(uuid) {
sendToServer(uuid);
}
/**
* Send asynchronous error reply to chrome.
*
* @param {Error} err
* Error to notify chrome of.
* @param {UUID} uuid
* Unique identifier of the request.
*/
function sendError(err, uuid) {
sendToServer(uuid, err);
}
/**
* Clear test values after completion of test
*/
function resetValues() {
sandboxes.clear();
curContainer = {frame: content, shadowRoot: null};
legacyactions.mouseEventsOnly = false;
action.inputStateMap = new Map();
action.inputsToCancel = [];
}
function wasInterrupted() {
if (previousContainer) {
let element = content.document.elementFromPoint(
(content.innerWidth / 2), (content.innerHeight / 2));
if (element.id.indexOf("modal-dialog") == -1) {
return true;
}
return false;
}
return sendSyncMessage("MarionetteFrame:getInterruptedState", {})[0].value;
}
function checkForInterrupted() {
if (wasInterrupted()) {
// if previousContainer is set, then we're in a single process
// environment
if (previousContainer) {
curContainer = legacyactions.container = previousContainer;
previousContainer = null;
// else we're in OOP environment, so we'll switch to the original
// OOP frame
} else {
sendSyncMessage("Marionette:switchToModalOrigin");
}
sendSyncMessage("Marionette:switchedToFrame", {restorePrevious: true});
}
}
async function execute(script, args, timeout, opts) {
opts.timeout = timeout;
let sb = sandbox.createMutable(curContainer.frame);
return evaluate.sandbox(sb, script, args, opts);
}
async function executeInSandbox(script, args, timeout, opts) {
opts.timeout = timeout;
let sb = sandboxes.get(opts.sandboxName, opts.newSandbox);
return evaluate.sandbox(sb, script, args, opts);
}
function emitTouchEvent(type, touch) {
if (!wasInterrupted()) {
logger.info(`Emitting Touch event of type ${type} ` +
`to element with id: ${touch.target.id} ` +
`and tag name: ${touch.target.tagName} ` +
`at coordinates (${touch.clientX}), ` +
`${touch.clientY}) relative to the viewport`);
const win = curContainer.frame;
let docShell = win.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIWebNavigation)
.QueryInterface(Ci.nsIDocShell);
if (docShell.asyncPanZoomEnabled && legacyactions.scrolling) {
// if we're in APZ and we're scrolling, we must use
// sendNativeTouchPoint to dispatch our touchmove events
let index = sendSyncMessage("MarionetteFrame:getCurrentFrameId");
// only call emitTouchEventForIFrame if we're inside an iframe.
if (index != null) {
let ev = {
index,
type,
id: touch.identifier,
clientX: touch.clientX,
clientY: touch.clientY,
screenX: touch.screenX,
screenY: touch.screenY,
radiusX: touch.radiusX,
radiusY: touch.radiusY,
rotation: touch.rotationAngle,
force: touch.force,
};
sendSyncMessage("Marionette:emitTouchEvent", ev);
return;
}
}
// we get here if we're not in asyncPacZoomEnabled land, or if we're
// the main process
let domWindowUtils = win.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIDOMWindowUtils);
domWindowUtils.sendTouchEvent(
type,
[touch.identifier],
[touch.clientX],
[touch.clientY],
[touch.radiusX],
[touch.radiusY],
[touch.rotationAngle],
[touch.force],
1,
0);
}
}
/**
* Function that perform a single tap
*/
async function singleTap(el, corx, cory) {
// after this block, the element will be scrolled into view
let visible = element.isVisible(el, corx, cory);
if (!visible) {
throw new ElementNotInteractableError(
"Element is not currently visible and may not be manipulated");
}
let a11y = accessibility.get(capabilities.get("moz:accessibilityChecks"));
let acc = await a11y.getAccessible(el, true);
a11y.assertVisible(acc, el, visible);
a11y.assertActionable(acc, el);
if (!curContainer.frame.document.createTouch) {
legacyactions.mouseEventsOnly = true;
}
let c = element.coordinates(el, corx, cory);
if (!legacyactions.mouseEventsOnly) {
let touchId = legacyactions.nextTouchId++;
let touch = createATouch(el, c.x, c.y, touchId);
emitTouchEvent("touchstart", touch);
emitTouchEvent("touchend", touch);
}
legacyactions.mouseTap(el.ownerDocument, c.x, c.y);
}
/**
* Function to create a touch based on the element
* corx and cory are relative to the viewport, id is the touchId
*/
function createATouch(el, corx, cory, touchId) {
let doc = el.ownerDocument;
let win = doc.defaultView;
let [clientX, clientY, pageX, pageY, screenX, screenY] =
legacyactions.getCoordinateInfo(el, corx, cory);
let atouch = doc.createTouch(
win,
el,
touchId,
pageX,
pageY,
screenX,
screenY,
clientX,
clientY);
return atouch;
}
/**
* Perform a series of grouped actions at the specified points in time.
*
* @param {obj} msg
* Object with an |actions| attribute that is an Array of objects
* each of which represents an action sequence.
*/
async function performActions(msg) {
let chain = action.Chain.fromJSON(msg.actions);
await action.dispatch(chain, curContainer.frame);
}
/**
* The release actions command is used to release all the keys and pointer
* buttons that are currently depressed. This causes events to be fired
* as if the state was released by an explicit series of actions. It also
* clears all the internal state of the virtual devices.
*/
async function releaseActions() {
await action.dispatchTickActions(
action.inputsToCancel.reverse(), 0, curContainer.frame);
action.inputsToCancel.length = 0;
action.inputStateMap.clear();
}
/**
* Start action chain on one finger.
*/
function actionChain(chain, touchId) {
let touchProvider = {};
touchProvider.createATouch = createATouch;
touchProvider.emitTouchEvent = emitTouchEvent;
return legacyactions.dispatchActions(
chain,
touchId,
curContainer,
seenEls,
touchProvider);
}
function emitMultiEvents(type, touch, touches) {
let target = touch.target;
let doc = target.ownerDocument;
let win = doc.defaultView;
// touches that are in the same document
let documentTouches = doc.createTouchList(touches.filter(function(t) {
return ((t.target.ownerDocument === doc) && (type != "touchcancel"));
}));
// touches on the same target
let targetTouches = doc.createTouchList(touches.filter(function(t) {
return ((t.target === target) &&
((type != "touchcancel") || (type != "touchend")));
}));
// Create changed touches
let changedTouches = doc.createTouchList(touch);
// Create the event object
let event = doc.createEvent("TouchEvent");
event.initTouchEvent(type,
true,
true,
win,
0,
false, false, false, false,
documentTouches,
targetTouches,
changedTouches);
target.dispatchEvent(event);
}
function setDispatch(batches, touches, batchIndex = 0) {
// check if all the sets have been fired
if (batchIndex >= batches.length) {
multiLast = {};
return;
}
// a set of actions need to be done
let batch = batches[batchIndex];
// each action for some finger
let pack;
// the touch id for the finger (pack)
let touchId;
// command for the finger
let command;
// touch that will be created for the finger
let el;
let touch;
let lastTouch;
let touchIndex;
let waitTime = 0;
let maxTime = 0;
let c;
// loop through the batch
batchIndex++;
for (let i = 0; i < batch.length; i++) {
pack = batch[i];
touchId = pack[0];
command = pack[1];
switch (command) {
case "press":
el = seenEls.get(pack[2], curContainer.frame);
c = element.coordinates(el, pack[3], pack[4]);
touch = createATouch(el, c.x, c.y, touchId);
multiLast[touchId] = touch;
touches.push(touch);
emitMultiEvents("touchstart", touch, touches);
break;
case "release":
touch = multiLast[touchId];
// the index of the previous touch for the finger may change in
// the touches array
touchIndex = touches.indexOf(touch);
touches.splice(touchIndex, 1);
emitMultiEvents("touchend", touch, touches);
break;
case "move":
el = seenEls.get(pack[2], curContainer.frame);
c = element.coordinates(el);
touch = createATouch(multiLast[touchId].target, c.x, c.y, touchId);
touchIndex = touches.indexOf(lastTouch);
touches[touchIndex] = touch;
multiLast[touchId] = touch;
emitMultiEvents("touchmove", touch, touches);
break;
case "moveByOffset":
el = multiLast[touchId].target;
lastTouch = multiLast[touchId];
touchIndex = touches.indexOf(lastTouch);
let doc = el.ownerDocument;
let win = doc.defaultView;
// since x and y are relative to the last touch, therefore,
// it's relative to the position of the last touch
let clientX = lastTouch.clientX + pack[2];
let clientY = lastTouch.clientY + pack[3];
let pageX = clientX + win.pageXOffset;
let pageY = clientY + win.pageYOffset;
let screenX = clientX + win.mozInnerScreenX;
let screenY = clientY + win.mozInnerScreenY;
touch = doc.createTouch(
win,
el,
touchId,
pageX,
pageY,
screenX,
screenY,
clientX,
clientY);
touches[touchIndex] = touch;
multiLast[touchId] = touch;
emitMultiEvents("touchmove", touch, touches);
break;
case "wait":
if (typeof pack[2] != "undefined") {
waitTime = pack[2] * 1000;
if (waitTime > maxTime) {
maxTime = waitTime;
}
}
break;
}
}
if (maxTime != 0) {
let timer = Cc["@mozilla.org/timer;1"].createInstance(Ci.nsITimer);
timer.initWithCallback(function() {
setDispatch(batches, touches, batchIndex);
}, maxTime, Ci.nsITimer.TYPE_ONE_SHOT);
} else {
setDispatch(batches, touches, batchIndex);
}
}
/**
* Start multi-action.
*
* @param {Number} maxLen
* Longest action chain for one finger.
*/
function multiAction(args, maxLen) {
// unwrap the original nested array
let commandArray = evaluate.fromJSON(args, seenEls, curContainer.frame);
let concurrentEvent = [];
let temp;
for (let i = 0; i < maxLen; i++) {
let row = [];
for (let j = 0; j < commandArray.length; j++) {
if (typeof commandArray[j][i] != "undefined") {
// add finger id to the front of each action,
// i.e. [finger_id, action, element]
temp = commandArray[j][i];
temp.unshift(j);
row.push(temp);
}
}
concurrentEvent.push(row);
}
// Now concurrent event is made of sets where each set contain a list
// of actions that need to be fired.
//
// But note that each action belongs to a different finger
// pendingTouches keeps track of current touches that's on the screen.
let pendingTouches = [];
setDispatch(concurrentEvent, pendingTouches);
}
/**
* Cancel the polling and remove the event listener associated with a
* current navigation request in case we're interupted by an onbeforeunload
* handler and navigation doesn't complete.
*/
function cancelRequest() {
loadListener.stop();
}
/**
* This implements the latter part of a get request (for the case we need
* to resume one when the frame script has been reloaded in the middle of a
* navigate request). This is most of of the work of a navigate request,
* but doesn't assume DOMContentLoaded is yet to fire.
*
* @param {number} commandID
* ID of the currently handled message between the driver and
* listener.
* @param {number} pageTimeout
* Timeout in seconds the method has to wait for the page being
* finished loading.
* @param {number} startTime
* Unix timestap when the navitation request got triggred.
*/
function waitForPageLoaded(msg) {
let {commandID, pageTimeout, startTime} = msg.json;
loadListener.waitForLoadAfterFramescriptReload(
commandID, pageTimeout, startTime);
}
/**
* Navigate to the given URL. The operation will be performed on the
* current browsing context, which means it handles the case where we
* navigate within an iframe. All other navigation is handled by the driver
* (in chrome space).
*/
function get(msg) {
let {commandID, pageTimeout, url, loadEventExpected = null} = msg.json;
try {
if (typeof url == "string") {
try {
if (loadEventExpected === null) {
loadEventExpected = navigate.isLoadEventExpected(
curContainer.frame.location, url);
}
} catch (e) {
let err = new InvalidArgumentError("Malformed URL: " + e.message);
sendError(err, commandID);
return;
}
}
// We need to move to the top frame before navigating
sendSyncMessage("Marionette:switchedToFrame", {frameValue: null});
curContainer.frame = content;
loadListener.navigate(() => {
curContainer.frame.location = url;
}, commandID, pageTimeout, loadEventExpected);
} catch (e) {
sendError(e, commandID);
}
}
/**
* Cause the browser to traverse one step backward in the joint history
* of the current browsing context.
*
* @param {number} commandID
* ID of the currently handled message between the driver and
* listener.
* @param {number} pageTimeout
* Timeout in milliseconds the method has to wait for the page being
* finished loading.
*/
function goBack(msg) {
let {commandID, pageTimeout} = msg.json;
try {
loadListener.navigate(() => {
curContainer.frame.history.back();
}, commandID, pageTimeout);
} catch (e) {
sendError(e, commandID);
}
}
/**
* Cause the browser to traverse one step forward in the joint history
* of the current browsing context.
*
* @param {number} commandID
* ID of the currently handled message between the driver and
* listener.
* @param {number} pageTimeout
* Timeout in milliseconds the method has to wait for the page being
* finished loading.
*/
function goForward(msg) {
let {commandID, pageTimeout} = msg.json;
try {
loadListener.navigate(() => {
curContainer.frame.history.forward();
}, commandID, pageTimeout);
} catch (e) {
sendError(e, commandID);
}
}
/**
* Causes the browser to reload the page in in current top-level browsing
* context.
*
* @param {number} commandID
* ID of the currently handled message between the driver and
* listener.
* @param {number} pageTimeout
* Timeout in milliseconds the method has to wait for the page being
* finished loading.
*/
function refresh(msg) {
let {commandID, pageTimeout} = msg.json;
try {
// We need to move to the top frame before navigating
sendSyncMessage("Marionette:switchedToFrame", {frameValue: null});
curContainer.frame = content;
loadListener.navigate(() => {
curContainer.frame.location.reload(true);
}, commandID, pageTimeout);
} catch (e) {
sendError(e, commandID);
}
}
/**
* Get source of the current browsing context's DOM.
*/
function getPageSource() {
return curContainer.frame.document.documentElement.outerHTML;
}
/**
* Find an element in the current browsing context's document using the
* given search strategy.
*/
async function findElementContent(strategy, selector, opts = {}) {
if (!SUPPORTED_STRATEGIES.has(strategy)) {
throw new InvalidSelectorError("Strategy not supported: " + strategy);
}
opts.all = false;
if (opts.startNode) {
opts.startNode = opts.startNode;
}
let el = await element.find(curContainer, strategy, selector, opts);
return seenEls.add(el);
}
/**
* Find elements in the current browsing context's document using the
* given search strategy.
*/
async function findElementsContent(strategy, selector, opts = {}) {
if (!SUPPORTED_STRATEGIES.has(strategy)) {
throw new InvalidSelectorError("Strategy not supported: " + strategy);
}
opts.all = true;
let els = await element.find(curContainer, strategy, selector, opts);
let webEls = seenEls.addAll(els);
return webEls;
}
/** Find and return the active element on the page. */
function getActiveElement() {
let el = curContainer.frame.document.activeElement;
return evaluate.toJSON(el, seenEls);
}
/**
* Send click event to element.
*
* @param {number} commandID
* ID of the currently handled message between the driver and
* listener.
* @param {WebElement} el
* Reference to the web element to click.
* @param {number} pageTimeout
* Timeout in milliseconds the method has to wait for the page being
* finished loading.
*/
function clickElement(msg) {
let {commandID, webElRef, pageTimeout} = msg.json;
try {
let webEl = WebElement.fromJSON(webElRef);
let el = seenEls.get(webEl, curContainer.frame);
let loadEventExpected = true;
let target = getElementAttribute(el, "target");
if (target === "_blank") {
loadEventExpected = false;
}
loadListener.navigate(() => {
return interaction.clickElement(
el,
capabilities.get("moz:accessibilityChecks"),
capabilities.get("moz:webdriverClick")
);
}, commandID, pageTimeout, loadEventExpected, true);
} catch (e) {
sendError(e, commandID);
}
}
function getElementAttribute(el, name) {
if (element.isBooleanAttribute(el, name)) {
if (el.hasAttribute(name)) {
return "true";
}
return null;
}
return el.getAttribute(name);
}
function getElementProperty(el, name) {
return typeof el[name] != "undefined" ? el[name] : null;
}
/**
* Get the text of this element. This includes text from child
* elements.
*/
function getElementText(el) {
return atom.getElementText(el, curContainer.frame);
}
/**
* Get the tag name of an element.
*
* @param {WebElement} id
* Reference to web element.
*
* @return {string}
* Tag name of element.
*/
function getElementTagName(el) {
return el.tagName.toLowerCase();
}
/**
* Determine the element displayedness of the given web element.
*
* Also performs additional accessibility checks if enabled by session
* capability.
*/
function isElementDisplayed(el) {
return interaction.isElementDisplayed(
el, capabilities.get("moz:accessibilityChecks"));
}
/**
* Retrieves the computed value of the given CSS property of the given
* web element.
*/
function getElementValueOfCssProperty(el, prop) {
let st = curContainer.frame.document.defaultView.getComputedStyle(el);
return st.getPropertyValue(prop);
}
/**
* Get the position and dimensions of the element.
*
* @return {Object.<string, number>}
* The x, y, width, and height properties of the element.
*/
function getElementRect(el) {
let clientRect = el.getBoundingClientRect();
return {
x: clientRect.x + curContainer.frame.pageXOffset,
y: clientRect.y + curContainer.frame.pageYOffset,
width: clientRect.width,
height: clientRect.height,
};
}
function isElementEnabled(el) {
return interaction.isElementEnabled(
el, capabilities.get("moz:accessibilityChecks"));
}
/**
* Determines if the referenced element is selected or not.
*
* This operation only makes sense on input elements of the Checkbox-
* and Radio Button states, or option elements.
*/
function isElementSelected(el) {
return interaction.isElementSelected(
el, capabilities.get("moz:accessibilityChecks"));
}
async function sendKeysToElement(el, val) {
if (el.type == "file") {
await interaction.uploadFile(el, val);
} else if ((el.type == "date" || el.type == "time") &&
Preferences.get("dom.forms.datetime")) {
interaction.setFormControlValue(el, val);
} else {
await interaction.sendKeysToElement(
el, val, false, capabilities.get("moz:accessibilityChecks"));
}
}
/** Clear the text of an element. */
function clearElement(el) {
try {
if (el.type == "file") {
el.value = null;
} else {
atom.clearElement(el, curContainer.frame);
}
} catch (e) {
// Bug 964738: Newer atoms contain status codes which makes wrapping
// this in an error prototype that has a status property unnecessary
if (e.name == "InvalidElementStateError") {
throw new InvalidElementStateError(e.message);
} else {
throw e;
}
}
}
/** Switch the current context to the specified host's Shadow DOM. */
function switchToShadowRoot(el) {
if (!el) {
// If no host element is passed, attempt to find a parent shadow
// root or, if none found, unset the current shadow root
if (curContainer.shadowRoot) {
let parent;
try {
parent = curContainer.shadowRoot.host;
} catch (e) {
// There is a chance that host element is dead and we are trying to
// access a dead object.
curContainer.shadowRoot = null;
return;
}
while (parent && !(parent instanceof curContainer.frame.ShadowRoot)) {
parent = parent.parentNode;
}
curContainer.shadowRoot = parent;
}
return;
}
let foundShadowRoot = el.shadowRoot;
if (!foundShadowRoot) {
throw new NoSuchElementError(pprint`Unable to locate shadow root: ${el}`);
}
curContainer.shadowRoot = foundShadowRoot;
}
/**
* Switch to the parent frame of the current frame. If the frame is the
* top most is the current frame then no action will happen.
*/
function switchToParentFrame(msg) {
curContainer.frame = curContainer.frame.parent;
let parentElement = seenEls.add(curContainer.frame);
sendSyncMessage(
"Marionette:switchedToFrame", {frameValue: parentElement.uuid});
sendOk(msg.json.commandID);
}
/**
* Switch to frame given either the server-assigned element id,
* its index in window.frames, or the iframe's name or id.
*/
function switchToFrame(msg) {
let commandID = msg.json.commandID;
let foundFrame = null;
let frames = [];
let parWindow = null;
// Check of the curContainer.frame reference is dead
try {
frames = curContainer.frame.frames;
// Until Bug 761935 lands, we won't have multiple nested OOP
// iframes. We will only have one. parWindow will refer to the iframe
// above the nested OOP frame.
parWindow = curContainer.frame.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIDOMWindowUtils).outerWindowID;
} catch (e) {
// We probably have a dead compartment so accessing it is going to
// make Firefox very upset. Let's now try redirect everything to the
// top frame even if the user has given us a frame since search doesnt
// look up.
msg.json.id = null;
msg.json.element = null;
}
if ((msg.json.id === null || msg.json.id === undefined) &&
(msg.json.element == null)) {
// returning to root frame
sendSyncMessage("Marionette:switchedToFrame", {frameValue: null});
curContainer.frame = content;
if (msg.json.focus == true) {
curContainer.frame.focus();
}
sendOk(commandID);
return;
}
let webEl;
if (typeof msg.json.element != "undefined") {
webEl = WebElement.fromUUID(msg.json.element, "content");
}
if (webEl && seenEls.has(webEl)) {
let wantedFrame;
try {
wantedFrame = seenEls.get(webEl, curContainer.frame);
} catch (e) {
sendError(e, commandID);
return;
}
if (frames.length > 0) {
for (let i = 0; i < frames.length; i++) {
// use XPCNativeWrapper to compare elements; see bug 834266
let frameEl = frames[i].frameElement;
let wrappedItem = new XPCNativeWrapper(frameEl);
let wrappedWanted = new XPCNativeWrapper(wantedFrame);
if (wrappedItem == wrappedWanted) {
curContainer.frame = frameEl;
foundFrame = i;
}
}
}
if (foundFrame === null) {
// Either the frame has been removed or we have a OOP frame
// so lets just get all the iframes and do a quick loop before
// throwing in the towel
const doc = curContainer.frame.document;
let iframes = doc.getElementsByTagName("iframe");
for (let i = 0; i < iframes.length; i++) {
let frameEl = iframes[i];
let wrappedEl = new XPCNativeWrapper(frameEl);
let wrappedWanted = new XPCNativeWrapper(wantedFrame);
if (wrappedEl == wrappedWanted) {
curContainer.frame = iframes[i];
foundFrame = i;
}
}
}
}
if (foundFrame === null) {
if (typeof msg.json.id === "number") {
try {
foundFrame = frames[msg.json.id].frameElement;
if (foundFrame !== null) {
curContainer.frame = foundFrame;
foundFrame = seenEls.add(curContainer.frame);
} else {
// If foundFrame is null at this point then we have the top
// level browsing context so should treat it accordingly.
sendSyncMessage("Marionette:switchedToFrame", {frameValue: null});
curContainer.frame = content;
if (msg.json.focus == true) {
curContainer.frame.focus();
}
sendOk(commandID);
return;
}
} catch (e) {
// Since window.frames does not return OOP frames it will throw
// and we land up here. Let's not give up and check if there are
// iframes and switch to the indexed frame there
let doc = curContainer.frame.document;
let iframes = doc.getElementsByTagName("iframe");
if (msg.json.id >= 0 && msg.json.id < iframes.length) {
curContainer.frame = iframes[msg.json.id];
foundFrame = msg.json.id;
}
}
}
}
if (foundFrame === null) {
let failedFrame = msg.json.id || msg.json.element;
let err = new NoSuchFrameError(`Unable to locate frame: ${failedFrame}`);
sendError(err, commandID);
return;
}
// send a synchronous message to let the server update the currently active
// frame element (for getActiveFrame)
let frameWebEl = seenEls.add(curContainer.frame.wrappedJSObject);
sendSyncMessage("Marionette:switchedToFrame", {"frameValue": frameWebEl.uuid});
if (curContainer.frame.contentWindow === null) {
// The frame we want to switch to is a remote/OOP frame;
// notify our parent to handle the switch
curContainer.frame = content;
let rv = {win: parWindow, frame: foundFrame};
sendResponse(rv, commandID);
} else {
curContainer.frame = curContainer.frame.contentWindow;
if (msg.json.focus) {
curContainer.frame.focus();
}
sendOk(commandID);
}
}
/**
* Perform a screen capture in content context.
*
* Accepted values for |opts|:
*
* @param {UUID=} id
* Optional web element reference of an element to take a screenshot
* of.
* @param {boolean=} full
* True to take a screenshot of the entire document element. Is not
* considered if {@code id} is not defined. Defaults to true.
* @param {Array.<UUID>=} highlights
* Draw a border around the elements found by their web element
* references.
* @param {boolean=} scroll
* When |id| is given, scroll it into view before taking the
* screenshot. Defaults to true.
*
* @param {capture.Format} format
* Format to return the screenshot in.
* @param {Object.<string, ?>} opts
* Options.
*
* @return {string}
* Base64 encoded string or a SHA-256 hash of the screenshot.
*/
function takeScreenshot(format, opts = {}) {
let id = opts.id;
let full = !!opts.full;
let highlights = opts.highlights || [];
let scroll = !!opts.scroll;
let win = curContainer.frame;
let canvas;
let highlightEls = highlights
.map(ref => WebElement.fromUUID(ref, "content"))
.map(webEl => seenEls.get(webEl, win));
// viewport
if (!id && !full) {
canvas = capture.viewport(win, highlightEls);
// element or full document element
} else {
let el;
if (id) {
let webEl = WebElement.fromUUID(id, "content");
el = seenEls.get(webEl, win);
if (scroll) {
element.scrollIntoView(el);
}
} else {
el = win.document.documentElement;
}
canvas = capture.element(el, highlightEls);
}
switch (format) {
case capture.Format.Base64:
return capture.toBase64(canvas);
case capture.Format.Hash:
return capture.toHash(canvas);
default:
throw new TypeError("Unknown screenshot format: " + format);
}
}
function flushRendering() {
let content = curContainer.frame;
let anyPendingPaintsGeneratedInDescendants = false;
let windowUtils = content.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIDOMWindowUtils);
function flushWindow(win) {
let utils = win.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIDOMWindowUtils);
let afterPaintWasPending = utils.isMozAfterPaintPending;
let root = win.document.documentElement;
if (root) {
try {
// Flush pending restyles and reflows for this window
root.getBoundingClientRect();
} catch (e) {
logger.warning(`flushWindow failed: ${e}`);
}
}
if (!afterPaintWasPending && utils.isMozAfterPaintPending) {
anyPendingPaintsGeneratedInDescendants = true;
}
for (let i = 0; i < win.frames.length; ++i) {
flushWindow(win.frames[i]);
}
}
flushWindow(content);
if (anyPendingPaintsGeneratedInDescendants &&
!windowUtils.isMozAfterPaintPending) {
logger.error("Internal error: descendant frame generated a MozAfterPaint event, but the root document doesn't have one!");
}
logger.debug(`flushRendering ${windowUtils.isMozAfterPaintPending}`);
return windowUtils.isMozAfterPaintPending;
}
async function reftestWait(url, remote) {
let win = curContainer.frame;
let document = curContainer.frame.document;
let windowUtils = content.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIDOMWindowUtils);
let reftestWait = false;
if (document.location.href !== url || document.readyState != "complete") {
logger.debug(`Waiting for page load of ${url}`);
await new Promise(resolve => {
let maybeResolve = event => {
if (event.target === curContainer.frame.document &&
event.target.location.href === url) {
win = curContainer.frame;
document = curContainer.frame.document;
reftestWait = document.documentElement.classList.contains("reftest-wait");
removeEventListener("load", maybeResolve, {once: true});
win.setTimeout(resolve, 0);
}
};
addEventListener("load", maybeResolve, true);
});
} else {
// Ensure that the event loop has spun at least once since load,
// so that setTimeout(fn, 0) in the load event has run
reftestWait = document.documentElement.classList.contains("reftest-wait");
await new Promise(resolve => win.setTimeout(resolve, 0));
}
let root = document.documentElement;
if (reftestWait) {
// Check again in case reftest-wait was removed since the load event
if (root.classList.contains("reftest-wait")) {
logger.debug("Waiting for reftest-wait removal");
await new Promise(resolve => {
let observer = new win.MutationObserver(() => {
if (!root.classList.contains("reftest-wait")) {
observer.disconnect();
logger.debug("reftest-wait removed");
win.setTimeout(resolve, 0);
}
});
observer.observe(root, {attributes: true});
});
}
logger.debug("Waiting for rendering");
await new Promise(resolve => {
let maybeResolve = () => {
if (flushRendering()) {
win.addEventListener("MozAfterPaint", maybeResolve, {once: true});
} else {
win.setTimeout(resolve, 0);
}
};
maybeResolve();
});
} else {
flushRendering();
}
if (remote) {
windowUtils.updateLayerTree();
}
}
function domAddEventListener(msg) {
eventObservers.add(msg.json.type);
}
function domRemoveEventListener(msg) {
eventObservers.remove(msg.json.type);
}
// Call register self when we get loaded
registerSelf();